woody/Gen4_R-Car_Trace32
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
main
Gen4_R-Car_Trace32/2_Trunk/perm481.per
woody d411edd9b4 add Trace32 File
2025-10-14 09:52:32 +09:00

21505 lines
2.3 MiB
Raw Permalink Blame History

; --------------------------------------------------------------------------------
; @Title: M481 On-Chip Peripherals
; @Props: Released
; @Author: DAB
; @Changelog: 2022-03-04 DAB
; @Manufacturer: NUVOTON - Nuvoton Technology Corp.
; @Doc: SVD generated, based on: M481_v1.svd (Ver 1.0)
; @Core: Cortex-M4F
; @Chip: M481LE8AE, M481LGCAE, M481LIDAE, M481SE8AE, M481SGCAE, M481SGCAE2A,
; M481SIDAE, M481ZE8AE, M481ZGCAE, M481ZIDAE, M482KGCAE, M482KIDAE,
; M482LE8AE, M482LGCAE, M482LIDAE, M482SE8AE, M482SGCAE, M482SIDAE,
; M482ZE8AE, M482ZGCAE, M482ZIDAE, M483KGCAE, M483KGCAE2A, M483KIDAE,
; M483SE8AE, M483SGCAE, M483SGCAE2A, M483SIDAE, M484KIDAE, M484SIDAE,
; M484SIDAE2U, M485KIDAE, M485LIDAE, M485SIDAE, M487JIDAE, M487KIDAE,
; M487KMCAN, M487SIDAE
; @Copyright: (C) 1989-2022 Lauterbach GmbH, licensed for use with TRACE32(R) only
; --------------------------------------------------------------------------------
; $Id: perm481.per 14451 2022-03-05 10:37:53Z kwisniewski $
config 16. 8.
tree.close "Core Registers (Cortex-M4F)"
AUTOINDENT.PUSH
AUTOINDENT.OFF
tree "System Control"
sif COMPonent.AVAILABLE("COREDEBUG")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))
width 12.
group.long 0x08++0x03
line.long 0x00 "ACTLR,Auxiliary Control Register"
bitfld.long 0x00 9. " DISFPCA ,Disables lazy stacking of floating point context" "No,Yes"
bitfld.long 0x00 8. " DISOOFP ,Disables floating point instructions completing" "No,Yes"
bitfld.long 0x00 2. " DISFOLD ,Disables folding of IT instructions" "No,Yes"
textline " "
bitfld.long 0x00 1. " DISDEFWBUF ,Disables write buffer use during default memory map accesses" "No,Yes"
bitfld.long 0x00 0. " DISMCYCINT ,Disables interruption of multi-cycle instructions" "No,Yes"
group.long 0x10++0x0B
line.long 0x00 "SYST_CSR,SysTick Control and Status Register"
rbitfld.long 0x00 16. " COUNTFLAG ,Counter Flag" "Not counted,Counted"
bitfld.long 0x00 2. " CLKSOURCE ,SysTick clock source" "External,Core"
bitfld.long 0x00 1. " TICKINT ,SysTick Handler" "No SysTick,SysTick"
textline " "
bitfld.long 0x00 0. " ENABLE ,Counter Enable" "Disabled,Enabled"
line.long 0x04 "SYST_RVR,SysTick Reload Value Register"
hexmask.long.tbyte 0x04 0.--23. 1. " RELOAD ,The value to load into the SYST_CVR when the counter reaches 0"
line.long 0x08 "SYST_CVR,SysTick Current Value Register"
rgroup.long 0x1C++0x03
line.long 0x00 "SYST_CALIB,SysTick Calibration Value Register"
bitfld.long 0x00 31. " NOREF ,Indicates whether the implementation defined reference clock is implemented" "Implemented,Not implemented"
bitfld.long 0x00 30. " SKEW ,Indicates whether the 10ms calibration value is exact" "Exact,Inexact"
hexmask.long.tbyte 0x00 0.--23. 1. " TENMS ,Holds a reload value to be used for 10ms (100Hz) timing"
rgroup.long 0xD00++0x03
line.long 0x00 "CPUID,CPU ID Base Register"
hexmask.long.byte 0x00 24.--31. 1. " IMPLEMENTER ,Implementer Code"
bitfld.long 0x00 20.--23. " VARIANT ,Indicates processor revision" "Revision 0,?..."
bitfld.long 0x00 16.--19. " ARCHITECTURE ,Architecture" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
hexmask.long.word 0x00 4.--15. 1. " PARTNO ,Indicates part number"
bitfld.long 0x00 0.--3. " REVISION ,Indicates patch release" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xD04++0x23
line.long 0x00 "ICSR,Interrupt Control State Register"
bitfld.long 0x00 31. " NMIPENDSET ,Set Pending NMI Bit" "Inactive,Active"
bitfld.long 0x00 28. " PENDSVSET ,Set Pending pendSV Bit" "Not pending,Pending"
bitfld.long 0x00 27. " PENDSVCLR ,Removes the pending status of the PendSV exception" "No effect,Removed"
textline " "
bitfld.long 0x00 26. " PENDSTSET ,Set Pending SysTick Bit" "Not pending,Pending"
bitfld.long 0x00 25. " PENDSTCLR ,Clear Pending SysTick Bit" "No effect,Removed"
bitfld.long 0x00 23. " ISRPREEMPT ,Use Only at Debug Time" "Not active,Active"
textline " "
bitfld.long 0x00 22. " ISRPENDING ,Indicates whether an external interrupt" "Not pending,Pending"
hexmask.long.word 0x00 12.--20. 1. " VECTPENDING ,Pending ISR Number Field"
bitfld.long 0x00 11. " RETTOBASE ,Interrupt Exception" "Active,Not active"
textline " "
hexmask.long.word 0x00 0.--8. 1. " VECTACTIVE ,The exception number of the current executing exception"
line.long 0x04 "VTOR,Vector Table Offset Register"
hexmask.long 0x04 7.--31. 0x80 " TBLOFF ,Vector table address"
line.long 0x08 "AIRCR,Application Interrupt and Reset Control Register"
hexmask.long.word 0x08 16.--31. 1. " VECTKEY ,Register Key"
rbitfld.long 0x08 15. " ENDIANESS ,Data endianness Bit" "Little,Big"
bitfld.long 0x08 8.--10. " PRIGROUP ,Interrupt Priority Grouping Field" "[7:1]/[0],[7:2]/[1:0],[7:3]/[2:0],[7:4]/[3:0],[7:5]/[4:0],[7:6]/[5:0],[7]/[6:0],-/[7:0]"
textline " "
bitfld.long 0x08 2. " SYSRESETREQ ,System Reset Request" "Not requested,Requested"
bitfld.long 0x08 1. " VECTCLRACTIVE ,Clear Active Vector Bit" "No effect,Clear"
bitfld.long 0x08 0. " VECTRESET ,System Reset" "No effect,Reset"
line.long 0x0C "SCR,System Control Register"
bitfld.long 0x0C 4. " SEVONPEND ,Determines whether an interrupt transition from inactive state to pending state is a wakeup event" "Not wakeup,Wakeup"
bitfld.long 0x0C 2. " SLEEPDEEP ,Provides a qualifying hint indicating that waking from sleep might take longer" "Not deep sleep,Deep sleep"
bitfld.long 0x0C 1. " SLEEPONEXIT ,Determines whether, on an exit from an ISR that returns to the base level of execution priority, the processor enters a sleep state" "Disabled,Enabled"
line.long 0x10 "CCR,Configuration Control Register"
bitfld.long 0x10 18. " BP ,Branch prediction enable bit" "Disabled,Enabled"
bitfld.long 0x10 17. " IC ,Instruction cache enable bit" "Disabled,Enabled"
bitfld.long 0x10 16. " DC ,Cache enable bit" "Disabled,Enabled"
textline " "
bitfld.long 0x10 9. " STKALIGN ,8-byte Stack Frame Alignment" "4-byte/no adjustment,8-byte/adjustment"
bitfld.long 0x10 8. " BFHFNMIGN ,Enable NMI and Hard Fault and FAULTMASK to Ignore Bus Fault" "Disabled,Enabled"
bitfld.long 0x10 4. " DIV_0_TRP ,Trap Divide by Zero" "Disabled,Enabled"
textline " "
bitfld.long 0x10 3. " UNALIGN_TRP ,Trap for Unaligned Access" "Disabled,Enabled"
bitfld.long 0x10 1. " USERSETMPEND ,Controls whether unprivileged software can access the STIR" "Denied,Allowed"
bitfld.long 0x10 0. " NONEBASETHRDENA ,Control Entry to Thread Mode" "Only from last exception,Any level"
line.long 0x14 "SHPR1,SSystem Handler Priority Register 1"
hexmask.long.byte 0x14 24.--31. 1. " PRI_7 ,Priority of System Handler 7"
hexmask.long.byte 0x14 16.--23. 1. " PRI_6 ,Priority of system handler 6(UsageFault)"
hexmask.long.byte 0x14 8.--15. 1. " PRI_5 ,Priority of system handler 5(BusFault)"
textline " "
hexmask.long.byte 0x14 0.--7. 1. " PRI_4 ,Priority of system handler 4(MemManage)"
line.long 0x18 "SHPR2,System Handler Priority Register 2"
hexmask.long.byte 0x18 24.--31. 1. " PRI_11 ,Priority of system handler 11(SVCall)"
hexmask.long.byte 0x18 16.--23. 1. " PRI_10 ,Priority of System Handler 10"
hexmask.long.byte 0x18 8.--15. 1. " PRI_9 ,Priority of System Handler 9"
textline " "
hexmask.long.byte 0x18 0.--7. 1. " PRI_8 ,Priority of System Handler 8"
line.long 0x1C "SHPR3,System Handler Priority Register 3"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_15 ,Priority of System Handler 15(SysTick)"
hexmask.long.byte 0x1C 16.--23. 1. " PRI_14 ,Priority of System Handler 14(PendSV)"
hexmask.long.byte 0x1C 8.--15. 1. " PRI_13 ,Priority of System Handler 13"
textline " "
hexmask.long.byte 0x1C 0.--7. 1. " PRI_12 ,Priority of System Handler 12(DebugMonitor)"
line.long 0x20 "SHCSR,System Handler Control and State Register"
bitfld.long 0x20 18. " USGFAULTENA ,Enable UsageFault" "Disabled,Enabled"
bitfld.long 0x20 17. " BUSFAULTENA ,Enable BusFault" "Disabled,Enabled"
bitfld.long 0x20 16. " MEMFAULTENA ,Enable MemManage fault" "Disabled,Enabled"
textline " "
bitfld.long 0x20 15. " SVCALLPENDED ,SVCall is pending" "Not pending,Pending"
bitfld.long 0x20 14. " BUSFAULTPENDED ,BusFault is pending" "Not pending,Pending"
bitfld.long 0x20 13. " MEMFAULTPENDED ,MemManage is pending" "Not pending,Pending"
textline " "
bitfld.long 0x20 12. " USGFAULTPENDED ,UsageFault is pending" "Not pending,Pending"
bitfld.long 0x20 11. " SYSTICKACT ,SysTick is Active" "Not active,Active"
bitfld.long 0x20 10. " PENDSVACT ,PendSV is Active" "Not active,Active"
textline " "
bitfld.long 0x20 8. " MONITORACT ,Monitor is Active" "Not active,Active"
bitfld.long 0x20 7. " SVCALLACT ,SVCall is Active" "Not active,Active"
bitfld.long 0x20 3. " USGFAULTACT ,UsageFault is Active" "Not active,Active"
textline " "
bitfld.long 0x20 1. " BUSFAULTACT ,BusFault is Active" "Not active,Active"
bitfld.long 0x20 0. " MEMFAULTACT ,MemManage is Active" "Not active,Active"
group.byte 0xD28++0x1
line.byte 0x00 "MMFSR,MemManage Status Register"
bitfld.byte 0x00 7. " MMARVALID ,Address Valid Flag" "Not valid,Valid"
bitfld.byte 0x00 5. " MLSPERR ,A MemManage fault occurred during FP lazy state preservation" "Not occurred,Occurred"
bitfld.byte 0x00 4. " MSTKERR ,tacking Access Violations" "Not occurred,Occurred"
textline " "
bitfld.byte 0x00 3. " MUNSTKERR ,Unstack Access Violations" "Not occurred,Occurred"
bitfld.byte 0x00 1. " DACCVIOL ,Data Access Violation" "Not occurred,Occurred"
bitfld.byte 0x00 0. " IACCVIOL ,Instruction Access Violation" "Not occurred,Occurred"
line.byte 0x01 "BFSR,Bus Fault Status Register"
bitfld.byte 0x01 7. " BFARVALID ,Address Valid Flag" "Not valid,Valid"
bitfld.byte 0x01 5. " LSPERR ,A bus fault occurred during FP lazy state preservation" "Not occurred,Occurred"
bitfld.byte 0x01 4. " STKERR ,Derived bus fault(exception entry)" "Not occurred,Occurred"
textline " "
bitfld.byte 0x01 3. " UNSTKERR ,Derived bus fault(exception return)" "Not occurred,Occurred"
bitfld.byte 0x01 2. " IMPRECISERR ,Imprecise data access error" "Not occurred,Occurred"
bitfld.byte 0x01 1. " PRECISERR ,Precise data access error" "Not occurred,Occurred"
textline " "
bitfld.byte 0x01 0. " IBUSERR ,Bus fault on an instruction prefetch" "Not occurred,Occurred"
group.word 0xD2A++0x1
line.word 0x00 "USAFAULT,Usage Fault Status Register"
bitfld.word 0x00 9. " DIVBYZERO ,Divide by zero error" "No error,Error"
bitfld.word 0x00 8. " UNALIGNED ,Unaligned access error" "No error,Error"
bitfld.word 0x00 3. " NOCP ,A coprocessor access error" "No error,Error"
textline " "
bitfld.word 0x00 2. " INVPC ,An integrity check error" "No error,Error"
bitfld.word 0x00 1. " INVSTATE ,Invalid Combination of EPSR and Instruction" "No error,Error"
bitfld.word 0x00 0. " UNDEFINSTR ,Undefined instruction error" "No error,Error"
group.long 0xD2C++0x07
line.long 0x00 "HFSR,Hard Fault Status Register"
bitfld.long 0x00 31. " DEBUGEVT ,Indicates when a Debug event has occurred" "Not occurred,Occurred"
bitfld.long 0x00 30. " FORCED ,Indicates that a fault with configurable priority" "Not occurred,Occurred"
bitfld.long 0x00 1. " VECTTBL ,Indicates when a fault has occurred because of a vector table read error on exception processing" "Not occurred,Occurred"
line.long 0x04 "DFSR,Debug Fault Status Register"
bitfld.long 0x04 4. " EXTERNAL ,Indicates a debug event generated because of the assertion of EDBGRQ" "Not asserted,Asserted"
bitfld.long 0x04 3. " VCATCH ,Vector Catch Flag" "Not occurred,Occurred"
bitfld.long 0x04 2. " DWTTRAP ,Indicates a debug event generated by the DWT" "Not occurred,Occurred"
textline " "
bitfld.long 0x04 1. " BKPT ,BKPT Flag" "Not executed,Executed"
bitfld.long 0x04 0. " HALTED ,Indicates a debug event generated by either" "Not requested,Requested"
group.long 0xD34++0x0B
line.long 0x00 "MMFAR,MemManage Fault Address Register"
line.long 0x04 "BFAR,BusFault Address Register"
line.long 0x08 "AFSR,Auxiliary Fault Status Register"
group.long 0xD88++0x03
line.long 0x00 "CPACR,Coprocessor Access Control Register"
bitfld.long 0x00 22.--23. " CP11 ,Access privileges for coprocessor 11" "Access denied,Privileged only,Reserved,Full access"
bitfld.long 0x00 20.--21. " CP10 ,Access privileges for coprocessor 10" "Access denied,Privileged only,Reserved,Full access"
bitfld.long 0x00 14.--15. " CP7 ,Access privileges for coprocessor 7" "Access denied,Privileged only,Reserved,Full access"
textline " "
bitfld.long 0x00 12.--13. " CP6 ,Access privileges for coprocessor 6" "Access denied,Privileged only,Reserved,Full access"
bitfld.long 0x00 10.--11. " CP5 ,Access privileges for coprocessor 5" "Access denied,Privileged only,Reserved,Full access"
bitfld.long 0x00 8.--9. " CP4 ,Access privileges for coprocessor 4" "Access denied,Privileged only,Reserved,Full access"
textline " "
bitfld.long 0x00 6.--7. " CP3 ,Access privileges for coprocessor 3" "Access denied,Privileged only,Reserved,Full access"
bitfld.long 0x00 4.--5. " CP2 ,Access privileges for coprocessor 2" "Access denied,Privileged only,Reserved,Full access"
bitfld.long 0x00 2.--3. " CP1 ,Access privileges for coprocessor 1" "Access denied,Privileged only,Reserved,Full access"
textline " "
bitfld.long 0x00 0.--1. " CP0 ,Access privileges for coprocessor 0" "Access denied,Privileged only,Reserved,Full access"
wgroup.long 0xF00++0x03
line.long 0x00 "STIR,Software Trigger Interrupt Register"
hexmask.long.word 0x00 0.--8. 1. " INTID ,Indicates the interrupt to be triggered"
width 10.
tree "Feature Registers"
rgroup.long 0xD40++0x0B
line.long 0x00 "ID_PFR0,Processor Feature Register 0"
bitfld.long 0x00 4.--7. " STATE1 ,Thumb instruction set support" ",,,Supported,?..."
bitfld.long 0x00 0.--3. " STATE0 ,ARM instruction set support" "Not supported,?..."
line.long 0x04 "ID_PFR1,Processor Feature Register 1"
bitfld.long 0x04 8.--11. " MPROF ,M profile programmers' model" ",,2-stack,?..."
line.long 0x08 "ID_DFR0,Debug Feature Register 0"
bitfld.long 0x08 20.--23. " DBGMOD ,Support for memory-mapped debug model for M profile processors" "Not supported,Supported,?..."
hgroup.long 0xD4C++0x03
hide.long 0x00 "ID_AFR0,Auxiliary Feature Register 0"
rgroup.long 0xD50++0x03
line.long 0x00 "ID_MMFR0,Memory Model Feature Register 0"
bitfld.long 0x00 20.--23. " AUXREG ,Indicates the support for Auxiliary registers" "Not supported,ACTLR only,?..."
bitfld.long 0x00 16.--19. " TCMSUP ,Indicates the support for Tightly Coupled Memory (TCM)" "Not supported,Supported,?..."
bitfld.long 0x00 12.--15. " SHRLEV ,Indicates the number of shareability levels implemented" "Level 1,?..."
textline " "
bitfld.long 0x00 8.--11. " OUTMSHR ,Indicates the outermost shareability domain implemented" "Non-cacheable,,,,,,,,,,,,,,,Ignored"
bitfld.long 0x00 4.--7. " PMSASUP ,Indicates support for a PMSA" "Not supported,,,PMSAv7,?..."
hgroup.long 0xD54++0x03
hide.long 0x00 "ID_MMFR1,Memory Model Feature Register 1"
rgroup.long 0xD58++0x03
line.long 0x00 "ID_MMFR2,Memory Model Feature Register 2"
bitfld.long 0x00 24.--27. " WFISTALL ,Indicates the support for Wait For Interrupt (WFI) stalling" "Not supported,Supported,?..."
rgroup.long 0xD60++0x13
line.long 0x00 "ID_ISAR0,Instruction Set Attributes Register 0"
bitfld.long 0x00 24.--27. " DIVIDE ,Indicates the supported divide instructions" "Not supported,SDIV/UDIV,?..."
bitfld.long 0x00 20.--23. " DEBUG ,Indicates the supported debug instructions" "Not supported,BKPT,?..."
bitfld.long 0x00 16.--19. " COPROC ,Indicates the supported coprocessor instructions" "Not supported,CDP/LDC/MCR/STC,CDP2/LDC2/MCR2/STC2,MCRR/MRRC,MCRR2/MRRC2,?..."
textline " "
bitfld.long 0x00 12.--15. " CMPBRANCH ,Indicates the supported combined compare and branch instructions" "Not supported,CBNZ/CBZ,?..."
bitfld.long 0x00 8.--11. " BITFIELD ,Indicates the supported bitfield instructions" "Not supported,BFC/BFI/SBFX/UBFX,?..."
bitfld.long 0x00 4.--7. " BITCOUNT ,Indicates the supported bit counting instructions" "Not supported,CLZ,?..."
line.long 0x04 "ID_ISAR1,Instruction Set Attributes Register 1"
bitfld.long 0x04 24.--27. " INTERWORK ,Indicates the supported Interworking instructions" "Not supported,BX,BX/BLX,?..."
bitfld.long 0x04 20.--23. " IMMEDIATE ,Indicates the support for data-processing instructions with long immediates" "Not supported,ADDW/MOVW/MOVT/SUBW,?..."
bitfld.long 0x04 16.--19. " IFTHEN ,Indicates the supported IfThen instructions" "Not supported,IT,?..."
textline " "
bitfld.long 0x04 12.--15. " EXTEND ,Indicates the supported Extend instructions" "Not supported,Supported,Supported,?..."
line.long 0x08 "ID_ISAR2,Instruction Set Attributes Register 2"
bitfld.long 0x08 24.--27. " REVERSAL ,Indicates the supported reversal instructions" "Not supported,REV/REV16/REVSH,REV/REV16/REVSH/RBIT,?..."
bitfld.long 0x08 20.--23. " MULTU ,Indicates the supported advanced unsigned multiply instructions" "Not supported,UMULL/UMLAL,UMULL/UMLAL/UMAAL,?..."
bitfld.long 0x08 16.--19. " MULTS ,Indicates the supported advanced signed multiply instructions" "Not supported,Supported,Supported,Supported,?..."
textline " "
bitfld.long 0x08 12.--15. " MULT ,Indicates the supported additional multiply instructions" "Not supported,MLA,MLA/MLS,?..."
bitfld.long 0x08 8.--11. " MULTIACCESSINT ,Indicates the support for multi-access interruptible instructions" "Not supported,LDM/STM restartable,LDM/STM continuable,?..."
bitfld.long 0x08 4.--7. " MEMHINT ,Indicates the supported memory hint instructions" "Not supported,,,PLD/PLI,?..."
textline " "
bitfld.long 0x08 0.--3. " LOADSTORE ,Indicates the supported additional load and store instructions" "Not supported,LDRD/STRD,?..."
line.long 0x0C "ID_ISAR3,Instruction Set Attributes Register 3"
bitfld.long 0x0C 24.--27. " TRUENOP ,Indicates the support for a true NOP instruction" "Not supported,Supported,?..."
bitfld.long 0x0C 20.--23. " THUMBCOPY ,Indicates the supported non flag-setting MOV instructions" "Not supported,Supported,?..."
bitfld.long 0x0C 16.--19. " TABBRANCH ,Indicates the supported Table Branch instructions" "Not supported,TBB/TBH,?..."
textline " "
bitfld.long 0x0C 12.--15. " SYNCHPRIM ,Indicates the supported Table Branch instructions" "Not supported,Supported,Supported,Supported,?..."
bitfld.long 0x0C 8.--11. " SVC ,Indicates the supported SVC instructions" "Not supported,SVC,?..."
bitfld.long 0x0C 4.--7. " SIMD ,Indicates the supported SIMD instructions" "Not supported,Supported,,Supported,?..."
textline " "
bitfld.long 0x0C 0.--3. " SATURATE ,Indicates the supported Saturate instructions" "Not supported,QADD/QDADD/QDSUB/QSUB,?..."
line.long 0x10 "ID_ISAR4,Instruction Set Attributes Register 4"
bitfld.long 0x10 24.--27. " PSR_M ,Indicates the supported M profile instructions to modify the PSRs" "Not supported,Supported,?..."
bitfld.long 0x10 20.--23. " SYNCHPRIMFRAC ,Indicates the supported M profile instructions to modify the PSRs" "Not supported,Supported,Supported,Supported,?..."
bitfld.long 0x10 16.--19. " BARRIER ,Indicates the supported Barrier instructions" "Not supported,DMB/DSB/ISB,?..."
textline " "
bitfld.long 0x10 8.--11. " WRITEBACK ,Indicates the support for writeback addressing modes" "Basic support,Full support,?..."
bitfld.long 0x10 4.--7. " WITHSHIFTS ,Indicates the support for instructions with shifts" "MOV/shift,Shift LSL 0-3,,Shift other,?..."
bitfld.long 0x10 0.--3. " UNPRIV ,Indicates the supported unprivileged instructions" "Not supported,LDRBT/LDRT/STRBT/STRT,LDRBT/LDRT/STRBT/STRT/LDRHT/LDRSBT/LDRSHTSTRHT,?..."
tree.end
width 6.
tree "CoreSight Identification Registers"
rgroup.long 0xFE0++0x0F
line.long 0x00 "PID0,Peripheral ID0"
hexmask.long.byte 0x00 0.--7. 1. " Part_Num[7:0] ,Part Number bits[7:0]"
line.long 0x04 "PID1,Peripheral ID1"
hexmask.long.byte 0x04 4.--7. 1. " JEP106ID[3:0] ,JEP106 ID code bits[3:0]"
hexmask.long.byte 0x04 0.--3. 1. " Part_Num[11:8] ,Part Number bits[11:8]"
line.long 0x08 "PID2,Peripheral ID2"
hexmask.long.byte 0x08 4.--7. 1. " Revision ,Revision"
bitfld.long 0x08 3. " JEDEC ,JEDEC assigned ID fields" "0,JEDEC"
hexmask.long.byte 0x08 0.--2. 1. " JEP106ID[6:4] ,JEP106 ID code bits[6:4]"
line.long 0x0C "PID3,Peripheral ID3"
hexmask.long.byte 0x0C 4.--7. 1. " RevAnd ,Minor revision field"
hexmask.long.byte 0x0C 0.--3. 1. " CMB ,Customer-modified block"
rgroup.long 0xFD0++0x03
line.long 0x00 "PID4,Peripheral Identification Register 4"
hexmask.long.byte 0x00 4.--7. 1. " Count ,4KB count"
hexmask.long.byte 0x00 0.--3. 1. " JEP106_CC ,JEP106 continuation code"
rgroup.long 0xFF0++0x0F
line.long 0x00 "CID0,Component ID0 (Preamble)"
line.long 0x04 "CID1,Component ID1"
hexmask.long.byte 0x04 4.--7. 1. " CC ,Component Class"
hexmask.long.byte 0x04 0.--3. 1. " Preamble ,Preamble"
line.long 0x08 "CID2,Component ID2"
line.long 0x0C "CID3,Component ID3"
tree.end
width 0x0B
else
newline
textline "COREDEBUG component base address not specified"
newline
endif
tree.end
tree "Memory Protection Unit"
sif COMPonent.AVAILABLE("COREDEBUG")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))
width 15.
rgroup.long 0xD90++0x03
line.long 0x00 "MPU_TYPE,MPU Type Register"
bitfld.long 0x00 16.--23. " IREGION ,Instruction region" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,?..."
bitfld.long 0x00 8.--15. " DREGION ,Number of regions supported by the MPU" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,?..."
bitfld.long 0x00 0. " SEPARATE ,Indicates support for separate instruction and data address maps" "Not supported,Supported"
group.long 0xD94++0x03
line.long 0x00 "MPU_CTRL,MPU Control Register"
bitfld.long 0x00 2. " PRIVDEFENA ,Enables the default memory map as a background region for privileged access" "Disabled,Enabled"
bitfld.long 0x00 1. " HFNMIENA ,Handlers executing with priority less than 0 access memory with the MPU enabled or with the MPU disabled" "MPU disabled,MPU enabled"
bitfld.long 0x00 0. " ENABLE ,Enables the MPU" "Disabled,Enabled"
group.long 0xD98++0x03
line.long 0x00 "MPU_RNR,MPU Region Number Register"
hexmask.long.byte 0x00 0.--7. 1. " REGION ,Indicates the memory region accessed by MPU_RBAR and MPU_RASR"
tree.close "MPU regions"
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x0
group.long 0xD9C++0x03 "Region 0"
saveout 0xD98 %l 0x0
line.long 0x00 "MPU_RBAR0,MPU Region Base Address Register 0"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x0
line.long 0x00 "MPU_RASR0,MPU Region Attribute and Size Register 0"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 0 (not implemented)"
saveout 0xD98 %l 0x0
hide.long 0x00 "MPU_RBAR0,MPU Region Base Address Register 0"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x0
hide.long 0x00 "MPU_RASR0,MPU Region Attribute and Size Register 0"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x1
group.long 0xD9C++0x03 "Region 1"
saveout 0xD98 %l 0x1
line.long 0x00 "MPU_RBAR1,MPU Region Base Address Register 1"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x1
line.long 0x00 "MPU_RASR1,MPU Region Attribute and Size Register 1"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 1 (not implemented)"
saveout 0xD98 %l 0x1
hide.long 0x00 "MPU_RBAR1,MPU Region Base Address Register 1"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x1
hide.long 0x00 "MPU_RASR1,MPU Region Attribute and Size Register 1"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x2
group.long 0xD9C++0x03 "Region 2"
saveout 0xD98 %l 0x2
line.long 0x00 "MPU_RBAR2,MPU Region Base Address Register 2"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x2
line.long 0x00 "MPU_RASR2,MPU Region Attribute and Size Register 2"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 2 (not implemented)"
saveout 0xD98 %l 0x2
hide.long 0x00 "MPU_RBAR2,MPU Region Base Address Register 2"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x2
hide.long 0x00 "MPU_RASR2,MPU Region Attribute and Size Register 2"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x3
group.long 0xD9C++0x03 "Region 3"
saveout 0xD98 %l 0x3
line.long 0x00 "MPU_RBAR3,MPU Region Base Address Register 3"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x3
line.long 0x00 "MPU_RASR3,MPU Region Attribute and Size Register 3"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 3 (not implemented)"
saveout 0xD98 %l 0x3
hide.long 0x00 "MPU_RBAR3,MPU Region Base Address Register 3"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x3
hide.long 0x00 "MPU_RASR3,MPU Region Attribute and Size Register 3"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x4
group.long 0xD9C++0x03 "Region 4"
saveout 0xD98 %l 0x4
line.long 0x00 "MPU_RBAR4,MPU Region Base Address Register 4"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x4
line.long 0x00 "MPU_RASR4,MPU Region Attribute and Size Register 4"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 4 (not implemented)"
saveout 0xD98 %l 0x4
hide.long 0x00 "MPU_RBAR4,MPU Region Base Address Register 4"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x4
hide.long 0x00 "MPU_RASR4,MPU Region Attribute and Size Register 4"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x5
group.long 0xD9C++0x03 "Region 5"
saveout 0xD98 %l 0x5
line.long 0x00 "MPU_RBAR5,MPU Region Base Address Register 5"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x5
line.long 0x00 "MPU_RASR5,MPU Region Attribute and Size Register 5"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 5 (not implemented)"
saveout 0xD98 %l 0x5
hide.long 0x00 "MPU_RBAR5,MPU Region Base Address Register 5"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x5
hide.long 0x00 "MPU_RASR5,MPU Region Attribute and Size Register 5"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x6
group.long 0xD9C++0x03 "Region 6"
saveout 0xD98 %l 0x6
line.long 0x00 "MPU_RBAR6,MPU Region Base Address Register 6"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x6
line.long 0x00 "MPU_RASR6,MPU Region Attribute and Size Register 6"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 6 (not implemented)"
saveout 0xD98 %l 0x6
hide.long 0x00 "MPU_RBAR6,MPU Region Base Address Register 6"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x6
hide.long 0x00 "MPU_RASR6,MPU Region Attribute and Size Register 6"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x7
group.long 0xD9C++0x03 "Region 7"
saveout 0xD98 %l 0x7
line.long 0x00 "MPU_RBAR7,MPU Region Base Address Register 7"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x7
line.long 0x00 "MPU_RASR7,MPU Region Attribute and Size Register 7"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 7 (not implemented)"
saveout 0xD98 %l 0x7
hide.long 0x00 "MPU_RBAR7,MPU Region Base Address Register 7"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x7
hide.long 0x00 "MPU_RASR7,MPU Region Attribute and Size Register 7"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x8
group.long 0xD9C++0x03 "Region 8"
saveout 0xD98 %l 0x8
line.long 0x00 "MPU_RBAR8,MPU Region Base Address Register 8"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x8
line.long 0x00 "MPU_RASR8,MPU Region Attribute and Size Register 8"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 8 (not implemented)"
saveout 0xD98 %l 0x8
hide.long 0x00 "MPU_RBAR8,MPU Region Base Address Register 8"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x8
hide.long 0x00 "MPU_RASR8,MPU Region Attribute and Size Register 8"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0x9
group.long 0xD9C++0x03 "Region 9"
saveout 0xD98 %l 0x9
line.long 0x00 "MPU_RBAR9,MPU Region Base Address Register 9"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0x9
line.long 0x00 "MPU_RASR9,MPU Region Attribute and Size Register 9"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 9 (not implemented)"
saveout 0xD98 %l 0x9
hide.long 0x00 "MPU_RBAR9,MPU Region Base Address Register 9"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0x9
hide.long 0x00 "MPU_RASR9,MPU Region Attribute and Size Register 9"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xA
group.long 0xD9C++0x03 "Region 10"
saveout 0xD98 %l 0xA
line.long 0x00 "MPU_RBAR10,MPU Region Base Address Register 10"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0xA
line.long 0x00 "MPU_RASR10,MPU Region Attribute and Size Register 10"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 10 (not implemented)"
saveout 0xD98 %l 0xA
hide.long 0x00 "MPU_RBAR10,MPU Region Base Address Register 10"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0xA
hide.long 0x00 "MPU_RASR10,MPU Region Attribute and Size Register 10"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xB
group.long 0xD9C++0x03 "Region 11"
saveout 0xD98 %l 0xB
line.long 0x00 "MPU_RBAR11,MPU Region Base Address Register 11"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0xB
line.long 0x00 "MPU_RASR11,MPU Region Attribute and Size Register 11"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 11 (not implemented)"
saveout 0xD98 %l 0xB
hide.long 0x00 "MPU_RBAR11,MPU Region Base Address Register 11"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0xB
hide.long 0x00 "MPU_RASR11,MPU Region Attribute and Size Register 11"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xC
group.long 0xD9C++0x03 "Region 12"
saveout 0xD98 %l 0xC
line.long 0x00 "MPU_RBAR12,MPU Region Base Address Register 12"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0xC
line.long 0x00 "MPU_RASR12,MPU Region Attribute and Size Register 12"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 12 (not implemented)"
saveout 0xD98 %l 0xC
hide.long 0x00 "MPU_RBAR12,MPU Region Base Address Register 12"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0xC
hide.long 0x00 "MPU_RASR12,MPU Region Attribute and Size Register 12"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xD
group.long 0xD9C++0x03 "Region 13"
saveout 0xD98 %l 0xD
line.long 0x00 "MPU_RBAR13,MPU Region Base Address Register 13"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0xD
line.long 0x00 "MPU_RASR13,MPU Region Attribute and Size Register 13"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 13 (not implemented)"
saveout 0xD98 %l 0xD
hide.long 0x00 "MPU_RBAR13,MPU Region Base Address Register 13"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0xD
hide.long 0x00 "MPU_RASR13,MPU Region Attribute and Size Register 13"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xE
group.long 0xD9C++0x03 "Region 14"
saveout 0xD98 %l 0xE
line.long 0x00 "MPU_RBAR14,MPU Region Base Address Register 14"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0xE
line.long 0x00 "MPU_RASR14,MPU Region Attribute and Size Register 14"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 14 (not implemented)"
saveout 0xD98 %l 0xE
hide.long 0x00 "MPU_RBAR14,MPU Region Base Address Register 14"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0xE
hide.long 0x00 "MPU_RASR14,MPU Region Attribute and Size Register 14"
textline " "
textline " "
endif
if ((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xD90)&0xff00)>>8)>0xF
group.long 0xD9C++0x03 "Region 15"
saveout 0xD98 %l 0xF
line.long 0x00 "MPU_RBAR15,MPU Region Base Address Register 15"
hexmask.long 0x00 5.--31. 0x20 " ADDR ,Base address of the region"
group.long 0xDA0++0x03
saveout 0xD98 %l 0xF
line.long 0x00 "MPU_RASR15,MPU Region Attribute and Size Register 15"
bitfld.long 0x00 28. " XN ,eXecute Never" "Execute,Not execute"
bitfld.long 0x00 24.--26. " AP ,Data Access Permission" "No access,S:RW U:--,S:RW U:R-,S:RW U:RW,reserved,S:R- U:--,S:R- U:R-,S:R- U:R-"
bitfld.long 0x00 19.--21. " TEX ,Type Extension Field" "0,1,2,3,4,5,6,7"
textline " "
bitfld.long 0x00 18. " S ,Shareable Bit" "Not shareable,Shareable"
bitfld.long 0x00 17. " C ,Cacheable Bit" "Not cacheable,Cacheable"
bitfld.long 0x00 16. " B ,Bufferable Bit" "Not bufferable,Bufferable"
textline " "
bitfld.long 0x00 15. " SRD[7..0] ,Subregion 7 Disable" "0,1"
bitfld.long 0x00 14. ",Subregion 6 Disable" "0,1"
bitfld.long 0x00 13. ",Subregion 5 Disable" "0,1"
bitfld.long 0x00 12. ",Subregion 4 Disable" "0,1"
bitfld.long 0x00 11. ",Subregion 3 Disable" "0,1"
bitfld.long 0x00 10. ",Subregion 2 Disable" "0,1"
bitfld.long 0x00 9. ",Subregion 1 Disabled" "0,1"
bitfld.long 0x00 8. ",Subregion 0 Disable" "0,1"
bitfld.long 0x00 1.--5. " SIZE ,Indicates the region size" "-,-,-,-,32 B,64 B,128 B,256 B,512 B,1 kB,2 kB,4 kB,8 kB,16 kB,32 kB,64 kB,128 kB,256 kB,512 kB,1 MB,2 MB,4 MB,8 MB,16 MB,32 MB,64 MB,128 MB,256 MB,512 MB,1 GB,2 GB,4 GB"
bitfld.long 0x00 0. " ENABLE ,Enables this region" "Disabled,Enabled"
else
hgroup.long 0xD9C++0x03 "Region 15 (not implemented)"
saveout 0xD98 %l 0xF
hide.long 0x00 "MPU_RBAR15,MPU Region Base Address Register 15"
hgroup.long 0xDA0++0x03
saveout 0xD98 %l 0xF
hide.long 0x00 "MPU_RASR15,MPU Region Attribute and Size Register 15"
textline " "
textline " "
endif
tree.end
width 0x0b
else
newline
textline "COREDEBUG component base address not specified"
newline
endif
tree.end
tree "Nested Vectored Interrupt Controller"
sif COMPonent.AVAILABLE("COREDEBUG")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))
width 6.
rgroup.long 0x04++0x03
line.long 0x00 "ICTR,Interrupt Controller Type Register"
bitfld.long 0x00 0.--3. " INTLINESNUM ,Total Number of Interrupt" "0-32,33-64,65-96,97-128,129-160,161-192,193-224,225-240,?..."
tree "Interrupt Enable Registers"
width 23.
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x00)
group.long 0x100++0x03
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x01)
group.long 0x100++0x7
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x02)
group.long 0x100++0x0B
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. " ENA94 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. " ENA93 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. " ENA92 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. " ENA91 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. " ENA90 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. " ENA88 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. " ENA87 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. " ENA86 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. " ENA85 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. " ENA84 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. " ENA82 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. " ENA81 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. " ENA80 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. " ENA79 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. " ENA78 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. " ENA76 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. " ENA75 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. " ENA74 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. " ENA73 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. " ENA72 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. " ENA70 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. " ENA69 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. " ENA68 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. " ENA67 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. " ENA66 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. " ENA64 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x03)
group.long 0x100++0x0F
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. " ENA94 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. " ENA93 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. " ENA92 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. " ENA91 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. " ENA90 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. " ENA88 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. " ENA87 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. " ENA86 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. " ENA85 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. " ENA84 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. " ENA82 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. " ENA81 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. " ENA80 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. " ENA79 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. " ENA78 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. " ENA76 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. " ENA75 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. " ENA74 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. " ENA73 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. " ENA72 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. " ENA70 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. " ENA69 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. " ENA68 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. " ENA67 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. " ENA66 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. " ENA64 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " ENA99 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " ENA98 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " ENA96 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x04)
group.long 0x100++0x13
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. " ENA94 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. " ENA93 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. " ENA92 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. " ENA91 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. " ENA90 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. " ENA88 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. " ENA87 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. " ENA86 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. " ENA85 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. " ENA84 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. " ENA82 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. " ENA81 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. " ENA80 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. " ENA79 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. " ENA78 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. " ENA76 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. " ENA75 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. " ENA74 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. " ENA73 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. " ENA72 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. " ENA70 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. " ENA69 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. " ENA68 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. " ENA67 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. " ENA66 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. " ENA64 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " ENA99 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " ENA98 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " ENA96 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " ENA159 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. " ENA158 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. " ENA157 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. " ENA156 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. " ENA155 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. " ENA154 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " ENA153 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. " ENA152 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. " ENA151 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. " ENA150 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. " ENA149 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. " ENA148 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " ENA147 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. " ENA146 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. " ENA145 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. " ENA144 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. " ENA143 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. " ENA142 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " ENA141 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. " ENA140 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. " ENA139 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. " ENA138 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. " ENA137 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. " ENA136 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " ENA135 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. " ENA134 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. " ENA133 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. " ENA132 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. " ENA131 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. " ENA130 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " ENA129 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. " ENA128 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x05)
group.long 0x100++0x17
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. " ENA94 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. " ENA93 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. " ENA92 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. " ENA91 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. " ENA90 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. " ENA88 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. " ENA87 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. " ENA86 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. " ENA85 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. " ENA84 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. " ENA82 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. " ENA81 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. " ENA80 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. " ENA79 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. " ENA78 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. " ENA76 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. " ENA75 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. " ENA74 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. " ENA73 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. " ENA72 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. " ENA70 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. " ENA69 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. " ENA68 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. " ENA67 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. " ENA66 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. " ENA64 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " ENA99 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " ENA98 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " ENA96 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " ENA159 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. " ENA158 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. " ENA157 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. " ENA156 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. " ENA155 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. " ENA154 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " ENA153 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. " ENA152 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. " ENA151 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. " ENA150 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. " ENA149 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. " ENA148 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " ENA147 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. " ENA146 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. " ENA145 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. " ENA144 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. " ENA143 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. " ENA142 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " ENA141 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. " ENA140 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. " ENA139 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. " ENA138 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. " ENA137 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. " ENA136 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " ENA135 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. " ENA134 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. " ENA133 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. " ENA132 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. " ENA131 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. " ENA130 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " ENA129 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. " ENA128 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x14 "IRQ160_191_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x14 31. 0x14 31. 0x94 31. " ENA191 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 30. 0x14 30. 0x94 30. " ENA190 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 29. 0x14 29. 0x94 29. " ENA189 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 28. 0x14 28. 0x94 28. " ENA188 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 27. 0x14 27. 0x94 27. " ENA187 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 26. 0x14 26. 0x94 26. " ENA186 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 25. 0x14 25. 0x94 25. " ENA185 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 24. 0x14 24. 0x94 24. " ENA184 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 23. 0x14 23. 0x94 23. " ENA183 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 22. 0x14 22. 0x94 22. " ENA182 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 21. 0x14 21. 0x94 21. " ENA181 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 20. 0x14 20. 0x94 20. " ENA180 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 19. 0x14 19. 0x94 19. " ENA179 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 18. 0x14 18. 0x94 18. " ENA178 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 17. 0x14 17. 0x94 17. " ENA177 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 16. 0x14 16. 0x94 16. " ENA176 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 15. 0x14 15. 0x94 15. " ENA175 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 14. 0x14 14. 0x94 14. " ENA174 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 13. 0x14 13. 0x94 13. " ENA173 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 12. 0x14 12. 0x94 12. " ENA172 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 11. 0x14 11. 0x94 11. " ENA171 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 10. 0x14 10. 0x94 10. " ENA170 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 9. 0x14 9. 0x94 9. " ENA169 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 8. 0x14 8. 0x94 8. " ENA168 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 7. 0x14 7. 0x94 7. " ENA167 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 6. 0x14 6. 0x94 6. " ENA166 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 5. 0x14 5. 0x94 5. " ENA165 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 4. 0x14 4. 0x94 4. " ENA164 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 3. 0x14 3. 0x94 3. " ENA163 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 2. 0x14 2. 0x94 2. " ENA162 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 1. 0x14 1. 0x94 1. " ENA161 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 0. 0x14 0. 0x94 0. " ENA160 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x06)
group.long 0x100++0x1B
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. " ENA94 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. " ENA93 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. " ENA92 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. " ENA91 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. " ENA90 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. " ENA88 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. " ENA87 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. " ENA86 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. " ENA85 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. " ENA84 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. " ENA82 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. " ENA81 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. " ENA80 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. " ENA79 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. " ENA78 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. " ENA76 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. " ENA75 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. " ENA74 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. " ENA73 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. " ENA72 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. " ENA70 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. " ENA69 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. " ENA68 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. " ENA67 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. " ENA66 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. " ENA64 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " ENA99 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " ENA98 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " ENA96 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " ENA159 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. " ENA158 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. " ENA157 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. " ENA156 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. " ENA155 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. " ENA154 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " ENA153 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. " ENA152 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. " ENA151 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. " ENA150 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. " ENA149 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. " ENA148 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " ENA147 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. " ENA146 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. " ENA145 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. " ENA144 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. " ENA143 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. " ENA142 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " ENA141 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. " ENA140 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. " ENA139 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. " ENA138 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. " ENA137 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. " ENA136 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " ENA135 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. " ENA134 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. " ENA133 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. " ENA132 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. " ENA131 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. " ENA130 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " ENA129 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. " ENA128 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x14 "IRQ160_191_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x14 31. 0x14 31. 0x94 31. " ENA191 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 30. 0x14 30. 0x94 30. " ENA190 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 29. 0x14 29. 0x94 29. " ENA189 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 28. 0x14 28. 0x94 28. " ENA188 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 27. 0x14 27. 0x94 27. " ENA187 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 26. 0x14 26. 0x94 26. " ENA186 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 25. 0x14 25. 0x94 25. " ENA185 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 24. 0x14 24. 0x94 24. " ENA184 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 23. 0x14 23. 0x94 23. " ENA183 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 22. 0x14 22. 0x94 22. " ENA182 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 21. 0x14 21. 0x94 21. " ENA181 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 20. 0x14 20. 0x94 20. " ENA180 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 19. 0x14 19. 0x94 19. " ENA179 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 18. 0x14 18. 0x94 18. " ENA178 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 17. 0x14 17. 0x94 17. " ENA177 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 16. 0x14 16. 0x94 16. " ENA176 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 15. 0x14 15. 0x94 15. " ENA175 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 14. 0x14 14. 0x94 14. " ENA174 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 13. 0x14 13. 0x94 13. " ENA173 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 12. 0x14 12. 0x94 12. " ENA172 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 11. 0x14 11. 0x94 11. " ENA171 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 10. 0x14 10. 0x94 10. " ENA170 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 9. 0x14 9. 0x94 9. " ENA169 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 8. 0x14 8. 0x94 8. " ENA168 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 7. 0x14 7. 0x94 7. " ENA167 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 6. 0x14 6. 0x94 6. " ENA166 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 5. 0x14 5. 0x94 5. " ENA165 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 4. 0x14 4. 0x94 4. " ENA164 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 3. 0x14 3. 0x94 3. " ENA163 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 2. 0x14 2. 0x94 2. " ENA162 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 1. 0x14 1. 0x94 1. " ENA161 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 0. 0x14 0. 0x94 0. " ENA160 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x18 "IRQ192_223_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x18 31. 0x18 31. 0x98 31. " ENA223 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 30. 0x18 30. 0x98 30. " ENA222 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 29. 0x18 29. 0x98 29. " ENA221 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 28. 0x18 28. 0x98 28. " ENA220 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 27. 0x18 27. 0x98 27. " ENA219 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 26. 0x18 26. 0x98 26. " ENA218 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x18 25. 0x18 25. 0x98 25. " ENA217 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 24. 0x18 24. 0x98 24. " ENA216 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 23. 0x18 23. 0x98 23. " ENA215 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 22. 0x18 22. 0x98 22. " ENA214 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 21. 0x18 21. 0x98 21. " ENA213 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 20. 0x18 20. 0x98 20. " ENA212 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x18 19. 0x18 19. 0x98 19. " ENA211 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 18. 0x18 18. 0x98 18. " ENA210 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 17. 0x18 17. 0x98 17. " ENA209 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 16. 0x18 16. 0x98 16. " ENA208 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 15. 0x18 15. 0x98 15. " ENA207 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 14. 0x18 14. 0x98 14. " ENA206 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x18 13. 0x18 13. 0x98 13. " ENA205 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 12. 0x18 12. 0x98 12. " ENA204 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 11. 0x18 11. 0x98 11. " ENA203 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 10. 0x18 10. 0x98 10. " ENA202 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 9. 0x18 9. 0x98 9. " ENA201 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 8. 0x18 8. 0x98 8. " ENA200 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x18 7. 0x18 7. 0x98 7. " ENA199 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 6. 0x18 6. 0x98 6. " ENA198 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 5. 0x18 5. 0x98 5. " ENA197 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 4. 0x18 4. 0x98 4. " ENA196 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 3. 0x18 3. 0x98 3. " ENA195 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 2. 0x18 2. 0x98 2. " ENA194 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x18 1. 0x18 1. 0x98 1. " ENA193 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 0. 0x18 0. 0x98 0. " ENA192 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x07)
group.long 0x100++0x1F
line.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " ENA31 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " ENA30 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " ENA29 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " ENA28 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " ENA27 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " ENA26 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " ENA25 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " ENA24 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " ENA23 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " ENA22 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " ENA21 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " ENA20 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " ENA19 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " ENA18 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " ENA17 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " ENA16 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " ENA15 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " ENA14 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " ENA13 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " ENA12 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " ENA11 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " ENA10 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " ENA9 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " ENA8 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " ENA7 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " ENA6 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " ENA5 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " ENA4 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " ENA3 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " ENA2 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " ENA1 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " ENA0 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " ENA63 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " ENA62 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " ENA61 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " ENA60 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " ENA59 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " ENA58 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " ENA57 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " ENA56 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " ENA55 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " ENA54 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " ENA53 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " ENA52 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " ENA51 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " ENA50 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " ENA49 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " ENA48 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " ENA47 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " ENA46 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " ENA45 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " ENA44 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " ENA43 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " ENA42 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " ENA41 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " ENA40 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " ENA39 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " ENA38 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " ENA37 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " ENA36 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " ENA35 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " ENA34 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " ENA33 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " ENA32 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " ENA95 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. " ENA94 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. " ENA93 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. " ENA92 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. " ENA91 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. " ENA90 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " ENA89 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. " ENA88 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. " ENA87 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. " ENA86 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. " ENA85 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. " ENA84 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " ENA83 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. " ENA82 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. " ENA81 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. " ENA80 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. " ENA79 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. " ENA78 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " ENA77 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. " ENA76 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. " ENA75 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. " ENA74 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. " ENA73 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. " ENA72 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " ENA71 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. " ENA70 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. " ENA69 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. " ENA68 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. " ENA67 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. " ENA66 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " ENA65 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. " ENA64 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " ENA127 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " ENA126 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " ENA125 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " ENA124 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " ENA123 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " ENA122 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " ENA121 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " ENA120 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " ENA119 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " ENA118 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " ENA117 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " ENA116 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " ENA115 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " ENA114 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " ENA113 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " ENA112 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " ENA111 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " ENA110 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " ENA109 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " ENA108 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " ENA107 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " ENA106 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " ENA105 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " ENA104 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " ENA103 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " ENA102 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " ENA101 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " ENA100 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " ENA99 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " ENA98 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " ENA97 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " ENA96 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " ENA159 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. " ENA158 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. " ENA157 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. " ENA156 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. " ENA155 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. " ENA154 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " ENA153 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. " ENA152 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. " ENA151 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. " ENA150 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. " ENA149 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. " ENA148 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " ENA147 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. " ENA146 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. " ENA145 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. " ENA144 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. " ENA143 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. " ENA142 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " ENA141 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. " ENA140 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. " ENA139 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. " ENA138 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. " ENA137 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. " ENA136 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " ENA135 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. " ENA134 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. " ENA133 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. " ENA132 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. " ENA131 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. " ENA130 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " ENA129 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. " ENA128 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x14 "IRQ160_191_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x14 31. 0x14 31. 0x94 31. " ENA191 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 30. 0x14 30. 0x94 30. " ENA190 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 29. 0x14 29. 0x94 29. " ENA189 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 28. 0x14 28. 0x94 28. " ENA188 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 27. 0x14 27. 0x94 27. " ENA187 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 26. 0x14 26. 0x94 26. " ENA186 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 25. 0x14 25. 0x94 25. " ENA185 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 24. 0x14 24. 0x94 24. " ENA184 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 23. 0x14 23. 0x94 23. " ENA183 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 22. 0x14 22. 0x94 22. " ENA182 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 21. 0x14 21. 0x94 21. " ENA181 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 20. 0x14 20. 0x94 20. " ENA180 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 19. 0x14 19. 0x94 19. " ENA179 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 18. 0x14 18. 0x94 18. " ENA178 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 17. 0x14 17. 0x94 17. " ENA177 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 16. 0x14 16. 0x94 16. " ENA176 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 15. 0x14 15. 0x94 15. " ENA175 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 14. 0x14 14. 0x94 14. " ENA174 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 13. 0x14 13. 0x94 13. " ENA173 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 12. 0x14 12. 0x94 12. " ENA172 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 11. 0x14 11. 0x94 11. " ENA171 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 10. 0x14 10. 0x94 10. " ENA170 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 9. 0x14 9. 0x94 9. " ENA169 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 8. 0x14 8. 0x94 8. " ENA168 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 7. 0x14 7. 0x94 7. " ENA167 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 6. 0x14 6. 0x94 6. " ENA166 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 5. 0x14 5. 0x94 5. " ENA165 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 4. 0x14 4. 0x94 4. " ENA164 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 3. 0x14 3. 0x94 3. " ENA163 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 2. 0x14 2. 0x94 2. " ENA162 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x14 1. 0x14 1. 0x94 1. " ENA161 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x14 0. 0x14 0. 0x94 0. " ENA160 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x18 "IRQ192_223_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x18 31. 0x18 31. 0x98 31. " ENA223 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 30. 0x18 30. 0x98 30. " ENA222 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 29. 0x18 29. 0x98 29. " ENA221 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 28. 0x18 28. 0x98 28. " ENA220 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 27. 0x18 27. 0x98 27. " ENA219 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 26. 0x18 26. 0x98 26. " ENA218 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x18 25. 0x18 25. 0x98 25. " ENA217 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 24. 0x18 24. 0x98 24. " ENA216 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 23. 0x18 23. 0x98 23. " ENA215 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 22. 0x18 22. 0x98 22. " ENA214 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 21. 0x18 21. 0x98 21. " ENA213 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 20. 0x18 20. 0x98 20. " ENA212 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x18 19. 0x18 19. 0x98 19. " ENA211 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 18. 0x18 18. 0x98 18. " ENA210 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 17. 0x18 17. 0x98 17. " ENA209 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 16. 0x18 16. 0x98 16. " ENA208 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 15. 0x18 15. 0x98 15. " ENA207 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 14. 0x18 14. 0x98 14. " ENA206 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x18 13. 0x18 13. 0x98 13. " ENA205 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 12. 0x18 12. 0x98 12. " ENA204 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 11. 0x18 11. 0x98 11. " ENA203 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 10. 0x18 10. 0x98 10. " ENA202 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 9. 0x18 9. 0x98 9. " ENA201 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 8. 0x18 8. 0x98 8. " ENA200 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x18 7. 0x18 7. 0x98 7. " ENA199 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 6. 0x18 6. 0x98 6. " ENA198 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 5. 0x18 5. 0x98 5. " ENA197 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 4. 0x18 4. 0x98 4. " ENA196 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 3. 0x18 3. 0x98 3. " ENA195 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 2. 0x18 2. 0x98 2. " ENA194 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x18 1. 0x18 1. 0x98 1. " ENA193 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x18 0. 0x18 0. 0x98 0. " ENA192 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
line.long 0x1c "IRQ224_239_EN_SET/CLR,Interrupt Enable Register"
setclrfld.long 0x1c 15. 0x1c 15. 0x9c 15. " ENA239 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 14. 0x1c 14. 0x9c 14. " ENA238 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 13. 0x1c 13. 0x9c 13. " ENA237 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 12. 0x1c 12. 0x9c 12. " ENA236 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 11. 0x1c 11. 0x9c 11. " ENA235 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 10. 0x1c 10. 0x9c 10. " ENA234 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x1c 9. 0x1c 9. 0x9c 9. " ENA233 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 8. 0x1c 8. 0x9c 8. " ENA232 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 7. 0x1c 7. 0x9c 7. " ENA231 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 6. 0x1c 6. 0x9c 6. " ENA230 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 5. 0x1c 5. 0x9c 5. " ENA229 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 4. 0x1c 4. 0x9c 4. " ENA228 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
textline " "
setclrfld.long 0x1c 3. 0x1c 3. 0x9c 3. " ENA227 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 2. 0x1c 2. 0x9c 2. " ENA226 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 1. 0x1c 1. 0x9c 1. " ENA225 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
setclrfld.long 0x1c 0. 0x1c 0. 0x9c 0. " ENA224 ,Interrupt Set/Clear Enable Bit" "Disabled,Enabled"
else
hgroup.long 0x100++0x1F
hide.long 0x00 "IRQ0_31_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x04 "IRQ32_63_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x08 "IRQ64_95_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x0c "IRQ96_127_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x10 "IRQ128_159_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x14 "IRQ160_191_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x18 "IRQ192_223_EN_SET/CLR,Interrupt Enable Register"
hide.long 0x1c "IRQ224_239_EN_SET/CLR,Interrupt Enable Register"
endif
tree.end
tree "Interrupt Pending Registers"
width 23.
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x00)
group.long 0x200++0x03
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x01)
group.long 0x200++0x07
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x02)
group.long 0x200++0x0B
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. " PEN94 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. " PEN93 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. " PEN92 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. " PEN91 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. " PEN90 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. " PEN88 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. " PEN87 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. " PEN86 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. " PEN85 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. " PEN84 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. " PEN82 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. " PEN81 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. " PEN80 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. " PEN79 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. " PEN78 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. " PEN76 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. " PEN75 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. " PEN74 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. " PEN73 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. " PEN72 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. " PEN70 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. " PEN69 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. " PEN68 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. " PEN67 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. " PEN66 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. " PEN64 ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x03)
group.long 0x200++0x0F
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. " PEN94 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. " PEN93 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. " PEN92 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. " PEN91 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. " PEN90 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. " PEN88 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. " PEN87 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. " PEN86 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. " PEN85 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. " PEN84 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. " PEN82 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. " PEN81 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. " PEN80 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. " PEN79 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. " PEN78 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. " PEN76 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. " PEN75 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. " PEN74 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. " PEN73 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. " PEN72 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. " PEN70 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. " PEN69 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. " PEN68 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. " PEN67 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. " PEN66 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. " PEN64 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " PEN99 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " PEN98 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " PEN96 ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x04)
group.long 0x200++0x13
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. " PEN94 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. " PEN93 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. " PEN92 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. " PEN91 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. " PEN90 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. " PEN88 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. " PEN87 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. " PEN86 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. " PEN85 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. " PEN84 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. " PEN82 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. " PEN81 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. " PEN80 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. " PEN79 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. " PEN78 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. " PEN76 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. " PEN75 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. " PEN74 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. " PEN73 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. " PEN72 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. " PEN70 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. " PEN69 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. " PEN68 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. " PEN67 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. " PEN66 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. " PEN64 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " PEN99 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " PEN98 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " PEN96 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " PEN159 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. " PEN158 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. " PEN157 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. " PEN156 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. " PEN155 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. " PEN154 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " PEN153 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. " PEN152 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. " PEN151 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. " PEN150 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. " PEN149 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. " PEN148 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " PEN147 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. " PEN146 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. " PEN145 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. " PEN144 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. " PEN143 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. " PEN142 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " PEN141 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. " PEN140 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. " PEN139 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. " PEN138 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. " PEN137 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. " PEN136 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " PEN135 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. " PEN134 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. " PEN133 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. " PEN132 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. " PEN131 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. " PEN130 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " PEN129 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. " PEN128 ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x05)
group.long 0x200++0x17
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. " PEN94 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. " PEN93 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. " PEN92 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. " PEN91 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. " PEN90 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. " PEN88 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. " PEN87 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. " PEN86 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. " PEN85 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. " PEN84 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. " PEN82 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. " PEN81 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. " PEN80 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. " PEN79 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. " PEN78 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. " PEN76 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. " PEN75 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. " PEN74 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. " PEN73 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. " PEN72 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. " PEN70 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. " PEN69 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. " PEN68 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. " PEN67 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. " PEN66 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. " PEN64 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " PEN99 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " PEN98 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " PEN96 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " PEN159 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. " PEN158 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. " PEN157 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. " PEN156 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. " PEN155 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. " PEN154 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " PEN153 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. " PEN152 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. " PEN151 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. " PEN150 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. " PEN149 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. " PEN148 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " PEN147 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. " PEN146 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. " PEN145 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. " PEN144 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. " PEN143 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. " PEN142 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " PEN141 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. " PEN140 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. " PEN139 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. " PEN138 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. " PEN137 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. " PEN136 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " PEN135 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. " PEN134 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. " PEN133 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. " PEN132 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. " PEN131 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. " PEN130 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " PEN129 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. " PEN128 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x14 "IRQ160_191_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x14 31. 0x14 31. 0x94 31. " PEN191 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 30. 0x14 30. 0x94 30. " PEN190 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 29. 0x14 29. 0x94 29. " PEN189 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 28. 0x14 28. 0x94 28. " PEN188 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 27. 0x14 27. 0x94 27. " PEN187 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 26. 0x14 26. 0x94 26. " PEN186 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 25. 0x14 25. 0x94 25. " PEN185 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 24. 0x14 24. 0x94 24. " PEN184 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 23. 0x14 23. 0x94 23. " PEN183 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 22. 0x14 22. 0x94 22. " PEN182 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 21. 0x14 21. 0x94 21. " PEN181 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 20. 0x14 20. 0x94 20. " PEN180 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 19. 0x14 19. 0x94 19. " PEN179 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 18. 0x14 18. 0x94 18. " PEN178 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 17. 0x14 17. 0x94 17. " PEN177 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 16. 0x14 16. 0x94 16. " PEN176 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 15. 0x14 15. 0x94 15. " PEN175 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 14. 0x14 14. 0x94 14. " PEN174 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 13. 0x14 13. 0x94 13. " PEN173 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 12. 0x14 12. 0x94 12. " PEN172 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 11. 0x14 11. 0x94 11. " PEN171 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 10. 0x14 10. 0x94 10. " PEN170 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 9. 0x14 9. 0x94 9. " PEN169 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 8. 0x14 8. 0x94 8. " PEN168 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 7. 0x14 7. 0x94 7. " PEN167 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 6. 0x14 6. 0x94 6. " PEN166 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 5. 0x14 5. 0x94 5. " PEN165 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 4. 0x14 4. 0x94 4. " PEN164 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 3. 0x14 3. 0x94 3. " PEN163 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 2. 0x14 2. 0x94 2. " PEN162 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 1. 0x14 1. 0x94 1. " PEN161 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 0. 0x14 0. 0x94 0. " PEN160 ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x06)
group.long 0x200++0x1B
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. " PEN94 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. " PEN93 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. " PEN92 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. " PEN91 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. " PEN90 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. " PEN88 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. " PEN87 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. " PEN86 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. " PEN85 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. " PEN84 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. " PEN82 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. " PEN81 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. " PEN80 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. " PEN79 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. " PEN78 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. " PEN76 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. " PEN75 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. " PEN74 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. " PEN73 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. " PEN72 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. " PEN70 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. " PEN69 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. " PEN68 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. " PEN67 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. " PEN66 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. " PEN64 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " PEN99 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " PEN98 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " PEN96 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " PEN159 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. " PEN158 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. " PEN157 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. " PEN156 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. " PEN155 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. " PEN154 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " PEN153 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. " PEN152 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. " PEN151 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. " PEN150 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. " PEN149 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. " PEN148 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " PEN147 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. " PEN146 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. " PEN145 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. " PEN144 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. " PEN143 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. " PEN142 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " PEN141 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. " PEN140 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. " PEN139 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. " PEN138 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. " PEN137 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. " PEN136 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " PEN135 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. " PEN134 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. " PEN133 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. " PEN132 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. " PEN131 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. " PEN130 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " PEN129 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. " PEN128 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x14 "IRQ160_191_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x14 31. 0x14 31. 0x94 31. " PEN191 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 30. 0x14 30. 0x94 30. " PEN190 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 29. 0x14 29. 0x94 29. " PEN189 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 28. 0x14 28. 0x94 28. " PEN188 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 27. 0x14 27. 0x94 27. " PEN187 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 26. 0x14 26. 0x94 26. " PEN186 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 25. 0x14 25. 0x94 25. " PEN185 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 24. 0x14 24. 0x94 24. " PEN184 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 23. 0x14 23. 0x94 23. " PEN183 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 22. 0x14 22. 0x94 22. " PEN182 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 21. 0x14 21. 0x94 21. " PEN181 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 20. 0x14 20. 0x94 20. " PEN180 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 19. 0x14 19. 0x94 19. " PEN179 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 18. 0x14 18. 0x94 18. " PEN178 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 17. 0x14 17. 0x94 17. " PEN177 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 16. 0x14 16. 0x94 16. " PEN176 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 15. 0x14 15. 0x94 15. " PEN175 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 14. 0x14 14. 0x94 14. " PEN174 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 13. 0x14 13. 0x94 13. " PEN173 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 12. 0x14 12. 0x94 12. " PEN172 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 11. 0x14 11. 0x94 11. " PEN171 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 10. 0x14 10. 0x94 10. " PEN170 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 9. 0x14 9. 0x94 9. " PEN169 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 8. 0x14 8. 0x94 8. " PEN168 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 7. 0x14 7. 0x94 7. " PEN167 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 6. 0x14 6. 0x94 6. " PEN166 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 5. 0x14 5. 0x94 5. " PEN165 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 4. 0x14 4. 0x94 4. " PEN164 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 3. 0x14 3. 0x94 3. " PEN163 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 2. 0x14 2. 0x94 2. " PEN162 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 1. 0x14 1. 0x94 1. " PEN161 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 0. 0x14 0. 0x94 0. " PEN160 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x18 "IRQ192_223_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x18 31. 0x18 31. 0x98 31. " PEN223 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 30. 0x18 30. 0x98 30. " PEN222 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 29. 0x18 29. 0x98 29. " PEN221 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 28. 0x18 28. 0x98 28. " PEN220 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 27. 0x18 27. 0x98 27. " PEN219 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 26. 0x18 26. 0x98 26. " PEN218 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x18 25. 0x18 25. 0x98 25. " PEN217 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 24. 0x18 24. 0x98 24. " PEN216 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 23. 0x18 23. 0x98 23. " PEN215 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 22. 0x18 22. 0x98 22. " PEN214 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 21. 0x18 21. 0x98 21. " PEN213 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 20. 0x18 20. 0x98 20. " PEN212 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x18 19. 0x18 19. 0x98 19. " PEN211 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 18. 0x18 18. 0x98 18. " PEN210 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 17. 0x18 17. 0x98 17. " PEN209 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 16. 0x18 16. 0x98 16. " PEN208 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 15. 0x18 15. 0x98 15. " PEN207 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 14. 0x18 14. 0x98 14. " PEN206 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x18 13. 0x18 13. 0x98 13. " PEN205 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 12. 0x18 12. 0x98 12. " PEN204 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 11. 0x18 11. 0x98 11. " PEN203 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 10. 0x18 10. 0x98 10. " PEN202 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 9. 0x18 9. 0x98 9. " PEN201 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 8. 0x18 8. 0x98 8. " PEN200 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x18 7. 0x18 7. 0x98 7. " PEN199 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 6. 0x18 6. 0x98 6. " PEN198 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 5. 0x18 5. 0x98 5. " PEN197 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 4. 0x18 4. 0x98 4. " PEN196 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 3. 0x18 3. 0x98 3. " PEN195 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 2. 0x18 2. 0x98 2. " PEN194 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x18 1. 0x18 1. 0x98 1. " PEN193 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 0. 0x18 0. 0x98 0. " PEN192 ,Interrupt Set/Clear Pending" "Not pending,Pending"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x07)
group.long 0x200++0x1F
line.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x00 31. 0x00 31. 0x80 31. " PEN31 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 30. 0x00 30. 0x80 30. " PEN30 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 29. 0x00 29. 0x80 29. " PEN29 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 28. 0x00 28. 0x80 28. " PEN28 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 27. 0x00 27. 0x80 27. " PEN27 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 26. 0x00 26. 0x80 26. " PEN26 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 25. 0x00 25. 0x80 25. " PEN25 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 24. 0x00 24. 0x80 24. " PEN24 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 23. 0x00 23. 0x80 23. " PEN23 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 22. 0x00 22. 0x80 22. " PEN22 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 21. 0x00 21. 0x80 21. " PEN21 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 20. 0x00 20. 0x80 20. " PEN20 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 19. 0x00 19. 0x80 19. " PEN19 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 18. 0x00 18. 0x80 18. " PEN18 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 17. 0x00 17. 0x80 17. " PEN17 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 16. 0x00 16. 0x80 16. " PEN16 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 15. 0x00 15. 0x80 15. " PEN15 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 14. 0x00 14. 0x80 14. " PEN14 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 13. 0x00 13. 0x80 13. " PEN13 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 12. 0x00 12. 0x80 12. " PEN12 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 11. 0x00 11. 0x80 11. " PEN11 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 10. 0x00 10. 0x80 10. " PEN10 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 9. 0x00 9. 0x80 9. " PEN9 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 8. 0x00 8. 0x80 8. " PEN8 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 7. 0x00 7. 0x80 7. " PEN7 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 6. 0x00 6. 0x80 6. " PEN6 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 5. 0x00 5. 0x80 5. " PEN5 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 4. 0x00 4. 0x80 4. " PEN4 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 3. 0x00 3. 0x80 3. " PEN3 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 2. 0x00 2. 0x80 2. " PEN2 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x00 1. 0x00 1. 0x80 1. " PEN1 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x00 0. 0x00 0. 0x80 0. " PEN0 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x04 31. 0x04 31. 0x84 31. " PEN63 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 30. 0x04 30. 0x84 30. " PEN62 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 29. 0x04 29. 0x84 29. " PEN61 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 28. 0x04 28. 0x84 28. " PEN60 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 27. 0x04 27. 0x84 27. " PEN59 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 26. 0x04 26. 0x84 26. " PEN58 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 25. 0x04 25. 0x84 25. " PEN57 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 24. 0x04 24. 0x84 24. " PEN56 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 23. 0x04 23. 0x84 23. " PEN55 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 22. 0x04 22. 0x84 22. " PEN54 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 21. 0x04 21. 0x84 21. " PEN53 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 20. 0x04 20. 0x84 20. " PEN52 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 19. 0x04 19. 0x84 19. " PEN51 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 18. 0x04 18. 0x84 18. " PEN50 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 17. 0x04 17. 0x84 17. " PEN49 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 16. 0x04 16. 0x84 16. " PEN48 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 15. 0x04 15. 0x84 15. " PEN47 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 14. 0x04 14. 0x84 14. " PEN46 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 13. 0x04 13. 0x84 13. " PEN45 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 12. 0x04 12. 0x84 12. " PEN44 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 11. 0x04 11. 0x84 11. " PEN43 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 10. 0x04 10. 0x84 10. " PEN42 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 9. 0x04 9. 0x84 9. " PEN41 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 8. 0x04 8. 0x84 8. " PEN40 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 7. 0x04 7. 0x84 7. " PEN39 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 6. 0x04 6. 0x84 6. " PEN38 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 5. 0x04 5. 0x84 5. " PEN37 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 4. 0x04 4. 0x84 4. " PEN36 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 3. 0x04 3. 0x84 3. " PEN35 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 2. 0x04 2. 0x84 2. " PEN34 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x04 1. 0x04 1. 0x84 1. " PEN33 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x04 0. 0x04 0. 0x84 0. " PEN32 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x08 31. 0x08 31. 0x88 31. " PEN95 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 30. 0x08 30. 0x88 30. " PEN94 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 29. 0x08 29. 0x88 29. " PEN93 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 28. 0x08 28. 0x88 28. " PEN92 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 27. 0x08 27. 0x88 27. " PEN91 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 26. 0x08 26. 0x88 26. " PEN90 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 25. 0x08 25. 0x88 25. " PEN89 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 24. 0x08 24. 0x88 24. " PEN88 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 23. 0x08 23. 0x88 23. " PEN87 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 22. 0x08 22. 0x88 22. " PEN86 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 21. 0x08 21. 0x88 21. " PEN85 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 20. 0x08 20. 0x88 20. " PEN84 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 19. 0x08 19. 0x88 19. " PEN83 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 18. 0x08 18. 0x88 18. " PEN82 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 17. 0x08 17. 0x88 17. " PEN81 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 16. 0x08 16. 0x88 16. " PEN80 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 15. 0x08 15. 0x88 15. " PEN79 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 14. 0x08 14. 0x88 14. " PEN78 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 13. 0x08 13. 0x88 13. " PEN77 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 12. 0x08 12. 0x88 12. " PEN76 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 11. 0x08 11. 0x88 11. " PEN75 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 10. 0x08 10. 0x88 10. " PEN74 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 9. 0x08 9. 0x88 9. " PEN73 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 8. 0x08 8. 0x88 8. " PEN72 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 7. 0x08 7. 0x88 7. " PEN71 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 6. 0x08 6. 0x88 6. " PEN70 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 5. 0x08 5. 0x88 5. " PEN69 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 4. 0x08 4. 0x88 4. " PEN68 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 3. 0x08 3. 0x88 3. " PEN67 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 2. 0x08 2. 0x88 2. " PEN66 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x08 1. 0x08 1. 0x88 1. " PEN65 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x08 0. 0x08 0. 0x88 0. " PEN64 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x0c 31. 0x0c 31. 0x8c 31. " PEN127 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 30. 0x0c 30. 0x8c 30. " PEN126 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 29. 0x0c 29. 0x8c 29. " PEN125 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 28. 0x0c 28. 0x8c 28. " PEN124 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 27. 0x0c 27. 0x8c 27. " PEN123 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 26. 0x0c 26. 0x8c 26. " PEN122 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 25. 0x0c 25. 0x8c 25. " PEN121 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 24. 0x0c 24. 0x8c 24. " PEN120 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 23. 0x0c 23. 0x8c 23. " PEN119 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 22. 0x0c 22. 0x8c 22. " PEN118 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 21. 0x0c 21. 0x8c 21. " PEN117 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 20. 0x0c 20. 0x8c 20. " PEN116 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 19. 0x0c 19. 0x8c 19. " PEN115 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 18. 0x0c 18. 0x8c 18. " PEN114 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 17. 0x0c 17. 0x8c 17. " PEN113 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 16. 0x0c 16. 0x8c 16. " PEN112 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 15. 0x0c 15. 0x8c 15. " PEN111 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 14. 0x0c 14. 0x8c 14. " PEN110 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 13. 0x0c 13. 0x8c 13. " PEN109 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 12. 0x0c 12. 0x8c 12. " PEN108 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 11. 0x0c 11. 0x8c 11. " PEN107 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 10. 0x0c 10. 0x8c 10. " PEN106 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 9. 0x0c 9. 0x8c 9. " PEN105 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 8. 0x0c 8. 0x8c 8. " PEN104 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 7. 0x0c 7. 0x8c 7. " PEN103 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 6. 0x0c 6. 0x8c 6. " PEN102 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 5. 0x0c 5. 0x8c 5. " PEN101 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 4. 0x0c 4. 0x8c 4. " PEN100 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 3. 0x0c 3. 0x8c 3. " PEN99 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 2. 0x0c 2. 0x8c 2. " PEN98 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x0c 1. 0x0c 1. 0x8c 1. " PEN97 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x0c 0. 0x0c 0. 0x8c 0. " PEN96 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x10 31. 0x10 31. 0x90 31. " PEN159 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 30. 0x10 30. 0x90 30. " PEN158 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 29. 0x10 29. 0x90 29. " PEN157 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 28. 0x10 28. 0x90 28. " PEN156 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 27. 0x10 27. 0x90 27. " PEN155 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 26. 0x10 26. 0x90 26. " PEN154 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 25. 0x10 25. 0x90 25. " PEN153 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 24. 0x10 24. 0x90 24. " PEN152 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 23. 0x10 23. 0x90 23. " PEN151 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 22. 0x10 22. 0x90 22. " PEN150 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 21. 0x10 21. 0x90 21. " PEN149 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 20. 0x10 20. 0x90 20. " PEN148 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 19. 0x10 19. 0x90 19. " PEN147 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 18. 0x10 18. 0x90 18. " PEN146 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 17. 0x10 17. 0x90 17. " PEN145 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 16. 0x10 16. 0x90 16. " PEN144 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 15. 0x10 15. 0x90 15. " PEN143 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 14. 0x10 14. 0x90 14. " PEN142 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 13. 0x10 13. 0x90 13. " PEN141 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 12. 0x10 12. 0x90 12. " PEN140 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 11. 0x10 11. 0x90 11. " PEN139 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 10. 0x10 10. 0x90 10. " PEN138 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 9. 0x10 9. 0x90 9. " PEN137 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 8. 0x10 8. 0x90 8. " PEN136 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 7. 0x10 7. 0x90 7. " PEN135 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 6. 0x10 6. 0x90 6. " PEN134 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 5. 0x10 5. 0x90 5. " PEN133 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 4. 0x10 4. 0x90 4. " PEN132 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 3. 0x10 3. 0x90 3. " PEN131 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 2. 0x10 2. 0x90 2. " PEN130 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x10 1. 0x10 1. 0x90 1. " PEN129 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x10 0. 0x10 0. 0x90 0. " PEN128 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x14 "IRQ160_191_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x14 31. 0x14 31. 0x94 31. " PEN191 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 30. 0x14 30. 0x94 30. " PEN190 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 29. 0x14 29. 0x94 29. " PEN189 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 28. 0x14 28. 0x94 28. " PEN188 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 27. 0x14 27. 0x94 27. " PEN187 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 26. 0x14 26. 0x94 26. " PEN186 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 25. 0x14 25. 0x94 25. " PEN185 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 24. 0x14 24. 0x94 24. " PEN184 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 23. 0x14 23. 0x94 23. " PEN183 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 22. 0x14 22. 0x94 22. " PEN182 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 21. 0x14 21. 0x94 21. " PEN181 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 20. 0x14 20. 0x94 20. " PEN180 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 19. 0x14 19. 0x94 19. " PEN179 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 18. 0x14 18. 0x94 18. " PEN178 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 17. 0x14 17. 0x94 17. " PEN177 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 16. 0x14 16. 0x94 16. " PEN176 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 15. 0x14 15. 0x94 15. " PEN175 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 14. 0x14 14. 0x94 14. " PEN174 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 13. 0x14 13. 0x94 13. " PEN173 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 12. 0x14 12. 0x94 12. " PEN172 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 11. 0x14 11. 0x94 11. " PEN171 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 10. 0x14 10. 0x94 10. " PEN170 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 9. 0x14 9. 0x94 9. " PEN169 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 8. 0x14 8. 0x94 8. " PEN168 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 7. 0x14 7. 0x94 7. " PEN167 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 6. 0x14 6. 0x94 6. " PEN166 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 5. 0x14 5. 0x94 5. " PEN165 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 4. 0x14 4. 0x94 4. " PEN164 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 3. 0x14 3. 0x94 3. " PEN163 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 2. 0x14 2. 0x94 2. " PEN162 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x14 1. 0x14 1. 0x94 1. " PEN161 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x14 0. 0x14 0. 0x94 0. " PEN160 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x18 "IRQ192_223_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x18 31. 0x18 31. 0x98 31. " PEN223 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 30. 0x18 30. 0x98 30. " PEN222 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 29. 0x18 29. 0x98 29. " PEN221 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 28. 0x18 28. 0x98 28. " PEN220 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 27. 0x18 27. 0x98 27. " PEN219 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 26. 0x18 26. 0x98 26. " PEN218 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x18 25. 0x18 25. 0x98 25. " PEN217 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 24. 0x18 24. 0x98 24. " PEN216 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 23. 0x18 23. 0x98 23. " PEN215 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 22. 0x18 22. 0x98 22. " PEN214 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 21. 0x18 21. 0x98 21. " PEN213 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 20. 0x18 20. 0x98 20. " PEN212 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x18 19. 0x18 19. 0x98 19. " PEN211 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 18. 0x18 18. 0x98 18. " PEN210 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 17. 0x18 17. 0x98 17. " PEN209 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 16. 0x18 16. 0x98 16. " PEN208 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 15. 0x18 15. 0x98 15. " PEN207 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 14. 0x18 14. 0x98 14. " PEN206 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x18 13. 0x18 13. 0x98 13. " PEN205 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 12. 0x18 12. 0x98 12. " PEN204 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 11. 0x18 11. 0x98 11. " PEN203 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 10. 0x18 10. 0x98 10. " PEN202 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 9. 0x18 9. 0x98 9. " PEN201 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 8. 0x18 8. 0x98 8. " PEN200 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x18 7. 0x18 7. 0x98 7. " PEN199 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 6. 0x18 6. 0x98 6. " PEN198 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 5. 0x18 5. 0x98 5. " PEN197 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 4. 0x18 4. 0x98 4. " PEN196 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 3. 0x18 3. 0x98 3. " PEN195 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 2. 0x18 2. 0x98 2. " PEN194 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x18 1. 0x18 1. 0x98 1. " PEN193 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x18 0. 0x18 0. 0x98 0. " PEN192 ,Interrupt Set/Clear Pending" "Not pending,Pending"
line.long 0x1c "IRQ224_239_PEN_SET/CLR,Interrupt Pending Register"
setclrfld.long 0x1c 15. 0x1c 15. 0x9c 15. " PEN239 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 14. 0x1c 14. 0x9c 14. " PEN238 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 13. 0x1c 13. 0x9c 13. " PEN237 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 12. 0x1c 12. 0x9c 12. " PEN236 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 11. 0x1c 11. 0x9c 11. " PEN235 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 10. 0x1c 10. 0x9c 10. " PEN234 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x1c 9. 0x1c 9. 0x9c 9. " PEN233 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 8. 0x1c 8. 0x9c 8. " PEN232 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 7. 0x1c 7. 0x9c 7. " PEN231 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 6. 0x1c 6. 0x9c 6. " PEN230 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 5. 0x1c 5. 0x9c 5. " PEN229 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 4. 0x1c 4. 0x9c 4. " PEN228 ,Interrupt Set/Clear Pending" "Not pending,Pending"
textline " "
setclrfld.long 0x1c 3. 0x1c 3. 0x9c 3. " PEN227 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 2. 0x1c 2. 0x9c 2. " PEN226 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 1. 0x1c 1. 0x9c 1. " PEN225 ,Interrupt Set/Clear Pending" "Not pending,Pending"
setclrfld.long 0x1c 0. 0x1c 0. 0x9c 0. " PEN224 ,Interrupt Set/Clear Pending" "Not pending,Pending"
else
hgroup.long 0x200++0x1F
hide.long 0x00 "IRQ0_31_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x04 "IRQ32_63_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x08 "IRQ64_95_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x0c "IRQ96_127_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x10 "IRQ128_159_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x14 "IRQ160_191_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x18 "IRQ192_223_PEN_SET/CLR,Interrupt Pending Register"
hide.long 0x1c "IRQ224_239_PEN_SET/CLR,Interrupt Pending Register"
endif
tree.end
tree "Interrupt Active Bit Registers"
width 9.
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x00)
rgroup.long 0x300++0x03
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x01)
rgroup.long 0x300++0x07
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x02)
rgroup.long 0x300++0x0B
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active"
line.long 0x08 "ACTIVE3,Active Bit Register 3"
bitfld.long 0x08 31. " ACTIVE95 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 30. " ACTIVE94 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 29. " ACTIVE93 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 28. " ACTIVE92 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 27. " ACTIVE91 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 26. " ACTIVE90 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 25. " ACTIVE89 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 24. " ACTIVE88 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 23. " ACTIVE87 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 22. " ACTIVE86 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 21. " ACTIVE85 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 20. " ACTIVE84 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 19. " ACTIVE83 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 18. " ACTIVE82 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 17. " ACTIVE81 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 16. " ACTIVE80 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 15. " ACTIVE79 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 14. " ACTIVE78 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 13. " ACTIVE77 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 12. " ACTIVE76 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 11. " ACTIVE75 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 10. " ACTIVE74 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 9. " ACTIVE73 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 8. " ACTIVE72 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 7. " ACTIVE71 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 6. " ACTIVE70 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 5. " ACTIVE69 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 4. " ACTIVE68 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 3. " ACTIVE67 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 2. " ACTIVE66 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 1. " ACTIVE65 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 0. " ACTIVE64 ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x03)
rgroup.long 0x300++0x0F
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active"
line.long 0x08 "ACTIVE3,Active Bit Register 3"
bitfld.long 0x08 31. " ACTIVE95 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 30. " ACTIVE94 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 29. " ACTIVE93 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 28. " ACTIVE92 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 27. " ACTIVE91 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 26. " ACTIVE90 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 25. " ACTIVE89 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 24. " ACTIVE88 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 23. " ACTIVE87 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 22. " ACTIVE86 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 21. " ACTIVE85 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 20. " ACTIVE84 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 19. " ACTIVE83 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 18. " ACTIVE82 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 17. " ACTIVE81 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 16. " ACTIVE80 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 15. " ACTIVE79 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 14. " ACTIVE78 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 13. " ACTIVE77 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 12. " ACTIVE76 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 11. " ACTIVE75 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 10. " ACTIVE74 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 9. " ACTIVE73 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 8. " ACTIVE72 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 7. " ACTIVE71 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 6. " ACTIVE70 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 5. " ACTIVE69 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 4. " ACTIVE68 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 3. " ACTIVE67 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 2. " ACTIVE66 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 1. " ACTIVE65 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 0. " ACTIVE64 ,Interrupt Active Flag" "Not active,Active"
line.long 0x0c "ACTIVE4,Active Bit Register 4"
bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 30. " ACTIVE126 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 29. " ACTIVE125 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 28. " ACTIVE124 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 27. " ACTIVE123 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 26. " ACTIVE122 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 24. " ACTIVE120 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 23. " ACTIVE119 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 22. " ACTIVE118 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 21. " ACTIVE117 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 20. " ACTIVE116 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 18. " ACTIVE114 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 17. " ACTIVE113 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 16. " ACTIVE112 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 15. " ACTIVE111 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 14. " ACTIVE110 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 12. " ACTIVE108 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 11. " ACTIVE107 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 10. " ACTIVE106 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 9. " ACTIVE105 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 8. " ACTIVE104 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 6. " ACTIVE102 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 5. " ACTIVE101 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 4. " ACTIVE100 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 3. " ACTIVE99 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 2. " ACTIVE98 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 1. " ACTIVE97 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 0. " ACTIVE96 ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x04)
rgroup.long 0x300++0x13
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active"
line.long 0x08 "ACTIVE3,Active Bit Register 3"
bitfld.long 0x08 31. " ACTIVE95 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 30. " ACTIVE94 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 29. " ACTIVE93 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 28. " ACTIVE92 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 27. " ACTIVE91 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 26. " ACTIVE90 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 25. " ACTIVE89 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 24. " ACTIVE88 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 23. " ACTIVE87 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 22. " ACTIVE86 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 21. " ACTIVE85 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 20. " ACTIVE84 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 19. " ACTIVE83 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 18. " ACTIVE82 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 17. " ACTIVE81 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 16. " ACTIVE80 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 15. " ACTIVE79 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 14. " ACTIVE78 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 13. " ACTIVE77 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 12. " ACTIVE76 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 11. " ACTIVE75 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 10. " ACTIVE74 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 9. " ACTIVE73 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 8. " ACTIVE72 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 7. " ACTIVE71 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 6. " ACTIVE70 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 5. " ACTIVE69 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 4. " ACTIVE68 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 3. " ACTIVE67 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 2. " ACTIVE66 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 1. " ACTIVE65 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 0. " ACTIVE64 ,Interrupt Active Flag" "Not active,Active"
line.long 0x0c "ACTIVE4,Active Bit Register 4"
bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 30. " ACTIVE126 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 29. " ACTIVE125 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 28. " ACTIVE124 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 27. " ACTIVE123 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 26. " ACTIVE122 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 24. " ACTIVE120 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 23. " ACTIVE119 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 22. " ACTIVE118 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 21. " ACTIVE117 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 20. " ACTIVE116 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 18. " ACTIVE114 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 17. " ACTIVE113 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 16. " ACTIVE112 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 15. " ACTIVE111 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 14. " ACTIVE110 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 12. " ACTIVE108 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 11. " ACTIVE107 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 10. " ACTIVE106 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 9. " ACTIVE105 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 8. " ACTIVE104 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 6. " ACTIVE102 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 5. " ACTIVE101 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 4. " ACTIVE100 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 3. " ACTIVE99 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 2. " ACTIVE98 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 1. " ACTIVE97 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 0. " ACTIVE96 ,Interrupt Active Flag" "Not active,Active"
line.long 0x10 "ACTIVE5,Active Bit Register 5"
bitfld.long 0x10 31. " ACTIVE159 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 30. " ACTIVE158 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 29. " ACTIVE157 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 28. " ACTIVE156 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 27. " ACTIVE155 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 26. " ACTIVE154 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 25. " ACTIVE153 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 24. " ACTIVE152 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 23. " ACTIVE151 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 22. " ACTIVE150 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 21. " ACTIVE149 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 20. " ACTIVE148 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 19. " ACTIVE147 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 18. " ACTIVE146 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 17. " ACTIVE145 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 16. " ACTIVE144 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 15. " ACTIVE143 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 14. " ACTIVE142 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 13. " ACTIVE141 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 12. " ACTIVE140 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 11. " ACTIVE139 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 10. " ACTIVE138 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 9. " ACTIVE137 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 8. " ACTIVE136 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 7. " ACTIVE135 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 6. " ACTIVE134 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 5. " ACTIVE133 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 4. " ACTIVE132 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 3. " ACTIVE131 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 2. " ACTIVE130 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 1. " ACTIVE129 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 0. " ACTIVE128 ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x05)
rgroup.long 0x300++0x17
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active"
line.long 0x08 "ACTIVE3,Active Bit Register 3"
bitfld.long 0x08 31. " ACTIVE95 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 30. " ACTIVE94 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 29. " ACTIVE93 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 28. " ACTIVE92 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 27. " ACTIVE91 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 26. " ACTIVE90 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 25. " ACTIVE89 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 24. " ACTIVE88 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 23. " ACTIVE87 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 22. " ACTIVE86 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 21. " ACTIVE85 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 20. " ACTIVE84 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 19. " ACTIVE83 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 18. " ACTIVE82 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 17. " ACTIVE81 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 16. " ACTIVE80 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 15. " ACTIVE79 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 14. " ACTIVE78 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 13. " ACTIVE77 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 12. " ACTIVE76 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 11. " ACTIVE75 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 10. " ACTIVE74 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 9. " ACTIVE73 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 8. " ACTIVE72 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 7. " ACTIVE71 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 6. " ACTIVE70 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 5. " ACTIVE69 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 4. " ACTIVE68 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 3. " ACTIVE67 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 2. " ACTIVE66 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 1. " ACTIVE65 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 0. " ACTIVE64 ,Interrupt Active Flag" "Not active,Active"
line.long 0x0c "ACTIVE4,Active Bit Register 4"
bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 30. " ACTIVE126 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 29. " ACTIVE125 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 28. " ACTIVE124 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 27. " ACTIVE123 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 26. " ACTIVE122 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 24. " ACTIVE120 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 23. " ACTIVE119 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 22. " ACTIVE118 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 21. " ACTIVE117 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 20. " ACTIVE116 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 18. " ACTIVE114 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 17. " ACTIVE113 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 16. " ACTIVE112 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 15. " ACTIVE111 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 14. " ACTIVE110 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 12. " ACTIVE108 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 11. " ACTIVE107 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 10. " ACTIVE106 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 9. " ACTIVE105 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 8. " ACTIVE104 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 6. " ACTIVE102 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 5. " ACTIVE101 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 4. " ACTIVE100 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 3. " ACTIVE99 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 2. " ACTIVE98 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 1. " ACTIVE97 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 0. " ACTIVE96 ,Interrupt Active Flag" "Not active,Active"
line.long 0x10 "ACTIVE5,Active Bit Register 5"
bitfld.long 0x10 31. " ACTIVE159 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 30. " ACTIVE158 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 29. " ACTIVE157 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 28. " ACTIVE156 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 27. " ACTIVE155 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 26. " ACTIVE154 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 25. " ACTIVE153 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 24. " ACTIVE152 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 23. " ACTIVE151 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 22. " ACTIVE150 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 21. " ACTIVE149 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 20. " ACTIVE148 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 19. " ACTIVE147 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 18. " ACTIVE146 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 17. " ACTIVE145 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 16. " ACTIVE144 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 15. " ACTIVE143 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 14. " ACTIVE142 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 13. " ACTIVE141 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 12. " ACTIVE140 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 11. " ACTIVE139 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 10. " ACTIVE138 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 9. " ACTIVE137 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 8. " ACTIVE136 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 7. " ACTIVE135 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 6. " ACTIVE134 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 5. " ACTIVE133 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 4. " ACTIVE132 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 3. " ACTIVE131 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 2. " ACTIVE130 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 1. " ACTIVE129 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 0. " ACTIVE128 ,Interrupt Active Flag" "Not active,Active"
line.long 0x14 "ACTIVE6,Active Bit Register 6"
bitfld.long 0x14 31. " ACTIVE191 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 30. " ACTIVE190 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 29. " ACTIVE189 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 28. " ACTIVE188 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 27. " ACTIVE187 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 26. " ACTIVE186 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 25. " ACTIVE185 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 24. " ACTIVE184 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 23. " ACTIVE183 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 22. " ACTIVE182 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 21. " ACTIVE181 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 20. " ACTIVE180 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 19. " ACTIVE179 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 18. " ACTIVE178 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 17. " ACTIVE177 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 16. " ACTIVE176 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 15. " ACTIVE175 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 14. " ACTIVE174 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 13. " ACTIVE173 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 12. " ACTIVE172 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 11. " ACTIVE171 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 10. " ACTIVE170 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 9. " ACTIVE169 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 8. " ACTIVE168 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 7. " ACTIVE167 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 6. " ACTIVE166 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 5. " ACTIVE165 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 4. " ACTIVE164 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 3. " ACTIVE163 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 2. " ACTIVE162 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 1. " ACTIVE161 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 0. " ACTIVE160 ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x06)
rgroup.long 0x300++0x1B
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active"
line.long 0x08 "ACTIVE3,Active Bit Register 3"
bitfld.long 0x08 31. " ACTIVE95 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 30. " ACTIVE94 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 29. " ACTIVE93 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 28. " ACTIVE92 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 27. " ACTIVE91 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 26. " ACTIVE90 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 25. " ACTIVE89 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 24. " ACTIVE88 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 23. " ACTIVE87 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 22. " ACTIVE86 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 21. " ACTIVE85 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 20. " ACTIVE84 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 19. " ACTIVE83 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 18. " ACTIVE82 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 17. " ACTIVE81 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 16. " ACTIVE80 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 15. " ACTIVE79 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 14. " ACTIVE78 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 13. " ACTIVE77 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 12. " ACTIVE76 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 11. " ACTIVE75 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 10. " ACTIVE74 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 9. " ACTIVE73 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 8. " ACTIVE72 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 7. " ACTIVE71 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 6. " ACTIVE70 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 5. " ACTIVE69 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 4. " ACTIVE68 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 3. " ACTIVE67 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 2. " ACTIVE66 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 1. " ACTIVE65 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 0. " ACTIVE64 ,Interrupt Active Flag" "Not active,Active"
line.long 0x0c "ACTIVE4,Active Bit Register 4"
bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 30. " ACTIVE126 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 29. " ACTIVE125 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 28. " ACTIVE124 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 27. " ACTIVE123 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 26. " ACTIVE122 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 24. " ACTIVE120 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 23. " ACTIVE119 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 22. " ACTIVE118 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 21. " ACTIVE117 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 20. " ACTIVE116 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 18. " ACTIVE114 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 17. " ACTIVE113 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 16. " ACTIVE112 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 15. " ACTIVE111 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 14. " ACTIVE110 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 12. " ACTIVE108 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 11. " ACTIVE107 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 10. " ACTIVE106 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 9. " ACTIVE105 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 8. " ACTIVE104 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 6. " ACTIVE102 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 5. " ACTIVE101 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 4. " ACTIVE100 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 3. " ACTIVE99 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 2. " ACTIVE98 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 1. " ACTIVE97 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 0. " ACTIVE96 ,Interrupt Active Flag" "Not active,Active"
line.long 0x10 "ACTIVE5,Active Bit Register 5"
bitfld.long 0x10 31. " ACTIVE159 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 30. " ACTIVE158 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 29. " ACTIVE157 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 28. " ACTIVE156 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 27. " ACTIVE155 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 26. " ACTIVE154 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 25. " ACTIVE153 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 24. " ACTIVE152 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 23. " ACTIVE151 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 22. " ACTIVE150 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 21. " ACTIVE149 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 20. " ACTIVE148 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 19. " ACTIVE147 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 18. " ACTIVE146 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 17. " ACTIVE145 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 16. " ACTIVE144 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 15. " ACTIVE143 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 14. " ACTIVE142 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 13. " ACTIVE141 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 12. " ACTIVE140 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 11. " ACTIVE139 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 10. " ACTIVE138 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 9. " ACTIVE137 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 8. " ACTIVE136 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 7. " ACTIVE135 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 6. " ACTIVE134 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 5. " ACTIVE133 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 4. " ACTIVE132 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 3. " ACTIVE131 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 2. " ACTIVE130 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 1. " ACTIVE129 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 0. " ACTIVE128 ,Interrupt Active Flag" "Not active,Active"
line.long 0x14 "ACTIVE6,Active Bit Register 6"
bitfld.long 0x14 31. " ACTIVE191 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 30. " ACTIVE190 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 29. " ACTIVE189 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 28. " ACTIVE188 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 27. " ACTIVE187 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 26. " ACTIVE186 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 25. " ACTIVE185 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 24. " ACTIVE184 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 23. " ACTIVE183 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 22. " ACTIVE182 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 21. " ACTIVE181 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 20. " ACTIVE180 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 19. " ACTIVE179 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 18. " ACTIVE178 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 17. " ACTIVE177 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 16. " ACTIVE176 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 15. " ACTIVE175 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 14. " ACTIVE174 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 13. " ACTIVE173 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 12. " ACTIVE172 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 11. " ACTIVE171 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 10. " ACTIVE170 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 9. " ACTIVE169 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 8. " ACTIVE168 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 7. " ACTIVE167 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 6. " ACTIVE166 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 5. " ACTIVE165 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 4. " ACTIVE164 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 3. " ACTIVE163 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 2. " ACTIVE162 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 1. " ACTIVE161 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 0. " ACTIVE160 ,Interrupt Active Flag" "Not active,Active"
line.long 0x18 "ACTIVE7,Active Bit Register 7"
bitfld.long 0x18 31. " ACTIVE223 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 30. " ACTIVE222 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 29. " ACTIVE221 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 28. " ACTIVE220 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 27. " ACTIVE219 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 26. " ACTIVE218 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x18 25. " ACTIVE217 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 24. " ACTIVE216 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 23. " ACTIVE215 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 22. " ACTIVE214 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 21. " ACTIVE213 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 20. " ACTIVE212 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x18 19. " ACTIVE211 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 18. " ACTIVE210 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 17. " ACTIVE209 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 16. " ACTIVE208 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 15. " ACTIVE207 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 14. " ACTIVE206 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x18 13. " ACTIVE205 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 12. " ACTIVE204 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 11. " ACTIVE203 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 10. " ACTIVE202 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 9. " ACTIVE201 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 8. " ACTIVE200 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x18 7. " ACTIVE199 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 6. " ACTIVE198 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 5. " ACTIVE197 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 4. " ACTIVE196 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 3. " ACTIVE195 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 2. " ACTIVE194 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x18 1. " ACTIVE193 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 0. " ACTIVE192 ,Interrupt Active Flag" "Not active,Active"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x07)
rgroup.long 0x300++0x1F
line.long 0x00 "ACTIVE1,Active Bit Register 1"
bitfld.long 0x00 31. " ACTIVE31 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 30. " ACTIVE30 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 29. " ACTIVE29 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 28. " ACTIVE28 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 27. " ACTIVE27 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 26. " ACTIVE26 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 25. " ACTIVE25 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 24. " ACTIVE24 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 23. " ACTIVE23 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 22. " ACTIVE22 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 21. " ACTIVE21 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 20. " ACTIVE20 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 19. " ACTIVE19 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 18. " ACTIVE18 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 17. " ACTIVE17 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 16. " ACTIVE16 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 15. " ACTIVE15 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 14. " ACTIVE14 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 13. " ACTIVE13 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 12. " ACTIVE12 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 11. " ACTIVE11 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 10. " ACTIVE10 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 9. " ACTIVE9 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 8. " ACTIVE8 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 7. " ACTIVE7 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 6. " ACTIVE6 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 5. " ACTIVE5 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 4. " ACTIVE4 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 3. " ACTIVE3 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 2. " ACTIVE2 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x00 1. " ACTIVE1 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x00 0. " ACTIVE0 ,Interrupt Active Flag" "Not active,Active"
line.long 0x04 "ACTIVE2,Active Bit Register 2"
bitfld.long 0x04 31. " ACTIVE63 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 30. " ACTIVE62 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 29. " ACTIVE61 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 28. " ACTIVE60 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 27. " ACTIVE59 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 26. " ACTIVE58 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 25. " ACTIVE57 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 24. " ACTIVE56 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 23. " ACTIVE55 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 22. " ACTIVE54 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 21. " ACTIVE53 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 20. " ACTIVE52 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 19. " ACTIVE51 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 18. " ACTIVE50 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 17. " ACTIVE49 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 16. " ACTIVE48 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 15. " ACTIVE47 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 14. " ACTIVE46 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 13. " ACTIVE45 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 12. " ACTIVE44 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 11. " ACTIVE43 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 10. " ACTIVE42 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 9. " ACTIVE41 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 8. " ACTIVE40 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 7. " ACTIVE39 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 6. " ACTIVE38 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 5. " ACTIVE37 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 4. " ACTIVE36 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 3. " ACTIVE35 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 2. " ACTIVE34 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x04 1. " ACTIVE33 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x04 0. " ACTIVE32 ,Interrupt Active Flag" "Not active,Active"
line.long 0x08 "ACTIVE3,Active Bit Register 3"
bitfld.long 0x08 31. " ACTIVE95 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 30. " ACTIVE94 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 29. " ACTIVE93 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 28. " ACTIVE92 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 27. " ACTIVE91 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 26. " ACTIVE90 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 25. " ACTIVE89 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 24. " ACTIVE88 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 23. " ACTIVE87 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 22. " ACTIVE86 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 21. " ACTIVE85 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 20. " ACTIVE84 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 19. " ACTIVE83 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 18. " ACTIVE82 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 17. " ACTIVE81 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 16. " ACTIVE80 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 15. " ACTIVE79 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 14. " ACTIVE78 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 13. " ACTIVE77 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 12. " ACTIVE76 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 11. " ACTIVE75 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 10. " ACTIVE74 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 9. " ACTIVE73 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 8. " ACTIVE72 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 7. " ACTIVE71 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 6. " ACTIVE70 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 5. " ACTIVE69 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 4. " ACTIVE68 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 3. " ACTIVE67 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 2. " ACTIVE66 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x08 1. " ACTIVE65 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x08 0. " ACTIVE64 ,Interrupt Active Flag" "Not active,Active"
line.long 0x0c "ACTIVE4,Active Bit Register 4"
bitfld.long 0x0c 31. " ACTIVE127 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 30. " ACTIVE126 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 29. " ACTIVE125 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 28. " ACTIVE124 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 27. " ACTIVE123 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 26. " ACTIVE122 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 25. " ACTIVE121 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 24. " ACTIVE120 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 23. " ACTIVE119 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 22. " ACTIVE118 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 21. " ACTIVE117 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 20. " ACTIVE116 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 19. " ACTIVE115 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 18. " ACTIVE114 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 17. " ACTIVE113 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 16. " ACTIVE112 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 15. " ACTIVE111 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 14. " ACTIVE110 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 13. " ACTIVE109 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 12. " ACTIVE108 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 11. " ACTIVE107 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 10. " ACTIVE106 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 9. " ACTIVE105 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 8. " ACTIVE104 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 7. " ACTIVE103 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 6. " ACTIVE102 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 5. " ACTIVE101 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 4. " ACTIVE100 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 3. " ACTIVE99 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 2. " ACTIVE98 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x0c 1. " ACTIVE97 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x0c 0. " ACTIVE96 ,Interrupt Active Flag" "Not active,Active"
line.long 0x10 "ACTIVE5,Active Bit Register 5"
bitfld.long 0x10 31. " ACTIVE159 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 30. " ACTIVE158 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 29. " ACTIVE157 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 28. " ACTIVE156 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 27. " ACTIVE155 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 26. " ACTIVE154 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 25. " ACTIVE153 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 24. " ACTIVE152 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 23. " ACTIVE151 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 22. " ACTIVE150 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 21. " ACTIVE149 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 20. " ACTIVE148 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 19. " ACTIVE147 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 18. " ACTIVE146 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 17. " ACTIVE145 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 16. " ACTIVE144 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 15. " ACTIVE143 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 14. " ACTIVE142 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 13. " ACTIVE141 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 12. " ACTIVE140 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 11. " ACTIVE139 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 10. " ACTIVE138 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 9. " ACTIVE137 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 8. " ACTIVE136 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 7. " ACTIVE135 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 6. " ACTIVE134 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 5. " ACTIVE133 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 4. " ACTIVE132 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 3. " ACTIVE131 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 2. " ACTIVE130 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x10 1. " ACTIVE129 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x10 0. " ACTIVE128 ,Interrupt Active Flag" "Not active,Active"
line.long 0x14 "ACTIVE6,Active Bit Register 6"
bitfld.long 0x14 31. " ACTIVE191 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 30. " ACTIVE190 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 29. " ACTIVE189 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 28. " ACTIVE188 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 27. " ACTIVE187 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 26. " ACTIVE186 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 25. " ACTIVE185 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 24. " ACTIVE184 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 23. " ACTIVE183 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 22. " ACTIVE182 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 21. " ACTIVE181 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 20. " ACTIVE180 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 19. " ACTIVE179 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 18. " ACTIVE178 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 17. " ACTIVE177 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 16. " ACTIVE176 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 15. " ACTIVE175 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 14. " ACTIVE174 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 13. " ACTIVE173 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 12. " ACTIVE172 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 11. " ACTIVE171 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 10. " ACTIVE170 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 9. " ACTIVE169 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 8. " ACTIVE168 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 7. " ACTIVE167 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 6. " ACTIVE166 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 5. " ACTIVE165 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 4. " ACTIVE164 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 3. " ACTIVE163 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 2. " ACTIVE162 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x14 1. " ACTIVE161 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x14 0. " ACTIVE160 ,Interrupt Active Flag" "Not active,Active"
line.long 0x18 "ACTIVE7,Active Bit Register 7"
bitfld.long 0x18 31. " ACTIVE223 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 30. " ACTIVE222 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 29. " ACTIVE221 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 28. " ACTIVE220 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 27. " ACTIVE219 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 26. " ACTIVE218 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x18 25. " ACTIVE217 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 24. " ACTIVE216 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 23. " ACTIVE215 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 22. " ACTIVE214 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 21. " ACTIVE213 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 20. " ACTIVE212 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x18 19. " ACTIVE211 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 18. " ACTIVE210 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 17. " ACTIVE209 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 16. " ACTIVE208 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 15. " ACTIVE207 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 14. " ACTIVE206 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x18 13. " ACTIVE205 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 12. " ACTIVE204 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 11. " ACTIVE203 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 10. " ACTIVE202 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 9. " ACTIVE201 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 8. " ACTIVE200 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x18 7. " ACTIVE199 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 6. " ACTIVE198 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 5. " ACTIVE197 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 4. " ACTIVE196 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 3. " ACTIVE195 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 2. " ACTIVE194 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x18 1. " ACTIVE193 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x18 0. " ACTIVE192 ,Interrupt Active Flag" "Not active,Active"
line.long 0x1c "ACTIVE8,Active Bit Register 8"
bitfld.long 0x1c 15. " ACTIVE239 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 14. " ACTIVE238 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 13. " ACTIVE237 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 12. " ACTIVE236 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 11. " ACTIVE235 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 10. " ACTIVE234 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x1c 9. " ACTIVE233 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 8. " ACTIVE232 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 7. " ACTIVE231 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 6. " ACTIVE230 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 5. " ACTIVE229 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 4. " ACTIVE228 ,Interrupt Active Flag" "Not active,Active"
textline " "
bitfld.long 0x1c 3. " ACTIVE227 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 2. " ACTIVE226 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 1. " ACTIVE225 ,Interrupt Active Flag" "Not active,Active"
bitfld.long 0x1c 0. " ACTIVE224 ,Interrupt Active Flag" "Not active,Active"
else
hgroup.long 0x300++0x1F
hide.long 0x00 "ACTIVE1,Active Bit Register 1"
hide.long 0x04 "ACTIVE2,Active Bit Register 2"
hide.long 0x08 "ACTIVE3,Active Bit Register 3"
hide.long 0x0c "ACTIVE4,Active Bit Register 4"
hide.long 0x10 "ACTIVE5,Active Bit Register 5"
hide.long 0x14 "ACTIVE6,Active Bit Register 6"
hide.long 0x18 "ACTIVE7,Active Bit Register 7"
hide.long 0x1c "ACTIVE8,Active Bit Register 8"
endif
tree.end
tree "Interrupt Priority Registers"
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x00)
group.long 0x400++0x1F
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority"
hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority"
hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority"
hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority"
hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority"
hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority"
hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority"
hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority"
hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority"
hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority"
hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority"
hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority"
hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority"
hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority"
hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority"
hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority"
hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority"
hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority"
hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority"
hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority"
hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority"
hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority"
hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority"
hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority"
hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x01)
group.long 0x400++0x3F
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority"
hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority"
hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority"
hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority"
hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority"
hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority"
hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority"
hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority"
hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority"
hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority"
hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority"
hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority"
hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority"
hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority"
hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority"
hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority"
hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority"
hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority"
hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority"
hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority"
hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority"
hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority"
hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority"
hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority"
hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority"
hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority"
hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority"
hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority"
hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority"
hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority"
hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority"
hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority"
hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority"
hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority"
hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority"
hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority"
hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority"
hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority"
hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority"
hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority"
hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority"
hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority"
hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority"
hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority"
hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority"
hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority"
hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority"
hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority"
hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x02)
group.long 0x400++0x5F
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority"
hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority"
hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority"
hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority"
hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority"
hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority"
hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority"
hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority"
hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority"
hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority"
hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority"
hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority"
hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority"
hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority"
hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority"
hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority"
hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority"
hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority"
hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority"
hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority"
hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority"
hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority"
hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority"
hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority"
hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority"
hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority"
hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority"
hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority"
hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority"
hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority"
hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority"
hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority"
hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority"
hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority"
hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority"
hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority"
hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority"
hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority"
hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority"
hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority"
hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority"
hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority"
hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority"
hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority"
hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority"
hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority"
hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority"
hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority"
hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority"
line.long 0x40 "IPR16,Interrupt Priority Register"
hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority"
hexmask.long.byte 0x40 16.--23. 1. " PRI_66 ,Interrupt 66 Priority"
hexmask.long.byte 0x40 8.--15. 1. " PRI_65 ,Interrupt 65 Priority"
hexmask.long.byte 0x40 0.--7. 1. " PRI_64 ,Interrupt 64 Priority"
line.long 0x44 "IPR17,Interrupt Priority Register"
hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority"
hexmask.long.byte 0x44 16.--23. 1. " PRI_70 ,Interrupt 70 Priority"
hexmask.long.byte 0x44 8.--15. 1. " PRI_69 ,Interrupt 69 Priority"
hexmask.long.byte 0x44 0.--7. 1. " PRI_68 ,Interrupt 68 Priority"
line.long 0x48 "IPR18,Interrupt Priority Register"
hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority"
hexmask.long.byte 0x48 16.--23. 1. " PRI_74 ,Interrupt 74 Priority"
hexmask.long.byte 0x48 8.--15. 1. " PRI_73 ,Interrupt 73 Priority"
hexmask.long.byte 0x48 0.--7. 1. " PRI_72 ,Interrupt 72 Priority"
line.long 0x4C "IPR19,Interrupt Priority Register"
hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority"
hexmask.long.byte 0x4C 16.--23. 1. " PRI_78 ,Interrupt 78 Priority"
hexmask.long.byte 0x4C 8.--15. 1. " PRI_77 ,Interrupt 77 Priority"
hexmask.long.byte 0x4C 0.--7. 1. " PRI_76 ,Interrupt 76 Priority"
line.long 0x50 "IPR20,Interrupt Priority Register"
hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority"
hexmask.long.byte 0x50 16.--23. 1. " PRI_82 ,Interrupt 82 Priority"
hexmask.long.byte 0x50 8.--15. 1. " PRI_81 ,Interrupt 81 Priority"
hexmask.long.byte 0x50 0.--7. 1. " PRI_80 ,Interrupt 80 Priority"
line.long 0x54 "IPR21,Interrupt Priority Register"
hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority"
hexmask.long.byte 0x54 16.--23. 1. " PRI_86 ,Interrupt 86 Priority"
hexmask.long.byte 0x54 8.--15. 1. " PRI_85 ,Interrupt 85 Priority"
hexmask.long.byte 0x54 0.--7. 1. " PRI_84 ,Interrupt 84 Priority"
line.long 0x58 "IPR22,Interrupt Priority Register"
hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority"
hexmask.long.byte 0x58 16.--23. 1. " PRI_90 ,Interrupt 90 Priority"
hexmask.long.byte 0x58 8.--15. 1. " PRI_89 ,Interrupt 89 Priority"
hexmask.long.byte 0x58 0.--7. 1. " PRI_88 ,Interrupt 88 Priority"
line.long 0x5C "IPR23,Interrupt Priority Register"
hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority"
hexmask.long.byte 0x5C 16.--23. 1. " PRI_94 ,Interrupt 94 Priority"
hexmask.long.byte 0x5C 8.--15. 1. " PRI_93 ,Interrupt 93 Priority"
hexmask.long.byte 0x5C 0.--7. 1. " PRI_92 ,Interrupt 92 Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x03)
group.long 0x400++0x7F
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority"
hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority"
hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority"
hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority"
hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority"
hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority"
hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority"
hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority"
hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority"
hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority"
hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority"
hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority"
hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority"
hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority"
hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority"
hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority"
hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority"
hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority"
hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority"
hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority"
hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority"
hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority"
hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority"
hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority"
hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority"
hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority"
hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority"
hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority"
hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority"
hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority"
hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority"
hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority"
hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority"
hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority"
hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority"
hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority"
hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority"
hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority"
hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority"
hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority"
hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority"
hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority"
hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority"
hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority"
hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority"
hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority"
hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority"
hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority"
hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority"
line.long 0x40 "IPR16,Interrupt Priority Register"
hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority"
hexmask.long.byte 0x40 16.--23. 1. " PRI_66 ,Interrupt 66 Priority"
hexmask.long.byte 0x40 8.--15. 1. " PRI_65 ,Interrupt 65 Priority"
hexmask.long.byte 0x40 0.--7. 1. " PRI_64 ,Interrupt 64 Priority"
line.long 0x44 "IPR17,Interrupt Priority Register"
hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority"
hexmask.long.byte 0x44 16.--23. 1. " PRI_70 ,Interrupt 70 Priority"
hexmask.long.byte 0x44 8.--15. 1. " PRI_69 ,Interrupt 69 Priority"
hexmask.long.byte 0x44 0.--7. 1. " PRI_68 ,Interrupt 68 Priority"
line.long 0x48 "IPR18,Interrupt Priority Register"
hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority"
hexmask.long.byte 0x48 16.--23. 1. " PRI_74 ,Interrupt 74 Priority"
hexmask.long.byte 0x48 8.--15. 1. " PRI_73 ,Interrupt 73 Priority"
hexmask.long.byte 0x48 0.--7. 1. " PRI_72 ,Interrupt 72 Priority"
line.long 0x4C "IPR19,Interrupt Priority Register"
hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority"
hexmask.long.byte 0x4C 16.--23. 1. " PRI_78 ,Interrupt 78 Priority"
hexmask.long.byte 0x4C 8.--15. 1. " PRI_77 ,Interrupt 77 Priority"
hexmask.long.byte 0x4C 0.--7. 1. " PRI_76 ,Interrupt 76 Priority"
line.long 0x50 "IPR20,Interrupt Priority Register"
hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority"
hexmask.long.byte 0x50 16.--23. 1. " PRI_82 ,Interrupt 82 Priority"
hexmask.long.byte 0x50 8.--15. 1. " PRI_81 ,Interrupt 81 Priority"
hexmask.long.byte 0x50 0.--7. 1. " PRI_80 ,Interrupt 80 Priority"
line.long 0x54 "IPR21,Interrupt Priority Register"
hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority"
hexmask.long.byte 0x54 16.--23. 1. " PRI_86 ,Interrupt 86 Priority"
hexmask.long.byte 0x54 8.--15. 1. " PRI_85 ,Interrupt 85 Priority"
hexmask.long.byte 0x54 0.--7. 1. " PRI_84 ,Interrupt 84 Priority"
line.long 0x58 "IPR22,Interrupt Priority Register"
hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority"
hexmask.long.byte 0x58 16.--23. 1. " PRI_90 ,Interrupt 90 Priority"
hexmask.long.byte 0x58 8.--15. 1. " PRI_89 ,Interrupt 89 Priority"
hexmask.long.byte 0x58 0.--7. 1. " PRI_88 ,Interrupt 88 Priority"
line.long 0x5C "IPR23,Interrupt Priority Register"
hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority"
hexmask.long.byte 0x5C 16.--23. 1. " PRI_94 ,Interrupt 94 Priority"
hexmask.long.byte 0x5C 8.--15. 1. " PRI_93 ,Interrupt 93 Priority"
hexmask.long.byte 0x5C 0.--7. 1. " PRI_92 ,Interrupt 92 Priority"
line.long 0x60 "IPR24,Interrupt Priority Register"
hexmask.long.byte 0x60 24.--31. 1. " PRI_99 ,Interrupt 99 Priority"
hexmask.long.byte 0x60 16.--23. 1. " PRI_98 ,Interrupt 98 Priority"
hexmask.long.byte 0x60 8.--15. 1. " PRI_97 ,Interrupt 97 Priority"
hexmask.long.byte 0x60 0.--7. 1. " PRI_96 ,Interrupt 96 Priority"
line.long 0x64 "IPR25,Interrupt Priority Register"
hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority"
hexmask.long.byte 0x64 16.--23. 1. " PRI_102 ,Interrupt 102 Priority"
hexmask.long.byte 0x64 8.--15. 1. " PRI_101 ,Interrupt 101 Priority"
hexmask.long.byte 0x64 0.--7. 1. " PRI_100 ,Interrupt 100 Priority"
line.long 0x68 "IPR26,Interrupt Priority Register"
hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority"
hexmask.long.byte 0x68 16.--23. 1. " PRI_106 ,Interrupt 106 Priority"
hexmask.long.byte 0x68 8.--15. 1. " PRI_105 ,Interrupt 105 Priority"
hexmask.long.byte 0x68 0.--7. 1. " PRI_104 ,Interrupt 104 Priority"
line.long 0x6C "IPR27,Interrupt Priority Register"
hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority"
hexmask.long.byte 0x6C 16.--23. 1. " PRI_110 ,Interrupt 110 Priority"
hexmask.long.byte 0x6C 8.--15. 1. " PRI_109 ,Interrupt 109 Priority"
hexmask.long.byte 0x6C 0.--7. 1. " PRI_108 ,Interrupt 108 Priority"
line.long 0x70 "IPR28,Interrupt Priority Register"
hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority"
hexmask.long.byte 0x70 16.--23. 1. " PRI_114 ,Interrupt 114 Priority"
hexmask.long.byte 0x70 8.--15. 1. " PRI_113 ,Interrupt 113 Priority"
hexmask.long.byte 0x70 0.--7. 1. " PRI_112 ,Interrupt 112 Priority"
line.long 0x74 "IPR29,Interrupt Priority Register"
hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority"
hexmask.long.byte 0x74 16.--23. 1. " PRI_118 ,Interrupt 118 Priority"
hexmask.long.byte 0x74 8.--15. 1. " PRI_117 ,Interrupt 117 Priority"
hexmask.long.byte 0x74 0.--7. 1. " PRI_116 ,Interrupt 116 Priority"
line.long 0x78 "IPR30,Interrupt Priority Register"
hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority"
hexmask.long.byte 0x78 16.--23. 1. " PRI_122 ,Interrupt 122 Priority"
hexmask.long.byte 0x78 8.--15. 1. " PRI_121 ,Interrupt 121 Priority"
hexmask.long.byte 0x78 0.--7. 1. " PRI_120 ,Interrupt 120 Priority"
line.long 0x7C "IPR31,Interrupt Priority Register"
hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority"
hexmask.long.byte 0x7C 16.--23. 1. " PRI_126 ,Interrupt 126 Priority"
hexmask.long.byte 0x7C 8.--15. 1. " PRI_125 ,Interrupt 125 Priority"
hexmask.long.byte 0x7C 0.--7. 1. " PRI_124 ,Interrupt 124 Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x04)
group.long 0x400++0x9F
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority"
hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority"
hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority"
hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority"
hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority"
hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority"
hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority"
hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority"
hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority"
hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority"
hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority"
hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority"
hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority"
hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority"
hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority"
hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority"
hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority"
hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority"
hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority"
hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority"
hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority"
hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority"
hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority"
hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority"
hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority"
hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority"
hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority"
hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority"
hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority"
hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority"
hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority"
hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority"
hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority"
hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority"
hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority"
hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority"
hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority"
hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority"
hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority"
hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority"
hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority"
hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority"
hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority"
hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority"
hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority"
hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority"
hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority"
hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority"
hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority"
line.long 0x40 "IPR16,Interrupt Priority Register"
hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority"
hexmask.long.byte 0x40 16.--23. 1. " PRI_66 ,Interrupt 66 Priority"
hexmask.long.byte 0x40 8.--15. 1. " PRI_65 ,Interrupt 65 Priority"
hexmask.long.byte 0x40 0.--7. 1. " PRI_64 ,Interrupt 64 Priority"
line.long 0x44 "IPR17,Interrupt Priority Register"
hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority"
hexmask.long.byte 0x44 16.--23. 1. " PRI_70 ,Interrupt 70 Priority"
hexmask.long.byte 0x44 8.--15. 1. " PRI_69 ,Interrupt 69 Priority"
hexmask.long.byte 0x44 0.--7. 1. " PRI_68 ,Interrupt 68 Priority"
line.long 0x48 "IPR18,Interrupt Priority Register"
hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority"
hexmask.long.byte 0x48 16.--23. 1. " PRI_74 ,Interrupt 74 Priority"
hexmask.long.byte 0x48 8.--15. 1. " PRI_73 ,Interrupt 73 Priority"
hexmask.long.byte 0x48 0.--7. 1. " PRI_72 ,Interrupt 72 Priority"
line.long 0x4C "IPR19,Interrupt Priority Register"
hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority"
hexmask.long.byte 0x4C 16.--23. 1. " PRI_78 ,Interrupt 78 Priority"
hexmask.long.byte 0x4C 8.--15. 1. " PRI_77 ,Interrupt 77 Priority"
hexmask.long.byte 0x4C 0.--7. 1. " PRI_76 ,Interrupt 76 Priority"
line.long 0x50 "IPR20,Interrupt Priority Register"
hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority"
hexmask.long.byte 0x50 16.--23. 1. " PRI_82 ,Interrupt 82 Priority"
hexmask.long.byte 0x50 8.--15. 1. " PRI_81 ,Interrupt 81 Priority"
hexmask.long.byte 0x50 0.--7. 1. " PRI_80 ,Interrupt 80 Priority"
line.long 0x54 "IPR21,Interrupt Priority Register"
hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority"
hexmask.long.byte 0x54 16.--23. 1. " PRI_86 ,Interrupt 86 Priority"
hexmask.long.byte 0x54 8.--15. 1. " PRI_85 ,Interrupt 85 Priority"
hexmask.long.byte 0x54 0.--7. 1. " PRI_84 ,Interrupt 84 Priority"
line.long 0x58 "IPR22,Interrupt Priority Register"
hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority"
hexmask.long.byte 0x58 16.--23. 1. " PRI_90 ,Interrupt 90 Priority"
hexmask.long.byte 0x58 8.--15. 1. " PRI_89 ,Interrupt 89 Priority"
hexmask.long.byte 0x58 0.--7. 1. " PRI_88 ,Interrupt 88 Priority"
line.long 0x5C "IPR23,Interrupt Priority Register"
hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority"
hexmask.long.byte 0x5C 16.--23. 1. " PRI_94 ,Interrupt 94 Priority"
hexmask.long.byte 0x5C 8.--15. 1. " PRI_93 ,Interrupt 93 Priority"
hexmask.long.byte 0x5C 0.--7. 1. " PRI_92 ,Interrupt 92 Priority"
line.long 0x60 "IPR24,Interrupt Priority Register"
hexmask.long.byte 0x60 24.--31. 1. " PRI_99 ,Interrupt 99 Priority"
hexmask.long.byte 0x60 16.--23. 1. " PRI_98 ,Interrupt 98 Priority"
hexmask.long.byte 0x60 8.--15. 1. " PRI_97 ,Interrupt 97 Priority"
hexmask.long.byte 0x60 0.--7. 1. " PRI_96 ,Interrupt 96 Priority"
line.long 0x64 "IPR25,Interrupt Priority Register"
hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority"
hexmask.long.byte 0x64 16.--23. 1. " PRI_102 ,Interrupt 102 Priority"
hexmask.long.byte 0x64 8.--15. 1. " PRI_101 ,Interrupt 101 Priority"
hexmask.long.byte 0x64 0.--7. 1. " PRI_100 ,Interrupt 100 Priority"
line.long 0x68 "IPR26,Interrupt Priority Register"
hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority"
hexmask.long.byte 0x68 16.--23. 1. " PRI_106 ,Interrupt 106 Priority"
hexmask.long.byte 0x68 8.--15. 1. " PRI_105 ,Interrupt 105 Priority"
hexmask.long.byte 0x68 0.--7. 1. " PRI_104 ,Interrupt 104 Priority"
line.long 0x6C "IPR27,Interrupt Priority Register"
hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority"
hexmask.long.byte 0x6C 16.--23. 1. " PRI_110 ,Interrupt 110 Priority"
hexmask.long.byte 0x6C 8.--15. 1. " PRI_109 ,Interrupt 109 Priority"
hexmask.long.byte 0x6C 0.--7. 1. " PRI_108 ,Interrupt 108 Priority"
line.long 0x70 "IPR28,Interrupt Priority Register"
hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority"
hexmask.long.byte 0x70 16.--23. 1. " PRI_114 ,Interrupt 114 Priority"
hexmask.long.byte 0x70 8.--15. 1. " PRI_113 ,Interrupt 113 Priority"
hexmask.long.byte 0x70 0.--7. 1. " PRI_112 ,Interrupt 112 Priority"
line.long 0x74 "IPR29,Interrupt Priority Register"
hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority"
hexmask.long.byte 0x74 16.--23. 1. " PRI_118 ,Interrupt 118 Priority"
hexmask.long.byte 0x74 8.--15. 1. " PRI_117 ,Interrupt 117 Priority"
hexmask.long.byte 0x74 0.--7. 1. " PRI_116 ,Interrupt 116 Priority"
line.long 0x78 "IPR30,Interrupt Priority Register"
hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority"
hexmask.long.byte 0x78 16.--23. 1. " PRI_122 ,Interrupt 122 Priority"
hexmask.long.byte 0x78 8.--15. 1. " PRI_121 ,Interrupt 121 Priority"
hexmask.long.byte 0x78 0.--7. 1. " PRI_120 ,Interrupt 120 Priority"
line.long 0x7C "IPR31,Interrupt Priority Register"
hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority"
hexmask.long.byte 0x7C 16.--23. 1. " PRI_126 ,Interrupt 126 Priority"
hexmask.long.byte 0x7C 8.--15. 1. " PRI_125 ,Interrupt 125 Priority"
hexmask.long.byte 0x7C 0.--7. 1. " PRI_124 ,Interrupt 124 Priority"
line.long 0x80 "IPR32,Interrupt Priority Register"
hexmask.long.byte 0x80 24.--31. 1. " PRI_131 ,Interrupt 131 Priority"
hexmask.long.byte 0x80 16.--23. 1. " PRI_130 ,Interrupt 130 Priority"
hexmask.long.byte 0x80 8.--15. 1. " PRI_129 ,Interrupt 129 Priority"
hexmask.long.byte 0x80 0.--7. 1. " PRI_128 ,Interrupt 128 Priority"
line.long 0x84 "IPR33,Interrupt Priority Register"
hexmask.long.byte 0x84 24.--31. 1. " PRI_135 ,Interrupt 135 Priority"
hexmask.long.byte 0x84 16.--23. 1. " PRI_134 ,Interrupt 134 Priority"
hexmask.long.byte 0x84 8.--15. 1. " PRI_133 ,Interrupt 133 Priority"
hexmask.long.byte 0x84 0.--7. 1. " PRI_132 ,Interrupt 132 Priority"
line.long 0x88 "IPR34,Interrupt Priority Register"
hexmask.long.byte 0x88 24.--31. 1. " PRI_139 ,Interrupt 139 Priority"
hexmask.long.byte 0x88 16.--23. 1. " PRI_138 ,Interrupt 138 Priority"
hexmask.long.byte 0x88 8.--15. 1. " PRI_137 ,Interrupt 137 Priority"
hexmask.long.byte 0x88 0.--7. 1. " PRI_136 ,Interrupt 136 Priority"
line.long 0x8C "IPR35,Interrupt Priority Register"
hexmask.long.byte 0x8C 24.--31. 1. " PRI_143 ,Interrupt 143 Priority"
hexmask.long.byte 0x8C 16.--23. 1. " PRI_142 ,Interrupt 142 Priority"
hexmask.long.byte 0x8C 8.--15. 1. " PRI_141 ,Interrupt 141 Priority"
hexmask.long.byte 0x8C 0.--7. 1. " PRI_140 ,Interrupt 140 Priority"
line.long 0x90 "IPR36,Interrupt Priority Register"
hexmask.long.byte 0x90 24.--31. 1. " PRI_147 ,Interrupt 147 Priority"
hexmask.long.byte 0x90 16.--23. 1. " PRI_146 ,Interrupt 146 Priority"
hexmask.long.byte 0x90 8.--15. 1. " PRI_145 ,Interrupt 145 Priority"
hexmask.long.byte 0x90 0.--7. 1. " PRI_144 ,Interrupt 144 Priority"
line.long 0x94 "IPR37,Interrupt Priority Register"
hexmask.long.byte 0x94 24.--31. 1. " PRI_151 ,Interrupt 151 Priority"
hexmask.long.byte 0x94 16.--23. 1. " PRI_150 ,Interrupt 150 Priority"
hexmask.long.byte 0x94 8.--15. 1. " PRI_149 ,Interrupt 149 Priority"
hexmask.long.byte 0x94 0.--7. 1. " PRI_148 ,Interrupt 148 Priority"
line.long 0x98 "IPR38,Interrupt Priority Register"
hexmask.long.byte 0x98 24.--31. 1. " PRI_155 ,Interrupt 155 Priority"
hexmask.long.byte 0x98 16.--23. 1. " PRI_154 ,Interrupt 154 Priority"
hexmask.long.byte 0x98 8.--15. 1. " PRI_153 ,Interrupt 153 Priority"
hexmask.long.byte 0x98 0.--7. 1. " PRI_152 ,Interrupt 152 Priority"
line.long 0x9C "IPR39,Interrupt Priority Register"
hexmask.long.byte 0x9C 24.--31. 1. " PRI_159 ,Interrupt 159 Priority"
hexmask.long.byte 0x9C 16.--23. 1. " PRI_158 ,Interrupt 158 Priority"
hexmask.long.byte 0x9C 8.--15. 1. " PRI_157 ,Interrupt 157 Priority"
hexmask.long.byte 0x9C 0.--7. 1. " PRI_156 ,Interrupt 156 Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x05)
group.long 0x400++0xBF
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority"
hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority"
hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority"
hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority"
hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority"
hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority"
hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority"
hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority"
hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority"
hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority"
hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority"
hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority"
hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority"
hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority"
hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority"
hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority"
hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority"
hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority"
hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority"
hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority"
hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority"
hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority"
hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority"
hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority"
hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority"
hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority"
hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority"
hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority"
hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority"
hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority"
hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority"
hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority"
hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority"
hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority"
hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority"
hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority"
hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority"
hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority"
hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority"
hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority"
hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority"
hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority"
hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority"
hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority"
hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority"
hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority"
hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority"
hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority"
hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority"
line.long 0x40 "IPR16,Interrupt Priority Register"
hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority"
hexmask.long.byte 0x40 16.--23. 1. " PRI_66 ,Interrupt 66 Priority"
hexmask.long.byte 0x40 8.--15. 1. " PRI_65 ,Interrupt 65 Priority"
hexmask.long.byte 0x40 0.--7. 1. " PRI_64 ,Interrupt 64 Priority"
line.long 0x44 "IPR17,Interrupt Priority Register"
hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority"
hexmask.long.byte 0x44 16.--23. 1. " PRI_70 ,Interrupt 70 Priority"
hexmask.long.byte 0x44 8.--15. 1. " PRI_69 ,Interrupt 69 Priority"
hexmask.long.byte 0x44 0.--7. 1. " PRI_68 ,Interrupt 68 Priority"
line.long 0x48 "IPR18,Interrupt Priority Register"
hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority"
hexmask.long.byte 0x48 16.--23. 1. " PRI_74 ,Interrupt 74 Priority"
hexmask.long.byte 0x48 8.--15. 1. " PRI_73 ,Interrupt 73 Priority"
hexmask.long.byte 0x48 0.--7. 1. " PRI_72 ,Interrupt 72 Priority"
line.long 0x4C "IPR19,Interrupt Priority Register"
hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority"
hexmask.long.byte 0x4C 16.--23. 1. " PRI_78 ,Interrupt 78 Priority"
hexmask.long.byte 0x4C 8.--15. 1. " PRI_77 ,Interrupt 77 Priority"
hexmask.long.byte 0x4C 0.--7. 1. " PRI_76 ,Interrupt 76 Priority"
line.long 0x50 "IPR20,Interrupt Priority Register"
hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority"
hexmask.long.byte 0x50 16.--23. 1. " PRI_82 ,Interrupt 82 Priority"
hexmask.long.byte 0x50 8.--15. 1. " PRI_81 ,Interrupt 81 Priority"
hexmask.long.byte 0x50 0.--7. 1. " PRI_80 ,Interrupt 80 Priority"
line.long 0x54 "IPR21,Interrupt Priority Register"
hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority"
hexmask.long.byte 0x54 16.--23. 1. " PRI_86 ,Interrupt 86 Priority"
hexmask.long.byte 0x54 8.--15. 1. " PRI_85 ,Interrupt 85 Priority"
hexmask.long.byte 0x54 0.--7. 1. " PRI_84 ,Interrupt 84 Priority"
line.long 0x58 "IPR22,Interrupt Priority Register"
hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority"
hexmask.long.byte 0x58 16.--23. 1. " PRI_90 ,Interrupt 90 Priority"
hexmask.long.byte 0x58 8.--15. 1. " PRI_89 ,Interrupt 89 Priority"
hexmask.long.byte 0x58 0.--7. 1. " PRI_88 ,Interrupt 88 Priority"
line.long 0x5C "IPR23,Interrupt Priority Register"
hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority"
hexmask.long.byte 0x5C 16.--23. 1. " PRI_94 ,Interrupt 94 Priority"
hexmask.long.byte 0x5C 8.--15. 1. " PRI_93 ,Interrupt 93 Priority"
hexmask.long.byte 0x5C 0.--7. 1. " PRI_92 ,Interrupt 92 Priority"
line.long 0x60 "IPR24,Interrupt Priority Register"
hexmask.long.byte 0x60 24.--31. 1. " PRI_99 ,Interrupt 99 Priority"
hexmask.long.byte 0x60 16.--23. 1. " PRI_98 ,Interrupt 98 Priority"
hexmask.long.byte 0x60 8.--15. 1. " PRI_97 ,Interrupt 97 Priority"
hexmask.long.byte 0x60 0.--7. 1. " PRI_96 ,Interrupt 96 Priority"
line.long 0x64 "IPR25,Interrupt Priority Register"
hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority"
hexmask.long.byte 0x64 16.--23. 1. " PRI_102 ,Interrupt 102 Priority"
hexmask.long.byte 0x64 8.--15. 1. " PRI_101 ,Interrupt 101 Priority"
hexmask.long.byte 0x64 0.--7. 1. " PRI_100 ,Interrupt 100 Priority"
line.long 0x68 "IPR26,Interrupt Priority Register"
hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority"
hexmask.long.byte 0x68 16.--23. 1. " PRI_106 ,Interrupt 106 Priority"
hexmask.long.byte 0x68 8.--15. 1. " PRI_105 ,Interrupt 105 Priority"
hexmask.long.byte 0x68 0.--7. 1. " PRI_104 ,Interrupt 104 Priority"
line.long 0x6C "IPR27,Interrupt Priority Register"
hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority"
hexmask.long.byte 0x6C 16.--23. 1. " PRI_110 ,Interrupt 110 Priority"
hexmask.long.byte 0x6C 8.--15. 1. " PRI_109 ,Interrupt 109 Priority"
hexmask.long.byte 0x6C 0.--7. 1. " PRI_108 ,Interrupt 108 Priority"
line.long 0x70 "IPR28,Interrupt Priority Register"
hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority"
hexmask.long.byte 0x70 16.--23. 1. " PRI_114 ,Interrupt 114 Priority"
hexmask.long.byte 0x70 8.--15. 1. " PRI_113 ,Interrupt 113 Priority"
hexmask.long.byte 0x70 0.--7. 1. " PRI_112 ,Interrupt 112 Priority"
line.long 0x74 "IPR29,Interrupt Priority Register"
hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority"
hexmask.long.byte 0x74 16.--23. 1. " PRI_118 ,Interrupt 118 Priority"
hexmask.long.byte 0x74 8.--15. 1. " PRI_117 ,Interrupt 117 Priority"
hexmask.long.byte 0x74 0.--7. 1. " PRI_116 ,Interrupt 116 Priority"
line.long 0x78 "IPR30,Interrupt Priority Register"
hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority"
hexmask.long.byte 0x78 16.--23. 1. " PRI_122 ,Interrupt 122 Priority"
hexmask.long.byte 0x78 8.--15. 1. " PRI_121 ,Interrupt 121 Priority"
hexmask.long.byte 0x78 0.--7. 1. " PRI_120 ,Interrupt 120 Priority"
line.long 0x7C "IPR31,Interrupt Priority Register"
hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority"
hexmask.long.byte 0x7C 16.--23. 1. " PRI_126 ,Interrupt 126 Priority"
hexmask.long.byte 0x7C 8.--15. 1. " PRI_125 ,Interrupt 125 Priority"
hexmask.long.byte 0x7C 0.--7. 1. " PRI_124 ,Interrupt 124 Priority"
line.long 0x80 "IPR32,Interrupt Priority Register"
hexmask.long.byte 0x80 24.--31. 1. " PRI_131 ,Interrupt 131 Priority"
hexmask.long.byte 0x80 16.--23. 1. " PRI_130 ,Interrupt 130 Priority"
hexmask.long.byte 0x80 8.--15. 1. " PRI_129 ,Interrupt 129 Priority"
hexmask.long.byte 0x80 0.--7. 1. " PRI_128 ,Interrupt 128 Priority"
line.long 0x84 "IPR33,Interrupt Priority Register"
hexmask.long.byte 0x84 24.--31. 1. " PRI_135 ,Interrupt 135 Priority"
hexmask.long.byte 0x84 16.--23. 1. " PRI_134 ,Interrupt 134 Priority"
hexmask.long.byte 0x84 8.--15. 1. " PRI_133 ,Interrupt 133 Priority"
hexmask.long.byte 0x84 0.--7. 1. " PRI_132 ,Interrupt 132 Priority"
line.long 0x88 "IPR34,Interrupt Priority Register"
hexmask.long.byte 0x88 24.--31. 1. " PRI_139 ,Interrupt 139 Priority"
hexmask.long.byte 0x88 16.--23. 1. " PRI_138 ,Interrupt 138 Priority"
hexmask.long.byte 0x88 8.--15. 1. " PRI_137 ,Interrupt 137 Priority"
hexmask.long.byte 0x88 0.--7. 1. " PRI_136 ,Interrupt 136 Priority"
line.long 0x8C "IPR35,Interrupt Priority Register"
hexmask.long.byte 0x8C 24.--31. 1. " PRI_143 ,Interrupt 143 Priority"
hexmask.long.byte 0x8C 16.--23. 1. " PRI_142 ,Interrupt 142 Priority"
hexmask.long.byte 0x8C 8.--15. 1. " PRI_141 ,Interrupt 141 Priority"
hexmask.long.byte 0x8C 0.--7. 1. " PRI_140 ,Interrupt 140 Priority"
line.long 0x90 "IPR36,Interrupt Priority Register"
hexmask.long.byte 0x90 24.--31. 1. " PRI_147 ,Interrupt 147 Priority"
hexmask.long.byte 0x90 16.--23. 1. " PRI_146 ,Interrupt 146 Priority"
hexmask.long.byte 0x90 8.--15. 1. " PRI_145 ,Interrupt 145 Priority"
hexmask.long.byte 0x90 0.--7. 1. " PRI_144 ,Interrupt 144 Priority"
line.long 0x94 "IPR37,Interrupt Priority Register"
hexmask.long.byte 0x94 24.--31. 1. " PRI_151 ,Interrupt 151 Priority"
hexmask.long.byte 0x94 16.--23. 1. " PRI_150 ,Interrupt 150 Priority"
hexmask.long.byte 0x94 8.--15. 1. " PRI_149 ,Interrupt 149 Priority"
hexmask.long.byte 0x94 0.--7. 1. " PRI_148 ,Interrupt 148 Priority"
line.long 0x98 "IPR38,Interrupt Priority Register"
hexmask.long.byte 0x98 24.--31. 1. " PRI_155 ,Interrupt 155 Priority"
hexmask.long.byte 0x98 16.--23. 1. " PRI_154 ,Interrupt 154 Priority"
hexmask.long.byte 0x98 8.--15. 1. " PRI_153 ,Interrupt 153 Priority"
hexmask.long.byte 0x98 0.--7. 1. " PRI_152 ,Interrupt 152 Priority"
line.long 0x9C "IPR39,Interrupt Priority Register"
hexmask.long.byte 0x9C 24.--31. 1. " PRI_159 ,Interrupt 159 Priority"
hexmask.long.byte 0x9C 16.--23. 1. " PRI_158 ,Interrupt 158 Priority"
hexmask.long.byte 0x9C 8.--15. 1. " PRI_157 ,Interrupt 157 Priority"
hexmask.long.byte 0x9C 0.--7. 1. " PRI_156 ,Interrupt 156 Priority"
line.long 0xA0 "IPR40,Interrupt Priority Register"
hexmask.long.byte 0xA0 24.--31. 1. " PRI_163 ,Interrupt 163 Priority"
hexmask.long.byte 0xA0 16.--23. 1. " PRI_162 ,Interrupt 162 Priority"
hexmask.long.byte 0xA0 8.--15. 1. " PRI_161 ,Interrupt 161 Priority"
hexmask.long.byte 0xA0 0.--7. 1. " PRI_160 ,Interrupt 160 Priority"
line.long 0xA4 "IPR41,Interrupt Priority Register"
hexmask.long.byte 0xA4 24.--31. 1. " PRI_167 ,Interrupt 167 Priority"
hexmask.long.byte 0xA4 16.--23. 1. " PRI_166 ,Interrupt 166 Priority"
hexmask.long.byte 0xA4 8.--15. 1. " PRI_165 ,Interrupt 165 Priority"
hexmask.long.byte 0xA4 0.--7. 1. " PRI_164 ,Interrupt 164 Priority"
line.long 0xA8 "IPR42,Interrupt Priority Register"
hexmask.long.byte 0xA8 24.--31. 1. " PRI_171 ,Interrupt 171 Priority"
hexmask.long.byte 0xA8 16.--23. 1. " PRI_170 ,Interrupt 170 Priority"
hexmask.long.byte 0xA8 8.--15. 1. " PRI_169 ,Interrupt 169 Priority"
hexmask.long.byte 0xA8 0.--7. 1. " PRI_168 ,Interrupt 168 Priority"
line.long 0xAC "IPR43,Interrupt Priority Register"
hexmask.long.byte 0xAC 24.--31. 1. " PRI_175 ,Interrupt 175 Priority"
hexmask.long.byte 0xAC 16.--23. 1. " PRI_174 ,Interrupt 174 Priority"
hexmask.long.byte 0xAC 8.--15. 1. " PRI_173 ,Interrupt 173 Priority"
hexmask.long.byte 0xAC 0.--7. 1. " PRI_172 ,Interrupt 172 Priority"
line.long 0xB0 "IPR44,Interrupt Priority Register"
hexmask.long.byte 0xB0 24.--31. 1. " PRI_179 ,Interrupt 179 Priority"
hexmask.long.byte 0xB0 16.--23. 1. " PRI_178 ,Interrupt 178 Priority"
hexmask.long.byte 0xB0 8.--15. 1. " PRI_177 ,Interrupt 177 Priority"
hexmask.long.byte 0xB0 0.--7. 1. " PRI_176 ,Interrupt 176 Priority"
line.long 0xB4 "IPR45,Interrupt Priority Register"
hexmask.long.byte 0xB4 24.--31. 1. " PRI_183 ,Interrupt 183 Priority"
hexmask.long.byte 0xB4 16.--23. 1. " PRI_182 ,Interrupt 182 Priority"
hexmask.long.byte 0xB4 8.--15. 1. " PRI_181 ,Interrupt 181 Priority"
hexmask.long.byte 0xB4 0.--7. 1. " PRI_180 ,Interrupt 180 Priority"
line.long 0xB8 "IPR46,Interrupt Priority Register"
hexmask.long.byte 0xB8 24.--31. 1. " PRI_187 ,Interrupt 187 Priority"
hexmask.long.byte 0xB8 16.--23. 1. " PRI_186 ,Interrupt 186 Priority"
hexmask.long.byte 0xB8 8.--15. 1. " PRI_185 ,Interrupt 185 Priority"
hexmask.long.byte 0xB8 0.--7. 1. " PRI_184 ,Interrupt 184 Priority"
line.long 0xBC "IPR47,Interrupt Priority Register"
hexmask.long.byte 0xBC 24.--31. 1. " PRI_191 ,Interrupt 191 Priority"
hexmask.long.byte 0xBC 16.--23. 1. " PRI_190 ,Interrupt 190 Priority"
hexmask.long.byte 0xBC 8.--15. 1. " PRI_189 ,Interrupt 189 Priority"
hexmask.long.byte 0xBC 0.--7. 1. " PRI_188 ,Interrupt 188 Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x06)
group.long 0x400++0xDF
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority"
hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority"
hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority"
hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority"
hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority"
hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority"
hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority"
hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority"
hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority"
hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority"
hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority"
hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority"
hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority"
hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority"
hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority"
hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority"
hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority"
hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority"
hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority"
hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority"
hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority"
hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority"
hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority"
hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority"
hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority"
hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority"
hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority"
hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority"
hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority"
hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority"
hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority"
hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority"
hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority"
hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority"
hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority"
hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority"
hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority"
hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority"
hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority"
hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority"
hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority"
hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority"
hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority"
hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority"
hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority"
hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority"
hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority"
hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority"
hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority"
line.long 0x40 "IPR16,Interrupt Priority Register"
hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority"
hexmask.long.byte 0x40 16.--23. 1. " PRI_66 ,Interrupt 66 Priority"
hexmask.long.byte 0x40 8.--15. 1. " PRI_65 ,Interrupt 65 Priority"
hexmask.long.byte 0x40 0.--7. 1. " PRI_64 ,Interrupt 64 Priority"
line.long 0x44 "IPR17,Interrupt Priority Register"
hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority"
hexmask.long.byte 0x44 16.--23. 1. " PRI_70 ,Interrupt 70 Priority"
hexmask.long.byte 0x44 8.--15. 1. " PRI_69 ,Interrupt 69 Priority"
hexmask.long.byte 0x44 0.--7. 1. " PRI_68 ,Interrupt 68 Priority"
line.long 0x48 "IPR18,Interrupt Priority Register"
hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority"
hexmask.long.byte 0x48 16.--23. 1. " PRI_74 ,Interrupt 74 Priority"
hexmask.long.byte 0x48 8.--15. 1. " PRI_73 ,Interrupt 73 Priority"
hexmask.long.byte 0x48 0.--7. 1. " PRI_72 ,Interrupt 72 Priority"
line.long 0x4C "IPR19,Interrupt Priority Register"
hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority"
hexmask.long.byte 0x4C 16.--23. 1. " PRI_78 ,Interrupt 78 Priority"
hexmask.long.byte 0x4C 8.--15. 1. " PRI_77 ,Interrupt 77 Priority"
hexmask.long.byte 0x4C 0.--7. 1. " PRI_76 ,Interrupt 76 Priority"
line.long 0x50 "IPR20,Interrupt Priority Register"
hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority"
hexmask.long.byte 0x50 16.--23. 1. " PRI_82 ,Interrupt 82 Priority"
hexmask.long.byte 0x50 8.--15. 1. " PRI_81 ,Interrupt 81 Priority"
hexmask.long.byte 0x50 0.--7. 1. " PRI_80 ,Interrupt 80 Priority"
line.long 0x54 "IPR21,Interrupt Priority Register"
hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority"
hexmask.long.byte 0x54 16.--23. 1. " PRI_86 ,Interrupt 86 Priority"
hexmask.long.byte 0x54 8.--15. 1. " PRI_85 ,Interrupt 85 Priority"
hexmask.long.byte 0x54 0.--7. 1. " PRI_84 ,Interrupt 84 Priority"
line.long 0x58 "IPR22,Interrupt Priority Register"
hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority"
hexmask.long.byte 0x58 16.--23. 1. " PRI_90 ,Interrupt 90 Priority"
hexmask.long.byte 0x58 8.--15. 1. " PRI_89 ,Interrupt 89 Priority"
hexmask.long.byte 0x58 0.--7. 1. " PRI_88 ,Interrupt 88 Priority"
line.long 0x5C "IPR23,Interrupt Priority Register"
hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority"
hexmask.long.byte 0x5C 16.--23. 1. " PRI_94 ,Interrupt 94 Priority"
hexmask.long.byte 0x5C 8.--15. 1. " PRI_93 ,Interrupt 93 Priority"
hexmask.long.byte 0x5C 0.--7. 1. " PRI_92 ,Interrupt 92 Priority"
line.long 0x60 "IPR24,Interrupt Priority Register"
hexmask.long.byte 0x60 24.--31. 1. " PRI_99 ,Interrupt 99 Priority"
hexmask.long.byte 0x60 16.--23. 1. " PRI_98 ,Interrupt 98 Priority"
hexmask.long.byte 0x60 8.--15. 1. " PRI_97 ,Interrupt 97 Priority"
hexmask.long.byte 0x60 0.--7. 1. " PRI_96 ,Interrupt 96 Priority"
line.long 0x64 "IPR25,Interrupt Priority Register"
hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority"
hexmask.long.byte 0x64 16.--23. 1. " PRI_102 ,Interrupt 102 Priority"
hexmask.long.byte 0x64 8.--15. 1. " PRI_101 ,Interrupt 101 Priority"
hexmask.long.byte 0x64 0.--7. 1. " PRI_100 ,Interrupt 100 Priority"
line.long 0x68 "IPR26,Interrupt Priority Register"
hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority"
hexmask.long.byte 0x68 16.--23. 1. " PRI_106 ,Interrupt 106 Priority"
hexmask.long.byte 0x68 8.--15. 1. " PRI_105 ,Interrupt 105 Priority"
hexmask.long.byte 0x68 0.--7. 1. " PRI_104 ,Interrupt 104 Priority"
line.long 0x6C "IPR27,Interrupt Priority Register"
hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority"
hexmask.long.byte 0x6C 16.--23. 1. " PRI_110 ,Interrupt 110 Priority"
hexmask.long.byte 0x6C 8.--15. 1. " PRI_109 ,Interrupt 109 Priority"
hexmask.long.byte 0x6C 0.--7. 1. " PRI_108 ,Interrupt 108 Priority"
line.long 0x70 "IPR28,Interrupt Priority Register"
hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority"
hexmask.long.byte 0x70 16.--23. 1. " PRI_114 ,Interrupt 114 Priority"
hexmask.long.byte 0x70 8.--15. 1. " PRI_113 ,Interrupt 113 Priority"
hexmask.long.byte 0x70 0.--7. 1. " PRI_112 ,Interrupt 112 Priority"
line.long 0x74 "IPR29,Interrupt Priority Register"
hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority"
hexmask.long.byte 0x74 16.--23. 1. " PRI_118 ,Interrupt 118 Priority"
hexmask.long.byte 0x74 8.--15. 1. " PRI_117 ,Interrupt 117 Priority"
hexmask.long.byte 0x74 0.--7. 1. " PRI_116 ,Interrupt 116 Priority"
line.long 0x78 "IPR30,Interrupt Priority Register"
hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority"
hexmask.long.byte 0x78 16.--23. 1. " PRI_122 ,Interrupt 122 Priority"
hexmask.long.byte 0x78 8.--15. 1. " PRI_121 ,Interrupt 121 Priority"
hexmask.long.byte 0x78 0.--7. 1. " PRI_120 ,Interrupt 120 Priority"
line.long 0x7C "IPR31,Interrupt Priority Register"
hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority"
hexmask.long.byte 0x7C 16.--23. 1. " PRI_126 ,Interrupt 126 Priority"
hexmask.long.byte 0x7C 8.--15. 1. " PRI_125 ,Interrupt 125 Priority"
hexmask.long.byte 0x7C 0.--7. 1. " PRI_124 ,Interrupt 124 Priority"
line.long 0x80 "IPR32,Interrupt Priority Register"
hexmask.long.byte 0x80 24.--31. 1. " PRI_131 ,Interrupt 131 Priority"
hexmask.long.byte 0x80 16.--23. 1. " PRI_130 ,Interrupt 130 Priority"
hexmask.long.byte 0x80 8.--15. 1. " PRI_129 ,Interrupt 129 Priority"
hexmask.long.byte 0x80 0.--7. 1. " PRI_128 ,Interrupt 128 Priority"
line.long 0x84 "IPR33,Interrupt Priority Register"
hexmask.long.byte 0x84 24.--31. 1. " PRI_135 ,Interrupt 135 Priority"
hexmask.long.byte 0x84 16.--23. 1. " PRI_134 ,Interrupt 134 Priority"
hexmask.long.byte 0x84 8.--15. 1. " PRI_133 ,Interrupt 133 Priority"
hexmask.long.byte 0x84 0.--7. 1. " PRI_132 ,Interrupt 132 Priority"
line.long 0x88 "IPR34,Interrupt Priority Register"
hexmask.long.byte 0x88 24.--31. 1. " PRI_139 ,Interrupt 139 Priority"
hexmask.long.byte 0x88 16.--23. 1. " PRI_138 ,Interrupt 138 Priority"
hexmask.long.byte 0x88 8.--15. 1. " PRI_137 ,Interrupt 137 Priority"
hexmask.long.byte 0x88 0.--7. 1. " PRI_136 ,Interrupt 136 Priority"
line.long 0x8C "IPR35,Interrupt Priority Register"
hexmask.long.byte 0x8C 24.--31. 1. " PRI_143 ,Interrupt 143 Priority"
hexmask.long.byte 0x8C 16.--23. 1. " PRI_142 ,Interrupt 142 Priority"
hexmask.long.byte 0x8C 8.--15. 1. " PRI_141 ,Interrupt 141 Priority"
hexmask.long.byte 0x8C 0.--7. 1. " PRI_140 ,Interrupt 140 Priority"
line.long 0x90 "IPR36,Interrupt Priority Register"
hexmask.long.byte 0x90 24.--31. 1. " PRI_147 ,Interrupt 147 Priority"
hexmask.long.byte 0x90 16.--23. 1. " PRI_146 ,Interrupt 146 Priority"
hexmask.long.byte 0x90 8.--15. 1. " PRI_145 ,Interrupt 145 Priority"
hexmask.long.byte 0x90 0.--7. 1. " PRI_144 ,Interrupt 144 Priority"
line.long 0x94 "IPR37,Interrupt Priority Register"
hexmask.long.byte 0x94 24.--31. 1. " PRI_151 ,Interrupt 151 Priority"
hexmask.long.byte 0x94 16.--23. 1. " PRI_150 ,Interrupt 150 Priority"
hexmask.long.byte 0x94 8.--15. 1. " PRI_149 ,Interrupt 149 Priority"
hexmask.long.byte 0x94 0.--7. 1. " PRI_148 ,Interrupt 148 Priority"
line.long 0x98 "IPR38,Interrupt Priority Register"
hexmask.long.byte 0x98 24.--31. 1. " PRI_155 ,Interrupt 155 Priority"
hexmask.long.byte 0x98 16.--23. 1. " PRI_154 ,Interrupt 154 Priority"
hexmask.long.byte 0x98 8.--15. 1. " PRI_153 ,Interrupt 153 Priority"
hexmask.long.byte 0x98 0.--7. 1. " PRI_152 ,Interrupt 152 Priority"
line.long 0x9C "IPR39,Interrupt Priority Register"
hexmask.long.byte 0x9C 24.--31. 1. " PRI_159 ,Interrupt 159 Priority"
hexmask.long.byte 0x9C 16.--23. 1. " PRI_158 ,Interrupt 158 Priority"
hexmask.long.byte 0x9C 8.--15. 1. " PRI_157 ,Interrupt 157 Priority"
hexmask.long.byte 0x9C 0.--7. 1. " PRI_156 ,Interrupt 156 Priority"
line.long 0xA0 "IPR40,Interrupt Priority Register"
hexmask.long.byte 0xA0 24.--31. 1. " PRI_163 ,Interrupt 163 Priority"
hexmask.long.byte 0xA0 16.--23. 1. " PRI_162 ,Interrupt 162 Priority"
hexmask.long.byte 0xA0 8.--15. 1. " PRI_161 ,Interrupt 161 Priority"
hexmask.long.byte 0xA0 0.--7. 1. " PRI_160 ,Interrupt 160 Priority"
line.long 0xA4 "IPR41,Interrupt Priority Register"
hexmask.long.byte 0xA4 24.--31. 1. " PRI_167 ,Interrupt 167 Priority"
hexmask.long.byte 0xA4 16.--23. 1. " PRI_166 ,Interrupt 166 Priority"
hexmask.long.byte 0xA4 8.--15. 1. " PRI_165 ,Interrupt 165 Priority"
hexmask.long.byte 0xA4 0.--7. 1. " PRI_164 ,Interrupt 164 Priority"
line.long 0xA8 "IPR42,Interrupt Priority Register"
hexmask.long.byte 0xA8 24.--31. 1. " PRI_171 ,Interrupt 171 Priority"
hexmask.long.byte 0xA8 16.--23. 1. " PRI_170 ,Interrupt 170 Priority"
hexmask.long.byte 0xA8 8.--15. 1. " PRI_169 ,Interrupt 169 Priority"
hexmask.long.byte 0xA8 0.--7. 1. " PRI_168 ,Interrupt 168 Priority"
line.long 0xAC "IPR43,Interrupt Priority Register"
hexmask.long.byte 0xAC 24.--31. 1. " PRI_175 ,Interrupt 175 Priority"
hexmask.long.byte 0xAC 16.--23. 1. " PRI_174 ,Interrupt 174 Priority"
hexmask.long.byte 0xAC 8.--15. 1. " PRI_173 ,Interrupt 173 Priority"
hexmask.long.byte 0xAC 0.--7. 1. " PRI_172 ,Interrupt 172 Priority"
line.long 0xB0 "IPR44,Interrupt Priority Register"
hexmask.long.byte 0xB0 24.--31. 1. " PRI_179 ,Interrupt 179 Priority"
hexmask.long.byte 0xB0 16.--23. 1. " PRI_178 ,Interrupt 178 Priority"
hexmask.long.byte 0xB0 8.--15. 1. " PRI_177 ,Interrupt 177 Priority"
hexmask.long.byte 0xB0 0.--7. 1. " PRI_176 ,Interrupt 176 Priority"
line.long 0xB4 "IPR45,Interrupt Priority Register"
hexmask.long.byte 0xB4 24.--31. 1. " PRI_183 ,Interrupt 183 Priority"
hexmask.long.byte 0xB4 16.--23. 1. " PRI_182 ,Interrupt 182 Priority"
hexmask.long.byte 0xB4 8.--15. 1. " PRI_181 ,Interrupt 181 Priority"
hexmask.long.byte 0xB4 0.--7. 1. " PRI_180 ,Interrupt 180 Priority"
line.long 0xB8 "IPR46,Interrupt Priority Register"
hexmask.long.byte 0xB8 24.--31. 1. " PRI_187 ,Interrupt 187 Priority"
hexmask.long.byte 0xB8 16.--23. 1. " PRI_186 ,Interrupt 186 Priority"
hexmask.long.byte 0xB8 8.--15. 1. " PRI_185 ,Interrupt 185 Priority"
hexmask.long.byte 0xB8 0.--7. 1. " PRI_184 ,Interrupt 184 Priority"
line.long 0xBC "IPR47,Interrupt Priority Register"
hexmask.long.byte 0xBC 24.--31. 1. " PRI_191 ,Interrupt 191 Priority"
hexmask.long.byte 0xBC 16.--23. 1. " PRI_190 ,Interrupt 190 Priority"
hexmask.long.byte 0xBC 8.--15. 1. " PRI_189 ,Interrupt 189 Priority"
hexmask.long.byte 0xBC 0.--7. 1. " PRI_188 ,Interrupt 188 Priority"
line.long 0xC0 "IPR48,Interrupt Priority Register"
hexmask.long.byte 0xC0 24.--31. 1. " PRI_195 ,Interrupt 195 Priority"
hexmask.long.byte 0xC0 16.--23. 1. " PRI_194 ,Interrupt 194 Priority"
hexmask.long.byte 0xC0 8.--15. 1. " PRI_193 ,Interrupt 193 Priority"
hexmask.long.byte 0xC0 0.--7. 1. " PRI_192 ,Interrupt 192 Priority"
line.long 0xC4 "IPR49,Interrupt Priority Register"
hexmask.long.byte 0xC4 24.--31. 1. " PRI_199 ,Interrupt 199 Priority"
hexmask.long.byte 0xC4 16.--23. 1. " PRI_198 ,Interrupt 198 Priority"
hexmask.long.byte 0xC4 8.--15. 1. " PRI_197 ,Interrupt 197 Priority"
hexmask.long.byte 0xC4 0.--7. 1. " PRI_196 ,Interrupt 196 Priority"
line.long 0xC8 "IPR50,Interrupt Priority Register"
hexmask.long.byte 0xC8 24.--31. 1. " PRI_203 ,Interrupt 203 Priority"
hexmask.long.byte 0xC8 16.--23. 1. " PRI_202 ,Interrupt 202 Priority"
hexmask.long.byte 0xC8 8.--15. 1. " PRI_201 ,Interrupt 201 Priority"
hexmask.long.byte 0xC8 0.--7. 1. " PRI_200 ,Interrupt 200 Priority"
line.long 0xCC "IPR51,Interrupt Priority Register"
hexmask.long.byte 0xCC 24.--31. 1. " PRI_207 ,Interrupt 207 Priority"
hexmask.long.byte 0xCC 16.--23. 1. " PRI_206 ,Interrupt 206 Priority"
hexmask.long.byte 0xCC 8.--15. 1. " PRI_205 ,Interrupt 205 Priority"
hexmask.long.byte 0xCC 0.--7. 1. " PRI_204 ,Interrupt 204 Priority"
line.long 0xD0 "IPR52,Interrupt Priority Register"
hexmask.long.byte 0xD0 24.--31. 1. " PRI_211 ,Interrupt 211 Priority"
hexmask.long.byte 0xD0 16.--23. 1. " PRI_210 ,Interrupt 210 Priority"
hexmask.long.byte 0xD0 8.--15. 1. " PRI_209 ,Interrupt 209 Priority"
hexmask.long.byte 0xD0 0.--7. 1. " PRI_208 ,Interrupt 208 Priority"
line.long 0xD4 "IPR53,Interrupt Priority Register"
hexmask.long.byte 0xD4 24.--31. 1. " PRI_215 ,Interrupt 215 Priority"
hexmask.long.byte 0xD4 16.--23. 1. " PRI_214 ,Interrupt 214 Priority"
hexmask.long.byte 0xD4 8.--15. 1. " PRI_213 ,Interrupt 213 Priority"
hexmask.long.byte 0xD4 0.--7. 1. " PRI_212 ,Interrupt 212 Priority"
line.long 0xD8 "IPR54,Interrupt Priority Register"
hexmask.long.byte 0xD8 24.--31. 1. " PRI_219 ,Interrupt 219 Priority"
hexmask.long.byte 0xD8 16.--23. 1. " PRI_218 ,Interrupt 218 Priority"
hexmask.long.byte 0xD8 8.--15. 1. " PRI_217 ,Interrupt 217 Priority"
hexmask.long.byte 0xD8 0.--7. 1. " PRI_216 ,Interrupt 216 Priority"
line.long 0xDC "IPR55,Interrupt Priority Register"
hexmask.long.byte 0xDC 24.--31. 1. " PRI_223 ,Interrupt 223 Priority"
hexmask.long.byte 0xDC 16.--23. 1. " PRI_222 ,Interrupt 222 Priority"
hexmask.long.byte 0xDC 8.--15. 1. " PRI_221 ,Interrupt 221 Priority"
hexmask.long.byte 0xDC 0.--7. 1. " PRI_220 ,Interrupt 220 Priority"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0x04))&0x0F)==0x07)
group.long 0x400++0xEF
line.long 0x0 "IPR0,Interrupt Priority Register"
hexmask.long.byte 0x0 24.--31. 1. " PRI_3 ,Interrupt 3 Priority"
hexmask.long.byte 0x0 16.--23. 1. " PRI_2 ,Interrupt 2 Priority"
hexmask.long.byte 0x0 8.--15. 1. " PRI_1 ,Interrupt 1 Priority"
hexmask.long.byte 0x0 0.--7. 1. " PRI_0 ,Interrupt 0 Priority"
line.long 0x4 "IPR1,Interrupt Priority Register"
hexmask.long.byte 0x4 24.--31. 1. " PRI_7 ,Interrupt 7 Priority"
hexmask.long.byte 0x4 16.--23. 1. " PRI_6 ,Interrupt 6 Priority"
hexmask.long.byte 0x4 8.--15. 1. " PRI_5 ,Interrupt 5 Priority"
hexmask.long.byte 0x4 0.--7. 1. " PRI_4 ,Interrupt 4 Priority"
line.long 0x8 "IPR2,Interrupt Priority Register"
hexmask.long.byte 0x8 24.--31. 1. " PRI_11 ,Interrupt 11 Priority"
hexmask.long.byte 0x8 16.--23. 1. " PRI_10 ,Interrupt 10 Priority"
hexmask.long.byte 0x8 8.--15. 1. " PRI_9 ,Interrupt 9 Priority"
hexmask.long.byte 0x8 0.--7. 1. " PRI_8 ,Interrupt 8 Priority"
line.long 0xC "IPR3,Interrupt Priority Register"
hexmask.long.byte 0xC 24.--31. 1. " PRI_15 ,Interrupt 15 Priority"
hexmask.long.byte 0xC 16.--23. 1. " PRI_14 ,Interrupt 14 Priority"
hexmask.long.byte 0xC 8.--15. 1. " PRI_13 ,Interrupt 13 Priority"
hexmask.long.byte 0xC 0.--7. 1. " PRI_12 ,Interrupt 12 Priority"
line.long 0x10 "IPR4,Interrupt Priority Register"
hexmask.long.byte 0x10 24.--31. 1. " PRI_19 ,Interrupt 19 Priority"
hexmask.long.byte 0x10 16.--23. 1. " PRI_18 ,Interrupt 18 Priority"
hexmask.long.byte 0x10 8.--15. 1. " PRI_17 ,Interrupt 17 Priority"
hexmask.long.byte 0x10 0.--7. 1. " PRI_16 ,Interrupt 16 Priority"
line.long 0x14 "IPR5,Interrupt Priority Register"
hexmask.long.byte 0x14 24.--31. 1. " PRI_23 ,Interrupt 23 Priority"
hexmask.long.byte 0x14 16.--23. 1. " PRI_22 ,Interrupt 22 Priority"
hexmask.long.byte 0x14 8.--15. 1. " PRI_21 ,Interrupt 21 Priority"
hexmask.long.byte 0x14 0.--7. 1. " PRI_20 ,Interrupt 20 Priority"
line.long 0x18 "IPR6,Interrupt Priority Register"
hexmask.long.byte 0x18 24.--31. 1. " PRI_27 ,Interrupt 27 Priority"
hexmask.long.byte 0x18 16.--23. 1. " PRI_26 ,Interrupt 26 Priority"
hexmask.long.byte 0x18 8.--15. 1. " PRI_25 ,Interrupt 25 Priority"
hexmask.long.byte 0x18 0.--7. 1. " PRI_24 ,Interrupt 24 Priority"
line.long 0x1C "IPR7,Interrupt Priority Register"
hexmask.long.byte 0x1C 24.--31. 1. " PRI_31 ,Interrupt 31 Priority"
hexmask.long.byte 0x1C 16.--23. 1. " PRI_30 ,Interrupt 30 Priority"
hexmask.long.byte 0x1C 8.--15. 1. " PRI_29 ,Interrupt 29 Priority"
hexmask.long.byte 0x1C 0.--7. 1. " PRI_28 ,Interrupt 28 Priority"
line.long 0x20 "IPR8,Interrupt Priority Register"
hexmask.long.byte 0x20 24.--31. 1. " PRI_35 ,Interrupt 35 Priority"
hexmask.long.byte 0x20 16.--23. 1. " PRI_34 ,Interrupt 34 Priority"
hexmask.long.byte 0x20 8.--15. 1. " PRI_33 ,Interrupt 33 Priority"
hexmask.long.byte 0x20 0.--7. 1. " PRI_32 ,Interrupt 32 Priority"
line.long 0x24 "IPR9,Interrupt Priority Register"
hexmask.long.byte 0x24 24.--31. 1. " PRI_39 ,Interrupt 39 Priority"
hexmask.long.byte 0x24 16.--23. 1. " PRI_38 ,Interrupt 38 Priority"
hexmask.long.byte 0x24 8.--15. 1. " PRI_37 ,Interrupt 37 Priority"
hexmask.long.byte 0x24 0.--7. 1. " PRI_36 ,Interrupt 36 Priority"
line.long 0x28 "IPR10,Interrupt Priority Register"
hexmask.long.byte 0x28 24.--31. 1. " PRI_43 ,Interrupt 43 Priority"
hexmask.long.byte 0x28 16.--23. 1. " PRI_42 ,Interrupt 42 Priority"
hexmask.long.byte 0x28 8.--15. 1. " PRI_41 ,Interrupt 41 Priority"
hexmask.long.byte 0x28 0.--7. 1. " PRI_40 ,Interrupt 40 Priority"
line.long 0x2C "IPR11,Interrupt Priority Register"
hexmask.long.byte 0x2C 24.--31. 1. " PRI_47 ,Interrupt 47 Priority"
hexmask.long.byte 0x2C 16.--23. 1. " PRI_46 ,Interrupt 46 Priority"
hexmask.long.byte 0x2C 8.--15. 1. " PRI_45 ,Interrupt 45 Priority"
hexmask.long.byte 0x2C 0.--7. 1. " PRI_44 ,Interrupt 44 Priority"
line.long 0x30 "IPR12,Interrupt Priority Register"
hexmask.long.byte 0x30 24.--31. 1. " PRI_51 ,Interrupt 51 Priority"
hexmask.long.byte 0x30 16.--23. 1. " PRI_50 ,Interrupt 50 Priority"
hexmask.long.byte 0x30 8.--15. 1. " PRI_49 ,Interrupt 49 Priority"
hexmask.long.byte 0x30 0.--7. 1. " PRI_48 ,Interrupt 48 Priority"
line.long 0x34 "IPR13,Interrupt Priority Register"
hexmask.long.byte 0x34 24.--31. 1. " PRI_55 ,Interrupt 55 Priority"
hexmask.long.byte 0x34 16.--23. 1. " PRI_54 ,Interrupt 54 Priority"
hexmask.long.byte 0x34 8.--15. 1. " PRI_53 ,Interrupt 53 Priority"
hexmask.long.byte 0x34 0.--7. 1. " PRI_52 ,Interrupt 52 Priority"
line.long 0x38 "IPR14,Interrupt Priority Register"
hexmask.long.byte 0x38 24.--31. 1. " PRI_59 ,Interrupt 59 Priority"
hexmask.long.byte 0x38 16.--23. 1. " PRI_58 ,Interrupt 58 Priority"
hexmask.long.byte 0x38 8.--15. 1. " PRI_57 ,Interrupt 57 Priority"
hexmask.long.byte 0x38 0.--7. 1. " PRI_56 ,Interrupt 56 Priority"
line.long 0x3C "IPR15,Interrupt Priority Register"
hexmask.long.byte 0x3C 24.--31. 1. " PRI_63 ,Interrupt 63 Priority"
hexmask.long.byte 0x3C 16.--23. 1. " PRI_62 ,Interrupt 62 Priority"
hexmask.long.byte 0x3C 8.--15. 1. " PRI_61 ,Interrupt 61 Priority"
hexmask.long.byte 0x3C 0.--7. 1. " PRI_60 ,Interrupt 60 Priority"
line.long 0x40 "IPR16,Interrupt Priority Register"
hexmask.long.byte 0x40 24.--31. 1. " PRI_67 ,Interrupt 67 Priority"
hexmask.long.byte 0x40 16.--23. 1. " PRI_66 ,Interrupt 66 Priority"
hexmask.long.byte 0x40 8.--15. 1. " PRI_65 ,Interrupt 65 Priority"
hexmask.long.byte 0x40 0.--7. 1. " PRI_64 ,Interrupt 64 Priority"
line.long 0x44 "IPR17,Interrupt Priority Register"
hexmask.long.byte 0x44 24.--31. 1. " PRI_71 ,Interrupt 71 Priority"
hexmask.long.byte 0x44 16.--23. 1. " PRI_70 ,Interrupt 70 Priority"
hexmask.long.byte 0x44 8.--15. 1. " PRI_69 ,Interrupt 69 Priority"
hexmask.long.byte 0x44 0.--7. 1. " PRI_68 ,Interrupt 68 Priority"
line.long 0x48 "IPR18,Interrupt Priority Register"
hexmask.long.byte 0x48 24.--31. 1. " PRI_75 ,Interrupt 75 Priority"
hexmask.long.byte 0x48 16.--23. 1. " PRI_74 ,Interrupt 74 Priority"
hexmask.long.byte 0x48 8.--15. 1. " PRI_73 ,Interrupt 73 Priority"
hexmask.long.byte 0x48 0.--7. 1. " PRI_72 ,Interrupt 72 Priority"
line.long 0x4C "IPR19,Interrupt Priority Register"
hexmask.long.byte 0x4C 24.--31. 1. " PRI_79 ,Interrupt 79 Priority"
hexmask.long.byte 0x4C 16.--23. 1. " PRI_78 ,Interrupt 78 Priority"
hexmask.long.byte 0x4C 8.--15. 1. " PRI_77 ,Interrupt 77 Priority"
hexmask.long.byte 0x4C 0.--7. 1. " PRI_76 ,Interrupt 76 Priority"
line.long 0x50 "IPR20,Interrupt Priority Register"
hexmask.long.byte 0x50 24.--31. 1. " PRI_83 ,Interrupt 83 Priority"
hexmask.long.byte 0x50 16.--23. 1. " PRI_82 ,Interrupt 82 Priority"
hexmask.long.byte 0x50 8.--15. 1. " PRI_81 ,Interrupt 81 Priority"
hexmask.long.byte 0x50 0.--7. 1. " PRI_80 ,Interrupt 80 Priority"
line.long 0x54 "IPR21,Interrupt Priority Register"
hexmask.long.byte 0x54 24.--31. 1. " PRI_87 ,Interrupt 87 Priority"
hexmask.long.byte 0x54 16.--23. 1. " PRI_86 ,Interrupt 86 Priority"
hexmask.long.byte 0x54 8.--15. 1. " PRI_85 ,Interrupt 85 Priority"
hexmask.long.byte 0x54 0.--7. 1. " PRI_84 ,Interrupt 84 Priority"
line.long 0x58 "IPR22,Interrupt Priority Register"
hexmask.long.byte 0x58 24.--31. 1. " PRI_91 ,Interrupt 91 Priority"
hexmask.long.byte 0x58 16.--23. 1. " PRI_90 ,Interrupt 90 Priority"
hexmask.long.byte 0x58 8.--15. 1. " PRI_89 ,Interrupt 89 Priority"
hexmask.long.byte 0x58 0.--7. 1. " PRI_88 ,Interrupt 88 Priority"
line.long 0x5C "IPR23,Interrupt Priority Register"
hexmask.long.byte 0x5C 24.--31. 1. " PRI_95 ,Interrupt 95 Priority"
hexmask.long.byte 0x5C 16.--23. 1. " PRI_94 ,Interrupt 94 Priority"
hexmask.long.byte 0x5C 8.--15. 1. " PRI_93 ,Interrupt 93 Priority"
hexmask.long.byte 0x5C 0.--7. 1. " PRI_92 ,Interrupt 92 Priority"
line.long 0x60 "IPR24,Interrupt Priority Register"
hexmask.long.byte 0x60 24.--31. 1. " PRI_99 ,Interrupt 99 Priority"
hexmask.long.byte 0x60 16.--23. 1. " PRI_98 ,Interrupt 98 Priority"
hexmask.long.byte 0x60 8.--15. 1. " PRI_97 ,Interrupt 97 Priority"
hexmask.long.byte 0x60 0.--7. 1. " PRI_96 ,Interrupt 96 Priority"
line.long 0x64 "IPR25,Interrupt Priority Register"
hexmask.long.byte 0x64 24.--31. 1. " PRI_103 ,Interrupt 103 Priority"
hexmask.long.byte 0x64 16.--23. 1. " PRI_102 ,Interrupt 102 Priority"
hexmask.long.byte 0x64 8.--15. 1. " PRI_101 ,Interrupt 101 Priority"
hexmask.long.byte 0x64 0.--7. 1. " PRI_100 ,Interrupt 100 Priority"
line.long 0x68 "IPR26,Interrupt Priority Register"
hexmask.long.byte 0x68 24.--31. 1. " PRI_107 ,Interrupt 107 Priority"
hexmask.long.byte 0x68 16.--23. 1. " PRI_106 ,Interrupt 106 Priority"
hexmask.long.byte 0x68 8.--15. 1. " PRI_105 ,Interrupt 105 Priority"
hexmask.long.byte 0x68 0.--7. 1. " PRI_104 ,Interrupt 104 Priority"
line.long 0x6C "IPR27,Interrupt Priority Register"
hexmask.long.byte 0x6C 24.--31. 1. " PRI_111 ,Interrupt 111 Priority"
hexmask.long.byte 0x6C 16.--23. 1. " PRI_110 ,Interrupt 110 Priority"
hexmask.long.byte 0x6C 8.--15. 1. " PRI_109 ,Interrupt 109 Priority"
hexmask.long.byte 0x6C 0.--7. 1. " PRI_108 ,Interrupt 108 Priority"
line.long 0x70 "IPR28,Interrupt Priority Register"
hexmask.long.byte 0x70 24.--31. 1. " PRI_115 ,Interrupt 115 Priority"
hexmask.long.byte 0x70 16.--23. 1. " PRI_114 ,Interrupt 114 Priority"
hexmask.long.byte 0x70 8.--15. 1. " PRI_113 ,Interrupt 113 Priority"
hexmask.long.byte 0x70 0.--7. 1. " PRI_112 ,Interrupt 112 Priority"
line.long 0x74 "IPR29,Interrupt Priority Register"
hexmask.long.byte 0x74 24.--31. 1. " PRI_119 ,Interrupt 119 Priority"
hexmask.long.byte 0x74 16.--23. 1. " PRI_118 ,Interrupt 118 Priority"
hexmask.long.byte 0x74 8.--15. 1. " PRI_117 ,Interrupt 117 Priority"
hexmask.long.byte 0x74 0.--7. 1. " PRI_116 ,Interrupt 116 Priority"
line.long 0x78 "IPR30,Interrupt Priority Register"
hexmask.long.byte 0x78 24.--31. 1. " PRI_123 ,Interrupt 123 Priority"
hexmask.long.byte 0x78 16.--23. 1. " PRI_122 ,Interrupt 122 Priority"
hexmask.long.byte 0x78 8.--15. 1. " PRI_121 ,Interrupt 121 Priority"
hexmask.long.byte 0x78 0.--7. 1. " PRI_120 ,Interrupt 120 Priority"
line.long 0x7C "IPR31,Interrupt Priority Register"
hexmask.long.byte 0x7C 24.--31. 1. " PRI_127 ,Interrupt 127 Priority"
hexmask.long.byte 0x7C 16.--23. 1. " PRI_126 ,Interrupt 126 Priority"
hexmask.long.byte 0x7C 8.--15. 1. " PRI_125 ,Interrupt 125 Priority"
hexmask.long.byte 0x7C 0.--7. 1. " PRI_124 ,Interrupt 124 Priority"
line.long 0x80 "IPR32,Interrupt Priority Register"
hexmask.long.byte 0x80 24.--31. 1. " PRI_131 ,Interrupt 131 Priority"
hexmask.long.byte 0x80 16.--23. 1. " PRI_130 ,Interrupt 130 Priority"
hexmask.long.byte 0x80 8.--15. 1. " PRI_129 ,Interrupt 129 Priority"
hexmask.long.byte 0x80 0.--7. 1. " PRI_128 ,Interrupt 128 Priority"
line.long 0x84 "IPR33,Interrupt Priority Register"
hexmask.long.byte 0x84 24.--31. 1. " PRI_135 ,Interrupt 135 Priority"
hexmask.long.byte 0x84 16.--23. 1. " PRI_134 ,Interrupt 134 Priority"
hexmask.long.byte 0x84 8.--15. 1. " PRI_133 ,Interrupt 133 Priority"
hexmask.long.byte 0x84 0.--7. 1. " PRI_132 ,Interrupt 132 Priority"
line.long 0x88 "IPR34,Interrupt Priority Register"
hexmask.long.byte 0x88 24.--31. 1. " PRI_139 ,Interrupt 139 Priority"
hexmask.long.byte 0x88 16.--23. 1. " PRI_138 ,Interrupt 138 Priority"
hexmask.long.byte 0x88 8.--15. 1. " PRI_137 ,Interrupt 137 Priority"
hexmask.long.byte 0x88 0.--7. 1. " PRI_136 ,Interrupt 136 Priority"
line.long 0x8C "IPR35,Interrupt Priority Register"
hexmask.long.byte 0x8C 24.--31. 1. " PRI_143 ,Interrupt 143 Priority"
hexmask.long.byte 0x8C 16.--23. 1. " PRI_142 ,Interrupt 142 Priority"
hexmask.long.byte 0x8C 8.--15. 1. " PRI_141 ,Interrupt 141 Priority"
hexmask.long.byte 0x8C 0.--7. 1. " PRI_140 ,Interrupt 140 Priority"
line.long 0x90 "IPR36,Interrupt Priority Register"
hexmask.long.byte 0x90 24.--31. 1. " PRI_147 ,Interrupt 147 Priority"
hexmask.long.byte 0x90 16.--23. 1. " PRI_146 ,Interrupt 146 Priority"
hexmask.long.byte 0x90 8.--15. 1. " PRI_145 ,Interrupt 145 Priority"
hexmask.long.byte 0x90 0.--7. 1. " PRI_144 ,Interrupt 144 Priority"
line.long 0x94 "IPR37,Interrupt Priority Register"
hexmask.long.byte 0x94 24.--31. 1. " PRI_151 ,Interrupt 151 Priority"
hexmask.long.byte 0x94 16.--23. 1. " PRI_150 ,Interrupt 150 Priority"
hexmask.long.byte 0x94 8.--15. 1. " PRI_149 ,Interrupt 149 Priority"
hexmask.long.byte 0x94 0.--7. 1. " PRI_148 ,Interrupt 148 Priority"
line.long 0x98 "IPR38,Interrupt Priority Register"
hexmask.long.byte 0x98 24.--31. 1. " PRI_155 ,Interrupt 155 Priority"
hexmask.long.byte 0x98 16.--23. 1. " PRI_154 ,Interrupt 154 Priority"
hexmask.long.byte 0x98 8.--15. 1. " PRI_153 ,Interrupt 153 Priority"
hexmask.long.byte 0x98 0.--7. 1. " PRI_152 ,Interrupt 152 Priority"
line.long 0x9C "IPR39,Interrupt Priority Register"
hexmask.long.byte 0x9C 24.--31. 1. " PRI_159 ,Interrupt 159 Priority"
hexmask.long.byte 0x9C 16.--23. 1. " PRI_158 ,Interrupt 158 Priority"
hexmask.long.byte 0x9C 8.--15. 1. " PRI_157 ,Interrupt 157 Priority"
hexmask.long.byte 0x9C 0.--7. 1. " PRI_156 ,Interrupt 156 Priority"
line.long 0xA0 "IPR40,Interrupt Priority Register"
hexmask.long.byte 0xA0 24.--31. 1. " PRI_163 ,Interrupt 163 Priority"
hexmask.long.byte 0xA0 16.--23. 1. " PRI_162 ,Interrupt 162 Priority"
hexmask.long.byte 0xA0 8.--15. 1. " PRI_161 ,Interrupt 161 Priority"
hexmask.long.byte 0xA0 0.--7. 1. " PRI_160 ,Interrupt 160 Priority"
line.long 0xA4 "IPR41,Interrupt Priority Register"
hexmask.long.byte 0xA4 24.--31. 1. " PRI_167 ,Interrupt 167 Priority"
hexmask.long.byte 0xA4 16.--23. 1. " PRI_166 ,Interrupt 166 Priority"
hexmask.long.byte 0xA4 8.--15. 1. " PRI_165 ,Interrupt 165 Priority"
hexmask.long.byte 0xA4 0.--7. 1. " PRI_164 ,Interrupt 164 Priority"
line.long 0xA8 "IPR42,Interrupt Priority Register"
hexmask.long.byte 0xA8 24.--31. 1. " PRI_171 ,Interrupt 171 Priority"
hexmask.long.byte 0xA8 16.--23. 1. " PRI_170 ,Interrupt 170 Priority"
hexmask.long.byte 0xA8 8.--15. 1. " PRI_169 ,Interrupt 169 Priority"
hexmask.long.byte 0xA8 0.--7. 1. " PRI_168 ,Interrupt 168 Priority"
line.long 0xAC "IPR43,Interrupt Priority Register"
hexmask.long.byte 0xAC 24.--31. 1. " PRI_175 ,Interrupt 175 Priority"
hexmask.long.byte 0xAC 16.--23. 1. " PRI_174 ,Interrupt 174 Priority"
hexmask.long.byte 0xAC 8.--15. 1. " PRI_173 ,Interrupt 173 Priority"
hexmask.long.byte 0xAC 0.--7. 1. " PRI_172 ,Interrupt 172 Priority"
line.long 0xB0 "IPR44,Interrupt Priority Register"
hexmask.long.byte 0xB0 24.--31. 1. " PRI_179 ,Interrupt 179 Priority"
hexmask.long.byte 0xB0 16.--23. 1. " PRI_178 ,Interrupt 178 Priority"
hexmask.long.byte 0xB0 8.--15. 1. " PRI_177 ,Interrupt 177 Priority"
hexmask.long.byte 0xB0 0.--7. 1. " PRI_176 ,Interrupt 176 Priority"
line.long 0xB4 "IPR45,Interrupt Priority Register"
hexmask.long.byte 0xB4 24.--31. 1. " PRI_183 ,Interrupt 183 Priority"
hexmask.long.byte 0xB4 16.--23. 1. " PRI_182 ,Interrupt 182 Priority"
hexmask.long.byte 0xB4 8.--15. 1. " PRI_181 ,Interrupt 181 Priority"
hexmask.long.byte 0xB4 0.--7. 1. " PRI_180 ,Interrupt 180 Priority"
line.long 0xB8 "IPR46,Interrupt Priority Register"
hexmask.long.byte 0xB8 24.--31. 1. " PRI_187 ,Interrupt 187 Priority"
hexmask.long.byte 0xB8 16.--23. 1. " PRI_186 ,Interrupt 186 Priority"
hexmask.long.byte 0xB8 8.--15. 1. " PRI_185 ,Interrupt 185 Priority"
hexmask.long.byte 0xB8 0.--7. 1. " PRI_184 ,Interrupt 184 Priority"
line.long 0xBC "IPR47,Interrupt Priority Register"
hexmask.long.byte 0xBC 24.--31. 1. " PRI_191 ,Interrupt 191 Priority"
hexmask.long.byte 0xBC 16.--23. 1. " PRI_190 ,Interrupt 190 Priority"
hexmask.long.byte 0xBC 8.--15. 1. " PRI_189 ,Interrupt 189 Priority"
hexmask.long.byte 0xBC 0.--7. 1. " PRI_188 ,Interrupt 188 Priority"
line.long 0xC0 "IPR48,Interrupt Priority Register"
hexmask.long.byte 0xC0 24.--31. 1. " PRI_195 ,Interrupt 195 Priority"
hexmask.long.byte 0xC0 16.--23. 1. " PRI_194 ,Interrupt 194 Priority"
hexmask.long.byte 0xC0 8.--15. 1. " PRI_193 ,Interrupt 193 Priority"
hexmask.long.byte 0xC0 0.--7. 1. " PRI_192 ,Interrupt 192 Priority"
line.long 0xC4 "IPR49,Interrupt Priority Register"
hexmask.long.byte 0xC4 24.--31. 1. " PRI_199 ,Interrupt 199 Priority"
hexmask.long.byte 0xC4 16.--23. 1. " PRI_198 ,Interrupt 198 Priority"
hexmask.long.byte 0xC4 8.--15. 1. " PRI_197 ,Interrupt 197 Priority"
hexmask.long.byte 0xC4 0.--7. 1. " PRI_196 ,Interrupt 196 Priority"
line.long 0xC8 "IPR50,Interrupt Priority Register"
hexmask.long.byte 0xC8 24.--31. 1. " PRI_203 ,Interrupt 203 Priority"
hexmask.long.byte 0xC8 16.--23. 1. " PRI_202 ,Interrupt 202 Priority"
hexmask.long.byte 0xC8 8.--15. 1. " PRI_201 ,Interrupt 201 Priority"
hexmask.long.byte 0xC8 0.--7. 1. " PRI_200 ,Interrupt 200 Priority"
line.long 0xCC "IPR51,Interrupt Priority Register"
hexmask.long.byte 0xCC 24.--31. 1. " PRI_207 ,Interrupt 207 Priority"
hexmask.long.byte 0xCC 16.--23. 1. " PRI_206 ,Interrupt 206 Priority"
hexmask.long.byte 0xCC 8.--15. 1. " PRI_205 ,Interrupt 205 Priority"
hexmask.long.byte 0xCC 0.--7. 1. " PRI_204 ,Interrupt 204 Priority"
line.long 0xD0 "IPR52,Interrupt Priority Register"
hexmask.long.byte 0xD0 24.--31. 1. " PRI_211 ,Interrupt 211 Priority"
hexmask.long.byte 0xD0 16.--23. 1. " PRI_210 ,Interrupt 210 Priority"
hexmask.long.byte 0xD0 8.--15. 1. " PRI_209 ,Interrupt 209 Priority"
hexmask.long.byte 0xD0 0.--7. 1. " PRI_208 ,Interrupt 208 Priority"
line.long 0xD4 "IPR53,Interrupt Priority Register"
hexmask.long.byte 0xD4 24.--31. 1. " PRI_215 ,Interrupt 215 Priority"
hexmask.long.byte 0xD4 16.--23. 1. " PRI_214 ,Interrupt 214 Priority"
hexmask.long.byte 0xD4 8.--15. 1. " PRI_213 ,Interrupt 213 Priority"
hexmask.long.byte 0xD4 0.--7. 1. " PRI_212 ,Interrupt 212 Priority"
line.long 0xD8 "IPR54,Interrupt Priority Register"
hexmask.long.byte 0xD8 24.--31. 1. " PRI_219 ,Interrupt 219 Priority"
hexmask.long.byte 0xD8 16.--23. 1. " PRI_218 ,Interrupt 218 Priority"
hexmask.long.byte 0xD8 8.--15. 1. " PRI_217 ,Interrupt 217 Priority"
hexmask.long.byte 0xD8 0.--7. 1. " PRI_216 ,Interrupt 216 Priority"
line.long 0xDC "IPR55,Interrupt Priority Register"
hexmask.long.byte 0xDC 24.--31. 1. " PRI_223 ,Interrupt 223 Priority"
hexmask.long.byte 0xDC 16.--23. 1. " PRI_222 ,Interrupt 222 Priority"
hexmask.long.byte 0xDC 8.--15. 1. " PRI_221 ,Interrupt 221 Priority"
hexmask.long.byte 0xDC 0.--7. 1. " PRI_220 ,Interrupt 220 Priority"
line.long 0xE0 "IPR56,Interrupt Priority Register"
hexmask.long.byte 0xE0 24.--31. 1. " PRI_227 ,Interrupt 227 Priority"
hexmask.long.byte 0xE0 16.--23. 1. " PRI_226 ,Interrupt 226 Priority"
hexmask.long.byte 0xE0 8.--15. 1. " PRI_225 ,Interrupt 225 Priority"
hexmask.long.byte 0xE0 0.--7. 1. " PRI_224 ,Interrupt 224 Priority"
line.long 0xE4 "IPR57,Interrupt Priority Register"
hexmask.long.byte 0xE4 24.--31. 1. " PRI_231 ,Interrupt 231 Priority"
hexmask.long.byte 0xE4 16.--23. 1. " PRI_230 ,Interrupt 230 Priority"
hexmask.long.byte 0xE4 8.--15. 1. " PRI_229 ,Interrupt 229 Priority"
hexmask.long.byte 0xE4 0.--7. 1. " PRI_228 ,Interrupt 228 Priority"
line.long 0xE8 "IPR58,Interrupt Priority Register"
hexmask.long.byte 0xE8 24.--31. 1. " PRI_235 ,Interrupt 235 Priority"
hexmask.long.byte 0xE8 16.--23. 1. " PRI_234 ,Interrupt 234 Priority"
hexmask.long.byte 0xE8 8.--15. 1. " PRI_233 ,Interrupt 233 Priority"
hexmask.long.byte 0xE8 0.--7. 1. " PRI_232 ,Interrupt 232 Priority"
line.long 0xEC "IPR59,Interrupt Priority Register"
hexmask.long.byte 0xEC 24.--31. 1. " PRI_239 ,Interrupt 239 Priority"
hexmask.long.byte 0xEC 16.--23. 1. " PRI_238 ,Interrupt 238 Priority"
hexmask.long.byte 0xEC 8.--15. 1. " PRI_237 ,Interrupt 237 Priority"
hexmask.long.byte 0xEC 0.--7. 1. " PRI_236 ,Interrupt 236 Priority"
else
hgroup.long 0x400++0xEF
hide.long 0x0 "IPR0,Interrupt Priority Register"
hide.long 0x4 "IPR1,Interrupt Priority Register"
hide.long 0x8 "IPR2,Interrupt Priority Register"
hide.long 0xC "IPR3,Interrupt Priority Register"
hide.long 0x10 "IPR4,Interrupt Priority Register"
hide.long 0x14 "IPR5,Interrupt Priority Register"
hide.long 0x18 "IPR6,Interrupt Priority Register"
hide.long 0x1C "IPR7,Interrupt Priority Register"
hide.long 0x20 "IPR8,Interrupt Priority Register"
hide.long 0x24 "IPR9,Interrupt Priority Register"
hide.long 0x28 "IPR10,Interrupt Priority Register"
hide.long 0x2C "IPR11,Interrupt Priority Register"
hide.long 0x30 "IPR12,Interrupt Priority Register"
hide.long 0x34 "IPR13,Interrupt Priority Register"
hide.long 0x38 "IPR14,Interrupt Priority Register"
hide.long 0x3C "IPR15,Interrupt Priority Register"
hide.long 0x40 "IPR16,Interrupt Priority Register"
hide.long 0x44 "IPR17,Interrupt Priority Register"
hide.long 0x48 "IPR18,Interrupt Priority Register"
hide.long 0x4C "IPR19,Interrupt Priority Register"
hide.long 0x50 "IPR20,Interrupt Priority Register"
hide.long 0x54 "IPR21,Interrupt Priority Register"
hide.long 0x58 "IPR22,Interrupt Priority Register"
hide.long 0x5C "IPR23,Interrupt Priority Register"
hide.long 0x60 "IPR24,Interrupt Priority Register"
hide.long 0x64 "IPR25,Interrupt Priority Register"
hide.long 0x68 "IPR26,Interrupt Priority Register"
hide.long 0x6C "IPR27,Interrupt Priority Register"
hide.long 0x70 "IPR28,Interrupt Priority Register"
hide.long 0x74 "IPR29,Interrupt Priority Register"
hide.long 0x78 "IPR30,Interrupt Priority Register"
hide.long 0x7C "IPR31,Interrupt Priority Register"
hide.long 0x80 "IPR32,Interrupt Priority Register"
hide.long 0x84 "IPR33,Interrupt Priority Register"
hide.long 0x88 "IPR34,Interrupt Priority Register"
hide.long 0x8C "IPR35,Interrupt Priority Register"
hide.long 0x90 "IPR36,Interrupt Priority Register"
hide.long 0x94 "IPR37,Interrupt Priority Register"
hide.long 0x98 "IPR38,Interrupt Priority Register"
hide.long 0x9C "IPR39,Interrupt Priority Register"
hide.long 0xA0 "IPR40,Interrupt Priority Register"
hide.long 0xA4 "IPR41,Interrupt Priority Register"
hide.long 0xA8 "IPR42,Interrupt Priority Register"
hide.long 0xAC "IPR43,Interrupt Priority Register"
hide.long 0xB0 "IPR44,Interrupt Priority Register"
hide.long 0xB4 "IPR45,Interrupt Priority Register"
hide.long 0xB8 "IPR46,Interrupt Priority Register"
hide.long 0xBC "IPR47,Interrupt Priority Register"
hide.long 0xC0 "IPR48,Interrupt Priority Register"
hide.long 0xC4 "IPR49,Interrupt Priority Register"
hide.long 0xC8 "IPR50,Interrupt Priority Register"
hide.long 0xCC "IPR51,Interrupt Priority Register"
hide.long 0xD0 "IPR52,Interrupt Priority Register"
hide.long 0xD4 "IPR53,Interrupt Priority Register"
hide.long 0xD8 "IPR54,Interrupt Priority Register"
hide.long 0xDC "IPR55,Interrupt Priority Register"
hide.long 0xE0 "IPR56,Interrupt Priority Register"
hide.long 0xE4 "IPR57,Interrupt Priority Register"
hide.long 0xE8 "IPR58,Interrupt Priority Register"
hide.long 0xEC "IPR59,Interrupt Priority Register"
endif
tree.end
width 0x0b
else
newline
textline "COREDEBUG component base address not specified"
newline
endif
tree.end
sif CORENAME()=="CORTEXM4F"
tree "Floating-point Unit (FPU)"
sif COMPonent.AVAILABLE("COREDEBUG")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))
width 8.
group.long 0xF34++0x0B
line.long 0x00 "FPCCR,Floating-Point Context Control Register"
bitfld.long 0x00 31. " ASPEN ,Execution of a floating-point instruction sets the CONTROL.FPCA bit to 1" "Disabled,Enabled"
bitfld.long 0x00 30. " LSPEN ,Enables lazy context save of FP state" "Disabled,Enabled"
bitfld.long 0x00 8. " MONRDY ,Indicates whether the software executing when the processor allocated the FP stack frame was able to set the DebugMonitor exception to pending" "Not able,Able"
textline " "
bitfld.long 0x00 6. " BFRDY ,Indicates whether the software executing when the processor allocated the FP stack frame was able to set the BusFault exception to pending" "Not able,Able"
bitfld.long 0x00 5. " MMRDY ,Indicates whether the software executing when the processor allocated the FP stack frame was able to set the MemManage exception to pending" "Not able,Able"
bitfld.long 0x00 4. " HFRDY ,Indicates whether the software executing when the processor allocated the FP stack frame was able to set the HardFault exception to pending" "Not able,Able"
textline " "
bitfld.long 0x00 3. " THREAD ,Indicates the processor mode when it allocated the FP stack frame" "Handler,Thread"
bitfld.long 0x00 1. " USER ,Indicates the privilege level of the software executing" "Privileged,Unprivileged"
bitfld.long 0x00 0. " LSPACT ,Indicates whether Lazy preservation of the FP state is active" "Not active,Active"
line.long 0x04 "FPCAR,Floating-Point Context Address Register"
hexmask.long 0x04 3.--31. 0x8 " ADDRESS ,The location of the unpopulated floating-point register space allocated on an exception stack frame"
line.long 0x08 "FPDSCR,Floating-Point Default Status Control Register"
bitfld.long 0x08 26. " AHP ,Default value for FPSCR.AHP" "IEEE 754-2008,Alternative"
bitfld.long 0x08 25. " DN ,Default value for FPSCR.DN" "NaN operands,Any operation"
bitfld.long 0x08 24. " FZ ,Default value for FPSCR.FZ" "No Flush mode,Flush mode"
textline " "
bitfld.long 0x08 22.--23. " RMODE ,Default value for FPSCR.RMode" "Round to Nearest,Round towards Plus Infinity,Round towards Minus Infinity,Round towards Zero"
rgroup.long 0xF40++0x07
line.long 0x00 "MVFR0,Media and FP Feature Register 0"
bitfld.long 0x00 28.--31. " FPRNDMOD ,Indicates the rounding modes supported by the FP floating-point hardware" ",All supported,?..."
bitfld.long 0x00 24.--27. " SRTERR ,Indicates the hardware support for FP short vectors" "Not supported,?..."
bitfld.long 0x00 20.--23. " SQRROOT ,Indicates the hardware support for FP square root operations" ",Supported,?..."
textline " "
bitfld.long 0x00 16.--19. " DIV ,Indicates the hardware support for FP divide operations" ",Supported,?..."
bitfld.long 0x00 12.--15. " FPEXTRP ,Indicates whether the FP hardware implementation supports exception trapping" "Not supported,?..."
bitfld.long 0x00 8.--11. " DBLPREC ,Indicates the hardware support for FP double_precision operations" "Not supported,,Supported,?..."
textline " "
bitfld.long 0x00 4.--7. " SNGLPREC ,Indicates the hardware support for FP single-precision operations" ",,Supported,?..."
bitfld.long 0x00 0.--3. " A_SIMD ,Indicates the size of the FP register bank" ",Supported-16x64-bit,?..."
line.long 0x04 "MVFR1,Media and FP Feature Register 1"
bitfld.long 0x04 28.--31. " FP_FUSED_MAC ,Indicates whether the FP supports fused multiply accumulate operations" ",Supported,?..."
bitfld.long 0x04 24.--27. " FP_HPFP ,Indicates whether the FP supports half-precision and double-precision floating-point conversion instructions" ",Half-single,Half-single and half-double,?..."
textline " "
bitfld.long 0x04 4.--7. " D_NAN ,Indicates whether the FP hardware implementation supports only the Default NaN mode" ",NaN propagation,?..."
bitfld.long 0x04 0.--3. " FTZ_MODE ,Indicates whether the FP hardware implementation supports only the Flush-to-Zero mode of operation" ",Full denorm. num. arit.,?..."
width 0xB
else
newline
textline "COREDEBUG component base address not specified"
newline
endif
tree.end
endif
tree "Debug"
tree "Core Debug"
sif COMPonent.AVAILABLE("COREDEBUG")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))
width 7.
group.long 0xD30++0x03
line.long 0x00 "DFSR,Debug Fault Status Register"
eventfld.long 0x00 4. " EXTERNAL ,Indicates a debug event generated because of the assertion of an external debug request" "Not generated,Generated"
eventfld.long 0x00 3. " VCATCH ,Indicates triggering of a Vector catch" "Not triggered,Triggered"
eventfld.long 0x00 2. " DWTTRAP ,Indicates a debug event generated by the DWT" "Not generated,Generated"
newline
eventfld.long 0x00 1. " BKPT ,Indicates a debug event generated by BKPT instruction execution or a breakpoint match in FPB" "Not generated,Generated"
eventfld.long 0x00 0. " HALTED ,Indicates a debug event generated by either a C_HALT or C_STEP request, triggered by a write to the DHCSR or a step request triggered by setting DEMCR.MON_STEP to 1" "Not generated,Generated"
newline
hgroup.long 0xDF0++0x03
hide.long 0x00 "DHCSR,Debug Halting Control and Status Register"
in
newline
wgroup.long 0xDF4++0x03
line.long 0x00 "DCRSR,Debug Core Register Selector Register"
bitfld.long 0x00 16. " REGWNR ,Register Read/Write" "Read,Write"
hexmask.long.byte 0x00 0.--6. 1. " REGSEL ,Specifies the ARM core register or special-purpose register or Floating-point extension register"
group.long 0xDF8++0x03
line.long 0x00 "DCRDR,Debug Core Register Data Register"
if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("COREDEBUG",-1))+0xDFC))&0x10000)==0x10000)
group.long 0xDFC++0x03
line.long 0x00 "DEMCR,Debug Exception and Monitor Control Register"
bitfld.long 0x00 24. " TRCENA ,Global enable for all DWT and ITM features" "Disabled,Enabled"
bitfld.long 0x00 19. " MON_REQ ,DebugMonitor semaphore bit" "0,1"
bitfld.long 0x00 18. " MON_STEP ,Setting this bit to 1 makes the step request pending" "No step,Step"
newline
bitfld.long 0x00 17. " MON_PEND ,Sets or clears the pending state of the DebugMonitor exception" "Not pending,Pending"
bitfld.long 0x00 16. " MON_EN ,Enable the DebugMonitor exception" "Disabled,Enabled"
bitfld.long 0x00 10. " VC_HARDERR ,Enable halting debug trap on a HardFault exception" "Disabled,Enabled"
newline
bitfld.long 0x00 9. " VC_INTERR ,Enable halting debug trap" "Disabled,Enabled"
bitfld.long 0x00 8. " VC_BUSERR ,Enable halting debug trap on a BusFault exception" "Disabled,Enabled"
bitfld.long 0x00 7. " VC_STATERR ,Enable halting debug trap on a UsageFault exception" "Disabled,Enabled"
newline
bitfld.long 0x00 6. " VC_CHKERR ,Enable halting debug trap on a UsageFault exception" "Disabled,Enabled"
bitfld.long 0x00 5. " VC_NOCPERR ,Enable halting debug trap on a UsageFault caused by an access to a Coprocessor" "Disabled,Enabled"
bitfld.long 0x00 4. " VC_MMERR ,Enable halting debug trap on a MemManage exception" "Disabled,Enabled"
newline
bitfld.long 0x00 0. " VC_CORERESET ,Enable Reset Vector Catch" "Disabled,Enabled"
else
group.long 0xDFC++0x03
line.long 0x00 "DEMCR,Debug Exception and Monitor Control Register"
bitfld.long 0x00 24. " TRCENA ,Global enable for all DWT and ITM features" "Disabled,Enabled"
bitfld.long 0x00 19. " MON_REQ ,DebugMonitor semaphore bit" "0,1"
newline
bitfld.long 0x00 17. " MON_PEND ,Sets or clears the pending state of the DebugMonitor exception" "Not pending,Pending"
bitfld.long 0x00 16. " MON_EN ,Enable the DebugMonitor exception" "Disabled,Enabled"
bitfld.long 0x00 10. " VC_HARDERR ,Enable halting debug trap on a HardFault exception" "Disabled,Enabled"
newline
bitfld.long 0x00 9. " VC_INTERR ,Enable halting debug trap" "Disabled,Enabled"
bitfld.long 0x00 8. " VC_BUSERR ,Enable halting debug trap on a BusFault exception" "Disabled,Enabled"
bitfld.long 0x00 7. " VC_STATERR ,Enable halting debug trap on a UsageFault exception" "Disabled,Enabled"
newline
bitfld.long 0x00 6. " VC_CHKERR ,Enable halting debug trap on a UsageFault exception" "Disabled,Enabled"
bitfld.long 0x00 5. " VC_NOCPERR ,Enable halting debug trap on a UsageFault caused by an access to a Coprocessor" "Disabled,Enabled"
bitfld.long 0x00 4. " VC_MMERR ,Enable halting debug trap on a MemManage exception" "Disabled,Enabled"
newline
bitfld.long 0x00 0. " VC_CORERESET ,Enable Reset Vector Catch" "Disabled,Enabled"
endif
width 0x0B
else
newline
textline "COREDEBUG component base address not specified"
newline
endif
tree.end
tree "Flash Patch and Breakpoint Unit (FPB)"
sif COMPonent.AVAILABLE("FPB")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))
width 10.
group.long 0x00++0x07
line.long 0x00 "FP_CTRL,Flash Patch Control Register"
bitfld.long 0x00 28.--31. " REV ,Flash Patch Breakpoint architecture revision" "Version 1,Version 2,?..."
rbitfld.long 0x00 4.--7. 12.--14. " NUM_CODE ,The number of instruction address comparators" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63,64,65,66,67,68,69,70,71,72,73,74,75,76,77,78,79,80,81,82,83,84,85,86,87,88,89,90,91,92,93,94,95,96,97,98,99,100,101,102,103,104,105,106,107,108,109,110,111,112,113,114,115,116,117,118,119,120,121,122,123,124,125,126,127"
bitfld.long 0x00 1. " KEY ,Key Field" "Low,High"
bitfld.long 0x00 0. " ENABLE ,Flash Patch Unit Enable" "Disabled,Enabled"
textline ""
line.long 0x04 "FP_REMAP,Flash Patch Remap Register"
bitfld.long 0x04 29. " RMPSPT ,Indicates whether the FPB unit supports flash patch remap" "Not supported,SRAM region"
hexmask.long.tbyte 0x04 5.--28. 0x20 " REMAP ,Remap Base Address Field"
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x8++0x03
line.long 0x00 "FP_COMP0,Flash Patch Comparator Register 0"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address"
bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x8))&0x01)==0x00)
group.long 0x8++0x03
line.long 0x00 "FP_COMP0,Flash Patch Comparator Register 0"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x8++0x03
line.long 0x00 "FP_COMP0,Flash Patch Comparator Register 0"
hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0xC++0x03
line.long 0x00 "FP_COMP1,Flash Patch Comparator Register 1"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address"
bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0xC))&0x01)==0x00)
group.long 0xC++0x03
line.long 0x00 "FP_COMP1,Flash Patch Comparator Register 1"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0xC++0x03
line.long 0x00 "FP_COMP1,Flash Patch Comparator Register 1"
hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x10++0x03
line.long 0x00 "FP_COMP2,Flash Patch Comparator Register 2"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address"
bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x10))&0x01)==0x00)
group.long 0x10++0x03
line.long 0x00 "FP_COMP2,Flash Patch Comparator Register 2"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x10++0x03
line.long 0x00 "FP_COMP2,Flash Patch Comparator Register 2"
hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x14++0x03
line.long 0x00 "FP_COMP3,Flash Patch Comparator Register 3"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address"
bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x14))&0x01)==0x00)
group.long 0x14++0x03
line.long 0x00 "FP_COMP3,Flash Patch Comparator Register 3"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x14++0x03
line.long 0x00 "FP_COMP3,Flash Patch Comparator Register 3"
hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x18++0x03
line.long 0x00 "FP_COMP4,Flash Patch Comparator Register 4"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address"
bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x18))&0x01)==0x00)
group.long 0x18++0x03
line.long 0x00 "FP_COMP4,Flash Patch Comparator Register 4"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x18++0x03
line.long 0x00 "FP_COMP4,Flash Patch Comparator Register 4"
hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x1C++0x03
line.long 0x00 "FP_COMP5,Flash Patch Comparator Register 5"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address"
bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x1C))&0x01)==0x00)
group.long 0x1C++0x03
line.long 0x00 "FP_COMP5,Flash Patch Comparator Register 5"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x1C++0x03
line.long 0x00 "FP_COMP5,Flash Patch Comparator Register 5"
hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x20++0x03
line.long 0x00 "FP_COMP6,Flash Patch Comparator Register 6"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address"
bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x20))&0x01)==0x00)
group.long 0x20++0x03
line.long 0x00 "FP_COMP6,Flash Patch Comparator Register 6"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x20++0x03
line.long 0x00 "FP_COMP6,Flash Patch Comparator Register 6"
hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x00)
group.long 0x24++0x03
line.long 0x00 "FP_COMP7,Flash Patch Comparator Register 7"
bitfld.long 0x00 30.--31. " REPLACE ,Defines the behaviour when the COMP address is matched" ",Set BKPT on lower halfword,Set BKPT on upper halfword,Set BKPT on both"
hexmask.long 0x00 2.--28. 0x04 " COMP ,Comparison Address"
bitfld.long 0x00 0. " ENABLE ,Compare and Remap Enable" "Disabled,Enabled"
elif (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))))&0x10000000)==0x10000000)
if (((per.l(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("FPB",-1))+0x24))&0x01)==0x00)
group.long 0x24++0x03
line.long 0x00 "FP_COMP7,Flash Patch Comparator Register 7"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
else
group.long 0x24++0x03
line.long 0x00 "FP_COMP7,Flash Patch Comparator Register 7"
hexmask.long 0x00 1.--31. 0x02 " BPADDR ,Breakpoint address"
bitfld.long 0x00 0. " BE ,Enable bit for Breakpoint" "Disabled,Enabled"
endif
endif
width 6.
tree "CoreSight Identification Registers"
rgroup.long 0xFE0++0x0F
line.long 0x00 "PID0,Peripheral ID0"
hexmask.long.byte 0x00 0.--7. 1. " Part_Num[7:0] ,Part Number bits[7:0]"
line.long 0x04 "PID1,Peripheral ID1"
hexmask.long.byte 0x04 4.--7. 1. " JEP106ID[3:0] ,JEP106 ID code bits[3:0]"
hexmask.long.byte 0x04 0.--3. 1. " Part_Num[11:8] ,Part Number bits[11:8]"
line.long 0x08 "PID2,Peripheral ID2"
hexmask.long.byte 0x08 4.--7. 1. " Revision ,Revision"
bitfld.long 0x08 3. " JEDEC ,JEDEC assigned ID fields" "0,JEDEC"
hexmask.long.byte 0x08 0.--2. 1. " JEP106ID[6:4] ,JEP106 ID code bits[6:4]"
line.long 0x0c "PID3,Peripheral ID3"
hexmask.long.byte 0x0C 4.--7. 1. " RevAnd ,Minor revision field"
hexmask.long.byte 0x0C 0.--3. 1. " CMB ,Customer-modified block"
rgroup.long 0xFD0++0x03
line.long 0x00 "PID4,Peripheral Identification Register 4"
hexmask.long.byte 0x00 4.--7. 1. " Count ,4KB count"
hexmask.long.byte 0x00 0.--3. 1. " JEP106_CC ,JEP106 continuation code"
rgroup.long 0xFF0++0x0F
line.long 0x00 "CID0,Component ID0 (Preamble)"
line.long 0x04 "CID1,Component ID1"
hexmask.long.byte 0x04 4.--7. 1. " CC ,Component Class"
hexmask.long.byte 0x04 0.--3. 1. " Preamble ,Preamble"
line.long 0x08 "CID2,Component ID2"
line.long 0x0c "CID3,Component ID3"
tree.end
width 0xB
else
newline
textline "FPB component base address not specified"
newline
endif
tree.end
tree "Data Watchpoint and Trace Unit (DWT)"
sif COMPonent.AVAILABLE("DWT")
base CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))
width 15.
group.long 0x00++0x1B
line.long 0x00 "DWT_CTRL,Control Register"
rbitfld.long 0x00 28.--31. " NUMCOMP ,Number of comparators implemented" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 27. " NOTRCPKT ,Shows whether the implementation supports trace sampling and exception tracing" "Supported,Not supported"
rbitfld.long 0x00 26. " NOEXTTRIG ,Shows whether the implementation includes external match signals" "Supported,Not supported"
textline " "
rbitfld.long 0x00 25. " NOCYCCNT ,Shows whether the implementation supports a cycle counter" "Supported,Not supported"
rbitfld.long 0x00 24. " NOPRFCNT ,Shows whether the implementation supports the profiling counters" "Supported,Not supported"
bitfld.long 0x00 22. " CYCEVTENA ,Enables POSTCNT underflow Event counter packets generation" "Disabled,Enabled"
textline " "
bitfld.long 0x00 21. " FOLDEVTENA ,Enables generation of the Folded-instruction counter overflow event" "Disabled,Enabled"
bitfld.long 0x00 20. " LSUEVTENA ,Enables generation of the LSU counter overflow event" "Disabled,Enabled"
bitfld.long 0x00 19. " SLEEPEVTENA ,Enables generation of the Sleep counter overflow event" "Disabled,Enabled"
textline " "
bitfld.long 0x00 18. " EXCEVTENA ,Enables generation of the Exception overhead counter overflow event" "Disabled,Enabled"
bitfld.long 0x00 17. " CPIEVTENA ,Enables generation of the CPI counter overflow event" "Disabled,Enabled"
bitfld.long 0x00 16. " EXCTRCENA ,Enables generation of exception trace" "Disabled,Enabled"
textline " "
bitfld.long 0x00 12. " PCSAMPLEENA ,Enables use of POSTCNT counter as a timer for Periodic PC sample packet generation" "Disabled,Enabled"
bitfld.long 0x00 10.--11. " SYNCTAP ,Selects the position of the synchronization packet counter tap on the CYCCNT counter" "Disabled,CYCCNT[24],CYCCNT[26],CYCCNT[28]"
bitfld.long 0x00 9. " CYCTAP ,Selects the position of the POSTCNT tap on the CYCCNT counter" "CYCCNT[6],CYCCNT[10]"
textline " "
bitfld.long 0x00 5.--8. " POSTINIT ,Initial value for the POSTCNT counter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 1.--4. " POSTPRESET ,Reload value for the POSTCNT counter" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. " CYCCNTENA ,Enables CYCCNT" "Disabled,Enabled"
line.long 0x04 "DWT_CYCCNT,Cycle Count Register"
line.long 0x08 "DWT_CPICNT,CPI Count Register"
hexmask.long.byte 0x08 0.--7. 1. " CPICNT ,The base CPI counter"
line.long 0x0c "DWT_EXCCNT,Exception Overhead Count Register"
hexmask.long.byte 0x0c 0.--7. 1. " EXCCNT ,The exception overhead counter"
line.long 0x10 "DWT_SLEEPCNT,Sleep Count Register"
hexmask.long.byte 0x10 0.--7. 1. " SLEEPCNT ,Sleep Counter"
line.long 0x14 "DWT_LSUCNT,LSU Count Register"
hexmask.long.byte 0x14 0.--7. 1. " LSUCNT ,Load-store counter"
line.long 0x18 "DWT_FOLDCNT,Folded-instruction Count Register"
hexmask.long.byte 0x18 0.--7. 1. " FOLDCNT ,Folded-instruction counter"
rgroup.long 0x1C++0x03
line.long 0x00 "DWT_PCSR,Program Counter Sample register"
textline " "
group.long 0x20++0x07
line.long 0x00 "DWT_COMP0,DWT Comparator Register 0"
line.long 0x04 "DWT_MASK0,DWT Mask Registers 0"
bitfld.long 0x04 0.--4. " MASK ,The size of the ignore mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x28))&0x1A0)==0x20)
group.long 0x28++0x03
line.long 0x00 "DWT_FUNCTION0,DWT Function Registers 0"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 7. " CYCMATCH ,Enable cycle count comparison for comparator 0" "Disabled,Enabled"
bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send address trace packet on READ/WRITE,Send data value + address packet on READ/WRITE,Send data value + address packet on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data address trace packet on READ,Send data address trace packet on WRITE,Send data address + PC value on READ,Send data address + PC value on WRITE"
elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x28))&0x1A0)==0x00)
group.long 0x28++0x03
line.long 0x00 "DWT_FUNCTION0,DWT Function Registers 0"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 7. " CYCMATCH ,Enable cycle count comparison for comparator 0" "Disabled,Enabled"
bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send PC value trace packet on READ/WRITE,Send data value trace packet on READ/WRITE,Send data value + PC value on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data value trace packet on READ,Send data value trace packet on WRITE,Send data value + PC value on READ,Send data value + PC value on WRITE"
elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x28))&0x180)==0x80)
group.long 0x28++0x03
line.long 0x00 "DWT_FUNCTION0,DWT Function Registers 0"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 7. " CYCMATCH ,Enable cycle count comparison for comparator 0" "Disabled,Enabled"
bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send PC value trace packet,UNPREDICTABLE,UNPREDICTABLE,Generate watchpoint debug event,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,CMPMATCH[N] event,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE"
else
group.long 0x28++0x03
line.long 0x00 "DWT_FUNCTION0,DWT Function Registers 0"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 7. " CYCMATCH ,Enable cycle count comparison for comparator 0" "Disabled,Enabled"
bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,UNPREDICTABLE,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE"
endif
group.long (0x30)++0x07
line.long 0x00 "DWT_COMP1,DWT Comparator Register 1"
line.long 0x04 "DWT_MASK1,DWT Mask Registers 1"
bitfld.long 0x04 0.--4. " MASK ,The size of the ignore mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x30+0x08))&0x120)==0x20)
group.long (0x30+0x08)++0x03
line.long 0x00 "DWT_FUNCTION1,DWT Function Registers 1"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send address trace packet on READ/WRITE,Send data value + address packet on READ/WRITE,Send data value + address packet on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data address trace packet on READ,Send data address trace packet on WRITE,Send data address + PC value on READ,Send data address + PC value on WRITE"
elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x30+0x08))&0x120)==0x00)
group.long (0x30+0x08)++0x03
line.long 0x00 "DWT_FUNCTION1,DWT Function Registers 1"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send PC value trace packet on READ/WRITE,Send data value trace packet on READ/WRITE,Send data value + PC value on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data value trace packet on READ,Send data value trace packet on WRITE,Send data value + PC value on READ,Send data value + PC value on WRITE"
else
group.long (0x30+0x08)++0x03
line.long 0x00 "DWT_FUNCTION1,DWT Function Registers 1"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 5. " EMITRANGE ,Enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,UNPREDICTABLE,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE"
endif
group.long (0x40)++0x07
line.long 0x00 "DWT_COMP2,DWT Comparator Register 2"
line.long 0x04 "DWT_MASK2,DWT Mask Registers 2"
bitfld.long 0x04 0.--4. " MASK ,The size of the ignore mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x40+0x08))&0x120)==0x20)
group.long (0x40+0x08)++0x03
line.long 0x00 "DWT_FUNCTION2,DWT Function Registers 2"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send address trace packet on READ/WRITE,Send data value + address packet on READ/WRITE,Send data value + address packet on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data address trace packet on READ,Send data address trace packet on WRITE,Send data address + PC value on READ,Send data address + PC value on WRITE"
elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x40+0x08))&0x120)==0x00)
group.long (0x40+0x08)++0x03
line.long 0x00 "DWT_FUNCTION2,DWT Function Registers 2"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send PC value trace packet on READ/WRITE,Send data value trace packet on READ/WRITE,Send data value + PC value on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data value trace packet on READ,Send data value trace packet on WRITE,Send data value + PC value on READ,Send data value + PC value on WRITE"
else
group.long (0x40+0x08)++0x03
line.long 0x00 "DWT_FUNCTION2,DWT Function Registers 2"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 5. " EMITRANGE ,Enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,UNPREDICTABLE,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE"
endif
group.long (0x50)++0x07
line.long 0x00 "DWT_COMP3,DWT Comparator Register 3"
line.long 0x04 "DWT_MASK3,DWT Mask Registers 3"
bitfld.long 0x04 0.--4. " MASK ,The size of the ignore mask" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
if (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x50+0x08))&0x120)==0x20)
group.long (0x50+0x08)++0x03
line.long 0x00 "DWT_FUNCTION3,DWT Function Registers 3"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send address trace packet on READ/WRITE,Send data value + address packet on READ/WRITE,Send data value + address packet on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data address trace packet on READ,Send data address trace packet on WRITE,Send data address + PC value on READ,Send data address + PC value on WRITE"
elif (((per.long(CONvert.ADDRESSTODUALPORT(COMPonent.BASE("DWT",-1))+0x50+0x08))&0x120)==0x00)
group.long (0x50+0x08)++0x03
line.long 0x00 "DWT_FUNCTION3,DWT Function Registers 3"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 5. " EMITRANGE ,enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,Send PC value trace packet on READ/WRITE,Send data value trace packet on READ/WRITE,Send data value + PC value on READ/WRITE,Watchpoint debug event on PC match,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,CMPMATCH[N] event on PC match,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ/WRITE,Send data value trace packet on READ,Send data value trace packet on WRITE,Send data value + PC value on READ,Send data value + PC value on WRITE"
else
group.long (0x50+0x08)++0x03
line.long 0x00 "DWT_FUNCTION3,DWT Function Registers 3"
bitfld.long 0x00 24. " MATCHED ,Comparator match" "No matched,Matched"
bitfld.long 0x00 16.--19. " DATAVADDR1 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. " DATAVADDR0 ,Data Value Comparator ID" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
textline " "
bitfld.long 0x00 10.--11. " DATAVSIZE ,Data Value Size" "8-bit,16-bit,32-bit,Reserved"
bitfld.long 0x00 9. " LNK1ENA ,Supports use of a second linked comparator" "Not Supported,Supported"
bitfld.long 0x00 8. " DATAVMATCH ,Data value compare" "Disabled,Enabled"
textline " "
bitfld.long 0x00 5. " EMITRANGE ,Enables generation of Data trace address offset packets" "Disabled,Enabled"
bitfld.long 0x00 0.--3. " FUNCTION ,Selects action taken on comparator match" "Disabled,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,Watchpoint debug event on READ,Watchpoint debug event on WRITE,Watchpoint debug event on READ/WRITE,UNPREDICTABLE,CMPMATCH[N] event on READ,CMPMATCH[N] event on WRITE,CMPMATCH[N] event on READ,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE,UNPREDICTABLE"
endif
width 6.
tree "CoreSight Identification Registers"
rgroup.long 0xFE0++0x0F
line.long 0x00 "PID0,Peripheral ID0"
hexmask.long.byte 0x00 0.--7. 1. " Part_Num[7:0] ,Part Number bits[7:0]"
line.long 0x04 "PID1,Peripheral ID1"
hexmask.long.byte 0x04 4.--7. 1. " JEP106ID[3:0] ,JEP106 ID code bits[3:0]"
hexmask.long.byte 0x04 0.--3. 1. " Part_Num[11:8] ,Part Number bits[11:8]"
line.long 0x08 "PID2,Peripheral ID2"
hexmask.long.byte 0x08 4.--7. 1. " Revision ,Revision"
bitfld.long 0x08 3. " JEDEC ,JEDEC assigned ID fields" "0,JEDEC"
hexmask.long.byte 0x08 0.--2. 1. " JEP106ID[6:4] ,JEP106 ID code bits[6:4]"
line.long 0x0c "PID3,Peripheral ID3"
hexmask.long.byte 0x0C 4.--7. 1. " RevAnd ,Minor revision field"
hexmask.long.byte 0x0C 0.--3. 1. " CMB ,Customer-modified block"
rgroup.long 0xFD0++0x03
line.long 0x00 "PID4,Peripheral Identification Register 4"
hexmask.long.byte 0x00 4.--7. 1. " Count ,4KB count"
hexmask.long.byte 0x00 0.--3. 1. " JEP106_CC ,JEP106 continuation code"
rgroup.long 0xFF0++0x0F
line.long 0x00 "CID0,Component ID0 (Preamble)"
line.long 0x04 "CID1,Component ID1"
hexmask.long.byte 0x04 4.--7. 1. " CC ,Component Class"
hexmask.long.byte 0x04 0.--3. 1. " Preamble ,Preamble"
line.long 0x08 "CID2,Component ID2"
line.long 0x0c "CID3,Component ID3"
tree.end
width 0x0B
else
newline
textline "DWT component base address not specified"
newline
endif
tree.end
tree.end
AUTOINDENT.POP
tree.end
autoindent.on center tree
tree "ACMP"
base ad:0x40045000
group.long 0x00++0x03
line.long 0x00 "ACMP_CTL0,Analog Comparator 0 Control Register"
bitfld.long 0x00 28.--29. "MODESEL,Propagation Delay Mode Selection" "0: Max propagation delay is 4.5uS operation..,1: Max propagation delay is 2uS operation..,2: Max propagation delay is 600nS operation..,3: Max propagation delay is 200nS operation.."
bitfld.long 0x00 24.--25. "HYSSEL,Hysteresis Mode Selection" "0: Hysteresis is 0mV,1: Hysteresis is 10mV,2: Hysteresis is 20mV,3: Hysteresis is 30mV"
newline
bitfld.long 0x00 18. "WCMPSEL,Window Compare Mode Selection" "0: Window Compare Mode Disabled,1: Window Compare Mode is Selected"
bitfld.long 0x00 17. "WLATEN,Window Latch Mode Enable Bit" "0: Window Latch Mode Disabled,1: Window Latch Mode Enabled"
newline
bitfld.long 0x00 16. "WKEN,Power-down Wake-up Enable Bit" "0: Wake-up function Disabled,1: Wake-up function Enabled"
bitfld.long 0x00 13.--15. "FILTSEL,Comparator Output Filter Count Selection" "0: Filter function is Disabled,1: ACMP0 output is sampled 1 consecutive PCLK,2: ACMP0 output is sampled 2 consecutive PCLKs,3: ACMP0 output is sampled 4 consecutive PCLKs,4: ACMP0 output is sampled 8 consecutive PCLKs,5: ACMP0 output is sampled 16 consecutive PCLKs,6: ACMP0 output is sampled 32 consecutive PCLKs,7: ACMP0 output is sampled 64 consecutive PCLKs"
newline
bitfld.long 0x00 12. "OUTSEL,Comparator Output Select" "0: Comparator 0 output to ACMP0_O pin is..,1: Comparator 0 output to ACMP0_O pin is from.."
bitfld.long 0x00 8.--9. "INTPOL,Interrupt Condition Polarity Selection\nACMPIF0 will be set to 1 when comparator output edge condition is detected" "0: Rising edge or falling edge,1: Rising edge,2: Falling edge,3: Reserved"
newline
bitfld.long 0x00 6.--7. "POSSEL,Comparator Positive Input Selection" "0: Input from ACMP0_P0,1: Input from ACMP0_P1,2: Input from ACMP0_P2,3: Input from ACMP0_P3"
bitfld.long 0x00 4.--5. "NEGSEL,Comparator Negative Input Selection" "0: ACMP0_N pin,1: Internal comparator reference voltage (CRV),2: Band-gap voltage,3: DAC output"
newline
bitfld.long 0x00 3. "ACMPOINV,Comparator Output Inverse" "0: Comparator 0 output inverse Disabled,1: Comparator 0 output inverse Enabled"
bitfld.long 0x00 1. "ACMPIE,Comparator Interrupt Enable Bit" "0: Comparator 0 interrupt Disabled,1: Comparator 0 interrupt Enabled"
newline
bitfld.long 0x00 0. "ACMPEN,Comparator Enable Bit" "0: Comparator 0 Disabled,1: Comparator 0 Enabled"
group.long 0x04++0x03
line.long 0x00 "ACMP_CTL1,Analog Comparator 1 Control Register"
bitfld.long 0x00 28.--29. "MODESEL,Propagation Delay Mode Selection" "0: Max propagation delay is 4.5uS operation..,1: Max propagation delay is 2uS operation..,2: Max propagation delay is 600nS operation..,3: Max propagation delay is 200nS operation.."
bitfld.long 0x00 24.--25. "HYSSEL,Hysteresis Mode Selection" "0: Hysteresis is 0mV,1: Hysteresis is 10mV,2: Hysteresis is 20mV,3: Hysteresis is 30mV"
newline
bitfld.long 0x00 18. "WCMPSEL,Window Compare Mode Selection" "0: Window Compare Mode Disabled,1: Window Compare Mode is Selected"
bitfld.long 0x00 17. "WLATEN,Window Latch Mode Enable Bit" "0: Window Latch Mode Disabled,1: Window Latch Mode Enabled"
newline
bitfld.long 0x00 16. "WKEN,Power-down Wakeup Enable Bit" "0: Wake-up function Disabled,1: Wake-up function Enabled"
bitfld.long 0x00 13.--15. "FILTSEL,Comparator Output Filter Count Selection" "0: Filter function is Disabled,1: ACMP1 output is sampled 1 consecutive PCLK,2: ACMP1 output is sampled 2 consecutive PCLKs,3: ACMP1 output is sampled 4 consecutive PCLKs,4: ACMP1 output is sampled 8 consecutive PCLKs,5: ACMP1 output is sampled 16 consecutive PCLKs,6: ACMP1 output is sampled 32 consecutive PCLKs,7: ACMP1 output is sampled 64 consecutive PCLKs"
newline
bitfld.long 0x00 12. "OUTSEL,Comparator Output Select" "0: Comparator 1 output to ACMP1_O pin is..,1: Comparator 1 output to ACMP1_O pin is from.."
bitfld.long 0x00 8.--9. "INTPOL,Interrupt Condition Polarity Selection\nACMPIF1 will be set to 1 when comparator output edge condition is detected" "0: Rising edge or falling edge,1: Rising edge,2: Falling edge,3: Reserved"
newline
bitfld.long 0x00 6.--7. "POSSEL,Comparator Positive Input Selection" "0: Input from ACMP1_P0,1: Input from ACMP1_P1,2: Input from ACMP1_P2,3: Input from ACMP1_P3"
bitfld.long 0x00 4.--5. "NEGSEL,Comparator Negative Input Selection" "0: ACMP1_N pin,1: Internal comparator reference voltage (CRV),2: Band-gap voltage,3: DAC output"
newline
bitfld.long 0x00 3. "ACMPOINV,Comparator Output Inverse Control" "0: Comparator 1 output inverse Disabled,1: Comparator 1 output inverse Enabled"
bitfld.long 0x00 1. "ACMPIE,Comparator Interrupt Enable Bit" "0: Comparator 1 interrupt Disabled,1: Comparator 1 interrupt Enabled"
newline
bitfld.long 0x00 0. "ACMPEN,Comparator Enable Bit" "0: Comparator 1 Disabled,1: Comparator 1 Enabled"
group.long 0x08++0x03
line.long 0x00 "ACMP_STATUS,Analog Comparator Status Register"
bitfld.long 0x00 16. "ACMPWO,Comparator Window Output\nThis bit shows the output status of window compare mode" "0: The positive input voltage is outside the..,1: The positive input voltage is in the window"
bitfld.long 0x00 13. "ACMPS1,Comparator 1 Status\nSynchronized to the PCLK to allow reading by software" "0,1"
newline
bitfld.long 0x00 12. "ACMPS0,Comparator 0 Status \nSynchronized to the PCLK to allow reading by software" "0,1"
bitfld.long 0x00 9. "WKIF1,Comparator 1 Power-down Wake-up Interrupt Flag\nThis bit will be set to 1 when ACMP1 wake-up interrupt event occurs.\nNote: Write 1 to clear this bit to 0" "0: No power-down wake-up occurred,1: Power-down wake-up occurred"
newline
bitfld.long 0x00 8. "WKIF0,Comparator 0 Power-down Wake-up Interrupt Flag\nThis bit will be set to 1 when ACMP0 wake-up interrupt event occurs.\nNote: Write 1 to clear this bit to 0" "0: No power-down wake-up occurred,1: Power-down wake-up occurred"
bitfld.long 0x00 5. "ACMPO1,Comparator 1 Output\nSynchronized to the PCLK to allow reading by software" "0,1"
newline
bitfld.long 0x00 4. "ACMPO0,Comparator 0 Output\nSynchronized to the PCLK to allow reading by software" "0,1"
bitfld.long 0x00 1. "ACMPIF1,Comparator 1 Interrupt Flag\nThis bit is set by hardware when the edge condition defined by INTPOL (ACMP_CTL1[9:8]) is detected on comparator 1 output" "0,1"
newline
bitfld.long 0x00 0. "ACMPIF0,Comparator 0 Interrupt Flag\nThis bit is set by hardware when the edge condition defined by INTPOL (ACMP_CTL0[9:8]) is detected on comparator 0 output" "0,1"
group.long 0x0C++0x03
line.long 0x00 "ACMP_VREF,Analog Comparator Reference Voltage Control Register"
bitfld.long 0x00 6. "CRVSSEL,CRV Source Voltage Selection" "0: AVDD is selected as CRV source voltage,1: The reference voltage defined by SYS_VREFCTL.."
bitfld.long 0x00 0.--3. "CRVCTL,Comparator Reference Voltage Setting" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "AHB"
base ad:0x40000400
group.long 0x00++0x03
line.long 0x00 "AHBMCTL,AHB Bus Matrix Priority Control Register"
bitfld.long 0x00 0. "INTACTEN,Highest AHB Bus Priority of Cortex?-M4 Core Enable Bit (Write Protect)\nEnable Cortex?-M4 Core With Highest AHB Bus Priority In AHB Bus Matrix\nNote: This bit is write protected" "0: Run robin mode,1: Cortex?-M4 CPU with highest bus priority when.."
tree.end
tree "BPWM"
repeat 2. (list 0. 1.) (list ad:0x4005A000 ad:0x4005B000)
tree "BPWM$1"
base $2
group.long 0x00++0x03
line.long 0x00 "BPWM_CTL0,BPWM Control Register 0"
bitfld.long 0x00 31. "DBGTRIOFF,ICE Debug Mode Acknowledge Disable (Write Protect)\nBPWM pin will keep output no matter ICE debug mode acknowledged or not.\nNote: This bit is write protected" "0: ICE debug mode acknowledgement effects BPWM..,1: ICE debug mode acknowledgement Disabled"
bitfld.long 0x00 30. "DBGHALT,ICE Debug Mode Counter Halt (Write Protect)\nIf counter halt is enabled BPWM all counters will keep current value until exit ICE debug mode" "0: ICE debug mode counter halt Disabled,1: ICE debug mode counter halt Enabled"
newline
bitfld.long 0x00 21. "IMMLDEN5,Immediately Load Enable Bit(S)\nEach bit n controls the corresponding BPWM channel n.\nNote: If IMMLDENn is Enabled CTRLDn will be invalid" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD/CMPDAT will load to PBUF and CMPBUF.."
bitfld.long 0x00 20. "IMMLDEN4,Immediately Load Enable Bit(S)\nEach bit n controls the corresponding BPWM channel n.\nNote: If IMMLDENn is Enabled CTRLDn will be invalid" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD/CMPDAT will load to PBUF and CMPBUF.."
newline
bitfld.long 0x00 19. "IMMLDEN3,Immediately Load Enable Bit(S)\nEach bit n controls the corresponding BPWM channel n.\nNote: If IMMLDENn is Enabled CTRLDn will be invalid" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD/CMPDAT will load to PBUF and CMPBUF.."
bitfld.long 0x00 18. "IMMLDEN2,Immediately Load Enable Bit(S)\nEach bit n controls the corresponding BPWM channel n.\nNote: If IMMLDENn is Enabled CTRLDn will be invalid" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD/CMPDAT will load to PBUF and CMPBUF.."
newline
bitfld.long 0x00 17. "IMMLDEN1,Immediately Load Enable Bit(S)\nEach bit n controls the corresponding BPWM channel n.\nNote: If IMMLDENn is Enabled CTRLDn will be invalid" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD/CMPDAT will load to PBUF and CMPBUF.."
bitfld.long 0x00 16. "IMMLDEN0,Immediately Load Enable Bit(S)\nEach bit n controls the corresponding BPWM channel n.\nNote: If IMMLDENn is Enabled CTRLDn will be invalid" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD/CMPDAT will load to PBUF and CMPBUF.."
newline
bitfld.long 0x00 5. "CTRLD5,Center Re-load\nEach bit n controls the corresponding BPWM channel n.\nIn up-down counter type PERIOD will load to PBUF at the end point of each period" "0,1"
bitfld.long 0x00 4. "CTRLD4,Center Re-load\nEach bit n controls the corresponding BPWM channel n.\nIn up-down counter type PERIOD will load to PBUF at the end point of each period" "0,1"
newline
bitfld.long 0x00 3. "CTRLD3,Center Re-load\nEach bit n controls the corresponding BPWM channel n.\nIn up-down counter type PERIOD will load to PBUF at the end point of each period" "0,1"
bitfld.long 0x00 2. "CTRLD2,Center Re-load\nEach bit n controls the corresponding BPWM channel n.\nIn up-down counter type PERIOD will load to PBUF at the end point of each period" "0,1"
newline
bitfld.long 0x00 1. "CTRLD1,Center Re-load\nEach bit n controls the corresponding BPWM channel n.\nIn up-down counter type PERIOD will load to PBUF at the end point of each period" "0,1"
bitfld.long 0x00 0. "CTRLD0,Center Re-load\nEach bit n controls the corresponding BPWM channel n.\nIn up-down counter type PERIOD will load to PBUF at the end point of each period" "0,1"
group.long 0x04++0x03
line.long 0x00 "BPWM_CTL1,BPWM Control Register 1"
bitfld.long 0x00 0.--1. "CNTTYPE0,BPWM Counter Behavior Type 0\nEach bit n controls corresponding BPWM channel n" "0: Up counter type (supports in capture mode),1: Down count type (supports in capture mode),2: Up-down counter type,3: Reserved"
group.long 0x10++0x03
line.long 0x00 "BPWM_CLKSRC,BPWM Clock Source Register"
bitfld.long 0x00 0.--2. "ECLKSRC0,BPWM_CH01 External Clock Source Select" "0: BPWMx_CLK x denotes 0 or 1,1: TIMER0 overflow,2: TIMER1 overflow,3: TIMER2 overflow,4: TIMER3 overflow,?..."
group.long 0x14++0x03
line.long 0x00 "BPWM_CLKPSC,BPWM Clock Prescale Register"
hexmask.long.word 0x00 0.--11. 1. "CLKPSC,BPWM Counter Clock Prescale \nThe clock of BPWM counter is decided by clock prescaler"
group.long 0x20++0x03
line.long 0x00 "BPWM_CNTEN,BPWM Counter Enable Register"
bitfld.long 0x00 0. "CNTEN0,BPWM Counter 0 Enable Bit" "0: BPWM Counter and clock prescaler stop running,1: BPWM Counter and clock prescaler start running"
group.long 0x24++0x03
line.long 0x00 "BPWM_CNTCLR,BPWM Clear Counter Register"
bitfld.long 0x00 0. "CNTCLR0,Clear BPWM Counter Control Bit 0\nIt is automatically cleared by hardware" "0: No effect,1: Clear 16-bit BPWM counter to 0000H"
group.long 0x30++0x03
line.long 0x00 "BPWM_PERIOD,BPWM Period Register"
hexmask.long.word 0x00 0.--15. 1. "PERIOD,BPWM Period Register\nUp-Count mode: In this mode BPWM counter counts from 0 to PERIOD and restarts from 0.\nDown-Count mode: In this mode BPWM counter counts from PERIOD to 0 and restarts from PERIOD"
repeat 6. (strings "0" "1" "2" "3" "4" "5" )(list 0x0 0x4 0x8 0xC 0x10 0x14 )
group.long ($2+0x50)++0x03
line.long 0x00 "BPWM_CMPDAT$1,BPWM Comparator Register $1"
hexmask.long.word 0x00 0.--15. 1. "CMPDAT,BPWM Comparator Register\nCMPDAT use to compare with CNT to generate BPWM waveform interrupt and trigger EADC0/1.\nIn independent mode CMPDAT0~5 denote as 6 independent BPWM_CH0~5 compared point"
repeat.end
rgroup.long 0x90++0x03
line.long 0x00 "BPWM_CNT,BPWM Counter Register"
bitfld.long 0x00 16. "DIRF,BPWM Direction Indicator Flag (Read Only)" "0: Counter is Down count,1: Counter is UP count"
hexmask.long.word 0x00 0.--15. 1. "CNT,BPWM Data Register (Read Only)\nUser can monitor CNT to know the current value in 16-bit period counter"
group.long 0xB0++0x03
line.long 0x00 "BPWM_WGCTL0,BPWM Generation Register 0"
bitfld.long 0x00 26.--27. "PRDPCTL5,BPWM Period (Center) Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter count to (PERIOD+1).\nNote: This bit is center point control when BPWM counter operating in up-down.." "0: Do nothing,1: BPWM period (center) point output Low,2: BPWM period (center) point output High,3: BPWM period (center) point output Toggle"
bitfld.long 0x00 24.--25. "PRDPCTL4,BPWM Period (Center) Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter count to (PERIOD+1).\nNote: This bit is center point control when BPWM counter operating in up-down.." "0: Do nothing,1: BPWM period (center) point output Low,2: BPWM period (center) point output High,3: BPWM period (center) point output Toggle"
newline
bitfld.long 0x00 22.--23. "PRDPCTL3,BPWM Period (Center) Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter count to (PERIOD+1).\nNote: This bit is center point control when BPWM counter operating in up-down.." "0: Do nothing,1: BPWM period (center) point output Low,2: BPWM period (center) point output High,3: BPWM period (center) point output Toggle"
bitfld.long 0x00 20.--21. "PRDPCTL2,BPWM Period (Center) Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter count to (PERIOD+1).\nNote: This bit is center point control when BPWM counter operating in up-down.." "0: Do nothing,1: BPWM period (center) point output Low,2: BPWM period (center) point output High,3: BPWM period (center) point output Toggle"
newline
bitfld.long 0x00 18.--19. "PRDPCTL1,BPWM Period (Center) Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter count to (PERIOD+1).\nNote: This bit is center point control when BPWM counter operating in up-down.." "0: Do nothing,1: BPWM period (center) point output Low,2: BPWM period (center) point output High,3: BPWM period (center) point output Toggle"
bitfld.long 0x00 16.--17. "PRDPCTL0,BPWM Period (Center) Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter count to (PERIOD+1).\nNote: This bit is center point control when BPWM counter operating in up-down.." "0: Do nothing,1: BPWM period (center) point output Low,2: BPWM period (center) point output High,3: BPWM period (center) point output Toggle"
newline
bitfld.long 0x00 10.--11. "ZPCTL5,BPWM Zero Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter count to zero" "0: Do nothing,1: BPWM zero point output Low,2: BPWM zero point output High,3: BPWM zero point output Toggle"
bitfld.long 0x00 8.--9. "ZPCTL4,BPWM Zero Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter count to zero" "0: Do nothing,1: BPWM zero point output Low,2: BPWM zero point output High,3: BPWM zero point output Toggle"
newline
bitfld.long 0x00 6.--7. "ZPCTL3,BPWM Zero Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter count to zero" "0: Do nothing,1: BPWM zero point output Low,2: BPWM zero point output High,3: BPWM zero point output Toggle"
bitfld.long 0x00 4.--5. "ZPCTL2,BPWM Zero Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter count to zero" "0: Do nothing,1: BPWM zero point output Low,2: BPWM zero point output High,3: BPWM zero point output Toggle"
newline
bitfld.long 0x00 2.--3. "ZPCTL1,BPWM Zero Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter count to zero" "0: Do nothing,1: BPWM zero point output Low,2: BPWM zero point output High,3: BPWM zero point output Toggle"
bitfld.long 0x00 0.--1. "ZPCTL0,BPWM Zero Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter count to zero" "0: Do nothing,1: BPWM zero point output Low,2: BPWM zero point output High,3: BPWM zero point output Toggle"
group.long 0xB4++0x03
line.long 0x00 "BPWM_WGCTL1,BPWM Generation Register 1"
bitfld.long 0x00 26.--27. "CMPDCTL5,BPWM Compare Down Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter down count to CMPDAT" "0: Do nothing,1: BPWM compare down point output Low,2: BPWM compare down point output High,3: BPWM compare down point output Toggle"
bitfld.long 0x00 24.--25. "CMPDCTL4,BPWM Compare Down Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter down count to CMPDAT" "0: Do nothing,1: BPWM compare down point output Low,2: BPWM compare down point output High,3: BPWM compare down point output Toggle"
newline
bitfld.long 0x00 22.--23. "CMPDCTL3,BPWM Compare Down Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter down count to CMPDAT" "0: Do nothing,1: BPWM compare down point output Low,2: BPWM compare down point output High,3: BPWM compare down point output Toggle"
bitfld.long 0x00 20.--21. "CMPDCTL2,BPWM Compare Down Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter down count to CMPDAT" "0: Do nothing,1: BPWM compare down point output Low,2: BPWM compare down point output High,3: BPWM compare down point output Toggle"
newline
bitfld.long 0x00 18.--19. "CMPDCTL1,BPWM Compare Down Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter down count to CMPDAT" "0: Do nothing,1: BPWM compare down point output Low,2: BPWM compare down point output High,3: BPWM compare down point output Toggle"
bitfld.long 0x00 16.--17. "CMPDCTL0,BPWM Compare Down Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter down count to CMPDAT" "0: Do nothing,1: BPWM compare down point output Low,2: BPWM compare down point output High,3: BPWM compare down point output Toggle"
newline
bitfld.long 0x00 10.--11. "CMPUCTL5,BPWM Compare Up Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter up count to CMPDAT" "0: Do nothing,1: BPWM compare up point output Low,2: BPWM compare up point output High,3: BPWM compare up point output Toggle"
bitfld.long 0x00 8.--9. "CMPUCTL4,BPWM Compare Up Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter up count to CMPDAT" "0: Do nothing,1: BPWM compare up point output Low,2: BPWM compare up point output High,3: BPWM compare up point output Toggle"
newline
bitfld.long 0x00 6.--7. "CMPUCTL3,BPWM Compare Up Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter up count to CMPDAT" "0: Do nothing,1: BPWM compare up point output Low,2: BPWM compare up point output High,3: BPWM compare up point output Toggle"
bitfld.long 0x00 4.--5. "CMPUCTL2,BPWM Compare Up Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter up count to CMPDAT" "0: Do nothing,1: BPWM compare up point output Low,2: BPWM compare up point output High,3: BPWM compare up point output Toggle"
newline
bitfld.long 0x00 2.--3. "CMPUCTL1,BPWM Compare Up Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter up count to CMPDAT" "0: Do nothing,1: BPWM compare up point output Low,2: BPWM compare up point output High,3: BPWM compare up point output Toggle"
bitfld.long 0x00 0.--1. "CMPUCTL0,BPWM Compare Up Point Control\nEach bit n controls the corresponding BPWM channel n.\nBPWM can control output level when BPWM counter up count to CMPDAT" "0: Do nothing,1: BPWM compare up point output Low,2: BPWM compare up point output High,3: BPWM compare up point output Toggle"
group.long 0xB8++0x03
line.long 0x00 "BPWM_MSKEN,BPWM Mask Enable Register"
bitfld.long 0x00 5. "MSKEN5,BPWM Mask Enable Bits\nEach bit n controls the corresponding BPWM channel n.\nThe BPWM output signal will be masked when this bit is enabled" "0: BPWM output signal is non-masked,1: BPWM output signal is masked and output.."
bitfld.long 0x00 4. "MSKEN4,BPWM Mask Enable Bits\nEach bit n controls the corresponding BPWM channel n.\nThe BPWM output signal will be masked when this bit is enabled" "0: BPWM output signal is non-masked,1: BPWM output signal is masked and output.."
newline
bitfld.long 0x00 3. "MSKEN3,BPWM Mask Enable Bits\nEach bit n controls the corresponding BPWM channel n.\nThe BPWM output signal will be masked when this bit is enabled" "0: BPWM output signal is non-masked,1: BPWM output signal is masked and output.."
bitfld.long 0x00 2. "MSKEN2,BPWM Mask Enable Bits\nEach bit n controls the corresponding BPWM channel n.\nThe BPWM output signal will be masked when this bit is enabled" "0: BPWM output signal is non-masked,1: BPWM output signal is masked and output.."
newline
bitfld.long 0x00 1. "MSKEN1,BPWM Mask Enable Bits\nEach bit n controls the corresponding BPWM channel n.\nThe BPWM output signal will be masked when this bit is enabled" "0: BPWM output signal is non-masked,1: BPWM output signal is masked and output.."
bitfld.long 0x00 0. "MSKEN0,BPWM Mask Enable Bits\nEach bit n controls the corresponding BPWM channel n.\nThe BPWM output signal will be masked when this bit is enabled" "0: BPWM output signal is non-masked,1: BPWM output signal is masked and output.."
group.long 0xBC++0x03
line.long 0x00 "BPWM_MSK,BPWM Mask Data Register"
bitfld.long 0x00 5. "MSKDAT5,BPWM Mask Data Bit\nThis data bit control the state of BPWMn output pin if corresponding mask function is enabled" "0: Output logic low to BPWMn,1: Output logic high to BPWMn"
bitfld.long 0x00 4. "MSKDAT4,BPWM Mask Data Bit\nThis data bit control the state of BPWMn output pin if corresponding mask function is enabled" "0: Output logic low to BPWMn,1: Output logic high to BPWMn"
newline
bitfld.long 0x00 3. "MSKDAT3,BPWM Mask Data Bit\nThis data bit control the state of BPWMn output pin if corresponding mask function is enabled" "0: Output logic low to BPWMn,1: Output logic high to BPWMn"
bitfld.long 0x00 2. "MSKDAT2,BPWM Mask Data Bit\nThis data bit control the state of BPWMn output pin if corresponding mask function is enabled" "0: Output logic low to BPWMn,1: Output logic high to BPWMn"
newline
bitfld.long 0x00 1. "MSKDAT1,BPWM Mask Data Bit\nThis data bit control the state of BPWMn output pin if corresponding mask function is enabled" "0: Output logic low to BPWMn,1: Output logic high to BPWMn"
bitfld.long 0x00 0. "MSKDAT0,BPWM Mask Data Bit\nThis data bit control the state of BPWMn output pin if corresponding mask function is enabled" "0: Output logic low to BPWMn,1: Output logic high to BPWMn"
group.long 0xD4++0x03
line.long 0x00 "BPWM_POLCTL,BPWM Pin Polar Inverse Register"
bitfld.long 0x00 5. "PINV5,BPWM PIN Polar Inverse Control\nThe register controls polarity state of BPWM output" "0: BPWM output polar inverse Disabled,1: BPWM output polar inverse Enabled"
bitfld.long 0x00 4. "PINV4,BPWM PIN Polar Inverse Control\nThe register controls polarity state of BPWM output" "0: BPWM output polar inverse Disabled,1: BPWM output polar inverse Enabled"
newline
bitfld.long 0x00 3. "PINV3,BPWM PIN Polar Inverse Control\nThe register controls polarity state of BPWM output" "0: BPWM output polar inverse Disabled,1: BPWM output polar inverse Enabled"
bitfld.long 0x00 2. "PINV2,BPWM PIN Polar Inverse Control\nThe register controls polarity state of BPWM output" "0: BPWM output polar inverse Disabled,1: BPWM output polar inverse Enabled"
newline
bitfld.long 0x00 1. "PINV1,BPWM PIN Polar Inverse Control\nThe register controls polarity state of BPWM output" "0: BPWM output polar inverse Disabled,1: BPWM output polar inverse Enabled"
bitfld.long 0x00 0. "PINV0,BPWM PIN Polar Inverse Control\nThe register controls polarity state of BPWM output" "0: BPWM output polar inverse Disabled,1: BPWM output polar inverse Enabled"
group.long 0xD8++0x03
line.long 0x00 "BPWM_POEN,BPWM Output Enable Register"
bitfld.long 0x00 5. "POEN5,BPWM Pin Output Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: BPWM pin at tri-state,1: BPWM pin in output mode"
bitfld.long 0x00 4. "POEN4,BPWM Pin Output Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: BPWM pin at tri-state,1: BPWM pin in output mode"
newline
bitfld.long 0x00 3. "POEN3,BPWM Pin Output Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: BPWM pin at tri-state,1: BPWM pin in output mode"
bitfld.long 0x00 2. "POEN2,BPWM Pin Output Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: BPWM pin at tri-state,1: BPWM pin in output mode"
newline
bitfld.long 0x00 1. "POEN1,BPWM Pin Output Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: BPWM pin at tri-state,1: BPWM pin in output mode"
bitfld.long 0x00 0. "POEN0,BPWM Pin Output Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: BPWM pin at tri-state,1: BPWM pin in output mode"
group.long 0xE0++0x03
line.long 0x00 "BPWM_INTEN,BPWM Interrupt Enable Register"
bitfld.long 0x00 29. "CMPDIEN5,BPWM Compare Down Count Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
bitfld.long 0x00 28. "CMPDIEN4,BPWM Compare Down Count Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
newline
bitfld.long 0x00 27. "CMPDIEN3,BPWM Compare Down Count Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
bitfld.long 0x00 26. "CMPDIEN2,BPWM Compare Down Count Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
newline
bitfld.long 0x00 25. "CMPDIEN1,BPWM Compare Down Count Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
bitfld.long 0x00 24. "CMPDIEN0,BPWM Compare Down Count Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
newline
bitfld.long 0x00 21. "CMPUIEN5,BPWM Compare Up Count Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
bitfld.long 0x00 20. "CMPUIEN4,BPWM Compare Up Count Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
newline
bitfld.long 0x00 19. "CMPUIEN3,BPWM Compare Up Count Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
bitfld.long 0x00 18. "CMPUIEN2,BPWM Compare Up Count Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
newline
bitfld.long 0x00 17. "CMPUIEN1,BPWM Compare Up Count Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
bitfld.long 0x00 16. "CMPUIEN0,BPWM Compare Up Count Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
newline
bitfld.long 0x00 8. "PIEN0,BPWM Period Point Interrupt 0 Enable Bit\nNote: When up-down counter type period point means center point" "0: Period point interrupt Disabled,1: Period point interrupt Enabled"
bitfld.long 0x00 0. "ZIEN0,BPWM Zero Point Interrupt 0 Enable Bit" "0: Zero point interrupt Disabled,1: Zero point interrupt Enabled"
group.long 0xE8++0x03
line.long 0x00 "BPWM_INTSTS,BPWM Interrupt Flag Register"
bitfld.long 0x00 29. "CMPDIF5,BPWM Compare Down Count Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nFlag is set by hardware when BPWM counter down count and reaches BPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: If CMPDAT equal.." "0,1"
bitfld.long 0x00 28. "CMPDIF4,BPWM Compare Down Count Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nFlag is set by hardware when BPWM counter down count and reaches BPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: If CMPDAT equal.." "0,1"
newline
bitfld.long 0x00 27. "CMPDIF3,BPWM Compare Down Count Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nFlag is set by hardware when BPWM counter down count and reaches BPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: If CMPDAT equal.." "0,1"
bitfld.long 0x00 26. "CMPDIF2,BPWM Compare Down Count Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nFlag is set by hardware when BPWM counter down count and reaches BPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: If CMPDAT equal.." "0,1"
newline
bitfld.long 0x00 25. "CMPDIF1,BPWM Compare Down Count Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nFlag is set by hardware when BPWM counter down count and reaches BPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: If CMPDAT equal.." "0,1"
bitfld.long 0x00 24. "CMPDIF0,BPWM Compare Down Count Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nFlag is set by hardware when BPWM counter down count and reaches BPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: If CMPDAT equal.." "0,1"
newline
bitfld.long 0x00 21. "CMPUIF5,BPWM Compare Up Count Interrupt Flag\nFlag is set by hardware when BPWM counter up count and reaches BPWM_CMPDATn software can clear this bit by writing 1 to it" "0,1"
bitfld.long 0x00 20. "CMPUIF4,BPWM Compare Up Count Interrupt Flag\nFlag is set by hardware when BPWM counter up count and reaches BPWM_CMPDATn software can clear this bit by writing 1 to it" "0,1"
newline
bitfld.long 0x00 19. "CMPUIF3,BPWM Compare Up Count Interrupt Flag\nFlag is set by hardware when BPWM counter up count and reaches BPWM_CMPDATn software can clear this bit by writing 1 to it" "0,1"
bitfld.long 0x00 18. "CMPUIF2,BPWM Compare Up Count Interrupt Flag\nFlag is set by hardware when BPWM counter up count and reaches BPWM_CMPDATn software can clear this bit by writing 1 to it" "0,1"
newline
bitfld.long 0x00 17. "CMPUIF1,BPWM Compare Up Count Interrupt Flag\nFlag is set by hardware when BPWM counter up count and reaches BPWM_CMPDATn software can clear this bit by writing 1 to it" "0,1"
bitfld.long 0x00 16. "CMPUIF0,BPWM Compare Up Count Interrupt Flag\nFlag is set by hardware when BPWM counter up count and reaches BPWM_CMPDATn software can clear this bit by writing 1 to it" "0,1"
newline
bitfld.long 0x00 8. "PIF0,BPWM Period Point Interrupt Flag 0\nThis bit is set by hardware when BPWM_CH0 counter reaches BPWM_PERIOD0 software can write 1 to clear this bit to 0" "0,1"
bitfld.long 0x00 0. "ZIF0,BPWM Zero Point Interrupt Flag 0\nThis bit is set by hardware when BPWM_CH0 counter reaches 0 software can write 1 to clear this bit to 0" "0,1"
group.long 0xF8++0x03
line.long 0x00 "BPWM_EADCTS0,BPWM Trigger EADC0/1 Source Select Register 0"
bitfld.long 0x00 31. "TRGEN3,BPWM_CH3 Trigger EADC0/1 Enable Bit" "0,1"
bitfld.long 0x00 24.--27. "TRGSEL3,BPWM_CH3 Trigger EADC0/1 Source Select\nOthers reserved" "0: BPWM_CH2 zero point,1: BPWM_CH2 period point,2: BPWM_CH2 zero or period point,3: BPWM_CH2 up-count CMPDAT point,4: BPWM_CH2 down-count CMPDAT point,5: Reserved,6: Reserved,7: Reserved,8: BPWM_CH3 up-count CMPDAT point,9: BPWM_CH3 down-count CMPDAT point,?..."
newline
bitfld.long 0x00 23. "TRGEN2,BPWM_CH2 Trigger EADC0/1 Enable Bit" "0,1"
bitfld.long 0x00 16.--19. "TRGSEL2,BPWM_CH2 Trigger EADC0/1 Source Select\nOthers reserved" "0: BPWM_CH2 zero point,1: BPWM_CH2 period point,2: BPWM_CH2 zero or period point,3: BPWM_CH2 up-count CMPDAT point,4: BPWM_CH2 down-count CMPDAT point,5: Reserved,6: Reserved,7: Reserved,8: BPWM_CH3 up-count CMPDAT point,9: BPWM_CH3 down-count CMPDAT point,?..."
newline
bitfld.long 0x00 15. "TRGEN1,BPWM_CH1 Trigger EADC0/1 Enable Bit" "0,1"
bitfld.long 0x00 8.--11. "TRGSEL1,BPWM_CH1 Trigger EADC0/1 Source Select\nOthers reserved" "0: BPWM_CH0 zero point,1: BPWM_CH0 period point,2: BPWM_CH0 zero or period point,3: BPWM_CH0 up-count CMPDAT point,4: BPWM_CH0 down-count CMPDAT point,5: Reserved,6: Reserved,7: Reserved,8: BPWM_CH1 up-count CMPDAT point,9: BPWM_CH1 down-count CMPDAT point,?..."
newline
bitfld.long 0x00 7. "TRGEN0,BPWM_CH0 Trigger EADC0/1 Enable Bit" "0,1"
bitfld.long 0x00 0.--3. "TRGSEL0,BPWM_CH0 Trigger EADC0/1 Source Select\nOthers reserved" "0: BPWM_CH0 zero point,1: BPWM_CH0 period point,2: BPWM_CH0 zero or period point,3: BPWM_CH0 up-count CMPDAT point,4: BPWM_CH0 down-count CMPDAT point,5: Reserved,6: Reserved,7: Reserved,8: BPWM_CH1 up-count CMPDAT point,9: BPWM_CH1 down-count CMPDAT point,?..."
group.long 0xFC++0x03
line.long 0x00 "BPWM_EADCTS1,BPWM Trigger EADC0/1 Source Select Register 1"
bitfld.long 0x00 15. "TRGEN5,BPWM_CH5 Trigger EADC0/1 Enable Bit" "0,1"
bitfld.long 0x00 8.--11. "TRGSEL5,BPWM_CH5 Trigger EADC0/1 Source Select\nOthers reserved" "0: BPWM_CH4 zero point,1: BPWM_CH4 period point,2: BPWM_CH4 zero or period point,3: BPWM_CH4 up-count CMPDAT point,4: BPWM_CH4 down-count CMPDAT point,5: Reserved,6: Reserved,7: Reserved,8: BPWM_CH5 up-count CMPDAT point,9: BPWM_CH5 down-count CMPDAT point,?..."
newline
bitfld.long 0x00 7. "TRGEN4,BPWM_CH4 Trigger EADC0/1 Enable Bit" "0,1"
bitfld.long 0x00 0.--3. "TRGSEL4,BPWM_CH4 Trigger EADC0/1 Source Select\nOthers reserved" "0: BPWM_CH4 zero point,1: BPWM_CH4 period point,2: BPWM_CH4 zero or period point,3: BPWM_CH4 up-count CMPDAT point,4: BPWM_CH4 down-count CMPDAT point,5: Reserved,6: Reserved,7: Reserved,8: BPWM_CH5 up-count CMPDAT point,9: BPWM_CH5 down-count CMPDAT point,?..."
group.long 0x110++0x03
line.long 0x00 "BPWM_SSCTL,BPWM Synchronous Start Control Register"
bitfld.long 0x00 8.--9. "SSRC,BPWM Synchronous Start Source Select" "0: Synchronous start source come from PWM0,1: Synchronous start source come from PWM1,2: Synchronous start source come from BPWM0,3: Synchronous start source come from BPWM1"
bitfld.long 0x00 0. "SSEN0,BPWM Synchronous Start Function 0 Enable Bit\nWhen synchronous start function is enabled the BPWM_CH0 counter enable bit (CNTEN0) can be enabled by writing BPWM synchronous start trigger bit (CNTSEN)" "0: BPWM synchronous start function Disabled,1: BPWM synchronous start function Enabled"
wgroup.long 0x114++0x03
line.long 0x00 "BPWM_SSTRG,BPWM Synchronous Start Trigger Register"
bitfld.long 0x00 0. "CNTSEN,BPWM Counter Synchronous Start Enable Bit(Write Only)\nBPMW counter synchronous enable function is used to make PWM or BPWM channels start counting at the same time.\nWriting this bit to 1 will also set the counter enable bit if correlated BPWM.." "0,1"
group.long 0x120++0x03
line.long 0x00 "BPWM_STATUS,BPWM Status Register"
bitfld.long 0x00 21. "EADCTRG5,EADC0 EADC1 Start of Conversion Status\nEach bit n controls the corresponding BPWM channel n" "0: No EADC0/1 start of conversion trigger event..,1: An EADC0/1 start of conversion trigger event.."
bitfld.long 0x00 20. "EADCTRG4,EADC0 EADC1 Start of Conversion Status\nEach bit n controls the corresponding BPWM channel n" "0: No EADC0/1 start of conversion trigger event..,1: An EADC0/1 start of conversion trigger event.."
newline
bitfld.long 0x00 19. "EADCTRG3,EADC0 EADC1 Start of Conversion Status\nEach bit n controls the corresponding BPWM channel n" "0: No EADC0/1 start of conversion trigger event..,1: An EADC0/1 start of conversion trigger event.."
bitfld.long 0x00 18. "EADCTRG2,EADC0 EADC1 Start of Conversion Status\nEach bit n controls the corresponding BPWM channel n" "0: No EADC0/1 start of conversion trigger event..,1: An EADC0/1 start of conversion trigger event.."
newline
bitfld.long 0x00 17. "EADCTRG1,EADC0 EADC1 Start of Conversion Status\nEach bit n controls the corresponding BPWM channel n" "0: No EADC0/1 start of conversion trigger event..,1: An EADC0/1 start of conversion trigger event.."
bitfld.long 0x00 16. "EADCTRG0,EADC0 EADC1 Start of Conversion Status\nEach bit n controls the corresponding BPWM channel n" "0: No EADC0/1 start of conversion trigger event..,1: An EADC0/1 start of conversion trigger event.."
newline
bitfld.long 0x00 0. "CNTMAXF0,Time-base Counter 0 Equal to 0xFFFF Latched Flag" "0: The time-base counter never reached its..,1: The time-base counter reached its maximum value"
group.long 0x200++0x03
line.long 0x00 "BPWM_CAPINEN,BPWM Capture Input Enable Register"
bitfld.long 0x00 5. "CAPINEN5,Capture Input Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: BPWM Channel capture input path Disabled,1: BPWM Channel capture input path Enabled"
bitfld.long 0x00 4. "CAPINEN4,Capture Input Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: BPWM Channel capture input path Disabled,1: BPWM Channel capture input path Enabled"
newline
bitfld.long 0x00 3. "CAPINEN3,Capture Input Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: BPWM Channel capture input path Disabled,1: BPWM Channel capture input path Enabled"
bitfld.long 0x00 2. "CAPINEN2,Capture Input Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: BPWM Channel capture input path Disabled,1: BPWM Channel capture input path Enabled"
newline
bitfld.long 0x00 1. "CAPINEN1,Capture Input Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: BPWM Channel capture input path Disabled,1: BPWM Channel capture input path Enabled"
bitfld.long 0x00 0. "CAPINEN0,Capture Input Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: BPWM Channel capture input path Disabled,1: BPWM Channel capture input path Enabled"
group.long 0x204++0x03
line.long 0x00 "BPWM_CAPCTL,BPWM Capture Control Register"
bitfld.long 0x00 29. "FCRLDEN5,Falling Capture Reload Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Falling capture reload counter Disabled,1: Falling capture reload counter Enabled"
bitfld.long 0x00 28. "FCRLDEN4,Falling Capture Reload Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Falling capture reload counter Disabled,1: Falling capture reload counter Enabled"
newline
bitfld.long 0x00 27. "FCRLDEN3,Falling Capture Reload Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Falling capture reload counter Disabled,1: Falling capture reload counter Enabled"
bitfld.long 0x00 26. "FCRLDEN2,Falling Capture Reload Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Falling capture reload counter Disabled,1: Falling capture reload counter Enabled"
newline
bitfld.long 0x00 25. "FCRLDEN1,Falling Capture Reload Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Falling capture reload counter Disabled,1: Falling capture reload counter Enabled"
bitfld.long 0x00 24. "FCRLDEN0,Falling Capture Reload Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Falling capture reload counter Disabled,1: Falling capture reload counter Enabled"
newline
bitfld.long 0x00 21. "RCRLDEN5,Rising Capture Reload Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Rising capture reload counter Disabled,1: Rising capture reload counter Enabled"
bitfld.long 0x00 20. "RCRLDEN4,Rising Capture Reload Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Rising capture reload counter Disabled,1: Rising capture reload counter Enabled"
newline
bitfld.long 0x00 19. "RCRLDEN3,Rising Capture Reload Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Rising capture reload counter Disabled,1: Rising capture reload counter Enabled"
bitfld.long 0x00 18. "RCRLDEN2,Rising Capture Reload Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Rising capture reload counter Disabled,1: Rising capture reload counter Enabled"
newline
bitfld.long 0x00 17. "RCRLDEN1,Rising Capture Reload Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Rising capture reload counter Disabled,1: Rising capture reload counter Enabled"
bitfld.long 0x00 16. "RCRLDEN0,Rising Capture Reload Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Rising capture reload counter Disabled,1: Rising capture reload counter Enabled"
newline
bitfld.long 0x00 13. "CAPINV5,Capture Inverter Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture source inverter Disabled,1: Capture source inverter Enabled"
bitfld.long 0x00 12. "CAPINV4,Capture Inverter Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture source inverter Disabled,1: Capture source inverter Enabled"
newline
bitfld.long 0x00 11. "CAPINV3,Capture Inverter Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture source inverter Disabled,1: Capture source inverter Enabled"
bitfld.long 0x00 10. "CAPINV2,Capture Inverter Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture source inverter Disabled,1: Capture source inverter Enabled"
newline
bitfld.long 0x00 9. "CAPINV1,Capture Inverter Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture source inverter Disabled,1: Capture source inverter Enabled"
bitfld.long 0x00 8. "CAPINV0,Capture Inverter Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture source inverter Disabled,1: Capture source inverter Enabled"
newline
bitfld.long 0x00 5. "CAPEN5,Capture Function Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture function Disabled,1: Capture function Enabled"
bitfld.long 0x00 4. "CAPEN4,Capture Function Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture function Disabled,1: Capture function Enabled"
newline
bitfld.long 0x00 3. "CAPEN3,Capture Function Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture function Disabled,1: Capture function Enabled"
bitfld.long 0x00 2. "CAPEN2,Capture Function Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture function Disabled,1: Capture function Enabled"
newline
bitfld.long 0x00 1. "CAPEN1,Capture Function Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture function Disabled,1: Capture function Enabled"
bitfld.long 0x00 0. "CAPEN0,Capture Function Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture function Disabled,1: Capture function Enabled"
rgroup.long 0x208++0x03
line.long 0x00 "BPWM_CAPSTS,BPWM Capture Status Register"
bitfld.long 0x00 13. "CFIFOV5,Capture Falling Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if falling latch happened when the corresponding CAPFIF is 1" "0,1"
bitfld.long 0x00 12. "CFIFOV4,Capture Falling Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if falling latch happened when the corresponding CAPFIF is 1" "0,1"
newline
bitfld.long 0x00 11. "CFIFOV3,Capture Falling Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if falling latch happened when the corresponding CAPFIF is 1" "0,1"
bitfld.long 0x00 10. "CFIFOV2,Capture Falling Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if falling latch happened when the corresponding CAPFIF is 1" "0,1"
newline
bitfld.long 0x00 9. "CFIFOV1,Capture Falling Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if falling latch happened when the corresponding CAPFIF is 1" "0,1"
bitfld.long 0x00 8. "CFIFOV0,Capture Falling Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if falling latch happened when the corresponding CAPFIF is 1" "0,1"
newline
bitfld.long 0x00 5. "CRIFOV5,Capture Rising Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if rising latch happened when the corresponding CAPRIF is 1" "0,1"
bitfld.long 0x00 4. "CRIFOV4,Capture Rising Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if rising latch happened when the corresponding CAPRIF is 1" "0,1"
newline
bitfld.long 0x00 3. "CRIFOV3,Capture Rising Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if rising latch happened when the corresponding CAPRIF is 1" "0,1"
bitfld.long 0x00 2. "CRIFOV2,Capture Rising Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if rising latch happened when the corresponding CAPRIF is 1" "0,1"
newline
bitfld.long 0x00 1. "CRIFOV1,Capture Rising Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if rising latch happened when the corresponding CAPRIF is 1" "0,1"
bitfld.long 0x00 0. "CRIFOV0,Capture Rising Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if rising latch happened when the corresponding CAPRIF is 1" "0,1"
rgroup.long 0x20C++0x03
line.long 0x00 "BPWM_RCAPDAT0,BPWM Rising Capture Data Register 0"
hexmask.long.word 0x00 0.--15. 1. "RCAPDAT,BPWM Rising Capture Data (Read Only)\nWhen rising capture condition happened the BPWM counter value will be saved in this register"
rgroup.long 0x210++0x03
line.long 0x00 "BPWM_FCAPDAT0,BPWM Falling Capture Data Register 0"
hexmask.long.word 0x00 0.--15. 1. "FCAPDAT,BPWM Falling Capture Data (Read Only)\nWhen falling capture condition happened the BPWM counter value will be saved in this register"
group.long 0x214++0x03
line.long 0x00 "BPWM_RCAPDAT1,BPWM Rising Capture Data Register 1"
hexmask.long.word 0x00 0.--15. 1. "RCAPDAT,BPWM Rising Capture Data (Read Only)\nWhen rising capture condition happened the BPWM counter value will be saved in this register"
group.long 0x218++0x03
line.long 0x00 "BPWM_FCAPDAT1,BPWM Falling Capture Data Register 1"
hexmask.long.word 0x00 0.--15. 1. "FCAPDAT,BPWM Falling Capture Data (Read Only)\nWhen falling capture condition happened the BPWM counter value will be saved in this register"
group.long 0x21C++0x03
line.long 0x00 "BPWM_RCAPDAT2,BPWM Rising Capture Data Register 2"
hexmask.long.word 0x00 0.--15. 1. "RCAPDAT,BPWM Rising Capture Data (Read Only)\nWhen rising capture condition happened the BPWM counter value will be saved in this register"
group.long 0x220++0x03
line.long 0x00 "BPWM_FCAPDAT2,BPWM Falling Capture Data Register 2"
hexmask.long.word 0x00 0.--15. 1. "FCAPDAT,BPWM Falling Capture Data (Read Only)\nWhen falling capture condition happened the BPWM counter value will be saved in this register"
group.long 0x224++0x03
line.long 0x00 "BPWM_RCAPDAT3,BPWM Rising Capture Data Register 3"
hexmask.long.word 0x00 0.--15. 1. "RCAPDAT,BPWM Rising Capture Data (Read Only)\nWhen rising capture condition happened the BPWM counter value will be saved in this register"
group.long 0x228++0x03
line.long 0x00 "BPWM_FCAPDAT3,BPWM Falling Capture Data Register 3"
hexmask.long.word 0x00 0.--15. 1. "FCAPDAT,BPWM Falling Capture Data (Read Only)\nWhen falling capture condition happened the BPWM counter value will be saved in this register"
group.long 0x22C++0x03
line.long 0x00 "BPWM_RCAPDAT4,BPWM Rising Capture Data Register 4"
hexmask.long.word 0x00 0.--15. 1. "RCAPDAT,BPWM Rising Capture Data (Read Only)\nWhen rising capture condition happened the BPWM counter value will be saved in this register"
group.long 0x230++0x03
line.long 0x00 "BPWM_FCAPDAT4,BPWM Falling Capture Data Register 4"
hexmask.long.word 0x00 0.--15. 1. "FCAPDAT,BPWM Falling Capture Data (Read Only)\nWhen falling capture condition happened the BPWM counter value will be saved in this register"
group.long 0x234++0x03
line.long 0x00 "BPWM_RCAPDAT5,BPWM Rising Capture Data Register 5"
hexmask.long.word 0x00 0.--15. 1. "RCAPDAT,BPWM Rising Capture Data (Read Only)\nWhen rising capture condition happened the BPWM counter value will be saved in this register"
group.long 0x238++0x03
line.long 0x00 "BPWM_FCAPDAT5,BPWM Falling Capture Data Register 5"
hexmask.long.word 0x00 0.--15. 1. "FCAPDAT,BPWM Falling Capture Data (Read Only)\nWhen falling capture condition happened the BPWM counter value will be saved in this register"
group.long 0x250++0x03
line.long 0x00 "BPWM_CAPIEN,BPWM Capture Interrupt Enable Register"
bitfld.long 0x00 8.--13. "CAPFIENn,BPWM Capture Falling Latch Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture falling edge latch interrupt Disabled,1: Capture falling edge latch interrupt Enabled,?..."
bitfld.long 0x00 0.--5. "CAPRIENn,BPWM Capture Rising Latch Interrupt Enable Bits\nEach bit n controls the corresponding BPWM channel n" "0: Capture rising edge latch interrupt Disabled,1: Capture rising edge latch interrupt Enabled,?..."
group.long 0x254++0x03
line.long 0x00 "BPWM_CAPIF,BPWM Capture Interrupt Flag Register"
bitfld.long 0x00 13. "CAPFIF5,BPWM Capture Falling Latch Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nNote: This bit is cleared by writing 1 to it" "0: No capture falling latch condition happened,1: Capture falling latch condition happened this.."
bitfld.long 0x00 12. "CAPFIF4,BPWM Capture Falling Latch Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nNote: This bit is cleared by writing 1 to it" "0: No capture falling latch condition happened,1: Capture falling latch condition happened this.."
newline
bitfld.long 0x00 11. "CAPFIF3,BPWM Capture Falling Latch Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nNote: This bit is cleared by writing 1 to it" "0: No capture falling latch condition happened,1: Capture falling latch condition happened this.."
bitfld.long 0x00 10. "CAPFIF2,BPWM Capture Falling Latch Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nNote: This bit is cleared by writing 1 to it" "0: No capture falling latch condition happened,1: Capture falling latch condition happened this.."
newline
bitfld.long 0x00 9. "CAPFIF1,BPWM Capture Falling Latch Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nNote: This bit is cleared by writing 1 to it" "0: No capture falling latch condition happened,1: Capture falling latch condition happened this.."
bitfld.long 0x00 8. "CAPFIF0,BPWM Capture Falling Latch Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nNote: This bit is cleared by writing 1 to it" "0: No capture falling latch condition happened,1: Capture falling latch condition happened this.."
newline
bitfld.long 0x00 5. "CAPRIF5,BPWM Capture Rising Latch Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nNote: This bit is cleared by writing 1 to it" "0: No capture rising latch condition happened,1: Capture rising latch condition happened this.."
bitfld.long 0x00 4. "CAPRIF4,BPWM Capture Rising Latch Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nNote: This bit is cleared by writing 1 to it" "0: No capture rising latch condition happened,1: Capture rising latch condition happened this.."
newline
bitfld.long 0x00 3. "CAPRIF3,BPWM Capture Rising Latch Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nNote: This bit is cleared by writing 1 to it" "0: No capture rising latch condition happened,1: Capture rising latch condition happened this.."
bitfld.long 0x00 2. "CAPRIF2,BPWM Capture Rising Latch Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nNote: This bit is cleared by writing 1 to it" "0: No capture rising latch condition happened,1: Capture rising latch condition happened this.."
newline
bitfld.long 0x00 1. "CAPRIF1,BPWM Capture Rising Latch Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nNote: This bit is cleared by writing 1 to it" "0: No capture rising latch condition happened,1: Capture rising latch condition happened this.."
bitfld.long 0x00 0. "CAPRIF0,BPWM Capture Rising Latch Interrupt Flag\nEach bit n controls the corresponding BPWM channel n.\nNote: This bit is cleared by writing 1 to it" "0: No capture rising latch condition happened,1: Capture rising latch condition happened this.."
rgroup.long 0x304++0x03
line.long 0x00 "BPWM_PBUF,BPWM PERIOD Buffer"
hexmask.long.word 0x00 0.--15. 1. "PBUF,BPWM Period Buffer (Read Only)\nUsed as PERIOD active register"
rgroup.long 0x31C++0x03
line.long 0x00 "BPWM_CMPBUF0,BPWM CMPDAT 0 Buffer"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,BPWM Comparator Buffer (Read Only)\nUsed as CMP active register"
group.long 0x320++0x03
line.long 0x00 "BPWM_CMPBUF1,BPWM CMPDAT 1 Buffer"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,BPWM Comparator Buffer (Read Only)\nUsed as CMP active register"
group.long 0x324++0x03
line.long 0x00 "BPWM_CMPBUF2,BPWM CMPDAT 2 Buffer"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,BPWM Comparator Buffer (Read Only)\nUsed as CMP active register"
group.long 0x328++0x03
line.long 0x00 "BPWM_CMPBUF3,BPWM CMPDAT 3 Buffer"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,BPWM Comparator Buffer (Read Only)\nUsed as CMP active register"
group.long 0x32C++0x03
line.long 0x00 "BPWM_CMPBUF4,BPWM CMPDAT 4 Buffer"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,BPWM Comparator Buffer (Read Only)\nUsed as CMP active register"
group.long 0x330++0x03
line.long 0x00 "BPWM_CMPBUF5,BPWM CMPDAT 5 Buffer"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,BPWM Comparator Buffer (Read Only)\nUsed as CMP active register"
tree.end
repeat.end
tree.end
tree "CAN"
repeat 3. (list 0. 1. 2.) (list ad:0x400A0000 ad:0x400A1000 ad:0x400A2000)
tree "CAN$1"
base $2
group.long 0x00++0x03
line.long 0x00 "CAN_CON,CAN Control Register"
bitfld.long 0x00 7. "Test,Test Mode Enable Bit" "0: Normal Operation,1: Test Mode"
bitfld.long 0x00 6. "CCE,Configuration Change Enable Bit" "0: No write access to the Bit Timing Register,1: Write access to the Bit Timing Register.."
newline
bitfld.long 0x00 5. "DAR,Automatic Re-transmission Disable Bit" "0: Automatic Retransmission of disturbed..,1: Automatic Retransmission Disabled"
bitfld.long 0x00 3. "EIE,Error Interrupt Enable Bit" "0: Disabled - No Error Status Interrupt will be..,1: Enabled - A change in the bits BOff.."
newline
bitfld.long 0x00 2. "SIE,Status Change Interrupt Enable Bit" "0: Disabled - No Status Change Interrupt will be..,1: Enabled - An interrupt will be generated when.."
bitfld.long 0x00 1. "IE,Module Interrupt Enable Bit" "0: Funcrion interrupt Disabled,1: Funcrion interrupt Enabled"
newline
bitfld.long 0x00 0. "Init,Init Initialization" "0: Normal Operation,1: Initialization is started"
group.long 0x04++0x03
line.long 0x00 "CAN_STATUS,CAN Status Register"
rbitfld.long 0x00 7. "BOff,Bus-off Status (Read Only)" "0: The CAN module is not in bus-off state,1: The CAN module is in bus-off state"
rbitfld.long 0x00 6. "EWarn,Error Warning Status (Read Only)" "0: Both error counters are below the error..,1: At least one of the error counters in the EML.."
newline
rbitfld.long 0x00 5. "EPass,Error Passive (Read Only)" "0: The CAN Core is error active,1: The CAN Core is in the error passive state as.."
bitfld.long 0x00 4. "RxOK,Received a Message Successfully" "0: No message has been successfully received..,1: A message has been successfully received.."
newline
bitfld.long 0x00 3. "TxOK,Transmitted a Message Successfully" "0: Since this bit was reset by the CPU no..,1: Since this bit was last reset by the CPU a.."
bitfld.long 0x00 0.--2. "LEC,Last Error Code (Type of the Last Error to Occur on the CAN Bus)\nThe LEC field holds a code which indicates the type of the last error to occur on the CAN bus" "0,1,2,3,4,5,6,7"
rgroup.long 0x08++0x03
line.long 0x00 "CAN_ERR,CAN Error Counter Register"
bitfld.long 0x00 15. "RP,Receive Error Passive" "0: The Receive Error Counter is below the error..,1: The Receive Error Counter has reached the.."
hexmask.long.byte 0x00 8.--14. 1. "REC,Receive Error Counter\nActual state of the Receive Error Counter"
newline
hexmask.long.byte 0x00 0.--7. 1. "TEC,Transmit Error Counter\nActual state of the Transmit Error Counter"
group.long 0x0C++0x03
line.long 0x00 "CAN_BTIME,Bit Timing Register"
bitfld.long 0x00 12.--14. "TSeg2,Time Segment After Sample Point \n0x0-0x7: Valid values for TSeg2 are [0...7]" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 8.--11. "TSeg1,Time Segment Before the Sample Point Minus Sync_Seg\n0x01-0x0F: valid values for TSeg1 are [1...15]" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 6.--7. "SJW,(Re)Synchronization Jump Width\n0x0-0x3: Valid programmed values are [0...3]" "0,1,2,3"
bitfld.long 0x00 0.--5. "BRP,Baud Rate Prescaler \n0x01-0x3F: The value by which the oscillator frequency is divided for generating the bit time quanta" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x10++0x03
line.long 0x00 "CAN_IIDR,Interrupt Identifier Register"
hexmask.long.word 0x00 0.--15. 1. "IntId,Interrupt Identifier (Indicates the Source of the Interrupt)\nIf several interrupts are pending the CAN Interrupt Register will point to the pending interrupt with the highest priority disregarding their chronological order"
group.long 0x14++0x03
line.long 0x00 "CAN_TEST,Test Register (Register Map Note 1)"
rbitfld.long 0x00 7. "Rx,Monitors the Actual Value of CAN_RX Pin (Read Only) *(1)" "0: The CAN bus is dominant (CAN_RX = '0'),1: The CAN bus is recessive (CAN_RX = '1')"
bitfld.long 0x00 5.--6. "Tx,Tx[1:0]: Control of CAN_TX Pin" "0: Reset value CAN_TX pin is controlled by the..,1: Sample Point can be monitored at CAN_TX pin,2: CAN_TX pin drives a dominant ('0') value,3: CAN_TX pin drives a recessive ('1') value"
newline
bitfld.long 0x00 4. "LBack,Loop Back Mode Enable Bit" "0: Loop Back Mode Disabled,1: Loop Back Mode Enabled"
bitfld.long 0x00 3. "Silent,Silent Mode" "0: Normal operation,1: The module is in Silent Mode"
newline
bitfld.long 0x00 2. "Basic,Basic Mode" "0: Basic Mode Disabled,1: IF1 Registers used as Tx Buffer IF2 Registers.."
group.long 0x18++0x03
line.long 0x00 "CAN_BRPE,Baud Rate Prescaler Extension Register"
bitfld.long 0x00 0.--3. "BRPE,BRPE: Baud Rate Prescaler Extension\n0x00-0x0F: By programming BRPE the Baud Rate Prescaler can be extended to values up to 1023" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x20++0x03
line.long 0x00 "CAN_IF1_CREQ,IFn (Register Map Note 2) Command Request Registers"
bitfld.long 0x00 15. "Busy,Busy Flag" "0: Read/write action has finished,1: Writing to the IFn Command Request Register.."
bitfld.long 0x00 0.--5. "MessageNumber,Message Number\n0x01-0x20: Valid Message Number the Message Object in the Message\nRAM is selected for data transfer.\n0x00: Not a valid Message Number interpreted as 0x20.\n0x21-0x3F: Not a valid Message Number interpreted as 0x01-0x1F" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x80++0x03
line.long 0x00 "CAN_IF2_CREQ,IFn (Register Map Note 2) Command Request Registers"
bitfld.long 0x00 15. "Busy,Busy Flag" "0: Read/write action has finished,1: Writing to the IFn Command Request Register.."
bitfld.long 0x00 0.--5. "MessageNumber,Message Number\n0x01-0x20: Valid Message Number the Message Object in the Message\nRAM is selected for data transfer.\n0x00: Not a valid Message Number interpreted as 0x20.\n0x21-0x3F: Not a valid Message Number interpreted as 0x01-0x1F" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x24++0x03
line.long 0x00 "CAN_IF1_CMASK,IFn Command Mask Registers"
bitfld.long 0x00 7. "WR_RD,Write / Read Mode" "0: Read: Transfer data from the Message Object..,1: Write: Transfer data from the selected.."
bitfld.long 0x00 6. "Mask,Access Mask Bits\nWrite Operation" "0: Mask bits unchanged,1: Transfer Identifier Mask + MDir + MXtd to.."
newline
bitfld.long 0x00 5. "Arb,Access Arbitration Bits\nWrite Operation" "0: Arbitration bits unchanged,1: Transfer Identifier + Dir (CAN_IFn_ARB2[13]).."
bitfld.long 0x00 4. "Control,Control Access Control Bits\nWrite Operation" "0: Control Bits unchanged,1: Transfer Control Bits to Message.."
newline
bitfld.long 0x00 3. "ClrIntPnd,Clear Interrupt Pending Bit\nWrite Operation:\nWhen writing to a Message Object this bit is ignored.\nRead Operation" "0: IntPnd bit (CAN_IFn_MCON[13]) remains unchanged,1: Clear IntPnd bit in the Message Object"
bitfld.long 0x00 2. "TxRqst_NewDat,Access Transmission Request Bit When Write Operation\nNote: A read access to a Message Object can be combined with the reset of the control bits IntPnd and NewDat" "0: TxRqst bit unchanged.\nNewDat bit remains..,1: Set TxRqst bit.\nClear NewDat bit in the.."
newline
bitfld.long 0x00 1. "DAT_A,Access Data Bytes [3:0]\nWrite Operation" "0: Data Bytes [3:0] unchanged,1: Transfer Data Bytes [3:0] to Message.."
bitfld.long 0x00 0. "DAT_B,Access Data Bytes [7:4]\nWrite Operation" "0: Data Bytes [7:4] unchanged,1: Transfer Data Bytes [7:4] to Message.."
group.long 0x84++0x03
line.long 0x00 "CAN_IF2_CMASK,IFn Command Mask Registers"
bitfld.long 0x00 7. "WR_RD,Write / Read Mode" "0: Read: Transfer data from the Message Object..,1: Write: Transfer data from the selected.."
bitfld.long 0x00 6. "Mask,Access Mask Bits\nWrite Operation" "0: Mask bits unchanged,1: Transfer Identifier Mask + MDir + MXtd to.."
newline
bitfld.long 0x00 5. "Arb,Access Arbitration Bits\nWrite Operation" "0: Arbitration bits unchanged,1: Transfer Identifier + Dir (CAN_IFn_ARB2[13]).."
bitfld.long 0x00 4. "Control,Control Access Control Bits\nWrite Operation" "0: Control Bits unchanged,1: Transfer Control Bits to Message.."
newline
bitfld.long 0x00 3. "ClrIntPnd,Clear Interrupt Pending Bit\nWrite Operation:\nWhen writing to a Message Object this bit is ignored.\nRead Operation" "0: IntPnd bit (CAN_IFn_MCON[13]) remains unchanged,1: Clear IntPnd bit in the Message Object"
bitfld.long 0x00 2. "TxRqst_NewDat,Access Transmission Request Bit When Write Operation\nNote: A read access to a Message Object can be combined with the reset of the control bits IntPnd and NewDat" "0: TxRqst bit unchanged.\nNewDat bit remains..,1: Set TxRqst bit.\nClear NewDat bit in the.."
newline
bitfld.long 0x00 1. "DAT_A,Access Data Bytes [3:0]\nWrite Operation" "0: Data Bytes [3:0] unchanged,1: Transfer Data Bytes [3:0] to Message.."
bitfld.long 0x00 0. "DAT_B,Access Data Bytes [7:4]\nWrite Operation" "0: Data Bytes [7:4] unchanged,1: Transfer Data Bytes [7:4] to Message.."
group.long 0x28++0x03
line.long 0x00 "CAN_IF1_MASK1,IFn Mask 1 Registers"
hexmask.long.word 0x00 0.--15. 1. "Msk,Identifier Mask 15-0"
group.long 0x88++0x03
line.long 0x00 "CAN_IF2_MASK1,IFn Mask 1 Registers"
hexmask.long.word 0x00 0.--15. 1. "Msk,Identifier Mask 15-0"
group.long 0x2C++0x03
line.long 0x00 "CAN_IF1_MASK2,IFn Mask 2 Registers"
bitfld.long 0x00 15. "MXtd,Mask Extended Identifier\nNote: When 11-bit ('standard') Identifiers are used for a Message Object the identifiers of received Data Frames are written into bits ID28 to ID18 (CAN_IFn_ARB2[12:2])" "0: The extended identifier bit (IDE) has no..,1: The extended identifier bit (IDE) is used for.."
bitfld.long 0x00 14. "MDir,Mask Message Direction" "0: The message direction bit (Dir..,1: The message direction bit (Dir) is used for.."
newline
hexmask.long.word 0x00 0.--12. 1. "Msk,Identifier Mask 28-16"
group.long 0x8C++0x03
line.long 0x00 "CAN_IF2_MASK2,IFn Mask 2 Registers"
bitfld.long 0x00 15. "MXtd,Mask Extended Identifier\nNote: When 11-bit ('standard') Identifiers are used for a Message Object the identifiers of received Data Frames are written into bits ID28 to ID18 (CAN_IFn_ARB2[12:2])" "0: The extended identifier bit (IDE) has no..,1: The extended identifier bit (IDE) is used for.."
bitfld.long 0x00 14. "MDir,Mask Message Direction" "0: The message direction bit (Dir..,1: The message direction bit (Dir) is used for.."
newline
hexmask.long.word 0x00 0.--12. 1. "Msk,Identifier Mask 28-16"
group.long 0x30++0x03
line.long 0x00 "CAN_IF1_ARB1,IFn Arbitration 1 Registers"
hexmask.long.word 0x00 0.--15. 1. "ID,Message Identifier 15-0\nID28 - ID0 29-bit Identifier ('Extended Frame').\nID28 - ID18 11-bit Identifier ('Standard Frame')"
group.long 0x90++0x03
line.long 0x00 "CAN_IF2_ARB1,IFn Arbitration 1 Registers"
hexmask.long.word 0x00 0.--15. 1. "ID,Message Identifier 15-0\nID28 - ID0 29-bit Identifier ('Extended Frame').\nID28 - ID18 11-bit Identifier ('Standard Frame')"
group.long 0x34++0x03
line.long 0x00 "CAN_IF1_ARB2,IFn Arbitration 2 Registers"
bitfld.long 0x00 15. "MsgVal,Message Valid\nNote: The application software must reset the MsgVal bit of all unused Messages Objects during the initialization before it resets bit Init (CAN_CON[0])" "0: The Message Object is ignored by the Message..,1: The Message Object is configured and should.."
bitfld.long 0x00 14. "Xtd,Extended Identifier" "0: The 11-bit ('standard') Identifier will be..,1: The 29-bit ('extended') Identifier will be.."
newline
bitfld.long 0x00 13. "Dir,Message Direction" "0: Direction is receive,1: Direction is transmit"
hexmask.long.word 0x00 0.--12. 1. "ID,Message Identifier 28-16\nID28 - ID0 29-bit Identifier ('Extended Frame').\nID28 - ID18 11-bit Identifier ('Standard Frame')"
group.long 0x94++0x03
line.long 0x00 "CAN_IF2_ARB2,IFn Arbitration 2 Registers"
bitfld.long 0x00 15. "MsgVal,Message Valid\nNote: The application software must reset the MsgVal bit of all unused Messages Objects during the initialization before it resets bit Init (CAN_CON[0])" "0: The Message Object is ignored by the Message..,1: The Message Object is configured and should.."
bitfld.long 0x00 14. "Xtd,Extended Identifier" "0: The 11-bit ('standard') Identifier will be..,1: The 29-bit ('extended') Identifier will be.."
newline
bitfld.long 0x00 13. "Dir,Message Direction" "0: Direction is receive,1: Direction is transmit"
hexmask.long.word 0x00 0.--12. 1. "ID,Message Identifier 28-16\nID28 - ID0 29-bit Identifier ('Extended Frame').\nID28 - ID18 11-bit Identifier ('Standard Frame')"
group.long 0x38++0x03
line.long 0x00 "CAN_IF1_MCON,IFn Message Control Registers"
bitfld.long 0x00 15. "NewDat,New Data" "0: No new data has been written into the data..,1: The Message Handler or the application.."
bitfld.long 0x00 14. "MsgLst,Message Lost" "0: No message lost since last time this bit was..,1: The Message Handler stored a new message into.."
newline
bitfld.long 0x00 13. "IntPnd,Interrupt Pending" "0: This message object is not the source of an..,1: This message object is the source of an.."
bitfld.long 0x00 12. "UMask,Use Acceptance Mask\nNote: If the UMask bit is set to one the Message Object's mask bits have to be programmed during initialization of the Message Object before MsgVal bit (CAN_IFn_ARB2[15]) is set to one" "0: Mask ignored,1: Use Mask (Msk28-0 MXtd and MDir) for.."
newline
bitfld.long 0x00 11. "TxIE,Transmit Interrupt Enable Bit" "0: IntPnd (CAN_IFn_MCON[13]) will be left..,1: IntPnd will be set after a successful.."
bitfld.long 0x00 10. "RxIE,Receive Interrupt Enable Bit" "0: IntPnd (CAN_IFn_MCON[13]) will be left..,1: IntPnd will be set after a successful.."
newline
bitfld.long 0x00 9. "RmtEn,Remote Enable Bit" "0: At the reception of a Remote Frame TxRqst..,1: At the reception of a Remote Frame TxRqst is.."
bitfld.long 0x00 8. "TxRqst,Transmit Request" "0: This Message Object is not waiting for..,1: The transmission of this Message Object is.."
newline
bitfld.long 0x00 7. "EoB,End of Buffer\nNote: This bit is used to concatenate two or more Message Objects (up to 32) to build a FIFO Buffer" "0: Message Object belongs to a FIFO Buffer and..,1: Single Message Object or last Message Object.."
bitfld.long 0x00 0.--3. "DLC,Data Length Code\n0-8: Data Frame has 0-8 data bytes.\n9-15: Data Frame has 8 data bytes\nNote: The Data Length Code of a Message Object must be defined the same as in all the corresponding objects with the same identifier at other nodes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x03
line.long 0x00 "CAN_IF2_MCON,IFn Message Control Registers"
bitfld.long 0x00 15. "NewDat,New Data" "0: No new data has been written into the data..,1: The Message Handler or the application.."
bitfld.long 0x00 14. "MsgLst,Message Lost" "0: No message lost since last time this bit was..,1: The Message Handler stored a new message into.."
newline
bitfld.long 0x00 13. "IntPnd,Interrupt Pending" "0: This message object is not the source of an..,1: This message object is the source of an.."
bitfld.long 0x00 12. "UMask,Use Acceptance Mask\nNote: If the UMask bit is set to one the Message Object's mask bits have to be programmed during initialization of the Message Object before MsgVal bit (CAN_IFn_ARB2[15]) is set to one" "0: Mask ignored,1: Use Mask (Msk28-0 MXtd and MDir) for.."
newline
bitfld.long 0x00 11. "TxIE,Transmit Interrupt Enable Bit" "0: IntPnd (CAN_IFn_MCON[13]) will be left..,1: IntPnd will be set after a successful.."
bitfld.long 0x00 10. "RxIE,Receive Interrupt Enable Bit" "0: IntPnd (CAN_IFn_MCON[13]) will be left..,1: IntPnd will be set after a successful.."
newline
bitfld.long 0x00 9. "RmtEn,Remote Enable Bit" "0: At the reception of a Remote Frame TxRqst..,1: At the reception of a Remote Frame TxRqst is.."
bitfld.long 0x00 8. "TxRqst,Transmit Request" "0: This Message Object is not waiting for..,1: The transmission of this Message Object is.."
newline
bitfld.long 0x00 7. "EoB,End of Buffer\nNote: This bit is used to concatenate two or more Message Objects (up to 32) to build a FIFO Buffer" "0: Message Object belongs to a FIFO Buffer and..,1: Single Message Object or last Message Object.."
bitfld.long 0x00 0.--3. "DLC,Data Length Code\n0-8: Data Frame has 0-8 data bytes.\n9-15: Data Frame has 8 data bytes\nNote: The Data Length Code of a Message Object must be defined the same as in all the corresponding objects with the same identifier at other nodes" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3C++0x03
line.long 0x00 "CAN_IF1_DAT_A1,IFn Data A1 Registers (Register Map Note 3)"
hexmask.long.byte 0x00 8.--15. 1. "Data_1,Data Byte 1\n2nd data byte of a CAN Data Frame"
hexmask.long.byte 0x00 0.--7. 1. "Data_0,Data Byte 0\n1st data byte of a CAN Data Frame"
group.long 0x9C++0x03
line.long 0x00 "CAN_IF2_DAT_A1,IFn Data A1 Registers (Register Map Note 3)"
hexmask.long.byte 0x00 8.--15. 1. "Data_1,Data Byte 1\n2nd data byte of a CAN Data Frame"
hexmask.long.byte 0x00 0.--7. 1. "Data_0,Data Byte 0\n1st data byte of a CAN Data Frame"
group.long 0x40++0x03
line.long 0x00 "CAN_IF1_DAT_A2,IFn Data A2 Registers (Register Map Note 3)"
hexmask.long.byte 0x00 8.--15. 1. "Data_3,Data Byte 3\n4th data byte of CAN Data Frame"
hexmask.long.byte 0x00 0.--7. 1. "Data_2,Data Byte 2\n3rd data byte of CAN Data Frame"
group.long 0xA0++0x03
line.long 0x00 "CAN_IF2_DAT_A2,IFn Data A2 Registers (Register Map Note 3)"
hexmask.long.byte 0x00 8.--15. 1. "Data_3,Data Byte 3\n4th data byte of CAN Data Frame"
hexmask.long.byte 0x00 0.--7. 1. "Data_2,Data Byte 2\n3rd data byte of CAN Data Frame"
group.long 0x44++0x03
line.long 0x00 "CAN_IF1_DAT_B1,IFn Data B1 Registers (Register Map Note 3)"
hexmask.long.byte 0x00 8.--15. 1. "Data_5,Data Byte 5\n6th data byte of CAN Data Frame"
hexmask.long.byte 0x00 0.--7. 1. "Data_4,Data Byte 4\n5th data byte of CAN Data Frame"
group.long 0xA4++0x03
line.long 0x00 "CAN_IF2_DAT_B1,IFn Data B1 Registers (Register Map Note 3)"
hexmask.long.byte 0x00 8.--15. 1. "Data_5,Data Byte 5\n6th data byte of CAN Data Frame"
hexmask.long.byte 0x00 0.--7. 1. "Data_4,Data Byte 4\n5th data byte of CAN Data Frame"
group.long 0x48++0x03
line.long 0x00 "CAN_IF1_DAT_B2,IFn Data B2 Registers (Register Map Note 3)"
hexmask.long.byte 0x00 8.--15. 1. "Data_7,Data Byte 7\n8th data byte of CAN Data Frame"
hexmask.long.byte 0x00 0.--7. 1. "Data_6,Data Byte 6\n7th data byte of CAN Data Frame"
group.long 0xA8++0x03
line.long 0x00 "CAN_IF2_DAT_B2,IFn Data B2 Registers (Register Map Note 3)"
hexmask.long.byte 0x00 8.--15. 1. "Data_7,Data Byte 7\n8th data byte of CAN Data Frame"
hexmask.long.byte 0x00 0.--7. 1. "Data_6,Data Byte 6\n7th data byte of CAN Data Frame"
rgroup.long 0x100++0x03
line.long 0x00 "CAN_TXREQ1,Transmission Request Register 1"
hexmask.long.word 0x00 0.--15. 1. "TxRqst16_1,Transmission Request Bits 16-1 (of All Message Objects) (Read Only)"
rgroup.long 0x104++0x03
line.long 0x00 "CAN_TXREQ2,Transmission Request Register 2"
hexmask.long.word 0x00 0.--15. 1. "TxRqst32_17,Transmission Request Bits 32-17 (of All Message Objects) (Read Only)"
rgroup.long 0x120++0x03
line.long 0x00 "CAN_NDAT1,New Data Register 1"
hexmask.long.word 0x00 0.--15. 1. "NewData16_1,New Data Bits 16-1 (of All Message Objects)"
rgroup.long 0x124++0x03
line.long 0x00 "CAN_NDAT2,New Data Register 2"
hexmask.long.word 0x00 0.--15. 1. "NewData32_17,New Data Bits 32-17 (of All Message Objects)"
rgroup.long 0x140++0x03
line.long 0x00 "CAN_IPND1,Interrupt Pending Register 1"
hexmask.long.word 0x00 0.--15. 1. "IntPnd16_1,Interrupt Pending Bits 16-1 (of All Message Objects)"
rgroup.long 0x144++0x03
line.long 0x00 "CAN_IPND2,Interrupt Pending Register 2"
hexmask.long.word 0x00 0.--15. 1. "IntPnd32_17,Interrupt Pending Bits 32-17 (of All Message Objects)"
rgroup.long 0x160++0x03
line.long 0x00 "CAN_MVLD1,Message Valid Register 1"
hexmask.long.word 0x00 0.--15. 1. "MsgVal16_1,Message Valid Bits 16-1 (of All Message Objects) (Read Only)\nNote: CAN_MVLD1[0] means Message object No.1 is valid or not"
rgroup.long 0x164++0x03
line.long 0x00 "CAN_MVLD2,Message Valid Register 2"
hexmask.long.word 0x00 0.--15. 1. "MsgVal32_17,Message Valid Bits 32-17 (of All Message Objects) (Read Only)\nNote: CAN_MVLD2[15] means Message object No.32 is valid or not"
group.long 0x168++0x03
line.long 0x00 "CAN_WU_EN,Wake-up Enable Control Register"
bitfld.long 0x00 0. "WAKUP_EN,Wake-up Enable Bit\nNote: User can wake up system when there is a falling edge in the CAN_Rx pin" "0: The wake-up function Disabled,1: The wake-up function Enabled"
group.long 0x16C++0x03
line.long 0x00 "CAN_WU_STATUS,Wake-up Status Register"
bitfld.long 0x00 0. "WAKUP_STS,Wake-up Status \nNote: This bit can be cleared by writing '0' to it" "0: No wake-up event occurred,1: Wake-up event occurred"
tree.end
repeat.end
tree.end
tree "CCAP"
base ad:0x40030000
group.long 0x00++0x03
line.long 0x00 "CCAP_CTL,Camera Capture Interface Control Register"
bitfld.long 0x00 24. "VPRST,Capture Interface Reset" "0: Capture interface reset Disabled,1: Capture interface reset Enabled"
bitfld.long 0x00 20. "UPDATE,Update Register at New Frame" "0: Update register at new frame Disabled,1: Update register at new frame Enabled (auto.."
newline
bitfld.long 0x00 19. "Luma_Y_One,Color/Monochrome CMOS Sensor Luminance 8-bit Y to 1-bit Y Conversion\nNote: Color CMOS sensor U/V components are ignored when the Luma_Y_One is enabled" "0: Color/Monochrome CMOS sensor Luma-Y-One bit..,1: Color/Monochrome CMOS sensor Luma-Y-One bit.."
bitfld.long 0x00 18. "MY8_MY4,Monochrome CMOS Sensor Data I/O Interface" "0: Monochrome CMOS sensor is by the 4-bit data..,1: Monochrome CMOS sensor is by the 8-bit data.."
newline
bitfld.long 0x00 17. "MY4_SWAP,Monochrome CMOS Sensor 4-bit Data Nibble Swap" "0: The 4-bit data input sequence,1: The 4-bit data input sequence"
bitfld.long 0x00 16. "SHUTTER,Camera Capture Interface Automatically Disable the Capture Inteface After a Frame Had Been Captured" "0: Shutter Disabled,1: Shutter Enabled"
newline
bitfld.long 0x00 7. "MONO,Monochrome CMOS Sensor Select" "0: Color CMOS Sensor,1: Monochrome CMOS Sensor"
bitfld.long 0x00 6. "PKTEN,Packet Output Enable Bit" "0: Packet output Disabled,1: Packet output Enabled"
newline
bitfld.long 0x00 0. "CCAPEN,Camera Capture Interface Enable Bit" "0: Camera Capture Interface Disabled,1: Camera Capture Interface Enabled"
group.long 0x04++0x03
line.long 0x00 "CCAP_PAR,Camera Capture Interface Parameter Register"
bitfld.long 0x00 18. "FBB,Field by Blank (Only in Ccir-656 Mode)\nField by Blank means blanking pixel data(0x80108010) have to transfer to system memory or not" "0: Field by blank Disabled.(blank pixel data..,1: Field by blank Enabled"
bitfld.long 0x00 10. "VSP,Sensor Vsync Polarity" "0: Sync Low,1: Sync High"
newline
bitfld.long 0x00 9. "HSP,Sensor Hsync Polarity" "0: Sync Low,1: Sync High"
bitfld.long 0x00 8. "PCLKP,Sensor Pixel Clock Polarity" "0: Input video data and signals are latched by..,1: Input video data and signals are latched by.."
newline
bitfld.long 0x00 7. "PLNFMT,Planar Output YUV Format" "0: YUV422,1: YUV420"
bitfld.long 0x00 6. "RANGE,Scale Input YUV CCIR601 Color Range to Full Range" "0: Default,1: Scale to full range"
newline
bitfld.long 0x00 4.--5. "OUTFMT,Image Data Format Output to System Memory" "0: YCbCr422,1: Only output Y,2: RGB555,3: RGB565"
bitfld.long 0x00 2.--3. "INDATORD,Sensor Input Data Order\nSensor input data (Byte 1) is {B[4:0] G[5:3]}" "0: Sensor input data (Byte 0 1 2 3) is Y0 U0 Y1..,1: Sensor input data (Byte 0 1 2 3) is Y0 V0 Y1..,2: Sensor input data (Byte 0 1 2 3) is U0 Y0 V0..,3: Sensor input data (Byte 0 1 2 3) is V0 Y0 U0.."
newline
bitfld.long 0x00 1. "SENTYPE,Sensor Input Type" "0: CCIR601,1: CCIR656 Vsync Hsync embedded in the data signal"
bitfld.long 0x00 0. "INFMT,Sensor Input Data Format" "0: YCbCr422,1: RGB565"
group.long 0x08++0x03
line.long 0x00 "CCAP_INT,Camera Capture Interface Interrupt Register"
bitfld.long 0x00 19. "ADDRMIEN,Address Match Interrupt Enable Bit" "0: Address match interrupt Disabled,1: Address match interrupt Enabled"
bitfld.long 0x00 17. "MEIEN,Bus Master Transfer Error Interrupt Enable Bit" "0: Bus Master Transfer error interrupt Disabled,1: Bus Master Transfer error interrupt Enabled"
newline
bitfld.long 0x00 16. "VIEN,Video Frame End Interrupt Enable Bit" "0: Video frame end interrupt Disabled,1: Video frame end interrupt Enabled"
bitfld.long 0x00 3. "ADDRMINTF,Memory Address Match Interrupt\nNote: This bit is cleared by writing 1 to it" "0: Memory Address Match Interrupt did not occur,1: Memory Address Match Interrupt occurred"
newline
bitfld.long 0x00 1. "MEINTF,Bus Master Transfer Error Interrupt\nNote: This bit is cleared by writing 1 to it" "0: Transfer Error did not occur,1: Transfer Error occurred"
bitfld.long 0x00 0. "VINTF,Video Frame End Interrupt\nNote: This bit is cleared by writing 1 to it" "0: Did not receive a frame completely,1: Received a frame completely"
group.long 0x20++0x03
line.long 0x00 "CCAP_CWSP,Cropping Window Starting Address Register"
hexmask.long.word 0x00 16.--26. 1. "CWSADDRV,Cropping Window Vertical Starting Address\nSpecify the value of the cropping window vertical start address"
hexmask.long.word 0x00 0.--11. 1. "CWSADDRH,Cropping Window Horizontal Starting Address\nSpecify the value of the cropping window horizontal start address"
group.long 0x24++0x03
line.long 0x00 "CCAP_CWS,Cropping Window Size Register"
hexmask.long.word 0x00 16.--26. 1. "CWH,Cropping Window Height\nSpecify the size of the cropping window height"
hexmask.long.word 0x00 0.--11. 1. "CWW,Cropping Window Width\nSpecify the size of the cropping window width"
group.long 0x28++0x03
line.long 0x00 "CCAP_PKTSL,Packet Scaling Vertical/Horizontal Factor Register (LSB)"
hexmask.long.byte 0x00 24.--31. 1. "PKTSVNL,Packet Scaling Vertical Factor n (Lower 8-bit)\nSpecify the lower 8-bit of numerator part (N) of the vertical scaling factor"
hexmask.long.byte 0x00 16.--23. 1. "PKTSVML,Packet Scaling Vertical Factor m (Lower 8-bit)\nSpecify the lower 8-bit of denominator part (M) of the vertical scaling factor.\nThe lower 8-bit will be cascaded with higher 8-bit (PKDSVMH) to form a 16-bit denominator (M) of vertical.."
newline
hexmask.long.byte 0x00 8.--15. 1. "PKTSHNL,Packet Scaling Horizontal Factor n (Lower 8-bit)\nSpecify the lower 8-bit of numerator part (N) of the horizontal scaling factor.\nThe lower 8-bit will be cascaded with higher 8-bit (PKDSHNH) to form a 16-bit numerator of horizontal factor"
hexmask.long.byte 0x00 0.--7. 1. "PKTSHML,Packet Scaling Horizontal Factor m (Lower 8-bit)\nSpecify the lower 8-bit of denominator part (M) of the horizontal scaling factor.\nThe lower 8-bit will be cascaded with higher 8-bit (PKDSHMH) to form a 16-bit denominator (M) of vertical.."
group.long 0x30++0x03
line.long 0x00 "CCAP_FRCTL,Scaling Frame Rate Factor Register"
bitfld.long 0x00 8.--13. "FRN,Scaling Frame Rate Factor n\nSpecify the denominator part (N) of the frame rate scaling factor" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--5. "FRM,Scaling Frame Rate Factor M\nSpecify the denominator part (M) of the frame rate scaling factor.\nThe output image frame rate will be equal to input image frame rate * (N/M).\nNote: The value of N must be equal to or less than M" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x34++0x03
line.long 0x00 "CCAP_STRIDE,Frame Output Pixel Stride Width Register"
hexmask.long.word 0x00 0.--13. 1. "PKTSTRIDE,Packet Frame Output Pixel Stride Width\nThe output pixel stride size of the packet pipe.\nIt is a 32-pixel aligned stride width for the Luma-Y-One bit format or a 4-pixel aligned stride with for the Luma-Y-Eight bit format when color or.."
group.long 0x3C++0x03
line.long 0x00 "CCAP_FIFOTH,FIFO Threshold Register"
bitfld.long 0x00 31. "OVF,FIFO Overflow Flag\nIndicate the FIFO overflow flag" "0,1"
bitfld.long 0x00 24.--28. "PKTFTH,Packet FIFO Threshold\nSpecify the 5-bit value of the packet FIFO threshold" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x40++0x03
line.long 0x00 "CCAP_CMPADDR,Compare Memory Base Address Register"
hexmask.long 0x00 0.--31. 1. "CMPADDR,Compare Memory Base Address\nIt is a word alignment address that is the address is aligned by ignoring the 2 LSB bits [1:0]"
group.long 0x44++0x03
line.long 0x00 "CCAP_LUMA_Y1_THD,Luminance Y8 to Y1 Threshold Value Register"
hexmask.long.byte 0x00 0.--7. 1. "LUMA_Y1_THRESH,Luminance Y8 to Y1 Threshold Value\nSpecify the 8-bit threshold value for the luminance Y bit-8 to the luminance Y 1-bit conversion"
group.long 0x48++0x03
line.long 0x00 "CCAP_PKTSM,Packet Scaling Vertical/Horizontal Factor Register (MSB)"
hexmask.long.byte 0x00 24.--31. 1. "PKTSVNH,Packet Scaling Vertical Factor n (Higher 8-bit)\nSpecify the higher 8-bit of numerator part (N) of the vertical scaling factor"
hexmask.long.byte 0x00 16.--23. 1. "PKTSVMH,Packet Scaling Vertical Factor m (Higher 8-bit)\nSpecify the lower 8-bit of denominator part (M) of the vertical scaling factor.\nPlease refer to the register 'CCAP_PKTSL' to check the cooperation between these two registers"
newline
hexmask.long.byte 0x00 8.--15. 1. "PKTSHNH,Packet Scaling Horizontal Factor n (Higher 8-bit)\nSpecify the lower 8-bit of numerator part (N) of the horizontal scaling factor.\nPlease refer to the register 'CCAP_PKTSL' for the detailed operation"
hexmask.long.byte 0x00 0.--7. 1. "PKTSHMH,Packet Scaling Horizontal Factor m (Higher 8-bit)\nSpecify the lower 8-bit of denominator part (M) of the horizontal scaling factor.\nPlease refer to the register 'CCAP_PKTSL' for the detailed operation"
rgroup.long 0x50++0x03
line.long 0x00 "CCAP_CURADDRP,Current Packet System Memory Address Register"
hexmask.long 0x00 0.--31. 1. "CURADDR,Current Packet Output Memory Address\nSpeficy the 32-bit value of the current packet output memory address"
group.long 0x60++0x03
line.long 0x00 "CCAP_PKTBA0,System Memory Packet Base Address 0 Register"
hexmask.long 0x00 0.--31. 1. "BASEADDR,System Memory Packet Base Address 0\nIt is a word alignment address that is the address is aligned by ignoring the 2 LSB bits [1:0]"
tree.end
tree "CLK"
base ad:0x40000200
group.long 0x00++0x03
line.long 0x00 "CLK_PWRCTL,System Power-down Control Register"
bitfld.long 0x00 18. "HIRC48MEN,HIRC48M Enable Bit (Write Protect)\nNote: This bit is write protected" "0: 48 MHz internal high speed RC oscillator..,1: 48 MHz internal high speed RC oscillator.."
bitfld.long 0x00 16.--17. "HIRCSTBS,HIRC Stable Count Select (Write Protect )\nOthers: Reserved\nNote: This bit is write protected" "0: HIRC stable count = 64 clocks,1: HIRC stable count = 24 clocks,?..."
newline
bitfld.long 0x00 13. "HXTTBEN,HXT Crystal TURBO Mode (Write Protect)\nThis is a protected register" "0: HXT Crystal TURBO mode Disabled,1: HXT Crystal TURBO mode Enabled"
bitfld.long 0x00 12. "HXTSELTYP,HXT Crystal Type Select Bit (Write Protect)\nThis is a protected register" "0: Select INV type,1: Select GM type"
newline
bitfld.long 0x00 10.--11. "HXTGAIN,HXT Gain Control Bit (Write Protect)\nThis is a protected register" "0: HXT frequency is lower than from 8 MHz,1: HXT frequency is from 8 MHz to 12 MHz,2: HXT frequency is from 12 MHz to 16 MHz,3: HXT frequency is higher than 16 MHz"
bitfld.long 0x00 7. "PDEN,System Power-down Enable (Write Protect)\nWhen this bit is set to 1 Power-down mode is enabled and chip keeps active till the CPU sleep mode is also active and then the chip enters Power-down mode.\nWhen chip wakes up from Power-down mode this bit.." "0: Chip will not enter Power-down mode after CPU..,1: Chip enters Power-down mode after CPU sleep.."
newline
bitfld.long 0x00 6. "PDWKIF,Power-down Mode Wake-up Interrupt Status\nSet by 'Power-down wake-up event' it indicates that resume from Power-down mode' \nThe flag is set if any wake-up source is occurred" "0,1"
bitfld.long 0x00 5. "PDWKIEN,Power-down Mode Wake-up Interrupt Enable Bit (Write Protect)\nNote1: The interrupt will occur when both PDWKIF and PDWKIEN are high.\nNote2: This bit is write protected" "0: Power-down mode wake-up interrupt Disabled,1: Power-down mode wake-up interrupt Enabled"
newline
bitfld.long 0x00 4. "PDWKDLY,Enable the Wake-up Delay Counter (Write Protect)\nWhen the chip wakes up from Power-down mode the clock control will delay certain clock cycles to wait system clock stable.\nThe delayed clock cycle is 4096 clock cycles when chip works at 4~24.." "0: Clock cycles delay Disabled,1: Clock cycles delay Enabled"
bitfld.long 0x00 3. "LIRCEN,LIRC Enable Bit (Write Protect)\nNote: This bit is write protected" "0: 10 kHz internal low speed RC oscillator..,1: 10 kHz internal low speed RC oscillator.."
newline
bitfld.long 0x00 2. "HIRCEN,HIRC Enable Bit (Write Protect)\nNote:1.This bit is write protected" "0: 12 MHz internal high speed RC oscillator..,1: 12 MHz internal high speed RC oscillator.."
bitfld.long 0x00 1. "LXTEN,LXT Enable Bit (Write Protect)\nNote: 1" "0: 32.768 kHz external low speed crystal (LXT)..,1: 32.768 kHz external low speed crystal (LXT).."
newline
bitfld.long 0x00 0. "HXTEN,HXT Enable Bit (Write Protect)\nThe bit default value is set by Flash controller user configuration register CONFIG0 [26:24]" "0: 4~24 MHz external high speed crystal (HXT)..,1: 4~24 MHz external high speed crystal (HXT).."
group.long 0x04++0x03
line.long 0x00 "CLK_AHBCLK,AHB Devices Clock Enable Control Register"
bitfld.long 0x00 17. "SDH1CKEN,SD1 Controller Clock Enable Bit" "0: SD1 engine clock Disabled,1: SD1 engine clock Enabled"
bitfld.long 0x00 16. "USBHCKEN,USB HOST Controller Clock Enable Bit" "0: USB HOST peripheral clock Disabled,1: USB HOST peripheral clock Enabled"
newline
bitfld.long 0x00 15. "FMCIDLE,Flash Memory Controller Clock Enable Bit in IDLE Mode" "0: FMC clock Disabled when chip is under IDLE mode,1: FMC clock Enabled when chip is under IDLE mode"
bitfld.long 0x00 14. "SPIMCKEN,SPIM Controller Clock Enable Bit" "0: SPIM controller clock Disabled,1: SPIM controller clock Enabled"
newline
bitfld.long 0x00 12. "CRPTCKEN,Cryptographic Accelerator Clock Enable Bit" "0: Cryptographic Accelerator clock Disabled,1: Cryptographic Accelerator clock Enabled"
bitfld.long 0x00 10. "HSUSBDCKEN,HSUSB Device Clock Enable Bit" "0: HSUSB device controller's clock Disabled,1: HSUSB device controller's clock Enabled"
newline
bitfld.long 0x00 9. "SENCKEN,Sensor Clock Enable Control" "0: CCAP Sensor clock Disabled,1: CCAP Sensor clock Enabled"
bitfld.long 0x00 8. "CCAPCKEN,Camera Capture Interface Controller Clock Enable Control" "0: CCAP controller's clock Disabled,1: CCAP controller's clock Enabled"
newline
bitfld.long 0x00 7. "CRCCKEN,CRC Generator Controller Clock Enable Bit" "0: CRC peripheral clock Disabled,1: CRC peripheral clock Enabled"
bitfld.long 0x00 6. "SDH0CKEN,SD0 Controller Clock Enable Bit" "0: SD0 engine clock Disabled,1: SD0 engine clock Enabled"
newline
bitfld.long 0x00 5. "EMACCKEN,Ethernet Controller Clock Enable Bit" "0: Ethernet Controller engine clock Disabled,1: Ethernet Controller engine clock Enabled"
bitfld.long 0x00 3. "EBICKEN,EBI Controller Clock Enable Bit" "0: EBI peripheral clock Disabled,1: EBI peripheral clock Enabled"
newline
bitfld.long 0x00 2. "ISPCKEN,Flash ISP Controller Clock Enable Bit" "0: Flash ISP peripheral clock Disabled,1: Flash ISP peripheral clock Enabled"
bitfld.long 0x00 1. "PDMACKEN,PDMA Controller Clock Enable Bit" "0: PDMA peripheral clock Disabled,1: PDMA peripheral clock Enabled"
group.long 0x08++0x03
line.long 0x00 "CLK_APBCLK0,APB Devices Clock Enable Control Register 0"
bitfld.long 0x00 30. "HSOTGCKEN,HSUSB OTG Clock Enable Bit" "0: HSUSB OTG clock Disabled,1: HSUSB OTG clock Enabled"
bitfld.long 0x00 29. "I2S0CKEN,I2S0 Clock Enable Bit" "0: I2S0 clock Disabled,1: I2S0 clock Enabled"
newline
bitfld.long 0x00 28. "EADCCKEN,Enhanced Analog-digital-converter (EADC) Clock Enable Bit" "0: EADC clock Disabled,1: EADC clock Enabled"
bitfld.long 0x00 27. "USBDCKEN,USB Device Clock Enable Bit" "0: USB device clock Disabled,1: USB device clock Enabled"
newline
bitfld.long 0x00 26. "OTGCKEN,USB OTG Clock Enable Bit" "0: USB OTG clock Disabled,1: USB OTG clock Enabled"
bitfld.long 0x00 25. "CAN1CKEN,CAN1 Clock Enable Bit" "0: CAN1 clock Disabled,1: CAN1 clock Enabled"
newline
bitfld.long 0x00 24. "CAN0CKEN,CAN0 Clock Enable Bit" "0: CAN0 clock Disabled,1: CAN0 clock Enabled"
bitfld.long 0x00 23. "UART7CKEN,UART7 Clock Enable Bit" "0: UART7 clock Disabled,1: UART7 clock Enabled"
newline
bitfld.long 0x00 22. "UART6CKEN,UART6 Clock Enable Bit" "0: UART6 clock Disabled,1: UART6 clock Enabled"
bitfld.long 0x00 21. "UART5CKEN,UART5 Clock Enable Bit" "0: UART5 clock Disabled,1: UART5 clock Enabled"
newline
bitfld.long 0x00 20. "UART4CKEN,UART4 Clock Enable Bit" "0: UART4 clock Disabled,1: UART4 clock Enabled"
bitfld.long 0x00 19. "UART3CKEN,UART3 Clock Enable Bit" "0: UART3 clock Disabled,1: UART3 clock Enabled"
newline
bitfld.long 0x00 18. "UART2CKEN,UART2 Clock Enable Bit" "0: UART2 clock Disabled,1: UART2 clock Enabled"
bitfld.long 0x00 17. "UART1CKEN,UART1 Clock Enable Bit" "0: UART1 clock Disabled,1: UART1 clock Enabled"
newline
bitfld.long 0x00 16. "UART0CKEN,UART0 Clock Enable Bit" "0: UART0 clock Disabled,1: UART0 clock Enabled"
bitfld.long 0x00 15. "SPI2CKEN,SPI2 Clock Enable Bit" "0: SPI2 clock Disabled,1: SPI2 clock Enabled"
newline
bitfld.long 0x00 14. "SPI1CKEN,SPI1 Clock Enable Bit" "0: SPI1 clock Disabled,1: SPI1 clock Enabled"
bitfld.long 0x00 13. "SPI0CKEN,SPI0 Clock Enable Bit" "0: SPI0 clock Disabled,1: SPI0 clock Enabled"
newline
bitfld.long 0x00 12. "QSPI0CKEN,QSPI0 Clock Enable Bit" "0: QSPI0 clock Disabled,1: QSPI0 clock Enabled"
bitfld.long 0x00 10. "I2C2CKEN,I2C2 Clock Enable Bit" "0: I2C2 clock Disabled,1: I2C2 clock Enabled"
newline
bitfld.long 0x00 9. "I2C1CKEN,I2C1 Clock Enable Bit" "0: I2C1 clock Disabled,1: I2C1 clock Enabled"
bitfld.long 0x00 8. "I2C0CKEN,I2C0 Clock Enable Bit" "0: I2C0 clock Disabled,1: I2C0 clock Enabled"
newline
bitfld.long 0x00 7. "ACMP01CKEN,Analog Comparator 0/1 Clock Enable Bit" "0: Analog comparator 0/1 clock Disabled,1: Analog comparator 0/1 clock Enabled"
bitfld.long 0x00 6. "CLKOCKEN,CLKO Clock Enable Bit" "0: CLKO clock Disabled,1: CLKO clock Enabled"
newline
bitfld.long 0x00 5. "TMR3CKEN,Timer3 Clock Enable Bit" "0: Timer3 clock Disabled,1: Timer3 clock Enabled"
bitfld.long 0x00 4. "TMR2CKEN,Timer2 Clock Enable Bit" "0: Timer2 clock Disabled,1: Timer2 clock Enabled"
newline
bitfld.long 0x00 3. "TMR1CKEN,Timer1 Clock Enable Bit" "0: Timer1 clock Disabled,1: Timer1 clock Enabled"
bitfld.long 0x00 2. "TMR0CKEN,Timer0 Clock Enable Bit" "0: Timer0 clock Disabled,1: Timer0 clock Enabled"
newline
bitfld.long 0x00 1. "RTCCKEN,Real-time-clock APB Interface Clock Enable Bit\nThis bit is used to control the RTC APB clock only" "0: RTC clock Disabled,1: RTC clock Enabled"
bitfld.long 0x00 0. "WDTCKEN,Watchdog Timer Clock Enable Bit (Write Protect)\nNote: This bit is write protected" "0: Watchdog timer clock Disabled,1: Watchdog timer clock Enabled"
group.long 0x0C++0x03
line.long 0x00 "CLK_APBCLK1,APB Devices Clock Enable Control Register 1"
bitfld.long 0x00 31. "EADC1CKEN,Enhanced Analog-digital-converter 1 (EADC1) Clock Enable Bit" "0: EADC1 clock Disabled,1: EADC1 clock Enabled"
bitfld.long 0x00 30. "OPACKEN,OP Amplifier (OPA) Clock Enable Bit" "0: OPA clock Disabled,1: OPA clock Enabled"
newline
bitfld.long 0x00 28. "CAN2CKEN,CAN2 Clock Enable Bit" "0: CAN2 clock Disabled,1: CAN2 clock Enabled"
bitfld.long 0x00 27. "ECAP1CKEN,ECAP1 Clock Enable Bit" "0: ECAP1 clock Disabled,1: ECAP1 clock Enabled"
newline
bitfld.long 0x00 26. "ECAP0CKEN,ECAP0 Clock Enable Bit" "0: ECAP0 clock Disabled,1: ECAP0 clock Enabled"
bitfld.long 0x00 25. "TRNGCKEN,TRNG Clock Enable Bit" "0: TRNG clock Disabled,1: TRNG clock Enabled"
newline
bitfld.long 0x00 23. "QEI1CKEN,QEI1 Clock Enable Bit" "0: QEI1 clock Disabled,1: QEI1 clock Enabled"
bitfld.long 0x00 22. "QEI0CKEN,QEI0 Clock Enable Bit" "0: QEI0 clock Disabled,1: QEI0 clock Enabled"
newline
bitfld.long 0x00 19. "BPWM1CKEN,BPWM1 Clock Enable Bit" "0: BPWM1 clock Disabled,1: BPWM1 clock Enabled"
bitfld.long 0x00 18. "BPWM0CKEN,BPWM0 Clock Enable Bit" "0: BPWM0 clock Disabled,1: BPWM0 clock Enabled"
newline
bitfld.long 0x00 17. "EPWM1CKEN,EPWM1 Clock Enable Bit" "0: EPWM1 clock Disabled,1: EPWM1 clock Enabled"
bitfld.long 0x00 16. "EPWM0CKEN,EPWM0 Clock Enable Bit" "0: EPWM0 clock Disabled,1: EPWM0 clock Enabled"
newline
bitfld.long 0x00 12. "DACCKEN,DAC Clock Enable Bit" "0: DAC clock Disabled,1: DAC clock Enabled"
bitfld.long 0x00 9. "USCI1CKEN,USCI1 Clock Enable Bit" "0: USCI1 clock Disabled,1: USCI1 clock Enabled"
newline
bitfld.long 0x00 8. "USCI0CKEN,USCI0 Clock Enable Bit" "0: USCI0 clock Disabled,1: USCI0 clock Enabled"
bitfld.long 0x00 6. "SPI3CKEN,SPI3 Clock Enable Bit" "0: SPI3 clock Disabled,1: SPI3 clock Enabled"
newline
bitfld.long 0x00 4. "QSPI1CKEN,QSPI1 Clock Enable Bit" "0: QSPI1 clock Disabled,1: QSPI1 clock Enabled"
bitfld.long 0x00 2. "SC2CKEN,SC2 Clock Enable Bit" "0: SC2 clock Disabled,1: SC2 clock Enabled"
newline
bitfld.long 0x00 1. "SC1CKEN,SC1 Clock Enable Bit" "0: SC1 clock Disabled,1: SC1 clock Enabled"
bitfld.long 0x00 0. "SC0CKEN,SC0 Clock Enable Bit" "0: SC0 clock Disabled,1: SC0 clock Enabled"
group.long 0x10++0x03
line.long 0x00 "CLK_CLKSEL0,Clock Source Select Control Register 0"
bitfld.long 0x00 22.--23. "SDH1SEL,SD1 Engine Clock Source Selection (Write Protect)" "0: Clock source from HXT clock,1: Clock source from PLL clock,2: Clock source from HCLK,3: Clock source from HIRC clock"
bitfld.long 0x00 20.--21. "SDH0SEL,SD0 Engine Clock Source Selection (Write Protect)" "0: Clock source from HXT clock,1: Clock source from PLL clock,2: Clock source from HCLK,3: Clock source from HIRC clock"
newline
bitfld.long 0x00 16.--17. "CCAPSEL,CCAP Engine Clock Source Selection (Write Protect)" "0: Clock source from HXT clock,1: Clock source from PLL clock,2: Clock source from HCLK,3: Clock source from HIRC clock"
bitfld.long 0x00 8. "USBSEL,USB Clock Source Selection (Write Protect)" "0: Clock source from HIRC48M,1: Clock source from PLL"
newline
bitfld.long 0x00 3.--5. "STCLKSEL,Cortex-M4F SysTick Clock Source Selection (Write Protect)\nNote2: This bit is write protected" "0: Clock source from HXT,1: Clock source from LXT,2: Clock source from HXT/2,3: Clock source from HCLK/2,?,?,?,7: Clock source from HIRC/2"
bitfld.long 0x00 0.--2. "HCLKSEL,HCLK Clock Source Selection (Write Protect)\nBefore clock switching the related clock sources (both pre-select and new-select) must be turned on.\nNote: This bit is write protected" "0: Clock source from HXT,1: Clock source from LXT,2: Clock source from PLL,3: Clock source from LIRC,?,?,?,7: Clock source from HIRC"
group.long 0x14++0x03
line.long 0x00 "CLK_CLKSEL1,Clock Source Select Control Register 1"
bitfld.long 0x00 30.--31. "WWDTSEL,Window Watchdog Timer Clock Source Selection" "?,?,2: Clock source from HCLK/2048,3: Clock source from 10 kHz internal low speed.."
bitfld.long 0x00 28.--29. "CLKOSEL,Clock Divider Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from 32.768 kHz external low..,2: Clock source from HCLK,3: Clock source from 12 MHz internal high speed.."
newline
bitfld.long 0x00 26.--27. "UART1SEL,UART1 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from 32.768 kHz external low..,3: Clock source from 12 MHz internal high speed.."
bitfld.long 0x00 24.--25. "UART0SEL,UART0 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from 32.768 kHz external low..,3: Clock source from 12 MHz internal high speed.."
newline
bitfld.long 0x00 20.--22. "TMR3SEL,TIMER3 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from 32.768 kHz external low..,2: Clock source from PCLK1,3: Clock source from external clock TM3 pin,?,5: Clock source from 10 kHz internal low speed..,?,7: Clock source from 12 MHz internal high speed.."
bitfld.long 0x00 16.--18. "TMR2SEL,TIMER2 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from 32.768 kHz external low..,2: Clock source from PCLK1,3: Clock source from external clock TM2 pin,?,5: Clock source from 10 kHz internal low speed..,?,7: Clock source from 12 MHz internal high speed.."
newline
bitfld.long 0x00 12.--14. "TMR1SEL,TIMER1 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from 32.768 kHz external low..,2: Clock source from PCLK0,3: Clock source from external clock TM1 pin,?,5: Clock source from 10 kHz internal low speed..,?,7: Clock source from 12 MHz internal high speed.."
bitfld.long 0x00 8.--10. "TMR0SEL,TIMER0 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from 32.768 kHz external low..,2: Clock source from PCLK0,3: Clock source from external clock TM0 pin,?,5: Clock source from 10 kHz internal low speed..,?,7: Clock source from 12 MHz internal high speed.."
newline
bitfld.long 0x00 0.--1. "WDTSEL,Watchdog Timer Clock Source Selection (Write Protect)\nNote: This bit is write protected" "0: Reserved,1: Clock source from 32.768 kHz external low..,2: Clock source from HCLK/2048,3: Clock source from 10 kHz internal low speed.."
group.long 0x18++0x03
line.long 0x00 "CLK_CLKSEL2,Clock Source Select Control Register 2"
bitfld.long 0x00 12.--13. "SPI3SEL,SPI3 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from PCLK0,3: Clock source from 12 MHz internal high speed.."
bitfld.long 0x00 10.--11. "SPI2SEL,SPI2 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from PCLK1,3: Clock source from 12 MHz internal high speed.."
newline
bitfld.long 0x00 9. "BPWM1SEL,BPWM1 Clock Source Selection\nThe peripheral clock source of BPWM1 is defined by BPWM1SEL" "0: Clock source from PLL,1: Clock source from PCLK1"
bitfld.long 0x00 8. "BPWM0SEL,BPWM0 Clock Source Selection\nThe peripheral clock source of BPWM0 is defined by BPWM0SEL" "0: Clock source from PLL,1: Clock source from PCLK0"
newline
bitfld.long 0x00 6.--7. "SPI1SEL,SPI1 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from PCLK0,3: Clock source from 12 MHz internal high speed.."
bitfld.long 0x00 4.--5. "SPI0SEL,SPI0 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from PCLK1,3: Clock source from 12 MHz internal high speed.."
newline
bitfld.long 0x00 2.--3. "QSPI0SEL,QSPI0 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from PCLK0,3: Clock source from 12 MHz internal high speed.."
bitfld.long 0x00 1. "EPWM1SEL,EPWM1 Clock Source Selection\nThe peripheral clock source of EPWM1 is defined by EPWM1SEL" "0: Clock source from PLL,1: Clock source from PCLK1"
newline
bitfld.long 0x00 0. "EPWM0SEL,EPWM0 Clock Source Selection\nThe peripheral clock source of EPWM0 is defined by EPWM0SEL" "0: Clock source from PLL,1: Clock source from PCLK0"
group.long 0x1C++0x03
line.long 0x00 "CLK_CLKSEL3,Clock Source Select Control Register 3"
bitfld.long 0x00 30.--31. "UART5SEL,UART5 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from 32.768 kHz external low..,3: Clock source from 12 MHz internal high speed.."
bitfld.long 0x00 28.--29. "UART4SEL,UART4 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from 32.768 kHz external low..,3: Clock source from 12 MHz internal high speed.."
newline
bitfld.long 0x00 26.--27. "UART3SEL,UART3 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from 32.768 kHz external low..,3: Clock source from 12 MHz internal high speed.."
bitfld.long 0x00 24.--25. "UART2SEL,UART2 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from 32.768 kHz external low..,3: Clock source from 12 MHz internal high speed.."
newline
bitfld.long 0x00 22.--23. "UART7SEL,UART7 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from 32.768 kHz external low..,3: Clock source from 12 MHz internal high speed.."
bitfld.long 0x00 20.--21. "UART6SEL,UART6 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from 32.768 kHz external low..,3: Clock source from 12 MHz internal high speed.."
newline
bitfld.long 0x00 16.--17. "I2S0SEL,I2S0 Clock Source Selection" "0: Clock source from HXT clock,1: Clock source from PLL clock,2: Clock source from PCLK0,3: Clock source from HIRC clock"
bitfld.long 0x00 12.--13. "QSPI1SEL,QSPI1 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from PCLK1,3: Clock source from 12 MHz internal high speed.."
newline
bitfld.long 0x00 8. "RTCSEL,RTC Clock Source Selection" "0: Clock source from 32.768 kHz external low..,1: Clock source from 10 kHz internal low speed.."
bitfld.long 0x00 4.--5. "SC2SEL,SC2 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from PCLK0,3: Clock source from 12 MHz internal high speed.."
newline
bitfld.long 0x00 2.--3. "SC1SEL,SC0 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from PCLK1,3: Clock source from 12 MHz internal high speed.."
bitfld.long 0x00 0.--1. "SC0SEL,SC0 Clock Source Selection" "0: Clock source from 4~24 MHz external high..,1: Clock source from PLL,2: Clock source from PCLK0,3: Clock source from 12 MHz internal high speed.."
group.long 0x20++0x03
line.long 0x00 "CLK_CLKDIV0,Clock Divider Number Register 0"
hexmask.long.byte 0x00 24.--31. 1. "SDH0DIV,SD0 Clock Divide Number From SD0 Clock Source"
hexmask.long.byte 0x00 16.--23. 1. "EADCDIV,EADC Clock Divide Number From EADC Clock Source"
newline
bitfld.long 0x00 12.--15. "UART1DIV,UART1 Clock Divide Number From UART1 Clock Source" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "UART0DIV,UART0 Clock Divide Number From UART0 Clock Source" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "USBDIV,USB Clock Divide Number From PLL Clock" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "HCLKDIV,HCLK Clock Divide Number From HCLK Clock Source\nNote: If HCLK clock source frequency is PLL HCLKDIV should not be 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x24++0x03
line.long 0x00 "CLK_CLKDIV1,Clock Divider Number Register 1"
hexmask.long.byte 0x00 16.--23. 1. "SC2DIV,SC2 Clock Divide Number From SC2 Clock Source"
hexmask.long.byte 0x00 8.--15. 1. "SC1DIV,SC1 Clock Divide Number From SC1 Clock Source"
newline
hexmask.long.byte 0x00 0.--7. 1. "SC0DIV,SC0 Clock Divide Number From SC0 Clock Source"
group.long 0x28++0x03
line.long 0x00 "CLK_CLKDIV2,Clock Divider Number Register 2"
hexmask.long.byte 0x00 24.--31. 1. "EADC1DIV,EADC1 Clock Divide Number From EADC Clock Source"
bitfld.long 0x00 0.--3. "I2S0DIV,I2S0 Clock Divide Number From I2S0 Clock Source" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x2C++0x03
line.long 0x00 "CLK_CLKDIV3,Clock Divider Number Register 3"
hexmask.long.byte 0x00 24.--31. 1. "SDH1DIV,SD1 Clock Divide Number From SD1 Clock Source"
hexmask.long.byte 0x00 16.--23. 1. "EMACDIV,Ethernet Clock Divide Number Form HCLK"
newline
hexmask.long.byte 0x00 8.--15. 1. "VSENSEDIV,Video Pixel Clock Divide Number From CCAP Clock Source"
hexmask.long.byte 0x00 0.--7. 1. "CCAPDIV,Camera Capture Sensor Clock Divide Number From CCAP Clock Source"
group.long 0x30++0x03
line.long 0x00 "CLK_CLKDIV4,Clock Divider Number Register 4"
bitfld.long 0x00 20.--23. "UART7DIV,UART7 Clock Divide Number From UART7 Clock Source" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "UART6DIV,UART6 Clock Divide Number From UART6 Clock Source" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "UART5DIV,UART5 Clock Divide Number From UART5 Clock Source" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "UART4DIV,UART4 Clock Divide Number From UART4 Clock Source" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "UART3DIV,UART3 Clock Divide Number From UART3 Clock Source" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "UART2DIV,UART2 Clock Divide Number From UART2 Clock Source" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34++0x03
line.long 0x00 "CLK_PCLKDIV,APB Clock Divider Register"
bitfld.long 0x00 4.--6. "APB1DIV,APB1 Clock Divider\nAPB1 clock can be divided from HCLK\nOthers: Reserved.\nNote: PCLK must be less than 96 MHz" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "APB0DIV,APB0 Clock Divider\nAPB0 clock can be divided from HCLK\nOthers: Reserved.\nNote: PCLK must be less than 96 MHz" "0,1,2,3,4,5,6,7"
group.long 0x40++0x03
line.long 0x00 "CLK_PLLCTL,PLL Control Register"
bitfld.long 0x00 23. "STBSEL,PLL Stable Counter Selection (Write Protect)\nNote: This bit is write protected" "0: PLL stable time is 1200 PLL source clock..,1: PLL stable time is 2400 PLL source clock.."
bitfld.long 0x00 19. "PLLSRC,PLL Source Clock Selection (Write Protect)\nNote: This bit is write protected" "0: PLL source clock from 4~24 MHz external..,1: PLL source clock from 12 MHz internal.."
newline
bitfld.long 0x00 18. "OE,PLL OE (FOUT Enable) Pin Control (Write Protect)\n" "0: PLL FOUT Enabled,1: PLL FOUT is fixed low"
bitfld.long 0x00 17. "BP,PLL Bypass Control (Write Protect)\nNote: This bit is write protected" "0: PLL is in normal mode (default),1: PLL clock output is same as PLL input clock FIN"
newline
bitfld.long 0x00 16. "PD,Power-down Mode (Write Protect)\nIf set the PDEN bit to 1 in CLK_PWRCTL register the PLL will enter Power-down mode too.\nNote: This bit is write protected" "0: PLL is in normal mode,1: PLL is in Power-down mode (default)"
bitfld.long 0x00 14.--15. "OUTDIV,PLL Output Divider Control (Write Protect)\nRefer to the formulas below the table.\nNote: This bit is write protected" "0,1,2,3"
newline
bitfld.long 0x00 9.--13. "INDIV,PLL Input Divider Control (Write Protect)\nRefer to the formulas below the table.\nNote: This bit is write protected" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.word 0x00 0.--8. 1. "FBDIV,PLL Feedback Divider Control (Write Protect)\nRefer to the formulas below the table.\nNote: This bit is write protected"
rgroup.long 0x50++0x03
line.long 0x00 "CLK_STATUS,Clock Status Monitor Register"
bitfld.long 0x00 7. "CLKSFAIL,Clock Switching Fail Flag (Read Only) \nThis bit is updated when software switches system clock source" "0: Clock switching success,1: Clock switching failure"
bitfld.long 0x00 6. "HIRC48MSTB,HIRC48M Clock Source Stable Flag (Read Only)" "0: 48 MHz internal high speed RC oscillator..,1: 48 MHz internal high speed RC oscillator.."
newline
bitfld.long 0x00 4. "HIRCSTB,HIRC Clock Source Stable Flag (Read Only)" "0: 12 MHz internal high speed RC oscillator..,1: 12 MHz internal high speed RC oscillator.."
bitfld.long 0x00 3. "LIRCSTB,LIRC Clock Source Stable Flag (Read Only)" "0: 10 kHz internal low speed RC oscillator..,1: 10 kHz internal low speed RC oscillator.."
newline
bitfld.long 0x00 2. "PLLSTB,Internal PLL Clock Source Stable Flag (Read Only)" "0: Internal PLL clock is not stable or disabled,1: Internal PLL clock is stable and enabled"
bitfld.long 0x00 1. "LXTSTB,LXT Clock Source Stable Flag (Read Only)" "0: 32.768 kHz external low speed crystal..,1: 32.768 kHz external low speed crystal.."
newline
bitfld.long 0x00 0. "HXTSTB,HXT Clock Source Stable Flag (Read Only)" "0: 4~24 MHz external high speed crystal..,1: 4~24 MHz external high speed crystal.."
group.long 0x60++0x03
line.long 0x00 "CLK_CLKOCTL,Clock Output Control Register"
bitfld.long 0x00 6. "CLK1HZEN,Clock Output 1Hz Enable Bit" "0: 1 Hz clock output for 32.768 kHz frequency..,1: 1 Hz clock output for 32.768 kHz frequency.."
bitfld.long 0x00 5. "DIV1EN,Clock Output Divide One Enable Bit" "0: Clock Output will output clock with source..,1: Clock Output will output clock with source.."
newline
bitfld.long 0x00 4. "CLKOEN,Clock Output Enable Bit" "0: Clock Output function Disabled,1: Clock Output function Enabled"
bitfld.long 0x00 0.--3. "FREQSEL,Clock Output Frequency Selection\nThe formula of output frequency is\nFin is the input clock frequency.\nFout is the frequency of divider output clock.\nN is the 4-bit value of FREQSEL[3:0]" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x70++0x03
line.long 0x00 "CLK_CLKDCTL,Clock Fail Detector Control Register"
bitfld.long 0x00 17. "HXTFQIEN,HXT Clock Frequency Range Detector Interrupt Enable Bit" "0: 4~24 MHz external high speed crystal..,1: 4~24 MHz external high speed crystal.."
bitfld.long 0x00 16. "HXTFQDEN,HXT Clock Frequency Range Detector Enable Bit" "0: 4~24 MHz external high speed crystal..,1: 4~24 MHz external high speed crystal.."
newline
bitfld.long 0x00 13. "LXTFIEN,LXT Clock Fail Interrupt Enable Bit" "0: 32.768 kHz external low speed crystal..,1: 32.768 kHz external low speed crystal.."
bitfld.long 0x00 12. "LXTFDEN,LXT Clock Fail Detector Enable Bit" "0: 32.768 kHz external low speed crystal..,1: 32.768 kHz external low speed crystal.."
newline
bitfld.long 0x00 5. "HXTFIEN,HXT Clock Fail Interrupt Enable Bit" "0: 4~24 MHz external high speed crystal..,1: 4~24 MHz external high speed crystal.."
bitfld.long 0x00 4. "HXTFDEN,HXT Clock Fail Detector Enable Bit" "0: 4~24 MHz external high speed crystal..,1: 4~24 MHz external high speed crystal.."
group.long 0x74++0x03
line.long 0x00 "CLK_CLKDSTS,Clock Fail Detector Status Register"
bitfld.long 0x00 8. "HXTFQIF,HXT Clock Frequency Range Detector Interrupt Flag\nNote: Write 1 to clear the bit to 0" "0: 4~24 MHz external high speed crystal..,1: 4~24 MHz external high speed crystal.."
bitfld.long 0x00 1. "LXTFIF,LXT Clock Fail Interrupt Flag\nNote: Write 1 to clear the bit to 0" "0: 32.768 kHz external low speed crystal..,1: 32.768 kHz external low speed crystal.."
newline
bitfld.long 0x00 0. "HXTFIF,HXT Clock Fail Interrupt Flag\nNote: Write 1 to clear the bit to 0" "0: 4~24 MHz external high speed crystal..,1: 4~24 MHz external high speed crystal.."
group.long 0x78++0x03
line.long 0x00 "CLK_CDUPB,Clock Frequency Range Detector Upper Boundary Register"
hexmask.long.word 0x00 0.--9. 1. "UPERBD,HXT Clock Frequency Range Detector Upper Boundary Value\nThe bits define the maximum value of frequency range detector window.\nWhen HXT frequency higher than this maximum frequency value the HXT Clock Frequency Range Detector Interrupt Flag will.."
group.long 0x7C++0x03
line.long 0x00 "CLK_CDLOWB,Clock Frequency Range Detector Lower Boundary Register"
hexmask.long.word 0x00 0.--9. 1. "LOWERBD,HXT Clock Frequency Range Detector Lower Boundary Value\nThe bits define the minimum value of frequency range detector window.\nWhen HXT frequency lower than this minimum frequency value the HXT Clock Frequency Range Detector Interrupt Flag will.."
group.long 0x90++0x03
line.long 0x00 "CLK_PMUCTL,Power Manager Control Register"
bitfld.long 0x00 30.--31. "WKPINEN4,Wake-up Pin4 Enable Bit (Write Protect)\nThis is a protected bit" "0: Wake-up pin disable at Deep Power-down mode,1: Wake-up pin rising edge enabled at Deep..,2: Wake-up pin falling edge enabled at Deep..,3: Wake-up pin both edge enabled at Deep.."
bitfld.long 0x00 28.--29. "WKPINEN3,Wake-up Pin3 Enable Bit (Write Protect)\nThis is a protected bit" "0: Wake-up pin disable at Deep Power-down mode,1: Wake-up pin rising edge enabled at Deep..,2: Wake-up pin falling edge enabled at Deep..,3: Wake-up pin both edge enabled at Deep.."
newline
bitfld.long 0x00 26.--27. "WKPINEN2,Wake-up Pin2 Enable Bit (Write Protect)\nThis is a protected bit" "0: Wake-up pin disable at Deep Power-down mode,1: Wake-up pin rising edge enabled at Deep..,2: Wake-up pin falling edge enabled at Deep..,3: Wake-up pin both edge enabled at Deep.."
bitfld.long 0x00 24.--25. "WKPINEN1,Wake-up Pin1 Enable Bit (Write Protect)\nThis is a protected bit" "0: Wake-up pin disable at Deep Power-down mode,1: Wake-up pin rising edge enabled at Deep..,2: Wake-up pin falling edge enabled at Deep..,3: Wake-up pin both edge enabled at Deep.."
newline
bitfld.long 0x00 23. "RTCWKEN,RTC Wake-up Enable Bit (Write Protect)\nThis is a protected bit" "0: RTC wake-up disable at Deep Power-down mode..,1: RTC wake-up enabled at Deep Power-down mode.."
bitfld.long 0x00 18. "ACMPSPWK,ACMP Standby Power-down Mode Wake-up Enable Bit (Write Protect)\nThis is a protected bit" "0: ACMP wake-up disable at Standby Power-down mode,1: ACMP wake-up enabled at Standby Power-down mode"
newline
bitfld.long 0x00 16.--17. "WKPINEN0,Wake-up Pin0 Enable Bit (Write Protect)\nThis is a protected bit" "0: Wake-up pin disable at Deep Power-down mode,1: Wake-up pin rising edge enabled at Deep..,2: Wake-up pin falling edge enabled at Deep..,3: Wake-up pin both edge enabled at Deep.."
bitfld.long 0x00 9.--12. "WKTMRIS,Wake-up Timer Time-out Interval Select (Write Protect)\nThis is a protected bit" "0: Time-out interval is 128 OSC10K clocks (12.8..,1: Time-out interval is 256 OSC10K clocks (25.6..,2: Time-out interval is 512 OSC10K clocks (51.2..,3: Time-out interval is 1024 OSC10K clocks..,4: Time-out interval is 4096 OSC10K clocks..,5: Time-out interval is 8192 OSC10K clocks..,6: Time-out interval is 16384 OSC10K clocks..,7: Time-out interval is 65536 OSC10K clocks..,8: Time-out interval is 131072 OSC10K clocks..,9: Time-out interval is 262144 OSC10K clocks..,10: Time-out interval is 524288 OSC10K clocks..,11: Time-out interval is 1048576 OSC10K clocks..,?..."
newline
bitfld.long 0x00 8. "WKTMREN,Wake-up Timer Enable Bit (Write Protect)\nThis is a protected bit" "0: Wake-up timer disable at DPD/SPD mode,1: Wake-up timer enabled at DPD/SPD mode"
bitfld.long 0x00 4.--6. "SRETSEL,SRAM Retention Range Select Bit (Write Protect)\nSelect SRAM retention range when chip enter SPD mode" "0: No SRAM retention,1: 16K SRAM retention when chip enter SPD mode,2: 32K SRAM retention when chip enter SPD mode,3: 64K SRAM retention when chip enter SPD mode,4: 128K SRAM retention when chip enter SPD mode,?..."
newline
bitfld.long 0x00 3. "DPDHOLDEN,Deep-power-down Mode GPIO Hold Enable Bit" "0: When GPIO enters deep power-down mode all I/O..,1: When GPIO enters deep power-down mode all I/O.."
bitfld.long 0x00 0.--2. "PDMSEL,Power-down Mode Selection (Write Protect)\nThis is a protected bit" "0: Power-down mode is selected,1: Low leakage Power-down mode is selected (LLPD),2: Fast wake-up Power-down mode is selected (FWPD),3: Reserved,4: Standby Power-down mode 0 is selected (SPD0)..,5: Standby Power-down mode 1 is selected (SPD1),6: Deep Power-down mode is selected (DPD),7: Reserved"
group.long 0x94++0x03
line.long 0x00 "CLK_PMUSTS,Power Manager Status Register"
bitfld.long 0x00 31. "CLRWK,Clear Wake-up Flag" "0: No clear,1: Clear all wake-up flag"
rbitfld.long 0x00 14. "ACMPWK,ACMP Wake-up Flag (Read Only)\nThis flag indicates that wakeup of device from Standby Power-down mode (SPD) was requested with a ACMP transition" "0,1"
newline
rbitfld.long 0x00 13. "BODWK,BOD Wake-up Flag (Read Only)\nThis flag indicates that wakeup of device from Standby Power-down mode (SPD) was requested with a BOD happened" "0,1"
rbitfld.long 0x00 12. "LVRWK,LVR Wake-up Flag (Read Only)\nThis flag indicates that wakeup of device from Standby Power-down mode was requested with a LVR happened" "0,1"
newline
rbitfld.long 0x00 11. "GPDWK,GPD Wake-up Flag (Read Only)\nThis flag indicates that wake-up of chip from Standby Power-down mode was requested by a transition of selected one GPD group pins" "0,1"
rbitfld.long 0x00 10. "GPCWK,GPC Wake-up Flag (Read Only)\nThis flag indicates that wake-up of chip from Standby Power-down mode was requested by a transition of selected one GPC group pins" "0,1"
newline
rbitfld.long 0x00 9. "GPBWK,GPB Wake-up Flag (Read Only)\nThis flag indicates that wake-up of chip from Standby Power-down mode was requested by a transition of selected one GPB group pins" "0,1"
rbitfld.long 0x00 8. "GPAWK,GPA Wake-up Flag (Read Only)\nThis flag indicates that wake-up of chip from Standby Power-down mode was requested by a transition of selected one GPA group pins" "0,1"
newline
rbitfld.long 0x00 6. "PINWK4,Pin4 Wake-up Flag (Read Only)\nThis flag indicates that wake-up of chip from Deep Power-down mode was requested by a transition of the WAKEUP pin (PF.6)" "0,1"
rbitfld.long 0x00 5. "PINWK3,Pin3 Wake-up Flag (Read Only)\nThis flag indicates that wake-up of chip from Deep Power-down mode was requested by a transition of the WAKEUP pin (PB.12)" "0,1"
newline
rbitfld.long 0x00 4. "PINWK2,Pin2 Wake-up Flag (Read Only)\nThis flag indicates that wake-up of chip from Deep Power-down mode was requested by a transition of the WAKEUP pin (PB.2)" "0,1"
rbitfld.long 0x00 3. "PINWK1,Pin1 Wake-up Flag (Read Only)\nThis flag indicates that wake-up of chip from Deep Power-down mode was requested by a transition of the WAKEUP pin (PB.0)" "0,1"
newline
rbitfld.long 0x00 2. "RTCWK,RTC Wake-up Flag (Read Only)\nThis flag indicates that wakeup of device from Deep Power-down mode (DPD) or Standby Power-down (SPD) mode was requested with a RTC alarm tick time or tamper happened" "0,1"
rbitfld.long 0x00 1. "TMRWK,Timer Wake-up Flag (Read Only)\nThis flag indicates that wake-up of chip from Deep Power-down mode (DPD) or Standby Power-down (SPD) mode was requested by wakeup timer time-out" "0,1"
newline
rbitfld.long 0x00 0. "PINWK0,Pin0 Wake-up Flag (Read Only)\nThis flag indicates that wake-up of chip from Deep Power-down mode was requested by a transition of the WAKEUP pin (GPC.0)" "0,1"
group.long 0x98++0x03
line.long 0x00 "CLK_LDOCTL,LDO Control Register"
bitfld.long 0x00 0. "DPDWKSEL,DPD Wake Up Time Select Bit" "0: DPD wake up ready time about 3 cycles LIRC,1: DPD wake up ready time about 2 cycles LIRC"
group.long 0x9C++0x03
line.long 0x00 "CLK_SWKDBCTL,Standby Power-down Wake-up De-bounce Control Register"
bitfld.long 0x00 0.--3. "SWKDBCLKSEL,Standby Power-down Wake-up De-bounce Sampling Cycle Selection\nNote: De-bounce counter clock source is the 10 kHz internal low speed RC oscillator (LIRC)" "0: Sample wake-up input once per 1 clocks,1: Sample wake-up input once per 2 clocks,2: Sample wake-up input once per 4 clocks,3: Sample wake-up input once per 8 clocks,4: Sample wake-up input once per 16 clocks,5: Sample wake-up input once per 32 clocks,6: Sample wake-up input once per 64 clocks,7: Sample wake-up input once per 128 clocks,8: Sample wake-up input once per 256 clocks,9: Sample wake-up input once per 2*256 clocks,10: Sample wake-up input once per 4*256 clocks,11: Sample wake-up input once per 8*256 clocks,12: Sample wake-up input once per 16*256 clocks,13: Sample wake-up input once per 32*256 clocks,14: Sample wake-up input once per 64*256 clocks,15: Sample wake-up input once per 128*256 clocks"
group.long 0xA0++0x03
line.long 0x00 "CLK_PASWKCTL,GPA Standby Power-down Wake-up Control Register"
bitfld.long 0x00 8. "DBEN,GPA Input Signal De-bounce Enable Bit\nThe DBEN bit is used to enable the de-bounce function for each corresponding IO" "0: Standby power-down wake-up pin De-bounce..,1: Standby power-down wake-up pin De-bounce.."
bitfld.long 0x00 4.--7. "WKPSEL,GPA Standby Power-down Wake-up Pin Select" "0: GPA.0 wake-up function Enabled,1: GPA.1 wake-up function Enabled,2: GPA.2 wake-up function Enabled,3: GPA.3 wake-up function Enabled,4: GPA.4 wake-up function Enabled,5: GPA.5 wake-up function Enabled,6: GPA.6 wake-up function Enabled,7: GPA.7 wake-up function Enabled,8: GPA.8 wake-up function Enabled,9: GPA.9 wake-up function Enabled,10: GPA.10 wake-up function Enabled,11: GPA.11 wake-up function Enabled,12: GPA.12 wake-up function Enabled,13: GPA.13 wake-up function Enabled,14: GPA.14 wake-up function Enabled,15: GPA.15 wake-up function Enabled"
newline
bitfld.long 0x00 2. "PFWKEN,Pin Falling Edge Wake-up Enable Bit" "0: GPA group pin falling edge wake-up function..,1: GPA group pin falling edge wake-up function.."
bitfld.long 0x00 1. "PRWKEN,Pin Rising Edge Wake-up Enable Bit" "0: GPA group pin rising edge wake-up function..,1: GPA group pin rising edge wake-up function.."
newline
bitfld.long 0x00 0. "WKEN,Standby Power-down Pin Wake-up Enable Bit" "0: GPA group pin wake-up function Disabled,1: GPA group pin wake-up function Enabled"
group.long 0xA4++0x03
line.long 0x00 "CLK_PBSWKCTL,GPB Standby Power-down Wake-up Control Register"
bitfld.long 0x00 8. "DBEN,GPB Input Signal De-bounce Enable Bit\nThe DBEN bit is used to enable the de-bounce function for each corresponding IO" "0: Standby power-down wake-up pin De-bounce..,1: Standby power-down wake-up pin De-bounce.."
bitfld.long 0x00 4.--7. "WKPSEL,GPB Standby Power-down Wake-up Pin Select" "0: GPB.0 wake-up function Enabled,1: GPB.1 wake-up function Enabled,2: GPB.2 wake-up function Enabled,3: GPB.3 wake-up function Enabled,4: GPB.4 wake-up function Enabled,5: GPB.5 wake-up function Enabled,6: GPB.6 wake-up function Enabled,7: GPB.7 wake-up function Enabled,8: GPB.8 wake-up function Enabled,9: GPB.9 wake-up function Enabled,10: GPB.10 wake-up function Enabled,11: GPB.11 wake-up function Enabled,12: GPB.12 wake-up function Enabled,13: GPB.13 wake-up function Enabled,14: GPB.14 wake-up function Enabled,15: GPB.15 wake-up function Enabled"
newline
bitfld.long 0x00 2. "PFWKEN,Pin Falling Edge Wake-up Enable Bit" "0: GPB group pin falling edge wake-up function..,1: GPB group pin falling edge wake-up function.."
bitfld.long 0x00 1. "PRWKEN,Pin Rising Edge Wake-up Enable Bit" "0: GPB group pin rising edge wake-up function..,1: GPB group pin rising edge wake-up function.."
newline
bitfld.long 0x00 0. "WKEN,Standby Power-down Pin Wake-up Enable Bit" "0: GPB group pin wake-up function Disabled,1: GPB group pin wake-up function Enabled"
group.long 0xA8++0x03
line.long 0x00 "CLK_PCSWKCTL,GPC Standby Power-down Wake-up Control Register"
bitfld.long 0x00 8. "DBEN,GPC Input Signal De-bounce Enable Bit\nThe DBEN bit is used to enable the de-bounce function for each corresponding IO" "0: Standby power-down wake-up pin De-bounce..,1: Standby power-down wake-up pin De-bounce.."
bitfld.long 0x00 4.--7. "WKPSEL,GPC Standby Power-down Wake-up Pin Select" "0: GPC.0 wake-up function Enabled,1: GPC.1 wake-up function Enabled,2: GPC.2 wake-up function Enabled,3: GPC.3 wake-up function Enabled,4: GPC.4 wake-up function Enabled,5: GPC.5 wake-up function Enabled,6: GPC.6 wake-up function Enabled,7: GPC.7 wake-up function Enabled,8: GPC.8 wake-up function Enabled,9: GPC.9 wake-up function Enabled,10: GPC.10 wake-up function Enabled,11: GPC.11 wake-up function Enabled,12: GPC.12 wake-up function Enabled,13: GPC.13 wake-up function Enabled,14: GPC.14 wake-up function Enabled,15: GPC.15 wake-up function Enabled"
newline
bitfld.long 0x00 2. "PFWKEN,Pin Falling Edge Wake-up Enable Bit" "0: GPC group pin falling edge wake-up function..,1: GPC group pin falling edge wake-up function.."
bitfld.long 0x00 1. "PRWKEN,Pin Rising Edge Wake-up Enable Bit" "0: GPC group pin rising edge wake-up function..,1: GPC group pin rising edge wake-up function.."
newline
bitfld.long 0x00 0. "WKEN,Standby Power-down Pin Wake-up Enable Bit" "0: GPC group pin wake-up function Disabled,1: GPC group pin wake-up function Enabled"
group.long 0xAC++0x03
line.long 0x00 "CLK_PDSWKCTL,GPD Standby Power-down Wake-up Control Register"
bitfld.long 0x00 8. "DBEN,GPD Input Signal De-bounce Enable Bit\nThe DBEN bit is used to enable the de-bounce function for each corresponding IO" "0: Standby power-down wake-up pin De-bounce..,1: Standby power-down wake-up pin De-bounce.."
bitfld.long 0x00 4.--7. "WKPSEL,GPD Standby Power-down Wake-up Pin Select" "0: GPD.0 wake-up function Enabled,1: GPD.1 wake-up function Enabled,2: GPD.2 wake-up function Enabled,3: GPD.3 wake-up function Enabled,4: GPD.4 wake-up function Enabled,5: GPD.5 wake-up function Enabled,6: GPD.6 wake-up function Enabled,7: GPD.7 wake-up function Enabled,8: GPD.8 wake-up function Enabled,9: GPD.9 wake-up function Enabled,10: GPD.10 wake-up function Enabled,11: GPD.11 wake-up function Enabled,12: GPD.12 wake-up function Enabled,13: GPD.13 wake-up function Enabled,14: GPD.14 wake-up function Enabled,15: GPD.15 wake-up function Enabled"
newline
bitfld.long 0x00 2. "PFWKEN,Pin Falling Edge Wake-up Enable Bit" "0: GPD group pin falling edge wake-up function..,1: GPD group pin falling edge wake-up function.."
bitfld.long 0x00 1. "PRWKEN,Pin Rising Edge Wake-up Enable Bit" "0: GPD group pin rising edge wake-up function..,1: GPD group pin rising edge wake-up function.."
newline
bitfld.long 0x00 0. "WKEN,Standby Power-down Pin Wake-up Enable Bit" "0: GPD group pin wake-up function Disabled,1: GPD group pin wake-up function Enabled"
group.long 0xB0++0x03
line.long 0x00 "CLK_IOPDCTL,GPIO Standby Power-down Control Register"
bitfld.long 0x00 0. "IOHR,GPIO Hold Release\nWhen GPIO enters deep power-down mode or standby power-down mode all I/O status are hold to keep normal operating status" "0,1"
tree.end
tree "CRC"
base ad:0x40031000
group.long 0x00++0x03
line.long 0x00 "CRC_CTL,CRC Control Register"
bitfld.long 0x00 30.--31. "CRCMODE,CRC Polynomial Mode\nThis field indicates the CRC operation polynomial mode" "0: CRC-CCITT Polynomial mode,1: CRC-8 Polynomial mode,2: CRC-16 Polynomial mode,3: CRC-32 Polynomial mode"
bitfld.long 0x00 28.--29. "DATLEN,CPU Write Data Length\nThis field indicates the write data length.\nNote: When the write data length is 8-bit mode the valid data in CRC_DAT register is only DATA[7:0] bits if the write data length is 16-bit mode the valid data in CRC_DAT.." "0: Data length is 8-bit mode,1: Data length is 16-bit mode.\nData length is..,?..."
newline
bitfld.long 0x00 27. "CHKSFMT,Checksum 1's Complement\nThis bit is used to enable the 1's complement function for checksum result in CRC_CHECKSUM register" "0: 1's complement for CRC checksum Disabled,1: 1's complement for CRC checksum Enabled"
bitfld.long 0x00 26. "DATFMT,Write Data 1's Complement\nThis bit is used to enable the 1's complement function for write data value in CRC_DAT register" "0: 1's complement for CRC writes data in Disabled,1: 1's complement for CRC writes data in Enabled"
newline
bitfld.long 0x00 25. "CHKSREV,Checksum Bit Order Reverse\nThis bit is used to enable the bit order reverse function for checksum result in CRC_CHECKSUM register.\nNote: If the checksum result is 0xDD7B0F2E the bit order reverse for CRC checksum is 0x74F0DEBB" "0: Bit order reverse for CRC checksum Disabled,1: Bit order reverse for CRC checksum Enabled"
bitfld.long 0x00 24. "DATREV,Write Data Bit Order Reverse\nThis bit is used to enable the bit order reverse function per byte for write data value in CRC_DAT register.\nNote: If the write data is 0xAABBCCDD the bit order reverse for CRC write data in is 0x55DD33BB" "0: Bit order reversed for CRC write data in..,1: Bit order reversed for CRC write data in.."
newline
bitfld.long 0x00 1. "CHKSINIT,Checksum Initialization\nNote: This bit will be cleared automatically" "0: No effect,1: Initial checksum value by auto reload.."
bitfld.long 0x00 0. "CRCEN,CRC Channel Enable Bit" "0: No effect,1: CRC operation Enabled"
group.long 0x04++0x03
line.long 0x00 "CRC_DAT,CRC Write Data Register"
hexmask.long 0x00 0.--31. 1. "DATA,CRC Write Data Bits\nUser can write data directly by CPU mode or use PDMA function to write data to this field to perform CRC operation.\nNote: When the write data length is 8-bit mode the valid data in CRC_DAT register is only DATA[7:0] bits if.."
group.long 0x08++0x03
line.long 0x00 "CRC_SEED,CRC Seed Register"
hexmask.long 0x00 0.--31. 1. "SEED,CRC Seed Value\nThis field indicates the CRC seed value.\nNote: This field will be reloaded as checksum initial value (CRC_CHECKSUM register) after perform CHKSINIT (CRC_CTL[1])"
rgroup.long 0x0C++0x03
line.long 0x00 "CRC_CHECKSUM,CRC Checksum Register"
hexmask.long 0x00 0.--31. 1. "CHECKSUM,CRC Checksum Results\nThis field indicates the CRC checksum result"
tree.end
tree "CRYPTO"
base ad:0x50080000
group.long 0x00++0x03
line.long 0x00 "CRYPTO_INTEN,Crypto Interrupt Enable Control Register"
bitfld.long 0x00 25. "HMACEIEN,SHA/HMAC Error Interrupt Enable Bit" "0: SHA/HMAC error interrupt flag Disabled,1: SHA/HMAC error interrupt flag Enabled"
bitfld.long 0x00 24. "HMACIEN,SHA/HMAC Interrupt Enable Bit\nNote: In DMA mode an interrupt will be triggered when amount of data set in SHA _DMA_CNT is fed into the SHA/HMAC engine" "0: SHA/HMAC interrupt Disabled,1: SHA/HMAC interrupt Enabled"
newline
bitfld.long 0x00 23. "ECCEIEN,ECC Error Interrupt Enable Bit" "0: ECC error interrupt flag Disabled,1: ECC error interrupt flag Enabled"
bitfld.long 0x00 22. "ECCIEN,ECC Interrupt Enable Bit\nNote: In DMA mode an interrupt will be triggered when amount of data set in ECC_DMA_CNT is fed into the ECC engine" "0: ECC interrupt Disabled,1: ECC interrupt Enabled"
newline
bitfld.long 0x00 16. "PRNGIEN,PRNG Interrupt Enable Bit" "0: PRNG interrupt Disabled,1: PRNG interrupt Enabled"
bitfld.long 0x00 9. "TDESEIEN,TDES/DES Error Flag Enable Bit" "0: TDES/DES error interrupt flag Disabled,1: TDES/DES error interrupt flag Enabled"
newline
bitfld.long 0x00 8. "TDESIEN,TDES/DES Interrupt Enable Bit\nNote: In DMA mode an interrupt will be triggered when amount of data set in TDES_DMA_CNT is fed into the TDES engine" "0: TDES/DES interrupt Disabled,1: TDES/DES interrupt Enabled"
bitfld.long 0x00 1. "AESEIEN,AES Error Flag Enable Bit" "0: AES error interrupt flag Disabled,1: AES error interrupt flag Enabled"
newline
bitfld.long 0x00 0. "AESIEN,AES Interrupt Enable Bit\nNote: In DMA mode an interrupt will be triggered when amount of data set in AES_DMA_CNT is fed into the AES engine" "0: AES interrupt Disabled,1: AES interrupt Enabled"
group.long 0x04++0x03
line.long 0x00 "CRYPTO_INTSTS,Crypto Interrupt Flag"
bitfld.long 0x00 25. "HMACEIF,SHA/HMAC Error Flag\nThis register includes operating and setting error" "0: No SHA/HMAC error,1: SHA/HMAC error interrupt"
bitfld.long 0x00 24. "HMACIF,SHA/HMAC Finish Interrupt Flag\nThis bit is cleared by writing 1 and it has no effect by writing 0" "0: No SHA/HMAC interrupt,1: SHA/HMAC operation done interrupt"
newline
bitfld.long 0x00 23. "ECCEIF,ECC Error Flag\nThis register includes operating and setting error" "0: No ECC error,1: ECC error interrupt"
bitfld.long 0x00 22. "ECCIF,ECC Finish Interrupt Flag\nThis bit is cleared by writing 1 and it has no effect by writing 0" "0: No ECC interrupt,1: ECC operation done interrupt"
newline
bitfld.long 0x00 16. "PRNGIF,PRNG Finish Interrupt Flag\nThis bit is cleared by writing 1 and it has no effect by writing 0" "0: No PRNG interrupt,1: PRNG key generation done interrupt"
bitfld.long 0x00 9. "TDESEIF,TDES/DES Error Flag\nThis bit includes the operating and setting error" "0: No TDES/DES error,1: TDES/DES encryption/decryption error interrupt"
newline
bitfld.long 0x00 8. "TDESIF,TDES/DES Finish Interrupt Flag\nThis bit is cleared by writing 1 and it has no effect by writing 0" "0: No TDES/DES interrupt,1: TDES/DES encryption/decryption done interrupt"
bitfld.long 0x00 1. "AESEIF,AES Error Flag\nThis bit is cleared by writing 1 and it has no effect by writing 0" "0: No AES error,1: AES encryption/decryption error interrupt"
newline
bitfld.long 0x00 0. "AESIF,AES Finish Interrupt Flag\nThis bit is cleared by writing 1 and it has no effect by writing 0" "0: No AES interrupt,1: AES encryption/decryption done interrupt"
group.long 0x08++0x03
line.long 0x00 "CRYPTO_PRNG_CTL,PRNG Control Register"
rbitfld.long 0x00 8. "BUSY,PRNG Busy (Read Only)" "0: PRNG engine is idle,1: Indicate that the PRNG engine is generating.."
bitfld.long 0x00 2.--3. "KEYSZ,PRNG Generate Key Size" "0: 64 bits,1: 128 bits,2: 192 bits,3: 256 bits"
newline
bitfld.long 0x00 1. "SEEDRLD,Reload New Seed for PRNG Engine" "0: Generating key based on the current seed,1: Reload new seed"
bitfld.long 0x00 0. "START,Start PRNG Engine" "0: Stop PRNG engine,1: Generate new key and store the new key to.."
wgroup.long 0x0C++0x03
line.long 0x00 "CRYPTO_PRNG_SEED,Seed for PRNG"
hexmask.long 0x00 0.--31. 1. "SEED,Seed for PRNG (Write Only)\nThe bits store the seed for PRNG engine"
rgroup.long 0x10++0x03
line.long 0x00 "CRYPTO_PRNG_KEY0,PRNG Generated Key0"
hexmask.long 0x00 0.--31. 1. "KEY,Store PRNG Generated Key (Read Only)\nThe bits store the key that is generated by PRNG"
repeat 7. (strings "1" "2" "3" "4" "5" "6" "7" )(list 0x0 0x4 0x8 0xC 0x10 0x14 0x18 )
group.long ($2+0x14)++0x03
line.long 0x00 "CRYPTO_PRNG_KEY$1,PRNG Generated Key $1"
hexmask.long 0x00 0.--31. 1. "KEY,Store PRNG Generated Key (Read Only)\nThe bits store the key that is generated by PRNG"
repeat.end
rgroup.long 0x50++0x03
line.long 0x00 "CRYPTO_AES_FDBCK0,AES Engine Output Feedback Data After Cryptographic Operation"
hexmask.long 0x00 0.--31. 1. "FDBCK,AES Feedback Information\nThe feedback value is 128 bits in size.\nThe AES engine uses the data from CRYPTO_AES_FDBCKx as the data inputted to CRYPTO_AESn_IVx for the next block in DMA cascade mode.\nThe AES engine outputs feedback information for.."
repeat 3. (strings "1" "2" "3" )(list 0x0 0x4 0x8 )
group.long ($2+0x54)++0x03
line.long 0x00 "CRYPTO_AES_FDBCK$1,AES Engine Output Feedback Data After Cryptographic Operation"
hexmask.long 0x00 0.--31. 1. "FDBCK,AES Feedback Information\nThe feedback value is 128 bits in size.\nThe AES engine uses the data from CRYPTO_AES_FDBCKx as the data inputted to CRYPTO_AESn_IVx for the next block in DMA cascade mode.\nThe AES engine outputs feedback information for.."
repeat.end
rgroup.long 0x60++0x03
line.long 0x00 "CRYPTO_TDES_FDBCKH,TDES/DES Engine Output Feedback High Word Data After Cryptographic Operation"
hexmask.long 0x00 0.--31. 1. "FDBCK,TDES/DES Feedback\nThe feedback value is 64 bits in size.\nThe TDES/DES engine uses the data from {CRYPTO_TDES_FDBCKH CRYPTO_TDES_FDBCKL} as the data inputted to {CRYPTO_TDESn_IVH CRYPTO_TDESn_IVL} for the next block in DMA cascade mode"
group.long 0x64++0x03
line.long 0x00 "CRYPTO_TDES_FDBCKL,TDES/DES Engine Output Feedback Low Word Data After Cryptographic Operation"
hexmask.long 0x00 0.--31. 1. "FDBCK,TDES/DES Feedback\nThe feedback value is 64 bits in size.\nThe TDES/DES engine uses the data from {CRYPTO_TDES_FDBCKH CRYPTO_TDES_FDBCKL} as the data inputted to {CRYPTO_TDESn_IVH CRYPTO_TDESn_IVL} for the next block in DMA cascade mode"
group.long 0x100++0x03
line.long 0x00 "CRYPTO_AES_CTL,AES Control Register"
bitfld.long 0x00 31. "KEYPRT,Protect Key\nRead as a flag to reflect KEYPRT" "0: No effect,1: Protect the content of the AES key from reading"
bitfld.long 0x00 26.--30. "KEYUNPRT,Unprotect Key\nWriting 0 to CRYPTO_AES_CTL[31] and '10110' to CRYPTO_AES_CTL[30:26] is that AES key is unprotected.\nThe KEYUNPRT can be read and written" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
bitfld.long 0x00 24.--25. "CHANNEL,AES Engine Working Channel" "0: Current control register setting is for..,1: Current control register setting is for..,2: Current control register setting is for..,3: Current control register setting is for.."
bitfld.long 0x00 23. "INSWAP,AES Engine Input Data Swap" "0: Keep the original order,1: The order that CPU feeds data to the.."
newline
bitfld.long 0x00 22. "OUTSWAP,AES Engine Output Data Swap" "0: Keep the original order,1: The order that CPU outputs data from the.."
bitfld.long 0x00 16. "ENCRYPTO,AES Encryption/Decryption" "0: AES engine executes decryption operation,1: AES engine executes encryption operation"
newline
hexmask.long.byte 0x00 8.--15. 1. "OPMODE,AES Engine Operation Modes"
bitfld.long 0x00 7. "DMAEN,AES Engine DMA Enable Bit\nThe AES engine operates in DMA mode and data movement from/to the engine is done by DMA logic" "0: AES DMA engine Disabled,1: AES_DMA engine Enabled"
newline
bitfld.long 0x00 6. "DMACSCAD,AES Engine DMA with Cascade Mode" "0: DMA cascade function Disabled,1: In DMA cascade mode software can update DMA.."
bitfld.long 0x00 5. "DMALAST,AES Last Block\nIn DMA mode this bit must be set as beginning the last DMA cascade round.\nIn Non-DMA mode this bit must be set when feeding in the last block of data in ECB CBC CTR OFB and CFB mode and feeding in the (last-1) block of data at.." "0,1"
newline
bitfld.long 0x00 2.--3. "KEYSZ,AES Key Size\nThis bit defines three different key size for AES operation.\nIf the AES accelerator is operating and the corresponding flag BUSY is 1 updating this register has no effect" "0,1,2,3"
bitfld.long 0x00 1. "STOP,AES Engine Stop\nNote: This bit is always 0 when it's read back" "0: No effect,1: Stop AES engine"
newline
bitfld.long 0x00 0. "START,AES Engine Start\nNote: This bit is always 0 when it's read back" "0: No effect,1: Start AES engine"
rgroup.long 0x104++0x03
line.long 0x00 "CRYPTO_AES_STS,AES Engine Flag"
bitfld.long 0x00 20. "BUSERR,AES DMA Access Bus Error Flag" "0: No error,1: Bus error will stop DMA operation and AES.."
bitfld.long 0x00 18. "OUTBUFERR,AES Out Buffer Error Flag" "0: No error,1: Error happens during getting the result from.."
newline
bitfld.long 0x00 17. "OUTBUFFULL,AES Out Buffer Full Flag" "0: AES output buffer is not full,1: AES output buffer is full and software needs.."
bitfld.long 0x00 16. "OUTBUFEMPTY,AES Out Buffer Empty" "0: AES output buffer is not empty,1: AES output buffer is empty"
newline
bitfld.long 0x00 12. "CNTERR,CRYPTO_AESn_CNT Setting Error" "0: No error in CRYPTO_AESn_CNT setting,1: CRYPTO_AESn_CNT is 0 if.."
bitfld.long 0x00 10. "INBUFERR,AES Input Buffer Error Flag" "0: No error,1: Error happens during feeding data to the AES.."
newline
bitfld.long 0x00 9. "INBUFFULL,AES Input Buffer Full Flag" "0: AES input buffer is not full,1: AES input buffer is full"
bitfld.long 0x00 8. "INBUFEMPTY,AES Input Buffer Empty" "0: There are some data in input buffer waiting..,1: AES input buffer is empty"
newline
bitfld.long 0x00 0. "BUSY,AES Engine Busy" "0: The AES engine is idle or finished,1: The AES engine is under processing"
group.long 0x108++0x03
line.long 0x00 "CRYPTO_AES_DATIN,AES Engine Data Input Port Register"
hexmask.long 0x00 0.--31. 1. "DATIN,AES Engine Input Port\nCPU feeds data to AES engine through this port by checking CRYPTO_AES_STS"
rgroup.long 0x10C++0x03
line.long 0x00 "CRYPTO_AES_DATOUT,AES Engine Data Output Port Register"
hexmask.long 0x00 0.--31. 1. "DATOUT,AES Engine Output Port\nCPU gets results from the AES engine through this port by checking CRYPTO_AES_STS"
group.long 0x110++0x03
line.long 0x00 "CRYPTO_AES0_KEY0,AES Key Word 0 Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x114++0x03
line.long 0x00 "CRYPTO_AES0_KEY1,AES Key Word 1 Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x118++0x03
line.long 0x00 "CRYPTO_AES0_KEY2,AES Key Word 2 Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x11C++0x03
line.long 0x00 "CRYPTO_AES0_KEY3,AES Key Word 3 Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x120++0x03
line.long 0x00 "CRYPTO_AES0_KEY4,AES Key Word 4 Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x124++0x03
line.long 0x00 "CRYPTO_AES0_KEY5,AES Key Word 5 Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x128++0x03
line.long 0x00 "CRYPTO_AES0_KEY6,AES Key Word 6 Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x12C++0x03
line.long 0x00 "CRYPTO_AES0_KEY7,AES Key Word 7 Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x130++0x03
line.long 0x00 "CRYPTO_AES0_IV0,AES Initial Vector Word 0 Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x134++0x03
line.long 0x00 "CRYPTO_AES0_IV1,AES Initial Vector Word 1 Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x138++0x03
line.long 0x00 "CRYPTO_AES0_IV2,AES Initial Vector Word 2 Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x13C++0x03
line.long 0x00 "CRYPTO_AES0_IV3,AES Initial Vector Word 3 Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x140++0x03
line.long 0x00 "CRYPTO_AES0_SADDR,AES DMA Source Address Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "SADDR,AES DMA Source Address\nThe AES accelerator supports DMA function to transfer the plain text between SRAM memory space and embedded FIFO"
group.long 0x144++0x03
line.long 0x00 "CRYPTO_AES0_DADDR,AES DMA Destination Address Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "DADDR,AES DMA Destination Address\nThe AES accelerator supports DMA function to transfer the cipher text between SRAM memory space and embedded FIFO"
group.long 0x148++0x03
line.long 0x00 "CRYPTO_AES0_CNT,AES Byte Count Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "CNT,AES Byte Count\nThe CRYPTO_AESn_CNT keeps the byte count of source text that is for the AES engine operating in DMA mode"
group.long 0x14C++0x03
line.long 0x00 "CRYPTO_AES1_KEY0,AES Key Word 0 Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x150++0x03
line.long 0x00 "CRYPTO_AES1_KEY1,AES Key Word 1 Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x154++0x03
line.long 0x00 "CRYPTO_AES1_KEY2,AES Key Word 2 Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x158++0x03
line.long 0x00 "CRYPTO_AES1_KEY3,AES Key Word 3 Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x15C++0x03
line.long 0x00 "CRYPTO_AES1_KEY4,AES Key Word 4 Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x160++0x03
line.long 0x00 "CRYPTO_AES1_KEY5,AES Key Word 5 Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x164++0x03
line.long 0x00 "CRYPTO_AES1_KEY6,AES Key Word 6 Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x168++0x03
line.long 0x00 "CRYPTO_AES1_KEY7,AES Key Word 7 Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x16C++0x03
line.long 0x00 "CRYPTO_AES1_IV0,AES Initial Vector Word 0 Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x170++0x03
line.long 0x00 "CRYPTO_AES1_IV1,AES Initial Vector Word 1 Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x174++0x03
line.long 0x00 "CRYPTO_AES1_IV2,AES Initial Vector Word 2 Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x178++0x03
line.long 0x00 "CRYPTO_AES1_IV3,AES Initial Vector Word 3 Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x17C++0x03
line.long 0x00 "CRYPTO_AES1_SADDR,AES DMA Source Address Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "SADDR,AES DMA Source Address\nThe AES accelerator supports DMA function to transfer the plain text between SRAM memory space and embedded FIFO"
group.long 0x180++0x03
line.long 0x00 "CRYPTO_AES1_DADDR,AES DMA Destination Address Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "DADDR,AES DMA Destination Address\nThe AES accelerator supports DMA function to transfer the cipher text between SRAM memory space and embedded FIFO"
group.long 0x184++0x03
line.long 0x00 "CRYPTO_AES1_CNT,AES Byte Count Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "CNT,AES Byte Count\nThe CRYPTO_AESn_CNT keeps the byte count of source text that is for the AES engine operating in DMA mode"
group.long 0x188++0x03
line.long 0x00 "CRYPTO_AES2_KEY0,AES Key Word 0 Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x18C++0x03
line.long 0x00 "CRYPTO_AES2_KEY1,AES Key Word 1 Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x190++0x03
line.long 0x00 "CRYPTO_AES2_KEY2,AES Key Word 2 Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x194++0x03
line.long 0x00 "CRYPTO_AES2_KEY3,AES Key Word 3 Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x198++0x03
line.long 0x00 "CRYPTO_AES2_KEY4,AES Key Word 4 Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x19C++0x03
line.long 0x00 "CRYPTO_AES2_KEY5,AES Key Word 5 Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x1A0++0x03
line.long 0x00 "CRYPTO_AES2_KEY6,AES Key Word 6 Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x1A4++0x03
line.long 0x00 "CRYPTO_AES2_KEY7,AES Key Word 7 Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x1A8++0x03
line.long 0x00 "CRYPTO_AES2_IV0,AES Initial Vector Word 0 Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x1AC++0x03
line.long 0x00 "CRYPTO_AES2_IV1,AES Initial Vector Word 1 Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x1B0++0x03
line.long 0x00 "CRYPTO_AES2_IV2,AES Initial Vector Word 2 Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x1B4++0x03
line.long 0x00 "CRYPTO_AES2_IV3,AES Initial Vector Word 3 Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x1B8++0x03
line.long 0x00 "CRYPTO_AES2_SADDR,AES DMA Source Address Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "SADDR,AES DMA Source Address\nThe AES accelerator supports DMA function to transfer the plain text between SRAM memory space and embedded FIFO"
group.long 0x1BC++0x03
line.long 0x00 "CRYPTO_AES2_DADDR,AES DMA Destination Address Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "DADDR,AES DMA Destination Address\nThe AES accelerator supports DMA function to transfer the cipher text between SRAM memory space and embedded FIFO"
group.long 0x1C0++0x03
line.long 0x00 "CRYPTO_AES2_CNT,AES Byte Count Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "CNT,AES Byte Count\nThe CRYPTO_AESn_CNT keeps the byte count of source text that is for the AES engine operating in DMA mode"
group.long 0x1C4++0x03
line.long 0x00 "CRYPTO_AES3_KEY0,AES Key Word 0 Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x1C8++0x03
line.long 0x00 "CRYPTO_AES3_KEY1,AES Key Word 1 Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x1CC++0x03
line.long 0x00 "CRYPTO_AES3_KEY2,AES Key Word 2 Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x1D0++0x03
line.long 0x00 "CRYPTO_AES3_KEY3,AES Key Word 3 Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x1D4++0x03
line.long 0x00 "CRYPTO_AES3_KEY4,AES Key Word 4 Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x1D8++0x03
line.long 0x00 "CRYPTO_AES3_KEY5,AES Key Word 5 Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x1DC++0x03
line.long 0x00 "CRYPTO_AES3_KEY6,AES Key Word 6 Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x1E0++0x03
line.long 0x00 "CRYPTO_AES3_KEY7,AES Key Word 7 Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,CRYPTO_AESn_KEYx\nThe KEY keeps the security key for AES operation.\n{CRYPTO_AESn_KEY3 CRYPTO_AESn_KEY2 CRYPTO_AESn_KEY1 CRYPTO_AESn_KEY0} stores the 128-bit security key for AES operation"
group.long 0x1E4++0x03
line.long 0x00 "CRYPTO_AES3_IV0,AES Initial Vector Word 0 Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x1E8++0x03
line.long 0x00 "CRYPTO_AES3_IV1,AES Initial Vector Word 1 Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x1EC++0x03
line.long 0x00 "CRYPTO_AES3_IV2,AES Initial Vector Word 2 Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x1F0++0x03
line.long 0x00 "CRYPTO_AES3_IV3,AES Initial Vector Word 3 Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "IV,AES Initial Vectors\nFour initial vectors (CRYPTO_AESn_IV0 CRYPTO_AESn_IV1 CRYPTO_AESn_IV2 and CRYPTO_AESn_IV3) are for AES operating in CBC CFB and OFB mode"
group.long 0x1F4++0x03
line.long 0x00 "CRYPTO_AES3_SADDR,AES DMA Source Address Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "SADDR,AES DMA Source Address\nThe AES accelerator supports DMA function to transfer the plain text between SRAM memory space and embedded FIFO"
group.long 0x1F8++0x03
line.long 0x00 "CRYPTO_AES3_DADDR,AES DMA Destination Address Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "DADDR,AES DMA Destination Address\nThe AES accelerator supports DMA function to transfer the cipher text between SRAM memory space and embedded FIFO"
group.long 0x1FC++0x03
line.long 0x00 "CRYPTO_AES3_CNT,AES Byte Count Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "CNT,AES Byte Count\nThe CRYPTO_AESn_CNT keeps the byte count of source text that is for the AES engine operating in DMA mode"
group.long 0x200++0x03
line.long 0x00 "CRYPTO_TDES_CTL,TDES/DES Control Register"
bitfld.long 0x00 31. "KEYPRT,Protect Key\nRead as a flag to reflect KEYPRT" "0: No effect,1: This bit is to protect the content of TDES.."
bitfld.long 0x00 26.--30. "KEYUNPRT,Unprotect Key\nWriting 0 to CRYPTO_TDES_CTL [31] and '10110' to CRYPTO_TDES_CTL [30:26] is that TDES key is unprotected.\nThe KEYUNPRT can be read and written" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
bitfld.long 0x00 24.--25. "CHANNEL,TDES/DES Engine Working Channel" "0: Current control register setting is for..,1: Current control register setting is for..,2: Current control register setting is for..,3: Current control register setting is for.."
bitfld.long 0x00 23. "INSWAP,TDES/DES Engine Input Data Swap" "0: Keep the original order,1: The order that CPU feeds data to the.."
newline
bitfld.long 0x00 22. "OUTSWAP,TDES/DES Engine Output Data Swap" "0: Keep the original order,1: The order that CPU outputs data from the.."
bitfld.long 0x00 21. "BLKSWAP,TDES/DES Engine Block Double Word Endian Swap" "0: Keep the original order e.g,1: When this bit is set to 1 the TDES engine.."
newline
bitfld.long 0x00 16. "ENCRYPTO,TDES/DES Encryption/Decryption" "0: TDES engine executes decryption operation,1: TDES engine executes encryption operation"
bitfld.long 0x00 8.--10. "OPMODE,TDES/DES Engine Operation Mode" "0: ECB (Electronic Codebook Mode),1: CBC (Cipher Block Chaining Mode),2: CFB (Cipher Feedback Mode),3: OFB (Output Feedback Mode),4: CTR (Counter Mode),?..."
newline
bitfld.long 0x00 7. "DMAEN,TDES/DES Engine DMA Enable Bit\nTDES engine operates in DMA mode and data movement from/to the engine is done by DMA logic" "0: TDES_DMA engine Disabled,1: TDES_DMA engine Enabled"
bitfld.long 0x00 6. "DMACSCAD,TDES/DES Engine DMA with Cascade Mode" "0: DMA cascade function Disabled,1: In DMA Cascade mode software can update DMA.."
newline
bitfld.long 0x00 5. "DMALAST,TDES/DES Engine Start for the Last Block \nIn DMA mode this bit must be set as beginning the last DMA cascade round.\nIn Non-DMA mode this bit must be set as feeding in last block of data" "0,1"
bitfld.long 0x00 3. "_3KEYS,TDES/DES Key Number" "0: Select KEY1 and KEY2 in TDES/DES engine,1: Triple keys in TDES/DES engine Enabled"
newline
bitfld.long 0x00 2. "TMODE,TDES/DES Engine Operating Mode" "0: Set DES mode for TDES/DES engine,1: Set Triple DES mode for TDES/DES engine"
bitfld.long 0x00 1. "STOP,TDES/DES Engine Stop\nNote: The bit is always 0 when it's read back" "0: No effect,1: Stop TDES/DES engine"
newline
bitfld.long 0x00 0. "START,TDES/DES Engine Start\nNote: The bit is always 0 when it's read back" "0: No effect,1: Start TDES/DES engine"
rgroup.long 0x204++0x03
line.long 0x00 "CRYPTO_TDES_STS,TDES/DES Engine Flag"
bitfld.long 0x00 20. "BUSERR,TDES/DES DMA Access Bus Error Flag" "0: No error,1: Bus error will stop DMA operation and.."
bitfld.long 0x00 18. "OUTBUFERR,TDES/DES Out Buffer Error Flag" "0: No error,1: Error happens during getting test result from.."
newline
bitfld.long 0x00 17. "OUTBUFFULL,TDES/DES Output Buffer Full Flag" "0: TDES/DES output buffer is not full,1: TDES/DES output buffer is full and software.."
bitfld.long 0x00 16. "OUTBUFEMPTY,TDES/DES Output Buffer Empty Flag" "0: TDES/DES output buffer is not empty,1: TDES/DES output buffer is empty Software.."
newline
bitfld.long 0x00 10. "INBUFERR,TDES/DES in Buffer Error Flag" "0: No error,1: Error happens during feeding data to the.."
bitfld.long 0x00 9. "INBUFFULL,TDES/DES in Buffer Full Flag" "0: TDES/DES input buffer is not full,1: TDES input buffer is full"
newline
bitfld.long 0x00 8. "INBUFEMPTY,TDES/DES in Buffer Empty" "0: There are some data in input buffer waiting..,1: TDES/DES input buffer is empty"
bitfld.long 0x00 0. "BUSY,TDES/DES Engine Busy" "0: TDES/DES engine is idle or finished,1: TDES/DES engine is under processing"
group.long 0x208++0x03
line.long 0x00 "CRYPTO_TDES0_KEY1H,TDES/DES Key 1 High Word Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x20C++0x03
line.long 0x00 "CRYPTO_TDES0_KEY1L,TDES/DES Key 1 Low Word Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x210++0x03
line.long 0x00 "CRYPTO_TDES0_KEY2H,TDES Key 2 High Word Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x214++0x03
line.long 0x00 "CRYPTO_TDES0_KEY2L,TDES Key 2 Low Word Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x218++0x03
line.long 0x00 "CRYPTO_TDES0_KEY3H,TDES Key 3 High Word Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x21C++0x03
line.long 0x00 "CRYPTO_TDES0_KEY3L,TDES Key 3 Low Word Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x220++0x03
line.long 0x00 "CRYPTO_TDES0_IVH,TDES/DES Initial Vector High Word Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "IV,TDES/DES Initial Vector High/Low Word\nInitial vector (IV) is for TDES/DES engine in CBC CFB and OFB mode"
group.long 0x224++0x03
line.long 0x00 "CRYPTO_TDES0_IVL,TDES/DES Initial Vector Low Word Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "IV,TDES/DES Initial Vector High/Low Word\nInitial vector (IV) is for TDES/DES engine in CBC CFB and OFB mode"
group.long 0x228++0x03
line.long 0x00 "CRYPTO_TDES0_SADDR,TDES/DES DMA Source Address Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "SADDR,TDES/DES DMA Source Address\nThe TDES/DES accelerator supports DMA function to transfer the plain text between SRAM memory space and embedded FIFO"
group.long 0x22C++0x03
line.long 0x00 "CRYPTO_TDES0_DADDR,TDES/DES DMA Destination Address Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "DADDR,TDES/DES DMA Destination Address\nThe TDES/DES accelerator supports DMA function to transfer the cipher text between SRAM memory space and embedded FIFO"
group.long 0x230++0x03
line.long 0x00 "CRYPTO_TDES0_CNT,TDES/DES Byte Count Register for Channel 0"
hexmask.long 0x00 0.--31. 1. "CNT,TDES/DES Byte Count \nThe CRYPTO_TDESn_CNT keeps the byte count of source text that is for the TDES/DES engine operating in DMA mode"
group.long 0x234++0x03
line.long 0x00 "CRYPTO_TDES_DATIN,TDES/DES Engine Input Data Word Register"
hexmask.long 0x00 0.--31. 1. "DATIN,TDES/DES Engine Input Port\nCPU feeds data to TDES/DES engine through this port by checking CRYPTO_TDES_STS"
rgroup.long 0x238++0x03
line.long 0x00 "CRYPTO_TDES_DATOUT,TDES/DES Engine Output Data Word Register"
hexmask.long 0x00 0.--31. 1. "DATOUT,TDES/DES Engine Output Port\nCPU gets result from the TDES/DES engine through this port by checking CRYPTO_TDES_STS"
group.long 0x248++0x03
line.long 0x00 "CRYPTO_TDES1_KEY1H,TDES/DES Key 1 High Word Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x24C++0x03
line.long 0x00 "CRYPTO_TDES1_KEY1L,TDES/DES Key 1 Low Word Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x250++0x03
line.long 0x00 "CRYPTO_TDES1_KEY2H,TDES Key 2 High Word Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x254++0x03
line.long 0x00 "CRYPTO_TDES1_KEY2L,TDES Key 2 Low Word Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x258++0x03
line.long 0x00 "CRYPTO_TDES1_KEY3H,TDES Key 3 High Word Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x25C++0x03
line.long 0x00 "CRYPTO_TDES1_KEY3L,TDES Key 3 Low Word Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x260++0x03
line.long 0x00 "CRYPTO_TDES1_IVH,TDES/DES Initial Vector High Word Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "IV,TDES/DES Initial Vector High/Low Word\nInitial vector (IV) is for TDES/DES engine in CBC CFB and OFB mode"
group.long 0x264++0x03
line.long 0x00 "CRYPTO_TDES1_IVL,TDES/DES Initial Vector Low Word Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "IV,TDES/DES Initial Vector High/Low Word\nInitial vector (IV) is for TDES/DES engine in CBC CFB and OFB mode"
group.long 0x268++0x03
line.long 0x00 "CRYPTO_TDES1_SADDR,TDES/DES DMA Source Address Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "SADDR,TDES/DES DMA Source Address\nThe TDES/DES accelerator supports DMA function to transfer the plain text between SRAM memory space and embedded FIFO"
group.long 0x26C++0x03
line.long 0x00 "CRYPTO_TDES1_DADDR,TDES/DES DMA Destination Address Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "DADDR,TDES/DES DMA Destination Address\nThe TDES/DES accelerator supports DMA function to transfer the cipher text between SRAM memory space and embedded FIFO"
group.long 0x270++0x03
line.long 0x00 "CRYPTO_TDES1_CNT,TDES/DES Byte Count Register for Channel 1"
hexmask.long 0x00 0.--31. 1. "CNT,TDES/DES Byte Count \nThe CRYPTO_TDESn_CNT keeps the byte count of source text that is for the TDES/DES engine operating in DMA mode"
group.long 0x288++0x03
line.long 0x00 "CRYPTO_TDES2_KEY1H,TDES/DES Key 1 High Word Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x28C++0x03
line.long 0x00 "CRYPTO_TDES2_KEY1L,TDES/DES Key 1 Low Word Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x290++0x03
line.long 0x00 "CRYPTO_TDES2_KEY2H,TDES Key 2 High Word Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x294++0x03
line.long 0x00 "CRYPTO_TDES2_KEY2L,TDES Key 2 Low Word Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x298++0x03
line.long 0x00 "CRYPTO_TDES2_KEY3H,TDES Key 3 High Word Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x29C++0x03
line.long 0x00 "CRYPTO_TDES2_KEY3L,TDES Key 3 Low Word Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x2A0++0x03
line.long 0x00 "CRYPTO_TDES2_IVH,TDES/DES Initial Vector High Word Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "IV,TDES/DES Initial Vector High/Low Word\nInitial vector (IV) is for TDES/DES engine in CBC CFB and OFB mode"
group.long 0x2A4++0x03
line.long 0x00 "CRYPTO_TDES2_IVL,TDES/DES Initial Vector Low Word Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "IV,TDES/DES Initial Vector High/Low Word\nInitial vector (IV) is for TDES/DES engine in CBC CFB and OFB mode"
group.long 0x2A8++0x03
line.long 0x00 "CRYPTO_TDES2_SADDR,TDES/DES DMA Source Address Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "SADDR,TDES/DES DMA Source Address\nThe TDES/DES accelerator supports DMA function to transfer the plain text between SRAM memory space and embedded FIFO"
group.long 0x2AC++0x03
line.long 0x00 "CRYPTO_TDES2_DADDR,TDES/DES DMA Destination Address Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "DADDR,TDES/DES DMA Destination Address\nThe TDES/DES accelerator supports DMA function to transfer the cipher text between SRAM memory space and embedded FIFO"
group.long 0x2B0++0x03
line.long 0x00 "CRYPTO_TDES2_CNT,TDES/DES Byte Count Register for Channel 2"
hexmask.long 0x00 0.--31. 1. "CNT,TDES/DES Byte Count \nThe CRYPTO_TDESn_CNT keeps the byte count of source text that is for the TDES/DES engine operating in DMA mode"
group.long 0x2C8++0x03
line.long 0x00 "CRYPTO_TDES3_KEY1H,TDES/DES Key 1 High Word Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x2CC++0x03
line.long 0x00 "CRYPTO_TDES3_KEY1L,TDES/DES Key 1 Low Word Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x2D0++0x03
line.long 0x00 "CRYPTO_TDES3_KEY2H,TDES Key 2 High Word Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x2D4++0x03
line.long 0x00 "CRYPTO_TDES3_KEY2L,TDES Key 2 Low Word Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x2D8++0x03
line.long 0x00 "CRYPTO_TDES3_KEY3H,TDES Key 3 High Word Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x2DC++0x03
line.long 0x00 "CRYPTO_TDES3_KEY3L,TDES Key 3 Low Word Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "KEY,TDES/DES Key High/Low Word\nThe key registers for TDES/DES algorithm calculation\nThe security key for the TDES/DES accelerator is 64 bits"
group.long 0x2E0++0x03
line.long 0x00 "CRYPTO_TDES3_IVH,TDES/DES Initial Vector High Word Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "IV,TDES/DES Initial Vector High/Low Word\nInitial vector (IV) is for TDES/DES engine in CBC CFB and OFB mode"
group.long 0x2E4++0x03
line.long 0x00 "CRYPTO_TDES3_IVL,TDES/DES Initial Vector Low Word Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "IV,TDES/DES Initial Vector High/Low Word\nInitial vector (IV) is for TDES/DES engine in CBC CFB and OFB mode"
group.long 0x2E8++0x03
line.long 0x00 "CRYPTO_TDES3_SADDR,TDES/DES DMA Source Address Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "SADDR,TDES/DES DMA Source Address\nThe TDES/DES accelerator supports DMA function to transfer the plain text between SRAM memory space and embedded FIFO"
group.long 0x2EC++0x03
line.long 0x00 "CRYPTO_TDES3_DADDR,TDES/DES DMA Destination Address Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "DADDR,TDES/DES DMA Destination Address\nThe TDES/DES accelerator supports DMA function to transfer the cipher text between SRAM memory space and embedded FIFO"
group.long 0x2F0++0x03
line.long 0x00 "CRYPTO_TDES3_CNT,TDES/DES Byte Count Register for Channel 3"
hexmask.long 0x00 0.--31. 1. "CNT,TDES/DES Byte Count \nThe CRYPTO_TDESn_CNT keeps the byte count of source text that is for the TDES/DES engine operating in DMA mode"
group.long 0x300++0x03
line.long 0x00 "CRYPTO_HMAC_CTL,SHA/HMAC Control Register"
bitfld.long 0x00 23. "INSWAP,SHA/HMAC Engine Input Data Swap" "0: Keep the original order,1: The order that CPU feeds data to the.."
bitfld.long 0x00 22. "OUTSWAP,SHA/HMAC Engine Output Data Swap" "0: Keep the original order,1: The order that CPU feeds data to the.."
newline
bitfld.long 0x00 11. "HMACEN,HMAC_SHA Engine Operating Mode" "0: Execute SHA function,1: Execute HMAC function"
bitfld.long 0x00 8.--10. "OPMODE,SHA/HMAC Engine Operation Modes\n0x0xx: SHA160\n0x100: SHA256\n0x101: SHA224\n0x110: SHA512\n0x111: SHA384\nNote: These bits can be read and written" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 7. "DMAEN,SHA/HMAC Engine DMA Enable Bit\nSHA/HMAC engine operates in DMA mode and data movement from/to the engine is done by DMA logic" "0: SHA/HMAC DMA engine Disabled,1: SHA/HMAC DMA engine Enabled"
bitfld.long 0x00 6. "DMACSCAD,SHA/HMAC Engine DMA with Cascade Mode" "0: DMA cascade function Disabled,1: In DMA cascade mode software can update DMA.."
newline
bitfld.long 0x00 5. "DMALAST,SHA/HMAC Last Block\nThis bit must be set as feeding in last byte of data" "0,1"
bitfld.long 0x00 4. "DMAFIRST,SHA/HMAC First Block in Cascadefunction\nThis bit must be set as feeding in first byte of data" "0,1"
newline
bitfld.long 0x00 1. "STOP,SHA/HMAC Engine Stop\nNote: This bit is always 0 when it's read back" "0: No effect,1: Stop SHA/HMAC engine"
bitfld.long 0x00 0. "START,SHA/HMAC Engine Start\nNote: This bit is always 0 when it's read back" "0: No effect,1: Start SHA/HMAC engine"
rgroup.long 0x304++0x03
line.long 0x00 "CRYPTO_HMAC_STS,SHA/HMAC Status Flag"
bitfld.long 0x00 16. "DATINREQ,SHA/HMAC Non-dMA Mode Data Input Request" "0: No effect,1: Request SHA/HMAC Non-DMA mode data input"
bitfld.long 0x00 8. "DMAERR,SHA/HMAC Engine DMA Error Flag" "0: Show the SHA/HMAC engine access normal,1: Show the SHA/HMAC engine access error"
newline
bitfld.long 0x00 1. "DMABUSY,SHA/HMAC Engine DMA Busy Flag" "0: SHA/HMAC DMA engine is idle or finished,1: SHA/HMAC DMA engine is busy"
bitfld.long 0x00 0. "BUSY,SHA/HMAC Engine Busy" "0: SHA/HMAC engine is idle or finished,1: SHA/HMAC engine is busy"
rgroup.long 0x308++0x03
line.long 0x00 "CRYPTO_HMAC_DGST0,SHA/HMAC Digest Message 0"
hexmask.long 0x00 0.--31. 1. "DGST,SHA/HMAC Digest Message Output Register\nFor SHA-160 the digest is stored in CRYPTO_HMAC_DGST0 ~ CRYPTO_HMAC_DGST4.\nFor SHA-224 the digest is stored in CRYPTO_HMAC_DGST0 ~ CRYPTO_HMAC_DGST6.\nFor SHA-256 the digest is stored in CRYPTO_HMAC_DGST0 ~.."
repeat 15. (strings "1" "2" "3" "4" "5" "6" "7" "8" "9" "10" "11" "12" "13" "14" "15" )(list 0x00 0x04 0x08 0x0C 0x10 0x14 0x18 0x1C 0x20 0x24 0x28 0x2C 0x30 0x34 0x38 )
group.long ($2+0x30C)++0x03
line.long 0x00 "CRYPTO_HMAC_DGST$1,SHA/HMAC Digest Message $1"
hexmask.long 0x00 0.--31. 1. "DGST,SHA/HMAC Digest Message Output Register\nFor SHA-160 the digest is stored in CRYPTO_HMAC_DGST0 ~ CRYPTO_HMAC_DGST4.\nFor SHA-224 the digest is stored in CRYPTO_HMAC_DGST0 ~ CRYPTO_HMAC_DGST6.\nFor SHA-256 the digest is stored in CRYPTO_HMAC_DGST0 ~.."
repeat.end
group.long 0x348++0x03
line.long 0x00 "CRYPTO_HMAC_KEYCNT,SHA/HMAC Key Byte Count Register"
hexmask.long 0x00 0.--31. 1. "KEYCNT,SHA/HMAC Key Byte Count\nThe CRYPTO_HMAC_KEYCNT keeps the byte count of key that SHA/HMAC engine operates"
group.long 0x34C++0x03
line.long 0x00 "CRYPTO_HMAC_SADDR,SHA/HMAC DMA Source Address Register"
hexmask.long 0x00 0.--31. 1. "SADDR,SHA/HMAC DMA Source Address\nThe SHA/HMAC accelerator supports DMA function to transfer the plain text between SRAM memory space and embedded FIFO"
group.long 0x350++0x03
line.long 0x00 "CRYPTO_HMAC_DMACNT,SHA/HMAC Byte Count Register"
hexmask.long 0x00 0.--31. 1. "DMACNT,SHA/HMAC Operation Byte Count\nThe CRYPTO_HMAC_DMACNT keeps the byte count of source text that is for the SHA/HMAC engine operating in DMA mode"
group.long 0x354++0x03
line.long 0x00 "CRYPTO_HMAC_DATIN,SHA/HMAC Engine Non-dMA Mode Data Input Port Register"
hexmask.long 0x00 0.--31. 1. "DATIN,SHA/HMAC Engine Input Port\nCPU feeds data to SHA/HMAC engine through this port by checking CRYPTO_HMAC_STS"
group.long 0x800++0x03
line.long 0x00 "CRYPTO_ECC_CTL,ECC Control Register"
hexmask.long.word 0x00 22.--31. 1. "CURVEM,The key length of elliptic curve"
bitfld.long 0x00 21. "LDK,The Control Signal of Register for SCALARK" "0: The register for SCALARK is not modified by..,1: The register for SCALARK is modified by DMA.."
newline
bitfld.long 0x00 20. "LDN,The Control Signal of Register for the Parameter CURVEN of Elliptic Curve" "0: The register for CURVEN is not modified by..,1: The register for CURVEN is modified by DMA or.."
bitfld.long 0x00 19. "LDB,The Control Signal of Register for the Parameter CURVEB of Elliptic Curve" "0: The register for CURVEB is not modified by..,1: The register for CURVEB is modified by DMA or.."
newline
bitfld.long 0x00 18. "LDA,The Control Signal of Register for the Parameter CURVEA of Elliptic Curve" "0: The register for CURVEA is not modified by..,1: The register for CURVEA is modified by DMA or.."
bitfld.long 0x00 17. "LDP2,The Control Signal of Register for the x and Y Coordinate of the Second Point (POINTX2 POINTY2)" "0: The register for POINTX2 and POINTY2 is not..,1: The register for POINTX2 and POINTY2 is.."
newline
bitfld.long 0x00 16. "LDP1,The Control Signal of Register for the x and Y Coordinate of the First Point (POINTX1 POINTY1)" "0: The register for POINTX1 and POINTY1 is not..,1: The register for POINTX1 and POINTY1 is.."
bitfld.long 0x00 13. "CSEL,Curve Selection" "0: NIST suggested curve,1: Montgomery curve"
newline
bitfld.long 0x00 11.--12. "MODOP,Modulus Operation for PF" "0: Division,1: Multiplication,2: Addition,3: Subtraction"
bitfld.long 0x00 9.--10. "ECCOP,Point Operation for BF and PF\nBesides above three input data point operations still need the parameters of elliptic curve (CURVEA CURVEB CURVEN and CURVEM) as shown in Figure 6.27-11" "0: Point multiplication,1: Modulus operation,2: Point addition,3: Point doubling"
newline
bitfld.long 0x00 8. "FSEL,Field Selection" "0: Binary Field (GF(2m )),1: Prime Field (GF(p))"
bitfld.long 0x00 7. "DMAEN,ECC Accelerator DMA Enable Bit\nOnly when START and DMAEN are 1 ECC DMA engine will be active" "0: ECC DMA engine Disabled,1: ECC DMA engine Enabled"
newline
bitfld.long 0x00 1. "STOP,ECC Accelerator Stop\nThis bit is always 0 when it's read back.\nRemember to clear ECC interrupt flag after stopping ECC accelerator" "0: No effect,1: Abort ECC accelerator and make it into idle.."
bitfld.long 0x00 0. "START,ECC Accelerator Start\nThis bit is always 0 when it's read back.\nECC accelerator will ignore this START signal when BUSY flag is 1" "0: No effect,1: Start ECC accelerator"
rgroup.long 0x804++0x03
line.long 0x00 "CRYPTO_ECC_STS,ECC Status Register"
bitfld.long 0x00 16. "BUSERR,ECC DMA Access Bus Error Flag" "0: No error,1: Bus error will stop DMA operation and ECC.."
bitfld.long 0x00 1. "DMABUSY,ECC DMA Busy Flag" "0: ECC DMA is idle or finished,1: ECC DMA is busy"
newline
bitfld.long 0x00 0. "BUSY,ECC Accelerator Busy Flag\nRemember to clear ECC interrupt flag after ECC accelerator finished" "0: The ECC accelerator is idle or finished,1: The ECC accelerator is under processing and.."
group.long 0x808++0x03
line.long 0x00 "CRYPTO_ECC_X1_00,ECC X-coordinate Word0 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x80C++0x03
line.long 0x00 "CRYPTO_ECC_X1_01,ECC X-coordinate Word1 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x810++0x03
line.long 0x00 "CRYPTO_ECC_X1_02,ECC X-coordinate Word2 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x814++0x03
line.long 0x00 "CRYPTO_ECC_X1_03,ECC X-coordinate Word3 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x818++0x03
line.long 0x00 "CRYPTO_ECC_X1_04,ECC X-coordinate Word4 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x81C++0x03
line.long 0x00 "CRYPTO_ECC_X1_05,ECC X-coordinate Word5 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x820++0x03
line.long 0x00 "CRYPTO_ECC_X1_06,ECC X-coordinate Word6 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x824++0x03
line.long 0x00 "CRYPTO_ECC_X1_07,ECC X-coordinate Word7 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x828++0x03
line.long 0x00 "CRYPTO_ECC_X1_08,ECC X-coordinate Word8 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x82C++0x03
line.long 0x00 "CRYPTO_ECC_X1_09,ECC X-coordinate Word9 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x830++0x03
line.long 0x00 "CRYPTO_ECC_X1_10,ECC X-coordinate Word10 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x834++0x03
line.long 0x00 "CRYPTO_ECC_X1_11,ECC X-coordinate Word11 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x838++0x03
line.long 0x00 "CRYPTO_ECC_X1_12,ECC X-coordinate Word12 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x83C++0x03
line.long 0x00 "CRYPTO_ECC_X1_13,ECC X-coordinate Word13 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x840++0x03
line.long 0x00 "CRYPTO_ECC_X1_14,ECC X-coordinate Word14 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x844++0x03
line.long 0x00 "CRYPTO_ECC_X1_15,ECC X-coordinate Word15 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x848++0x03
line.long 0x00 "CRYPTO_ECC_X1_16,ECC X-coordinate Word16 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x84C++0x03
line.long 0x00 "CRYPTO_ECC_X1_17,ECC X-coordinate Word17 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTX1,ECC the X-coordinate Value of the First Point (POINTX1)\nFor B-163 or K-163 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_05\nFor B-233 or K-233 POINTX1 is stored in CRYPTO_ECC_X1_00~CRYPTO_ECC_X1_07\nFor B-283 or K-283 POINTX1 is stored.."
group.long 0x850++0x03
line.long 0x00 "CRYPTO_ECC_Y1_00,ECC Y-coordinate Word0 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x854++0x03
line.long 0x00 "CRYPTO_ECC_Y1_01,ECC Y-coordinate Word1 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x858++0x03
line.long 0x00 "CRYPTO_ECC_Y1_02,ECC Y-coordinate Word2 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x85C++0x03
line.long 0x00 "CRYPTO_ECC_Y1_03,ECC Y-coordinate Word3 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x860++0x03
line.long 0x00 "CRYPTO_ECC_Y1_04,ECC Y-coordinate Word4 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x864++0x03
line.long 0x00 "CRYPTO_ECC_Y1_05,ECC Y-coordinate Word5 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x868++0x03
line.long 0x00 "CRYPTO_ECC_Y1_06,ECC Y-coordinate Word6 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x86C++0x03
line.long 0x00 "CRYPTO_ECC_Y1_07,ECC Y-coordinate Word7 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x870++0x03
line.long 0x00 "CRYPTO_ECC_Y1_08,ECC Y-coordinate Word8 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x874++0x03
line.long 0x00 "CRYPTO_ECC_Y1_09,ECC Y-coordinate Word9 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x878++0x03
line.long 0x00 "CRYPTO_ECC_Y1_10,ECC Y-coordinate Word10 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x87C++0x03
line.long 0x00 "CRYPTO_ECC_Y1_11,ECC Y-coordinate Word11 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x880++0x03
line.long 0x00 "CRYPTO_ECC_Y1_12,ECC Y-coordinate Word12 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x884++0x03
line.long 0x00 "CRYPTO_ECC_Y1_13,ECC Y-coordinate Word13 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x888++0x03
line.long 0x00 "CRYPTO_ECC_Y1_14,ECC Y-coordinate Word14 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x88C++0x03
line.long 0x00 "CRYPTO_ECC_Y1_15,ECC Y-coordinate Word15 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x890++0x03
line.long 0x00 "CRYPTO_ECC_Y1_16,ECC Y-coordinate Word16 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x894++0x03
line.long 0x00 "CRYPTO_ECC_Y1_17,ECC Y-coordinate Word17 of the First Point"
hexmask.long 0x00 0.--31. 1. "POINTY1,ECC the Y-coordinate Value of the First Point (POINTY1)\nFor B-163 or K-163 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_05\nFor B-233 or K-233 POINTY1 is stored in CRYPTO_ECC_Y1_00~CRYPTO_ECC_Y1_07\nFor B-283 or K-283 POINTY1 is stored.."
group.long 0x898++0x03
line.long 0x00 "CRYPTO_ECC_X2_00,ECC X-coordinate Word0 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x89C++0x03
line.long 0x00 "CRYPTO_ECC_X2_01,ECC X-coordinate Word1 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8A0++0x03
line.long 0x00 "CRYPTO_ECC_X2_02,ECC X-coordinate Word2 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8A4++0x03
line.long 0x00 "CRYPTO_ECC_X2_03,ECC X-coordinate Word3 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8A8++0x03
line.long 0x00 "CRYPTO_ECC_X2_04,ECC X-coordinate Word4 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8AC++0x03
line.long 0x00 "CRYPTO_ECC_X2_05,ECC X-coordinate Word5 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8B0++0x03
line.long 0x00 "CRYPTO_ECC_X2_06,ECC X-coordinate Word6 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8B4++0x03
line.long 0x00 "CRYPTO_ECC_X2_07,ECC X-coordinate Word7 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8B8++0x03
line.long 0x00 "CRYPTO_ECC_X2_08,ECC X-coordinate Word8 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8BC++0x03
line.long 0x00 "CRYPTO_ECC_X2_09,ECC X-coordinate Word9 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8C0++0x03
line.long 0x00 "CRYPTO_ECC_X2_10,ECC X-coordinate Word10 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8C4++0x03
line.long 0x00 "CRYPTO_ECC_X2_11,ECC X-coordinate Word11 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8C8++0x03
line.long 0x00 "CRYPTO_ECC_X2_12,ECC X-coordinate Word12 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8CC++0x03
line.long 0x00 "CRYPTO_ECC_X2_13,ECC X-coordinate Word13 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8D0++0x03
line.long 0x00 "CRYPTO_ECC_X2_14,ECC X-coordinate Word14 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8D4++0x03
line.long 0x00 "CRYPTO_ECC_X2_15,ECC X-coordinate Word15 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8D8++0x03
line.long 0x00 "CRYPTO_ECC_X2_16,ECC X-coordinate Word16 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8DC++0x03
line.long 0x00 "CRYPTO_ECC_X2_17,ECC X-coordinate Word17 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTX2,ECC the X-coordinate Value of the Second Point (POINTX2)\nFor B-163 or K-163 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_05\nFor B-233 or K-233 POINTX2 is stored in CRYPTO_ECC_X2_00~CRYPTO_ECC_X2_07\nFor B-283 or K-283 POINTX2 is stored.."
group.long 0x8E0++0x03
line.long 0x00 "CRYPTO_ECC_Y2_00,ECC Y-coordinate Word0 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x8E4++0x03
line.long 0x00 "CRYPTO_ECC_Y2_01,ECC Y-coordinate Word1 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x8E8++0x03
line.long 0x00 "CRYPTO_ECC_Y2_02,ECC Y-coordinate Word2 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x8EC++0x03
line.long 0x00 "CRYPTO_ECC_Y2_03,ECC Y-coordinate Word3 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x8F0++0x03
line.long 0x00 "CRYPTO_ECC_Y2_04,ECC Y-coordinate Word4 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x8F4++0x03
line.long 0x00 "CRYPTO_ECC_Y2_05,ECC Y-coordinate Word5 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x8F8++0x03
line.long 0x00 "CRYPTO_ECC_Y2_06,ECC Y-coordinate Word6 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x8FC++0x03
line.long 0x00 "CRYPTO_ECC_Y2_07,ECC Y-coordinate Word7 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x900++0x03
line.long 0x00 "CRYPTO_ECC_Y2_08,ECC Y-coordinate Word8 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x904++0x03
line.long 0x00 "CRYPTO_ECC_Y2_09,ECC Y-coordinate Word9 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x908++0x03
line.long 0x00 "CRYPTO_ECC_Y2_10,ECC Y-coordinate Word10 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x90C++0x03
line.long 0x00 "CRYPTO_ECC_Y2_11,ECC Y-coordinate Word11 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x910++0x03
line.long 0x00 "CRYPTO_ECC_Y2_12,ECC Y-coordinate Word12 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x914++0x03
line.long 0x00 "CRYPTO_ECC_Y2_13,ECC Y-coordinate Word13 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x918++0x03
line.long 0x00 "CRYPTO_ECC_Y2_14,ECC Y-coordinate Word14 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x91C++0x03
line.long 0x00 "CRYPTO_ECC_Y2_15,ECC Y-coordinate Word15 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x920++0x03
line.long 0x00 "CRYPTO_ECC_Y2_16,ECC Y-coordinate Word16 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x924++0x03
line.long 0x00 "CRYPTO_ECC_Y2_17,ECC Y-coordinate Word17 of the Second Point"
hexmask.long 0x00 0.--31. 1. "POINTY2,ECC the Y-coordinate Value of the Second Point (POINTY2)\nFor B-163 or K-163 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_05\nFor B-233 or K-233 POINTY2 is stored in CRYPTO_ECC_Y2_00~CRYPTO_ECC_Y2_07\nFor B-283 or K-283 POINTY2 is stored.."
group.long 0x928++0x03
line.long 0x00 "CRYPTO_ECC_A_00,ECC Parameter CURVEA Word0 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x92C++0x03
line.long 0x00 "CRYPTO_ECC_A_01,ECC Parameter CURVEA Word1 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x930++0x03
line.long 0x00 "CRYPTO_ECC_A_02,ECC Parameter CURVEA Word2 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x934++0x03
line.long 0x00 "CRYPTO_ECC_A_03,ECC Parameter CURVEA Word3 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x938++0x03
line.long 0x00 "CRYPTO_ECC_A_04,ECC Parameter CURVEA Word4 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x93C++0x03
line.long 0x00 "CRYPTO_ECC_A_05,ECC Parameter CURVEA Word5 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x940++0x03
line.long 0x00 "CRYPTO_ECC_A_06,ECC Parameter CURVEA Word6 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x944++0x03
line.long 0x00 "CRYPTO_ECC_A_07,ECC Parameter CURVEA Word7 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x948++0x03
line.long 0x00 "CRYPTO_ECC_A_08,ECC Parameter CURVEA Word8 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x94C++0x03
line.long 0x00 "CRYPTO_ECC_A_09,ECC Parameter CURVEA Word9 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x950++0x03
line.long 0x00 "CRYPTO_ECC_A_10,ECC Parameter CURVEA Word10 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x954++0x03
line.long 0x00 "CRYPTO_ECC_A_11,ECC Parameter CURVEA Word11 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x958++0x03
line.long 0x00 "CRYPTO_ECC_A_12,ECC Parameter CURVEA Word12 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x95C++0x03
line.long 0x00 "CRYPTO_ECC_A_13,ECC Parameter CURVEA Word13 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x960++0x03
line.long 0x00 "CRYPTO_ECC_A_14,ECC Parameter CURVEA Word14 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x964++0x03
line.long 0x00 "CRYPTO_ECC_A_15,ECC Parameter CURVEA Word15 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x968++0x03
line.long 0x00 "CRYPTO_ECC_A_16,ECC Parameter CURVEA Word16 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x96C++0x03
line.long 0x00 "CRYPTO_ECC_A_17,ECC Parameter CURVEA Word17 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEA,ECC the Parameter CURVEA Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_05\nFor B-233 or K-233 CURVEA is stored in CRYPTO_ECC_A_00~CRYPTO_ECC_A_07\nFor B-283 or K-283 CURVEA is stored in.."
group.long 0x970++0x03
line.long 0x00 "CRYPTO_ECC_B_00,ECC Parameter CURVEB Word0 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x974++0x03
line.long 0x00 "CRYPTO_ECC_B_01,ECC Parameter CURVEB Word1 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x978++0x03
line.long 0x00 "CRYPTO_ECC_B_02,ECC Parameter CURVEB Word2 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x97C++0x03
line.long 0x00 "CRYPTO_ECC_B_03,ECC Parameter CURVEB Word3 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x980++0x03
line.long 0x00 "CRYPTO_ECC_B_04,ECC Parameter CURVEB Word4 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x984++0x03
line.long 0x00 "CRYPTO_ECC_B_05,ECC Parameter CURVEB Word5 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x988++0x03
line.long 0x00 "CRYPTO_ECC_B_06,ECC Parameter CURVEB Word6 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x98C++0x03
line.long 0x00 "CRYPTO_ECC_B_07,ECC Parameter CURVEB Word7 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x990++0x03
line.long 0x00 "CRYPTO_ECC_B_08,ECC Parameter CURVEB Word8 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x994++0x03
line.long 0x00 "CRYPTO_ECC_B_09,ECC Parameter CURVEB Word9 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x998++0x03
line.long 0x00 "CRYPTO_ECC_B_10,ECC Parameter CURVEB Word10 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x99C++0x03
line.long 0x00 "CRYPTO_ECC_B_11,ECC Parameter CURVEB Word11 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x9A0++0x03
line.long 0x00 "CRYPTO_ECC_B_12,ECC Parameter CURVEB Word12 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x9A4++0x03
line.long 0x00 "CRYPTO_ECC_B_13,ECC Parameter CURVEB Word13 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x9A8++0x03
line.long 0x00 "CRYPTO_ECC_B_14,ECC Parameter CURVEB Word14 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x9AC++0x03
line.long 0x00 "CRYPTO_ECC_B_15,ECC Parameter CURVEB Word15 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x9B0++0x03
line.long 0x00 "CRYPTO_ECC_B_16,ECC Parameter CURVEB Word16 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x9B4++0x03
line.long 0x00 "CRYPTO_ECC_B_17,ECC Parameter CURVEB Word17 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEB,ECC the Parameter CURVEB Value of Elliptic Curve (CURVEA)\nFor B-163 or K-163 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_05\nFor B-233 or K-233 CURVEB is stored in CRYPTO_ECC_B_00~CRYPTO_ECC_B_07\nFor B-283 or K-283 CURVEB is stored in.."
group.long 0x9B8++0x03
line.long 0x00 "CRYPTO_ECC_N_00,ECC Parameter CURVEN Word0 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9BC++0x03
line.long 0x00 "CRYPTO_ECC_N_01,ECC Parameter CURVEN Word1 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9C0++0x03
line.long 0x00 "CRYPTO_ECC_N_02,ECC Parameter CURVEN Word2 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9C4++0x03
line.long 0x00 "CRYPTO_ECC_N_03,ECC Parameter CURVEN Word3 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9C8++0x03
line.long 0x00 "CRYPTO_ECC_N_04,ECC Parameter CURVEN Word4 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9CC++0x03
line.long 0x00 "CRYPTO_ECC_N_05,ECC Parameter CURVEN Word5 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9D0++0x03
line.long 0x00 "CRYPTO_ECC_N_06,ECC Parameter CURVEN Word6 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9D4++0x03
line.long 0x00 "CRYPTO_ECC_N_07,ECC Parameter CURVEN Word7 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9D8++0x03
line.long 0x00 "CRYPTO_ECC_N_08,ECC Parameter CURVEN Word8 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9DC++0x03
line.long 0x00 "CRYPTO_ECC_N_09,ECC Parameter CURVEN Word9 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9E0++0x03
line.long 0x00 "CRYPTO_ECC_N_10,ECC Parameter CURVEN Word10 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9E4++0x03
line.long 0x00 "CRYPTO_ECC_N_11,ECC Parameter CURVEN Word11 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9E8++0x03
line.long 0x00 "CRYPTO_ECC_N_12,ECC Parameter CURVEN Word12 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9EC++0x03
line.long 0x00 "CRYPTO_ECC_N_13,ECC Parameter CURVEN Word13 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9F0++0x03
line.long 0x00 "CRYPTO_ECC_N_14,ECC Parameter CURVEN Word14 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9F4++0x03
line.long 0x00 "CRYPTO_ECC_N_15,ECC Parameter CURVEN Word15 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9F8++0x03
line.long 0x00 "CRYPTO_ECC_N_16,ECC Parameter CURVEN Word16 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
group.long 0x9FC++0x03
line.long 0x00 "CRYPTO_ECC_N_17,ECC Parameter CURVEN Word17 of Elliptic Curve"
hexmask.long 0x00 0.--31. 1. "CURVEN,ECC the Parameter CURVEN Value of Elliptic Curve (CURVEN)\nIn GF(p) CURVEN is the prime p.\nIn GF(2m) CURVEN is the irreducible polynomial.\nFor B-163 or K-163 CURVEN is stored in CRYPTO_ECC_N_00~CRYPTO_ECC_N_05\nFor B-233 or K-233 CURVEN is.."
wgroup.long 0xA00++0x03
line.long 0x00 "CRYPTO_ECC_K_00,ECC Scalar SCALARK Word0 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA04++0x03
line.long 0x00 "CRYPTO_ECC_K_01,ECC Scalar SCALARK Word1 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA08++0x03
line.long 0x00 "CRYPTO_ECC_K_02,ECC Scalar SCALARK Word2 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA0C++0x03
line.long 0x00 "CRYPTO_ECC_K_03,ECC Scalar SCALARK Word3 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA10++0x03
line.long 0x00 "CRYPTO_ECC_K_04,ECC Scalar SCALARK Word4 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA14++0x03
line.long 0x00 "CRYPTO_ECC_K_05,ECC Scalar SCALARK Word5 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA18++0x03
line.long 0x00 "CRYPTO_ECC_K_06,ECC Scalar SCALARK Word6 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA1C++0x03
line.long 0x00 "CRYPTO_ECC_K_07,ECC Scalar SCALARK Word7 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA20++0x03
line.long 0x00 "CRYPTO_ECC_K_08,ECC Scalar SCALARK Word8 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA24++0x03
line.long 0x00 "CRYPTO_ECC_K_09,ECC Scalar SCALARK Word9 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA28++0x03
line.long 0x00 "CRYPTO_ECC_K_10,ECC Scalar SCALARK Word10 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA2C++0x03
line.long 0x00 "CRYPTO_ECC_K_11,ECC Scalar SCALARK Word11 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA30++0x03
line.long 0x00 "CRYPTO_ECC_K_12,ECC Scalar SCALARK Word12 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA34++0x03
line.long 0x00 "CRYPTO_ECC_K_13,ECC Scalar SCALARK Word13 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA38++0x03
line.long 0x00 "CRYPTO_ECC_K_14,ECC Scalar SCALARK Word14 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA3C++0x03
line.long 0x00 "CRYPTO_ECC_K_15,ECC Scalar SCALARK Word15 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA40++0x03
line.long 0x00 "CRYPTO_ECC_K_16,ECC Scalar SCALARK Word16 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA44++0x03
line.long 0x00 "CRYPTO_ECC_K_17,ECC Scalar SCALARK Word17 of Point Multiplication"
hexmask.long 0x00 0.--31. 1. "SCALARK,ECC the Scalar SCALARK Value of Point Multiplication(SCALARK)\nBecause the SCALARK usually stores the private key ECC accelerator do not allow to read the register SCALARK.\nFor B-163 or K-163 SCALARK is stored in.."
group.long 0xA48++0x03
line.long 0x00 "CRYPTO_ECC_SADDR,ECC DMA Source Address Register"
group.long 0xA4C++0x03
line.long 0x00 "CRYPTO_ECC_DADDR,ECC DMA Destination Address Register"
hexmask.long 0x00 0.--31. 1. "DADDR,ECC DMA Destination Address \nThe ECC accelerator supports DMA function to transfer the DATA and PARAMETER between SRAM memory and ECC accelerator"
group.long 0xA50++0x03
line.long 0x00 "CRYPTO_ECC_STARTREG,ECC Starting Address of Updated Registers"
hexmask.long 0x00 0.--31. 1. "STARTREG,ECC Starting Address of Updated Registers\nThe address of the updated registers that DMA feeds the first data or parameter to ECC engine"
group.long 0xA54++0x03
line.long 0x00 "CRYPTO_ECC_WORDCNT,ECC DMA Word Count"
hexmask.long 0x00 0.--31. 1. "WORDCNT,ECC DMA Word Count \nThe CRYPTO_ECC_WORDCNT keeps the word count of source data that is for the required input data of ECC accelerator with various operations in DMA mode"
tree.end
tree "DAC"
base ad:0x40047000
group.long 0x00++0x03
line.long 0x00 "DAC0_CTL,DAC0 Control Register"
bitfld.long 0x00 16. "GRPEN,DAC Group Mode Enable Bit" "0: DAC0 and DAC1 are not grouped,1: DAC0 and DAC1 are grouped"
bitfld.long 0x00 14.--15. "BWSEL,DAC Data Bit-width Selection" "0: data is 12 bits,1: data is 8 bits,?..."
newline
bitfld.long 0x00 12.--13. "ETRGSEL,External Pin Trigger Selection" "0: Low level trigger,1: High level trigger,2: Falling edge trigger,3: Rising edge trigger"
bitfld.long 0x00 10. "LALIGN,DAC Data Left-aligned Enabled Bit" "0: Right alignment,1: Left alignment"
newline
bitfld.long 0x00 8. "BYPASS,Bypass Buffer Mode" "0: Output voltage buffer Enabled,1: Output voltage buffer Disabled"
bitfld.long 0x00 5.--7. "TRGSEL,Trigger Source Selection" "0: Software trigger,1: External pin DAC0_ST trigger,2: Timer 0 trigger,3: Timer 1 trigger,4: Timer 2 trigger,5: Timer 3 trigger,6: EPWM0 trigger,7: EPWM1 trigger"
newline
bitfld.long 0x00 4. "TRGEN,Trigger Mode Enable Bit" "0: DAC event trigger mode Disabled,1: DAC event trigger mode Enabled"
bitfld.long 0x00 3. "DMAURIEN,DMA Under-run Interrupt Enable Bit" "0: DMA under-run interrupt Disabled,1: DMA under-run interrupt Enabled"
newline
bitfld.long 0x00 2. "DMAEN,DMA Mode Enable Bit" "0: DMA mode Disabled,1: DMA mode Enabled"
bitfld.long 0x00 1. "DACIEN,DAC Interrupt Enable Bit" "0: DAC interrupt Disabled,1: DAC interrupt Enabled"
newline
bitfld.long 0x00 0. "DACEN,DAC Enable Bit" "0: DAC Disabled,1: DAC Enabled"
group.long 0x04++0x03
line.long 0x00 "DAC0_SWTRG,DAC0 Software Trigger Control Register"
bitfld.long 0x00 0. "SWTRG,Software Trigger\nNote: User writes this bit to generate one shot pulse and it is cleared to 0 by hardware automatically reading this bit will always get 0" "0: Software trigger Disabled,1: Software trigger Enabled"
group.long 0x08++0x03
line.long 0x00 "DAC0_DAT,DAC0 Data Holding Register"
hexmask.long.word 0x00 0.--15. 1. "DACDAT,DAC 12-bit Holding Data\nThese bits are written by user software which specifies 12-bit conversion data for DAC output"
rgroup.long 0x0C++0x03
line.long 0x00 "DAC0_DATOUT,DAC0 Data Output Register"
hexmask.long.word 0x00 0.--11. 1. "DATOUT,DAC 12-bit Output Data\nThese bits are current digital data for DAC output conversion.\nIt is loaded from DAC_DAT register and user cannot write it directly"
group.long 0x10++0x03
line.long 0x00 "DAC0_STATUS,DAC0 Status Register"
rbitfld.long 0x00 8. "BUSY,DAC Busy Flag (Read Only)" "0: DAC is ready for next conversion,1: DAC is busy in conversion"
bitfld.long 0x00 1. "DMAUDR,DMA Under-run Interrupt Flag\nNote: User writes 1 to clear this bit" "0: No DMA under-run error condition occurred,1: DMA under-run error condition occurred"
newline
bitfld.long 0x00 0. "FINISH,DAC Conversion Complete Finish Flag\nNote: This bit is set to 1 when conversion time counter counts to SETTLET" "0: DAC is in conversion state,1: DAC conversion finish"
group.long 0x14++0x03
line.long 0x00 "DAC0_TCTL,DAC0 Timing Control Register"
hexmask.long.word 0x00 0.--9. 1. "SETTLET,DAC Output Settling Time\nUser software needs to write appropriate value to these bits to meet DAC conversion settling time base on PCLK (APB clock) speed.\nFor example DAC controller clock speed is 80 MHz and DAC conversion settling time is 1.."
group.long 0x40++0x03
line.long 0x00 "DAC1_CTL,DAC1 Control Register"
bitfld.long 0x00 14.--15. "BWSEL,DAC Data Bit-width Selection" "0: Data is 12 bits,1: Data is 8 bits,?..."
bitfld.long 0x00 12.--13. "ETRGSEL,External Pin Trigger Selection" "0: Low level trigger,1: High level trigger,2: Falling edge trigger,3: Rising edge trigger"
newline
bitfld.long 0x00 10. "LALIGN,DAC Data Left-aligned Enable Control" "0: Right alignment,1: Left alignment"
bitfld.long 0x00 8. "BYPASS,Bypass Buffer Mode" "0: Output voltage buffer Enabled,1: Output voltage buffer Disabled"
newline
bitfld.long 0x00 5.--7. "TRGSEL,Trigger Source Selection" "0: Software trigger,1: External pin DAC1_ST trigger,2: Timer 0 trigger,3: Timer 1 trigger,4: Timer 2 trigger,5: Timer 3 trigger,6: EPWM0 trigger,7: EPWM1 trigger"
bitfld.long 0x00 4. "TRGEN,Trigger Mode Enable Bit" "0: DAC event trigger mode Disabled,1: DAC event trigger mode Enabled"
newline
bitfld.long 0x00 3. "DMAURIEN,DMA Under-run Interrupt Enable Bit" "0: DMA under-run interrupt Disabled,1: DMA under-run interrupt Enabled"
bitfld.long 0x00 2. "DMAEN,DMA Mode Enable Bit" "0: DMA mode Disabled,1: DMA mode Enabled"
newline
bitfld.long 0x00 1. "DACIEN,DAC Interrupt Enable Bit" "0: DAC interrupt Disabled,1: DAC interrupt Enabled"
bitfld.long 0x00 0. "DACEN,DAC Enable Bit" "0: DAC Disabled,1: DAC Enabled"
group.long 0x44++0x03
line.long 0x00 "DAC1_SWTRG,DAC1 Software Trigger Control Register"
bitfld.long 0x00 0. "SWTRG,Software Trigger\nNote: User writes this bit to generate one shot pulse and it is cleared to 0 by hardware automatically Reading this bit will always get 0" "0: Software trigger Disabled,1: Software trigger Enabled"
group.long 0x48++0x03
line.long 0x00 "DAC1_DAT,DAC1 Data Holding Register"
hexmask.long.word 0x00 0.--15. 1. "DACDAT,DAC 12-bit Holding Data\nThese bits are written by user software which specifies 12-bit conversion data for DAC output"
rgroup.long 0x4C++0x03
line.long 0x00 "DAC1_DATOUT,DAC1 Data Output Register"
hexmask.long.word 0x00 0.--11. 1. "DATOUT,DAC 12-bit Output Data\nThese bits are current digital data for DAC output conversion.\nIt is loaded from DAC_DAT register and user cannot write it directly"
group.long 0x50++0x03
line.long 0x00 "DAC1_STATUS,DAC1 Status Register"
rbitfld.long 0x00 8. "BUSY,DAC Busy Flag (Read Only)" "0: DAC is ready for next conversion,1: DAC is busy in conversion"
bitfld.long 0x00 1. "DMAUDR,DMA Under-run Interrupt Flag\nNote: User writes 1 to clear this bit" "0: No DMA under-run error condition occurred,1: DMA under-run error condition occurred"
newline
bitfld.long 0x00 0. "FINISH,DAC Conversion Complete Finish Flag\nNote: This bit set to 1 when conversion time counter counts to SETTLET" "0: DAC is in conversion state,1: DAC conversion finished"
group.long 0x54++0x03
line.long 0x00 "DAC1_TCTL,DAC1 Timing Control Register"
hexmask.long.word 0x00 0.--9. 1. "SETTLET,DAC Output Settling Time\nUser software needs to write appropriate value to these bits to meet DAC conversion settling time base on PCLK (APB clock) speed.\nFor example DAC controller clock speed is 80 MHz and DAC conversion settling time is 1.."
tree.end
tree "EADC"
repeat 2. (list 0. 1.) (list ad:0x40043000 ad:0x4004B000)
tree "EADC$1"
base $2
rgroup.long 0x00++0x03
line.long 0x00 "EADC0_DAT0,EADC Data Register 0 for Sample Module 0"
bitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
bitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x00++0x03
line.long 0x00 "EADC1_DAT0,EADC Data Register 0 for Sample Module 0"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x04++0x03
line.long 0x00 "EADC0_DAT1,EADC Data Register 1 for Sample Module 1"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x04++0x03
line.long 0x00 "EADC1_DAT1,EADC Data Register 1 for Sample Module 1"
group.long 0x08++0x03
line.long 0x00 "EADC0_DAT2,EADC Data Register 2 for Sample Module 2"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x08++0x03
line.long 0x00 "EADC1_DAT2,EADC Data Register 2 for Sample Module 2"
group.long 0x0C++0x03
line.long 0x00 "EADC0_DAT3,EADC Data Register 3 for Sample Module 3"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x0C++0x03
line.long 0x00 "EADC1_DAT3,EADC Data Register 3 for Sample Module 3"
group.long 0x10++0x03
line.long 0x00 "EADC0_DAT4,EADC Data Register 4 for Sample Module 4"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x10++0x03
line.long 0x00 "EADC1_DAT4,EADC Data Register 4 for Sample Module 4"
group.long 0x14++0x03
line.long 0x00 "EADC0_DAT5,EADC Data Register 5 for Sample Module 5"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x14++0x03
line.long 0x00 "EADC1_DAT5,EADC Data Register 5 for Sample Module 5"
group.long 0x18++0x03
line.long 0x00 "EADC0_DAT6,EADC Data Register 6 for Sample Module 6"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x18++0x03
line.long 0x00 "EADC1_DAT6,EADC Data Register 6 for Sample Module 6"
group.long 0x1C++0x03
line.long 0x00 "EADC0_DAT7,EADC Data Register 7 for Sample Module 7"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x1C++0x03
line.long 0x00 "EADC1_DAT7,EADC Data Register 7 for Sample Module 7"
group.long 0x20++0x03
line.long 0x00 "EADC0_DAT8,EADC Data Register 8 for Sample Module 8"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x20++0x03
line.long 0x00 "EADC1_DAT8,EADC Data Register 8 for Sample Module 8"
group.long 0x24++0x03
line.long 0x00 "EADC0_DAT9,EADC Data Register 9 for Sample Module 9"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x24++0x03
line.long 0x00 "EADC1_DAT9,EADC Data Register 9 for Sample Module 9"
group.long 0x28++0x03
line.long 0x00 "EADC0_DAT10,EADC Data Register 10 for Sample Module 10"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x28++0x03
line.long 0x00 "EADC1_DAT10,EADC Data Register 10 for Sample Module 10"
group.long 0x2C++0x03
line.long 0x00 "EADC0_DAT11,EADC Data Register 11 for Sample Module 11"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x2C++0x03
line.long 0x00 "EADC1_DAT11,EADC Data Register 11 for Sample Module 11"
group.long 0x30++0x03
line.long 0x00 "EADC0_DAT12,EADC Data Register 12 for Sample Module 12"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x30++0x03
line.long 0x00 "EADC1_DAT12,EADC Data Register 12 for Sample Module 12"
group.long 0x34++0x03
line.long 0x00 "EADC0_DAT13,EADC Data Register 13 for Sample Module 13"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x34++0x03
line.long 0x00 "EADC1_DAT13,EADC Data Register 13 for Sample Module 13"
group.long 0x38++0x03
line.long 0x00 "EADC0_DAT14,EADC Data Register 14 for Sample Module 14"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x38++0x03
line.long 0x00 "EADC1_DAT14,EADC Data Register 14 for Sample Module 14"
group.long 0x3C++0x03
line.long 0x00 "EADC0_DAT15,EADC Data Register 15 for Sample Module 15"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x3C++0x03
line.long 0x00 "EADC1_DAT15,EADC Data Register 15 for Sample Module 15"
group.long 0x40++0x03
line.long 0x00 "EADC0_DAT16,EADC Data Register 16 for Sample Module 16"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x40++0x03
line.long 0x00 "EADC1_DAT16,EADC Data Register 16 for Sample Module 16"
group.long 0x44++0x03
line.long 0x00 "EADC0_DAT17,EADC Data Register 17 for Sample Module 17"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x44++0x03
line.long 0x00 "EADC1_DAT17,EADC Data Register 17 for Sample Module 17"
group.long 0x48++0x03
line.long 0x00 "EADC0_DAT18,EADC Data Register 18 for Sample Module 18"
rbitfld.long 0x00 17. "VALID,Valid Flag\nThis bit is set to 1 when corresponding sample module channel analog input conversion is completed and cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] bits is not valid,1: Data in RESULT[11:0] bits is valid"
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[11:0] has not been read before new conversion result is loaded to this register OV is set to 1.\nNote: It is cleared by hardware after EADC_DAT register is" "0: Data in RESULT[11:0] is recent conversion..,1: Data in RESULT[11:0] is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Result\nThis field contains 12 bits conversion result.\nWhen DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT[11:0] and zero will be filled in RESULT[15:12].\nWhen DMOF.."
group.long 0x48++0x03
line.long 0x00 "EADC1_DAT18,EADC Data Register 18 for Sample Module 18"
rgroup.long 0x4C++0x03
line.long 0x00 "EADC0_CURDAT,EADC PDMA Current Transfer Data Register"
hexmask.long.tbyte 0x00 0.--17. 1. "CURDAT,EADC PDMA Current Transfer Data (Read Only)"
group.long 0x4C++0x03
line.long 0x00 "EADC1_CURDAT,EADC PDMA Current Transfer Data Register"
hexmask.long.tbyte 0x00 0.--17. 1. "CURDAT,EADC PDMA Current Transfer Data (Read Only)"
group.long 0x50++0x03
line.long 0x00 "EADC0_CTL,EADC Control Register"
bitfld.long 0x00 9. "DMOF,EADC Differential Input Mode Output Format" "0: EADC conversion result will be filled in..,1: EADC conversion result will be filled in.."
bitfld.long 0x00 8. "DIFFEN,Differential Analog Input Mode Enable Bit" "0: Single-end analog input mode,1: Differential analog input mode"
newline
bitfld.long 0x00 6.--7. "RESSEL,Resolution Selection" "0: 6-bit EADC result will be put at RESULT..,1: 8-bit EADC result will be put at RESULT..,2: 10-bit EADC result will be put at RESULT..,3: 12-bit EADC result will be put at RESULT.."
bitfld.long 0x00 5. "ADCIEN3,Specific Sample Module EADC ADINT3 Interrupt Enable Bit\nThe EADC converter generates a conversion end ADIF3 (EADC_STATUS2[3]) upon the end of specific sample module EADC conversion" "0: Specific sample module EADC ADINT3 interrupt..,1: Specific sample module EADC ADINT3 interrupt.."
newline
bitfld.long 0x00 4. "ADCIEN2,Specific Sample Module EADC ADINT2 Interrupt Enable Bit\nThe EADC converter generates a conversion end ADIF2 (EADC_STATUS2[2]) upon the end of specific sample module EADC conversion" "0: Specific sample module EADC ADINT2 interrupt..,1: Specific sample module EADC ADINT2 interrupt.."
bitfld.long 0x00 3. "ADCIEN1,Specific Sample Module EADC ADINT1 Interrupt Enable Bit\nThe EADC converter generates a conversion end ADIF1 (EADC_STATUS2[1]) upon the end of specific sample module EADC conversion" "0: Specific sample module EADC ADINT1 interrupt..,1: Specific sample module EADC ADINT1 interrupt.."
newline
bitfld.long 0x00 2. "ADCIEN0,Specific Sample Module EADC ADINT0 Interrupt Enable Bit\nThe EADC converter generates a conversion end ADIF0 (EADC_STATUS2[0]) upon the end of specific sample module EADC conversion" "0: Specific sample module EADC ADINT0 interrupt..,1: Specific sample module EADC ADINT0 interrupt.."
bitfld.long 0x00 1. "ADCRST,EADC Converter Control Circuits Reset\nNote: EADCRST bit remains 1 during EADC reset when EADC reset end the EADCRST bit is automatically cleared to 0" "0: No effect,1: Cause EADC control circuits reset to initial.."
newline
bitfld.long 0x00 0. "ADCEN,EADC Converter Enable Bit\nNote: Before starting EADC conversion function this bit should be set to 1" "0: Disabled EADC,1: Enabled EADC"
group.long 0x50++0x03
line.long 0x00 "EADC1_CTL,EADC Control Register"
bitfld.long 0x00 9. "DMOF,EADC Differential Input Mode Output Format" "0: EADC conversion result will be filled in..,1: EADC conversion result will be filled in.."
bitfld.long 0x00 8. "DIFFEN,Differential Analog Input Mode Enable Bit" "0: Single-end analog input mode,1: Differential analog input mode"
newline
bitfld.long 0x00 6.--7. "RESSEL,Resolution Selection" "0: 6-bit EADC result will be put at RESULT..,1: 8-bit EADC result will be put at RESULT..,2: 10-bit EADC result will be put at RESULT..,3: 12-bit EADC result will be put at RESULT.."
bitfld.long 0x00 5. "ADCIEN3,Specific Sample Module EADC ADINT3 Interrupt Enable Bit\nThe EADC converter generates a conversion end ADIF3 (EADC_STATUS2[3]) upon the end of specific sample module EADC conversion" "0: Specific sample module EADC ADINT3 interrupt..,1: Specific sample module EADC ADINT3 interrupt.."
newline
bitfld.long 0x00 4. "ADCIEN2,Specific Sample Module EADC ADINT2 Interrupt Enable Bit\nThe EADC converter generates a conversion end ADIF2 (EADC_STATUS2[2]) upon the end of specific sample module EADC conversion" "0: Specific sample module EADC ADINT2 interrupt..,1: Specific sample module EADC ADINT2 interrupt.."
bitfld.long 0x00 3. "ADCIEN1,Specific Sample Module EADC ADINT1 Interrupt Enable Bit\nThe EADC converter generates a conversion end ADIF1 (EADC_STATUS2[1]) upon the end of specific sample module EADC conversion" "0: Specific sample module EADC ADINT1 interrupt..,1: Specific sample module EADC ADINT1 interrupt.."
newline
bitfld.long 0x00 2. "ADCIEN0,Specific Sample Module EADC ADINT0 Interrupt Enable Bit\nThe EADC converter generates a conversion end ADIF0 (EADC_STATUS2[0]) upon the end of specific sample module EADC conversion" "0: Specific sample module EADC ADINT0 interrupt..,1: Specific sample module EADC ADINT0 interrupt.."
bitfld.long 0x00 1. "ADCRST,EADC Converter Control Circuits Reset\nNote: EADCRST bit remains 1 during EADC reset when EADC reset end the EADCRST bit is automatically cleared to 0" "0: No effect,1: Cause EADC control circuits reset to initial.."
newline
bitfld.long 0x00 0. "ADCEN,EADC Converter Enable Bit\nNote: Before starting EADC conversion function this bit should be set to 1" "0: Disabled EADC,1: Enabled EADC"
wgroup.long 0x54++0x03
line.long 0x00 "EADC0_SWTRG,EADC Sample Module Software Start Register"
hexmask.long.tbyte 0x00 0.--18. 1. "SWTRG,EADC Sample Module 0~18 Software Force to Start EADC Conversion\nNote: After writing this register to start EADC conversion the EADC_PENDSTS register will show which sample module will conversion"
group.long 0x54++0x03
line.long 0x00 "EADC1_SWTRG,EADC Sample Module Software Start Register"
hexmask.long.tbyte 0x00 0.--18. 1. "SWTRG,EADC Sample Module 0~18 Software Force to Start EADC Conversion\nNote: After writing this register to start EADC conversion the EADC_PENDSTS register will show which sample module will conversion"
group.long 0x58++0x03
line.long 0x00 "EADC0_PENDSTS,EADC Start of Conversion Pending Flag Register"
hexmask.long.tbyte 0x00 0.--18. 1. "STPF,EADC Sample Module 0~18 Start of Conversion Pending Flag\nRead Operation"
group.long 0x58++0x03
line.long 0x00 "EADC1_PENDSTS,EADC Start of Conversion Pending Flag Register"
hexmask.long.tbyte 0x00 0.--18. 1. "STPF,EADC Sample Module 0~18 Start of Conversion Pending Flag\nRead Operation"
group.long 0x5C++0x03
line.long 0x00 "EADC0_OVSTS,EADC Sample Module Start of Conversion Overrun Flag Register"
hexmask.long.tbyte 0x00 0.--18. 1. "SPOVF,EADC SAMPLE0~18 Overrun Flag\nNote: This bit is cleared by writing 1 to it"
group.long 0x5C++0x03
line.long 0x00 "EADC1_OVSTS,EADC Sample Module Start of Conversion Overrun Flag Register"
hexmask.long.tbyte 0x00 0.--18. 1. "SPOVF,EADC SAMPLE0~18 Overrun Flag\nNote: This bit is cleared by writing 1 to it"
group.long 0x80++0x03
line.long 0x00 "EADC0_SCTL0,EADC Sample Module 0 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy user can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 23. "DBMEN,Double Buffer Mode Enable Bit" "0: Sample has one sample result register (default),1: Sample has two sample result registers"
newline
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
newline
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
newline
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x03
line.long 0x00 "EADC1_SCTL0,EADC Sample Module 0 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy user can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 23. "DBMEN,Double Buffer Mode Enable Bit" "0: Sample has one sample result register (default),1: Sample has two sample result registers"
newline
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
newline
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
newline
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x84++0x03
line.long 0x00 "EADC0_SCTL1,EADC Sample Module 1 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy user can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 23. "DBMEN,Double Buffer Mode Enable Bit" "0: Sample has one sample result register (default),1: Sample has two sample result registers"
newline
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
newline
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
newline
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x84++0x03
line.long 0x00 "EADC1_SCTL1,EADC Sample Module 1 Control Register"
group.long 0x88++0x03
line.long 0x00 "EADC0_SCTL2,EADC Sample Module 2 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy user can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 23. "DBMEN,Double Buffer Mode Enable Bit" "0: Sample has one sample result register (default),1: Sample has two sample result registers"
newline
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
newline
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
newline
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x88++0x03
line.long 0x00 "EADC1_SCTL2,EADC Sample Module 2 Control Register"
group.long 0x8C++0x03
line.long 0x00 "EADC0_SCTL3,EADC Sample Module 3 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy user can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 23. "DBMEN,Double Buffer Mode Enable Bit" "0: Sample has one sample result register (default),1: Sample has two sample result registers"
newline
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
newline
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
newline
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x8C++0x03
line.long 0x00 "EADC1_SCTL3,EADC Sample Module 3 Control Register"
group.long 0x90++0x03
line.long 0x00 "EADC0_SCTL4,EADC Sample Module 4 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x90++0x03
line.long 0x00 "EADC1_SCTL4,EADC Sample Module 4 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x94++0x03
line.long 0x00 "EADC0_SCTL5,EADC Sample Module 5 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x94++0x03
line.long 0x00 "EADC1_SCTL5,EADC Sample Module 5 Control Register"
group.long 0x98++0x03
line.long 0x00 "EADC0_SCTL6,EADC Sample Module 6 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x98++0x03
line.long 0x00 "EADC1_SCTL6,EADC Sample Module 6 Control Register"
group.long 0x9C++0x03
line.long 0x00 "EADC0_SCTL7,EADC Sample Module 7 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x9C++0x03
line.long 0x00 "EADC1_SCTL7,EADC Sample Module 7 Control Register"
group.long 0xA0++0x03
line.long 0x00 "EADC0_SCTL8,EADC Sample Module 8 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA0++0x03
line.long 0x00 "EADC1_SCTL8,EADC Sample Module 8 Control Register"
group.long 0xA4++0x03
line.long 0x00 "EADC0_SCTL9,EADC Sample Module 9 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA4++0x03
line.long 0x00 "EADC1_SCTL9,EADC Sample Module 9 Control Register"
group.long 0xA8++0x03
line.long 0x00 "EADC0_SCTL10,EADC Sample Module 10 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xA8++0x03
line.long 0x00 "EADC1_SCTL10,EADC Sample Module 10 Control Register"
group.long 0xAC++0x03
line.long 0x00 "EADC0_SCTL11,EADC Sample Module 11 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xAC++0x03
line.long 0x00 "EADC1_SCTL11,EADC Sample Module 11 Control Register"
group.long 0xB0++0x03
line.long 0x00 "EADC0_SCTL12,EADC Sample Module 12 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xB0++0x03
line.long 0x00 "EADC1_SCTL12,EADC Sample Module 12 Control Register"
group.long 0xB4++0x03
line.long 0x00 "EADC0_SCTL13,EADC Sample Module 13 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xB4++0x03
line.long 0x00 "EADC1_SCTL13,EADC Sample Module 13 Control Register"
group.long 0xB8++0x03
line.long 0x00 "EADC0_SCTL14,EADC Sample Module 14 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xB8++0x03
line.long 0x00 "EADC1_SCTL14,EADC Sample Module 14 Control Register"
group.long 0xBC++0x03
line.long 0x00 "EADC0_SCTL15,EADC Sample Module 15 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
bitfld.long 0x00 22. "INTPOS,Interrupt Flag Position Select" "0: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC end..,1: Set ADIFn (EADC_STATUS2[n] n=0~3) at EADC.."
newline
bitfld.long 0x00 16.--20. "TRGSEL,EADC Sample Module Start of Conversion Trigger Source Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "TRGDLYCNT,EADC Sample Module Start of Conversion Trigger Delay Time"
newline
bitfld.long 0x00 6.--7. "TRGDLYDIV,EADC Sample Module Start of Conversion Trigger Delay Clock Divider Selection\nTrigger delay clock frequency" "0: EADC_CLK/1,1: EADC_CLK/2,2: EADC_CLK/4,3: EADC_CLK/16"
bitfld.long 0x00 5. "EXTFEN,EADC External Trigger Falling Edge Enable Bit" "0: Falling edge Disabled when EADC selects..,1: Falling edge Enabled when EADC selects.."
newline
bitfld.long 0x00 4. "EXTREN,EADC External Trigger Rising Edge Enable Bit" "0: Rising edge Disabled when EADC selects..,1: Rising edge Enabled when EADC selects.."
bitfld.long 0x00 0.--3. "CHSEL,EADC Sample Module Channel Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xBC++0x03
line.long 0x00 "EADC1_SCTL15,EADC Sample Module 15 Control Register"
group.long 0xC0++0x03
line.long 0x00 "EADC0_SCTL16,EADC Sample Module 16 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
group.long 0xC0++0x03
line.long 0x00 "EADC1_SCTL16,EADC Sample Module 16 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
group.long 0xC4++0x03
line.long 0x00 "EADC0_SCTL17,EADC Sample Module 17 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
group.long 0xC4++0x03
line.long 0x00 "EADC1_SCTL17,EADC Sample Module 17 Control Register"
group.long 0xC8++0x03
line.long 0x00 "EADC0_SCTL18,EADC Sample Module 18 Control Register"
hexmask.long.byte 0x00 24.--31. 1. "EXTSMPT,EADC Sampling Time Extend\nWhen EADC converting at high conversion rate the sampling time of analog input voltage may not enough if input channel loading is heavy SW can extend EADC sampling time after trigger source is coming to get enough.."
group.long 0xC8++0x03
line.long 0x00 "EADC1_SCTL18,EADC Sample Module 18 Control Register"
group.long 0xD0++0x03
line.long 0x00 "EADC0_INTSRC0,EADC Interrupt 0 Source Enable Control Register"
bitfld.long 0x00 18. "SPLIE18,Sample Module 18 Interrupt Enable Bit" "0: Sample Module 18 interrupt Disabled,1: Sample Module 18 interrupt Enabled"
bitfld.long 0x00 17. "SPLIE17,Sample Module 17 Interrupt Enable Bit" "0: Sample Module 17 interrupt Disabled,1: Sample Module 17 interrupt Enabled"
newline
bitfld.long 0x00 16. "SPLIE16,Sample Module 16 Interrupt Enable Bit" "0: Sample Module 16 interrupt Disabled,1: Sample Module 16 interrupt Enabled"
bitfld.long 0x00 15. "SPLIE15,Sample Module 15 Interrupt Enable Bit" "0: Sample Module 15 interrupt Disabled,1: Sample Module 15 interrupt Enabled"
newline
bitfld.long 0x00 14. "SPLIE14,Sample Module 14 Interrupt Enable Bit" "0: Sample Module 14 interrupt Disabled,1: Sample Module 14 interrupt Enabled"
bitfld.long 0x00 13. "SPLIE13,Sample Module 13 Interrupt Enable Bit" "0: Sample Module 13 interrupt Disabled,1: Sample Module 13 interrupt Enabled"
newline
bitfld.long 0x00 12. "SPLIE12,Sample Module 12 Interrupt Enable Bit" "0: Sample Module 12 interrupt Disabled,1: Sample Module 12 interrupt Enabled"
bitfld.long 0x00 11. "SPLIE11,Sample Module 11 Interrupt Enable Bit" "0: Sample Module 11 interrupt Disabled,1: Sample Module 11 interrupt Enabled"
newline
bitfld.long 0x00 10. "SPLIE10,Sample Module 10 Interrupt Enable Bit" "0: Sample Module 10 interrupt Disabled,1: Sample Module 10 interrupt Enabled"
bitfld.long 0x00 9. "SPLIE9,Sample Module 9 Interrupt Enable Bit" "0: Sample Module 9 interrupt Disabled,1: Sample Module 9 interrupt Enabled"
newline
bitfld.long 0x00 8. "SPLIE8,Sample Module 8 Interrupt Enable Bit" "0: Sample Module 8 interrupt Disabled,1: Sample Module 8 interrupt Enabled"
bitfld.long 0x00 7. "SPLIE7,Sample Module 7 Interrupt Enable Bit" "0: Sample Module 7 interrupt Disabled,1: Sample Module 7 interrupt Enabled"
newline
bitfld.long 0x00 6. "SPLIE6,Sample Module 6 Interrupt Enable Bit" "0: Sample Module 6 interrupt Disabled,1: Sample Module 6 interrupt Enabled"
bitfld.long 0x00 5. "SPLIE5,Sample Module 5 Interrupt Enable Bit" "0: Sample Module 5 interrupt Disabled,1: Sample Module 5 interrupt Enabled"
newline
bitfld.long 0x00 4. "SPLIE4,Sample Module 4 Interrupt Enable Bit" "0: Sample Module 4 interrupt Disabled,1: Sample Module 4 interrupt Enabled"
bitfld.long 0x00 3. "SPLIE3,Sample Module 3 Interrupt Enable Bit" "0: Sample Module 3 interrupt Disabled,1: Sample Module 3 interrupt Enabled"
newline
bitfld.long 0x00 2. "SPLIE2,Sample Module 2 Interrupt Enable Bit" "0: Sample Module 2 interrupt Disabled,1: Sample Module 2 interrupt Enabled"
bitfld.long 0x00 1. "SPLIE1,Sample Module 1 Interrupt Enable Bit" "0: Sample Module 1 interrupt Disabled,1: Sample Module 1 interrupt Enabled"
newline
bitfld.long 0x00 0. "SPLIE0,Sample Module 0 Interrupt Enable Bit" "0: Sample Module 0 interrupt Disabled,1: Sample Module 0 interrupt Enabled"
group.long 0xD0++0x03
line.long 0x00 "EADC1_INTSRC0,EADC Interrupt 0 Source Enable Control Register"
bitfld.long 0x00 18. "SPLIE18,Sample Module 18 Interrupt Enable Bit" "0: Sample Module 18 interrupt Disabled,1: Sample Module 18 interrupt Enabled"
bitfld.long 0x00 17. "SPLIE17,Sample Module 17 Interrupt Enable Bit" "0: Sample Module 17 interrupt Disabled,1: Sample Module 17 interrupt Enabled"
newline
bitfld.long 0x00 16. "SPLIE16,Sample Module 16 Interrupt Enable Bit" "0: Sample Module 16 interrupt Disabled,1: Sample Module 16 interrupt Enabled"
bitfld.long 0x00 15. "SPLIE15,Sample Module 15 Interrupt Enable Bit" "0: Sample Module 15 interrupt Disabled,1: Sample Module 15 interrupt Enabled"
newline
bitfld.long 0x00 14. "SPLIE14,Sample Module 14 Interrupt Enable Bit" "0: Sample Module 14 interrupt Disabled,1: Sample Module 14 interrupt Enabled"
bitfld.long 0x00 13. "SPLIE13,Sample Module 13 Interrupt Enable Bit" "0: Sample Module 13 interrupt Disabled,1: Sample Module 13 interrupt Enabled"
newline
bitfld.long 0x00 12. "SPLIE12,Sample Module 12 Interrupt Enable Bit" "0: Sample Module 12 interrupt Disabled,1: Sample Module 12 interrupt Enabled"
bitfld.long 0x00 11. "SPLIE11,Sample Module 11 Interrupt Enable Bit" "0: Sample Module 11 interrupt Disabled,1: Sample Module 11 interrupt Enabled"
newline
bitfld.long 0x00 10. "SPLIE10,Sample Module 10 Interrupt Enable Bit" "0: Sample Module 10 interrupt Disabled,1: Sample Module 10 interrupt Enabled"
bitfld.long 0x00 9. "SPLIE9,Sample Module 9 Interrupt Enable Bit" "0: Sample Module 9 interrupt Disabled,1: Sample Module 9 interrupt Enabled"
newline
bitfld.long 0x00 8. "SPLIE8,Sample Module 8 Interrupt Enable Bit" "0: Sample Module 8 interrupt Disabled,1: Sample Module 8 interrupt Enabled"
bitfld.long 0x00 7. "SPLIE7,Sample Module 7 Interrupt Enable Bit" "0: Sample Module 7 interrupt Disabled,1: Sample Module 7 interrupt Enabled"
newline
bitfld.long 0x00 6. "SPLIE6,Sample Module 6 Interrupt Enable Bit" "0: Sample Module 6 interrupt Disabled,1: Sample Module 6 interrupt Enabled"
bitfld.long 0x00 5. "SPLIE5,Sample Module 5 Interrupt Enable Bit" "0: Sample Module 5 interrupt Disabled,1: Sample Module 5 interrupt Enabled"
newline
bitfld.long 0x00 4. "SPLIE4,Sample Module 4 Interrupt Enable Bit" "0: Sample Module 4 interrupt Disabled,1: Sample Module 4 interrupt Enabled"
bitfld.long 0x00 3. "SPLIE3,Sample Module 3 Interrupt Enable Bit" "0: Sample Module 3 interrupt Disabled,1: Sample Module 3 interrupt Enabled"
newline
bitfld.long 0x00 2. "SPLIE2,Sample Module 2 Interrupt Enable Bit" "0: Sample Module 2 interrupt Disabled,1: Sample Module 2 interrupt Enabled"
bitfld.long 0x00 1. "SPLIE1,Sample Module 1 Interrupt Enable Bit" "0: Sample Module 1 interrupt Disabled,1: Sample Module 1 interrupt Enabled"
newline
bitfld.long 0x00 0. "SPLIE0,Sample Module 0 Interrupt Enable Bit" "0: Sample Module 0 interrupt Disabled,1: Sample Module 0 interrupt Enabled"
group.long 0xD4++0x03
line.long 0x00 "EADC0_INTSRC1,EADC Interrupt 1 Source Enable Control Register"
bitfld.long 0x00 18. "SPLIE18,Sample Module 18 Interrupt Enable Bit" "0: Sample Module 18 interrupt Disabled,1: Sample Module 18 interrupt Enabled"
bitfld.long 0x00 17. "SPLIE17,Sample Module 17 Interrupt Enable Bit" "0: Sample Module 17 interrupt Disabled,1: Sample Module 17 interrupt Enabled"
newline
bitfld.long 0x00 16. "SPLIE16,Sample Module 16 Interrupt Enable Bit" "0: Sample Module 16 interrupt Disabled,1: Sample Module 16 interrupt Enabled"
bitfld.long 0x00 15. "SPLIE15,Sample Module 15 Interrupt Enable Bit" "0: Sample Module 15 interrupt Disabled,1: Sample Module 15 interrupt Enabled"
newline
bitfld.long 0x00 14. "SPLIE14,Sample Module 14 Interrupt Enable Bit" "0: Sample Module 14 interrupt Disabled,1: Sample Module 14 interrupt Enabled"
bitfld.long 0x00 13. "SPLIE13,Sample Module 13 Interrupt Enable Bit" "0: Sample Module 13 interrupt Disabled,1: Sample Module 13 interrupt Enabled"
newline
bitfld.long 0x00 12. "SPLIE12,Sample Module 12 Interrupt Enable Bit" "0: Sample Module 12 interrupt Disabled,1: Sample Module 12 interrupt Enabled"
bitfld.long 0x00 11. "SPLIE11,Sample Module 11 Interrupt Enable Bit" "0: Sample Module 11 interrupt Disabled,1: Sample Module 11 interrupt Enabled"
newline
bitfld.long 0x00 10. "SPLIE10,Sample Module 10 Interrupt Enable Bit" "0: Sample Module 10 interrupt Disabled,1: Sample Module 10 interrupt Enabled"
bitfld.long 0x00 9. "SPLIE9,Sample Module 9 Interrupt Enable Bit" "0: Sample Module 9 interrupt Disabled,1: Sample Module 9 interrupt Enabled"
newline
bitfld.long 0x00 8. "SPLIE8,Sample Module 8 Interrupt Enable Bit" "0: Sample Module 8 interrupt Disabled,1: Sample Module 8 interrupt Enabled"
bitfld.long 0x00 7. "SPLIE7,Sample Module 7 Interrupt Enable Bit" "0: Sample Module 7 interrupt Disabled,1: Sample Module 7 interrupt Enabled"
newline
bitfld.long 0x00 6. "SPLIE6,Sample Module 6 Interrupt Enable Bit" "0: Sample Module 6 interrupt Disabled,1: Sample Module 6 interrupt Enabled"
bitfld.long 0x00 5. "SPLIE5,Sample Module 5 Interrupt Enable Bit" "0: Sample Module 5 interrupt Disabled,1: Sample Module 5 interrupt Enabled"
newline
bitfld.long 0x00 4. "SPLIE4,Sample Module 4 Interrupt Enable Bit" "0: Sample Module 4 interrupt Disabled,1: Sample Module 4 interrupt Enabled"
bitfld.long 0x00 3. "SPLIE3,Sample Module 3 Interrupt Enable Bit" "0: Sample Module 3 interrupt Disabled,1: Sample Module 3 interrupt Enabled"
newline
bitfld.long 0x00 2. "SPLIE2,Sample Module 2 Interrupt Enable Bit" "0: Sample Module 2 interrupt Disabled,1: Sample Module 2 interrupt Enabled"
bitfld.long 0x00 1. "SPLIE1,Sample Module 1 Interrupt Enable Bit" "0: Sample Module 1 interrupt Disabled,1: Sample Module 1 interrupt Enabled"
newline
bitfld.long 0x00 0. "SPLIE0,Sample Module 0 Interrupt Enable Bit" "0: Sample Module 0 interrupt Disabled,1: Sample Module 0 interrupt Enabled"
group.long 0xD4++0x03
line.long 0x00 "EADC1_INTSRC1,EADC Interrupt 1 Source Enable Control Register"
group.long 0xD8++0x03
line.long 0x00 "EADC0_INTSRC2,EADC Interrupt 2 Source Enable Control Register"
bitfld.long 0x00 18. "SPLIE18,Sample Module 18 Interrupt Enable Bit" "0: Sample Module 18 interrupt Disabled,1: Sample Module 18 interrupt Enabled"
bitfld.long 0x00 17. "SPLIE17,Sample Module 17 Interrupt Enable Bit" "0: Sample Module 17 interrupt Disabled,1: Sample Module 17 interrupt Enabled"
newline
bitfld.long 0x00 16. "SPLIE16,Sample Module 16 Interrupt Enable Bit" "0: Sample Module 16 interrupt Disabled,1: Sample Module 16 interrupt Enabled"
bitfld.long 0x00 15. "SPLIE15,Sample Module 15 Interrupt Enable Bit" "0: Sample Module 15 interrupt Disabled,1: Sample Module 15 interrupt Enabled"
newline
bitfld.long 0x00 14. "SPLIE14,Sample Module 14 Interrupt Enable Bit" "0: Sample Module 14 interrupt Disabled,1: Sample Module 14 interrupt Enabled"
bitfld.long 0x00 13. "SPLIE13,Sample Module 13 Interrupt Enable Bit" "0: Sample Module 13 interrupt Disabled,1: Sample Module 13 interrupt Enabled"
newline
bitfld.long 0x00 12. "SPLIE12,Sample Module 12 Interrupt Enable Bit" "0: Sample Module 12 interrupt Disabled,1: Sample Module 12 interrupt Enabled"
bitfld.long 0x00 11. "SPLIE11,Sample Module 11 Interrupt Enable Bit" "0: Sample Module 11 interrupt Disabled,1: Sample Module 11 interrupt Enabled"
newline
bitfld.long 0x00 10. "SPLIE10,Sample Module 10 Interrupt Enable Bit" "0: Sample Module 10 interrupt Disabled,1: Sample Module 10 interrupt Enabled"
bitfld.long 0x00 9. "SPLIE9,Sample Module 9 Interrupt Enable Bit" "0: Sample Module 9 interrupt Disabled,1: Sample Module 9 interrupt Enabled"
newline
bitfld.long 0x00 8. "SPLIE8,Sample Module 8 Interrupt Enable Bit" "0: Sample Module 8 interrupt Disabled,1: Sample Module 8 interrupt Enabled"
bitfld.long 0x00 7. "SPLIE7,Sample Module 7 Interrupt Enable Bit" "0: Sample Module 7 interrupt Disabled,1: Sample Module 7 interrupt Enabled"
newline
bitfld.long 0x00 6. "SPLIE6,Sample Module 6 Interrupt Enable Bit" "0: Sample Module 6 interrupt Disabled,1: Sample Module 6 interrupt Enabled"
bitfld.long 0x00 5. "SPLIE5,Sample Module 5 Interrupt Enable Bit" "0: Sample Module 5 interrupt Disabled,1: Sample Module 5 interrupt Enabled"
newline
bitfld.long 0x00 4. "SPLIE4,Sample Module 4 Interrupt Enable Bit" "0: Sample Module 4 interrupt Disabled,1: Sample Module 4 interrupt Enabled"
bitfld.long 0x00 3. "SPLIE3,Sample Module 3 Interrupt Enable Bit" "0: Sample Module 3 interrupt Disabled,1: Sample Module 3 interrupt Enabled"
newline
bitfld.long 0x00 2. "SPLIE2,Sample Module 2 Interrupt Enable Bit" "0: Sample Module 2 interrupt Disabled,1: Sample Module 2 interrupt Enabled"
bitfld.long 0x00 1. "SPLIE1,Sample Module 1 Interrupt Enable Bit" "0: Sample Module 1 interrupt Disabled,1: Sample Module 1 interrupt Enabled"
newline
bitfld.long 0x00 0. "SPLIE0,Sample Module 0 Interrupt Enable Bit" "0: Sample Module 0 interrupt Disabled,1: Sample Module 0 interrupt Enabled"
group.long 0xD8++0x03
line.long 0x00 "EADC1_INTSRC2,EADC Interrupt 2 Source Enable Control Register"
group.long 0xDC++0x03
line.long 0x00 "EADC0_INTSRC3,EADC Interrupt 3 Source Enable Control Register"
bitfld.long 0x00 18. "SPLIE18,Sample Module 18 Interrupt Enable Bit" "0: Sample Module 18 interrupt Disabled,1: Sample Module 18 interrupt Enabled"
bitfld.long 0x00 17. "SPLIE17,Sample Module 17 Interrupt Enable Bit" "0: Sample Module 17 interrupt Disabled,1: Sample Module 17 interrupt Enabled"
newline
bitfld.long 0x00 16. "SPLIE16,Sample Module 16 Interrupt Enable Bit" "0: Sample Module 16 interrupt Disabled,1: Sample Module 16 interrupt Enabled"
bitfld.long 0x00 15. "SPLIE15,Sample Module 15 Interrupt Enable Bit" "0: Sample Module 15 interrupt Disabled,1: Sample Module 15 interrupt Enabled"
newline
bitfld.long 0x00 14. "SPLIE14,Sample Module 14 Interrupt Enable Bit" "0: Sample Module 14 interrupt Disabled,1: Sample Module 14 interrupt Enabled"
bitfld.long 0x00 13. "SPLIE13,Sample Module 13 Interrupt Enable Bit" "0: Sample Module 13 interrupt Disabled,1: Sample Module 13 interrupt Enabled"
newline
bitfld.long 0x00 12. "SPLIE12,Sample Module 12 Interrupt Enable Bit" "0: Sample Module 12 interrupt Disabled,1: Sample Module 12 interrupt Enabled"
bitfld.long 0x00 11. "SPLIE11,Sample Module 11 Interrupt Enable Bit" "0: Sample Module 11 interrupt Disabled,1: Sample Module 11 interrupt Enabled"
newline
bitfld.long 0x00 10. "SPLIE10,Sample Module 10 Interrupt Enable Bit" "0: Sample Module 10 interrupt Disabled,1: Sample Module 10 interrupt Enabled"
bitfld.long 0x00 9. "SPLIE9,Sample Module 9 Interrupt Enable Bit" "0: Sample Module 9 interrupt Disabled,1: Sample Module 9 interrupt Enabled"
newline
bitfld.long 0x00 8. "SPLIE8,Sample Module 8 Interrupt Enable Bit" "0: Sample Module 8 interrupt Disabled,1: Sample Module 8 interrupt Enabled"
bitfld.long 0x00 7. "SPLIE7,Sample Module 7 Interrupt Enable Bit" "0: Sample Module 7 interrupt Disabled,1: Sample Module 7 interrupt Enabled"
newline
bitfld.long 0x00 6. "SPLIE6,Sample Module 6 Interrupt Enable Bit" "0: Sample Module 6 interrupt Disabled,1: Sample Module 6 interrupt Enabled"
bitfld.long 0x00 5. "SPLIE5,Sample Module 5 Interrupt Enable Bit" "0: Sample Module 5 interrupt Disabled,1: Sample Module 5 interrupt Enabled"
newline
bitfld.long 0x00 4. "SPLIE4,Sample Module 4 Interrupt Enable Bit" "0: Sample Module 4 interrupt Disabled,1: Sample Module 4 interrupt Enabled"
bitfld.long 0x00 3. "SPLIE3,Sample Module 3 Interrupt Enable Bit" "0: Sample Module 3 interrupt Disabled,1: Sample Module 3 interrupt Enabled"
newline
bitfld.long 0x00 2. "SPLIE2,Sample Module 2 Interrupt Enable Bit" "0: Sample Module 2 interrupt Disabled,1: Sample Module 2 interrupt Enabled"
bitfld.long 0x00 1. "SPLIE1,Sample Module 1 Interrupt Enable Bit" "0: Sample Module 1 interrupt Disabled,1: Sample Module 1 interrupt Enabled"
newline
bitfld.long 0x00 0. "SPLIE0,Sample Module 0 Interrupt Enable Bit" "0: Sample Module 0 interrupt Disabled,1: Sample Module 0 interrupt Enabled"
group.long 0xDC++0x03
line.long 0x00 "EADC1_INTSRC3,EADC Interrupt 3 Source Enable Control Register"
group.long 0xE0++0x03
line.long 0x00 "EADC0_CMP0,EADC Result Compare Register 0"
hexmask.long.word 0x00 16.--27. 1. "CMPDAT,Comparison Data\nThe 12 bits data is used to compare with conversion result of specified sample module"
bitfld.long 0x00 15. "CMPWEN,Compare Window Mode Enable Bit\nNote: This bit is only present in EADC_CMP0 and EADC_CMP2 register" "0: EADCMPF0 (EADC_STATUS2[4]) will be set when..,1: EADCMPF0 (EADC_STATUS2[4]) will be set when.."
newline
bitfld.long 0x00 8.--11. "CMPMCNT,Compare Match Count" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3.--7. "CMPSPL,Compare Sample Module Selection" "0: Sample Module 0 conversion result EADC_DAT0..,1: Sample Module 1 conversion result EADC_DAT1..,2: Sample Module 2 conversion result EADC_DAT2..,3: Sample Module 3 conversion result EADC_DAT3..,4: Sample Module 4 conversion result EADC_DAT4..,5: Sample Module 5 conversion result EADC_DAT5..,6: Sample Module 6 conversion result EADC_DAT6..,7: Sample Module 7 conversion result EADC_DAT7..,8: Sample Module 8 conversion result EADC_DAT8..,9: Sample Module 9 conversion result EADC_DAT9..,10: Sample Module 10 conversion result..,11: Sample Module 11 conversion result..,12: Sample Module 12 conversion result..,13: Sample Module 13 conversion result..,14: Sample Module 14 conversion result..,15: Sample Module 15 conversion result..,16: Sample Module 16 conversion result..,17: Sample Module 17 conversion result..,18: Sample Module 18 conversion result..,?..."
newline
bitfld.long 0x00 2. "CMPCOND,Compare Condition" "0: Set the compare condition as that when a..,1: Set the compare condition as that when a.."
bitfld.long 0x00 1. "ADCMPIE,EADC Result Compare Interrupt Enable Bit" "0: Compare function interrupt Disabled,1: Compare function interrupt Enabled"
newline
bitfld.long 0x00 0. "ADCMPEN,EADC Result Compare Enable Bit" "0: Compare Disabled,1: Compare Enabled"
group.long 0xE0++0x03
line.long 0x00 "EADC1_CMP0,EADC Result Compare Register 0"
hexmask.long.word 0x00 16.--27. 1. "CMPDAT,Comparison Data\nThe 12 bits data is used to compare with conversion result of specified sample module"
bitfld.long 0x00 15. "CMPWEN,Compare Window Mode Enable Bit\nNote: This bit is only present in EADC_CMP0 and EADC_CMP2 register" "0: EADCMPF0 (EADC_STATUS2[4]) will be set when..,1: EADCMPF0 (EADC_STATUS2[4]) will be set when.."
newline
bitfld.long 0x00 8.--11. "CMPMCNT,Compare Match Count" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3.--7. "CMPSPL,Compare Sample Module Selection" "0: Sample Module 0 conversion result EADC_DAT0..,1: Sample Module 1 conversion result EADC_DAT1..,2: Sample Module 2 conversion result EADC_DAT2..,3: Sample Module 3 conversion result EADC_DAT3..,4: Sample Module 4 conversion result EADC_DAT4..,5: Sample Module 5 conversion result EADC_DAT5..,6: Sample Module 6 conversion result EADC_DAT6..,7: Sample Module 7 conversion result EADC_DAT7..,8: Sample Module 8 conversion result EADC_DAT8..,9: Sample Module 9 conversion result EADC_DAT9..,10: Sample Module 10 conversion result..,11: Sample Module 11 conversion result..,12: Sample Module 12 conversion result..,13: Sample Module 13 conversion result..,14: Sample Module 14 conversion result..,15: Sample Module 15 conversion result..,16: Sample Module 16 conversion result..,17: Sample Module 17 conversion result..,18: Sample Module 18 conversion result..,?..."
newline
bitfld.long 0x00 2. "CMPCOND,Compare Condition" "0: Set the compare condition as that when a..,1: Set the compare condition as that when a.."
bitfld.long 0x00 1. "ADCMPIE,EADC Result Compare Interrupt Enable Bit" "0: Compare function interrupt Disabled,1: Compare function interrupt Enabled"
newline
bitfld.long 0x00 0. "ADCMPEN,EADC Result Compare Enable Bit" "0: Compare Disabled,1: Compare Enabled"
group.long 0xE4++0x03
line.long 0x00 "EADC0_CMP1,EADC Result Compare Register 1"
hexmask.long.word 0x00 16.--27. 1. "CMPDAT,Comparison Data\nThe 12 bits data is used to compare with conversion result of specified sample module"
bitfld.long 0x00 15. "CMPWEN,Compare Window Mode Enable Bit\nNote: This bit is only present in EADC_CMP0 and EADC_CMP2 register" "0: EADCMPF0 (EADC_STATUS2[4]) will be set when..,1: EADCMPF0 (EADC_STATUS2[4]) will be set when.."
newline
bitfld.long 0x00 8.--11. "CMPMCNT,Compare Match Count" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3.--7. "CMPSPL,Compare Sample Module Selection" "0: Sample Module 0 conversion result EADC_DAT0..,1: Sample Module 1 conversion result EADC_DAT1..,2: Sample Module 2 conversion result EADC_DAT2..,3: Sample Module 3 conversion result EADC_DAT3..,4: Sample Module 4 conversion result EADC_DAT4..,5: Sample Module 5 conversion result EADC_DAT5..,6: Sample Module 6 conversion result EADC_DAT6..,7: Sample Module 7 conversion result EADC_DAT7..,8: Sample Module 8 conversion result EADC_DAT8..,9: Sample Module 9 conversion result EADC_DAT9..,10: Sample Module 10 conversion result..,11: Sample Module 11 conversion result..,12: Sample Module 12 conversion result..,13: Sample Module 13 conversion result..,14: Sample Module 14 conversion result..,15: Sample Module 15 conversion result..,16: Sample Module 16 conversion result..,17: Sample Module 17 conversion result..,18: Sample Module 18 conversion result..,?..."
newline
bitfld.long 0x00 2. "CMPCOND,Compare Condition" "0: Set the compare condition as that when a..,1: Set the compare condition as that when a.."
bitfld.long 0x00 1. "ADCMPIE,EADC Result Compare Interrupt Enable Bit" "0: Compare function interrupt Disabled,1: Compare function interrupt Enabled"
newline
bitfld.long 0x00 0. "ADCMPEN,EADC Result Compare Enable Bit" "0: Compare Disabled,1: Compare Enabled"
group.long 0xE4++0x03
line.long 0x00 "EADC1_CMP1,EADC Result Compare Register 1"
group.long 0xE8++0x03
line.long 0x00 "EADC0_CMP2,EADC Result Compare Register 2"
hexmask.long.word 0x00 16.--27. 1. "CMPDAT,Comparison Data\nThe 12 bits data is used to compare with conversion result of specified sample module"
bitfld.long 0x00 15. "CMPWEN,Compare Window Mode Enable Bit\nNote: This bit is only present in EADC_CMP0 and EADC_CMP2 register" "0: EADCMPF0 (EADC_STATUS2[4]) will be set when..,1: EADCMPF0 (EADC_STATUS2[4]) will be set when.."
newline
bitfld.long 0x00 8.--11. "CMPMCNT,Compare Match Count" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3.--7. "CMPSPL,Compare Sample Module Selection" "0: Sample Module 0 conversion result EADC_DAT0..,1: Sample Module 1 conversion result EADC_DAT1..,2: Sample Module 2 conversion result EADC_DAT2..,3: Sample Module 3 conversion result EADC_DAT3..,4: Sample Module 4 conversion result EADC_DAT4..,5: Sample Module 5 conversion result EADC_DAT5..,6: Sample Module 6 conversion result EADC_DAT6..,7: Sample Module 7 conversion result EADC_DAT7..,8: Sample Module 8 conversion result EADC_DAT8..,9: Sample Module 9 conversion result EADC_DAT9..,10: Sample Module 10 conversion result..,11: Sample Module 11 conversion result..,12: Sample Module 12 conversion result..,13: Sample Module 13 conversion result..,14: Sample Module 14 conversion result..,15: Sample Module 15 conversion result..,16: Sample Module 16 conversion result..,17: Sample Module 17 conversion result..,18: Sample Module 18 conversion result..,?..."
newline
bitfld.long 0x00 2. "CMPCOND,Compare Condition" "0: Set the compare condition as that when a..,1: Set the compare condition as that when a.."
bitfld.long 0x00 1. "ADCMPIE,EADC Result Compare Interrupt Enable Bit" "0: Compare function interrupt Disabled,1: Compare function interrupt Enabled"
newline
bitfld.long 0x00 0. "ADCMPEN,EADC Result Compare Enable Bit" "0: Compare Disabled,1: Compare Enabled"
group.long 0xE8++0x03
line.long 0x00 "EADC1_CMP2,EADC Result Compare Register 2"
group.long 0xEC++0x03
line.long 0x00 "EADC0_CMP3,EADC Result Compare Register 3"
hexmask.long.word 0x00 16.--27. 1. "CMPDAT,Comparison Data\nThe 12 bits data is used to compare with conversion result of specified sample module"
bitfld.long 0x00 15. "CMPWEN,Compare Window Mode Enable Bit\nNote: This bit is only present in EADC_CMP0 and EADC_CMP2 register" "0: EADCMPF0 (EADC_STATUS2[4]) will be set when..,1: EADCMPF0 (EADC_STATUS2[4]) will be set when.."
newline
bitfld.long 0x00 8.--11. "CMPMCNT,Compare Match Count" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3.--7. "CMPSPL,Compare Sample Module Selection" "0: Sample Module 0 conversion result EADC_DAT0..,1: Sample Module 1 conversion result EADC_DAT1..,2: Sample Module 2 conversion result EADC_DAT2..,3: Sample Module 3 conversion result EADC_DAT3..,4: Sample Module 4 conversion result EADC_DAT4..,5: Sample Module 5 conversion result EADC_DAT5..,6: Sample Module 6 conversion result EADC_DAT6..,7: Sample Module 7 conversion result EADC_DAT7..,8: Sample Module 8 conversion result EADC_DAT8..,9: Sample Module 9 conversion result EADC_DAT9..,10: Sample Module 10 conversion result..,11: Sample Module 11 conversion result..,12: Sample Module 12 conversion result..,13: Sample Module 13 conversion result..,14: Sample Module 14 conversion result..,15: Sample Module 15 conversion result..,16: Sample Module 16 conversion result..,17: Sample Module 17 conversion result..,18: Sample Module 18 conversion result..,?..."
newline
bitfld.long 0x00 2. "CMPCOND,Compare Condition" "0: Set the compare condition as that when a..,1: Set the compare condition as that when a.."
bitfld.long 0x00 1. "ADCMPIE,EADC Result Compare Interrupt Enable Bit" "0: Compare function interrupt Disabled,1: Compare function interrupt Enabled"
newline
bitfld.long 0x00 0. "ADCMPEN,EADC Result Compare Enable Bit" "0: Compare Disabled,1: Compare Enabled"
group.long 0xEC++0x03
line.long 0x00 "EADC1_CMP3,EADC Result Compare Register 3"
rgroup.long 0xF0++0x03
line.long 0x00 "EADC0_STATUS0,EADC Status Register 0"
hexmask.long.word 0x00 16.--31. 1. "OV,EADC_DAT0~15 Overrun Flag"
hexmask.long.word 0x00 0.--15. 1. "VALID,EADC_DAT0~15 Data Valid Flag"
group.long 0xF0++0x03
line.long 0x00 "EADC1_STATUS0,EADC Status Register 0"
hexmask.long.word 0x00 16.--31. 1. "OV,EADC_DAT0~15 Overrun Flag"
hexmask.long.word 0x00 0.--15. 1. "VALID,EADC_DAT0~15 Data Valid Flag"
rgroup.long 0xF4++0x03
line.long 0x00 "EADC0_STATUS1,EADC Status Register 1"
bitfld.long 0x00 16.--18. "OV,EADC_DAT16~18 Overrun Flag" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 0.--2. "VALID,EADC_DAT16~18 Data Valid Flag" "0,1,2,3,4,5,6,7"
group.long 0xF4++0x03
line.long 0x00 "EADC1_STATUS1,EADC Status Register 1"
rbitfld.long 0x00 16.--18. "OV,EADC_DAT16~18 Overrun Flag" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 0.--2. "VALID,EADC_DAT16~18 Data Valid Flag" "0,1,2,3,4,5,6,7"
group.long 0xF8++0x03
line.long 0x00 "EADC0_STATUS2,EADC Status Register 2"
rbitfld.long 0x00 27. "AOV,for All Sample Module EADC Result Data Register Overrun Flags Check (Read Only)\nNote: This bit will keep 1 when any OVn Flag is equal to 1" "0: None of sample module data register overrun..,1: Any one of sample module data register.."
rbitfld.long 0x00 26. "AVALID,for All Sample Module EADC Result Data Register EADC_DAT Data Valid Flag Check (Read Only)\nNote: This bit will keep 1 when any VALIDn Flag is equal to 1" "0: None of sample module data register valid..,1: Any one of sample module data register valid.."
newline
rbitfld.long 0x00 25. "STOVF,for All EADC Sample Module Start of Conversion Overrun Flags Check (Read Only)\nNote: This bit will keep 1 when any SPOVFn Flag is equal to 1" "0: None of sample module event overrun flag..,1: Any one of sample module event overrun flag.."
rbitfld.long 0x00 24. "ADOVIF,All EADC Interrupt Flag Overrun Bits Check (Read Only)\nNote: This bit will keep 1 when any ADOVIFn Flag is equal to 1" "0: None of ADINT interrupt flag ADOVIFn..,1: Any one of ADINT interrupt flag ADOVIFn.."
newline
rbitfld.long 0x00 23. "BUSY,Busy/Idle (Read Only)" "0: EADC is in idle state,1: EADC is busy at conversion"
rbitfld.long 0x00 16.--20. "CHANNEL,Current Conversion Channel (Read Only)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
rbitfld.long 0x00 15. "ADCMPO3,EADC Compare 3 Output Status (Read Only)\nThe 12 bits compare3 data CMPDAT3 (EADC_CMP3[27:16]) is used to compare with conversion result of specified sample module" "0: Conversion result in EADC_DAT less than..,1: Conversion result in EADC_DAT great than or.."
rbitfld.long 0x00 14. "ADCMPO2,EADC Compare 2 Output Status (Read Only)\nThe 12 bits compare2 data CMPDAT2 (EADC_CMP2[27:16]) is used to compare with conversion result of specified sample module" "0: Conversion result in EADC_DAT less than..,1: Conversion result in EADC_DAT great than or.."
newline
rbitfld.long 0x00 13. "ADCMPO1,EADC Compare 1 Output Status (Read Only)\nThe 12 bits compare1 data CMPDAT1 (EADC_CMP1[27:16]) is used to compare with conversion result of specified sample module" "0: Conversion result in EADC_DAT less than..,1: Conversion result in EADC_DAT great than or.."
rbitfld.long 0x00 12. "ADCMPO0,EADC Compare 0 Output Status (Read Only)\nThe 12 bits compare0 data CMPDAT0 (EADC_CMP0[27:16]) is used to compare with conversion result of specified sample module" "0: Conversion result in EADC_DAT less than..,1: Conversion result in EADC_DAT great than or.."
newline
bitfld.long 0x00 11. "ADOVIF3,EADC ADINT3 Interrupt Flag Overrun\nNote: This bit is cleared by writing 1 to it" "0: ADINT3 interrupt flag is not overwritten to 1,1: ADINT3 interrupt flag is overwritten to 1"
bitfld.long 0x00 10. "ADOVIF2,EADC ADINT2 Interrupt Flag Overrun\nNote: This bit is cleared by writing 1 to it" "0: ADINT2 interrupt flag is not overwritten to 1,1: ADINT2 interrupt flag is s overwritten to 1"
newline
bitfld.long 0x00 9. "ADOVIF1,EADC ADINT1 Interrupt Flag Overrun\nNote: This bit is cleared by writing 1 to it" "0: ADINT1 interrupt flag is not overwritten to 1,1: ADINT1 interrupt flag is overwritten to 1"
bitfld.long 0x00 8. "ADOVIF0,EADC ADINT0 Interrupt Flag Overrun\nNote: This bit is cleared by writing 1 to it" "0: ADINT0 interrupt flag is not overwritten to 1,1: ADINT0 interrupt flag is overwritten to 1"
newline
bitfld.long 0x00 7. "ADCMPF3,EADC Compare 3 Flag\nWhen the specific sample module EADC conversion result meets setting condition in EADC_CMP3 then this bit is set to 1.\nNote: This bit is cleared by writing 1 to it" "0: Conversion result in EADC_DAT does not meet..,1: Conversion result in EADC_DAT meets EADC_CMP3.."
bitfld.long 0x00 6. "ADCMPF2,EADC Compare 2 Flag\nWhen the specific sample module EADC conversion result meets setting condition in EADC_CMP2 then this bit is set to 1.\nNote: This bit is cleared by writing 1 to it" "0: Conversion result in EADC_DAT does not meet..,1: Conversion result in EADC_DAT meets EADC_CMP2.."
newline
bitfld.long 0x00 5. "ADCMPF1,EADC Compare 1 Flag\nWhen the specific sample module EADC conversion result meets setting condition in EADC_CMP1 then this bit is set to 1.\nNote: This bit is cleared by writing 1 to it" "0: Conversion result in EADC_DAT does not meet..,1: Conversion result in EADC_DAT meets EADC_CMP1.."
bitfld.long 0x00 4. "ADCMPF0,EADC Compare 0 Flag\nWhen the specific sample module EADC conversion result meets setting condition in EADC_CMP0 then this bit is set to 1.\nNote: This bit is cleared by writing 1 to it" "0: Conversion result in EADC_DAT does not meet..,1: Conversion result in EADC_DAT meets EADC_CMP0.."
newline
bitfld.long 0x00 3. "ADIF3,EADC ADINT3 Interrupt Flag\n" "0: No ADINT3 interrupt pulse received,1: ADINT3 interrupt pulse has been received"
bitfld.long 0x00 2. "ADIF2,EADC ADINT2 Interrupt Flag\n" "0: No ADINT2 interrupt pulse received,1: ADINT2 interrupt pulse has been received"
newline
bitfld.long 0x00 1. "ADIF1,EADC ADINT1 Interrupt Flag\n" "0: No ADINT1 interrupt pulse received,1: ADINT1 interrupt pulse has been received"
bitfld.long 0x00 0. "ADIF0,EADC ADINT0 Interrupt Flag\n" "0: No ADINT0 interrupt pulse received,1: ADINT0 interrupt pulse has been received"
group.long 0xF8++0x03
line.long 0x00 "EADC1_STATUS2,EADC Status Register 2"
rbitfld.long 0x00 27. "AOV,for All Sample Module EADC Result Data Register Overrun Flags Check (Read Only)\nNote: This bit will keep 1 when any OVn Flag is equal to 1" "0: None of sample module data register overrun..,1: Any one of sample module data register.."
rbitfld.long 0x00 26. "AVALID,for All Sample Module EADC Result Data Register EADC_DAT Data Valid Flag Check (Read Only)\nNote: This bit will keep 1 when any VALIDn Flag is equal to 1" "0: None of sample module data register valid..,1: Any one of sample module data register valid.."
newline
rbitfld.long 0x00 25. "STOVF,for All EADC Sample Module Start of Conversion Overrun Flags Check (Read Only)\nNote: This bit will keep 1 when any SPOVFn Flag is equal to 1" "0: None of sample module event overrun flag..,1: Any one of sample module event overrun flag.."
rbitfld.long 0x00 24. "ADOVIF,All EADC Interrupt Flag Overrun Bits Check (Read Only)\nNote: This bit will keep 1 when any ADOVIFn Flag is equal to 1" "0: None of ADINT interrupt flag ADOVIFn..,1: Any one of ADINT interrupt flag ADOVIFn.."
newline
rbitfld.long 0x00 23. "BUSY,Busy/Idle (Read Only)" "0: EADC is in idle state,1: EADC is busy at conversion"
rbitfld.long 0x00 16.--20. "CHANNEL,Current Conversion Channel (Read Only)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
rbitfld.long 0x00 15. "ADCMPO3,EADC Compare 3 Output Status (Read Only)\nThe 12 bits compare3 data CMPDAT3 (EADC_CMP3[27:16]) is used to compare with conversion result of specified sample module" "0: Conversion result in EADC_DAT less than..,1: Conversion result in EADC_DAT great than or.."
rbitfld.long 0x00 14. "ADCMPO2,EADC Compare 2 Output Status (Read Only)\nThe 12 bits compare2 data CMPDAT2 (EADC_CMP2[27:16]) is used to compare with conversion result of specified sample module" "0: Conversion result in EADC_DAT less than..,1: Conversion result in EADC_DAT great than or.."
newline
rbitfld.long 0x00 13. "ADCMPO1,EADC Compare 1 Output Status (Read Only)\nThe 12 bits compare1 data CMPDAT1 (EADC_CMP1[27:16]) is used to compare with conversion result of specified sample module" "0: Conversion result in EADC_DAT less than..,1: Conversion result in EADC_DAT great than or.."
rbitfld.long 0x00 12. "ADCMPO0,EADC Compare 0 Output Status (Read Only)\nThe 12 bits compare0 data CMPDAT0 (EADC_CMP0[27:16]) is used to compare with conversion result of specified sample module" "0: Conversion result in EADC_DAT less than..,1: Conversion result in EADC_DAT great than or.."
newline
bitfld.long 0x00 11. "ADOVIF3,EADC ADINT3 Interrupt Flag Overrun\nNote: This bit is cleared by writing 1 to it" "0: ADINT3 interrupt flag is not overwritten to 1,1: ADINT3 interrupt flag is overwritten to 1"
bitfld.long 0x00 10. "ADOVIF2,EADC ADINT2 Interrupt Flag Overrun\nNote: This bit is cleared by writing 1 to it" "0: ADINT2 interrupt flag is not overwritten to 1,1: ADINT2 interrupt flag is s overwritten to 1"
newline
bitfld.long 0x00 9. "ADOVIF1,EADC ADINT1 Interrupt Flag Overrun\nNote: This bit is cleared by writing 1 to it" "0: ADINT1 interrupt flag is not overwritten to 1,1: ADINT1 interrupt flag is overwritten to 1"
bitfld.long 0x00 8. "ADOVIF0,EADC ADINT0 Interrupt Flag Overrun\nNote: This bit is cleared by writing 1 to it" "0: ADINT0 interrupt flag is not overwritten to 1,1: ADINT0 interrupt flag is overwritten to 1"
newline
bitfld.long 0x00 7. "ADCMPF3,EADC Compare 3 Flag\nWhen the specific sample module EADC conversion result meets setting condition in EADC_CMP3 then this bit is set to 1.\nNote: This bit is cleared by writing 1 to it" "0: Conversion result in EADC_DAT does not meet..,1: Conversion result in EADC_DAT meets EADC_CMP3.."
bitfld.long 0x00 6. "ADCMPF2,EADC Compare 2 Flag\nWhen the specific sample module EADC conversion result meets setting condition in EADC_CMP2 then this bit is set to 1.\nNote: This bit is cleared by writing 1 to it" "0: Conversion result in EADC_DAT does not meet..,1: Conversion result in EADC_DAT meets EADC_CMP2.."
newline
bitfld.long 0x00 5. "ADCMPF1,EADC Compare 1 Flag\nWhen the specific sample module EADC conversion result meets setting condition in EADC_CMP1 then this bit is set to 1.\nNote: This bit is cleared by writing 1 to it" "0: Conversion result in EADC_DAT does not meet..,1: Conversion result in EADC_DAT meets EADC_CMP1.."
bitfld.long 0x00 4. "ADCMPF0,EADC Compare 0 Flag\nWhen the specific sample module EADC conversion result meets setting condition in EADC_CMP0 then this bit is set to 1.\nNote: This bit is cleared by writing 1 to it" "0: Conversion result in EADC_DAT does not meet..,1: Conversion result in EADC_DAT meets EADC_CMP0.."
newline
bitfld.long 0x00 3. "ADIF3,EADC ADINT3 Interrupt Flag\n" "0: No ADINT3 interrupt pulse received,1: ADINT3 interrupt pulse has been received"
bitfld.long 0x00 2. "ADIF2,EADC ADINT2 Interrupt Flag\n" "0: No ADINT2 interrupt pulse received,1: ADINT2 interrupt pulse has been received"
newline
bitfld.long 0x00 1. "ADIF1,EADC ADINT1 Interrupt Flag\n" "0: No ADINT1 interrupt pulse received,1: ADINT1 interrupt pulse has been received"
bitfld.long 0x00 0. "ADIF0,EADC ADINT0 Interrupt Flag\n" "0: No ADINT0 interrupt pulse received,1: ADINT0 interrupt pulse has been received"
rgroup.long 0xFC++0x03
line.long 0x00 "EADC0_STATUS3,EADC Status Register 3"
bitfld.long 0x00 0.--4. "CURSPL,EADC Current Sample Module (Read Only)\nThis register shows the current EADC is controlled by which sample module control logic modules.\nIf the EADC is Idle the bit filed will set to 0x1F" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0xFC++0x03
line.long 0x00 "EADC1_STATUS3,EADC Status Register 3"
rbitfld.long 0x00 0.--4. "CURSPL,EADC Current Sample Module (Read Only)\nThis register shows the current EADC is controlled by which sample module control logic modules.\nIf the EADC is Idle the bit filed will set to 0x1F" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
rgroup.long 0x100++0x03
line.long 0x00 "EADC0_DDAT0,EADC Double Data Register 0 for Sample Module 0"
bitfld.long 0x00 17. "VALID,Valid Flag" "0: Double data in RESULT (EADC_DDATn[15:0]) is..,1: Double data in RESULT (EADC_DDATn[15:0]) is.."
bitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[15:0] has not been read before new conversion result is loaded to this register OV is set to 1" "0: Data in RESULT (EADC_DATn[15:0] n=0~3) is..,1: Data in RESULT (EADC_DATn[15:0] n=0~3) is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Results\nThis field contains 12 bits conversion results.\nWhen the DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT [11:0] and zero will be filled in RESULT [15:12].\nWhen.."
group.long 0x100++0x03
line.long 0x00 "EADC1_DDAT0,EADC Double Data Register 0 for Sample Module 0"
rbitfld.long 0x00 17. "VALID,Valid Flag" "0: Double data in RESULT (EADC_DDATn[15:0]) is..,1: Double data in RESULT (EADC_DDATn[15:0]) is.."
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[15:0] has not been read before new conversion result is loaded to this register OV is set to 1" "0: Data in RESULT (EADC_DATn[15:0] n=0~3) is..,1: Data in RESULT (EADC_DATn[15:0] n=0~3) is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Results\nThis field contains 12 bits conversion results.\nWhen the DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT [11:0] and zero will be filled in RESULT [15:12].\nWhen.."
group.long 0x104++0x03
line.long 0x00 "EADC0_DDAT1,EADC Double Data Register 1 for Sample Module 1"
rbitfld.long 0x00 17. "VALID,Valid Flag" "0: Double data in RESULT (EADC_DDATn[15:0]) is..,1: Double data in RESULT (EADC_DDATn[15:0]) is.."
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[15:0] has not been read before new conversion result is loaded to this register OV is set to 1" "0: Data in RESULT (EADC_DATn[15:0] n=0~3) is..,1: Data in RESULT (EADC_DATn[15:0] n=0~3) is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Results\nThis field contains 12 bits conversion results.\nWhen the DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT [11:0] and zero will be filled in RESULT [15:12].\nWhen.."
group.long 0x104++0x03
line.long 0x00 "EADC1_DDAT1,EADC Double Data Register 1 for Sample Module 1"
group.long 0x108++0x03
line.long 0x00 "EADC0_DDAT2,EADC Double Data Register 2 for Sample Module 2"
rbitfld.long 0x00 17. "VALID,Valid Flag" "0: Double data in RESULT (EADC_DDATn[15:0]) is..,1: Double data in RESULT (EADC_DDATn[15:0]) is.."
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[15:0] has not been read before new conversion result is loaded to this register OV is set to 1" "0: Data in RESULT (EADC_DATn[15:0] n=0~3) is..,1: Data in RESULT (EADC_DATn[15:0] n=0~3) is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Results\nThis field contains 12 bits conversion results.\nWhen the DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT [11:0] and zero will be filled in RESULT [15:12].\nWhen.."
group.long 0x108++0x03
line.long 0x00 "EADC1_DDAT2,EADC Double Data Register 2 for Sample Module 2"
group.long 0x10C++0x03
line.long 0x00 "EADC0_DDAT3,EADC Double Data Register 3 for Sample Module 3"
rbitfld.long 0x00 17. "VALID,Valid Flag" "0: Double data in RESULT (EADC_DDATn[15:0]) is..,1: Double data in RESULT (EADC_DDATn[15:0]) is.."
rbitfld.long 0x00 16. "OV,Overrun Flag\nIf converted data in RESULT[15:0] has not been read before new conversion result is loaded to this register OV is set to 1" "0: Data in RESULT (EADC_DATn[15:0] n=0~3) is..,1: Data in RESULT (EADC_DATn[15:0] n=0~3) is over"
newline
hexmask.long.word 0x00 0.--15. 1. "RESULT,EADC Conversion Results\nThis field contains 12 bits conversion results.\nWhen the DMOF (EADC_CTL[9]) is set to 0 12-bit EADC conversion result with unsigned format will be filled in RESULT [11:0] and zero will be filled in RESULT [15:12].\nWhen.."
group.long 0x10C++0x03
line.long 0x00 "EADC1_DDAT3,EADC Double Data Register 3 for Sample Module 3"
group.long 0x110++0x03
line.long 0x00 "EADC0_PWRM,EADC Power Management Register"
hexmask.long.word 0x00 8.--19. 1. "LDOSUT,EADC Internal LDO Start-up Time"
bitfld.long 0x00 2.--3. "PWDMOD,EADC Power-down Mode\nSet this bit field to select EADC Power-down mode when system power-down.\nNote: Different PWDMOD has different power down/up sequence in order to avoid EADC powering up with wrong sequence user must keep PWDMOD consistent.." "0: EADC Deep Power-down mode,1: EADC Power down,2: EADC Standby mode,3: EADC Deep Power-down mode"
newline
bitfld.long 0x00 1. "PWUCALEN,Power Up Calibration Function Enable Bit\nNote: This bit work together with CALSEL (EADC_CALCTL [3]) see the following\n{PWUCALEN CALSEL } Description:\nPWUCALEN is 0 and CALSEL is" "0: Calibration function Disabled at power up,1: Calibration function Enabled at power up"
rbitfld.long 0x00 0. "PWUPRDY,EADC Power-up Sequence Completed and Ready for Conversion (Read Only)" "0: EADC is not ready for conversion may be in..,1: EADC is ready for conversion"
group.long 0x110++0x03
line.long 0x00 "EADC1_PWRM,EADC Power Management Register"
hexmask.long.word 0x00 8.--19. 1. "LDOSUT,EADC Internal LDO Start-up Time"
bitfld.long 0x00 2.--3. "PWDMOD,EADC Power-down Mode\nSet this bit field to select EADC Power-down mode when system power-down.\nNote: Different PWDMOD has different power down/up sequence in order to avoid EADC powering up with wrong sequence user must keep PWDMOD consistent.." "0: EADC Deep Power-down mode,1: EADC Power down,2: EADC Standby mode,3: EADC Deep Power-down mode"
newline
bitfld.long 0x00 1. "PWUCALEN,Power Up Calibration Function Enable Bit\nNote: This bit work together with CALSEL (EADC_CALCTL [3]) see the following\n{PWUCALEN CALSEL } Description:\nPWUCALEN is 0 and CALSEL is" "0: Calibration function Disabled at power up,1: Calibration function Enabled at power up"
rbitfld.long 0x00 0. "PWUPRDY,EADC Power-up Sequence Completed and Ready for Conversion (Read Only)" "0: EADC is not ready for conversion may be in..,1: EADC is ready for conversion"
group.long 0x114++0x03
line.long 0x00 "EADC0_CALCTL,EADC Calibration Control Register"
bitfld.long 0x00 3. "CALSEL,Select Calibration Functional Block" "0: Load calibration word when calibration..,1: Execute calibration when calibration.."
rbitfld.long 0x00 2. "CALDONE,Calibration Functional Block Complete (Read Only)" "0: During a calibration,1: Calibration is completed"
newline
bitfld.long 0x00 1. "CALSTART,Calibration Functional Block Start\n" "0: Stop calibration functional block,1: Start calibration functional block"
group.long 0x114++0x03
line.long 0x00 "EADC1_CALCTL,EADC Calibration Control Register"
bitfld.long 0x00 3. "CALSEL,Select Calibration Functional Block" "0: Load calibration word when calibration..,1: Execute calibration when calibration.."
rbitfld.long 0x00 2. "CALDONE,Calibration Functional Block Complete (Read Only)" "0: During a calibration,1: Calibration is completed"
newline
bitfld.long 0x00 1. "CALSTART,Calibration Functional Block Start\n" "0: Stop calibration functional block,1: Start calibration functional block"
group.long 0x118++0x03
line.long 0x00 "EADC0_CALDWRD,EADC Calibration Load Word Register"
hexmask.long.byte 0x00 0.--6. 1. "CALWORD,Calibration Word Bits\nWrite to this register with the previous calibration word before load calibration action.\nRead this register after calibration done.\nNote: The calibration block contains two parts 'CALIBRATION' and 'LOAD CALIBRATION' if.."
group.long 0x118++0x03
line.long 0x00 "EADC1_CALDWRD,EADC Calibration Load Word Register"
hexmask.long.byte 0x00 0.--6. 1. "CALWORD,Calibration Word Bits\nWrite to this register with the previous calibration word before load calibration action.\nRead this register after calibration done.\nNote: The calibration block contains two parts 'CALIBRATION' and 'LOAD CALIBRATION' if.."
group.long 0x130++0x03
line.long 0x00 "EADC0_PDMACTL,EADC PDMA Control Register"
hexmask.long.tbyte 0x00 0.--18. 1. "PDMATEN,PDMA Transfer Enable Bit\nWhen EADC conversion is completed the converted data is loaded into EADC_DATn (n: 0 ~ 18) register user can enable this bit to generate a PDMA data transfer request"
group.long 0x130++0x03
line.long 0x00 "EADC1_PDMACTL,EADC PDMA Control Register"
hexmask.long.tbyte 0x00 0.--18. 1. "PDMATEN,PDMA Transfer Enable Bit\nWhen EADC conversion is completed the converted data is loaded into EADC_DATn (n: 0 ~ 18) register user can enable this bit to generate a PDMA data transfer request"
tree.end
repeat.end
tree.end
tree "EBI"
base ad:0x40010000
group.long 0x00++0x03
line.long 0x00 "EBI_CTL0,External Bus Interface Bank0 Control Register"
bitfld.long 0x00 24. "WBUFEN,EBI Write Buffer Enable Bit\nNote: This bit only available in EBI_CTL0 register" "0: EBI write buffer Disabled,1: EBI write buffer Enabled"
bitfld.long 0x00 16.--18. "TALE,Extend Time of ALE\nThe EBI_ALE high pulse period (tALE) to latch the address can be controlled by TALE.\nNote: This field only available in EBI_CTL0 register" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 8.--10. "MCLKDIV,External Output Clock Divider\nThe frequency of EBI output clock (MCLK) is controlled by MCLKDIV as follow" "0: HCLK/1,1: HCLK/2,2: HCLK/4,3: HCLK/8,4: HCLK/16,5: HCLK/32,6: HCLK/64,7: HCLK/128"
bitfld.long 0x00 4. "CACCESS,Continuous Data Access Mode\nWhen con tenuous access mode enabled the tASU tALE and tLHD cycles are bypass for continuous data transfer request" "0: Continuous data access mode Disabled,1: Continuous data access mode Enabled"
newline
bitfld.long 0x00 3. "ADSEPEN,EBI Address/Data Bus Separating Mode Enable Bit" "0: Address/Data Bus Separating Mode Disabled,1: Address/Data Bus Separating Mode Enabled"
bitfld.long 0x00 2. "CSPOLINV,Chip Select Pin Polar Inverse\nThis bit defines the active level of EBI chip select pin (EBI_nCS)" "0: Chip select pin (EBI_nCS) is active low,1: Chip select pin (EBI_nCS) is active high"
newline
bitfld.long 0x00 1. "DW16,EBI Data Width 16-bit Select\nThis bit defines if the EBI data width is 8-bit or 16-bit" "0: EBI data width is 8-bit,1: EBI data width is 16-bit"
bitfld.long 0x00 0. "EN,EBI Enable Bit\nThis bit is the functional enable bit for EBI" "0: EBI function Disabled,1: EBI function Enabled"
group.long 0x04++0x03
line.long 0x00 "EBI_TCTL0,External Bus Interface Bank0 Timing Control Register"
bitfld.long 0x00 24.--27. "R2R,Idle Cycle Between Read-to-read\nThis field defines the number of R2R idle cycle.\nWhen read action is finished and the next action is going to read R2R idle cycle is inserted and EBI_nCS return to idle state" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "WAHDOFF,Access Hold Time Disable Control When" "0: Data Access Hold Time (tAHD) during EBI..,1: Data Access Hold Time (tAHD) during EBI.."
newline
bitfld.long 0x00 22. "RAHDOFF,Access Hold Time Disable Control When" "0: Data Access Hold Time (tAHD) during EBI..,1: Data Access Hold Time (tAHD) during EBI.."
bitfld.long 0x00 12.--15. "W2X,Idle Cycle After Write\nThis field defines the number of W2X idle cycle.\nWhen write action is finished W2X idle cycle is inserted and EBI_nCS return to idle state" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 8.--10. "TAHD,EBI Data Access Hold Time\nTAHD defines data access hold time (tAHD)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--7. "TACC,EBI Data Access Time\nTACC defines data access time (tACC)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x10++0x03
line.long 0x00 "EBI_CTL1,External Bus Interface Bank1 Control Register"
bitfld.long 0x00 24. "WBUFEN,EBI Write Buffer Enable Bit\nNote: This bit only available in EBI_CTL0 register" "0: EBI write buffer Disabled,1: EBI write buffer Enabled"
bitfld.long 0x00 16.--18. "TALE,Extend Time of ALE\nThe EBI_ALE high pulse period (tALE) to latch the address can be controlled by TALE.\nNote: This field only available in EBI_CTL0 register" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 8.--10. "MCLKDIV,External Output Clock Divider\nThe frequency of EBI output clock (MCLK) is controlled by MCLKDIV as follow" "0: HCLK/1,1: HCLK/2,2: HCLK/4,3: HCLK/8,4: HCLK/16,5: HCLK/32,6: HCLK/64,7: HCLK/128"
bitfld.long 0x00 4. "CACCESS,Continuous Data Access Mode\nWhen con tenuous access mode enabled the tASU tALE and tLHD cycles are bypass for continuous data transfer request" "0: Continuous data access mode Disabled,1: Continuous data access mode Enabled"
newline
bitfld.long 0x00 3. "ADSEPEN,EBI Address/Data Bus Separating Mode Enable Bit" "0: Address/Data Bus Separating Mode Disabled,1: Address/Data Bus Separating Mode Enabled"
bitfld.long 0x00 2. "CSPOLINV,Chip Select Pin Polar Inverse\nThis bit defines the active level of EBI chip select pin (EBI_nCS)" "0: Chip select pin (EBI_nCS) is active low,1: Chip select pin (EBI_nCS) is active high"
newline
bitfld.long 0x00 1. "DW16,EBI Data Width 16-bit Select\nThis bit defines if the EBI data width is 8-bit or 16-bit" "0: EBI data width is 8-bit,1: EBI data width is 16-bit"
bitfld.long 0x00 0. "EN,EBI Enable Bit\nThis bit is the functional enable bit for EBI" "0: EBI function Disabled,1: EBI function Enabled"
group.long 0x14++0x03
line.long 0x00 "EBI_TCTL1,External Bus Interface Bank1 Timing Control Register"
bitfld.long 0x00 24.--27. "R2R,Idle Cycle Between Read-to-read\nThis field defines the number of R2R idle cycle.\nWhen read action is finished and the next action is going to read R2R idle cycle is inserted and EBI_nCS return to idle state" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "WAHDOFF,Access Hold Time Disable Control When" "0: Data Access Hold Time (tAHD) during EBI..,1: Data Access Hold Time (tAHD) during EBI.."
newline
bitfld.long 0x00 22. "RAHDOFF,Access Hold Time Disable Control When" "0: Data Access Hold Time (tAHD) during EBI..,1: Data Access Hold Time (tAHD) during EBI.."
bitfld.long 0x00 12.--15. "W2X,Idle Cycle After Write\nThis field defines the number of W2X idle cycle.\nWhen write action is finished W2X idle cycle is inserted and EBI_nCS return to idle state" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 8.--10. "TAHD,EBI Data Access Hold Time\nTAHD defines data access hold time (tAHD)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--7. "TACC,EBI Data Access Time\nTACC defines data access time (tACC)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x20++0x03
line.long 0x00 "EBI_CTL2,External Bus Interface Bank2 Control Register"
bitfld.long 0x00 24. "WBUFEN,EBI Write Buffer Enable Bit\nNote: This bit only available in EBI_CTL0 register" "0: EBI write buffer Disabled,1: EBI write buffer Enabled"
bitfld.long 0x00 16.--18. "TALE,Extend Time of ALE\nThe EBI_ALE high pulse period (tALE) to latch the address can be controlled by TALE.\nNote: This field only available in EBI_CTL0 register" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 8.--10. "MCLKDIV,External Output Clock Divider\nThe frequency of EBI output clock (MCLK) is controlled by MCLKDIV as follow" "0: HCLK/1,1: HCLK/2,2: HCLK/4,3: HCLK/8,4: HCLK/16,5: HCLK/32,6: HCLK/64,7: HCLK/128"
bitfld.long 0x00 4. "CACCESS,Continuous Data Access Mode\nWhen con tenuous access mode enabled the tASU tALE and tLHD cycles are bypass for continuous data transfer request" "0: Continuous data access mode Disabled,1: Continuous data access mode Enabled"
newline
bitfld.long 0x00 3. "ADSEPEN,EBI Address/Data Bus Separating Mode Enable Bit" "0: Address/Data Bus Separating Mode Disabled,1: Address/Data Bus Separating Mode Enabled"
bitfld.long 0x00 2. "CSPOLINV,Chip Select Pin Polar Inverse\nThis bit defines the active level of EBI chip select pin (EBI_nCS)" "0: Chip select pin (EBI_nCS) is active low,1: Chip select pin (EBI_nCS) is active high"
newline
bitfld.long 0x00 1. "DW16,EBI Data Width 16-bit Select\nThis bit defines if the EBI data width is 8-bit or 16-bit" "0: EBI data width is 8-bit,1: EBI data width is 16-bit"
bitfld.long 0x00 0. "EN,EBI Enable Bit\nThis bit is the functional enable bit for EBI" "0: EBI function Disabled,1: EBI function Enabled"
group.long 0x24++0x03
line.long 0x00 "EBI_TCTL2,External Bus Interface Bank2 Timing Control Register"
bitfld.long 0x00 24.--27. "R2R,Idle Cycle Between Read-to-read\nThis field defines the number of R2R idle cycle.\nWhen read action is finished and the next action is going to read R2R idle cycle is inserted and EBI_nCS return to idle state" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 23. "WAHDOFF,Access Hold Time Disable Control When" "0: Data Access Hold Time (tAHD) during EBI..,1: Data Access Hold Time (tAHD) during EBI.."
newline
bitfld.long 0x00 22. "RAHDOFF,Access Hold Time Disable Control When" "0: Data Access Hold Time (tAHD) during EBI..,1: Data Access Hold Time (tAHD) during EBI.."
bitfld.long 0x00 12.--15. "W2X,Idle Cycle After Write\nThis field defines the number of W2X idle cycle.\nWhen write action is finished W2X idle cycle is inserted and EBI_nCS return to idle state" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 8.--10. "TAHD,EBI Data Access Hold Time\nTAHD defines data access hold time (tAHD)" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 3.--7. "TACC,EBI Data Access Time\nTACC defines data access time (tACC)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
tree "ECAP"
repeat 2. (list 0. 1.) (list ad:0x400B4000 ad:0x400B5000)
tree "ECAP$1"
base $2
group.long 0x00++0x03
line.long 0x00 "ECAP_CNT,Input Capture Counter (24-bit Up Counter)"
hexmask.long.tbyte 0x00 0.--23. 1. "CNT,Input Capture Timer/Counter\nThe input Capture Timer/Counter is a 24-bit up-counting counter"
repeat 3. (strings "0" "1" "2" )(list 0x0 0x4 0x8 )
group.long ($2+0x04)++0x03
line.long 0x00 "ECAP_HLD$1,Input Capture Hold Register $1"
hexmask.long.tbyte 0x00 0.--23. 1. "HOLD,Input Capture Counter Hold Register\nWhen an active input capture channel detects a valid edge signal change the ECAPCNT value is latched into the corresponding holding register"
repeat.end
group.long 0x10++0x03
line.long 0x00 "ECAP_CNTCMP,Input Capture Compare Register"
hexmask.long.tbyte 0x00 0.--23. 1. "CNTCMP,Input Capture Counter Compare Register"
group.long 0x14++0x03
line.long 0x00 "ECAP_CTL0,Input Capture Control Register 0"
bitfld.long 0x00 29. "CAPEN,Input Capture Timer/Counter Enable Bit" "0: Input Capture function Disabled,1: Input Capture function Enabled"
bitfld.long 0x00 28. "CMPEN,Compare Function Enable Bit\nThe compare function in input capture timer/counter is to compare the dynamic counting ECAP_CNT with the compare register ECAP_CNTCMP if ECAP_CNT value reaches ECAP_CNTCMP the flag CAPCMPF will be set" "0: The compare function Disabled,1: The compare function Enabled"
newline
bitfld.long 0x00 25. "CMPCLREN,Input Capture Counter Cleared by Compare-match Control" "0: Compare-match event (CAPCMPF) can clear..,1: Compare-match event (CAPCMPF) can clear.."
bitfld.long 0x00 24. "CNTEN,Input Capture Counter Start Counting Control\nSetting this bit to 1 the capture counter (ECAP_CNT) starts up-counting synchronously with the clock from" "0: ECAP_CNT stop counting,1: ECAP_CNT starts up-counting"
newline
bitfld.long 0x00 21. "CMPIEN,CAPCMPF Trigger Input Capture Interrupt Enable Bit" "0: The flag CAPCMPF can trigger Input Capture..,1: The flag CAPCMPF can trigger Input Capture.."
bitfld.long 0x00 20. "OVIEN,CAPOVF Trigger Input Capture Interrupt Enable Bit" "0: The flag CAPOVF can trigger Input Capture..,1: The flag CAPOVF can trigger Input Capture.."
newline
bitfld.long 0x00 18. "CAPIEN2,Input Capture Channel 2 Interrupt Enable Bit" "0: The flag CAPTF2 can trigger Input Capture..,1: The flag CAPTF2 can trigger Input Capture.."
bitfld.long 0x00 17. "CAPIEN1,Input Capture Channel 1 Interrupt Enable Bit" "0: The flag CAPTF1 can trigger Input Capture..,1: The flag CAPTF1 can trigger Input Capture.."
newline
bitfld.long 0x00 16. "CAPIEN0,Input Capture Channel 0 Interrupt Enable Bit" "0: The flag CAPTF0 can trigger Input Capture..,1: The flag CAPTF0 can trigger Input Capture.."
bitfld.long 0x00 12.--13. "CAPSEL2,CAP2 Input Source Selection" "0: CAP2 input is from port pin ICAP2,1: Reserved,2: CAP2 input is from signal CHX of QEI..,3: Reserved"
newline
bitfld.long 0x00 10.--11. "CAPSEL1,CAP1 Input Source Selection" "0: CAP1 input is from port pin ICAP1,1: Reserved,2: CAP1 input is from signal CHB of QEI..,3: Reserved"
bitfld.long 0x00 8.--9. "CAPSEL0,CAP0 Input Source Selection" "0: CAP0 input is from port pin ICAP0,1: Reserved,2: CAP0 input is from signal CHA of QEI..,3: Reserved"
newline
bitfld.long 0x00 6. "IC2EN,Port Pin IC2 Input to Input Capture Unit Enable Bit" "0: IC2 input to Input Capture Unit Disabled,1: IC2 input to Input Capture Unit Enabled"
bitfld.long 0x00 5. "IC1EN,Port Pin IC1 Input to Input Capture Unit Enable Bit" "0: IC1 input to Input Capture Unit Disabled,1: IC1 input to Input Capture Unit Enabled"
newline
bitfld.long 0x00 4. "IC0EN,Port Pin IC0 Input to Input Capture Unit Enable Bit" "0: IC0 input to Input Capture Unit Disabled,1: IC0 input to Input Capture Unit Enabled"
bitfld.long 0x00 3. "CAPNFDIS,Input Capture Noise Filter Disable Bit" "0: Noise filter of Input Capture Enabled,1: Noise filter of Input Capture Disabled (Bypass)"
newline
bitfld.long 0x00 0.--2. "NFCLKSEL,Noise Filter Clock Pre-divide Selection\nTo determine the sampling frequency of the Noise Filter clock" "0: ECAP_CLK,1: ECAP_CLK/2,2: ECAP_CLK/4,3: ECAP_CLK/16,4: ECAP_CLK/32,5: ECAP_CLK/64,?..."
group.long 0x18++0x03
line.long 0x00 "ECAP_CTL1,Input Capture Control Register 1"
bitfld.long 0x00 22. "CAP2CLREN,Capture Counter Cleared by Capture Event2 Control" "0: Event CAPTE2 can clear capture counter..,1: Event CAPTE2 can clear capture counter.."
bitfld.long 0x00 21. "CAP1CLREN,Capture Counter Cleared by Capture Event1 Control" "0: Event CAPTE1 can clear capture counter..,1: Event CAPTE1 can clear capture counter.."
newline
bitfld.long 0x00 20. "CAP0CLREN,Capture Counter Cleared by Capture Event0 Control" "0: Event CAPTE0 can clear capture counter..,1: Event CAPTE0 can clear capture counter.."
bitfld.long 0x00 16.--17. "CNTSRCSEL,Capture Timer/Counter Clock Source Selection\nSelect the capture timer/counter clock source" "0: ECAP_CLK (default),1: CAP0,2: CAP1,3: CAP2"
newline
bitfld.long 0x00 12.--14. "CLKSEL,Capture Timer Clock Divide Selection\nThe capture timer clock has a pre-divider with eight divided options controlled by CLKSEL[2:0]" "0: ECAP_CLK/1,1: ECAP_CLK/4,2: ECAP_CLK/16,3: ECAP_CLK/32,4: ECAP_CLK/64,5: ECAP_CLK/96,6: ECAP_CLK/112,7: ECAP_CLK/128"
bitfld.long 0x00 11. "OVRLDEN,Capture Counter's Reload Function Triggered by Overflow Enable Bit" "0: The reload triggered by CAPOV Disabled,1: The reload triggered by CAPOV Enabled"
newline
bitfld.long 0x00 10. "CAP2RLDEN,Capture Counter's Reload Function Triggered by Event CAPTE2 Enable Bit" "0: The reload triggered by Event CAPTE2 Disabled,1: The reload triggered by Event CAPTE2 Enabled"
bitfld.long 0x00 9. "CAP1RLDEN,Capture Counter's Reload Function Triggered by Event CAPTE1 Enable Bit" "0: The reload triggered by Event CAPTE1 Disabled,1: The reload triggered by Event CAPTE1 Enabled"
newline
bitfld.long 0x00 8. "CAP0RLDEN,Capture Counter's Reload Function Triggered by Event CAPTE0 Enable Bit" "0: The reload triggered by Event CAPTE0 Disabled,1: The reload triggered by Event CAPTE0 Enabled"
bitfld.long 0x00 4.--5. "EDGESEL2,Channel 2 Captured Edge Selection\nInput capture2 can detect falling edge change only rising edge change only or both edge changes" "0: Detect rising edge only,1: Detect falling edge only.\nDetect both rising..,?..."
newline
bitfld.long 0x00 2.--3. "EDGESEL1,Channel 1 Captured Edge Selection\nInput capture1 can detect falling edge change only rising edge change only or both edge change" "0: Detect rising edge only,1: Detect falling edge only.\nDetect both rising..,?..."
bitfld.long 0x00 0.--1. "EDGESEL0,Channel 0 Captured Edge Selection\nInput capture0 can detect falling edge change only rising edge change only or both edge change" "0: Detect rising edge only,1: Detect falling edge only.\nDetect both rising..,?..."
group.long 0x1C++0x03
line.long 0x00 "ECAP_STATUS,Input Capture Status Register"
rbitfld.long 0x00 8. "CAP2,Value of Input Channel 2 CAP2 (Read Only)\nReflecting the value of input channel 2 CAP2.\nNote: The bit is read only and write is ignored" "0,1"
rbitfld.long 0x00 7. "CAP1,Value of Input Channel 1 CAP1 (Read Only)\nReflecting the value of input channel 1 CAP1\nNote: The bit is read only and write is ignored" "0,1"
newline
rbitfld.long 0x00 6. "CAP0,Value of Input Channel 0 CAP0 (Read Only)\nReflecting the value of input channel 0 CAP0\nNote: The bit is read only and write is ignored" "0,1"
bitfld.long 0x00 5. "CAPOVF,Input Capture Counter Overflow Flag\nFlag is set by hardware when counter (ECAP_CNT) overflows from 0x00FF_FFFF to 0.\nNote: This bit is only cleared by writing 1 to it" "0: No overflow event has occurred since last clear,1: Overflow event(s) has/have occurred since.."
newline
bitfld.long 0x00 4. "CAPCMPF,Input Capture Compare-match Flag\nIf the input capture compare function is enabled the flag is set by hardware when capture counter (ECAP_CNT) up counts and reaches the ECAP_CNTCMP value.\nNote: This bit is only cleared by writing 1 to it" "0: ECAP_CNT has not matched ECAP_CNTCMP value..,1: ECAP_CNT has matched ECAP_CNTCMP value at.."
bitfld.long 0x00 2. "CAPTF2,Input Capture Channel 2 Triggered Flag\nWhen the input capture channel 2 detects a valid edge change at CAP2 input it will set flag CAPTF2 to high" "0: No valid edge change has been detected at..,1: At least a valid edge change has been.."
newline
bitfld.long 0x00 1. "CAPTF1,Input Capture Channel 1 Triggered Flag\nWhen the input capture channel 1 detects a valid edge change at CAP1 input it will set flag CAPTF1 to high" "0: No valid edge change has been detected at..,1: At least a valid edge change has been.."
bitfld.long 0x00 0. "CAPTF0,Input Capture Channel 0 Triggered Flag\nWhen the input capture channel 0 detects a valid edge change at CAP0 input it will set flag CAPTF0 to high" "0: No valid edge change has been detected at..,1: At least a valid edge change has been.."
tree.end
repeat.end
tree.end
tree "EMAC"
base ad:0x4000B000
group.long 0x00++0x03
line.long 0x00 "EMAC_CAMCTL,CAM Comparison Control Register"
bitfld.long 0x00 4. "CMPEN,CAM Compare Enable Bit\nThe CMPEN controls the enable of CAM comparison function for destination MAC address recognition" "0: CAM comparison function for destination MAC..,1: CAM comparison function for destination MAC.."
bitfld.long 0x00 3. "COMPEN,Complement CAM Comparison Enable Bit\nThe COMPEN controls the complement of the CAM comparison result" "0: Complement CAM comparison result Disabled,1: Complement CAM comparison result Enabled"
newline
bitfld.long 0x00 2. "ABP,Accept Broadcast Packet\nThe ABP controls the broadcast packet reception" "0: EMAC receives packet depends on the CAM..,1: EMAC receives all broadcast packets"
bitfld.long 0x00 1. "AMP,Accept Multicast Packet\nThe AMP controls the multicast packet reception" "0: EMAC receives packet depends on the CAM..,1: EMAC receives all multicast packets"
newline
bitfld.long 0x00 0. "AUP,Accept Unicast Packet\nThe AUP controls the unicast packet reception" "0: EMAC receives packet depends on the CAM..,1: EMAC receives all unicast packets"
group.long 0x04++0x03
line.long 0x00 "ECAM_CAMEN,CAM Enable Register"
bitfld.long 0x00 0. "CAMxEN,CAM Entry x Enable Bit\nThe CAMxEN controls the validation of CAM entry x.\nThe CAM entry 13 14 and 15 are for PAUSE control frame transmission" "0: CAM entry x Disabled,1: CAM entry x Enabled"
group.long 0x08++0x03
line.long 0x00 "EMAC_CAM0M,CAM0 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x0C++0x03
line.long 0x00 "EMAC_CAM0L,CAM0 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x10++0x03
line.long 0x00 "EMAC_CAM1M,CAM1 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x14++0x03
line.long 0x00 "EMAC_CAM1L,CAM1 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x18++0x03
line.long 0x00 "EMAC_CAM2M,CAM2 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x1C++0x03
line.long 0x00 "EMAC_CAM2L,CAM2 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x20++0x03
line.long 0x00 "EMAC_CAM3M,CAM3 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x24++0x03
line.long 0x00 "EMAC_CAM3L,CAM3 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x28++0x03
line.long 0x00 "EMAC_CAM4M,CAM4 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x2C++0x03
line.long 0x00 "EMAC_CAM4L,CAM4 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x30++0x03
line.long 0x00 "EMAC_CAM5M,CAM5 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x34++0x03
line.long 0x00 "EMAC_CAM5L,CAM5 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x38++0x03
line.long 0x00 "EMAC_CAM6M,CAM6 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x3C++0x03
line.long 0x00 "EMAC_CAM6L,CAM6 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x40++0x03
line.long 0x00 "EMAC_CAM7M,CAM7 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x44++0x03
line.long 0x00 "EMAC_CAM7L,CAM7 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x48++0x03
line.long 0x00 "EMAC_CAM8M,CAM8 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x4C++0x03
line.long 0x00 "EMAC_CAM8L,CAM8 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x50++0x03
line.long 0x00 "EMAC_CAM9M,CAM9 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x54++0x03
line.long 0x00 "EMAC_CAM9L,CAM9 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x58++0x03
line.long 0x00 "EMAC_CAM10M,CAM10 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x5C++0x03
line.long 0x00 "EMAC_CAM10L,CAM10 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x60++0x03
line.long 0x00 "EMAC_CAM11M,CAM11 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x64++0x03
line.long 0x00 "EMAC_CAM11L,CAM11 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x68++0x03
line.long 0x00 "EMAC_CAM12M,CAM12 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x6C++0x03
line.long 0x00 "EMAC_CAM12L,CAM12 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x70++0x03
line.long 0x00 "EMAC_CAM13M,CAM13 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x74++0x03
line.long 0x00 "EMAC_CAM13L,CAM13 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x78++0x03
line.long 0x00 "EMAC_CAM14M,CAM14 Most Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR5,MAC Address Byte 5\nThe CAMxM keeps the bit 47~16 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR4,MAC Address Byte 4"
newline
hexmask.long.byte 0x00 8.--15. 1. "MACADDR3,MAC Address Byte 3"
hexmask.long.byte 0x00 0.--7. 1. "MACADDR2,MAC Address Byte 2"
group.long 0x7C++0x03
line.long 0x00 "EMAC_CAM14L,CAM14 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "MACADDR1,MAC Address Byte 1\nThe CAMxL keeps the bit 15~0 of MAC address"
hexmask.long.byte 0x00 16.--23. 1. "MACADDR0,MAC Address Byte 0"
group.long 0x80++0x03
line.long 0x00 "EMAC_CAM15MSB,CAM15 Most Significant Word Register"
hexmask.long.word 0x00 16.--31. 1. "LENGTH,LENGTH Field of PAUSE Control Frame\nIn the PAUSE control frame a LENGTH field defined and is 0x8808"
hexmask.long.word 0x00 0.--15. 1. "OPCODE,OP Code Field of PAUSE Control Frame\nIn the PAUSE control frame an op code field defined and is 0x0001"
group.long 0x84++0x03
line.long 0x00 "EMAC_CAM15LSB,CAM15 Least Significant Word Register"
hexmask.long.byte 0x00 24.--31. 1. "OPERAND,Pause Parameter\nIn the PAUSE control frame an OPERAND field defined and controls how much time the destination Ethernet MAC Controller paused"
group.long 0x88++0x03
line.long 0x00 "EMAC_TXDSA,Transmit Descriptor Link List Start Address Register"
hexmask.long 0x00 0.--31. 1. "TXDSA,Transmit Descriptor Link-list Start Address\nThe TXDSA keeps the start address of transmit descriptor link-list"
group.long 0x8C++0x03
line.long 0x00 "EMAC_RXDSA,Receive Descriptor Link List Start Address Register"
hexmask.long 0x00 0.--31. 1. "RXDSA,Receive Descriptor Link-list Start Address\nThe RXDSA keeps the start address of receive descriptor link-list"
group.long 0x90++0x03
line.long 0x00 "EMAC_CTL,MAC Control Register"
bitfld.long 0x00 24. "RST,Software Reset\nThe RST implements a reset function to make the EMAC return default state" "0: Software reset completed,1: Software reset Enabled"
bitfld.long 0x00 22. "RMIIEN,RMII Mode Enable Bit\nThis bit controls if Ethernet MAC controller connected with off-chip Ethernet PHY by MII interface or RMII interface" "0: Ethernet MAC controller RMII mode Disabled,1: Ethernet MAC controller RMII mode Enabled"
newline
bitfld.long 0x00 20. "OPMODE,Operation Mode Selection\nThe OPMODE defines that if the EMAC is operating on 10M or 100M bps mode" "0: EMAC operates in 10Mbps mode,1: EMAC operates in 100Mbps mode"
bitfld.long 0x00 19. "RMIIRXCTL,RMII RX Control\nThe RMIIRXCTL control the receive data sample in RMII mode" "0: RMII RX control Disabled,1: RMII RX control Enabled"
newline
bitfld.long 0x00 18. "FUDUP,Full Duplex Mode Selection\nThe FUDUP controls that if EMAC is operating on full or half duplex mode" "0: EMAC operates in half duplex mode,1: EMAC operates in full duplex mode"
bitfld.long 0x00 17. "SQECHKEN,SQE Checking Enable Bit\nThe SQECHKEN controls the enable of SQE checking" "0: SQE checking Disabled while EMAC is operating..,1: SQE checking Enabled while EMAC is operating.."
newline
bitfld.long 0x00 16. "SDPZ,Send PAUSE Frame\nThe SDPZ controls the PAUSE control frame transmission.\nIf S/W wants to send a PAUSE control frame out the CAM entry 13 14 and 15 must be configured first and the corresponding CAM enable bit of CAMEN register also must be set" "0: PAUSE control frame transmission completed,1: PAUSE control frame transmission Enabled"
bitfld.long 0x00 9. "NODEF,No Deferral\nThe NODEF controls the enable of deferral exceed counter" "0: The deferral exceed counter Enabled,1: The deferral exceed counter Disabled"
newline
bitfld.long 0x00 8. "TXON,Frame Transmission ON\nThe TXON controls the normal packet transmission of EMAC" "0: Packet transmission process stopped,1: Packet transmission process started"
bitfld.long 0x00 6. "WOLEN,Wake on LAN Enable Bit\nThe WOLEN high enables the functionality that Ethernet MAC controller checked if the incoming packet is Magic Packet and wakeup system from Power-down mode.\nIf incoming packet was a Magic Packet and the system was in.." "0: Wake-up by Magic Packet function Disabled,1: Wake-up by Magic Packet function Enabled"
newline
bitfld.long 0x00 5. "STRIPCRC,Strip CRC Checksum\nThe STRIPCRC controls if the length of incoming packet is calculated with 4 bytes CRC checksum" "0: The 4 bytes CRC checksum is included in..,1: The 4 bytes CRC checksum is excluded in.."
bitfld.long 0x00 4. "AEP,Accept CRC Error Packet\nThe AEP controls the EMAC accepts or drops the CRC error packet" "0: Ethernet MAC controller dropped the CRC error..,1: Ethernet MAC controller received the CRC.."
newline
bitfld.long 0x00 3. "ACP,Accept Control Packet\nThe ACP controls the control frame reception" "0: Ethernet MAC controller dropped the control..,1: Ethernet MAC controller received the control.."
bitfld.long 0x00 2. "ARP,Accept Runt Packet\nThe ARP controls the runt packet which length is less than 64 bytes reception" "0: Ethernet MAC controller dropped the runt packet,1: Ethernet MAC controller received the runt.."
newline
bitfld.long 0x00 1. "ALP,Accept Long Packet\nThe ALP controls the long packet which packet length is greater than 1518 bytes reception" "0: Ethernet MAC controller dropped the long packet,1: Ethernet MAC controller received the long.."
bitfld.long 0x00 0. "RXON,Frame Reception ON\nThe RXON controls the normal packet reception of EMAC" "0: Packet reception process stopped,1: Packet reception process started"
group.long 0x94++0x03
line.long 0x00 "EMAC_MIIMDAT,MII Management Data Register"
hexmask.long.word 0x00 0.--15. 1. "DATA,MII Management Data\nThe DATA is the 16 bits data that will be written into the registers of external PHY for MII Management write command or the data from the registers of external PHY for MII Management read command"
group.long 0x98++0x03
line.long 0x00 "EMAC_MIIMCTL,MII Management Control and Address Register"
bitfld.long 0x00 19. "MDCON,MDC Clock ON\nThe MDC controls the MDC clock generation" "0: MDC clock off,1: MDC clock on"
bitfld.long 0x00 18. "PREAMSP,Preamble Suppress\nThe PREAMSP controls the preamble field generation of MII management frame" "0: Preamble field generation of MII management..,1: Preamble field generation of MII management.."
newline
bitfld.long 0x00 17. "BUSY,Busy Bit\nThe BUSY controls the enable of the MII management frame generation" "0: MII management command generation finished,1: MII management command generation Enabled"
bitfld.long 0x00 16. "WRITE,Write Command\nThe Write defines the MII management command is a read or write" "0: MII management command is a read command,1: MII management command is a write command"
newline
bitfld.long 0x00 8.--12. "PHYADDR,PHY Address\nThe PHYADDR keeps the address to differentiate which external PHY is the target of the MII management command" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 0.--4. "PHYREG,PHY Register Address\nThe PHYREG keeps the address to indicate which register of external PHY is the target of the MII management command" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
group.long 0x9C++0x03
line.long 0x00 "EMAC_FIFOCTL,FIFO Threshold Control Register"
bitfld.long 0x00 20.--21. "BURSTLEN,DMA Burst Length\nThis defines the burst length of AHB bus cycle while EMAC accesses system memory" "0: 4 words,1: 8 words,2: 16 words,3: 16 words"
bitfld.long 0x00 8.--9. "TXFIFOTH,TXFIFO Low Threshold\nThe TXFIFOTH controls when TXDMA requests internal arbiter for data transfer between system memory and TXFIFO" "0: Undefined,1: TXFIFO low threshold is 64B and high..,2: TXFIFO low threshold is 80B and high..,3: TXFIFO low threshold is 96B and high.."
newline
bitfld.long 0x00 0.--1. "RXFIFOTH,RXFIFO Low Threshold\nThe RXFIFOTH controls when RXDMA requests internal arbiter for data transfer between RXFIFO and system memory" "0: Depend on the burst length setting,1: RXFIFO high threshold is 64B and low..,2: RXFIFO high threshold is 128B and low..,3: RXFIFO high threshold is 192B and low.."
wgroup.long 0xA0++0x03
line.long 0x00 "EMAC_TXST,Transmit Start Demand Register"
hexmask.long 0x00 0.--31. 1. "TXST,Transmit Start Demand\nIf the TX descriptor is not available for use of TXDMA after the TXON (EMAC_CTL[8]) is enabled the FSM (Finite State Machine) of TXDMA enters the Halt state and the frame transmission is halted"
wgroup.long 0xA4++0x03
line.long 0x00 "EMAC_RXST,Receive Start Demand Register"
hexmask.long 0x00 0.--31. 1. "RXST,Receive Start Demand\nIf the RX descriptor is not available for use of RXDMA after the RXON (EMAC_CTL[0]) is enabled the FSM (Finite State Machine) of RXDMA enters the Halt state and the frame reception is halted"
group.long 0xA8++0x03
line.long 0x00 "EMAC_MRFL,Maximum Receive Frame Control Register"
hexmask.long.word 0x00 0.--15. 1. "MRFL,Maximum Receive Frame Length\nThe MRFL defines the maximum frame length for received frame"
group.long 0xAC++0x03
line.long 0x00 "EMAC_INTEN,MAC Interrupt Enable Register"
bitfld.long 0x00 28. "TSALMIEN,Time Stamp Alarm Interrupt Enable Bit\nThe TSALMIEN controls the TSALMIF (EMAC_INTSTS[28]) interrupt generation" "0: TXTSALMIF (EMAC_INTSTS[28]) trigger TX..,1: TXTSALMIF (EMAC_INTSTS[28]) trigger TX.."
bitfld.long 0x00 24. "TXBEIEN,Transmit Bus Error Interrupt Enable Bit\nThe TXBEIEN controls the TXBEIF (EMAC_INTSTS[24]) interrupt generation" "0: TXBEIF (EMAC_INTSTS[24]) trigger TX interrupt..,1: TXBEIF (EMAC_INTSTS[24]) trigger TX interrupt.."
newline
bitfld.long 0x00 23. "TDUIEN,Transmit Descriptor Unavailable Interrupt Enable Bit\nThe TDUIEN controls the TDUIF (EMAC_INTSTS[23]) interrupt generation" "0: TDUIF (EMAC_INTSTS[23]) trigger TX interrupt..,1: TDUIF (EMAC_INTSTS[23]) trigger TX interrupt.."
bitfld.long 0x00 22. "LCIEN,Late Collision Interrupt Enable Bit\nThe LCIEN controls the LCIF (EMAC_INTSTS[22]) interrupt generation" "0: LCIF (EMAC_INTSTS[22]) trigger TX interrupt..,1: LCIF (EMAC_INTSTS[22]) trigger TX interrupt.."
newline
bitfld.long 0x00 21. "TXABTIEN,Transmit Abort Interrupt Enable Bit\nThe TXABTIEN controls the TXABTIF (EMAC_INTSTS[21]) interrupt generation" "0: TXABTIF (EMAC_INTSTS[21]) trigger TX..,1: TXABTIF (EMAC_INTSTS[21]) trigger TX.."
bitfld.long 0x00 20. "NCSIEN,No Carrier Sense Interrupt Enable Bit\nThe NCSIEN controls the NCSIF (EMAC_INTSTS[20]) interrupt generation" "0: NCSIF (EMAC_INTSTS[20]) trigger TX interrupt..,1: NCSIF (EMAC_INTSTS[20]) trigger TX interrupt.."
newline
bitfld.long 0x00 19. "EXDEFIEN,Defer Exceed Interrupt Enable Bit\nThe EXDEFIEN controls the EXDEFIF (EMAC_INTSTS[19]) interrupt generation" "0: EXDEFIF (EMAC_INTSTS[19]) trigger TX..,1: EXDEFIF (EMAC_INTSTS[19]) trigger TX.."
bitfld.long 0x00 18. "TXCPIEN,Transmit Completion Interrupt Enable Bit\nThe TXCPIEN controls the TXCPIF (EMAC_INTSTS[18]) interrupt generation" "0: TXCPIF (EMAC_INTSTS[18]) trigger TX interrupt..,1: TXCPIF (EMAC_INTSTS[18]) trigger TX interrupt.."
newline
bitfld.long 0x00 17. "TXUDIEN,Transmit FIFO Underflow Interrupt Enable Bit\nThe TXUDIEN controls the TXUDIF (EMAC_INTSTS[17]) interrupt generation" "0: TXUDIF (EMAC_INTSTS[17]) TX interrupt Disabled,1: TXUDIF (EMAC_INTSTS[17]) TX interrupt Enabled"
bitfld.long 0x00 16. "TXIEN,Transmit Interrupt Enable Bit\nThe TXIEN controls the TX interrupt generation.\nIf TXIEN is enabled and TXIF (EMAC_INTSTS[16]) is high EMAC generates the TX interrupt to CPU" "0: TXIF (EMAC_INTSTS[16]) is masked and TX..,1: TXIF (EMAC_INTSTS[16]) is not masked and TX.."
newline
bitfld.long 0x00 15. "WOLIEN,Wake on LAN Interrupt Enable Bit\nThe WOLIEN controls the WOLIF (EMAC_INTSTS[15]) interrupt generation" "0: WOLIF (EMAC_INTSTS[15]) trigger RX interrupt..,1: WOLIF (EMAC_INTSTS[15]) trigger RX interrupt.."
bitfld.long 0x00 14. "CFRIEN,Control Frame Receive Interrupt Enable Bit\nThe CFRIEN controls the CFRIF (EMAC_INTSTS[14]) interrupt generation" "0: CFRIF (EMAC_INTSTS[14]) trigger RX interrupt..,1: CFRIF (EMAC_INTSTS[14]) trigger RX interrupt.."
newline
bitfld.long 0x00 11. "RXBEIEN,Receive Bus Error Interrupt Enable Bit\nThe RXBEIEN controls the RXBEIF (EMAC_INTSTS[11]) interrupt generation" "0: RXBEIF (EMAC_INTSTS[11]) trigger RX interrupt..,1: RXBEIF (EMAC_INTSTS[11]) trigger RX interrupt.."
bitfld.long 0x00 10. "RDUIEN,Receive Descriptor Unavailable Interrupt Enable Bit\nThe RDUIEN controls the RDUIF (EMAC_INTSTS[10]) interrupt generation" "0: RDUIF (EMAC_INTSTS[10]) trigger RX interrupt..,1: RDUIF (EMAC_INTSTS[10]) trigger RX interrupt.."
newline
bitfld.long 0x00 9. "DENIEN,DMA Early Notification Interrupt Enable Bit\nThe DENIEN controls the DENIF (EMAC_INTSTS[9]) interrupt generation" "0: TDENIF (EMAC_INTSTS[9]) trigger RX interrupt..,1: TDENIF (EMAC_INTSTS[9]) trigger RX interrupt.."
bitfld.long 0x00 8. "MFLEIEN,Maximum Frame Length Exceed Interrupt Enable Bit\nThe MFLEIEN controls the MFLEIF (EMAC_INTSTS[8]) interrupt generation" "0: MFLEIF (EMAC_INTSTS[8]) trigger RX interrupt..,1: MFLEIF (EMAC_INTSTS[8]) trigger RX interrupt.."
newline
bitfld.long 0x00 7. "MPCOVIEN,Miss Packet Counter Overrun Interrupt Enable Bit\nThe MPCOVIEN controls the MPCOVIF (EMAC_INTSTS[7]) interrupt generation" "0: MPCOVIF (EMAC_INTSTS[7]) trigger RX interrupt..,1: MPCOVIF (EMAC_INTSTS[7]) trigger RX interrupt.."
bitfld.long 0x00 6. "RPIEN,Runt Packet Interrupt Enable Bit\nThe RPIEN controls the RPIF (EMAC_INTSTS[6]) interrupt generation" "0: RPIF (EMAC_INTSTS[6]) trigger RX interrupt..,1: RPIF (EMAC_INTSTS[6]) trigger RX interrupt.."
newline
bitfld.long 0x00 5. "ALIEIEN,Alignment Error Interrupt Enable Bit\nThe ALIEIEN controls the ALIEIF (EMAC_INTSTS[5]) interrupt generation" "0: ALIEIF (EMAC_INTSTS[5]) trigger RX interrupt..,1: ALIEIF (EMAC_INTSTS[5]) trigger RX interrupt.."
bitfld.long 0x00 4. "RXGDIEN,Receive Good Interrupt Enable Bit\nThe RXGDIEN controls the RXGDIF (EMAC_INTSTS[4]) interrupt generation" "0: RXGDIF (EMAC_INTSTS[4]) trigger RX interrupt..,1: RXGDIF (EMAC_INTSTS[4]) trigger RX interrupt.."
newline
bitfld.long 0x00 3. "LPIEN,Long Packet Interrupt Enable Bit\nThe LPIEN controls the LPIF (EMAC_INTSTS[3]) interrupt generation" "0: LPIF (EMAC_INTSTS[3]) trigger RX interrupt..,1: LPIF (EMAC_INTSTS[3]) trigger RX interrupt.."
bitfld.long 0x00 2. "RXOVIEN,Receive FIFO Overflow Interrupt Enable Bit\nThe RXOVIEN controls the RXOVIF (EMAC_INTSTS[2]) interrupt generation" "0: RXOVIF (EMAC_INTSTS[2]) trigger RX interrupt..,1: RXOVIF (EMAC_INTSTS[2]) trigger RX interrupt.."
newline
bitfld.long 0x00 1. "CRCEIEN,CRC Error Interrupt Enable Bit\nThe CRCEIEN controls the CRCEIF (EMAC_INTSTS[1]) interrupt generation" "0: CRCEIF (EMAC_INTSTS[1]) trigger RX interrupt..,1: CRCEIF (EMAC_INTSTS[1]) trigger RX interrupt.."
bitfld.long 0x00 0. "RXIEN,Receive Interrupt Enable Bit\nThe RXIEN controls the RX interrupt generation.\nIf RXIEN is enabled and RXIF (EMAC_INTSTS[0]) is high EMAC generates the RX interrupt to CPU" "0: RXIF (EMAC_INTSTS[0]) is masked and RX..,1: RXIF (EMAC_INTSTS[0]) is not masked and RX.."
group.long 0xB0++0x03
line.long 0x00 "EMAC_INTSTS,MAC Interrupt Status Register"
bitfld.long 0x00 28. "TSALMIF,Time Stamp Alarm Interrupt\nThe TSALMIF high indicates the EMAC_TSSEC register value equals to EMAC_ALMSEC register and EMAC_TSSUBSEC register value equals to register EMAC_ALMSUBSEC.\nIf TSALMIF is high and TSALMIEN (EMAC_INTEN[28]) enabled the.." "0: EMAC_TSSEC did not equal EMAC_ALMSEC or..,1: EMAC_TSSEC equals EMAC_ALMSEC and.."
bitfld.long 0x00 24. "TXBEIF,Transmit Bus Error Interrupt\nThe TXBEIF high indicates the memory controller replies ERROR response while EMAC access system memory through TXDMA during packet transmission process" "0: No ERROR response is received,1: ERROR response is received"
newline
bitfld.long 0x00 23. "TDUIF,Transmit Descriptor Unavailable Interrupt\nThe TDUIF high indicates that there is no available TX descriptor for packet transmission and TXDMA will stay at Halt state" "0: TX descriptor is available,1: TX descriptor is unavailable"
bitfld.long 0x00 22. "LCIF,Late Collision Interrupt\nThe LCIF high indicates the collision occurred in the outside of 64 bytes collision window" "0: No collision occurred in the outside of 64..,1: Collision occurred in the outside of 64 bytes.."
newline
bitfld.long 0x00 21. "TXABTIF,Transmit Abort Interrupt\nThe TXABTIF high indicates the packet incurred 16 consecutive collisions during transmission and then the transmission process for this packet is aborted" "0: Packet does not incur 16 consecutive..,1: Packet incurred 16 consecutive collisions.."
bitfld.long 0x00 20. "NCSIF,No Carrier Sense Interrupt\nThe NCSIF high indicates the MII I/F signal CRS does not active at the start of or during the packet transmission" "0: CRS signal actives correctly,1: CRS signal does not active at the start of or.."
newline
bitfld.long 0x00 19. "EXDEFIF,Defer Exceed Interrupt\nThe EXDEFIF high indicates the frame waiting for transmission has deferred over 0.32768ms on 100Mbps mode or 3.2768ms on 10Mbps mode" "0: Frame waiting for transmission has not..,1: Frame waiting for transmission has deferred.."
bitfld.long 0x00 18. "TXCPIF,Transmit Completion Interrupt\nThe TXCPIF indicates the packet transmission has completed correctly.\nIf the TXCPIF is high and TXCPIEN (EMAC_INTEN[18]) is enabled the TXIF will be high" "0: The packet transmission not completed,1: The packet transmission has completed"
newline
bitfld.long 0x00 17. "TXUDIF,Transmit FIFO Underflow Interrupt\nThe TXUDIF high indicates the TXFIFO underflow occurred during packet transmission" "0: No TXFIFO underflow occurred during packet..,1: TXFIFO underflow occurred during packet.."
bitfld.long 0x00 16. "TXIF,Transmit Interrupt\nThe TXIF indicates the TX interrupt status.\nIf TXIF high and its corresponding enable bit TXIEN (EMAC_INTEN[16]) is also high indicates the EMAC generates TX interrupt to CPU" "0: No status bit in EMAC_INTSTS[28:17] is set or..,1: At least one status in EMAC_INTSTS[28:17] is.."
newline
bitfld.long 0x00 15. "WOLIF,Wake on LAN Interrupt Flag\nThe WOLIF high indicates EMAC receives a Magic Packet" "0: The EMAC does not receive the Magic Packet,1: The EMAC receives a Magic Packet"
bitfld.long 0x00 14. "CFRIF,Control Frame Receive Interrupt\nThe CFRIF high indicates EMAC receives a flow control frame" "0: The EMAC does not receive the flow control..,1: The EMAC receives a flow control frame"
newline
bitfld.long 0x00 11. "RXBEIF,Receive Bus Error Interrupt\nThe RXBEIF high indicates the memory controller replies ERROR response while EMAC access system memory through RXDMA during packet reception process" "0: No ERROR response is received,1: ERROR response is received"
bitfld.long 0x00 10. "RDUIF,Receive Descriptor Unavailable Interrupt\nThe RDUIF high indicates that there is no available RX descriptor for packet reception and RXDMA will stay at Halt state" "0: RX descriptor is available,1: RX descriptor is unavailable"
newline
bitfld.long 0x00 9. "DENIF,DMA Early Notification Interrupt\nThe DENIF high indicates the EMAC has received the LENGTH field of the incoming packet.\nIf the DENIF is high and DENIENI (EMAC_INTEN[9]) is enabled the RXIF will be high" "0: The LENGTH field of incoming packet has not..,1: The LENGTH field of incoming packet has.."
bitfld.long 0x00 8. "MFLEIF,Maximum Frame Length Exceed Interrupt Flag\nThe MFLEIF high indicates the length of the incoming packet has exceeded the length limitation configured in DMARFC register and the incoming packet is dropped" "0: The length of the incoming packet does not..,1: The length of the incoming packet has.."
newline
bitfld.long 0x00 7. "MPCOVIF,Missed Packet Counter Overrun Interrupt Flag\nThe MPCOVIF high indicates the MPCNT Missed Packet Count has overflow" "0: The MPCNT has not rolled over yet,1: The MPCNT has rolled over yet"
bitfld.long 0x00 6. "RPIF,Runt Packet Interrupt\nThe RPIF high indicates the length of the incoming packet is less than 64 bytes and the packet is dropped" "0: The incoming frame is not a short frame or..,1: The incoming frame is a short frame and dropped"
newline
bitfld.long 0x00 5. "ALIEIF,Alignment Error Interrupt\nThe ALIEIF high indicates the length of the incoming frame is not a multiple of byte" "0: The frame length is a multiple of byte,1: The frame length is not a multiple of byte"
bitfld.long 0x00 4. "RXGDIF,Receive Good Interrupt\nThe RXGDIF high indicates the frame reception has completed.\nIf the RXGDIF is high and RXGDIEN (EAMC_MIEN[4]) is enabled the RXIF will be high" "0: The frame reception has not complete yet,1: The frame reception has completed"
newline
bitfld.long 0x00 3. "LPIF,Long Packet Interrupt Flag\nThe LPIF high indicates the length of the incoming packet is greater than 1518 bytes and the incoming packet is dropped" "0: The incoming frame is not a long frame or S/W..,1: The incoming frame is a long frame and dropped"
bitfld.long 0x00 2. "RXOVIF,Receive FIFO Overflow Interrupt\nThe RXOVIF high indicates the RXFIFO overflow occurred during packet reception" "0: No RXFIFO overflow occurred during packet..,1: RXFIFO overflow occurred during packet.."
newline
bitfld.long 0x00 1. "CRCEIF,CRC Error Interrupt\nThe CRCEIF high indicates the incoming packet incurred the CRC error and the packet is dropped" "0: The frame does not incur CRC error,1: The frame incurred CRC error"
bitfld.long 0x00 0. "RXIF,Receive Interrupt\nThe RXIF indicates the RX interrupt status.\nIf RXIF high and its corresponding enable bit RXIEN (EMAC_INTEN[0]) is also high indicates the EMAC generates RX interrupt to CPU" "0: No status bit in EMAC_INTSTS[15:1] is set or..,1: At least one status in EMAC_INTSTS[15:1] is.."
group.long 0xB4++0x03
line.long 0x00 "EMAC_GENSTS,MAC General Status Register"
bitfld.long 0x00 12. "RPSTS,Remote Pause Status\nThe RPSTS indicates that remote pause counter down counting actives.\nAfter Ethernet MAC controller sent PAUSE frame out successfully it starts the remote pause counter down counting" "0: Remote pause counter down counting done,1: Remote pause counter down counting actives"
bitfld.long 0x00 11. "TXHALT,Transmission Halted\nThe TXHALT high indicates the next normal packet transmission process will be halted because the bit TXON (EMAC_CTL[8]) is disabled be S/W" "0: Next normal packet transmission process will..,1: Next normal packet transmission process will.."
newline
bitfld.long 0x00 10. "SQE,Signal Quality Error\nThe SQE high indicates the SQE error found at end of packet transmission on 10Mbps half-duplex mode" "0: No SQE error found at end of packet..,1: SQE error found at end of packet transmission"
bitfld.long 0x00 9. "TXPAUSED,Transmission Paused\nThe TXPAUSED high indicates the next normal packet transmission process will be paused temporally because EMAC received a PAUSE control frame" "0: Next normal packet transmission process will..,1: Next normal packet transmission process will.."
newline
bitfld.long 0x00 8. "DEF,Deferred Transmission\nThe DEF high indicates the packet transmission has deferred once" "0: Packet transmission does not defer,1: Packet transmission has deferred once"
bitfld.long 0x00 4.--7. "COLCNT,Collision Count\nThe COLCNT indicates that how many collisions occurred consecutively during a packet transmission" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 2. "RXFFULL,RXFIFO Full\nThe RXFFULL indicates the RXFIFO is full due to four 64-byte packets are kept in RXFIFO and the following incoming packet will be dropped" "0: The RXFIFO is not full,1: The RXFIFO is full and the following incoming.."
bitfld.long 0x00 1. "RXHALT,Receive Halted\nThe RXHALT high indicates the next normal packet reception process will be halted because the bit RXON of MCMDR is disabled be S/W" "0: Next normal packet reception process will go on,1: Next normal packet reception process will be.."
newline
bitfld.long 0x00 0. "CFR,Control Frame Received\nThe CFRIF high indicates EMAC receives a flow control frame" "0: The EMAC does not receive the flow control..,1: The EMAC receives a flow control frame"
group.long 0xB8++0x03
line.long 0x00 "EMAC_MPCNT,Missed Packet Count Register"
hexmask.long.word 0x00 0.--15. 1. "MPCNT,Miss Packet Count\nThe MPCNT indicates the number of packets that were dropped due to various types of receive errors"
rgroup.long 0xBC++0x03
line.long 0x00 "EMAC_RPCNT,MAC Receive Pause Count Register"
hexmask.long.word 0x00 0.--15. 1. "RPCNT,MAC Receive Pause Count\nThe RPCNT keeps the OPERAND field of the PAUSE control frame"
group.long 0xC8++0x03
line.long 0x00 "EMAC_FRSTS,DMA Receive Frame Status Register"
hexmask.long.word 0x00 0.--15. 1. "RXFLT,Receive Frame LENGTH\nThe RXFLT keeps the LENGTH field of each incoming Ethernet packet"
rgroup.long 0xCC++0x03
line.long 0x00 "EMAC_CTXDSA,Current Transmit Descriptor Start Address Register"
hexmask.long 0x00 0.--31. 1. "CTXDSA,Current Transmit Descriptor Start Address\nThe CTXDSA keeps the start address of TX descriptor that is used by TXDMA currently"
rgroup.long 0xD0++0x03
line.long 0x00 "EMAC_CTXBSA,Current Transmit Buffer Start Address Register"
hexmask.long 0x00 0.--31. 1. "CTXBSA,Current Transmit Buffer Start Address\nThe CTXDSA keeps the start address of TX frame buffer that is used by TXDMA currently"
rgroup.long 0xD4++0x03
line.long 0x00 "EMAC_CRXDSA,Current Receive Descriptor Start Address Register"
hexmask.long 0x00 0.--31. 1. "CRXDSA,Current Receive Descriptor Start Address\nThe CRXDSA keeps the start address of RX descriptor that is used by RXDMA currently"
rgroup.long 0xD8++0x03
line.long 0x00 "EMAC_CRXBSA,Current Receive Buffer Start Address Register"
hexmask.long 0x00 0.--31. 1. "CRXBSA,Current Receive Buffer Start Address\nThe CRXBSA keeps the start address of RX frame buffer that is used by RXDMA currently"
group.long 0x100++0x03
line.long 0x00 "EMAC_TSCTL,Time Stamp Control Register"
bitfld.long 0x00 5. "TSALMEN,Time Stamp Alarm Enable Bit\nSet this bit high enable Ethernet MAC controller to set TSALMIF (EMAC_INTSTS[28]) high when EMAC_TSSEC equals to EMAC_ALMSEC and EMAC_TSSUBSEC equals to EMAC_ALMSUBSEC" "0: Alarm disabled when EMAC_TSSEC equals to..,1: Alarm enabled when EMAC_TSSEC equals to.."
bitfld.long 0x00 3. "TSUPDATE,Time Stamp Counter Time Update Enable Bit\nSet this bit high enables Ethernet MAC controller to add value of register EMAC_UPDSEC and EMAC_UPDSUBSEC to PTP time stamp counter.\nAfter the add operation finished Ethernet MAC controller clear this.." "0: No action,1: EMAC_UPDSEC updated to EMAC_TSSEC and.."
newline
bitfld.long 0x00 2. "TSMODE,Time Stamp Fine Update Enable Bit\nThis bit chooses the time stamp counter update mode" "0: Time stamp counter is in coarse update mode,1: Time stamp counter is in fine update mode"
bitfld.long 0x00 1. "TSIEN,Time Stamp Counter Initialization Enable Bit\nSet this bit high enables Ethernet MAC controller to load value of register EMAC_UPDSEC and EMAC_UPDSUBSEC to PTP time stampe counter.\nAfter the load operation finished Ethernet MAC controller clear.." "0: Time stamp counter initialization done,1: Time stamp counter initialization Enabled"
newline
bitfld.long 0x00 0. "TSEN,Time Stamp Function Enable Bit\nThis bit controls if the IEEE 1588 PTP time stamp function is enabled or not.\nSet this bit high to enable IEEE 1588 PTP time stamp function while set this bit low to disable IEEE 1588 PTP time stamp function" "0: I EEE 1588 PTP time stamp function Disabled,1: IEEE 1588 PTP time stamp function Enabled"
rgroup.long 0x110++0x03
line.long 0x00 "EMAC_TSSEC,Time Stamp Counter Second Register"
hexmask.long 0x00 0.--31. 1. "SEC,Time Stamp Counter Second\nThis register reflects the bit [63:32] value of 64-bit reference timing counter"
rgroup.long 0x114++0x03
line.long 0x00 "EMAC_TSSUBSEC,Time Stamp Counter Sub Second Register"
hexmask.long 0x00 0.--31. 1. "SUBSEC,Time Stamp Counter Sub-second\nThis register reflects the bit [31:0] value of 64-bit reference timing counter"
group.long 0x118++0x03
line.long 0x00 "EMAC_TSINC,Time Stamp Increment Register"
hexmask.long.byte 0x00 0.--7. 1. "CNTINC,Time Stamp Counter Increment\nTime stamp counter increment value.\nIf TSEN (EMAC_TSCTL[0]) is high EMAC adds EMAC_TSSUBSEC with this 8-bit value every time when it wants to increase the EMAC_TSSUBSEC value"
group.long 0x11C++0x03
line.long 0x00 "EMAC_TSADDEND,Time Stamp Addend Register"
hexmask.long 0x00 0.--31. 1. "ADDEND,Time Stamp Counter Addend\nThis register keeps a 32-bit value for accumulator to enable increment of EMAC_TSSUBSEC.\nIf TSEN (EMAC_TSCTL[0]) and TSMODE (EMAC_TSCTL[2]) are both high the EMAC increases accumulator with this 32-bit value in each HCLK"
group.long 0x120++0x03
line.long 0x00 "EMAC_UPDSEC,Time Stamp Update Second Register"
hexmask.long 0x00 0.--31. 1. "SEC,Time Stamp Counter Second Update\nWhen TSIEN (EMAC_TSCTL[1]) is high EMAC loads this 32-bit value to EMAC_TSSEC directly"
group.long 0x124++0x03
line.long 0x00 "EMAC_UPDSUBSEC,Time Stamp Update Sub Second Register"
hexmask.long 0x00 0.--31. 1. "SUBSEC,Time Stamp Counter Sub-second Update\nWhen TSIEN (EMAC_TSCTL[1]) is high EMAC loads this 32-bit value to EMAC_TSSUBSEC directly"
group.long 0x128++0x03
line.long 0x00 "EMAC_ALMSEC,Time Stamp Alarm Second Register"
hexmask.long 0x00 0.--31. 1. "SEC,Time Stamp Counter Second Alarm\nTime stamp counter second part alarm value.\nThis value is only useful when ALMEN (EMAC_TSCTL[5]) is high"
group.long 0x12C++0x03
line.long 0x00 "EMAC_ALMSUBSEC,Time Stamp Alarm Sub Second Register"
hexmask.long 0x00 0.--31. 1. "SUBSEC,Time Stamp Counter Sub-second Alarm\nTime stamp counter sub-second part alarm value.\nThis value is only useful when ALMEN (EMAC_TSCTL[5]) is high"
tree.end
tree "EPWM"
repeat 2. (list 0. 1.) (list ad:0x40058000 ad:0x40059000)
tree "EPWM$1"
base $2
group.long 0x00++0x03
line.long 0x00 "EPWM_CTL0,EPWM Control Register 0"
bitfld.long 0x00 31. "DBGTRIOFF,ICE Debug Mode Acknowledge Disable Bit (Write Protect)\nEPWM pin will keep output no matter ICE debug mode acknowledged or not.\nNote: This bit is write protected" "0: ICE debug mode acknowledgement effects EPWM..,1: ICE debug mode acknowledgement disabled"
bitfld.long 0x00 30. "DBGHALT,ICE Debug Mode Counter Halt (Write Protect)\nIf counter halt is enabled EPWM all counters will keep current value until exit ICE debug mode" "0: ICE debug mode counter halt Disabled,1: ICE debug mode counter halt Enabled"
newline
bitfld.long 0x00 24. "GROUPEN,Group Function Enable Bit" "0: The output waveform of each EPWM channel are..,1: Unify the EPWM_CH2 and EPWM_CH4 to output the.."
bitfld.long 0x00 21. "IMMLDEN5,Immediately Load Enable Bits\nNote: If IMMLDENn is enabled WINLDENn and CTRLDn will be invalid" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD/CMP will load to PBUF and CMPBUF.."
newline
bitfld.long 0x00 20. "IMMLDEN4,Immediately Load Enable Bits\nNote: If IMMLDENn is enabled WINLDENn and CTRLDn will be invalid" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD/CMP will load to PBUF and CMPBUF.."
bitfld.long 0x00 19. "IMMLDEN3,Immediately Load Enable Bits\nNote: If IMMLDENn is enabled WINLDENn and CTRLDn will be invalid" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD/CMP will load to PBUF and CMPBUF.."
newline
bitfld.long 0x00 18. "IMMLDEN2,Immediately Load Enable Bits\nNote: If IMMLDENn is enabled WINLDENn and CTRLDn will be invalid" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD/CMP will load to PBUF and CMPBUF.."
bitfld.long 0x00 17. "IMMLDEN1,Immediately Load Enable Bits\nNote: If IMMLDENn is enabled WINLDENn and CTRLDn will be invalid" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD/CMP will load to PBUF and CMPBUF.."
newline
bitfld.long 0x00 16. "IMMLDEN0,Immediately Load Enable Bits\nNote: If IMMLDENn is enabled WINLDENn and CTRLDn will be invalid" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD/CMP will load to PBUF and CMPBUF.."
bitfld.long 0x00 13. "WINLDEN5,Window Load Enable Bits" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD will load to PBUF at the end point of.."
newline
bitfld.long 0x00 12. "WINLDEN4,Window Load Enable Bits" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD will load to PBUF at the end point of.."
bitfld.long 0x00 11. "WINLDEN3,Window Load Enable Bits" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD will load to PBUF at the end point of.."
newline
bitfld.long 0x00 10. "WINLDEN2,Window Load Enable Bits" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD will load to PBUF at the end point of.."
bitfld.long 0x00 9. "WINLDEN1,Window Load Enable Bits" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD will load to PBUF at the end point of.."
newline
bitfld.long 0x00 8. "WINLDEN0,Window Load Enable Bits" "0: PERIOD will load to PBUF at the end point of..,1: PERIOD will load to PBUF at the end point of.."
bitfld.long 0x00 5. "CTRLD5,Center Re-load\nIn up-down counter type PERIOD will load to PBUF at the end point of each period" "0,1"
newline
bitfld.long 0x00 4. "CTRLD4,Center Re-load\nIn up-down counter type PERIOD will load to PBUF at the end point of each period" "0,1"
bitfld.long 0x00 3. "CTRLD3,Center Re-load\nIn up-down counter type PERIOD will load to PBUF at the end point of each period" "0,1"
newline
bitfld.long 0x00 2. "CTRLD2,Center Re-load\nIn up-down counter type PERIOD will load to PBUF at the end point of each period" "0,1"
bitfld.long 0x00 1. "CTRLD1,Center Re-load\nIn up-down counter type PERIOD will load to PBUF at the end point of each period" "0,1"
newline
bitfld.long 0x00 0. "CTRLD0,Center Re-load\nIn up-down counter type PERIOD will load to PBUF at the end point of each period" "0,1"
group.long 0x04++0x03
line.long 0x00 "EPWM_CTL1,EPWM Control Register 1"
bitfld.long 0x00 26. "OUTMODE4,EPWM Output Mode\nEach bit n controls the output mode of corresponding EPWM channel n.\nNote: When operating in group function these bits must all set to the same mode" "0: EPWM independent mode,1: EPWM complementary mode"
bitfld.long 0x00 25. "OUTMODE2,EPWM Output Mode\nEach bit n controls the output mode of corresponding EPWM channel n.\nNote: When operating in group function these bits must all set to the same mode" "0: EPWM independent mode,1: EPWM complementary mode"
newline
bitfld.long 0x00 24. "OUTMODE0,EPWM Output Mode\nEach bit n controls the output mode of corresponding EPWM channel n.\nNote: When operating in group function these bits must all set to the same mode" "0: EPWM independent mode,1: EPWM complementary mode"
bitfld.long 0x00 21. "CNTMODE5,EPWM Counter Mode" "0: Auto-reload mode,1: One-shot mode"
newline
bitfld.long 0x00 20. "CNTMODE4,EPWM Counter Mode" "0: Auto-reload mode,1: One-shot mode"
bitfld.long 0x00 19. "CNTMODE3,EPWM Counter Mode" "0: Auto-reload mode,1: One-shot mode"
newline
bitfld.long 0x00 18. "CNTMODE2,EPWM Counter Mode" "0: Auto-reload mode,1: One-shot mode"
bitfld.long 0x00 17. "CNTMODE1,EPWM Counter Mode" "0: Auto-reload mode,1: One-shot mode"
newline
bitfld.long 0x00 16. "CNTMODE0,EPWM Counter Mode" "0: Auto-reload mode,1: One-shot mode"
bitfld.long 0x00 10.--11. "CNTTYPE5,EPWM Counter Behavior Type" "0: Up counter type (supported in capture mode),1: Down count type (supported in capture mode),2: Up-down counter type,3: Reserved"
newline
bitfld.long 0x00 8.--9. "CNTTYPE4,EPWM Counter Behavior Type" "0: Up counter type (supported in capture mode),1: Down count type (supported in capture mode),2: Up-down counter type,3: Reserved"
bitfld.long 0x00 6.--7. "CNTTYPE3,EPWM Counter Behavior Type" "0: Up counter type (supported in capture mode),1: Down count type (supported in capture mode),2: Up-down counter type,3: Reserved"
newline
bitfld.long 0x00 4.--5. "CNTTYPE2,EPWM Counter Behavior Type" "0: Up counter type (supported in capture mode),1: Down count type (supported in capture mode),2: Up-down counter type,3: Reserved"
bitfld.long 0x00 2.--3. "CNTTYPE1,EPWM Counter Behavior Type" "0: Up counter type (supported in capture mode),1: Down count type (supported in capture mode),2: Up-down counter type,3: Reserved"
newline
bitfld.long 0x00 0.--1. "CNTTYPE0,EPWM Counter Behavior Type" "0: Up counter type (supported in capture mode),1: Down count type (supported in capture mode),2: Up-down counter type,3: Reserved"
group.long 0x08++0x03
line.long 0x00 "EPWM_SYNC,EPWM Synchronization Register"
bitfld.long 0x00 26. "PHSDIR4,EPWM Phase Direction Control" "0: Control EPWM counter count decrement after..,1: Control EPWM counter count increment after.."
bitfld.long 0x00 25. "PHSDIR2,EPWM Phase Direction Control" "0: Control EPWM counter count decrement after..,1: Control EPWM counter count increment after.."
newline
bitfld.long 0x00 24. "PHSDIR0,EPWM Phase Direction Control" "0: Control EPWM counter count decrement after..,1: Control EPWM counter count increment after.."
bitfld.long 0x00 23. "SINPINV,SYNC Input Pin Inverse" "0: The state of pin SYNC is passed to the..,1: The inversed state of pin SYNC is passed to.."
newline
bitfld.long 0x00 20.--22. "SFLTCNT,SYNC Edge Detector Filter Count\nThe register bits control the counter number of edge detector" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 17.--19. "SFLTCSEL,SYNC Edge Detector Filter Clock Selection" "0: Filter clock = HCLK,1: Filter clock = HCLK/2,2: Filter clock = HCLK/4,3: Filter clock = HCLK/8,4: Filter clock = HCLK/16,5: Filter clock = HCLK/32,6: Filter clock = HCLK/64,7: Filter clock = HCLK/128"
newline
bitfld.long 0x00 16. "SNFLTEN,EPWM0_SYNC_IN Noise Filter Enable Bits" "0: Noise filter of input pin EPWM0_SYNC_IN..,1: Noise filter of input pin EPWM0_SYNC_IN Enabled"
bitfld.long 0x00 12.--13. "SINSRC4,EPWM0_SYNC_IN Source Selection" "0: Synchronize source from SYNC_IN or SWSYNC,1: Counter equal to 0,2: Counter equal to EPWM_CMPDATm m denotes 1 3 5,3: SYNC_OUT will not be generated"
newline
bitfld.long 0x00 10.--11. "SINSRC2,EPWM0_SYNC_IN Source Selection" "0: Synchronize source from SYNC_IN or SWSYNC,1: Counter equal to 0,2: Counter equal to EPWM_CMPDATm m denotes 1 3 5,3: SYNC_OUT will not be generated"
bitfld.long 0x00 8.--9. "SINSRC0,EPWM0_SYNC_IN Source Selection" "0: Synchronize source from SYNC_IN or SWSYNC,1: Counter equal to 0,2: Counter equal to EPWM_CMPDATm m denotes 1 3 5,3: SYNC_OUT will not be generated"
newline
bitfld.long 0x00 2. "PHSEN4,SYNC Phase Enable Bits" "0: EPWM counter disable to load PHS value,1: EPWM counter enable to load PHS value"
bitfld.long 0x00 1. "PHSEN2,SYNC Phase Enable Bits" "0: EPWM counter disable to load PHS value,1: EPWM counter enable to load PHS value"
newline
bitfld.long 0x00 0. "PHSEN0,SYNC Phase Enable Bits" "0: EPWM counter disable to load PHS value,1: EPWM counter enable to load PHS value"
group.long 0x0C++0x03
line.long 0x00 "EPWM_SWSYNC,EPWM Software Control Synchronization Register"
bitfld.long 0x00 2. "SWSYNC4,Software SYNC Function\nWhen SINSRCn (EPWM_SYNC[13:8]) is selected to 0 SYNC_OUT source comes from SYNC_IN or this bit" "0,1"
bitfld.long 0x00 1. "SWSYNC2,Software SYNC Function\nWhen SINSRCn (EPWM_SYNC[13:8]) is selected to 0 SYNC_OUT source comes from SYNC_IN or this bit" "0,1"
newline
bitfld.long 0x00 0. "SWSYNC0,Software SYNC Function\nWhen SINSRCn (EPWM_SYNC[13:8]) is selected to 0 SYNC_OUT source comes from SYNC_IN or this bit" "0,1"
group.long 0x10++0x03
line.long 0x00 "EPWM_CLKSRC,EPWM Clock Source Register"
bitfld.long 0x00 16.--18. "ECLKSRC4,EPWM_CH45 External Clock Source Select" "0: EPWMx_CLK x denotes 0 or 1,1: TIMER0 overflow,2: TIMER1 overflow,3: TIMER2 overflow,4: TIMER3 overflow,?..."
bitfld.long 0x00 8.--10. "ECLKSRC2,EPWM_CH23 External Clock Source Select" "0: EPWMx_CLK x denotes 0 or 1,1: TIMER0 overflow,2: TIMER1 overflow,3: TIMER2 overflow,4: TIMER3 overflow,?..."
newline
bitfld.long 0x00 0.--2. "ECLKSRC0,EPWM_CH01 External Clock Source Select" "0: EPWMx_CLK x denotes 0 or 1,1: TIMER0 overflow,2: TIMER1 overflow,3: TIMER2 overflow,4: TIMER3 overflow,?..."
group.long 0x14++0x03
line.long 0x00 "EPWM_CLKPSC0_1,EPWM Clock Prescale Register 0/1"
hexmask.long.word 0x00 0.--11. 1. "CLKPSC,EPWM Counter Clock Prescale \nThe clock of EPWM counter is decided by clock prescaler"
group.long 0x18++0x03
line.long 0x00 "EPWM_CLKPSC2_3,EPWM Clock Prescale Register 2/3"
hexmask.long.word 0x00 0.--11. 1. "CLKPSC,EPWM Counter Clock Prescale \nThe clock of EPWM counter is decided by clock prescaler"
group.long 0x1C++0x03
line.long 0x00 "EPWM_CLKPSC4_5,EPWM Clock Prescale Register 4/5"
hexmask.long.word 0x00 0.--11. 1. "CLKPSC,EPWM Counter Clock Prescale \nThe clock of EPWM counter is decided by clock prescaler"
group.long 0x20++0x03
line.long 0x00 "EPWM_CNTEN,EPWM Counter Enable Register"
bitfld.long 0x00 5. "CNTEN5,EPWM Counter Enable Bits" "0: EPWM Counter and clock prescaler stop running,1: EPWM Counter and clock prescaler start running"
bitfld.long 0x00 4. "CNTEN4,EPWM Counter Enable Bits" "0: EPWM Counter and clock prescaler stop running,1: EPWM Counter and clock prescaler start running"
newline
bitfld.long 0x00 3. "CNTEN3,EPWM Counter Enable Bits" "0: EPWM Counter and clock prescaler stop running,1: EPWM Counter and clock prescaler start running"
bitfld.long 0x00 2. "CNTEN2,EPWM Counter Enable Bits" "0: EPWM Counter and clock prescaler stop running,1: EPWM Counter and clock prescaler start running"
newline
bitfld.long 0x00 1. "CNTEN1,EPWM Counter Enable Bits" "0: EPWM Counter and clock prescaler stop running,1: EPWM Counter and clock prescaler start running"
bitfld.long 0x00 0. "CNTEN0,EPWM Counter Enable Bits" "0: EPWM Counter and clock prescaler stop running,1: EPWM Counter and clock prescaler start running"
group.long 0x24++0x03
line.long 0x00 "EPWM_CNTCLR,EPWM Clear Counter Register"
bitfld.long 0x00 5. "CNTCLR5,Clear EPWM Counter Control Bit\nIt is automatically cleared by hardware" "0: No effect,1: Clear 16-bit EPWM counter to 0000H"
bitfld.long 0x00 4. "CNTCLR4,Clear EPWM Counter Control Bit\nIt is automatically cleared by hardware" "0: No effect,1: Clear 16-bit EPWM counter to 0000H"
newline
bitfld.long 0x00 3. "CNTCLR3,Clear EPWM Counter Control Bit\nIt is automatically cleared by hardware" "0: No effect,1: Clear 16-bit EPWM counter to 0000H"
bitfld.long 0x00 2. "CNTCLR2,Clear EPWM Counter Control Bit\nIt is automatically cleared by hardware" "0: No effect,1: Clear 16-bit EPWM counter to 0000H"
newline
bitfld.long 0x00 1. "CNTCLR1,Clear EPWM Counter Control Bit\nIt is automatically cleared by hardware" "0: No effect,1: Clear 16-bit EPWM counter to 0000H"
bitfld.long 0x00 0. "CNTCLR0,Clear EPWM Counter Control Bit\nIt is automatically cleared by hardware" "0: No effect,1: Clear 16-bit EPWM counter to 0000H"
group.long 0x28++0x03
line.long 0x00 "EPWM_LOAD,EPWM Load Register"
bitfld.long 0x00 5. "LOAD5,Re-load EPWM Comparator Register (EPWM_CMPDATn) Control Bit\nThis bit is software write hardware clear when current EPWM period end.\nWrite Operation" "0: No effect.\nNo load window is set,1: Set load window of window loading mode.\nLoad.."
bitfld.long 0x00 4. "LOAD4,Re-load EPWM Comparator Register (EPWM_CMPDATn) Control Bit\nThis bit is software write hardware clear when current EPWM period end.\nWrite Operation" "0: No effect.\nNo load window is set,1: Set load window of window loading mode.\nLoad.."
newline
bitfld.long 0x00 3. "LOAD3,Re-load EPWM Comparator Register (EPWM_CMPDATn) Control Bit\nThis bit is software write hardware clear when current EPWM period end.\nWrite Operation" "0: No effect.\nNo load window is set,1: Set load window of window loading mode.\nLoad.."
bitfld.long 0x00 2. "LOAD2,Re-load EPWM Comparator Register (EPWM_CMPDATn) Control Bit\nThis bit is software write hardware clear when current EPWM period end.\nWrite Operation" "0: No effect.\nNo load window is set,1: Set load window of window loading mode.\nLoad.."
newline
bitfld.long 0x00 1. "LOAD1,Re-load EPWM Comparator Register (EPWM_CMPDATn) Control Bit\nThis bit is software write hardware clear when current EPWM period end.\nWrite Operation" "0: No effect.\nNo load window is set,1: Set load window of window loading mode.\nLoad.."
bitfld.long 0x00 0. "LOAD0,Re-load EPWM Comparator Register (EPWM_CMPDATn) Control Bit\nThis bit is software write hardware clear when current EPWM period end.\nWrite Operation" "0: No effect.\nNo load window is set,1: Set load window of window loading mode.\nLoad.."
repeat 6. (strings "0" "1" "2" "3" "4" "5" )(list 0x0 0x4 0x8 0xC 0x10 0x14 )
group.long ($2+0x30)++0x03
line.long 0x00 "EPWM_PERIOD$1,EPWM Period Register $1"
hexmask.long.word 0x00 0.--15. 1. "PERIOD,EPWM Period Register\nUp-Count mode: \nIn this mode EPWM counter counts from 0 to PERIOD and restarts from 0"
repeat.end
repeat 6. (strings "0" "1" "2" "3" "4" "5" )(list 0x0 0x4 0x8 0xC 0x10 0x14 )
group.long ($2+0x50)++0x03
line.long 0x00 "EPWM_CMPDAT$1,EPWM Comparator Register $1"
hexmask.long.word 0x00 0.--15. 1. "CMP,EPWM Comparator Register\nCMP is used to compare with CNT (EPWM_CNTn[15:0]) bits to generate EPWM waveform interrupt and trigger EADC/DAC.\nIn complementary mode EPWM_CMPDAT0 EPWM_CMPDAT 2 EPWM_CMPDAT4 denote as first compared point and EPWM_CMPDAT1.."
repeat.end
group.long 0x70++0x03
line.long 0x00 "EPWM_DTCTL0_1,EPWM Dead-time Control Register 0/1"
bitfld.long 0x00 24. "DTCKSEL,Dead-time Clock Select (Write Protect)\nNote: This bit is write protected" "0: Dead-time clock source from EPWM_CLK,1: Dead-time clock source from prescaler output"
bitfld.long 0x00 16. "DTEN,Enable Dead-time Insertion for EPWM Pair (EPWM_CH0 EPWM_CH1) (EPWM_CH2 EPWM_CH3) (EPWM_CH4 EPWM_CH5) (Write Protect)\nDead-time insertion is only active when this pair of complementary EPWM is enabled" "0: Dead-time insertion Disabled on the pin pair,1: Dead-time insertion Enabled on the pin pair"
newline
hexmask.long.word 0x00 0.--11. 1. "DTCNT,Dead-time Counter (Write Protect)\nThe dead-time can be calculated from the following formula: \nNote: This bit is write protected"
group.long 0x74++0x03
line.long 0x00 "EPWM_DTCTL2_3,EPWM Dead-time Control Register 2/3"
bitfld.long 0x00 24. "DTCKSEL,Dead-time Clock Select (Write Protect)\nNote: This bit is write protected" "0: Dead-time clock source from EPWM_CLK,1: Dead-time clock source from prescaler output"
bitfld.long 0x00 16. "DTEN,Enable Dead-time Insertion for EPWM Pair (EPWM_CH0 EPWM_CH1) (EPWM_CH2 EPWM_CH3) (EPWM_CH4 EPWM_CH5) (Write Protect)\nDead-time insertion is only active when this pair of complementary EPWM is enabled" "0: Dead-time insertion Disabled on the pin pair,1: Dead-time insertion Enabled on the pin pair"
newline
hexmask.long.word 0x00 0.--11. 1. "DTCNT,Dead-time Counter (Write Protect)\nThe dead-time can be calculated from the following formula: \nNote: This bit is write protected"
group.long 0x78++0x03
line.long 0x00 "EPWM_DTCTL4_5,EPWM Dead-time Control Register 4/5"
bitfld.long 0x00 24. "DTCKSEL,Dead-time Clock Select (Write Protect)\nNote: This bit is write protected" "0: Dead-time clock source from EPWM_CLK,1: Dead-time clock source from prescaler output"
bitfld.long 0x00 16. "DTEN,Enable Dead-time Insertion for EPWM Pair (EPWM_CH0 EPWM_CH1) (EPWM_CH2 EPWM_CH3) (EPWM_CH4 EPWM_CH5) (Write Protect)\nDead-time insertion is only active when this pair of complementary EPWM is enabled" "0: Dead-time insertion Disabled on the pin pair,1: Dead-time insertion Enabled on the pin pair"
newline
hexmask.long.word 0x00 0.--11. 1. "DTCNT,Dead-time Counter (Write Protect)\nThe dead-time can be calculated from the following formula: \nNote: This bit is write protected"
group.long 0x80++0x03
line.long 0x00 "EPWM_PHS0_1,EPWM Counter Phase Register 0/1"
hexmask.long.word 0x00 0.--15. 1. "PHS,EPWM Synchronous Start Phase Bits\nPHS determines the EPWM synchronous start phase value"
group.long 0x84++0x03
line.long 0x00 "EPWM_PHS2_3,EPWM Counter Phase Register 2/3"
hexmask.long.word 0x00 0.--15. 1. "PHS,EPWM Synchronous Start Phase Bits\nPHS determines the EPWM synchronous start phase value"
group.long 0x88++0x03
line.long 0x00 "EPWM_PHS4_5,EPWM Counter Phase Register 4/5"
hexmask.long.word 0x00 0.--15. 1. "PHS,EPWM Synchronous Start Phase Bits\nPHS determines the EPWM synchronous start phase value"
rgroup.long 0x90++0x03
line.long 0x00 "EPWM_CNT0,EPWM Counter Register 0"
bitfld.long 0x00 16. "DIRF,EPWM Direction Indicator Flag (Read Only)" "0: Counter is counting down,1: Counter is counting up"
hexmask.long.word 0x00 0.--15. 1. "CNT,EPWM Data Register (Read Only)\nUser can monitor CNT to know the current value in 16-bit period counter"
repeat 5. (strings "1" "2" "3" "4" "5" )(list 0x0 0x4 0x8 0xC 0x10 )
group.long ($2+0x94)++0x03
line.long 0x00 "EPWM_CNT$1,EPWM Counter Register $1"
rbitfld.long 0x00 16. "DIRF,EPWM Direction Indicator Flag (Read Only)" "0: Counter is counting down,1: Counter is counting up"
hexmask.long.word 0x00 0.--15. 1. "CNT,EPWM Data Register (Read Only)\nUser can monitor CNT to know the current value in 16-bit period counter"
repeat.end
group.long 0xB0++0x03
line.long 0x00 "EPWM_WGCTL0,EPWM Generation Register 0"
bitfld.long 0x00 26.--27. "PRDPCTL5,EPWM Period (Center) Point Control\nEPWM can control output level when EPWM counter counts to (PERIODn+1).\nNote: This bit is center point control when EPWM counter operating in up-down counter type" "0: Do nothing,1: EPWM period (center) point output Low,2: EPWM period (center) point output High,3: EPWM period (center) point output Toggle"
bitfld.long 0x00 24.--25. "PRDPCTL4,EPWM Period (Center) Point Control\nEPWM can control output level when EPWM counter counts to (PERIODn+1).\nNote: This bit is center point control when EPWM counter operating in up-down counter type" "0: Do nothing,1: EPWM period (center) point output Low,2: EPWM period (center) point output High,3: EPWM period (center) point output Toggle"
newline
bitfld.long 0x00 22.--23. "PRDPCTL3,EPWM Period (Center) Point Control\nEPWM can control output level when EPWM counter counts to (PERIODn+1).\nNote: This bit is center point control when EPWM counter operating in up-down counter type" "0: Do nothing,1: EPWM period (center) point output Low,2: EPWM period (center) point output High,3: EPWM period (center) point output Toggle"
bitfld.long 0x00 20.--21. "PRDPCTL2,EPWM Period (Center) Point Control\nEPWM can control output level when EPWM counter counts to (PERIODn+1).\nNote: This bit is center point control when EPWM counter operating in up-down counter type" "0: Do nothing,1: EPWM period (center) point output Low,2: EPWM period (center) point output High,3: EPWM period (center) point output Toggle"
newline
bitfld.long 0x00 18.--19. "PRDPCTL1,EPWM Period (Center) Point Control\nEPWM can control output level when EPWM counter counts to (PERIODn+1).\nNote: This bit is center point control when EPWM counter operating in up-down counter type" "0: Do nothing,1: EPWM period (center) point output Low,2: EPWM period (center) point output High,3: EPWM period (center) point output Toggle"
bitfld.long 0x00 16.--17. "PRDPCTL0,EPWM Period (Center) Point Control\nEPWM can control output level when EPWM counter counts to (PERIODn+1).\nNote: This bit is center point control when EPWM counter operating in up-down counter type" "0: Do nothing,1: EPWM period (center) point output Low,2: EPWM period (center) point output High,3: EPWM period (center) point output Toggle"
newline
bitfld.long 0x00 10.--11. "ZPCTL5,EPWM Zero Point Control\nEPWM can control output level when EPWM counter counts to 0" "0: Do nothing,1: EPWM zero point output Low,2: EPWM zero point output High,3: EPWM zero point output Toggle"
bitfld.long 0x00 8.--9. "ZPCTL4,EPWM Zero Point Control\nEPWM can control output level when EPWM counter counts to 0" "0: Do nothing,1: EPWM zero point output Low,2: EPWM zero point output High,3: EPWM zero point output Toggle"
newline
bitfld.long 0x00 6.--7. "ZPCTL3,EPWM Zero Point Control\nEPWM can control output level when EPWM counter counts to 0" "0: Do nothing,1: EPWM zero point output Low,2: EPWM zero point output High,3: EPWM zero point output Toggle"
bitfld.long 0x00 4.--5. "ZPCTL2,EPWM Zero Point Control\nEPWM can control output level when EPWM counter counts to 0" "0: Do nothing,1: EPWM zero point output Low,2: EPWM zero point output High,3: EPWM zero point output Toggle"
newline
bitfld.long 0x00 2.--3. "ZPCTL1,EPWM Zero Point Control\nEPWM can control output level when EPWM counter counts to 0" "0: Do nothing,1: EPWM zero point output Low,2: EPWM zero point output High,3: EPWM zero point output Toggle"
bitfld.long 0x00 0.--1. "ZPCTL0,EPWM Zero Point Control\nEPWM can control output level when EPWM counter counts to 0" "0: Do nothing,1: EPWM zero point output Low,2: EPWM zero point output High,3: EPWM zero point output Toggle"
group.long 0xB4++0x03
line.long 0x00 "EPWM_WGCTL1,EPWM Generation Register 1"
bitfld.long 0x00 26.--27. "CMPDCTL5,EPWM Compare Down Point Control\nEPWM can control output level when EPWM counter counts down to CMP.\nNote: In complementary mode CMPDCTL1 3 5 is used as another CMPDCTL for channel 0 2 4" "0: Do nothing,1: EPWM compare down point output Low,2: EPWM compare down point output High,3: EPWM compare down point output Toggle"
bitfld.long 0x00 24.--25. "CMPDCTL4,EPWM Compare Down Point Control\nEPWM can control output level when EPWM counter counts down to CMP.\nNote: In complementary mode CMPDCTL1 3 5 is used as another CMPDCTL for channel 0 2 4" "0: Do nothing,1: EPWM compare down point output Low,2: EPWM compare down point output High,3: EPWM compare down point output Toggle"
newline
bitfld.long 0x00 22.--23. "CMPDCTL3,EPWM Compare Down Point Control\nEPWM can control output level when EPWM counter counts down to CMP.\nNote: In complementary mode CMPDCTL1 3 5 is used as another CMPDCTL for channel 0 2 4" "0: Do nothing,1: EPWM compare down point output Low,2: EPWM compare down point output High,3: EPWM compare down point output Toggle"
bitfld.long 0x00 20.--21. "CMPDCTL2,EPWM Compare Down Point Control\nEPWM can control output level when EPWM counter counts down to CMP.\nNote: In complementary mode CMPDCTL1 3 5 is used as another CMPDCTL for channel 0 2 4" "0: Do nothing,1: EPWM compare down point output Low,2: EPWM compare down point output High,3: EPWM compare down point output Toggle"
newline
bitfld.long 0x00 18.--19. "CMPDCTL1,EPWM Compare Down Point Control\nEPWM can control output level when EPWM counter counts down to CMP.\nNote: In complementary mode CMPDCTL1 3 5 is used as another CMPDCTL for channel 0 2 4" "0: Do nothing,1: EPWM compare down point output Low,2: EPWM compare down point output High,3: EPWM compare down point output Toggle"
bitfld.long 0x00 16.--17. "CMPDCTL0,EPWM Compare Down Point Control\nEPWM can control output level when EPWM counter counts down to CMP.\nNote: In complementary mode CMPDCTL1 3 5 is used as another CMPDCTL for channel 0 2 4" "0: Do nothing,1: EPWM compare down point output Low,2: EPWM compare down point output High,3: EPWM compare down point output Toggle"
newline
bitfld.long 0x00 10.--11. "CMPUCTL5,EPWM Compare Up Point Control\nEPWM can control output level when EPWM counter counts up to CMP.\nNote: In complementary mode CMPUCTL1 3 5 is used as another CMPUCTL for channel 0 2 4" "0: Do nothing,1: EPWM compare up point output Low,2: EPWM compare up point output High,3: EPWM compare up point output Toggle"
bitfld.long 0x00 8.--9. "CMPUCTL4,EPWM Compare Up Point Control\nEPWM can control output level when EPWM counter counts up to CMP.\nNote: In complementary mode CMPUCTL1 3 5 is used as another CMPUCTL for channel 0 2 4" "0: Do nothing,1: EPWM compare up point output Low,2: EPWM compare up point output High,3: EPWM compare up point output Toggle"
newline
bitfld.long 0x00 6.--7. "CMPUCTL3,EPWM Compare Up Point Control\nEPWM can control output level when EPWM counter counts up to CMP.\nNote: In complementary mode CMPUCTL1 3 5 is used as another CMPUCTL for channel 0 2 4" "0: Do nothing,1: EPWM compare up point output Low,2: EPWM compare up point output High,3: EPWM compare up point output Toggle"
bitfld.long 0x00 4.--5. "CMPUCTL2,EPWM Compare Up Point Control\nEPWM can control output level when EPWM counter counts up to CMP.\nNote: In complementary mode CMPUCTL1 3 5 is used as another CMPUCTL for channel 0 2 4" "0: Do nothing,1: EPWM compare up point output Low,2: EPWM compare up point output High,3: EPWM compare up point output Toggle"
newline
bitfld.long 0x00 2.--3. "CMPUCTL1,EPWM Compare Up Point Control\nEPWM can control output level when EPWM counter counts up to CMP.\nNote: In complementary mode CMPUCTL1 3 5 is used as another CMPUCTL for channel 0 2 4" "0: Do nothing,1: EPWM compare up point output Low,2: EPWM compare up point output High,3: EPWM compare up point output Toggle"
bitfld.long 0x00 0.--1. "CMPUCTL0,EPWM Compare Up Point Control\nEPWM can control output level when EPWM counter counts up to CMP.\nNote: In complementary mode CMPUCTL1 3 5 is used as another CMPUCTL for channel 0 2 4" "0: Do nothing,1: EPWM compare up point output Low,2: EPWM compare up point output High,3: EPWM compare up point output Toggle"
group.long 0xB8++0x03
line.long 0x00 "EPWM_MSKEN,EPWM Mask Enable Register"
bitfld.long 0x00 5. "MSKEN5,EPWM Mask Enable Bits\nThe EPWM output signal will be masked when this bit is enabled" "0: EPWM output signal is non-masked,1: EPWM output signal is masked and output.."
bitfld.long 0x00 4. "MSKEN4,EPWM Mask Enable Bits\nThe EPWM output signal will be masked when this bit is enabled" "0: EPWM output signal is non-masked,1: EPWM output signal is masked and output.."
newline
bitfld.long 0x00 3. "MSKEN3,EPWM Mask Enable Bits\nThe EPWM output signal will be masked when this bit is enabled" "0: EPWM output signal is non-masked,1: EPWM output signal is masked and output.."
bitfld.long 0x00 2. "MSKEN2,EPWM Mask Enable Bits\nThe EPWM output signal will be masked when this bit is enabled" "0: EPWM output signal is non-masked,1: EPWM output signal is masked and output.."
newline
bitfld.long 0x00 1. "MSKEN1,EPWM Mask Enable Bits\nThe EPWM output signal will be masked when this bit is enabled" "0: EPWM output signal is non-masked,1: EPWM output signal is masked and output.."
bitfld.long 0x00 0. "MSKEN0,EPWM Mask Enable Bits\nThe EPWM output signal will be masked when this bit is enabled" "0: EPWM output signal is non-masked,1: EPWM output signal is masked and output.."
group.long 0xBC++0x03
line.long 0x00 "EPWM_MSK,EPWM Mask Data Register"
bitfld.long 0x00 5. "MSKDAT5,EPWM Mask Data Bit\nThis data bit control the state of EPWMn output pin if corresponding mask function is enabled" "0: Output logic low to EPWM channel n,1: Output logic high to EPWM channel n"
bitfld.long 0x00 4. "MSKDAT4,EPWM Mask Data Bit\nThis data bit control the state of EPWMn output pin if corresponding mask function is enabled" "0: Output logic low to EPWM channel n,1: Output logic high to EPWM channel n"
newline
bitfld.long 0x00 3. "MSKDAT3,EPWM Mask Data Bit\nThis data bit control the state of EPWMn output pin if corresponding mask function is enabled" "0: Output logic low to EPWM channel n,1: Output logic high to EPWM channel n"
bitfld.long 0x00 2. "MSKDAT2,EPWM Mask Data Bit\nThis data bit control the state of EPWMn output pin if corresponding mask function is enabled" "0: Output logic low to EPWM channel n,1: Output logic high to EPWM channel n"
newline
bitfld.long 0x00 1. "MSKDAT1,EPWM Mask Data Bit\nThis data bit control the state of EPWMn output pin if corresponding mask function is enabled" "0: Output logic low to EPWM channel n,1: Output logic high to EPWM channel n"
bitfld.long 0x00 0. "MSKDAT0,EPWM Mask Data Bit\nThis data bit control the state of EPWMn output pin if corresponding mask function is enabled" "0: Output logic low to EPWM channel n,1: Output logic high to EPWM channel n"
group.long 0xC0++0x03
line.long 0x00 "EPWM_BNF,EPWM Brake Noise Filter Register"
bitfld.long 0x00 24. "BK1SRC,Brake 1 Pin Source Select\nFor EPWM0 setting" "0: Brake 1 pin source come from..,1: Brake 1 pin source come from.."
bitfld.long 0x00 16. "BK0SRC,Brake 0 Pin Source Select\nFor EPWM0 setting" "0: Brake 0 pin source come from..,1: Brake 0 pin source come from.."
newline
bitfld.long 0x00 15. "BRK1PINV,Brake 1 Pin Inverse" "0: brake pin event will be detected if..,1: brake pin event will be detected if.."
bitfld.long 0x00 12.--14. "BRK1FCNT,Brake 1 Edge Detector Filter Count\nThe register bits control the Brake1 filter counter to count from 0 to BRK1FCNT" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 9.--11. "BRK1NFSEL,Brake 1 Edge Detector Filter Clock Selection" "0: Filter clock = HCLK,1: Filter clock = HCLK/2,2: Filter clock = HCLK/4,3: Filter clock = HCLK/8,4: Filter clock = HCLK/16,5: Filter clock = HCLK/32,6: Filter clock = HCLK/64,7: Filter clock = HCLK/128"
bitfld.long 0x00 8. "BRK1NFEN,EPWM Brake 1 Noise Filter Enable Bit" "0: Noise filter of EPWM Brake 1 Disabled,1: Noise filter of EPWM Brake 1 Enabled"
newline
bitfld.long 0x00 7. "BRK0PINV,Brake 0 Pin Inverse" "0: brake pin event will be detected if..,1: brake pin event will be detected if.."
bitfld.long 0x00 4.--6. "BRK0FCNT,Brake 0 Edge Detector Filter Count\nThe register bits control the Brake0 filter counter to count from 0 to BRK0FCNT" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 1.--3. "BRK0NFSEL,Brake 0 Edge Detector Filter Clock Selection" "0: Filter clock = HCLK,1: Filter clock = HCLK/2,2: Filter clock = HCLK/4,3: Filter clock = HCLK/8,4: Filter clock = HCLK/16,5: Filter clock = HCLK/32,6: Filter clock = HCLK/64,7: Filter clock = HCLK/128"
bitfld.long 0x00 0. "BRK0NFEN,EPWM Brake 0 Noise Filter Enable Bit" "0: Noise filter of EPWM Brake 0 Disabled,1: Noise filter of EPWM Brake 0 Enabled"
group.long 0xC4++0x03
line.long 0x00 "EPWM_FAILBRK,EPWM System Fail Brake Control Register"
bitfld.long 0x00 3. "CORBRKEN,Core Lockup Detection Trigger EPWM Brake Function 0 Enable Bit" "0: Brake Function triggered by Core lockup..,1: Brake Function triggered by Core lockup.."
bitfld.long 0x00 2. "RAMBRKEN,SRAM Parity Error Detection Trigger EPWM Brake Function 0 Enable Bit" "0: Brake Function triggered by SRAM parity error..,1: Brake Function triggered by SRAM parity error.."
newline
bitfld.long 0x00 1. "BODBRKEN,Brown-out Detection Trigger EPWM Brake Function 0 Enable Bit" "0: Brake Function triggered by BOD Disabled,1: Brake Function triggered by BOD Enabled"
bitfld.long 0x00 0. "CSSBRKEN,Clock Security System Detection Trigger EPWM Brake Function 0 Enable Bit" "0: Brake Function triggered by CSS detection..,1: Brake Function triggered by CSS detection.."
group.long 0xC8++0x03
line.long 0x00 "EPWM_BRKCTL0_1,EPWM Brake Detect Control Register 0/1"
bitfld.long 0x00 29. "EADC1LBEN,Enable EADC1 Result Monitor (EADC1RM) As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EADC1RM as level-detect brake source Disabled,1: EADC1RM as level-detect brake source Enabled"
bitfld.long 0x00 28. "EADC0LBEN,Enable EADC0 Result Monitor (EADC0RM) As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EADC0RM as level-detect brake source Disabled,1: EADC0RM as level-detect brake source Enabled"
newline
bitfld.long 0x00 21. "EADC1EBEN,Enable EADC1 Result Monitor (EADC1RM) As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EADC1RM as edge-detect brake source Disabled,1: EADC1RM as edge-detect brake source Enabled"
bitfld.long 0x00 20. "EADC0EBEN,Enable EADC0 Result Monitor (EADC0RM) As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EADC0RM as edge-detect brake source Disabled,1: EADC0RM as edge-detect brake source Enabled"
newline
bitfld.long 0x00 18.--19. "BRKAODD,EPWM Brake Action Select for Odd Channel (Write Protect)\nNote: This bit is write protected" "0: EPWMx brake event will not affect odd..,1: EPWM odd channel output tri-state when EPWMx..,2: EPWM odd channel output low level when EPWMx..,3: EPWM odd channel output high level when EPWMx.."
bitfld.long 0x00 16.--17. "BRKAEVEN,EPWM Brake Action Select for Even Channel (Write Protect)\nNote: This bit is write protected" "0: EPWMx brake event will not affect even..,1: EPWM even channel output tri-state when EPWMx..,2: EPWM even channel output low level when EPWMx..,3: EPWM even channel output high level when.."
newline
bitfld.long 0x00 15. "SYSLBEN,Enable System Fail As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System Fail condition as level-detect brake..,1: System Fail condition as level-detect brake.."
bitfld.long 0x00 13. "BRKP1LEN,Enable BKP1 Pin As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EPWMx_BRAKE1 pin as level-detect brake source..,1: EPWMx_BRAKE1 pin as level-detect brake source.."
newline
bitfld.long 0x00 12. "BRKP0LEN,Enable BKP0 Pin As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EPWMx_BRAKE0 pin as level-detect brake source..,1: EPWMx_BRAKE0 pin as level-detect brake source.."
bitfld.long 0x00 9. "CPO1LBEN,Enable ACMP1_O Digital Output As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: ACMP1_O as level-detect brake source Disabled,1: ACMP1_O as level-detect brake source Enabled"
newline
bitfld.long 0x00 8. "CPO0LBEN,Enable ACMP0_O Digital Output As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: ACMP0_O as level-detect brake source Disabled,1: ACMP0_O as level-detect brake source Enabled"
bitfld.long 0x00 7. "SYSEBEN,Enable System Fail As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System Fail condition as edge-detect brake..,1: System Fail condition as edge-detect brake.."
newline
bitfld.long 0x00 5. "BRKP1EEN,Enable EPWMx_BRAKE1 Pin As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EPWMx_BRAKE1 pin as edge-detect brake source..,1: EPWMx_BRAKE1 pin as edge-detect brake source.."
bitfld.long 0x00 4. "BRKP0EEN,Enable EPWMx_BRAKE0 Pin As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EPWMx_BRAKE0 pin as edge-detect brake source..,1: EPWMx_BRAKE0 pin as edge-detect brake source.."
newline
bitfld.long 0x00 1. "CPO1EBEN,Enable ACMP1_O Digital Output As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: ACMP1_O as edge-detect brake source Disabled,1: ACMP1_O as edge-detect brake source Enabled"
bitfld.long 0x00 0. "CPO0EBEN,Enable ACMP0_O Digital Output As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: ACMP0_O as edge-detect brake source Disabled,1: ACMP0_O as edge-detect brake source Enabled"
group.long 0xCC++0x03
line.long 0x00 "EPWM_BRKCTL2_3,EPWM Brake Detect Control Register 2/3"
bitfld.long 0x00 29. "EADC1LBEN,Enable EADC1 Result Monitor (EADC1RM) As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EADC1RM as level-detect brake source Disabled,1: EADC1RM as level-detect brake source Enabled"
bitfld.long 0x00 28. "EADC0LBEN,Enable EADC0 Result Monitor (EADC0RM) As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EADC0RM as level-detect brake source Disabled,1: EADC0RM as level-detect brake source Enabled"
newline
bitfld.long 0x00 21. "EADC1EBEN,Enable EADC1 Result Monitor (EADC1RM) As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EADC1RM as edge-detect brake source Disabled,1: EADC1RM as edge-detect brake source Enabled"
bitfld.long 0x00 20. "EADC0EBEN,Enable EADC0 Result Monitor (EADC0RM) As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EADC0RM as edge-detect brake source Disabled,1: EADC0RM as edge-detect brake source Enabled"
newline
bitfld.long 0x00 18.--19. "BRKAODD,EPWM Brake Action Select for Odd Channel (Write Protect)\nNote: This bit is write protected" "0: EPWMx brake event will not affect odd..,1: EPWM odd channel output tri-state when EPWMx..,2: EPWM odd channel output low level when EPWMx..,3: EPWM odd channel output high level when EPWMx.."
bitfld.long 0x00 16.--17. "BRKAEVEN,EPWM Brake Action Select for Even Channel (Write Protect)\nNote: This bit is write protected" "0: EPWMx brake event will not affect even..,1: EPWM even channel output tri-state when EPWMx..,2: EPWM even channel output low level when EPWMx..,3: EPWM even channel output high level when.."
newline
bitfld.long 0x00 15. "SYSLBEN,Enable System Fail As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System Fail condition as level-detect brake..,1: System Fail condition as level-detect brake.."
bitfld.long 0x00 13. "BRKP1LEN,Enable BKP1 Pin As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EPWMx_BRAKE1 pin as level-detect brake source..,1: EPWMx_BRAKE1 pin as level-detect brake source.."
newline
bitfld.long 0x00 12. "BRKP0LEN,Enable BKP0 Pin As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EPWMx_BRAKE0 pin as level-detect brake source..,1: EPWMx_BRAKE0 pin as level-detect brake source.."
bitfld.long 0x00 9. "CPO1LBEN,Enable ACMP1_O Digital Output As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: ACMP1_O as level-detect brake source Disabled,1: ACMP1_O as level-detect brake source Enabled"
newline
bitfld.long 0x00 8. "CPO0LBEN,Enable ACMP0_O Digital Output As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: ACMP0_O as level-detect brake source Disabled,1: ACMP0_O as level-detect brake source Enabled"
bitfld.long 0x00 7. "SYSEBEN,Enable System Fail As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System Fail condition as edge-detect brake..,1: System Fail condition as edge-detect brake.."
newline
bitfld.long 0x00 5. "BRKP1EEN,Enable EPWMx_BRAKE1 Pin As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EPWMx_BRAKE1 pin as edge-detect brake source..,1: EPWMx_BRAKE1 pin as edge-detect brake source.."
bitfld.long 0x00 4. "BRKP0EEN,Enable EPWMx_BRAKE0 Pin As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EPWMx_BRAKE0 pin as edge-detect brake source..,1: EPWMx_BRAKE0 pin as edge-detect brake source.."
newline
bitfld.long 0x00 1. "CPO1EBEN,Enable ACMP1_O Digital Output As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: ACMP1_O as edge-detect brake source Disabled,1: ACMP1_O as edge-detect brake source Enabled"
bitfld.long 0x00 0. "CPO0EBEN,Enable ACMP0_O Digital Output As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: ACMP0_O as edge-detect brake source Disabled,1: ACMP0_O as edge-detect brake source Enabled"
group.long 0xD0++0x03
line.long 0x00 "EPWM_BRKCTL4_5,EPWM Brake Detect Control Register 4/5"
bitfld.long 0x00 29. "EADC1LBEN,Enable EADC1 Result Monitor (EADC1RM) As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EADC1RM as level-detect brake source Disabled,1: EADC1RM as level-detect brake source Enabled"
bitfld.long 0x00 28. "EADC0LBEN,Enable EADC0 Result Monitor (EADC0RM) As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EADC0RM as level-detect brake source Disabled,1: EADC0RM as level-detect brake source Enabled"
newline
bitfld.long 0x00 21. "EADC1EBEN,Enable EADC1 Result Monitor (EADC1RM) As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EADC1RM as edge-detect brake source Disabled,1: EADC1RM as edge-detect brake source Enabled"
bitfld.long 0x00 20. "EADC0EBEN,Enable EADC0 Result Monitor (EADC0RM) As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EADC0RM as edge-detect brake source Disabled,1: EADC0RM as edge-detect brake source Enabled"
newline
bitfld.long 0x00 18.--19. "BRKAODD,EPWM Brake Action Select for Odd Channel (Write Protect)\nNote: This bit is write protected" "0: EPWMx brake event will not affect odd..,1: EPWM odd channel output tri-state when EPWMx..,2: EPWM odd channel output low level when EPWMx..,3: EPWM odd channel output high level when EPWMx.."
bitfld.long 0x00 16.--17. "BRKAEVEN,EPWM Brake Action Select for Even Channel (Write Protect)\nNote: This bit is write protected" "0: EPWMx brake event will not affect even..,1: EPWM even channel output tri-state when EPWMx..,2: EPWM even channel output low level when EPWMx..,3: EPWM even channel output high level when.."
newline
bitfld.long 0x00 15. "SYSLBEN,Enable System Fail As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System Fail condition as level-detect brake..,1: System Fail condition as level-detect brake.."
bitfld.long 0x00 13. "BRKP1LEN,Enable BKP1 Pin As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EPWMx_BRAKE1 pin as level-detect brake source..,1: EPWMx_BRAKE1 pin as level-detect brake source.."
newline
bitfld.long 0x00 12. "BRKP0LEN,Enable BKP0 Pin As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EPWMx_BRAKE0 pin as level-detect brake source..,1: EPWMx_BRAKE0 pin as level-detect brake source.."
bitfld.long 0x00 9. "CPO1LBEN,Enable ACMP1_O Digital Output As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: ACMP1_O as level-detect brake source Disabled,1: ACMP1_O as level-detect brake source Enabled"
newline
bitfld.long 0x00 8. "CPO0LBEN,Enable ACMP0_O Digital Output As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: ACMP0_O as level-detect brake source Disabled,1: ACMP0_O as level-detect brake source Enabled"
bitfld.long 0x00 7. "SYSEBEN,Enable System Fail As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System Fail condition as edge-detect brake..,1: System Fail condition as edge-detect brake.."
newline
bitfld.long 0x00 5. "BRKP1EEN,Enable EPWMx_BRAKE1 Pin As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EPWMx_BRAKE1 pin as edge-detect brake source..,1: EPWMx_BRAKE1 pin as edge-detect brake source.."
bitfld.long 0x00 4. "BRKP0EEN,Enable EPWMx_BRAKE0 Pin As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: EPWMx_BRAKE0 pin as edge-detect brake source..,1: EPWMx_BRAKE0 pin as edge-detect brake source.."
newline
bitfld.long 0x00 1. "CPO1EBEN,Enable ACMP1_O Digital Output As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: ACMP1_O as edge-detect brake source Disabled,1: ACMP1_O as edge-detect brake source Enabled"
bitfld.long 0x00 0. "CPO0EBEN,Enable ACMP0_O Digital Output As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: ACMP0_O as edge-detect brake source Disabled,1: ACMP0_O as edge-detect brake source Enabled"
group.long 0xD4++0x03
line.long 0x00 "EPWM_POLCTL,EPWM Pin Polar Inverse Register"
bitfld.long 0x00 5. "PINV5,EPWM PIN Polar Inverse Control\nThe register controls polarity state of EPWMx_CHn output pin" "0: EPWMx_CHn output pin polar inverse Disabled,1: EPWMx_CHn output pin polar inverse Enabled"
bitfld.long 0x00 4. "PINV4,EPWM PIN Polar Inverse Control\nThe register controls polarity state of EPWMx_CHn output pin" "0: EPWMx_CHn output pin polar inverse Disabled,1: EPWMx_CHn output pin polar inverse Enabled"
newline
bitfld.long 0x00 3. "PINV3,EPWM PIN Polar Inverse Control\nThe register controls polarity state of EPWMx_CHn output pin" "0: EPWMx_CHn output pin polar inverse Disabled,1: EPWMx_CHn output pin polar inverse Enabled"
bitfld.long 0x00 2. "PINV2,EPWM PIN Polar Inverse Control\nThe register controls polarity state of EPWMx_CHn output pin" "0: EPWMx_CHn output pin polar inverse Disabled,1: EPWMx_CHn output pin polar inverse Enabled"
newline
bitfld.long 0x00 1. "PINV1,EPWM PIN Polar Inverse Control\nThe register controls polarity state of EPWMx_CHn output pin" "0: EPWMx_CHn output pin polar inverse Disabled,1: EPWMx_CHn output pin polar inverse Enabled"
bitfld.long 0x00 0. "PINV0,EPWM PIN Polar Inverse Control\nThe register controls polarity state of EPWMx_CHn output pin" "0: EPWMx_CHn output pin polar inverse Disabled,1: EPWMx_CHn output pin polar inverse Enabled"
group.long 0xD8++0x03
line.long 0x00 "EPWM_POEN,EPWM Output Enable Register"
bitfld.long 0x00 5. "POEN5,EPWM Pin Output Enable Bits" "0: EPWMx_CHn pin at tri-state,1: EPWMx_CHn pin in output mode"
bitfld.long 0x00 4. "POEN4,EPWM Pin Output Enable Bits" "0: EPWMx_CHn pin at tri-state,1: EPWMx_CHn pin in output mode"
newline
bitfld.long 0x00 3. "POEN3,EPWM Pin Output Enable Bits" "0: EPWMx_CHn pin at tri-state,1: EPWMx_CHn pin in output mode"
bitfld.long 0x00 2. "POEN2,EPWM Pin Output Enable Bits" "0: EPWMx_CHn pin at tri-state,1: EPWMx_CHn pin in output mode"
newline
bitfld.long 0x00 1. "POEN1,EPWM Pin Output Enable Bits" "0: EPWMx_CHn pin at tri-state,1: EPWMx_CHn pin in output mode"
bitfld.long 0x00 0. "POEN0,EPWM Pin Output Enable Bits" "0: EPWMx_CHn pin at tri-state,1: EPWMx_CHn pin in output mode"
wgroup.long 0xDC++0x03
line.long 0x00 "EPWM_SWBRK,EPWM Software Brake Control Register"
bitfld.long 0x00 10. "BRKLTRG4,EPWM Level Brake Software Trigger (Write Only) (Write Protect)\nWrite 1 to this bit will trigger level brake and set BRKLIFn to 1 in EPWM_INTSTS1 register" "0,1"
bitfld.long 0x00 9. "BRKLTRG2,EPWM Level Brake Software Trigger (Write Only) (Write Protect)\nWrite 1 to this bit will trigger level brake and set BRKLIFn to 1 in EPWM_INTSTS1 register" "0,1"
newline
bitfld.long 0x00 8. "BRKLTRG0,EPWM Level Brake Software Trigger (Write Only) (Write Protect)\nWrite 1 to this bit will trigger level brake and set BRKLIFn to 1 in EPWM_INTSTS1 register" "0,1"
bitfld.long 0x00 2. "BRKETRG4,EPWM Edge Brake Software Trigger (Write Only) (Write Protect)\nWrite 1 to this bit will trigger edge brake and set BRKEIFn to 1 in EPWM_INTSTS1 register" "0,1"
newline
bitfld.long 0x00 1. "BRKETRG2,EPWM Edge Brake Software Trigger (Write Only) (Write Protect)\nWrite 1 to this bit will trigger edge brake and set BRKEIFn to 1 in EPWM_INTSTS1 register" "0,1"
bitfld.long 0x00 0. "BRKETRG0,EPWM Edge Brake Software Trigger (Write Only) (Write Protect)\nWrite 1 to this bit will trigger edge brake and set BRKEIFn to 1 in EPWM_INTSTS1 register" "0,1"
group.long 0xE0++0x03
line.long 0x00 "EPWM_INTEN0,EPWM Interrupt Enable Register 0"
bitfld.long 0x00 29. "CMPDIEN5,EPWM Compare Down Count Interrupt Enable Bits\nNote: In complementary mode CMPDIEN1 3 5 is used as another CMPDIEN for channel 0 2 4" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
bitfld.long 0x00 28. "CMPDIEN4,EPWM Compare Down Count Interrupt Enable Bits\nNote: In complementary mode CMPDIEN1 3 5 is used as another CMPDIEN for channel 0 2 4" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
newline
bitfld.long 0x00 27. "CMPDIEN3,EPWM Compare Down Count Interrupt Enable Bits\nNote: In complementary mode CMPDIEN1 3 5 is used as another CMPDIEN for channel 0 2 4" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
bitfld.long 0x00 26. "CMPDIEN2,EPWM Compare Down Count Interrupt Enable Bits\nNote: In complementary mode CMPDIEN1 3 5 is used as another CMPDIEN for channel 0 2 4" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
newline
bitfld.long 0x00 25. "CMPDIEN1,EPWM Compare Down Count Interrupt Enable Bits\nNote: In complementary mode CMPDIEN1 3 5 is used as another CMPDIEN for channel 0 2 4" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
bitfld.long 0x00 24. "CMPDIEN0,EPWM Compare Down Count Interrupt Enable Bits\nNote: In complementary mode CMPDIEN1 3 5 is used as another CMPDIEN for channel 0 2 4" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
newline
bitfld.long 0x00 21. "CMPUIEN5,EPWM Compare Up Count Interrupt Enable Bits\nNote: In complementary mode CMPUIEN1 3 5 is used as another CMPUIEN for channel 0 2 4" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
bitfld.long 0x00 20. "CMPUIEN4,EPWM Compare Up Count Interrupt Enable Bits\nNote: In complementary mode CMPUIEN1 3 5 is used as another CMPUIEN for channel 0 2 4" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
newline
bitfld.long 0x00 19. "CMPUIEN3,EPWM Compare Up Count Interrupt Enable Bits\nNote: In complementary mode CMPUIEN1 3 5 is used as another CMPUIEN for channel 0 2 4" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
bitfld.long 0x00 18. "CMPUIEN2,EPWM Compare Up Count Interrupt Enable Bits\nNote: In complementary mode CMPUIEN1 3 5 is used as another CMPUIEN for channel 0 2 4" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
newline
bitfld.long 0x00 17. "CMPUIEN1,EPWM Compare Up Count Interrupt Enable Bits\nNote: In complementary mode CMPUIEN1 3 5 is used as another CMPUIEN for channel 0 2 4" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
bitfld.long 0x00 16. "CMPUIEN0,EPWM Compare Up Count Interrupt Enable Bits\nNote: In complementary mode CMPUIEN1 3 5 is used as another CMPUIEN for channel 0 2 4" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
newline
bitfld.long 0x00 13. "PIEN5,EPWM Period Point Interrupt Enable Bits\nNote1: When up-down counter type period point means center point.\nNote2: Odd channels will read always 0 at complementary mode" "0: Period point interrupt Disabled,1: Period point interrupt Enabled"
bitfld.long 0x00 12. "PIEN4,EPWM Period Point Interrupt Enable Bits\nNote1: When up-down counter type period point means center point.\nNote2: Odd channels will read always 0 at complementary mode" "0: Period point interrupt Disabled,1: Period point interrupt Enabled"
newline
bitfld.long 0x00 11. "PIEN3,EPWM Period Point Interrupt Enable Bits\nNote1: When up-down counter type period point means center point.\nNote2: Odd channels will read always 0 at complementary mode" "0: Period point interrupt Disabled,1: Period point interrupt Enabled"
bitfld.long 0x00 10. "PIEN2,EPWM Period Point Interrupt Enable Bits\nNote1: When up-down counter type period point means center point.\nNote2: Odd channels will read always 0 at complementary mode" "0: Period point interrupt Disabled,1: Period point interrupt Enabled"
newline
bitfld.long 0x00 9. "PIEN1,EPWM Period Point Interrupt Enable Bits\nNote1: When up-down counter type period point means center point.\nNote2: Odd channels will read always 0 at complementary mode" "0: Period point interrupt Disabled,1: Period point interrupt Enabled"
bitfld.long 0x00 8. "PIEN0,EPWM Period Point Interrupt Enable Bits\nNote1: When up-down counter type period point means center point.\nNote2: Odd channels will read always 0 at complementary mode" "0: Period point interrupt Disabled,1: Period point interrupt Enabled"
newline
bitfld.long 0x00 5. "ZIEN5,EPWM Zero Point Interrupt Enable Bits\nNote: Odd channels will read always 0 at complementary mode" "0: Zero point interrupt Disabled,1: Zero point interrupt Enabled"
bitfld.long 0x00 4. "ZIEN4,EPWM Zero Point Interrupt Enable Bits\nNote: Odd channels will read always 0 at complementary mode" "0: Zero point interrupt Disabled,1: Zero point interrupt Enabled"
newline
bitfld.long 0x00 3. "ZIEN3,EPWM Zero Point Interrupt Enable Bits\nNote: Odd channels will read always 0 at complementary mode" "0: Zero point interrupt Disabled,1: Zero point interrupt Enabled"
bitfld.long 0x00 2. "ZIEN2,EPWM Zero Point Interrupt Enable Bits\nNote: Odd channels will read always 0 at complementary mode" "0: Zero point interrupt Disabled,1: Zero point interrupt Enabled"
newline
bitfld.long 0x00 1. "ZIEN1,EPWM Zero Point Interrupt Enable Bits\nNote: Odd channels will read always 0 at complementary mode" "0: Zero point interrupt Disabled,1: Zero point interrupt Enabled"
bitfld.long 0x00 0. "ZIEN0,EPWM Zero Point Interrupt Enable Bits\nNote: Odd channels will read always 0 at complementary mode" "0: Zero point interrupt Disabled,1: Zero point interrupt Enabled"
group.long 0xE4++0x03
line.long 0x00 "EPWM_INTEN1,EPWM Interrupt Enable Register 1"
bitfld.long 0x00 10. "BRKLIEN4_5,EPWM Level-detect Brake Interrupt Enable for Channel4/5 (Write Protect)\nNote: This bit is write protected" "0: Level-detect Brake interrupt for channel4/5..,1: Level-detect Brake interrupt for channel4/5.."
bitfld.long 0x00 9. "BRKLIEN2_3,EPWM Level-detect Brake Interrupt Enable for Channel2/3 (Write Protect)\nNote: This bit is write protected" "0: Level-detect Brake interrupt for channel2/3..,1: Level-detect Brake interrupt for channel2/3.."
newline
bitfld.long 0x00 8. "BRKLIEN0_1,EPWM Level-detect Brake Interrupt Enable for Channel0/1 (Write Protect)\nNote: This bit is write protected" "0: Level-detect Brake interrupt for channel0/1..,1: Level-detect Brake interrupt for channel0/1.."
bitfld.long 0x00 2. "BRKEIEN4_5,EPWM Edge-detect Brake Interrupt Enable for Channel4/5 (Write Protect)\nNote: This bit is write protected" "0: Edge-detect Brake interrupt for channel4/5..,1: Edge-detect Brake interrupt for channel4/5.."
newline
bitfld.long 0x00 1. "BRKEIEN2_3,EPWM Edge-detect Brake Interrupt Enable for Channel2/3 (Write Protect)\nNote: This bit is write protected" "0: Edge-detect Brake interrupt for channel2/3..,1: Edge-detect Brake interrupt for channel2/3.."
bitfld.long 0x00 0. "BRKEIEN0_1,EPWM Edge-detect Brake Interrupt Enable for Channel0/1 (Write Protect)\nNote: This bit is write protected" "0: Edge-detect Brake interrupt for channel0/1..,1: Edge-detect Brake interrupt for channel0/1.."
group.long 0xE8++0x03
line.long 0x00 "EPWM_INTSTS0,EPWM Interrupt Flag Register 0"
bitfld.long 0x00 29. "CMPDIF5,EPWM Compare Down Count Interrupt Flag\nFlag is set by hardware when EPWM counter down count and reaches EPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: In complementary mode CMPDIF1 3 5 is used as another CMPDIF for channel.." "0,1"
bitfld.long 0x00 28. "CMPDIF4,EPWM Compare Down Count Interrupt Flag\nFlag is set by hardware when EPWM counter down count and reaches EPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: In complementary mode CMPDIF1 3 5 is used as another CMPDIF for channel.." "0,1"
newline
bitfld.long 0x00 27. "CMPDIF3,EPWM Compare Down Count Interrupt Flag\nFlag is set by hardware when EPWM counter down count and reaches EPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: In complementary mode CMPDIF1 3 5 is used as another CMPDIF for channel.." "0,1"
bitfld.long 0x00 26. "CMPDIF2,EPWM Compare Down Count Interrupt Flag\nFlag is set by hardware when EPWM counter down count and reaches EPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: In complementary mode CMPDIF1 3 5 is used as another CMPDIF for channel.." "0,1"
newline
bitfld.long 0x00 25. "CMPDIF1,EPWM Compare Down Count Interrupt Flag\nFlag is set by hardware when EPWM counter down count and reaches EPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: In complementary mode CMPDIF1 3 5 is used as another CMPDIF for channel.." "0,1"
bitfld.long 0x00 24. "CMPDIF0,EPWM Compare Down Count Interrupt Flag\nFlag is set by hardware when EPWM counter down count and reaches EPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: In complementary mode CMPDIF1 3 5 is used as another CMPDIF for channel.." "0,1"
newline
bitfld.long 0x00 21. "CMPUIF5,EPWM Compare Up Count Interrupt Flag\nFlag is set by hardware when EPWM counter up count and reaches EPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: In complementary mode CMPUIF1 3 5 is used as another CMPUIF for channel 0 2 4" "0,1"
bitfld.long 0x00 20. "CMPUIF4,EPWM Compare Up Count Interrupt Flag\nFlag is set by hardware when EPWM counter up count and reaches EPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: In complementary mode CMPUIF1 3 5 is used as another CMPUIF for channel 0 2 4" "0,1"
newline
bitfld.long 0x00 19. "CMPUIF3,EPWM Compare Up Count Interrupt Flag\nFlag is set by hardware when EPWM counter up count and reaches EPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: In complementary mode CMPUIF1 3 5 is used as another CMPUIF for channel 0 2 4" "0,1"
bitfld.long 0x00 18. "CMPUIF2,EPWM Compare Up Count Interrupt Flag\nFlag is set by hardware when EPWM counter up count and reaches EPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: In complementary mode CMPUIF1 3 5 is used as another CMPUIF for channel 0 2 4" "0,1"
newline
bitfld.long 0x00 17. "CMPUIF1,EPWM Compare Up Count Interrupt Flag\nFlag is set by hardware when EPWM counter up count and reaches EPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: In complementary mode CMPUIF1 3 5 is used as another CMPUIF for channel 0 2 4" "0,1"
bitfld.long 0x00 16. "CMPUIF0,EPWM Compare Up Count Interrupt Flag\nFlag is set by hardware when EPWM counter up count and reaches EPWM_CMPDATn software can clear this bit by writing 1 to it.\nNote: In complementary mode CMPUIF1 3 5 is used as another CMPUIF for channel 0 2 4" "0,1"
newline
bitfld.long 0x00 13. "PIF5,EPWM Period Point Interrupt Flag\nThis bit is set by hardware when EPWM counter reaches EPWM_PERIODn" "0,1"
bitfld.long 0x00 12. "PIF4,EPWM Period Point Interrupt Flag\nThis bit is set by hardware when EPWM counter reaches EPWM_PERIODn" "0,1"
newline
bitfld.long 0x00 11. "PIF3,EPWM Period Point Interrupt Flag\nThis bit is set by hardware when EPWM counter reaches EPWM_PERIODn" "0,1"
bitfld.long 0x00 10. "PIF2,EPWM Period Point Interrupt Flag\nThis bit is set by hardware when EPWM counter reaches EPWM_PERIODn" "0,1"
newline
bitfld.long 0x00 9. "PIF1,EPWM Period Point Interrupt Flag\nThis bit is set by hardware when EPWM counter reaches EPWM_PERIODn" "0,1"
bitfld.long 0x00 8. "PIF0,EPWM Period Point Interrupt Flag\nThis bit is set by hardware when EPWM counter reaches EPWM_PERIODn" "0,1"
newline
bitfld.long 0x00 5. "ZIF5,EPWM Zero Point Interrupt Flag\nThis bit is set by hardware when EPWM counter reaches 0" "0,1"
bitfld.long 0x00 4. "ZIF4,EPWM Zero Point Interrupt Flag\nThis bit is set by hardware when EPWM counter reaches 0" "0,1"
newline
bitfld.long 0x00 3. "ZIF3,EPWM Zero Point Interrupt Flag\nThis bit is set by hardware when EPWM counter reaches 0" "0,1"
bitfld.long 0x00 2. "ZIF2,EPWM Zero Point Interrupt Flag\nThis bit is set by hardware when EPWM counter reaches 0" "0,1"
newline
bitfld.long 0x00 1. "ZIF1,EPWM Zero Point Interrupt Flag\nThis bit is set by hardware when EPWM counter reaches 0" "0,1"
bitfld.long 0x00 0. "ZIF0,EPWM Zero Point Interrupt Flag\nThis bit is set by hardware when EPWM counter reaches 0" "0,1"
group.long 0xEC++0x03
line.long 0x00 "EPWM_INTSTS1,EPWM Interrupt Flag Register 1"
rbitfld.long 0x00 29. "BRKLSTS5,EPWM Channel N Level-detect Brake Status (Read Only)\nNote: This bit is read only and auto cleared by hardware" "0: EPWM channel n level-detect brake state is..,1: When EPWM channel n level-detect brake.."
rbitfld.long 0x00 28. "BRKLSTS4,EPWM Channel N Level-detect Brake Status (Read Only)\nNote: This bit is read only and auto cleared by hardware" "0: EPWM channel n level-detect brake state is..,1: When EPWM channel n level-detect brake.."
newline
rbitfld.long 0x00 27. "BRKLSTS3,EPWM Channel N Level-detect Brake Status (Read Only)\nNote: This bit is read only and auto cleared by hardware" "0: EPWM channel n level-detect brake state is..,1: When EPWM channel n level-detect brake.."
rbitfld.long 0x00 26. "BRKLSTS2,EPWM Channel N Level-detect Brake Status (Read Only)\nNote: This bit is read only and auto cleared by hardware" "0: EPWM channel n level-detect brake state is..,1: When EPWM channel n level-detect brake.."
newline
rbitfld.long 0x00 25. "BRKLSTS1,EPWM Channel N Level-detect Brake Status (Read Only)\nNote: This bit is read only and auto cleared by hardware" "0: EPWM channel n level-detect brake state is..,1: When EPWM channel n level-detect brake.."
rbitfld.long 0x00 24. "BRKLSTS0,EPWM Channel N Level-detect Brake Status (Read Only)\nNote: This bit is read only and auto cleared by hardware" "0: EPWM channel n level-detect brake state is..,1: When EPWM channel n level-detect brake.."
newline
rbitfld.long 0x00 21. "BRKESTS5,EPWM Channel N Edge-detect Brake Status (Read Only)\nNote: This bit is read only and auto cleared by hardware" "0: EPWM channel n edge-detect brake state is..,1: When EPWM channel n edge-detect brake detects.."
rbitfld.long 0x00 20. "BRKESTS4,EPWM Channel N Edge-detect Brake Status (Read Only)\nNote: This bit is read only and auto cleared by hardware" "0: EPWM channel n edge-detect brake state is..,1: When EPWM channel n edge-detect brake detects.."
newline
rbitfld.long 0x00 19. "BRKESTS3,EPWM Channel N Edge-detect Brake Status (Read Only)\nNote: This bit is read only and auto cleared by hardware" "0: EPWM channel n edge-detect brake state is..,1: When EPWM channel n edge-detect brake detects.."
rbitfld.long 0x00 18. "BRKESTS2,EPWM Channel N Edge-detect Brake Status (Read Only)\nNote: This bit is read only and auto cleared by hardware" "0: EPWM channel n edge-detect brake state is..,1: When EPWM channel n edge-detect brake detects.."
newline
rbitfld.long 0x00 17. "BRKESTS1,EPWM Channel N Edge-detect Brake Status (Read Only)\nNote: This bit is read only and auto cleared by hardware" "0: EPWM channel n edge-detect brake state is..,1: When EPWM channel n edge-detect brake detects.."
rbitfld.long 0x00 16. "BRKESTS0,EPWM Channel N Edge-detect Brake Status (Read Only)\nNote: This bit is read only and auto cleared by hardware" "0: EPWM channel n edge-detect brake state is..,1: When EPWM channel n edge-detect brake detects.."
newline
bitfld.long 0x00 13. "BRKLIF5,EPWM Channel N Level-detect Brake Interrupt Flag (Write Protect)\nNote: This bit is write protected" "0: EPWM channel n level-detect brake event do..,1: When EPWM channel n level-detect brake event.."
bitfld.long 0x00 12. "BRKLIF4,EPWM Channel N Level-detect Brake Interrupt Flag (Write Protect)\nNote: This bit is write protected" "0: EPWM channel n level-detect brake event do..,1: When EPWM channel n level-detect brake event.."
newline
bitfld.long 0x00 11. "BRKLIF3,EPWM Channel N Level-detect Brake Interrupt Flag (Write Protect)\nNote: This bit is write protected" "0: EPWM channel n level-detect brake event do..,1: When EPWM channel n level-detect brake event.."
bitfld.long 0x00 10. "BRKLIF2,EPWM Channel N Level-detect Brake Interrupt Flag (Write Protect)\nNote: This bit is write protected" "0: EPWM channel n level-detect brake event do..,1: When EPWM channel n level-detect brake event.."
newline
bitfld.long 0x00 9. "BRKLIF1,EPWM Channel N Level-detect Brake Interrupt Flag (Write Protect)\nNote: This bit is write protected" "0: EPWM channel n level-detect brake event do..,1: When EPWM channel n level-detect brake event.."
bitfld.long 0x00 8. "BRKLIF0,EPWM Channel N Level-detect Brake Interrupt Flag (Write Protect)\nNote: This bit is write protected" "0: EPWM channel n level-detect brake event do..,1: When EPWM channel n level-detect brake event.."
newline
bitfld.long 0x00 5. "BRKEIF5,EPWM Channel N Edge-detect Brake Interrupt Flag (Write Protect)\nNote: This bit is write protected" "0: EPWM channel n edge-detect brake event do not..,1: When EPWM channel n edge-detect brake event.."
bitfld.long 0x00 4. "BRKEIF4,EPWM Channel N Edge-detect Brake Interrupt Flag (Write Protect)\nNote: This bit is write protected" "0: EPWM channel n edge-detect brake event do not..,1: When EPWM channel n edge-detect brake event.."
newline
bitfld.long 0x00 3. "BRKEIF3,EPWM Channel N Edge-detect Brake Interrupt Flag (Write Protect)\nNote: This bit is write protected" "0: EPWM channel n edge-detect brake event do not..,1: When EPWM channel n edge-detect brake event.."
bitfld.long 0x00 2. "BRKEIF2,EPWM Channel N Edge-detect Brake Interrupt Flag (Write Protect)\nNote: This bit is write protected" "0: EPWM channel n edge-detect brake event do not..,1: When EPWM channel n edge-detect brake event.."
newline
bitfld.long 0x00 1. "BRKEIF1,EPWM Channel N Edge-detect Brake Interrupt Flag (Write Protect)\nNote: This bit is write protected" "0: EPWM channel n edge-detect brake event do not..,1: When EPWM channel n edge-detect brake event.."
bitfld.long 0x00 0. "BRKEIF0,EPWM Channel N Edge-detect Brake Interrupt Flag (Write Protect)\nNote: This bit is write protected" "0: EPWM channel n edge-detect brake event do not..,1: When EPWM channel n edge-detect brake event.."
group.long 0xF4++0x03
line.long 0x00 "EPWM_DACTRGEN,EPWM Trigger DAC Enable Register"
bitfld.long 0x00 29. "CDTRGEN5,EPWM Compare Down Count Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter down count to CMP if this bit is set to1.\nNote1: This bit should keep at 0 when EPWM counter operating in up counter type.\nNote2: In.." "0: EPWM Compare Down count point trigger DAC..,1: EPWM Compare Down count point trigger DAC.."
bitfld.long 0x00 28. "CDTRGEN4,EPWM Compare Down Count Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter down count to CMP if this bit is set to1.\nNote1: This bit should keep at 0 when EPWM counter operating in up counter type.\nNote2: In.." "0: EPWM Compare Down count point trigger DAC..,1: EPWM Compare Down count point trigger DAC.."
newline
bitfld.long 0x00 27. "CDTRGEN3,EPWM Compare Down Count Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter down count to CMP if this bit is set to1.\nNote1: This bit should keep at 0 when EPWM counter operating in up counter type.\nNote2: In.." "0: EPWM Compare Down count point trigger DAC..,1: EPWM Compare Down count point trigger DAC.."
bitfld.long 0x00 26. "CDTRGEN2,EPWM Compare Down Count Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter down count to CMP if this bit is set to1.\nNote1: This bit should keep at 0 when EPWM counter operating in up counter type.\nNote2: In.." "0: EPWM Compare Down count point trigger DAC..,1: EPWM Compare Down count point trigger DAC.."
newline
bitfld.long 0x00 25. "CDTRGEN1,EPWM Compare Down Count Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter down count to CMP if this bit is set to1.\nNote1: This bit should keep at 0 when EPWM counter operating in up counter type.\nNote2: In.." "0: EPWM Compare Down count point trigger DAC..,1: EPWM Compare Down count point trigger DAC.."
bitfld.long 0x00 24. "CDTRGEN0,EPWM Compare Down Count Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter down count to CMP if this bit is set to1.\nNote1: This bit should keep at 0 when EPWM counter operating in up counter type.\nNote2: In.." "0: EPWM Compare Down count point trigger DAC..,1: EPWM Compare Down count point trigger DAC.."
newline
bitfld.long 0x00 21. "CUTRGEN5,EPWM Compare Up Count Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter counts up to CMP if this bit is set to1.\nNote1: This bit should keep at 0 when EPWM counter operating in down counter type.\nNote2: In.." "0: EPWM Compare Up point trigger DAC function..,1: EPWM Compare Up point trigger DAC function.."
bitfld.long 0x00 20. "CUTRGEN4,EPWM Compare Up Count Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter counts up to CMP if this bit is set to1.\nNote1: This bit should keep at 0 when EPWM counter operating in down counter type.\nNote2: In.." "0: EPWM Compare Up point trigger DAC function..,1: EPWM Compare Up point trigger DAC function.."
newline
bitfld.long 0x00 19. "CUTRGEN3,EPWM Compare Up Count Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter counts up to CMP if this bit is set to1.\nNote1: This bit should keep at 0 when EPWM counter operating in down counter type.\nNote2: In.." "0: EPWM Compare Up point trigger DAC function..,1: EPWM Compare Up point trigger DAC function.."
bitfld.long 0x00 18. "CUTRGEN2,EPWM Compare Up Count Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter counts up to CMP if this bit is set to1.\nNote1: This bit should keep at 0 when EPWM counter operating in down counter type.\nNote2: In.." "0: EPWM Compare Up point trigger DAC function..,1: EPWM Compare Up point trigger DAC function.."
newline
bitfld.long 0x00 17. "CUTRGEN1,EPWM Compare Up Count Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter counts up to CMP if this bit is set to1.\nNote1: This bit should keep at 0 when EPWM counter operating in down counter type.\nNote2: In.." "0: EPWM Compare Up point trigger DAC function..,1: EPWM Compare Up point trigger DAC function.."
bitfld.long 0x00 16. "CUTRGEN0,EPWM Compare Up Count Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter counts up to CMP if this bit is set to1.\nNote1: This bit should keep at 0 when EPWM counter operating in down counter type.\nNote2: In.." "0: EPWM Compare Up point trigger DAC function..,1: EPWM Compare Up point trigger DAC function.."
newline
bitfld.long 0x00 13. "PTE5,EPWM Period Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter counts up to (PERIODn+1) if this bit is set to1" "0: EPWM period point trigger DAC function Disabled,1: EPWM period point trigger DAC function Enabled"
bitfld.long 0x00 12. "PTE4,EPWM Period Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter counts up to (PERIODn+1) if this bit is set to1" "0: EPWM period point trigger DAC function Disabled,1: EPWM period point trigger DAC function Enabled"
newline
bitfld.long 0x00 11. "PTE3,EPWM Period Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter counts up to (PERIODn+1) if this bit is set to1" "0: EPWM period point trigger DAC function Disabled,1: EPWM period point trigger DAC function Enabled"
bitfld.long 0x00 10. "PTE2,EPWM Period Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter counts up to (PERIODn+1) if this bit is set to1" "0: EPWM period point trigger DAC function Disabled,1: EPWM period point trigger DAC function Enabled"
newline
bitfld.long 0x00 9. "PTE1,EPWM Period Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter counts up to (PERIODn+1) if this bit is set to1" "0: EPWM period point trigger DAC function Disabled,1: EPWM period point trigger DAC function Enabled"
bitfld.long 0x00 8. "PTE0,EPWM Period Point Trigger DAC Enable Bits\nEPWM can trigger DAC to start action when EPWM counter counts up to (PERIODn+1) if this bit is set to1" "0: EPWM period point trigger DAC function Disabled,1: EPWM period point trigger DAC function Enabled"
newline
bitfld.long 0x00 5. "ZTE5,EPWM Zero Point Trigger DAC Enable Bits\nEPWM can trigger EADC/DAC/DMA to start action when EPWM counter down count to zero if this bit is set to1" "0: EPWM period point trigger DAC function Disabled,1: EPWM period point trigger DAC function Enabled"
bitfld.long 0x00 4. "ZTE4,EPWM Zero Point Trigger DAC Enable Bits\nEPWM can trigger EADC/DAC/DMA to start action when EPWM counter down count to zero if this bit is set to1" "0: EPWM period point trigger DAC function Disabled,1: EPWM period point trigger DAC function Enabled"
newline
bitfld.long 0x00 3. "ZTE3,EPWM Zero Point Trigger DAC Enable Bits\nEPWM can trigger EADC/DAC/DMA to start action when EPWM counter down count to zero if this bit is set to1" "0: EPWM period point trigger DAC function Disabled,1: EPWM period point trigger DAC function Enabled"
bitfld.long 0x00 2. "ZTE2,EPWM Zero Point Trigger DAC Enable Bits\nEPWM can trigger EADC/DAC/DMA to start action when EPWM counter down count to zero if this bit is set to1" "0: EPWM period point trigger DAC function Disabled,1: EPWM period point trigger DAC function Enabled"
newline
bitfld.long 0x00 1. "ZTE1,EPWM Zero Point Trigger DAC Enable Bits\nEPWM can trigger EADC/DAC/DMA to start action when EPWM counter down count to zero if this bit is set to1" "0: EPWM period point trigger DAC function Disabled,1: EPWM period point trigger DAC function Enabled"
bitfld.long 0x00 0. "ZTE0,EPWM Zero Point Trigger DAC Enable Bits\nEPWM can trigger EADC/DAC/DMA to start action when EPWM counter down count to zero if this bit is set to1" "0: EPWM period point trigger DAC function Disabled,1: EPWM period point trigger DAC function Enabled"
group.long 0xF8++0x03
line.long 0x00 "EPWM_EADCTS0,EPWM Trigger EADC Source Select Register 0"
bitfld.long 0x00 31. "TRGEN3,EPWM_CH3 Trigger EADC Enable Bit" "0: EPWM_CH3 Trigger EADC function Disabled,1: EPWM_CH3 Trigger EADC function Enabled"
bitfld.long 0x00 24.--27. "TRGSEL3,EPWM_CH3 Trigger EADC Source Select" "0: EPWM_CH2 zero point,1: EPWM_CH2 period point,2: EPWM_CH2 zero or period point,3: EPWM_CH2 up-count compared point,4: EPWM_CH2 down-count compared point,5: EPWM_CH3 zero point,6: EPWM_CH3 period point,7: EPWM_CH3 zero or period point,8: EPWM_CH3 up-count compared point,9: EPWM_CH3 down-count compared point,10: EPWM_CH0 up-count free trigger compared point,11: EPWM_CH0 down-count free trigger compared..,12: EPWM_CH2 up-count free trigger compared point,13: EPWM_CH2 down-count free trigger compared..,14: EPWM_CH4 up-count free trigger compared point,15: EPWM_CH4 down-count free trigger compared.."
newline
bitfld.long 0x00 23. "TRGEN2,EPWM_CH2 Trigger EADC Enable Bit" "0: EPWM_CH2 Trigger EADC function Disabled,1: EPWM_CH2 Trigger EADC function Enabled"
bitfld.long 0x00 16.--19. "TRGSEL2,EPWM_CH2 Trigger EADC Source Select" "0: EPWM_CH2 zero point,1: EPWM_CH2 period point,2: EPWM_CH2 zero or period point,3: EPWM_CH2 up-count compared point,4: EPWM_CH2 down-count compared point,5: EPWM_CH3 zero point,6: EPWM_CH3 period point,7: EPWM_CH3 zero or period point,8: EPWM_CH3 up-count compared point,9: EPWM_CH3 down-count compared point,10: EPWM_CH0 up-count free trigger compared point,11: EPWM_CH0 down-count free trigger compared..,12: EPWM_CH2 up-count free trigger compared point,13: EPWM_CH2 down-count free trigger compared..,14: EPWM_CH4 up-count free trigger compared point,15: EPWM_CH4 down-count free trigger compared.."
newline
bitfld.long 0x00 15. "TRGEN1,EPWM_CH1 Trigger EADC Enable Bit" "0: EPWM_CH1 Trigger EADC function Disabled,1: EPWM_CH1 Trigger EADC function Enabled"
bitfld.long 0x00 8.--11. "TRGSEL1,EPWM_CH1 Trigger EADC Source Select" "0: EPWM_CH0 zero point,1: EPWM_CH0 period point,2: EPWM_CH0 zero or period point,3: EPWM_CH0 up-count compared point,4: EPWM_CH0 down-count compared point,5: EPWM_CH1 zero point,6: EPWM_CH1 period point,7: EPWM_CH1 zero or period point,8: EPWM_CH1 up-count compared point,9: EPWM_CH1 down-count compared point,10: EPWM_CH0 up-count free trigger compared point,11: EPWM_CH0 down-count free trigger compared..,12: EPWM_CH2 up-count free trigger compared point,13: EPWM_CH2 down-count free trigger compared..,14: EPWM_CH4 up-count free trigger compared point,15: EPWM_CH4 down-count free trigger compared.."
newline
bitfld.long 0x00 7. "TRGEN0,EPWM_CH0 Trigger EADC Enable Bit" "0: EPWM_CH0 Trigger EADC function Disabled,1: EPWM_CH0 Trigger EADC function Enabled"
bitfld.long 0x00 0.--3. "TRGSEL0,EPWM_CH0 Trigger EADC Source Select" "0: EPWM_CH0 zero point,1: EPWM_CH0 period point,2: EPWM_CH0 zero or period point,3: EPWM_CH0 up-count compared point,4: EPWM_CH0 down-count compared point,5: EPWM_CH1 zero point,6: EPWM_CH1 period point,7: EPWM_CH1 zero or period point,8: EPWM_CH1 up-count compared point,9: EPWM_CH1 down-count compared point,10: EPWM_CH0 up-count free trigger compared point,11: EPWM_CH0 down-count free trigger compared..,12: EPWM_CH2 up-count free trigger compared point,13: EPWM_CH2 down-count free trigger compared..,14: EPWM_CH4 up-count free trigger compared point,15: EPWM_CH4 down-count free trigger compared.."
group.long 0xFC++0x03
line.long 0x00 "EPWM_EADCTS1,EPWM Trigger EADC Source Select Register 1"
bitfld.long 0x00 15. "TRGEN5,EPWM_CH5 Trigger EADC Enable Bit" "0: EPWM_CH5 Trigger EADC function Disabled,1: EPWM_CH5 Trigger EADC function Enabled"
bitfld.long 0x00 8.--11. "TRGSEL5,EPWM_CH5 Trigger EADC Source Select" "0: EPWM_CH4 zero point,1: EPWM_CH4 period point,2: EPWM_CH4 zero or period point,3: EPWM_CH4 up-count compared point,4: EPWM_CH4 down-count compared point,5: EPWM_CH5 zero point,6: EPWM_CH5 period point,7: EPWM_CH5 zero or period point,8: EPWM_CH5 up-count compared point,9: EPWM_CH5 down-count compared point,10: EPWM_CH0 up-count free trigger compared point,11: EPWM_CH0 down-count free trigger compared..,12: EPWM_CH2 up-count free trigger compared point,13: EPWM_CH2 down-count free trigger compared..,14: EPWM_CH4 up-count free trigger compared point,15: EPWM_CH4 down-count free trigger compared.."
newline
bitfld.long 0x00 7. "TRGEN4,EPWM_CH4 Trigger EADC Enable Bit" "0: EPWM_CH4 Trigger EADC function Disabled,1: EPWM_CH4 Trigger EADC function Enabled"
bitfld.long 0x00 0.--3. "TRGSEL4,EPWM_CH4 Trigger EADC Source Select" "0: EPWM_CH4 zero point,1: EPWM_CH4 period point,2: EPWM_CH4 zero or period point,3: EPWM_CH4 up-count compared point,4: EPWM_CH4 down-count compared point,5: EPWM_CH5 zero point,6: EPWM_CH5 period point,7: EPWM_CH5 zero or period point,8: EPWM_CH5 up-count compared point,9: EPWM_CH5 down-count compared point,10: EPWM_CH0 up-count free trigger compared point,11: EPWM_CH0 down-count free trigger compared..,12: EPWM_CH2 up-count free trigger compared point,13: EPWM_CH2 down-count free trigger compared..,14: EPWM_CH4 up-count free trigger compared point,15: EPWM_CH4 down-count free trigger compared.."
group.long 0x100++0x03
line.long 0x00 "EPWM_FTCMPDAT0_1,EPWM Free Trigger Compare Register 0/1"
hexmask.long.word 0x00 0.--15. 1. "FTCMP,EPWM Free Trigger Compare Register"
group.long 0x104++0x03
line.long 0x00 "EPWM_FTCMPDAT2_3,EPWM Free Trigger Compare Register 2/3"
hexmask.long.word 0x00 0.--15. 1. "FTCMP,EPWM Free Trigger Compare Register"
group.long 0x108++0x03
line.long 0x00 "EPWM_FTCMPDAT4_5,EPWM Free Trigger Compare Register 4/5"
hexmask.long.word 0x00 0.--15. 1. "FTCMP,EPWM Free Trigger Compare Register"
group.long 0x110++0x03
line.long 0x00 "EPWM_SSCTL,EPWM Synchronous Start Control Register"
bitfld.long 0x00 8.--9. "SSRC,EPWM Synchronous Start Source Select Bits" "0: Synchronous start source come from EPWM0,1: Synchronous start source come from EPWM1,2: Synchronous start source come from BPWM0,3: Synchronous start source come from BPWM1"
bitfld.long 0x00 5. "SSEN5,EPWM Synchronous Start Function Enable Bits\nWhen synchronous start function is enabled the EPWM counter enable register (EPWM_CNTEN) can be enabled by writing EPWM synchronous start trigger bit (CNTSEN)" "0: EPWM synchronous start function Disabled,1: EPWM synchronous start function Enabled"
newline
bitfld.long 0x00 4. "SSEN4,EPWM Synchronous Start Function Enable Bits\nWhen synchronous start function is enabled the EPWM counter enable register (EPWM_CNTEN) can be enabled by writing EPWM synchronous start trigger bit (CNTSEN)" "0: EPWM synchronous start function Disabled,1: EPWM synchronous start function Enabled"
bitfld.long 0x00 3. "SSEN3,EPWM Synchronous Start Function Enable Bits\nWhen synchronous start function is enabled the EPWM counter enable register (EPWM_CNTEN) can be enabled by writing EPWM synchronous start trigger bit (CNTSEN)" "0: EPWM synchronous start function Disabled,1: EPWM synchronous start function Enabled"
newline
bitfld.long 0x00 2. "SSEN2,EPWM Synchronous Start Function Enable Bits\nWhen synchronous start function is enabled the EPWM counter enable register (EPWM_CNTEN) can be enabled by writing EPWM synchronous start trigger bit (CNTSEN)" "0: EPWM synchronous start function Disabled,1: EPWM synchronous start function Enabled"
bitfld.long 0x00 1. "SSEN1,EPWM Synchronous Start Function Enable Bits\nWhen synchronous start function is enabled the EPWM counter enable register (EPWM_CNTEN) can be enabled by writing EPWM synchronous start trigger bit (CNTSEN)" "0: EPWM synchronous start function Disabled,1: EPWM synchronous start function Enabled"
newline
bitfld.long 0x00 0. "SSEN0,EPWM Synchronous Start Function Enable Bits\nWhen synchronous start function is enabled the EPWM counter enable register (EPWM_CNTEN) can be enabled by writing EPWM synchronous start trigger bit (CNTSEN)" "0: EPWM synchronous start function Disabled,1: EPWM synchronous start function Enabled"
wgroup.long 0x114++0x03
line.long 0x00 "EPWM_SSTRG,EPWM Synchronous Start Trigger Register"
bitfld.long 0x00 0. "CNTSEN,EPWM Counter Synchronous Start Enable (Write Only)\nPMW counter synchronous enable function is used to make selected EPWM channels (include EPWM0_CHx and EPWM1_CHx) start counting at the same time.\nWriting this bit to 1 will also set the counter.." "0,1"
group.long 0x118++0x03
line.long 0x00 "EPWM_LEBCTL,EPWM Leading Edge Blanking Control Register"
bitfld.long 0x00 16.--17. "TRGTYPE,EPWM Leading Edge Blanking Trigger Type" "0: When detect leading edge blanking source..,1: When detect leading edge blanking source..,2: When detect leading edge blanking source..,3: Reserved"
bitfld.long 0x00 10. "SRCEN4,EPWM Leading Edge Blanking Source From EPWM_CH4 Enable Bit" "0: EPWM Leading Edge Blanking Source from..,1: EPWM Leading Edge Blanking Source from.."
newline
bitfld.long 0x00 9. "SRCEN2,EPWM Leading Edge Blanking Source From EPWM_CH2 Enable Bit" "0: EPWM Leading Edge Blanking Source from..,1: EPWM Leading Edge Blanking Source from.."
bitfld.long 0x00 8. "SRCEN0,EPWM Leading Edge Blanking Source From EPWM_CH0 Enable Bit" "0: EPWM Leading Edge Blanking Source from..,1: EPWM Leading Edge Blanking Source from.."
newline
bitfld.long 0x00 0. "LEBEN,EPWM Leading Edge Blanking Enable Bit" "0: EPWM Leading Edge Blanking Disabled,1: EPWM Leading Edge Blanking Enabled"
group.long 0x11C++0x03
line.long 0x00 "EPWM_LEBCNT,EPWM Leading Edge Blanking Counter Register"
hexmask.long.word 0x00 0.--8. 1. "LEBCNT,EPWM Leading Edge Blanking Counter"
group.long 0x120++0x03
line.long 0x00 "EPWM_STATUS,EPWM Status Register"
bitfld.long 0x00 24. "DACTRGF,DAC Start of Conversion Flag\nNote: This bit can be cleared by software writing 1" "0: No DAC start of conversion trigger event has..,1: A DAC start of conversion trigger event has.."
bitfld.long 0x00 21. "EADCTRGF5,EADC Start of Conversion Flag\nNote: This bit can be cleared by software writing 1" "0: No EADC start of conversion trigger event has..,1: An EADC start of conversion trigger event has.."
newline
bitfld.long 0x00 20. "EADCTRGF4,EADC Start of Conversion Flag\nNote: This bit can be cleared by software writing 1" "0: No EADC start of conversion trigger event has..,1: An EADC start of conversion trigger event has.."
bitfld.long 0x00 19. "EADCTRGF3,EADC Start of Conversion Flag\nNote: This bit can be cleared by software writing 1" "0: No EADC start of conversion trigger event has..,1: An EADC start of conversion trigger event has.."
newline
bitfld.long 0x00 18. "EADCTRGF2,EADC Start of Conversion Flag\nNote: This bit can be cleared by software writing 1" "0: No EADC start of conversion trigger event has..,1: An EADC start of conversion trigger event has.."
bitfld.long 0x00 17. "EADCTRGF1,EADC Start of Conversion Flag\nNote: This bit can be cleared by software writing 1" "0: No EADC start of conversion trigger event has..,1: An EADC start of conversion trigger event has.."
newline
bitfld.long 0x00 16. "EADCTRGF0,EADC Start of Conversion Flag\nNote: This bit can be cleared by software writing 1" "0: No EADC start of conversion trigger event has..,1: An EADC start of conversion trigger event has.."
bitfld.long 0x00 10. "SYNCINF4,Input Synchronization Latched Flag\nNote: This bit can be cleared by software writing 1" "0: No SYNC_IN event has occurred,1: A SYNC_IN event has occurred"
newline
bitfld.long 0x00 9. "SYNCINF2,Input Synchronization Latched Flag\nNote: This bit can be cleared by software writing 1" "0: No SYNC_IN event has occurred,1: A SYNC_IN event has occurred"
bitfld.long 0x00 8. "SYNCINF0,Input Synchronization Latched Flag\nNote: This bit can be cleared by software writing 1" "0: No SYNC_IN event has occurred,1: A SYNC_IN event has occurred"
newline
bitfld.long 0x00 5. "CNTMAXF5,Time-base Counter Equal to 0xFFFF Latched Flag\nNote: This bit can be cleared by software writing 1" "0: The time-base counter never reached its..,1: The time-base counter reached its maximum value"
bitfld.long 0x00 4. "CNTMAXF4,Time-base Counter Equal to 0xFFFF Latched Flag\nNote: This bit can be cleared by software writing 1" "0: The time-base counter never reached its..,1: The time-base counter reached its maximum value"
newline
bitfld.long 0x00 3. "CNTMAXF3,Time-base Counter Equal to 0xFFFF Latched Flag\nNote: This bit can be cleared by software writing 1" "0: The time-base counter never reached its..,1: The time-base counter reached its maximum value"
bitfld.long 0x00 2. "CNTMAXF2,Time-base Counter Equal to 0xFFFF Latched Flag\nNote: This bit can be cleared by software writing 1" "0: The time-base counter never reached its..,1: The time-base counter reached its maximum value"
newline
bitfld.long 0x00 1. "CNTMAXF1,Time-base Counter Equal to 0xFFFF Latched Flag\nNote: This bit can be cleared by software writing 1" "0: The time-base counter never reached its..,1: The time-base counter reached its maximum value"
bitfld.long 0x00 0. "CNTMAXF0,Time-base Counter Equal to 0xFFFF Latched Flag\nNote: This bit can be cleared by software writing 1" "0: The time-base counter never reached its..,1: The time-base counter reached its maximum value"
repeat 6. (strings "0" "1" "2" "3" "4" "5" )(list 0x00 0x04 0x08 0x0C 0x10 0x14 )
group.long ($2+0x130)++0x03
line.long 0x00 "EPWM_IFA$1,EPWM Interrupt Flag Accumulator Register $1"
bitfld.long 0x00 31. "IFAEN,EPWM_CHn Interrupt Flag Accumulator Enable Bits" "0: EPWM_CHn interrupt flag accumulator Disabled,1: EPWM_CHn interrupt flag accumulator Enabled"
bitfld.long 0x00 28.--29. "IFASEL,EPWM_CHn Interrupt Flag Accumulator Source Select" "0: EPWM_CHn zero point,1: EPWM_CHn period in channel n,2: EPWM_CHn up-count compared point,3: EPWM_CHn down-count compared point"
newline
bitfld.long 0x00 24. "STPMOD,EPWM_CHn Accumulator Stop Mode Enable Bits" "0: EPWM_CHn Stop Mode Disable,1: EPWM_CHn Stop Mode Enable"
hexmask.long.word 0x00 0.--15. 1. "IFACNT,EPWM_CHn Interrupt Flag Counter\nThe register sets the count number which defines (IFACNT+1) times of EPWM_CHn period occurs to set bit IFAIFn to request the EPWM period interrupt.\nEPWM flag will be set in every IFACNT[15:0] times of EPWM period"
repeat.end
group.long 0x150++0x03
line.long 0x00 "EPWM_AINTSTS,EPWM Accumulator Interrupt Flag Register"
bitfld.long 0x00 5. "IFAIF5,EPWM_CHn Interrupt Flag Accumulator Interrupt Flag\nFlag is set by hardware when condition match IFASEL in EPWM_IFAn register software can clear this bit by writing 1 to it" "0,1"
bitfld.long 0x00 4. "IFAIF4,EPWM_CHn Interrupt Flag Accumulator Interrupt Flag\nFlag is set by hardware when condition match IFASEL in EPWM_IFAn register software can clear this bit by writing 1 to it" "0,1"
newline
bitfld.long 0x00 3. "IFAIF3,EPWM_CHn Interrupt Flag Accumulator Interrupt Flag\nFlag is set by hardware when condition match IFASEL in EPWM_IFAn register software can clear this bit by writing 1 to it" "0,1"
bitfld.long 0x00 2. "IFAIF2,EPWM_CHn Interrupt Flag Accumulator Interrupt Flag\nFlag is set by hardware when condition match IFASEL in EPWM_IFAn register software can clear this bit by writing 1 to it" "0,1"
newline
bitfld.long 0x00 1. "IFAIF1,EPWM_CHn Interrupt Flag Accumulator Interrupt Flag\nFlag is set by hardware when condition match IFASEL in EPWM_IFAn register software can clear this bit by writing 1 to it" "0,1"
bitfld.long 0x00 0. "IFAIF0,EPWM_CHn Interrupt Flag Accumulator Interrupt Flag\nFlag is set by hardware when condition match IFASEL in EPWM_IFAn register software can clear this bit by writing 1 to it" "0,1"
group.long 0x154++0x03
line.long 0x00 "EPWM_AINTEN,EPWM Accumulator Interrupt Enable Register"
bitfld.long 0x00 5. "IFAIEN5,EPWM_CHn Interrupt Flag Accumulator Interrupt Enable Bits" "0: Interrupt Flag accumulator interrupt Disabled,1: Interrupt Flag accumulator interrupt Enabled"
bitfld.long 0x00 4. "IFAIEN4,EPWM_CHn Interrupt Flag Accumulator Interrupt Enable Bits" "0: Interrupt Flag accumulator interrupt Disabled,1: Interrupt Flag accumulator interrupt Enabled"
newline
bitfld.long 0x00 3. "IFAIEN3,EPWM_CHn Interrupt Flag Accumulator Interrupt Enable Bits" "0: Interrupt Flag accumulator interrupt Disabled,1: Interrupt Flag accumulator interrupt Enabled"
bitfld.long 0x00 2. "IFAIEN2,EPWM_CHn Interrupt Flag Accumulator Interrupt Enable Bits" "0: Interrupt Flag accumulator interrupt Disabled,1: Interrupt Flag accumulator interrupt Enabled"
newline
bitfld.long 0x00 1. "IFAIEN1,EPWM_CHn Interrupt Flag Accumulator Interrupt Enable Bits" "0: Interrupt Flag accumulator interrupt Disabled,1: Interrupt Flag accumulator interrupt Enabled"
bitfld.long 0x00 0. "IFAIEN0,EPWM_CHn Interrupt Flag Accumulator Interrupt Enable Bits" "0: Interrupt Flag accumulator interrupt Disabled,1: Interrupt Flag accumulator interrupt Enabled"
group.long 0x158++0x03
line.long 0x00 "EPWM_APDMACTL,EPWM Accumulator PDMA Control Register"
bitfld.long 0x00 5. "APDMAEN5,Channel n Accumulator PDMA Enable Bits" "0: Channel n PDMA function Disabled,1: Channel n PDMA function Enabled for the.."
bitfld.long 0x00 4. "APDMAEN4,Channel n Accumulator PDMA Enable Bits" "0: Channel n PDMA function Disabled,1: Channel n PDMA function Enabled for the.."
newline
bitfld.long 0x00 3. "APDMAEN3,Channel n Accumulator PDMA Enable Bits" "0: Channel n PDMA function Disabled,1: Channel n PDMA function Enabled for the.."
bitfld.long 0x00 2. "APDMAEN2,Channel n Accumulator PDMA Enable Bits" "0: Channel n PDMA function Disabled,1: Channel n PDMA function Enabled for the.."
newline
bitfld.long 0x00 1. "APDMAEN1,Channel n Accumulator PDMA Enable Bits" "0: Channel n PDMA function Disabled,1: Channel n PDMA function Enabled for the.."
bitfld.long 0x00 0. "APDMAEN0,Channel n Accumulator PDMA Enable Bits" "0: Channel n PDMA function Disabled,1: Channel n PDMA function Enabled for the.."
group.long 0x160++0x03
line.long 0x00 "EPWM_FDEN,EPWM Fault Detect Enable Register"
bitfld.long 0x00 21. "FDCKS5,EPWM Channel n Fault Detect Clock Source Select Bit" "0: EPWMx_CLK x denotes 0 or 1,1: EPWMx_CLK divide by prescaler x denotes 0 or 1"
bitfld.long 0x00 20. "FDCKS4,EPWM Channel n Fault Detect Clock Source Select Bit" "0: EPWMx_CLK x denotes 0 or 1,1: EPWMx_CLK divide by prescaler x denotes 0 or 1"
newline
bitfld.long 0x00 19. "FDCKS3,EPWM Channel n Fault Detect Clock Source Select Bit" "0: EPWMx_CLK x denotes 0 or 1,1: EPWMx_CLK divide by prescaler x denotes 0 or 1"
bitfld.long 0x00 18. "FDCKS2,EPWM Channel n Fault Detect Clock Source Select Bit" "0: EPWMx_CLK x denotes 0 or 1,1: EPWMx_CLK divide by prescaler x denotes 0 or 1"
newline
bitfld.long 0x00 17. "FDCKS1,EPWM Channel n Fault Detect Clock Source Select Bit" "0: EPWMx_CLK x denotes 0 or 1,1: EPWMx_CLK divide by prescaler x denotes 0 or 1"
bitfld.long 0x00 16. "FDCKS0,EPWM Channel n Fault Detect Clock Source Select Bit" "0: EPWMx_CLK x denotes 0 or 1,1: EPWMx_CLK divide by prescaler x denotes 0 or 1"
newline
bitfld.long 0x00 13. "FDODIS5,EPWM Channel n Output Fault Detect Disable Bit" "0: EPWM detect fault and output Enable,1: EPWM detect fault and output Disable"
bitfld.long 0x00 12. "FDODIS4,EPWM Channel n Output Fault Detect Disable Bit" "0: EPWM detect fault and output Enable,1: EPWM detect fault and output Disable"
newline
bitfld.long 0x00 11. "FDODIS3,EPWM Channel n Output Fault Detect Disable Bit" "0: EPWM detect fault and output Enable,1: EPWM detect fault and output Disable"
bitfld.long 0x00 10. "FDODIS2,EPWM Channel n Output Fault Detect Disable Bit" "0: EPWM detect fault and output Enable,1: EPWM detect fault and output Disable"
newline
bitfld.long 0x00 9. "FDODIS1,EPWM Channel n Output Fault Detect Disable Bit" "0: EPWM detect fault and output Enable,1: EPWM detect fault and output Disable"
bitfld.long 0x00 8. "FDODIS0,EPWM Channel n Output Fault Detect Disable Bit" "0: EPWM detect fault and output Enable,1: EPWM detect fault and output Disable"
newline
bitfld.long 0x00 5. "FDEN5,EPWM Fault Detect Function Enable Bit" "0: Fault detect function Disable,1: Fault detect function Enable"
bitfld.long 0x00 4. "FDEN4,EPWM Fault Detect Function Enable Bit" "0: Fault detect function Disable,1: Fault detect function Enable"
newline
bitfld.long 0x00 3. "FDEN3,EPWM Fault Detect Function Enable Bit" "0: Fault detect function Disable,1: Fault detect function Enable"
bitfld.long 0x00 2. "FDEN2,EPWM Fault Detect Function Enable Bit" "0: Fault detect function Disable,1: Fault detect function Enable"
newline
bitfld.long 0x00 1. "FDEN1,EPWM Fault Detect Function Enable Bit" "0: Fault detect function Disable,1: Fault detect function Enable"
bitfld.long 0x00 0. "FDEN0,EPWM Fault Detect Function Enable Bit" "0: Fault detect function Disable,1: Fault detect function Enable"
repeat 6. (strings "0" "1" "2" "3" "4" "5" )(list 0x00 0x04 0x08 0x0C 0x10 0x14 )
group.long ($2+0x164)++0x03
line.long 0x00 "EPWM_FDCTL$1,EPWM Fault Detect Control Register $1"
bitfld.long 0x00 31. "FDDGEN,Fault Detect Deglitch Enable Bit" "0: Fault detect deglitch function Disable,1: Fault detect deglitch function Enable"
bitfld.long 0x00 28.--29. "FDCKSEL,EPWM Channel Fault Detect Clock Select" "0: FLT_CLK/1,1: FLT_CLK/2,2: FLT_CLK/4,3: FLT_CLK/8"
newline
bitfld.long 0x00 16.--18. "DGSMPCYC,Deglitch Sampling Cycle\nFDCKS is set to" "0: \nSampling detect signal each EPWMx_CLK *,1: \nSampling detect signal each EPWMx_CLK *..,?..."
bitfld.long 0x00 15. "FDMSKEN,Fault Detect Mask Enable Bit" "0: Fault detect mask function Disable,1: Fault detect mask function Enable"
newline
abitfld.long 0x00 0.--6. "TRMSKCNT,Transition Mask Counter\nThe fault detect result will be masked before counter count from 0 to TRMSKCNT.\n\nFDCKS is set to" "0x00=0: \nMask time is EPWMx_CLK * (2^FDCKSEL) *,0x01=1: \nMask time EPWMx_CLK * CLKPSC *.."
repeat.end
group.long 0x17C++0x03
line.long 0x00 "EPWM_FDIEN,EPWM Fault Detect Interrupt Enable Register"
bitfld.long 0x00 0. "FDIENn,EPWM Channel n Fault Detect Interrupt Enable Bit" "0: EPWM Channel n Fault Detect Interrupt Disable,1: EPWM Channel n Fault Detect Interrupt Enable"
group.long 0x180++0x03
line.long 0x00 "EPWM_FDSTS,EPWM Fault Detect Interrupt Flag Register"
bitfld.long 0x00 0.--5. "FDIFn,EPWM Channel n Fault Detect Interrupt Flag Bit\nFault Detect Interrupt Flag will be set when EPWM output short" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x184++0x03
line.long 0x00 "EPWM_EADCPSCCTL,EPWM Trigger EADC Prescale Control Register"
bitfld.long 0x00 5. "PSCEN5,EPWM Trigger EADC Pre-scale Function Enable Bits" "0: EPWM Trigger EADC Pre-scale Function Disable,1: EPWM Trigger EADC Pre-scale Function Enable"
bitfld.long 0x00 4. "PSCEN4,EPWM Trigger EADC Pre-scale Function Enable Bits" "0: EPWM Trigger EADC Pre-scale Function Disable,1: EPWM Trigger EADC Pre-scale Function Enable"
newline
bitfld.long 0x00 3. "PSCEN3,EPWM Trigger EADC Pre-scale Function Enable Bits" "0: EPWM Trigger EADC Pre-scale Function Disable,1: EPWM Trigger EADC Pre-scale Function Enable"
bitfld.long 0x00 2. "PSCEN2,EPWM Trigger EADC Pre-scale Function Enable Bits" "0: EPWM Trigger EADC Pre-scale Function Disable,1: EPWM Trigger EADC Pre-scale Function Enable"
newline
bitfld.long 0x00 1. "PSCEN1,EPWM Trigger EADC Pre-scale Function Enable Bits" "0: EPWM Trigger EADC Pre-scale Function Disable,1: EPWM Trigger EADC Pre-scale Function Enable"
bitfld.long 0x00 0. "PSCEN0,EPWM Trigger EADC Pre-scale Function Enable Bits" "0: EPWM Trigger EADC Pre-scale Function Disable,1: EPWM Trigger EADC Pre-scale Function Enable"
group.long 0x188++0x03
line.long 0x00 "EPWM_EADCPSC0,EPWM Trigger EADC Prescale Register 0"
bitfld.long 0x00 24.--27. "EADCPSC3,EPWM Channel 3 Trigger EADC Prescale\nThe register sets the count number which defines (EADCPSC3+1) times of EPWM_CH3 trigger EADC event occurs to trigger EADC and set trigger EADC flag bit EADCTRGF3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "EADCPSC2,EPWM Channel 2 Trigger EADC Prescale\nThe register sets the count number which defines (EADCPSC2+1) times of EPWM_CH2 trigger EADC event occurs to trigger EADC and set trigger EADC flag bit EADCTRGF2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 8.--11. "EADCPSC1,EPWM Channel 1 Trigger EADC Prescale\nThe register sets the count number which defines (EADCPSC1+1) times of EPWM_CH1 trigger EADC event occurs to trigger EADC and set trigger EADC flag bit EADCTRGF1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "EADCPSC0,EPWM Channel 0 Trigger EADC Prescale\nThe register sets the count number which defines (EADCPSC0+1) times of EPWM_CH0 trigger EADC event occurs to trigger EADC and set trigger EADC flag bit EADCTRGF0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x18C++0x03
line.long 0x00 "EPWM_EADCPSC1,EPWM Trigger EADC Prescale Register 1"
bitfld.long 0x00 8.--11. "EADCPSC5,EPWM Channel 5 Trigger EADC Prescale\nThe register sets the count number which defines (EADCPSC5+1) times of EPWM_CH5 trigger EADC event occurs to trigger EADC and set trigger EADC flag bit EADCTRGF5" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "EADCPSC4,EPWM Channel 4 Trigger EADC Prescale\nThe register sets the count number which defines (EADCPSC4+1) times of EPWM_CH4 trigger EADC event occurs to trigger EADC and set trigger EADC flag bit EADCTRGF4" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x190++0x03
line.long 0x00 "EPWM_EADCPSCNT0,EPWM Trigger EADC Prescale Counter Register 0"
bitfld.long 0x00 24.--27. "PSCNT3,EPWM Trigger EADC Prescale Counter 3\nUser can monitor PSCNT3 to know the current value in 4-bit trigger EADC prescale counter.\nNote1: user can write only when PSCEN3 is 0.\nNote2: Write data limitation: PSCNT3 EADCPSC3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PSCNT2,EPWM Trigger EADC Prescale Counter 2\nUser can monitor PSCNT2 to know the current value in 4-bit trigger EADC prescale counter.\nNote1: user can write only when PSCEN2 is 0.\nNote2: Write data limitation: PSCNT2 EADCPSC2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 8.--11. "PSCNT1,EPWM Trigger EADC Prescale Counter 1\nUser can monitor PSCNT1 to know the current value in 4-bit trigger EADC prescale counter.\nNote1: user can write only when PSCEN1 is 0.\nNote2: Write data limitation: PSCNT1 EADCPSC1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PSCNT0,EPWM Trigger EADC Prescale Counter 0\nUser can monitor PSCNT0 to know the current value in 4-bit trigger EADC prescale counter.\nNote1: user can write only when PSCEN0 is 0.\nNote2: Write data limitation: PSCNT0 EADCPSC0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x194++0x03
line.long 0x00 "EPWM_EADCPSCNT1,EPWM Trigger EADC Prescale Counter Register 1"
bitfld.long 0x00 8.--11. "PSCNT5,EPWM Trigger EADC Prescale Counter 5\nUser can monitor PSCNT5 to know the current value in 4-bit trigger EADC prescale counter.\nNote1: user can write only when PSCEN5 is 0.\nNote2: Write data limitation: PSCNT5 EADCPSC5" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PSCNT4,EPWM Trigger EADC Prescale Counter 4\nUser can monitor PSCNT4 to know the current value in 4-bit trigger EADC prescale counter.\nNote1: user can write only when PSCEN4 is 0.\nNote2: Write data limitation: PSCNT4 EADCPSC4" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x200++0x03
line.long 0x00 "EPWM_CAPINEN,EPWM Capture Input Enable Register"
bitfld.long 0x00 5. "CAPINEN5,Capture Input Enable Bits" "0: EPWM Channel capture input path Disabled,1: EPWM Channel capture input path Enabled"
bitfld.long 0x00 4. "CAPINEN4,Capture Input Enable Bits" "0: EPWM Channel capture input path Disabled,1: EPWM Channel capture input path Enabled"
newline
bitfld.long 0x00 3. "CAPINEN3,Capture Input Enable Bits" "0: EPWM Channel capture input path Disabled,1: EPWM Channel capture input path Enabled"
bitfld.long 0x00 2. "CAPINEN2,Capture Input Enable Bits" "0: EPWM Channel capture input path Disabled,1: EPWM Channel capture input path Enabled"
newline
bitfld.long 0x00 1. "CAPINEN1,Capture Input Enable Bits" "0: EPWM Channel capture input path Disabled,1: EPWM Channel capture input path Enabled"
bitfld.long 0x00 0. "CAPINEN0,Capture Input Enable Bits" "0: EPWM Channel capture input path Disabled,1: EPWM Channel capture input path Enabled"
group.long 0x204++0x03
line.long 0x00 "EPWM_CAPCTL,EPWM Capture Control Register"
bitfld.long 0x00 29. "FCRLDEN5,Falling Capture Reload Enable Bits" "0: Falling capture reload counter Disabled,1: Falling capture reload counter Enabled"
bitfld.long 0x00 28. "FCRLDEN4,Falling Capture Reload Enable Bits" "0: Falling capture reload counter Disabled,1: Falling capture reload counter Enabled"
newline
bitfld.long 0x00 27. "FCRLDEN3,Falling Capture Reload Enable Bits" "0: Falling capture reload counter Disabled,1: Falling capture reload counter Enabled"
bitfld.long 0x00 26. "FCRLDEN2,Falling Capture Reload Enable Bits" "0: Falling capture reload counter Disabled,1: Falling capture reload counter Enabled"
newline
bitfld.long 0x00 25. "FCRLDEN1,Falling Capture Reload Enable Bits" "0: Falling capture reload counter Disabled,1: Falling capture reload counter Enabled"
bitfld.long 0x00 24. "FCRLDEN0,Falling Capture Reload Enable Bits" "0: Falling capture reload counter Disabled,1: Falling capture reload counter Enabled"
newline
bitfld.long 0x00 21. "RCRLDEN5,Rising Capture Reload Enable Bits" "0: Rising capture reload counter Disabled,1: Rising capture reload counter Enabled"
bitfld.long 0x00 20. "RCRLDEN4,Rising Capture Reload Enable Bits" "0: Rising capture reload counter Disabled,1: Rising capture reload counter Enabled"
newline
bitfld.long 0x00 19. "RCRLDEN3,Rising Capture Reload Enable Bits" "0: Rising capture reload counter Disabled,1: Rising capture reload counter Enabled"
bitfld.long 0x00 18. "RCRLDEN2,Rising Capture Reload Enable Bits" "0: Rising capture reload counter Disabled,1: Rising capture reload counter Enabled"
newline
bitfld.long 0x00 17. "RCRLDEN1,Rising Capture Reload Enable Bits" "0: Rising capture reload counter Disabled,1: Rising capture reload counter Enabled"
bitfld.long 0x00 16. "RCRLDEN0,Rising Capture Reload Enable Bits" "0: Rising capture reload counter Disabled,1: Rising capture reload counter Enabled"
newline
bitfld.long 0x00 13. "CAPINV5,Capture Inverter Enable Bits" "0: Capture source inverter Disabled,1: Capture source inverter Enabled"
bitfld.long 0x00 12. "CAPINV4,Capture Inverter Enable Bits" "0: Capture source inverter Disabled,1: Capture source inverter Enabled"
newline
bitfld.long 0x00 11. "CAPINV3,Capture Inverter Enable Bits" "0: Capture source inverter Disabled,1: Capture source inverter Enabled"
bitfld.long 0x00 10. "CAPINV2,Capture Inverter Enable Bits" "0: Capture source inverter Disabled,1: Capture source inverter Enabled"
newline
bitfld.long 0x00 9. "CAPINV1,Capture Inverter Enable Bits" "0: Capture source inverter Disabled,1: Capture source inverter Enabled"
bitfld.long 0x00 8. "CAPINV0,Capture Inverter Enable Bits" "0: Capture source inverter Disabled,1: Capture source inverter Enabled"
newline
bitfld.long 0x00 5. "CAPEN5,Capture Function Enable Bits" "0: Capture function Disabled,1: Capture function Enabled"
bitfld.long 0x00 4. "CAPEN4,Capture Function Enable Bits" "0: Capture function Disabled,1: Capture function Enabled"
newline
bitfld.long 0x00 3. "CAPEN3,Capture Function Enable Bits" "0: Capture function Disabled,1: Capture function Enabled"
bitfld.long 0x00 2. "CAPEN2,Capture Function Enable Bits" "0: Capture function Disabled,1: Capture function Enabled"
newline
bitfld.long 0x00 1. "CAPEN1,Capture Function Enable Bits" "0: Capture function Disabled,1: Capture function Enabled"
bitfld.long 0x00 0. "CAPEN0,Capture Function Enable Bits" "0: Capture function Disabled,1: Capture function Enabled"
rgroup.long 0x208++0x03
line.long 0x00 "EPWM_CAPSTS,EPWM Capture Status Register"
bitfld.long 0x00 13. "CFLIFOV5,Capture Falling Latch Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if falling latch happened when the corresponding CFLIFn(EPWM_CAPIF[8+n]) is 1.\nNote: This bit will be cleared automatically when user clear corresponding.." "0,1"
bitfld.long 0x00 12. "CFLIFOV4,Capture Falling Latch Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if falling latch happened when the corresponding CFLIFn(EPWM_CAPIF[8+n]) is 1.\nNote: This bit will be cleared automatically when user clear corresponding.." "0,1"
newline
bitfld.long 0x00 11. "CFLIFOV3,Capture Falling Latch Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if falling latch happened when the corresponding CFLIFn(EPWM_CAPIF[8+n]) is 1.\nNote: This bit will be cleared automatically when user clear corresponding.." "0,1"
bitfld.long 0x00 10. "CFLIFOV2,Capture Falling Latch Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if falling latch happened when the corresponding CFLIFn(EPWM_CAPIF[8+n]) is 1.\nNote: This bit will be cleared automatically when user clear corresponding.." "0,1"
newline
bitfld.long 0x00 9. "CFLIFOV1,Capture Falling Latch Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if falling latch happened when the corresponding CFLIFn(EPWM_CAPIF[8+n]) is 1.\nNote: This bit will be cleared automatically when user clear corresponding.." "0,1"
bitfld.long 0x00 8. "CFLIFOV0,Capture Falling Latch Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if falling latch happened when the corresponding CFLIFn(EPWM_CAPIF[8+n]) is 1.\nNote: This bit will be cleared automatically when user clear corresponding.." "0,1"
newline
bitfld.long 0x00 5. "CRLIFOV5,Capture Rising Latch Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if rising latch happened when the corresponding CRLIFn(EPWM_CAPIF[n]) is 1.\nNote: This bit will be cleared automatically when user clear corresponding.." "0,1"
bitfld.long 0x00 4. "CRLIFOV4,Capture Rising Latch Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if rising latch happened when the corresponding CRLIFn(EPWM_CAPIF[n]) is 1.\nNote: This bit will be cleared automatically when user clear corresponding.." "0,1"
newline
bitfld.long 0x00 3. "CRLIFOV3,Capture Rising Latch Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if rising latch happened when the corresponding CRLIFn(EPWM_CAPIF[n]) is 1.\nNote: This bit will be cleared automatically when user clear corresponding.." "0,1"
bitfld.long 0x00 2. "CRLIFOV2,Capture Rising Latch Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if rising latch happened when the corresponding CRLIFn(EPWM_CAPIF[n]) is 1.\nNote: This bit will be cleared automatically when user clear corresponding.." "0,1"
newline
bitfld.long 0x00 1. "CRLIFOV1,Capture Rising Latch Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if rising latch happened when the corresponding CRLIFn(EPWM_CAPIF[n]) is 1.\nNote: This bit will be cleared automatically when user clear corresponding.." "0,1"
bitfld.long 0x00 0. "CRLIFOV0,Capture Rising Latch Interrupt Flag Overrun Status (Read Only)\nThis flag indicates if rising latch happened when the corresponding CRLIFn(EPWM_CAPIF[n]) is 1.\nNote: This bit will be cleared automatically when user clear corresponding.." "0,1"
rgroup.long 0x20C++0x03
line.long 0x00 "EPWM_RCAPDAT0,EPWM Rising Capture Data Register 0"
hexmask.long.word 0x00 0.--15. 1. "RCAPDAT,EPWM Rising Capture Data Register (Read Only)\nWhen rising capture condition happened the EPWM counter value will be saved in this register"
rgroup.long 0x210++0x03
line.long 0x00 "EPWM_FCAPDAT0,EPWM Falling Capture Data Register 0"
hexmask.long.word 0x00 0.--15. 1. "FCAPDAT,EPWM Falling Capture Data Register (Read Only)\nWhen falling capture condition happened the EPWM counter value will be saved in this register"
group.long 0x214++0x03
line.long 0x00 "EPWM_RCAPDAT1,EPWM Rising Capture Data Register 1"
hexmask.long.word 0x00 0.--15. 1. "RCAPDAT,EPWM Rising Capture Data Register (Read Only)\nWhen rising capture condition happened the EPWM counter value will be saved in this register"
group.long 0x218++0x03
line.long 0x00 "EPWM_FCAPDAT1,EPWM Falling Capture Data Register 1"
hexmask.long.word 0x00 0.--15. 1. "FCAPDAT,EPWM Falling Capture Data Register (Read Only)\nWhen falling capture condition happened the EPWM counter value will be saved in this register"
group.long 0x21C++0x03
line.long 0x00 "EPWM_RCAPDAT2,EPWM Rising Capture Data Register 2"
hexmask.long.word 0x00 0.--15. 1. "RCAPDAT,EPWM Rising Capture Data Register (Read Only)\nWhen rising capture condition happened the EPWM counter value will be saved in this register"
group.long 0x220++0x03
line.long 0x00 "EPWM_FCAPDAT2,EPWM Falling Capture Data Register 2"
hexmask.long.word 0x00 0.--15. 1. "FCAPDAT,EPWM Falling Capture Data Register (Read Only)\nWhen falling capture condition happened the EPWM counter value will be saved in this register"
group.long 0x224++0x03
line.long 0x00 "EPWM_RCAPDAT3,EPWM Rising Capture Data Register 3"
hexmask.long.word 0x00 0.--15. 1. "RCAPDAT,EPWM Rising Capture Data Register (Read Only)\nWhen rising capture condition happened the EPWM counter value will be saved in this register"
group.long 0x228++0x03
line.long 0x00 "EPWM_FCAPDAT3,EPWM Falling Capture Data Register 3"
hexmask.long.word 0x00 0.--15. 1. "FCAPDAT,EPWM Falling Capture Data Register (Read Only)\nWhen falling capture condition happened the EPWM counter value will be saved in this register"
group.long 0x22C++0x03
line.long 0x00 "EPWM_RCAPDAT4,EPWM Rising Capture Data Register 4"
hexmask.long.word 0x00 0.--15. 1. "RCAPDAT,EPWM Rising Capture Data Register (Read Only)\nWhen rising capture condition happened the EPWM counter value will be saved in this register"
group.long 0x230++0x03
line.long 0x00 "EPWM_FCAPDAT4,EPWM Falling Capture Data Register 4"
hexmask.long.word 0x00 0.--15. 1. "FCAPDAT,EPWM Falling Capture Data Register (Read Only)\nWhen falling capture condition happened the EPWM counter value will be saved in this register"
group.long 0x234++0x03
line.long 0x00 "EPWM_RCAPDAT5,EPWM Rising Capture Data Register 5"
hexmask.long.word 0x00 0.--15. 1. "RCAPDAT,EPWM Rising Capture Data Register (Read Only)\nWhen rising capture condition happened the EPWM counter value will be saved in this register"
group.long 0x238++0x03
line.long 0x00 "EPWM_FCAPDAT5,EPWM Falling Capture Data Register 5"
hexmask.long.word 0x00 0.--15. 1. "FCAPDAT,EPWM Falling Capture Data Register (Read Only)\nWhen falling capture condition happened the EPWM counter value will be saved in this register"
group.long 0x23C++0x03
line.long 0x00 "EPWM_PDMACTL,EPWM PDMA Control Register"
bitfld.long 0x00 20. "CHSEL4_5,Select Channel 4/5 to Do PDMA Transfer" "0: Channel4,1: Channel5"
bitfld.long 0x00 19. "CAPORD4_5,Capture Channel 4/5 Rising/Falling Order" "0: EPWM_FCAPDAT4/5 is the first captured data to..,1: EPWM_RCAPDAT4/5 is the first captured data to.."
newline
bitfld.long 0x00 17.--18. "CAPMOD4_5,Select EPWM_RCAPDAT4/5 or EPWM_FCAPDAT4/5 to Do PDMA Transfer" "0: Reserved,1: EPWM_RCAPDAT4/5,2: EPWM_FCAPDAT4/5,3: Both EPWM_RCAPDAT4/5 and EPWM_FCAPDAT4/5"
bitfld.long 0x00 16. "CHEN4_5,Channel 4/5 PDMA Enable Bit" "0: Channel 4/5 PDMA function Disabled,1: Channel 4/5 PDMA function Enabled for the.."
newline
bitfld.long 0x00 12. "CHSEL2_3,Select Channel 2/3 to Do PDMA Transfer" "0: Channel2,1: Channel3"
bitfld.long 0x00 11. "CAPORD2_3,Capture Channel 2/3 Rising/Falling Order" "0: EPWM_FCAPDAT2/3 is the first captured data to..,1: EPWM_RCAPDAT2/3 is the first captured data to.."
newline
bitfld.long 0x00 9.--10. "CAPMOD2_3,Select EPWM_RCAPDAT2/3 or EPWM_FCAODAT2/3 to Do PDMA Transfer" "0: Reserved,1: EPWM_RCAPDAT2/3,2: EPWM_FCAPDAT2/3,3: Both EPWM_RCAPDAT2/3 and EPWM_FCAPDAT2/3"
bitfld.long 0x00 8. "CHEN2_3,Channel 2/3 PDMA Enable Bit" "0: Channel 2/3 PDMA function Disabled,1: Channel 2/3 PDMA function Enabled for the.."
newline
bitfld.long 0x00 4. "CHSEL0_1,Select Channel 0/1 to Do PDMA Transfer" "0: Channel0,1: Channel1"
bitfld.long 0x00 3. "CAPORD0_1,Capture Channel 0/1 Rising/Falling Order" "0: EPWM_FCAPDAT0/1 is the first captured data to..,1: EPWM_RCAPDAT0/1 is the first captured data to.."
newline
bitfld.long 0x00 1.--2. "CAPMOD0_1,Select EPWM_RCAPDAT0/1 or EPWM_FCAPDAT0/1 to Do PDMA Transfer" "0: Reserved,1: EPWM_RCAPDAT0/1,2: EPWM_FCAPDAT0/1,3: Both EPWM_RCAPDAT0/1 and EPWM_FCAPDAT0/1"
bitfld.long 0x00 0. "CHEN0_1,Channel 0/1 PDMA Enable Bit" "0: Channel 0/1 PDMA function Disabled,1: Channel 0/1 PDMA function Enabled for the.."
rgroup.long 0x240++0x03
line.long 0x00 "EPWM_PDMACAP0_1,EPWM Capture Channel 01 PDMA Register"
hexmask.long.word 0x00 0.--15. 1. "CAPBUF,EPWM Capture PDMA Register (Read Only)\nThis register is used as a buffer to transfer EPWM capture rising or falling data to memory by PDMA"
group.long 0x244++0x03
line.long 0x00 "EPWM_PDMACAP2_3,EPWM Capture Channel 23 PDMA Register"
hexmask.long.word 0x00 0.--15. 1. "CAPBUF,EPWM Capture PDMA Register (Read Only)\nThis register is used as a buffer to transfer EPWM capture rising or falling data to memory by PDMA"
group.long 0x248++0x03
line.long 0x00 "EPWM_PDMACAP4_5,EPWM Capture Channel 45 PDMA Register"
hexmask.long.word 0x00 0.--15. 1. "CAPBUF,EPWM Capture PDMA Register (Read Only)\nThis register is used as a buffer to transfer EPWM capture rising or falling data to memory by PDMA"
group.long 0x250++0x03
line.long 0x00 "EPWM_CAPIEN,EPWM Capture Interrupt Enable Register"
bitfld.long 0x00 13. "CAPFIEN5,EPWM Capture Falling Latch Interrupt Enable Bits" "0: Capture falling edge latch interrupt Disabled,1: Capture falling edge latch interrupt Enabled"
bitfld.long 0x00 12. "CAPFIEN4,EPWM Capture Falling Latch Interrupt Enable Bits" "0: Capture falling edge latch interrupt Disabled,1: Capture falling edge latch interrupt Enabled"
newline
bitfld.long 0x00 11. "CAPFIEN3,EPWM Capture Falling Latch Interrupt Enable Bits" "0: Capture falling edge latch interrupt Disabled,1: Capture falling edge latch interrupt Enabled"
bitfld.long 0x00 10. "CAPFIEN2,EPWM Capture Falling Latch Interrupt Enable Bits" "0: Capture falling edge latch interrupt Disabled,1: Capture falling edge latch interrupt Enabled"
newline
bitfld.long 0x00 9. "CAPFIEN1,EPWM Capture Falling Latch Interrupt Enable Bits" "0: Capture falling edge latch interrupt Disabled,1: Capture falling edge latch interrupt Enabled"
bitfld.long 0x00 8. "CAPFIEN0,EPWM Capture Falling Latch Interrupt Enable Bits" "0: Capture falling edge latch interrupt Disabled,1: Capture falling edge latch interrupt Enabled"
newline
bitfld.long 0x00 5. "CAPRIEN5,EPWM Capture Rising Latch Interrupt Enable Bits" "0: Capture rising edge latch interrupt Disabled,1: Capture rising edge latch interrupt Enabled"
bitfld.long 0x00 4. "CAPRIEN4,EPWM Capture Rising Latch Interrupt Enable Bits" "0: Capture rising edge latch interrupt Disabled,1: Capture rising edge latch interrupt Enabled"
newline
bitfld.long 0x00 3. "CAPRIEN3,EPWM Capture Rising Latch Interrupt Enable Bits" "0: Capture rising edge latch interrupt Disabled,1: Capture rising edge latch interrupt Enabled"
bitfld.long 0x00 2. "CAPRIEN2,EPWM Capture Rising Latch Interrupt Enable Bits" "0: Capture rising edge latch interrupt Disabled,1: Capture rising edge latch interrupt Enabled"
newline
bitfld.long 0x00 1. "CAPRIEN1,EPWM Capture Rising Latch Interrupt Enable Bits" "0: Capture rising edge latch interrupt Disabled,1: Capture rising edge latch interrupt Enabled"
bitfld.long 0x00 0. "CAPRIEN0,EPWM Capture Rising Latch Interrupt Enable Bits" "0: Capture rising edge latch interrupt Disabled,1: Capture rising edge latch interrupt Enabled"
group.long 0x254++0x03
line.long 0x00 "EPWM_CAPIF,EPWM Capture Interrupt Flag Register"
bitfld.long 0x00 13. "CFLIF5,EPWM Capture Falling Latch Interrupt Flag\nNote1: When Capture with PDMA operating EPWM_CAPIF corresponding channel CFLIFn will be cleared by hardware after PDMA transfer data.\nNote2: This bit is cleared by writing 1 to it" "0: No capture falling latch condition happened,1: Capture falling latch condition happened this.."
bitfld.long 0x00 12. "CFLIF4,EPWM Capture Falling Latch Interrupt Flag\nNote1: When Capture with PDMA operating EPWM_CAPIF corresponding channel CFLIFn will be cleared by hardware after PDMA transfer data.\nNote2: This bit is cleared by writing 1 to it" "0: No capture falling latch condition happened,1: Capture falling latch condition happened this.."
newline
bitfld.long 0x00 11. "CFLIF3,EPWM Capture Falling Latch Interrupt Flag\nNote1: When Capture with PDMA operating EPWM_CAPIF corresponding channel CFLIFn will be cleared by hardware after PDMA transfer data.\nNote2: This bit is cleared by writing 1 to it" "0: No capture falling latch condition happened,1: Capture falling latch condition happened this.."
bitfld.long 0x00 10. "CFLIF2,EPWM Capture Falling Latch Interrupt Flag\nNote1: When Capture with PDMA operating EPWM_CAPIF corresponding channel CFLIFn will be cleared by hardware after PDMA transfer data.\nNote2: This bit is cleared by writing 1 to it" "0: No capture falling latch condition happened,1: Capture falling latch condition happened this.."
newline
bitfld.long 0x00 9. "CFLIF1,EPWM Capture Falling Latch Interrupt Flag\nNote1: When Capture with PDMA operating EPWM_CAPIF corresponding channel CFLIFn will be cleared by hardware after PDMA transfer data.\nNote2: This bit is cleared by writing 1 to it" "0: No capture falling latch condition happened,1: Capture falling latch condition happened this.."
bitfld.long 0x00 8. "CFLIF0,EPWM Capture Falling Latch Interrupt Flag\nNote1: When Capture with PDMA operating EPWM_CAPIF corresponding channel CFLIFn will be cleared by hardware after PDMA transfer data.\nNote2: This bit is cleared by writing 1 to it" "0: No capture falling latch condition happened,1: Capture falling latch condition happened this.."
newline
bitfld.long 0x00 5. "CRLIF5,EPWM Capture Rising Latch Interrupt Flag\nNote1: When Capture with PDMA operating EPWM_CAPIF corresponding channel CRLIFn will be cleared by hardware after PDMA transfer data.\nNote2: This bit is cleared by writing 1 to it" "0: No capture rising latch condition happened,1: Capture rising latch condition happened this.."
bitfld.long 0x00 4. "CRLIF4,EPWM Capture Rising Latch Interrupt Flag\nNote1: When Capture with PDMA operating EPWM_CAPIF corresponding channel CRLIFn will be cleared by hardware after PDMA transfer data.\nNote2: This bit is cleared by writing 1 to it" "0: No capture rising latch condition happened,1: Capture rising latch condition happened this.."
newline
bitfld.long 0x00 3. "CRLIF3,EPWM Capture Rising Latch Interrupt Flag\nNote1: When Capture with PDMA operating EPWM_CAPIF corresponding channel CRLIFn will be cleared by hardware after PDMA transfer data.\nNote2: This bit is cleared by writing 1 to it" "0: No capture rising latch condition happened,1: Capture rising latch condition happened this.."
bitfld.long 0x00 2. "CRLIF2,EPWM Capture Rising Latch Interrupt Flag\nNote1: When Capture with PDMA operating EPWM_CAPIF corresponding channel CRLIFn will be cleared by hardware after PDMA transfer data.\nNote2: This bit is cleared by writing 1 to it" "0: No capture rising latch condition happened,1: Capture rising latch condition happened this.."
newline
bitfld.long 0x00 1. "CRLIF1,EPWM Capture Rising Latch Interrupt Flag\nNote1: When Capture with PDMA operating EPWM_CAPIF corresponding channel CRLIFn will be cleared by hardware after PDMA transfer data.\nNote2: This bit is cleared by writing 1 to it" "0: No capture rising latch condition happened,1: Capture rising latch condition happened this.."
bitfld.long 0x00 0. "CRLIF0,EPWM Capture Rising Latch Interrupt Flag\nNote1: When Capture with PDMA operating EPWM_CAPIF corresponding channel CRLIFn will be cleared by hardware after PDMA transfer data.\nNote2: This bit is cleared by writing 1 to it" "0: No capture rising latch condition happened,1: Capture rising latch condition happened this.."
rgroup.long 0x304++0x03
line.long 0x00 "EPWM_PBUF0,EPWM PERIOD0 Buffer"
hexmask.long.word 0x00 0.--15. 1. "PBUF,EPWM Period Register Buffer (Read Only)\nUsed as PERIOD active register"
group.long 0x308++0x03
line.long 0x00 "EPWM_PBUF1,EPWM PERIOD1 Buffer"
hexmask.long.word 0x00 0.--15. 1. "PBUF,EPWM Period Register Buffer (Read Only)\nUsed as PERIOD active register"
group.long 0x30C++0x03
line.long 0x00 "EPWM_PBUF2,EPWM PERIOD2 Buffer"
hexmask.long.word 0x00 0.--15. 1. "PBUF,EPWM Period Register Buffer (Read Only)\nUsed as PERIOD active register"
group.long 0x310++0x03
line.long 0x00 "EPWM_PBUF3,EPWM PERIOD3 Buffer"
hexmask.long.word 0x00 0.--15. 1. "PBUF,EPWM Period Register Buffer (Read Only)\nUsed as PERIOD active register"
group.long 0x314++0x03
line.long 0x00 "EPWM_PBUF4,EPWM PERIOD4 Buffer"
hexmask.long.word 0x00 0.--15. 1. "PBUF,EPWM Period Register Buffer (Read Only)\nUsed as PERIOD active register"
group.long 0x318++0x03
line.long 0x00 "EPWM_PBUF5,EPWM PERIOD5 Buffer"
hexmask.long.word 0x00 0.--15. 1. "PBUF,EPWM Period Register Buffer (Read Only)\nUsed as PERIOD active register"
rgroup.long 0x31C++0x03
line.long 0x00 "EPWM_CMPBUF0,EPWM CMPDAT0 Buffer"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,EPWM Comparator Register Buffer (Read Only)\nUsed as CMP active register"
group.long 0x320++0x03
line.long 0x00 "EPWM_CMPBUF1,EPWM CMPDAT1 Buffer"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,EPWM Comparator Register Buffer (Read Only)\nUsed as CMP active register"
group.long 0x324++0x03
line.long 0x00 "EPWM_CMPBUF2,EPWM CMPDAT2 Buffer"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,EPWM Comparator Register Buffer (Read Only)\nUsed as CMP active register"
group.long 0x328++0x03
line.long 0x00 "EPWM_CMPBUF3,EPWM CMPDAT3 Buffer"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,EPWM Comparator Register Buffer (Read Only)\nUsed as CMP active register"
group.long 0x32C++0x03
line.long 0x00 "EPWM_CMPBUF4,EPWM CMPDAT4 Buffer"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,EPWM Comparator Register Buffer (Read Only)\nUsed as CMP active register"
group.long 0x330++0x03
line.long 0x00 "EPWM_CMPBUF5,EPWM CMPDAT5 Buffer"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,EPWM Comparator Register Buffer (Read Only)\nUsed as CMP active register"
rgroup.long 0x334++0x03
line.long 0x00 "EPWM_CPSCBUF0_1,EPWM CLKPSC0_1 Buffer"
hexmask.long.word 0x00 0.--11. 1. "CPSCBUF,EPWM Counter Clock Prescale Buffer\nUsed as EPWM counter clock pre-scare active register"
group.long 0x338++0x03
line.long 0x00 "EPWM_CPSCBUF2_3,EPWM CLKPSC2_3 Buffer"
hexmask.long.word 0x00 0.--11. 1. "CPSCBUF,EPWM Counter Clock Prescale Buffer\nUsed as EPWM counter clock pre-scare active register"
group.long 0x33C++0x03
line.long 0x00 "EPWM_CPSCBUF4_5,EPWM CLKPSC4_5 Buffer"
hexmask.long.word 0x00 0.--11. 1. "CPSCBUF,EPWM Counter Clock Prescale Buffer\nUsed as EPWM counter clock pre-scare active register"
rgroup.long 0x340++0x03
line.long 0x00 "EPWM_FTCBUF0_1,EPWM FTCMPDAT0_1 Buffer"
hexmask.long.word 0x00 0.--15. 1. "FTCMPBUF,EPWM FTCMPDAT Buffer (Read Only)\nUsed as FTCMP active buffer"
group.long 0x344++0x03
line.long 0x00 "EPWM_FTCBUF2_3,EPWM FTCMPDAT2_3 Buffer"
hexmask.long.word 0x00 0.--15. 1. "FTCMPBUF,EPWM FTCMPDAT Buffer (Read Only)\nUsed as FTCMP active buffer"
group.long 0x348++0x03
line.long 0x00 "EPWM_FTCBUF4_5,EPWM FTCMPDAT4_5 Buffer"
hexmask.long.word 0x00 0.--15. 1. "FTCMPBUF,EPWM FTCMPDAT Buffer (Read Only)\nUsed as FTCMP active buffer"
group.long 0x34C++0x03
line.long 0x00 "EPWM_FTCI,EPWM FTCMPDAT Indicator Register"
bitfld.long 0x00 10. "FTCMD4,EPWM FTCMPDAT Down Indicator\nIndicator is set by hardware when EPWM counter down count and reaches EPWM_FTCMPDATn software can clear this bit by writing 1 to it" "0,1"
bitfld.long 0x00 9. "FTCMD2,EPWM FTCMPDAT Down Indicator\nIndicator is set by hardware when EPWM counter down count and reaches EPWM_FTCMPDATn software can clear this bit by writing 1 to it" "0,1"
newline
bitfld.long 0x00 8. "FTCMD0,EPWM FTCMPDAT Down Indicator\nIndicator is set by hardware when EPWM counter down count and reaches EPWM_FTCMPDATn software can clear this bit by writing 1 to it" "0,1"
bitfld.long 0x00 2. "FTCMU4,EPWM FTCMPDAT Up Indicator\nIndicator is set by hardware when EPWM counter up count and reaches EPWM_FTCMPDATn software can clear this bit by writing 1 to it" "0,1"
newline
bitfld.long 0x00 1. "FTCMU2,EPWM FTCMPDAT Up Indicator\nIndicator is set by hardware when EPWM counter up count and reaches EPWM_FTCMPDATn software can clear this bit by writing 1 to it" "0,1"
bitfld.long 0x00 0. "FTCMU0,EPWM FTCMPDAT Up Indicator\nIndicator is set by hardware when EPWM counter up count and reaches EPWM_FTCMPDATn software can clear this bit by writing 1 to it" "0,1"
tree.end
repeat.end
tree.end
tree "FMC"
base ad:0x4000C000
group.long 0x00++0x03
line.long 0x00 "FMC_ISPCTL,ISP Control Register"
bitfld.long 0x00 16. "BL,Boot Loader Booting (Write Protect)\nThis bit is initiated with the inversed value of MBS (CONFIG0[5])" "0: Boot from APROM or LDROM,1: Boot from Boot Loader"
bitfld.long 0x00 6. "ISPFF,ISP Fail Flag (Write Protect)\nThis bit is set by hardware when a triggered ISP meets any of the following conditions:\nThis bit needs to be cleared by writing 1 to it.\nAPROM writes to itself if APUEN is set to 0.\nAPROM(except for Data Flash) is.." "0,1"
newline
bitfld.long 0x00 5. "LDUEN,LDROM Update Enable Bit (Write Protect)\nNote: This bit is write protected" "0: LDROM cannot be updated,1: LDROM can be updated"
bitfld.long 0x00 4. "CFGUEN,CONFIG Update Enable Bit (Write Protect)\nNote: This bit is write protected" "0: CONFIG cannot be updated,1: CONFIG can be updated"
newline
bitfld.long 0x00 3. "APUEN,APROM Update Enable Bit (Write Protect)\nNote: This bit is write protected" "0: APROM cannot be updated when the chip runs in..,1: APROM can be updated when the chip runs in.."
bitfld.long 0x00 1. "BS,Boot Select (Write Protect)\nWhen MBS in CONFIG0 is 1 set/clear this bit to select next booting from LDROM/APROM respectively" "0: Boot from APROM when MBS (CONFIG0[5]) is 1,1: Boot from LDROM when MBS (CONFIG0[5]) is 1"
newline
bitfld.long 0x00 0. "ISPEN,ISP Enable Bit (Write Protect)\nISP function enable bit" "0: ISP function Disabled,1: ISP function Enabled"
group.long 0x04++0x03
line.long 0x00 "FMC_ISPADDR,ISP Address Register"
hexmask.long 0x00 0.--31. 1. "ISPADDR,ISP Address\nThe M480 series is equipped with embedded Flash"
group.long 0x08++0x03
line.long 0x00 "FMC_ISPDAT,ISP Data Register"
hexmask.long 0x00 0.--31. 1. "ISPDAT,ISP Data\nWrite data to this register before ISP program operation.\nRead data from this register after ISP read operation"
group.long 0x0C++0x03
line.long 0x00 "FMC_ISPCMD,ISP Command Register"
hexmask.long.byte 0x00 0.--6. 1. "CMD,ISP Command\nISP command table is shown below:\nThe other commands are invalid"
group.long 0x10++0x03
line.long 0x00 "FMC_ISPTRG,ISP Trigger Control Register"
bitfld.long 0x00 0. "ISPGO,ISP Start Trigger (Write Protect)\nWrite 1 to start ISP operation and this bit will be cleared to 0 by hardware automatically when ISP operation is finished.\nNote: This bit is write protected" "0: ISP operation is finished,1: ISP is progressed"
rgroup.long 0x14++0x03
line.long 0x00 "FMC_DFBA,Data Flash Base Address"
hexmask.long 0x00 0.--31. 1. "DFBA,Data Flash Base Address\nThis register indicates Data Flash start address"
group.long 0x18++0x03
line.long 0x00 "FMC_FTCTL,Flash Access Time Control Register"
bitfld.long 0x00 9. "CACHEINV,Flash Cache Invalidation (Write Protect)\n" "0: Flash Cache Invalidation finished (default),1: Flash Cache Invalidation"
group.long 0x40++0x03
line.long 0x00 "FMC_ISPSTS,ISP Status Register"
hexmask.long.word 0x00 9.--23. 1. "VECMAP,Vector Page Mapping Address (Read Only)\nAll access to 0x0000_0000~0x0000_01FF is remapped to the Flash memory address {VECMAP[14:0] 9'h000} ~ {VECMAP[14:0] 9'h1FF}"
bitfld.long 0x00 7. "ALLONE,Flash All-one Verification Flag \nThis bit is set by hardware if all of Flash bits are 1 and clear if Flash bits are not all 1 after 'Run Flash All-One Verification' complete this bit also can be clear by writing 1" "0: All of Flash bits are 1 after 'Run Flash..,1: Flash bits are not all 1 after 'Run Flash.."
newline
bitfld.long 0x00 6. "ISPFF,ISP Fail Flag (Write Protect)\nThis bit is the mirror of ISPFF (FMC_ISPCTL[6]) it needs to be cleared by writing 1 to FMC_ISPCTL[6] or FMC_ISPSTS[6]" "0,1"
rbitfld.long 0x00 5. "PGFF,Flash Program with Fast Verification Flag (Read Only)\nThis bit is set if data is mismatched at ISP programming verification" "0: Flash Program is success,1: Flash Program is fail"
newline
rbitfld.long 0x00 4. "FCYCDIS,Flash Access Cycle Auto-tuning Disable Flag (Read Only)\nThis bit is set if Flash access cycle auto-tunning function is disabled" "0: Flash access cycle auto-tuning Enabled,1: Flash access cyle auto-tuning Disabled"
rbitfld.long 0x00 3. "MBS,Boot From Boot Loader Selection Flag (Read Only)\nThis bit is initiated with the MBS (CONFIG0[5]) after any reset is happened except CPU reset (CPU is 1) or system reset (SYS) is happened" "0: Boot from Boot Loader,1: Boot from LDROM/APROM.(.see CBS bit setting)"
newline
rbitfld.long 0x00 1.--2. "CBS,Boot Selection of CONFIG (Read Only)\nThis bit is initiated with the CBS (CONFIG0[7:6]) after any reset is happened except CPU reset (CPU is 1) or system reset (SYS) is happened" "0: LDROM with IAP mode,1: LDROM without IAP mode,2: APROM with IAP mode,3: APROM without IAP mode"
rbitfld.long 0x00 0. "ISPBUSY,ISP Busy Flag (Read Only)\nWrite 1 to start ISP operation and this bit will be cleared to 0 by hardware automatically when ISP operation is finished.\nThis bit is the mirror of ISPGO(FMC_ISPTRG[0])" "0: ISP operation is finished,1: ISP is progressed"
group.long 0x4C++0x03
line.long 0x00 "FMC_CYCCTL,Flash Access Cycle Control Register"
bitfld.long 0x00 8. "FADIS,Flash Access Cycle Auto-tuning Disable Bit (Write Protect)\nSet this bit to disable Flash access cycle auto-tuning function\nNote: This bit is write protected" "0: Flash access cycle auto-tuning Enabled,1: Flash access cycle auto-tuning Disabled"
bitfld.long 0x00 0.--3. "CYCLE,Flash Access Cycle Control (Write Protect)\nThis register is updated automatically by hardware while FCYCDIS (FMC_ISPSTS[4]) is 0 and updated by software while auto-tuning function disabled ( FADIS (FMC_CYCTL[8]) is 1) \nThe optimized HCLK working.." "0: CPU access with zero wait cycle Flash access..,1: CPU access with one wait cycle if cache miss..,2: CPU access with two wait cycles if cache miss..,3: CPU access with three wait cycles if cache..,4: CPU access with four wait cycles if cache..,5: CPU access with five wait cycles if cache..,6: CPU access with six wait cycles if cache miss..,7: CPU access with seven wait cycles if cache..,8: CPU access with eight wait cycles if cache..,?..."
wgroup.long 0x50++0x03
line.long 0x00 "FMC_KPKEY0,KPROM KEY0 Data Register"
hexmask.long 0x00 0.--31. 1. "KPKEY0,KPROM KEY0 Data (Write Only)\nWrite KPKEY0 data to this register before KEY Comparison operation"
wgroup.long 0x54++0x03
line.long 0x00 "FMC_KPKEY1,KPROM KEY1 Data Register"
hexmask.long 0x00 0.--31. 1. "KPKEY1,KPROM KEY1 Data (Write Only)\nWrite KPKEY1 data to this register before KEY Comparison operation"
wgroup.long 0x58++0x03
line.long 0x00 "FMC_KPKEY2,KPROM KEY2 Data Register"
hexmask.long 0x00 0.--31. 1. "KPKEY2,KPROM KEY2 Data (Write Only)\nWrite KPKEY2 data to this register before KEY Comparison operation"
group.long 0x5C++0x03
line.long 0x00 "FMC_KPKEYTRG,KPROM KEY Comparison Trigger Control Register"
bitfld.long 0x00 1. "TCEN,Timeout Counting Enable Bit (Write Protect)\n10 minutes is at least for timeout and average is about 20 minutes.\nNote: This bit is write-protected" "0: Timeout counting Disabled,1: Timeout counting Enabled if input key is.."
bitfld.long 0x00 0. "KPKEYGO,KPROM KEY Comparison Start Trigger (Write Protect)\nWrite 1 to start KEY comparison operation and this bit will be cleared to 0 by hardware automatically when KEY comparison operation is finished" "0: KEY comparison operation is finished,1: KEY comparison is progressed"
group.long 0x60++0x03
line.long 0x00 "FMC_KPKEYSTS,KPROM KEY Comparison Status Register"
rbitfld.long 0x00 5. "CFGFLAG,CONFIG Write-protection Enable Flag (Read Only)\nThis bit is set while the KEYENROM [0] is 0 at power-on or reset" "0: CONFIG write-protection Disabled,1: CONFIG write-protection Enabled"
rbitfld.long 0x00 4. "KEYFLAG,KEY Protection Enable Flag (Read Only)\nThis bit is set while the KEYENROM [7:0] is not 0xFF at power-on or reset" "0: Security Key protection Disabled,1: Security Key protection Enabled"
newline
rbitfld.long 0x00 3. "FORBID,KEY Comparison Forbidden Flag (Read Only)\nThis bit is set to 1 when KPKECNT(FMC_KPKEY0[4:0]) is more than KPKEMAX (FMC_KPKEY0[12:8]) or KPCNT (FMC_KPCNT [2:0]) is more than KPMAX (FMC_KPCNT [10:8])" "0: KEY comparison is not forbidden,1: KEY comparison is forbidden KEYGO (FMC_KEYTRG.."
rbitfld.long 0x00 2. "KEYMATCH,KEY Match Flag (Read Only)\nThis bit is set to 1 after KEY comparison complete if the KEY0 KEY1 and KEY2 are matched with the 96-bit security keys in KPROM and cleared to 0 if KEYs are unmatched" "0: KEY0 KEY1 and KEY2 are unmatched with the..,1: KEY0 KEY1 and KEY2 are matched with the KPROM.."
newline
bitfld.long 0x00 1. "KEYLOCK,KEY LOCK Flag \nThis bit is set to 1 if KEYMATCH (FMC_KPKEYSTS [2]) is 0 and cleared to 0 if KEYMATCH is 1 in Security Key protection" "0: KPROM LDROM and APROM (not include Data..,1: KPROM LDROM and APROM (not include Data.."
rbitfld.long 0x00 0. "KEYBUSY,KEY Comparison Busy (Read Only)" "0: KEY comparison is finished,1: KEY comparison is busy"
rgroup.long 0x64++0x03
line.long 0x00 "FMC_KPKEYCNT,KPROM KEY-unmatched Counting Register"
bitfld.long 0x00 8.--13. "KPKEMAX,Maximum Number for Error Key Entry at Each Power-on (Read Only)\nKPKEMAX is the maximum error key entry number at each power-on" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 0.--5. "KPKECNT,Error Key Entry Counter at Each Power-on (Read Only)\nKPKECNT is increased when entry keys is wrong in Security Key protection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x68++0x03
line.long 0x00 "FMC_KPCNT,KPROM KEY-unmatched Power-on Counting Register"
bitfld.long 0x00 8.--11. "KPMAX,Power-on Maximum Number for Error Key Entry (Read Only)\nKPMAX is the power-on maximum number for error key entry" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "KPCNT,Power-on Counter for Error Key Entry (Read Only)\nKPCNT is the power-on counting for error key entry in Security Key protection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x03
line.long 0x00 "FMC_MPDAT0,ISP Data0 Register"
hexmask.long 0x00 0.--31. 1. "ISPDAT0,ISP Data 0\nThis register is the first 32-bit data for 32-bit/64-bit/multi-word programming and it is also the mirror of FMC_ISPDAT both registers keep the same data"
group.long 0x84++0x03
line.long 0x00 "FMC_MPDAT1,ISP Data1 Register"
hexmask.long 0x00 0.--31. 1. "ISPDAT1,ISP Data 1\nThis register is the second 32-bit data for 64-bit/multi-word programming"
group.long 0x88++0x03
line.long 0x00 "FMC_MPDAT2,ISP Data2 Register"
hexmask.long 0x00 0.--31. 1. "ISPDAT2,ISP Data 2\nThis register is the third 32-bit data for multi-word programming"
group.long 0x8C++0x03
line.long 0x00 "FMC_MPDAT3,ISP Data3 Register"
hexmask.long 0x00 0.--31. 1. "ISPDAT3,ISP Data 3\nThis register is the fourth 32-bit data for multi-word programming"
rgroup.long 0xC0++0x03
line.long 0x00 "FMC_MPSTS,ISP Multi-program Status Register"
bitfld.long 0x00 7. "D3,ISP DATA 3 Flag (Read Only)\nThis bit is set when FMC_MPDAT3 is written and auto-clear to 0 when the FMC_MPDAT3 data is programmed to Flash complete" "0: FMC_MPDAT3 register is empty or program to..,1: FMC_MPDAT3 register has been written and not.."
bitfld.long 0x00 6. "D2,ISP DATA 2 Flag (Read Only)\nThis bit is set when FMC_MPDAT2 is written and auto-clear to 0 when the FMC_MPDAT2 data is programmed to Flash complete" "0: FMC_MPDAT2 register is empty or program to..,1: FMC_MPDAT2 register has been written and not.."
newline
bitfld.long 0x00 5. "D1,ISP DATA 1 Flag (Read Only)\nThis bit is set when FMC_MPDAT1 is written and auto-clear to 0 when the FMC_MPDAT1 data is programmed to Flash complete" "0: FMC_MPDAT1 register is empty or program to..,1: FMC_MPDAT1 register has been written and not.."
bitfld.long 0x00 4. "D0,ISP DATA 0 Flag (Read Only)\nThis bit is set when FMC_MPDAT0 is written and auto-clear to 0 when the FMC_MPDAT0 data is programmed to Flash complete" "0: FMC_MPDAT0 register is empty or program to..,1: FMC_MPDAT0 register has been written and not.."
newline
bitfld.long 0x00 3. "KEYBUSY,KEY Comparison Busy (Read Only)" "0: KEY Comparison is finished,1: KEY Comparison is busy"
bitfld.long 0x00 2. "ISPFF,ISP Fail Flag (Read Only)\nThis bit is the mirror of ISPFF (FMC_ISPCTL[6]) it needs to be cleared by writing 1 to FMC_ISPCTL[6] or FMC_ISPSTS[6]" "0,1"
newline
bitfld.long 0x00 1. "PPGO,ISP Multi-program Status (Read Only)" "0: ISP multi-word program operation is not active,1: ISP multi-word program operation is in progress"
bitfld.long 0x00 0. "MPBUSY,ISP Multi-word Program Busy Flag (Read Only)\nWrite 1 to start ISP Multi-Word program operation and this bit will be cleared to 0 by hardware automatically when ISP Multi-Word program operation is finished.\nThis bit is the mirror of.." "0: ISP Multi-Word program operation is finished,1: ISP Multi-Word program operation is progressed"
rgroup.long 0xC4++0x03
line.long 0x00 "FMC_MPADDR,ISP Multi-program Address Register"
hexmask.long 0x00 0.--31. 1. "MPADDR,ISP Multi-word Program Address\nMPADDR is the address of ISP multi-word program operation when ISPGO flag is 1.\nMPADDR will keep the final ISP address when ISP multi-word program is complete"
rgroup.long 0xD0++0x03
line.long 0x00 "FMC_XOMR0STS,XOM Region 0 Status Register"
hexmask.long.tbyte 0x00 8.--31. 1. "BASE,XOM Region 0 Base Address (Page-aligned)\nBASE is the base address of XOM Region 0"
hexmask.long.byte 0x00 0.--7. 1. "SIZE,XOM Region 0 Size (Page-aligned)\nSIZE is the page number of XOM Region 0"
rgroup.long 0xD4++0x03
line.long 0x00 "FMC_XOMR1STS,XOM Region 1 Status Register"
hexmask.long.tbyte 0x00 8.--31. 1. "BASE,XOM Region 1 Base Address (Page-aligned)\nBASE is the base address of XOM Region 1"
hexmask.long.byte 0x00 0.--7. 1. "SIZE,XOM Region 1 Size (Page-aligned)\nSIZE is the page number of XOM Region 1"
rgroup.long 0xD8++0x03
line.long 0x00 "FMC_XOMR2STS,XOM Region 2 Status Register"
hexmask.long.tbyte 0x00 8.--31. 1. "BASE,XOM Region 2 Base Address (Page-aligned)\nBASE is the base address of XOM Region 2"
hexmask.long.byte 0x00 0.--7. 1. "SIZE,XOM Region 2 Size (Page-aligned)\nSIZE is the page number of XOM Region 2"
rgroup.long 0xDC++0x03
line.long 0x00 "FMC_XOMR3STS,XOM Region 3 Status Register"
hexmask.long.tbyte 0x00 8.--31. 1. "BASE,XOM Region 3 Base Address (Page-aligned)\nBASE is the base address of XOM Region 3"
hexmask.long.byte 0x00 0.--7. 1. "SIZE,XOM Region 3 Size (Page-aligned)\nSIZE is the page number of XOM Region 3"
rgroup.long 0xE0++0x03
line.long 0x00 "FMC_XOMSTS,XOM Status Register"
bitfld.long 0x00 4. "XOMPEF,XOM Page Erase Function Fail\nXOM page erase function status" "0: Sucess,1: Fail"
bitfld.long 0x00 3. "XOMR3ON,XOM Region 3 On\nXOM Region 3 active status" "0: No active,1: XOM region 3 is active"
newline
bitfld.long 0x00 2. "XOMR2ON,XOM Region 2 On\nXOM Region 2 active status" "0: No active,1: XOM region 2 is active"
bitfld.long 0x00 1. "XOMR1ON,XOM Region 1 On\nXOM Region 1 active status" "0: No active,1: XOM region 1 is active"
newline
bitfld.long 0x00 0. "XOMR0ON,XOM Region 0 On\nXOM Region 0 active status" "0: No active,1: XOM region 0 is active"
tree.end
tree "GPIO"
base ad:0x40004000
group.long 0x00++0x03
line.long 0x00 "PA_MODE,PA I/O Mode Control"
bitfld.long 0x00 30.--31. "MODE15,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 28.--29. "MODE14,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 26.--27. "MODE13,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 24.--25. "MODE12,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 22.--23. "MODE11,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 20.--21. "MODE10,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 18.--19. "MODE9,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 16.--17. "MODE8,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 14.--15. "MODE7,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 12.--13. "MODE6,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 10.--11. "MODE5,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 8.--9. "MODE4,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 6.--7. "MODE3,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 4.--5. "MODE2,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 2.--3. "MODE1,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 0.--1. "MODE0,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
group.long 0x04++0x03
line.long 0x00 "PA_DINOFF,PA Digital Input Path Disable Control"
bitfld.long 0x00 31. "DINOFF15,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 30. "DINOFF14,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 29. "DINOFF13,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 28. "DINOFF12,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 27. "DINOFF11,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 26. "DINOFF10,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 25. "DINOFF9,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 24. "DINOFF8,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 23. "DINOFF7,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 22. "DINOFF6,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 21. "DINOFF5,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 20. "DINOFF4,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 19. "DINOFF3,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 18. "DINOFF2,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 17. "DINOFF1,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 16. "DINOFF0,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
group.long 0x08++0x03
line.long 0x00 "PA_DOUT,PA Data Output Value"
bitfld.long 0x00 15. "DOUT15,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 14. "DOUT14,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 13. "DOUT13,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 12. "DOUT12,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 11. "DOUT11,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 10. "DOUT10,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 9. "DOUT9,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 8. "DOUT8,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 7. "DOUT7,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 6. "DOUT6,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 5. "DOUT5,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 4. "DOUT4,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 3. "DOUT3,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 2. "DOUT2,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 1. "DOUT1,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 0. "DOUT0,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
group.long 0x0C++0x03
line.long 0x00 "PA_DATMSK,PA Data Output Write Mask"
bitfld.long 0x00 15. "DATMSK15,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 14. "DATMSK14,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 13. "DATMSK13,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 12. "DATMSK12,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 11. "DATMSK11,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 10. "DATMSK10,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 9. "DATMSK9,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 8. "DATMSK8,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 7. "DATMSK7,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 6. "DATMSK6,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 5. "DATMSK5,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 4. "DATMSK4,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 3. "DATMSK3,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 2. "DATMSK2,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 1. "DATMSK1,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 0. "DATMSK0,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
rgroup.long 0x10++0x03
line.long 0x00 "PA_PIN,PA Pin Value"
bitfld.long 0x00 15. "PIN15,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
bitfld.long 0x00 14. "PIN14,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
bitfld.long 0x00 13. "PIN13,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
bitfld.long 0x00 12. "PIN12,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
bitfld.long 0x00 11. "PIN11,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
bitfld.long 0x00 10. "PIN10,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
bitfld.long 0x00 9. "PIN9,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
bitfld.long 0x00 8. "PIN8,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
bitfld.long 0x00 7. "PIN7,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
bitfld.long 0x00 6. "PIN6,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
bitfld.long 0x00 5. "PIN5,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
bitfld.long 0x00 4. "PIN4,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
bitfld.long 0x00 3. "PIN3,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
bitfld.long 0x00 2. "PIN2,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
bitfld.long 0x00 1. "PIN1,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
bitfld.long 0x00 0. "PIN0,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
group.long 0x14++0x03
line.long 0x00 "PA_DBEN,PA De-bounce Enable Control Register"
bitfld.long 0x00 15. "DBEN15,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 14. "DBEN14,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 13. "DBEN13,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 12. "DBEN12,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 11. "DBEN11,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 10. "DBEN10,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 9. "DBEN9,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 8. "DBEN8,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 7. "DBEN7,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 6. "DBEN6,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 5. "DBEN5,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 4. "DBEN4,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 3. "DBEN3,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 2. "DBEN2,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 1. "DBEN1,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 0. "DBEN0,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
group.long 0x18++0x03
line.long 0x00 "PA_INTTYPE,PA Interrupt Trigger Type Control"
bitfld.long 0x00 15. "TYPE15,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 14. "TYPE14,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 13. "TYPE13,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 12. "TYPE12,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 11. "TYPE11,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 10. "TYPE10,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 9. "TYPE9,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 8. "TYPE8,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 7. "TYPE7,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 6. "TYPE6,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 5. "TYPE5,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 4. "TYPE4,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 3. "TYPE3,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 2. "TYPE2,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 1. "TYPE1,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 0. "TYPE0,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
group.long 0x1C++0x03
line.long 0x00 "PA_INTEN,PA Interrupt Enable Control Register"
bitfld.long 0x00 31. "RHIEN15,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 30. "RHIEN14,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 29. "RHIEN13,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 28. "RHIEN12,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 27. "RHIEN11,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 26. "RHIEN10,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 25. "RHIEN9,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 24. "RHIEN8,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 23. "RHIEN7,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 22. "RHIEN6,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 21. "RHIEN5,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 20. "RHIEN4,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 19. "RHIEN3,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 18. "RHIEN2,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 17. "RHIEN1,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 16. "RHIEN0,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 15. "FLIEN15,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 14. "FLIEN14,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 13. "FLIEN13,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 12. "FLIEN12,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 11. "FLIEN11,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 10. "FLIEN10,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 9. "FLIEN9,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 8. "FLIEN8,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 7. "FLIEN7,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 6. "FLIEN6,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 5. "FLIEN5,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 4. "FLIEN4,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 3. "FLIEN3,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 2. "FLIEN2,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 1. "FLIEN1,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 0. "FLIEN0,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
group.long 0x20++0x03
line.long 0x00 "PA_INTSRC,PA Interrupt Source Flag"
bitfld.long 0x00 15. "INTSRC15,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 14. "INTSRC14,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 13. "INTSRC13,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 12. "INTSRC12,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 11. "INTSRC11,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 10. "INTSRC10,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 9. "INTSRC9,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 8. "INTSRC8,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 7. "INTSRC7,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 6. "INTSRC6,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 5. "INTSRC5,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 4. "INTSRC4,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 3. "INTSRC3,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 2. "INTSRC2,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 1. "INTSRC1,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 0. "INTSRC0,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
group.long 0x24++0x03
line.long 0x00 "PA_SMTEN,PA Input Schmitt Trigger Enable Register"
bitfld.long 0x00 15. "SMTEN15,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 14. "SMTEN14,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 13. "SMTEN13,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 12. "SMTEN12,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 11. "SMTEN11,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 10. "SMTEN10,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 9. "SMTEN9,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 8. "SMTEN8,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 7. "SMTEN7,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 6. "SMTEN6,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 5. "SMTEN5,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 4. "SMTEN4,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 3. "SMTEN3,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 2. "SMTEN2,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 1. "SMTEN1,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 0. "SMTEN0,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
group.long 0x28++0x03
line.long 0x00 "PA_SLEWCTL,PA High Slew Rate Control Register"
bitfld.long 0x00 30.--31. "HSREN15,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 28.--29. "HSREN14,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 26.--27. "HSREN13,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 24.--25. "HSREN12,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 22.--23. "HSREN11,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 20.--21. "HSREN10,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 18.--19. "HSREN9,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 16.--17. "HSREN8,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 14.--15. "HSREN7,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 12.--13. "HSREN6,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 10.--11. "HSREN5,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 8.--9. "HSREN4,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 6.--7. "HSREN3,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 4.--5. "HSREN2,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 2.--3. "HSREN1,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 0.--1. "HSREN0,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
group.long 0x30++0x03
line.long 0x00 "PA_PUSEL,PA Pull-up and Pull-down Selection Register"
bitfld.long 0x00 30.--31. "PUSEL15,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 28.--29. "PUSEL14,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 26.--27. "PUSEL13,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 24.--25. "PUSEL12,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 22.--23. "PUSEL11,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 20.--21. "PUSEL10,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 18.--19. "PUSEL9,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 16.--17. "PUSEL8,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 14.--15. "PUSEL7,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 12.--13. "PUSEL6,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 10.--11. "PUSEL5,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 8.--9. "PUSEL4,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 6.--7. "PUSEL3,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 4.--5. "PUSEL2,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 2.--3. "PUSEL1,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 0.--1. "PUSEL0,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
group.long 0x40++0x03
line.long 0x00 "PB_MODE,PB I/O Mode Control"
bitfld.long 0x00 30.--31. "MODE15,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 28.--29. "MODE14,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 26.--27. "MODE13,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 24.--25. "MODE12,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 22.--23. "MODE11,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 20.--21. "MODE10,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 18.--19. "MODE9,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 16.--17. "MODE8,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 14.--15. "MODE7,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 12.--13. "MODE6,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 10.--11. "MODE5,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 8.--9. "MODE4,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 6.--7. "MODE3,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 4.--5. "MODE2,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 2.--3. "MODE1,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 0.--1. "MODE0,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
group.long 0x44++0x03
line.long 0x00 "PB_DINOFF,PB Digital Input Path Disable Control"
bitfld.long 0x00 31. "DINOFF15,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 30. "DINOFF14,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 29. "DINOFF13,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 28. "DINOFF12,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 27. "DINOFF11,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 26. "DINOFF10,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 25. "DINOFF9,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 24. "DINOFF8,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 23. "DINOFF7,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 22. "DINOFF6,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 21. "DINOFF5,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 20. "DINOFF4,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 19. "DINOFF3,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 18. "DINOFF2,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 17. "DINOFF1,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 16. "DINOFF0,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
group.long 0x48++0x03
line.long 0x00 "PB_DOUT,PB Data Output Value"
bitfld.long 0x00 15. "DOUT15,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 14. "DOUT14,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 13. "DOUT13,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 12. "DOUT12,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 11. "DOUT11,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 10. "DOUT10,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 9. "DOUT9,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 8. "DOUT8,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 7. "DOUT7,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 6. "DOUT6,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 5. "DOUT5,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 4. "DOUT4,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 3. "DOUT3,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 2. "DOUT2,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 1. "DOUT1,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 0. "DOUT0,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
group.long 0x4C++0x03
line.long 0x00 "PB_DATMSK,PB Data Output Write Mask"
bitfld.long 0x00 15. "DATMSK15,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 14. "DATMSK14,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 13. "DATMSK13,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 12. "DATMSK12,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 11. "DATMSK11,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 10. "DATMSK10,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 9. "DATMSK9,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 8. "DATMSK8,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 7. "DATMSK7,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 6. "DATMSK6,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 5. "DATMSK5,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 4. "DATMSK4,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 3. "DATMSK3,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 2. "DATMSK2,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 1. "DATMSK1,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 0. "DATMSK0,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
group.long 0x50++0x03
line.long 0x00 "PB_PIN,PB Pin Value"
rbitfld.long 0x00 15. "PIN15,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 14. "PIN14,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 13. "PIN13,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 12. "PIN12,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 11. "PIN11,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 10. "PIN10,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 9. "PIN9,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 8. "PIN8,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 7. "PIN7,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 6. "PIN6,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 5. "PIN5,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 4. "PIN4,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 3. "PIN3,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 2. "PIN2,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 1. "PIN1,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 0. "PIN0,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
group.long 0x54++0x03
line.long 0x00 "PB_DBEN,PB De-bounce Enable Control Register"
bitfld.long 0x00 15. "DBEN15,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 14. "DBEN14,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 13. "DBEN13,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 12. "DBEN12,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 11. "DBEN11,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 10. "DBEN10,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 9. "DBEN9,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 8. "DBEN8,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 7. "DBEN7,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 6. "DBEN6,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 5. "DBEN5,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 4. "DBEN4,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 3. "DBEN3,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 2. "DBEN2,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 1. "DBEN1,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 0. "DBEN0,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
group.long 0x58++0x03
line.long 0x00 "PB_INTTYPE,PB Interrupt Trigger Type Control"
bitfld.long 0x00 15. "TYPE15,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 14. "TYPE14,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 13. "TYPE13,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 12. "TYPE12,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 11. "TYPE11,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 10. "TYPE10,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 9. "TYPE9,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 8. "TYPE8,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 7. "TYPE7,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 6. "TYPE6,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 5. "TYPE5,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 4. "TYPE4,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 3. "TYPE3,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 2. "TYPE2,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 1. "TYPE1,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 0. "TYPE0,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
group.long 0x5C++0x03
line.long 0x00 "PB_INTEN,PB Interrupt Enable Control Register"
bitfld.long 0x00 31. "RHIEN15,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 30. "RHIEN14,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 29. "RHIEN13,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 28. "RHIEN12,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 27. "RHIEN11,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 26. "RHIEN10,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 25. "RHIEN9,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 24. "RHIEN8,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 23. "RHIEN7,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 22. "RHIEN6,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 21. "RHIEN5,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 20. "RHIEN4,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 19. "RHIEN3,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 18. "RHIEN2,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 17. "RHIEN1,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 16. "RHIEN0,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 15. "FLIEN15,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 14. "FLIEN14,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 13. "FLIEN13,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 12. "FLIEN12,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 11. "FLIEN11,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 10. "FLIEN10,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 9. "FLIEN9,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 8. "FLIEN8,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 7. "FLIEN7,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 6. "FLIEN6,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 5. "FLIEN5,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 4. "FLIEN4,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 3. "FLIEN3,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 2. "FLIEN2,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 1. "FLIEN1,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 0. "FLIEN0,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
group.long 0x60++0x03
line.long 0x00 "PB_INTSRC,PB Interrupt Source Flag"
bitfld.long 0x00 15. "INTSRC15,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 14. "INTSRC14,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 13. "INTSRC13,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 12. "INTSRC12,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 11. "INTSRC11,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 10. "INTSRC10,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 9. "INTSRC9,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 8. "INTSRC8,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 7. "INTSRC7,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 6. "INTSRC6,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 5. "INTSRC5,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 4. "INTSRC4,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 3. "INTSRC3,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 2. "INTSRC2,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 1. "INTSRC1,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 0. "INTSRC0,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
group.long 0x64++0x03
line.long 0x00 "PB_SMTEN,PB Input Schmitt Trigger Enable Register"
bitfld.long 0x00 15. "SMTEN15,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 14. "SMTEN14,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 13. "SMTEN13,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 12. "SMTEN12,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 11. "SMTEN11,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 10. "SMTEN10,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 9. "SMTEN9,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 8. "SMTEN8,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 7. "SMTEN7,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 6. "SMTEN6,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 5. "SMTEN5,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 4. "SMTEN4,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 3. "SMTEN3,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 2. "SMTEN2,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 1. "SMTEN1,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 0. "SMTEN0,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
group.long 0x68++0x03
line.long 0x00 "PB_SLEWCTL,PB High Slew Rate Control Register"
bitfld.long 0x00 30.--31. "HSREN15,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 28.--29. "HSREN14,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 26.--27. "HSREN13,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 24.--25. "HSREN12,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 22.--23. "HSREN11,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 20.--21. "HSREN10,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 18.--19. "HSREN9,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 16.--17. "HSREN8,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 14.--15. "HSREN7,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 12.--13. "HSREN6,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 10.--11. "HSREN5,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 8.--9. "HSREN4,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 6.--7. "HSREN3,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 4.--5. "HSREN2,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 2.--3. "HSREN1,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 0.--1. "HSREN0,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
group.long 0x70++0x03
line.long 0x00 "PB_PUSEL,PB Pull-up and Pull-down Selection Register"
bitfld.long 0x00 30.--31. "PUSEL15,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 28.--29. "PUSEL14,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 26.--27. "PUSEL13,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 24.--25. "PUSEL12,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 22.--23. "PUSEL11,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 20.--21. "PUSEL10,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 18.--19. "PUSEL9,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 16.--17. "PUSEL8,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 14.--15. "PUSEL7,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 12.--13. "PUSEL6,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 10.--11. "PUSEL5,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 8.--9. "PUSEL4,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 6.--7. "PUSEL3,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 4.--5. "PUSEL2,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 2.--3. "PUSEL1,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 0.--1. "PUSEL0,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
group.long 0x80++0x03
line.long 0x00 "PC_MODE,PC I/O Mode Control"
bitfld.long 0x00 30.--31. "MODE15,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 28.--29. "MODE14,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 26.--27. "MODE13,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 24.--25. "MODE12,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 22.--23. "MODE11,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 20.--21. "MODE10,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 18.--19. "MODE9,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 16.--17. "MODE8,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 14.--15. "MODE7,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 12.--13. "MODE6,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 10.--11. "MODE5,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 8.--9. "MODE4,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 6.--7. "MODE3,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 4.--5. "MODE2,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 2.--3. "MODE1,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 0.--1. "MODE0,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
group.long 0x84++0x03
line.long 0x00 "PC_DINOFF,PC Digital Input Path Disable Control"
bitfld.long 0x00 31. "DINOFF15,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 30. "DINOFF14,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 29. "DINOFF13,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 28. "DINOFF12,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 27. "DINOFF11,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 26. "DINOFF10,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 25. "DINOFF9,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 24. "DINOFF8,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 23. "DINOFF7,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 22. "DINOFF6,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 21. "DINOFF5,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 20. "DINOFF4,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 19. "DINOFF3,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 18. "DINOFF2,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 17. "DINOFF1,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 16. "DINOFF0,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
group.long 0x88++0x03
line.long 0x00 "PC_DOUT,PC Data Output Value"
bitfld.long 0x00 15. "DOUT15,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 14. "DOUT14,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 13. "DOUT13,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 12. "DOUT12,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 11. "DOUT11,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 10. "DOUT10,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 9. "DOUT9,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 8. "DOUT8,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 7. "DOUT7,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 6. "DOUT6,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 5. "DOUT5,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 4. "DOUT4,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 3. "DOUT3,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 2. "DOUT2,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 1. "DOUT1,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 0. "DOUT0,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
group.long 0x8C++0x03
line.long 0x00 "PC_DATMSK,PC Data Output Write Mask"
bitfld.long 0x00 15. "DATMSK15,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 14. "DATMSK14,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 13. "DATMSK13,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 12. "DATMSK12,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 11. "DATMSK11,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 10. "DATMSK10,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 9. "DATMSK9,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 8. "DATMSK8,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 7. "DATMSK7,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 6. "DATMSK6,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 5. "DATMSK5,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 4. "DATMSK4,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 3. "DATMSK3,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 2. "DATMSK2,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 1. "DATMSK1,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 0. "DATMSK0,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
group.long 0x90++0x03
line.long 0x00 "PC_PIN,PC Pin Value"
rbitfld.long 0x00 15. "PIN15,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 14. "PIN14,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 13. "PIN13,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 12. "PIN12,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 11. "PIN11,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 10. "PIN10,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 9. "PIN9,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 8. "PIN8,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 7. "PIN7,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 6. "PIN6,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 5. "PIN5,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 4. "PIN4,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 3. "PIN3,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 2. "PIN2,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 1. "PIN1,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 0. "PIN0,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
group.long 0x94++0x03
line.long 0x00 "PC_DBEN,PC De-bounce Enable Control Register"
bitfld.long 0x00 15. "DBEN15,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 14. "DBEN14,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 13. "DBEN13,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 12. "DBEN12,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 11. "DBEN11,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 10. "DBEN10,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 9. "DBEN9,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 8. "DBEN8,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 7. "DBEN7,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 6. "DBEN6,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 5. "DBEN5,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 4. "DBEN4,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 3. "DBEN3,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 2. "DBEN2,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 1. "DBEN1,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 0. "DBEN0,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
group.long 0x98++0x03
line.long 0x00 "PC_INTTYPE,PC Interrupt Trigger Type Control"
bitfld.long 0x00 15. "TYPE15,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 14. "TYPE14,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 13. "TYPE13,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 12. "TYPE12,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 11. "TYPE11,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 10. "TYPE10,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 9. "TYPE9,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 8. "TYPE8,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 7. "TYPE7,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 6. "TYPE6,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 5. "TYPE5,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 4. "TYPE4,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 3. "TYPE3,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 2. "TYPE2,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 1. "TYPE1,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 0. "TYPE0,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
group.long 0x9C++0x03
line.long 0x00 "PC_INTEN,PC Interrupt Enable Control Register"
bitfld.long 0x00 31. "RHIEN15,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 30. "RHIEN14,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 29. "RHIEN13,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 28. "RHIEN12,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 27. "RHIEN11,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 26. "RHIEN10,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 25. "RHIEN9,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 24. "RHIEN8,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 23. "RHIEN7,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 22. "RHIEN6,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 21. "RHIEN5,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 20. "RHIEN4,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 19. "RHIEN3,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 18. "RHIEN2,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 17. "RHIEN1,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 16. "RHIEN0,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 15. "FLIEN15,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 14. "FLIEN14,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 13. "FLIEN13,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 12. "FLIEN12,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 11. "FLIEN11,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 10. "FLIEN10,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 9. "FLIEN9,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 8. "FLIEN8,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 7. "FLIEN7,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 6. "FLIEN6,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 5. "FLIEN5,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 4. "FLIEN4,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 3. "FLIEN3,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 2. "FLIEN2,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 1. "FLIEN1,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 0. "FLIEN0,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
group.long 0xA0++0x03
line.long 0x00 "PC_INTSRC,PC Interrupt Source Flag"
bitfld.long 0x00 15. "INTSRC15,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 14. "INTSRC14,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 13. "INTSRC13,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 12. "INTSRC12,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 11. "INTSRC11,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 10. "INTSRC10,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 9. "INTSRC9,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 8. "INTSRC8,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 7. "INTSRC7,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 6. "INTSRC6,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 5. "INTSRC5,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 4. "INTSRC4,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 3. "INTSRC3,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 2. "INTSRC2,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 1. "INTSRC1,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 0. "INTSRC0,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
group.long 0xA4++0x03
line.long 0x00 "PC_SMTEN,PC Input Schmitt Trigger Enable Register"
bitfld.long 0x00 15. "SMTEN15,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 14. "SMTEN14,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 13. "SMTEN13,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 12. "SMTEN12,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 11. "SMTEN11,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 10. "SMTEN10,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 9. "SMTEN9,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 8. "SMTEN8,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 7. "SMTEN7,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 6. "SMTEN6,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 5. "SMTEN5,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 4. "SMTEN4,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 3. "SMTEN3,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 2. "SMTEN2,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 1. "SMTEN1,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 0. "SMTEN0,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
group.long 0xA8++0x03
line.long 0x00 "PC_SLEWCTL,PC High Slew Rate Control Register"
bitfld.long 0x00 30.--31. "HSREN15,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 28.--29. "HSREN14,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 26.--27. "HSREN13,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 24.--25. "HSREN12,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 22.--23. "HSREN11,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 20.--21. "HSREN10,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 18.--19. "HSREN9,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 16.--17. "HSREN8,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 14.--15. "HSREN7,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 12.--13. "HSREN6,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 10.--11. "HSREN5,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 8.--9. "HSREN4,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 6.--7. "HSREN3,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 4.--5. "HSREN2,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 2.--3. "HSREN1,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 0.--1. "HSREN0,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
group.long 0xB0++0x03
line.long 0x00 "PC_PUSEL,PC Pull-up and Pull-down Selection Register"
bitfld.long 0x00 30.--31. "PUSEL15,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 28.--29. "PUSEL14,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 26.--27. "PUSEL13,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 24.--25. "PUSEL12,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 22.--23. "PUSEL11,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 20.--21. "PUSEL10,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 18.--19. "PUSEL9,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 16.--17. "PUSEL8,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 14.--15. "PUSEL7,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 12.--13. "PUSEL6,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 10.--11. "PUSEL5,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 8.--9. "PUSEL4,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 6.--7. "PUSEL3,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 4.--5. "PUSEL2,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 2.--3. "PUSEL1,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 0.--1. "PUSEL0,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
group.long 0xC0++0x03
line.long 0x00 "PD_MODE,PD I/O Mode Control"
bitfld.long 0x00 30.--31. "MODE15,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 28.--29. "MODE14,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 26.--27. "MODE13,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 24.--25. "MODE12,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 22.--23. "MODE11,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 20.--21. "MODE10,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 18.--19. "MODE9,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 16.--17. "MODE8,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 14.--15. "MODE7,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 12.--13. "MODE6,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 10.--11. "MODE5,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 8.--9. "MODE4,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 6.--7. "MODE3,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 4.--5. "MODE2,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 2.--3. "MODE1,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 0.--1. "MODE0,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
group.long 0xC4++0x03
line.long 0x00 "PD_DINOFF,PD Digital Input Path Disable Control"
bitfld.long 0x00 31. "DINOFF15,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 30. "DINOFF14,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 29. "DINOFF13,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 28. "DINOFF12,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 27. "DINOFF11,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 26. "DINOFF10,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 25. "DINOFF9,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 24. "DINOFF8,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 23. "DINOFF7,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 22. "DINOFF6,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 21. "DINOFF5,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 20. "DINOFF4,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 19. "DINOFF3,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 18. "DINOFF2,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 17. "DINOFF1,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 16. "DINOFF0,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
group.long 0xC8++0x03
line.long 0x00 "PD_DOUT,PD Data Output Value"
bitfld.long 0x00 15. "DOUT15,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 14. "DOUT14,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 13. "DOUT13,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 12. "DOUT12,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 11. "DOUT11,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 10. "DOUT10,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 9. "DOUT9,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 8. "DOUT8,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 7. "DOUT7,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 6. "DOUT6,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 5. "DOUT5,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 4. "DOUT4,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 3. "DOUT3,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 2. "DOUT2,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 1. "DOUT1,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 0. "DOUT0,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
group.long 0xCC++0x03
line.long 0x00 "PD_DATMSK,PD Data Output Write Mask"
bitfld.long 0x00 15. "DATMSK15,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 14. "DATMSK14,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 13. "DATMSK13,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 12. "DATMSK12,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 11. "DATMSK11,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 10. "DATMSK10,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 9. "DATMSK9,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 8. "DATMSK8,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 7. "DATMSK7,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 6. "DATMSK6,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 5. "DATMSK5,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 4. "DATMSK4,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 3. "DATMSK3,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 2. "DATMSK2,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 1. "DATMSK1,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 0. "DATMSK0,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
group.long 0xD0++0x03
line.long 0x00 "PD_PIN,PD Pin Value"
rbitfld.long 0x00 15. "PIN15,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 14. "PIN14,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 13. "PIN13,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 12. "PIN12,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 11. "PIN11,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 10. "PIN10,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 9. "PIN9,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 8. "PIN8,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 7. "PIN7,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 6. "PIN6,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 5. "PIN5,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 4. "PIN4,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 3. "PIN3,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 2. "PIN2,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 1. "PIN1,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 0. "PIN0,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
group.long 0xD4++0x03
line.long 0x00 "PD_DBEN,PD De-bounce Enable Control Register"
bitfld.long 0x00 15. "DBEN15,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 14. "DBEN14,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 13. "DBEN13,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 12. "DBEN12,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 11. "DBEN11,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 10. "DBEN10,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 9. "DBEN9,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 8. "DBEN8,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 7. "DBEN7,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 6. "DBEN6,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 5. "DBEN5,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 4. "DBEN4,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 3. "DBEN3,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 2. "DBEN2,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 1. "DBEN1,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 0. "DBEN0,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
group.long 0xD8++0x03
line.long 0x00 "PD_INTTYPE,PD Interrupt Trigger Type Control"
bitfld.long 0x00 15. "TYPE15,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 14. "TYPE14,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 13. "TYPE13,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 12. "TYPE12,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 11. "TYPE11,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 10. "TYPE10,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 9. "TYPE9,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 8. "TYPE8,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 7. "TYPE7,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 6. "TYPE6,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 5. "TYPE5,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 4. "TYPE4,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 3. "TYPE3,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 2. "TYPE2,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 1. "TYPE1,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 0. "TYPE0,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
group.long 0xDC++0x03
line.long 0x00 "PD_INTEN,PD Interrupt Enable Control Register"
bitfld.long 0x00 31. "RHIEN15,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 30. "RHIEN14,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 29. "RHIEN13,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 28. "RHIEN12,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 27. "RHIEN11,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 26. "RHIEN10,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 25. "RHIEN9,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 24. "RHIEN8,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 23. "RHIEN7,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 22. "RHIEN6,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 21. "RHIEN5,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 20. "RHIEN4,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 19. "RHIEN3,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 18. "RHIEN2,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 17. "RHIEN1,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 16. "RHIEN0,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 15. "FLIEN15,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 14. "FLIEN14,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 13. "FLIEN13,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 12. "FLIEN12,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 11. "FLIEN11,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 10. "FLIEN10,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 9. "FLIEN9,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 8. "FLIEN8,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 7. "FLIEN7,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 6. "FLIEN6,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 5. "FLIEN5,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 4. "FLIEN4,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 3. "FLIEN3,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 2. "FLIEN2,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 1. "FLIEN1,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 0. "FLIEN0,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
group.long 0xE0++0x03
line.long 0x00 "PD_INTSRC,PD Interrupt Source Flag"
bitfld.long 0x00 15. "INTSRC15,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 14. "INTSRC14,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 13. "INTSRC13,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 12. "INTSRC12,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 11. "INTSRC11,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 10. "INTSRC10,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 9. "INTSRC9,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 8. "INTSRC8,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 7. "INTSRC7,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 6. "INTSRC6,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 5. "INTSRC5,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 4. "INTSRC4,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 3. "INTSRC3,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 2. "INTSRC2,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 1. "INTSRC1,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 0. "INTSRC0,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
group.long 0xE4++0x03
line.long 0x00 "PD_SMTEN,PD Input Schmitt Trigger Enable Register"
bitfld.long 0x00 15. "SMTEN15,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 14. "SMTEN14,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 13. "SMTEN13,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 12. "SMTEN12,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 11. "SMTEN11,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 10. "SMTEN10,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 9. "SMTEN9,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 8. "SMTEN8,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 7. "SMTEN7,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 6. "SMTEN6,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 5. "SMTEN5,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 4. "SMTEN4,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 3. "SMTEN3,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 2. "SMTEN2,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 1. "SMTEN1,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 0. "SMTEN0,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
group.long 0xE8++0x03
line.long 0x00 "PD_SLEWCTL,PD High Slew Rate Control Register"
bitfld.long 0x00 30.--31. "HSREN15,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 28.--29. "HSREN14,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 26.--27. "HSREN13,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 24.--25. "HSREN12,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 22.--23. "HSREN11,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 20.--21. "HSREN10,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 18.--19. "HSREN9,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 16.--17. "HSREN8,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 14.--15. "HSREN7,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 12.--13. "HSREN6,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 10.--11. "HSREN5,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 8.--9. "HSREN4,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 6.--7. "HSREN3,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 4.--5. "HSREN2,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 2.--3. "HSREN1,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 0.--1. "HSREN0,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
group.long 0xF0++0x03
line.long 0x00 "PD_PUSEL,PD Pull-up and Pull-down Selection Register"
bitfld.long 0x00 30.--31. "PUSEL15,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 28.--29. "PUSEL14,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 26.--27. "PUSEL13,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 24.--25. "PUSEL12,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 22.--23. "PUSEL11,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 20.--21. "PUSEL10,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 18.--19. "PUSEL9,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 16.--17. "PUSEL8,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 14.--15. "PUSEL7,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 12.--13. "PUSEL6,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 10.--11. "PUSEL5,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 8.--9. "PUSEL4,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 6.--7. "PUSEL3,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 4.--5. "PUSEL2,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 2.--3. "PUSEL1,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 0.--1. "PUSEL0,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
group.long 0x100++0x03
line.long 0x00 "PE_MODE,PE I/O Mode Control"
bitfld.long 0x00 30.--31. "MODE15,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 28.--29. "MODE14,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 26.--27. "MODE13,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 24.--25. "MODE12,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 22.--23. "MODE11,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 20.--21. "MODE10,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 18.--19. "MODE9,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 16.--17. "MODE8,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 14.--15. "MODE7,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 12.--13. "MODE6,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 10.--11. "MODE5,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 8.--9. "MODE4,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 6.--7. "MODE3,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 4.--5. "MODE2,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 2.--3. "MODE1,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 0.--1. "MODE0,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
group.long 0x104++0x03
line.long 0x00 "PE_DINOFF,PE Digital Input Path Disable Control"
bitfld.long 0x00 31. "DINOFF15,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 30. "DINOFF14,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 29. "DINOFF13,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 28. "DINOFF12,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 27. "DINOFF11,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 26. "DINOFF10,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 25. "DINOFF9,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 24. "DINOFF8,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 23. "DINOFF7,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 22. "DINOFF6,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 21. "DINOFF5,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 20. "DINOFF4,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 19. "DINOFF3,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 18. "DINOFF2,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 17. "DINOFF1,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 16. "DINOFF0,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
group.long 0x108++0x03
line.long 0x00 "PE_DOUT,PE Data Output Value"
bitfld.long 0x00 15. "DOUT15,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 14. "DOUT14,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 13. "DOUT13,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 12. "DOUT12,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 11. "DOUT11,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 10. "DOUT10,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 9. "DOUT9,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 8. "DOUT8,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 7. "DOUT7,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 6. "DOUT6,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 5. "DOUT5,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 4. "DOUT4,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 3. "DOUT3,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 2. "DOUT2,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 1. "DOUT1,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 0. "DOUT0,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
group.long 0x10C++0x03
line.long 0x00 "PE_DATMSK,PE Data Output Write Mask"
bitfld.long 0x00 15. "DATMSK15,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 14. "DATMSK14,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 13. "DATMSK13,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 12. "DATMSK12,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 11. "DATMSK11,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 10. "DATMSK10,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 9. "DATMSK9,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 8. "DATMSK8,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 7. "DATMSK7,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 6. "DATMSK6,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 5. "DATMSK5,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 4. "DATMSK4,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 3. "DATMSK3,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 2. "DATMSK2,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 1. "DATMSK1,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 0. "DATMSK0,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
group.long 0x110++0x03
line.long 0x00 "PE_PIN,PE Pin Value"
rbitfld.long 0x00 15. "PIN15,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 14. "PIN14,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 13. "PIN13,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 12. "PIN12,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 11. "PIN11,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 10. "PIN10,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 9. "PIN9,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 8. "PIN8,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 7. "PIN7,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 6. "PIN6,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 5. "PIN5,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 4. "PIN4,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 3. "PIN3,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 2. "PIN2,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 1. "PIN1,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 0. "PIN0,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
group.long 0x114++0x03
line.long 0x00 "PE_DBEN,PE De-bounce Enable Control Register"
bitfld.long 0x00 15. "DBEN15,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 14. "DBEN14,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 13. "DBEN13,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 12. "DBEN12,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 11. "DBEN11,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 10. "DBEN10,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 9. "DBEN9,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 8. "DBEN8,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 7. "DBEN7,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 6. "DBEN6,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 5. "DBEN5,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 4. "DBEN4,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 3. "DBEN3,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 2. "DBEN2,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 1. "DBEN1,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 0. "DBEN0,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
group.long 0x118++0x03
line.long 0x00 "PE_INTTYPE,PE Interrupt Trigger Type Control"
bitfld.long 0x00 15. "TYPE15,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 14. "TYPE14,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 13. "TYPE13,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 12. "TYPE12,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 11. "TYPE11,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 10. "TYPE10,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 9. "TYPE9,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 8. "TYPE8,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 7. "TYPE7,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 6. "TYPE6,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 5. "TYPE5,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 4. "TYPE4,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 3. "TYPE3,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 2. "TYPE2,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 1. "TYPE1,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 0. "TYPE0,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
group.long 0x11C++0x03
line.long 0x00 "PE_INTEN,PE Interrupt Enable Control Register"
bitfld.long 0x00 31. "RHIEN15,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 30. "RHIEN14,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 29. "RHIEN13,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 28. "RHIEN12,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 27. "RHIEN11,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 26. "RHIEN10,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 25. "RHIEN9,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 24. "RHIEN8,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 23. "RHIEN7,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 22. "RHIEN6,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 21. "RHIEN5,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 20. "RHIEN4,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 19. "RHIEN3,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 18. "RHIEN2,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 17. "RHIEN1,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 16. "RHIEN0,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 15. "FLIEN15,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 14. "FLIEN14,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 13. "FLIEN13,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 12. "FLIEN12,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 11. "FLIEN11,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 10. "FLIEN10,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 9. "FLIEN9,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 8. "FLIEN8,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 7. "FLIEN7,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 6. "FLIEN6,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 5. "FLIEN5,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 4. "FLIEN4,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 3. "FLIEN3,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 2. "FLIEN2,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 1. "FLIEN1,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 0. "FLIEN0,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
group.long 0x120++0x03
line.long 0x00 "PE_INTSRC,PE Interrupt Source Flag"
bitfld.long 0x00 15. "INTSRC15,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 14. "INTSRC14,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 13. "INTSRC13,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 12. "INTSRC12,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 11. "INTSRC11,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 10. "INTSRC10,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 9. "INTSRC9,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 8. "INTSRC8,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 7. "INTSRC7,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 6. "INTSRC6,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 5. "INTSRC5,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 4. "INTSRC4,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 3. "INTSRC3,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 2. "INTSRC2,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 1. "INTSRC1,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 0. "INTSRC0,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
group.long 0x124++0x03
line.long 0x00 "PE_SMTEN,PE Input Schmitt Trigger Enable Register"
bitfld.long 0x00 15. "SMTEN15,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 14. "SMTEN14,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 13. "SMTEN13,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 12. "SMTEN12,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 11. "SMTEN11,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 10. "SMTEN10,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 9. "SMTEN9,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 8. "SMTEN8,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 7. "SMTEN7,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 6. "SMTEN6,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 5. "SMTEN5,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 4. "SMTEN4,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 3. "SMTEN3,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 2. "SMTEN2,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 1. "SMTEN1,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 0. "SMTEN0,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
group.long 0x128++0x03
line.long 0x00 "PE_SLEWCTL,PE High Slew Rate Control Register"
bitfld.long 0x00 30.--31. "HSREN15,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 28.--29. "HSREN14,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 26.--27. "HSREN13,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 24.--25. "HSREN12,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 22.--23. "HSREN11,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 20.--21. "HSREN10,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 18.--19. "HSREN9,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 16.--17. "HSREN8,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 14.--15. "HSREN7,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 12.--13. "HSREN6,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 10.--11. "HSREN5,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 8.--9. "HSREN4,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 6.--7. "HSREN3,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 4.--5. "HSREN2,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 2.--3. "HSREN1,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 0.--1. "HSREN0,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
group.long 0x130++0x03
line.long 0x00 "PE_PUSEL,PE Pull-up and Pull-down Selection Register"
bitfld.long 0x00 30.--31. "PUSEL15,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 28.--29. "PUSEL14,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 26.--27. "PUSEL13,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 24.--25. "PUSEL12,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 22.--23. "PUSEL11,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 20.--21. "PUSEL10,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 18.--19. "PUSEL9,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 16.--17. "PUSEL8,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 14.--15. "PUSEL7,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 12.--13. "PUSEL6,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 10.--11. "PUSEL5,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 8.--9. "PUSEL4,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 6.--7. "PUSEL3,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 4.--5. "PUSEL2,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 2.--3. "PUSEL1,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 0.--1. "PUSEL0,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
group.long 0x140++0x03
line.long 0x00 "PF_MODE,PF I/O Mode Control"
bitfld.long 0x00 30.--31. "MODE15,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 28.--29. "MODE14,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 26.--27. "MODE13,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 24.--25. "MODE12,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 22.--23. "MODE11,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 20.--21. "MODE10,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 18.--19. "MODE9,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 16.--17. "MODE8,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 14.--15. "MODE7,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 12.--13. "MODE6,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 10.--11. "MODE5,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 8.--9. "MODE4,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 6.--7. "MODE3,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 4.--5. "MODE2,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 2.--3. "MODE1,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 0.--1. "MODE0,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
group.long 0x144++0x03
line.long 0x00 "PF_DINOFF,PF Digital Input Path Disable Control"
bitfld.long 0x00 31. "DINOFF15,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 30. "DINOFF14,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 29. "DINOFF13,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 28. "DINOFF12,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 27. "DINOFF11,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 26. "DINOFF10,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 25. "DINOFF9,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 24. "DINOFF8,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 23. "DINOFF7,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 22. "DINOFF6,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 21. "DINOFF5,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 20. "DINOFF4,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 19. "DINOFF3,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 18. "DINOFF2,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 17. "DINOFF1,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 16. "DINOFF0,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
group.long 0x148++0x03
line.long 0x00 "PF_DOUT,PF Data Output Value"
bitfld.long 0x00 15. "DOUT15,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 14. "DOUT14,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 13. "DOUT13,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 12. "DOUT12,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 11. "DOUT11,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 10. "DOUT10,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 9. "DOUT9,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 8. "DOUT8,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 7. "DOUT7,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 6. "DOUT6,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 5. "DOUT5,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 4. "DOUT4,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 3. "DOUT3,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 2. "DOUT2,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 1. "DOUT1,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 0. "DOUT0,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
group.long 0x14C++0x03
line.long 0x00 "PF_DATMSK,PF Data Output Write Mask"
bitfld.long 0x00 15. "DATMSK15,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 14. "DATMSK14,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 13. "DATMSK13,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 12. "DATMSK12,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 11. "DATMSK11,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 10. "DATMSK10,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 9. "DATMSK9,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 8. "DATMSK8,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 7. "DATMSK7,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 6. "DATMSK6,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 5. "DATMSK5,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 4. "DATMSK4,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 3. "DATMSK3,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 2. "DATMSK2,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 1. "DATMSK1,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 0. "DATMSK0,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
group.long 0x150++0x03
line.long 0x00 "PF_PIN,PF Pin Value"
rbitfld.long 0x00 15. "PIN15,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 14. "PIN14,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 13. "PIN13,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 12. "PIN12,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 11. "PIN11,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 10. "PIN10,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 9. "PIN9,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 8. "PIN8,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 7. "PIN7,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 6. "PIN6,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 5. "PIN5,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 4. "PIN4,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 3. "PIN3,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 2. "PIN2,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 1. "PIN1,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 0. "PIN0,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
group.long 0x154++0x03
line.long 0x00 "PF_DBEN,PF De-bounce Enable Control Register"
bitfld.long 0x00 15. "DBEN15,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 14. "DBEN14,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 13. "DBEN13,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 12. "DBEN12,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 11. "DBEN11,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 10. "DBEN10,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 9. "DBEN9,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 8. "DBEN8,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 7. "DBEN7,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 6. "DBEN6,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 5. "DBEN5,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 4. "DBEN4,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 3. "DBEN3,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 2. "DBEN2,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 1. "DBEN1,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 0. "DBEN0,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
group.long 0x158++0x03
line.long 0x00 "PF_INTTYPE,PF Interrupt Trigger Type Control"
bitfld.long 0x00 15. "TYPE15,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 14. "TYPE14,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 13. "TYPE13,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 12. "TYPE12,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 11. "TYPE11,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 10. "TYPE10,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 9. "TYPE9,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 8. "TYPE8,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 7. "TYPE7,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 6. "TYPE6,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 5. "TYPE5,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 4. "TYPE4,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 3. "TYPE3,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 2. "TYPE2,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 1. "TYPE1,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 0. "TYPE0,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
group.long 0x15C++0x03
line.long 0x00 "PF_INTEN,PF Interrupt Enable Control Register"
bitfld.long 0x00 31. "RHIEN15,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 30. "RHIEN14,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 29. "RHIEN13,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 28. "RHIEN12,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 27. "RHIEN11,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 26. "RHIEN10,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 25. "RHIEN9,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 24. "RHIEN8,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 23. "RHIEN7,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 22. "RHIEN6,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 21. "RHIEN5,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 20. "RHIEN4,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 19. "RHIEN3,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 18. "RHIEN2,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 17. "RHIEN1,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 16. "RHIEN0,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 15. "FLIEN15,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 14. "FLIEN14,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 13. "FLIEN13,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 12. "FLIEN12,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 11. "FLIEN11,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 10. "FLIEN10,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 9. "FLIEN9,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 8. "FLIEN8,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 7. "FLIEN7,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 6. "FLIEN6,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 5. "FLIEN5,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 4. "FLIEN4,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 3. "FLIEN3,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 2. "FLIEN2,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 1. "FLIEN1,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 0. "FLIEN0,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
group.long 0x160++0x03
line.long 0x00 "PF_INTSRC,PF Interrupt Source Flag"
bitfld.long 0x00 15. "INTSRC15,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 14. "INTSRC14,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 13. "INTSRC13,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 12. "INTSRC12,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 11. "INTSRC11,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 10. "INTSRC10,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 9. "INTSRC9,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 8. "INTSRC8,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 7. "INTSRC7,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 6. "INTSRC6,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 5. "INTSRC5,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 4. "INTSRC4,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 3. "INTSRC3,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 2. "INTSRC2,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 1. "INTSRC1,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 0. "INTSRC0,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
group.long 0x164++0x03
line.long 0x00 "PF_SMTEN,PF Input Schmitt Trigger Enable Register"
bitfld.long 0x00 15. "SMTEN15,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 14. "SMTEN14,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 13. "SMTEN13,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 12. "SMTEN12,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 11. "SMTEN11,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 10. "SMTEN10,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 9. "SMTEN9,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 8. "SMTEN8,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 7. "SMTEN7,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 6. "SMTEN6,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 5. "SMTEN5,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 4. "SMTEN4,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 3. "SMTEN3,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 2. "SMTEN2,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 1. "SMTEN1,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 0. "SMTEN0,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
group.long 0x168++0x03
line.long 0x00 "PF_SLEWCTL,PF High Slew Rate Control Register"
bitfld.long 0x00 30.--31. "HSREN15,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 28.--29. "HSREN14,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 26.--27. "HSREN13,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 24.--25. "HSREN12,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 22.--23. "HSREN11,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 20.--21. "HSREN10,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 18.--19. "HSREN9,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 16.--17. "HSREN8,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 14.--15. "HSREN7,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 12.--13. "HSREN6,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 10.--11. "HSREN5,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 8.--9. "HSREN4,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 6.--7. "HSREN3,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 4.--5. "HSREN2,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 2.--3. "HSREN1,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 0.--1. "HSREN0,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
group.long 0x170++0x03
line.long 0x00 "PF_PUSEL,PF Pull-up and Pull-down Selection Register"
bitfld.long 0x00 30.--31. "PUSEL15,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 28.--29. "PUSEL14,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 26.--27. "PUSEL13,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 24.--25. "PUSEL12,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 22.--23. "PUSEL11,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 20.--21. "PUSEL10,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 18.--19. "PUSEL9,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 16.--17. "PUSEL8,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 14.--15. "PUSEL7,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 12.--13. "PUSEL6,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 10.--11. "PUSEL5,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 8.--9. "PUSEL4,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 6.--7. "PUSEL3,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 4.--5. "PUSEL2,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 2.--3. "PUSEL1,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 0.--1. "PUSEL0,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
group.long 0x180++0x03
line.long 0x00 "PG_MODE,PG I/O Mode Control"
bitfld.long 0x00 30.--31. "MODE15,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 28.--29. "MODE14,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 26.--27. "MODE13,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 24.--25. "MODE12,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 22.--23. "MODE11,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 20.--21. "MODE10,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 18.--19. "MODE9,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 16.--17. "MODE8,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 14.--15. "MODE7,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 12.--13. "MODE6,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 10.--11. "MODE5,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 8.--9. "MODE4,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 6.--7. "MODE3,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 4.--5. "MODE2,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 2.--3. "MODE1,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 0.--1. "MODE0,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
group.long 0x184++0x03
line.long 0x00 "PG_DINOFF,PG Digital Input Path Disable Control"
bitfld.long 0x00 31. "DINOFF15,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 30. "DINOFF14,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 29. "DINOFF13,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 28. "DINOFF12,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 27. "DINOFF11,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 26. "DINOFF10,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 25. "DINOFF9,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 24. "DINOFF8,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 23. "DINOFF7,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 22. "DINOFF6,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 21. "DINOFF5,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 20. "DINOFF4,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 19. "DINOFF3,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 18. "DINOFF2,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 17. "DINOFF1,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 16. "DINOFF0,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
group.long 0x188++0x03
line.long 0x00 "PG_DOUT,PG Data Output Value"
bitfld.long 0x00 15. "DOUT15,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 14. "DOUT14,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 13. "DOUT13,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 12. "DOUT12,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 11. "DOUT11,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 10. "DOUT10,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 9. "DOUT9,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 8. "DOUT8,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 7. "DOUT7,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 6. "DOUT6,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 5. "DOUT5,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 4. "DOUT4,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 3. "DOUT3,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 2. "DOUT2,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 1. "DOUT1,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 0. "DOUT0,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
group.long 0x18C++0x03
line.long 0x00 "PG_DATMSK,PG Data Output Write Mask"
bitfld.long 0x00 15. "DATMSK15,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 14. "DATMSK14,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 13. "DATMSK13,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 12. "DATMSK12,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 11. "DATMSK11,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 10. "DATMSK10,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 9. "DATMSK9,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 8. "DATMSK8,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 7. "DATMSK7,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 6. "DATMSK6,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 5. "DATMSK5,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 4. "DATMSK4,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 3. "DATMSK3,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 2. "DATMSK2,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 1. "DATMSK1,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 0. "DATMSK0,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
group.long 0x190++0x03
line.long 0x00 "PG_PIN,PG Pin Value"
rbitfld.long 0x00 15. "PIN15,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 14. "PIN14,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 13. "PIN13,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 12. "PIN12,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 11. "PIN11,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 10. "PIN10,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 9. "PIN9,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 8. "PIN8,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 7. "PIN7,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 6. "PIN6,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 5. "PIN5,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 4. "PIN4,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 3. "PIN3,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 2. "PIN2,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 1. "PIN1,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 0. "PIN0,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
group.long 0x194++0x03
line.long 0x00 "PG_DBEN,PG De-bounce Enable Control Register"
bitfld.long 0x00 15. "DBEN15,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 14. "DBEN14,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 13. "DBEN13,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 12. "DBEN12,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 11. "DBEN11,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 10. "DBEN10,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 9. "DBEN9,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 8. "DBEN8,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 7. "DBEN7,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 6. "DBEN6,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 5. "DBEN5,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 4. "DBEN4,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 3. "DBEN3,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 2. "DBEN2,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 1. "DBEN1,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 0. "DBEN0,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
group.long 0x198++0x03
line.long 0x00 "PG_INTTYPE,PG Interrupt Trigger Type Control"
bitfld.long 0x00 15. "TYPE15,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 14. "TYPE14,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 13. "TYPE13,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 12. "TYPE12,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 11. "TYPE11,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 10. "TYPE10,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 9. "TYPE9,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 8. "TYPE8,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 7. "TYPE7,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 6. "TYPE6,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 5. "TYPE5,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 4. "TYPE4,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 3. "TYPE3,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 2. "TYPE2,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 1. "TYPE1,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 0. "TYPE0,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
group.long 0x19C++0x03
line.long 0x00 "PG_INTEN,PG Interrupt Enable Control Register"
bitfld.long 0x00 31. "RHIEN15,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 30. "RHIEN14,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 29. "RHIEN13,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 28. "RHIEN12,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 27. "RHIEN11,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 26. "RHIEN10,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 25. "RHIEN9,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 24. "RHIEN8,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 23. "RHIEN7,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 22. "RHIEN6,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 21. "RHIEN5,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 20. "RHIEN4,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 19. "RHIEN3,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 18. "RHIEN2,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 17. "RHIEN1,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 16. "RHIEN0,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 15. "FLIEN15,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 14. "FLIEN14,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 13. "FLIEN13,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 12. "FLIEN12,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 11. "FLIEN11,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 10. "FLIEN10,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 9. "FLIEN9,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 8. "FLIEN8,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 7. "FLIEN7,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 6. "FLIEN6,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 5. "FLIEN5,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 4. "FLIEN4,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 3. "FLIEN3,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 2. "FLIEN2,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 1. "FLIEN1,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 0. "FLIEN0,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
group.long 0x1A0++0x03
line.long 0x00 "PG_INTSRC,PG Interrupt Source Flag"
bitfld.long 0x00 15. "INTSRC15,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 14. "INTSRC14,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 13. "INTSRC13,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 12. "INTSRC12,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 11. "INTSRC11,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 10. "INTSRC10,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 9. "INTSRC9,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 8. "INTSRC8,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 7. "INTSRC7,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 6. "INTSRC6,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 5. "INTSRC5,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 4. "INTSRC4,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 3. "INTSRC3,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 2. "INTSRC2,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 1. "INTSRC1,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 0. "INTSRC0,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
group.long 0x1A4++0x03
line.long 0x00 "PG_SMTEN,PG Input Schmitt Trigger Enable Register"
bitfld.long 0x00 15. "SMTEN15,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 14. "SMTEN14,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 13. "SMTEN13,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 12. "SMTEN12,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 11. "SMTEN11,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 10. "SMTEN10,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 9. "SMTEN9,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 8. "SMTEN8,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 7. "SMTEN7,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 6. "SMTEN6,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 5. "SMTEN5,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 4. "SMTEN4,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 3. "SMTEN3,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 2. "SMTEN2,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 1. "SMTEN1,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 0. "SMTEN0,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
group.long 0x1A8++0x03
line.long 0x00 "PG_SLEWCTL,PG High Slew Rate Control Register"
bitfld.long 0x00 30.--31. "HSREN15,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 28.--29. "HSREN14,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 26.--27. "HSREN13,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 24.--25. "HSREN12,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 22.--23. "HSREN11,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 20.--21. "HSREN10,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 18.--19. "HSREN9,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 16.--17. "HSREN8,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 14.--15. "HSREN7,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 12.--13. "HSREN6,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 10.--11. "HSREN5,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 8.--9. "HSREN4,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 6.--7. "HSREN3,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 4.--5. "HSREN2,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 2.--3. "HSREN1,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 0.--1. "HSREN0,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
group.long 0x1B0++0x03
line.long 0x00 "PG_PUSEL,PG Pull-up and Pull-down Selection Register"
bitfld.long 0x00 30.--31. "PUSEL15,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 28.--29. "PUSEL14,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 26.--27. "PUSEL13,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 24.--25. "PUSEL12,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 22.--23. "PUSEL11,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 20.--21. "PUSEL10,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 18.--19. "PUSEL9,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 16.--17. "PUSEL8,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 14.--15. "PUSEL7,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 12.--13. "PUSEL6,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 10.--11. "PUSEL5,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 8.--9. "PUSEL4,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 6.--7. "PUSEL3,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 4.--5. "PUSEL2,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 2.--3. "PUSEL1,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 0.--1. "PUSEL0,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
group.long 0x1C0++0x03
line.long 0x00 "PH_MODE,PH I/O Mode Control"
bitfld.long 0x00 30.--31. "MODE15,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 28.--29. "MODE14,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 26.--27. "MODE13,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 24.--25. "MODE12,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 22.--23. "MODE11,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 20.--21. "MODE10,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 18.--19. "MODE9,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 16.--17. "MODE8,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 14.--15. "MODE7,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 12.--13. "MODE6,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 10.--11. "MODE5,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 8.--9. "MODE4,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 6.--7. "MODE3,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 4.--5. "MODE2,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
newline
bitfld.long 0x00 2.--3. "MODE1,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
bitfld.long 0x00 0.--1. "MODE0,Port A-H I/O Pin[n] Mode Control\nDetermine each I/O mode of Px.n pins" "0: Px.n is in Input mode,1: Px.n is in Push-pull Output mode,2: Px.n is in Open-drain Output mode,3: Px.n is in Quasi-bidirectional mode"
group.long 0x1C4++0x03
line.long 0x00 "PH_DINOFF,PH Digital Input Path Disable Control"
bitfld.long 0x00 31. "DINOFF15,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 30. "DINOFF14,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 29. "DINOFF13,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 28. "DINOFF12,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 27. "DINOFF11,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 26. "DINOFF10,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 25. "DINOFF9,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 24. "DINOFF8,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 23. "DINOFF7,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 22. "DINOFF6,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 21. "DINOFF5,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 20. "DINOFF4,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 19. "DINOFF3,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 18. "DINOFF2,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
newline
bitfld.long 0x00 17. "DINOFF1,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
bitfld.long 0x00 16. "DINOFF0,Port A-H Pin[n] Digital Input Path Disable Bit\nEach of these bits is used to control if the digital input path of corresponding Px.n pin is disabled" "0: Px.n digital input path Enabled,1: Px.n digital input path Disabled (digital.."
group.long 0x1C8++0x03
line.long 0x00 "PH_DOUT,PH Data Output Value"
bitfld.long 0x00 15. "DOUT15,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 14. "DOUT14,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 13. "DOUT13,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 12. "DOUT12,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 11. "DOUT11,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 10. "DOUT10,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 9. "DOUT9,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 8. "DOUT8,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 7. "DOUT7,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 6. "DOUT6,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 5. "DOUT5,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 4. "DOUT4,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 3. "DOUT3,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 2. "DOUT2,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
newline
bitfld.long 0x00 1. "DOUT1,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
bitfld.long 0x00 0. "DOUT0,Port A-H Pin[n] Output Value\nEach of these bits controls the status of a Px.n pin when the Px.n is configured as Push-pull output Open-drain output or Quasi-bidirectional mode" "0: Px.n will drive Low if the Px.n pin is..,1: Px.n will drive High if the Px.n pin is.."
group.long 0x1CC++0x03
line.long 0x00 "PH_DATMSK,PH Data Output Write Mask"
bitfld.long 0x00 15. "DATMSK15,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 14. "DATMSK14,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 13. "DATMSK13,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 12. "DATMSK12,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 11. "DATMSK11,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 10. "DATMSK10,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 9. "DATMSK9,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 8. "DATMSK8,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 7. "DATMSK7,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 6. "DATMSK6,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 5. "DATMSK5,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 4. "DATMSK4,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 3. "DATMSK3,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 2. "DATMSK2,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
newline
bitfld.long 0x00 1. "DATMSK1,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
bitfld.long 0x00 0. "DATMSK0,Port A-H Pin[n] Data Output Write Mask\nThese bits are used to protect the corresponding DOUT (Px_DOUT[n]) bit" "0: Corresponding DOUT (Px_DOUT[n]) bit can be..,1: Corresponding DOUT (Px_DOUT[n]) bit protected"
group.long 0x1D0++0x03
line.long 0x00 "PH_PIN,PH Pin Value"
rbitfld.long 0x00 15. "PIN15,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 14. "PIN14,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 13. "PIN13,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 12. "PIN12,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 11. "PIN11,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 10. "PIN10,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 9. "PIN9,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 8. "PIN8,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 7. "PIN7,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 6. "PIN6,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 5. "PIN5,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 4. "PIN4,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 3. "PIN3,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 2. "PIN2,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
newline
rbitfld.long 0x00 1. "PIN1,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
rbitfld.long 0x00 0. "PIN0,Port A-H Pin[n] Pin Value\nEach bit of the register reflects the actual status of the respective Px.n pin" "0,1"
group.long 0x1D4++0x03
line.long 0x00 "PH_DBEN,PH De-bounce Enable Control Register"
bitfld.long 0x00 15. "DBEN15,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 14. "DBEN14,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 13. "DBEN13,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 12. "DBEN12,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 11. "DBEN11,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 10. "DBEN10,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 9. "DBEN9,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 8. "DBEN8,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 7. "DBEN7,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 6. "DBEN6,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 5. "DBEN5,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 4. "DBEN4,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 3. "DBEN3,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 2. "DBEN2,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
newline
bitfld.long 0x00 1. "DBEN1,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
bitfld.long 0x00 0. "DBEN0,Port A-H Pin[n] Input Signal De-bounce Enable Bit\nThe DBEN[n] bit is used to enable the de-bounce function for each corresponding bit" "0: Px.n de-bounce function Disabled,1: Px.n de-bounce function Enabled"
group.long 0x1D8++0x03
line.long 0x00 "PH_INTTYPE,PH Interrupt Trigger Type Control"
bitfld.long 0x00 15. "TYPE15,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 14. "TYPE14,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 13. "TYPE13,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 12. "TYPE12,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 11. "TYPE11,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 10. "TYPE10,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 9. "TYPE9,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 8. "TYPE8,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 7. "TYPE7,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 6. "TYPE6,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 5. "TYPE5,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 4. "TYPE4,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 3. "TYPE3,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 2. "TYPE2,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
newline
bitfld.long 0x00 1. "TYPE1,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
bitfld.long 0x00 0. "TYPE0,Port A-H Pin[n] Edge or Level Detection Interrupt Trigger Type Control\nTYPE (Px_INTTYPE[n]) bit is used to control the triggered interrupt is by level trigger or by edge trigger" "0: Edge trigger interrupt,1: Level trigger interrupt"
group.long 0x1DC++0x03
line.long 0x00 "PH_INTEN,PH Interrupt Enable Control Register"
bitfld.long 0x00 31. "RHIEN15,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 30. "RHIEN14,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 29. "RHIEN13,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 28. "RHIEN12,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 27. "RHIEN11,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 26. "RHIEN10,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 25. "RHIEN9,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 24. "RHIEN8,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 23. "RHIEN7,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 22. "RHIEN6,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 21. "RHIEN5,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 20. "RHIEN4,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 19. "RHIEN3,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 18. "RHIEN2,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 17. "RHIEN1,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
bitfld.long 0x00 16. "RHIEN0,Port A-H Pin[n] Rising Edge or High Level Interrupt Trigger Type Enable Bit\nThe RHIEN (Px_INTEN[n+16]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level high or low to high interrupt..,1: Px.n level high or low to high interrupt.."
newline
bitfld.long 0x00 15. "FLIEN15,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 14. "FLIEN14,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 13. "FLIEN13,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 12. "FLIEN12,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 11. "FLIEN11,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 10. "FLIEN10,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 9. "FLIEN9,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 8. "FLIEN8,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 7. "FLIEN7,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 6. "FLIEN6,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 5. "FLIEN5,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 4. "FLIEN4,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 3. "FLIEN3,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 2. "FLIEN2,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
newline
bitfld.long 0x00 1. "FLIEN1,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
bitfld.long 0x00 0. "FLIEN0,Port A-H Pin[n] Falling Edge or Low Level Interrupt Trigger Type Enable Bit\nThe FLIEN (Px_INTEN[n]) bit is used to enable the interrupt for each of the corresponding input Px.n pin" "0: Px.n level low or high to low interrupt..,1: Px.n level low or high to low interrupt Enabled"
group.long 0x1E0++0x03
line.long 0x00 "PH_INTSRC,PH Interrupt Source Flag"
bitfld.long 0x00 15. "INTSRC15,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 14. "INTSRC14,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 13. "INTSRC13,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 12. "INTSRC12,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 11. "INTSRC11,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 10. "INTSRC10,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 9. "INTSRC9,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 8. "INTSRC8,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 7. "INTSRC7,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 6. "INTSRC6,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 5. "INTSRC5,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 4. "INTSRC4,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 3. "INTSRC3,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 2. "INTSRC2,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
newline
bitfld.long 0x00 1. "INTSRC1,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
bitfld.long 0x00 0. "INTSRC0,Port A-H Pin[n] Interrupt Source Flag\nWrite Operation" "0: No action.\nNo interrupt at Px.n,1: Clear the corresponding pending.."
group.long 0x1E4++0x03
line.long 0x00 "PH_SMTEN,PH Input Schmitt Trigger Enable Register"
bitfld.long 0x00 15. "SMTEN15,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 14. "SMTEN14,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 13. "SMTEN13,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 12. "SMTEN12,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 11. "SMTEN11,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 10. "SMTEN10,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 9. "SMTEN9,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 8. "SMTEN8,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 7. "SMTEN7,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 6. "SMTEN6,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 5. "SMTEN5,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 4. "SMTEN4,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 3. "SMTEN3,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 2. "SMTEN2,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
newline
bitfld.long 0x00 1. "SMTEN1,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
bitfld.long 0x00 0. "SMTEN0,Port A-H Pin[n] Input Schmitt Trigger Enable Bit" "0: Px.n input schmitt trigger function Disabled,1: Px.n input schmitt trigger function Enabled"
group.long 0x1E8++0x03
line.long 0x00 "PH_SLEWCTL,PH High Slew Rate Control Register"
bitfld.long 0x00 30.--31. "HSREN15,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 28.--29. "HSREN14,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 26.--27. "HSREN13,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 24.--25. "HSREN12,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 22.--23. "HSREN11,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 20.--21. "HSREN10,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 18.--19. "HSREN9,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 16.--17. "HSREN8,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 14.--15. "HSREN7,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 12.--13. "HSREN6,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 10.--11. "HSREN5,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 8.--9. "HSREN4,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 6.--7. "HSREN3,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 4.--5. "HSREN2,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
newline
bitfld.long 0x00 2.--3. "HSREN1,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
bitfld.long 0x00 0.--1. "HSREN0,Port A-H Pin[n] High Slew Rate Control" "0: Px.n output with normal slew rate mode..,1: Px.n output with high slew rate mode (maximum..,2: Px.n output with fast slew rate mode (maximum..,3: Reserved"
group.long 0x1F0++0x03
line.long 0x00 "PH_PUSEL,PH Pull-up and Pull-down Selection Register"
bitfld.long 0x00 30.--31. "PUSEL15,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 28.--29. "PUSEL14,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 26.--27. "PUSEL13,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 24.--25. "PUSEL12,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 22.--23. "PUSEL11,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 20.--21. "PUSEL10,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 18.--19. "PUSEL9,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 16.--17. "PUSEL8,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 14.--15. "PUSEL7,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 12.--13. "PUSEL6,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 10.--11. "PUSEL5,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 8.--9. "PUSEL4,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 6.--7. "PUSEL3,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 4.--5. "PUSEL2,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
newline
bitfld.long 0x00 2.--3. "PUSEL1,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
bitfld.long 0x00 0.--1. "PUSEL0,Port A-H Pin[n] Pull-up and Pull-down Enable Register\nDetermine each I/O Pull-up/pull-down of Px.n pins" "0: Px.n pull-up and pull-down disable,1: Px.n pull-up enable,2: Px.n pull-down enable,3: Reserved"
group.long 0x440++0x03
line.long 0x00 "GPIO_DBCTL,Interrupt De-bounce Control Register"
bitfld.long 0x00 5. "ICLKON,Interrupt Clock on Mode" "0: Edge detection circuit is active only if I/O..,1: All I/O pins edge detection circuit is always.."
bitfld.long 0x00 4. "DBCLKSRC,De-bounce Counter Clock Source Selection" "0: De-bounce counter clock source is the HCLK,1: De-bounce counter clock source is the 10 kHz.."
newline
bitfld.long 0x00 0.--3. "DBCLKSEL,De-bounce Sampling Cycle Selection" "0: Sample interrupt input once per 1 clocks,1: Sample interrupt input once per 2 clocks,2: Sample interrupt input once per 4 clocks,3: Sample interrupt input once per 8 clocks,4: Sample interrupt input once per 16 clocks,5: Sample interrupt input once per 32 clocks,6: Sample interrupt input once per 64 clocks,7: Sample interrupt input once per 128 clocks,8: Sample interrupt input once per 256 clocks,9: Sample interrupt input once per 2*256 clocks,10: Sample interrupt input once per 4*256 clocks,11: Sample interrupt input once per 8*256 clocks,12: Sample interrupt input once per 16*256 clocks,13: Sample interrupt input once per 32*256 clocks,14: Sample interrupt input once per 64*256 clocks,15: Sample interrupt input once per 128*256 clocks"
group.long 0x800++0x03
line.long 0x00 "PA0_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x804++0x03
line.long 0x00 "PA1_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x808++0x03
line.long 0x00 "PA2_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x80C++0x03
line.long 0x00 "PA3_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x810++0x03
line.long 0x00 "PA4_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x814++0x03
line.long 0x00 "PA5_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x818++0x03
line.long 0x00 "PA6_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x81C++0x03
line.long 0x00 "PA7_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x820++0x03
line.long 0x00 "PA8_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x824++0x03
line.long 0x00 "PA9_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x828++0x03
line.long 0x00 "PA10_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x82C++0x03
line.long 0x00 "PA11_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x830++0x03
line.long 0x00 "PA12_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x834++0x03
line.long 0x00 "PA13_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x838++0x03
line.long 0x00 "PA14_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x83C++0x03
line.long 0x00 "PA15_PDIO,GPIO PA.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x840++0x03
line.long 0x00 "PB0_PDIO,GPIO PB.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x844++0x03
line.long 0x00 "PB1_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x848++0x03
line.long 0x00 "PB2_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x84C++0x03
line.long 0x00 "PB3_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x850++0x03
line.long 0x00 "PB4_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x854++0x03
line.long 0x00 "PB5_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x858++0x03
line.long 0x00 "PB6_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x85C++0x03
line.long 0x00 "PB7_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x860++0x03
line.long 0x00 "PB8_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x864++0x03
line.long 0x00 "PB9_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x868++0x03
line.long 0x00 "PB10_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x86C++0x03
line.long 0x00 "PB11_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x870++0x03
line.long 0x00 "PB12_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x874++0x03
line.long 0x00 "PB13_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x878++0x03
line.long 0x00 "PB14_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x87C++0x03
line.long 0x00 "PB15_PDIO,GPIO PB.n Pin Data Input/Output Register"
group.long 0x880++0x03
line.long 0x00 "PC0_PDIO,GPIO PC.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x884++0x03
line.long 0x00 "PC1_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x888++0x03
line.long 0x00 "PC2_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x88C++0x03
line.long 0x00 "PC3_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x890++0x03
line.long 0x00 "PC4_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x894++0x03
line.long 0x00 "PC5_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x898++0x03
line.long 0x00 "PC6_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x89C++0x03
line.long 0x00 "PC7_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x8A0++0x03
line.long 0x00 "PC8_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x8A4++0x03
line.long 0x00 "PC9_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x8A8++0x03
line.long 0x00 "PC10_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x8AC++0x03
line.long 0x00 "PC11_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x8B0++0x03
line.long 0x00 "PC12_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x8B4++0x03
line.long 0x00 "PC13_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x8B8++0x03
line.long 0x00 "PC14_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x8BC++0x03
line.long 0x00 "PC15_PDIO,GPIO PC.n Pin Data Input/Output Register"
group.long 0x8C0++0x03
line.long 0x00 "PD0_PDIO,GPIO PD.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x8C4++0x03
line.long 0x00 "PD1_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8C8++0x03
line.long 0x00 "PD2_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8CC++0x03
line.long 0x00 "PD3_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8D0++0x03
line.long 0x00 "PD4_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8D4++0x03
line.long 0x00 "PD5_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8D8++0x03
line.long 0x00 "PD6_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8DC++0x03
line.long 0x00 "PD7_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8E0++0x03
line.long 0x00 "PD8_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8E4++0x03
line.long 0x00 "PD9_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8E8++0x03
line.long 0x00 "PD10_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8EC++0x03
line.long 0x00 "PD11_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8F0++0x03
line.long 0x00 "PD12_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8F4++0x03
line.long 0x00 "PD13_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8F8++0x03
line.long 0x00 "PD14_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x8FC++0x03
line.long 0x00 "PD15_PDIO,GPIO PD.n Pin Data Input/Output Register"
group.long 0x900++0x03
line.long 0x00 "PE0_PDIO,GPIO PE.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x904++0x03
line.long 0x00 "PE1_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x908++0x03
line.long 0x00 "PE2_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x90C++0x03
line.long 0x00 "PE3_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x910++0x03
line.long 0x00 "PE4_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x914++0x03
line.long 0x00 "PE5_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x918++0x03
line.long 0x00 "PE6_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x91C++0x03
line.long 0x00 "PE7_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x920++0x03
line.long 0x00 "PE8_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x924++0x03
line.long 0x00 "PE9_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x928++0x03
line.long 0x00 "PE10_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x92C++0x03
line.long 0x00 "PE11_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x930++0x03
line.long 0x00 "PE12_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x934++0x03
line.long 0x00 "PE13_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x938++0x03
line.long 0x00 "PE14_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x93C++0x03
line.long 0x00 "PE15_PDIO,GPIO PE.n Pin Data Input/Output Register"
group.long 0x940++0x03
line.long 0x00 "PF0_PDIO,GPIO PF.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x944++0x03
line.long 0x00 "PF1_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x948++0x03
line.long 0x00 "PF2_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x94C++0x03
line.long 0x00 "PF3_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x950++0x03
line.long 0x00 "PF4_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x954++0x03
line.long 0x00 "PF5_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x958++0x03
line.long 0x00 "PF6_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x95C++0x03
line.long 0x00 "PF7_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x960++0x03
line.long 0x00 "PF8_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x964++0x03
line.long 0x00 "PF9_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x968++0x03
line.long 0x00 "PF10_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x96C++0x03
line.long 0x00 "PF11_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x970++0x03
line.long 0x00 "PF12_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x974++0x03
line.long 0x00 "PF13_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x978++0x03
line.long 0x00 "PF14_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x97C++0x03
line.long 0x00 "PF15_PDIO,GPIO PF.n Pin Data Input/Output Register"
group.long 0x980++0x03
line.long 0x00 "PG0_PDIO,GPIO PG.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x984++0x03
line.long 0x00 "PG1_PDIO,GPIO PG.n Pin Data Input/Output Register"
group.long 0x988++0x03
line.long 0x00 "PG2_PDIO,GPIO PG.n Pin Data Input/Output Register"
group.long 0x98C++0x03
line.long 0x00 "PG3_PDIO,GPIO PG.n Pin Data Input/Output Register"
group.long 0x990++0x03
line.long 0x00 "PG4_PDIO,GPIO PG.n Pin Data Input/Output Register"
group.long 0x994++0x03
line.long 0x00 "PG5_PDIO,GPIO PG.n Pin Data Input/Output Register"
group.long 0x998++0x03
line.long 0x00 "PG6_PDIO,GPIO PG.n Pin Data Input/Output Register"
group.long 0x99C++0x03
line.long 0x00 "PG7_PDIO,GPIO PG.n Pin Data Input/Output Register"
group.long 0x9A0++0x03
line.long 0x00 "PG8_PDIO,GPIO PG.n Pin Data Input/Output Register"
group.long 0x9A4++0x03
line.long 0x00 "PG9_PDIO,GPIO PG.n Pin Data Input/Output Register"
group.long 0x9A8++0x03
line.long 0x00 "PG10_PDIO,GPIO PG.n Pin Data Input/Output Register"
group.long 0x9AC++0x03
line.long 0x00 "PG11_PDIO,GPIO PG.n Pin Data Input/Output Register"
group.long 0x9B0++0x03
line.long 0x00 "PG12_PDIO,GPIO PG.n Pin Data Input/Output Register"
group.long 0x9C0++0x03
line.long 0x00 "PH0_PDIO,GPIO PH.n Pin Data Input/Output Register"
bitfld.long 0x00 0. "PDIO,GPIO Px.n Pin Data Input/Output\nWriting this bit can control one GPIO pin output value" "0: Corresponding GPIO pin set to low,1: Corresponding GPIO pin set to high"
group.long 0x9C4++0x03
line.long 0x00 "PH1_PDIO,GPIO PH.n Pin Data Input/Output Register"
group.long 0x9C8++0x03
line.long 0x00 "PH2_PDIO,GPIO PH.n Pin Data Input/Output Register"
group.long 0x9CC++0x03
line.long 0x00 "PH3_PDIO,GPIO PH.n Pin Data Input/Output Register"
group.long 0x9D0++0x03
line.long 0x00 "PH4_PDIO,GPIO PH.n Pin Data Input/Output Register"
group.long 0x9D4++0x03
line.long 0x00 "PH5_PDIO,GPIO PH.n Pin Data Input/Output Register"
group.long 0x9D8++0x03
line.long 0x00 "PH6_PDIO,GPIO PH.n Pin Data Input/Output Register"
group.long 0x9DC++0x03
line.long 0x00 "PH7_PDIO,GPIO PH.n Pin Data Input/Output Register"
group.long 0x9E0++0x03
line.long 0x00 "PH8_PDIO,GPIO PH.n Pin Data Input/Output Register"
group.long 0x9E4++0x03
line.long 0x00 "PH9_PDIO,GPIO PH.n Pin Data Input/Output Register"
group.long 0x9E8++0x03
line.long 0x00 "PH10_PDIO,GPIO PH.n Pin Data Input/Output Register"
group.long 0x9EC++0x03
line.long 0x00 "PH11_PDIO,GPIO PH.n Pin Data Input/Output Register"
group.long 0x9F0++0x03
line.long 0x00 "PH12_PDIO,GPIO PH.n Pin Data Input/Output Register"
tree.end
tree "HSOTG"
base ad:0x4004F000
group.long 0x00++0x03
line.long 0x00 "HSOTG_CTL,HSOTG Control Register"
bitfld.long 0x00 5. "WKEN,OTG ID Pin Wake-up Enable Bit" "0: OTG ID pin status change wake-up function..,1: OTG ID pin status change wake-up function.."
bitfld.long 0x00 4. "OTGEN,OTG Function Enable Bit\nUser needs to set this bit to enable OTG function while USB frame configured as OTG device" "0: OTG function Disabled,1: OTG function Enabled"
newline
bitfld.long 0x00 2. "HNPREQEN,OTG HNP Request Enable Bit\nWhen USB frame as A-device set this bit when A-device allows to process HNP protocolA-device changes role from Host to Peripheral" "0: HNP request Disabled,1: HNP request Enabled (A-device can change role.."
bitfld.long 0x00 1. "BUSREQ,OTG Bus Request\nIf OTG A-device wants to do data transfers via USB bus setting this bit will drive VBUS high to detect USB device connection" "0: Do not launch VBUS in OTG A-device or not..,1: Launch VBUS in OTG A-device or request SRP in.."
newline
bitfld.long 0x00 0. "VBUSDROP,Drop VBUS Control\nIf user application running on this OTG A-device wants to conserve power set this bit to drop VBUS" "0: Do not drop the VBUS,1: Drop the VBUS"
group.long 0x04++0x03
line.long 0x00 "HSOTG_PHYCTL,HSOTG PHY Control Register"
bitfld.long 0x00 5. "VBSTSPOL,Off-chip USB VBUS Power Switch Status Polarity\nThe polarity of off-chip USB VBUS power switch valid signal depends on the selected component" "0: The polarity of off-chip USB VBUS power..,1: The polarity of off-chip USB VBUS power.."
bitfld.long 0x00 4. "VBENPOL,Off-chip USB VBUS Power Switch Enable Polarity\nThe OTG controller will enable off-chip USB VBUS power switch to provide VBUS power when need" "0: The off-chip USB VBUS power switch enable is..,1: The off-chip USB VBUS power switch enable is.."
newline
bitfld.long 0x00 1. "IDDETEN,ID Detection Enable Bit" "0: Detect ID pin status Disabled,1: Detect ID pin status Enabled"
bitfld.long 0x00 0. "OTGPHYEN,OTG PHY Enable\nWhen USB frame is configured as OTG-device or ID-dependent user needs to set this bit before using OTG function" "0: OTG PHY Disabled,1: OTG PHY Enabled"
group.long 0x08++0x03
line.long 0x00 "HSOTG_INTEN,HSOTG Interrupt Enable Register"
bitfld.long 0x00 13. "SRPDETIEN,SRP Detected Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 11. "SECHGIEN,SESSEND Status Changed Interrupt Enable Bit\nIf this bit is set to 1 and SESSEND (OTG_STATUS[2]) status is changed from high to low or from low to high a interrupt will be asserted" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 10. "VBCHGIEN,VBUSVLD Status Changed Interrupt Enable Bit\nIf this bit is set to 1 and VBUSVLD (OTG_STATUS[5]) status is changed from high to low or from low to high a interrupt will be asserted" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 9. "AVLDCHGIEN,A-Device Session Valid Status Changed Interrupt Enable Bit\nIf this bit is set to 1 and AVLD (OTG_STATUS[4]) status is changed from high to low or from low to high a interrupt will be asserted" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 8. "BVLDCHGIEN,B-device Session Valid Status Changed Interrupt Enable Bit\nIf this bit is set to 1 and BVLD (OTG_STATUS[3]) status is changed from high to low or from low to high a interrupt will be asserted" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 7. "HOSTIEN,Act As Host Interrupt Enable Bit\nIf this bit is set to 1 and the device is changed as a host a interrupt will be asserted" "0: This device as a host interrupt Disabled,1: This device as a host interrupt Enabled"
newline
bitfld.long 0x00 6. "PDEVIEN,Act As Peripheral Interrupt Enable Bit\nIf this bit is set to 1 and the device is changed as a peripheral a interrupt will be asserted" "0: This device as a peripheral interrupt Disabled,1: This device as a peripheral interrupt Enabled"
bitfld.long 0x00 5. "IDCHGIEN,IDSTS Changed Interrupt Enable Bit\nIf this bit is set to 1 and IDSTS (OTG_STATUS[1]) status is changed from high to low or from low to high a interrupt will be asserted" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 4. "GOIDLEIEN,OTG Device Goes to IDLE State Interrupt Enable Bit\nNote: Going to idle state means going to a_idle or b_idle state" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 3. "HNPFIEN,HNP Fail Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 2. "SRPFIEN,SRP Fail Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 1. "VBEIEN,VBUS Error Interrupt Enable Bit\nNote: VBUS error means going to a_vbus_err state" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 0. "ROLECHGIEN,Role (Host or Peripheral) Changed Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
group.long 0x0C++0x03
line.long 0x00 "HSOTG_INTSTS,HSOTG Interrupt Status Register"
bitfld.long 0x00 13. "SRPDETIF,SRP Detected Interrupt Status\nNote: Write 1 to clear this status" "0: SRP not detected,1: SRP detected"
bitfld.long 0x00 11. "SECHGIF,SESSEND State Change Interrupt Status\nNote: Write 1 to clear this flag" "0: SESSEND (OTG_STATUS[2]) not toggled,1: SESSEND (OTG_STATUS[2]) from high to low or.."
newline
bitfld.long 0x00 10. "VBCHGIF,VBUSVLD State Change Interrupt Status\nNote: Write 1 to clear this status" "0: VBUSVLD (OTG_STATUS[5]) not toggled,1: VBUSVLD (OTG_STATUS[5]) from high to low or.."
bitfld.long 0x00 9. "AVLDCHGIF,A-Device Session Valid State Change Interrupt Status\nNote: Write 1 to clear this status" "0: AVLD (OTG_STATUS[4]) not toggled,1: AVLD (OTG_STATUS[4]) from high to low or low.."
newline
bitfld.long 0x00 8. "BVLDCHGIF,B-device Session Valid State Change Interrupt Status\nNote: Write 1 to clear this status" "0: BVLD (OTG_STATUS[3]) is not toggled,1: BVLD (OTG_STATUS[3]) from high to low or low.."
bitfld.long 0x00 7. "HOSTIF,Act As Host Interrupt Status\nNote: Write 1 to clear this flag" "0: This device does not act as a host,1: This device acts as a host"
newline
bitfld.long 0x00 6. "PDEVIF,Act As Peripheral Interrupt Status\nNote: Write 1 to clear this flag" "0: This device does not act as a peripheral,1: This device acts as a peripheral"
bitfld.long 0x00 5. "IDCHGIF,ID State Change Interrupt Status\nNote: Write 1 to clear this flag" "0: IDSTS (OTG_STATUS[1]) not toggled,1: IDSTS (OTG_STATUS[1]) from high to low or.."
newline
bitfld.long 0x00 4. "GOIDLEIF,OTG Device Goes to IDLE Interrupt Status\nFlag is set if the OTG device transfers from non-idle state to idle state" "0: OTG device does not go back to idle state..,1: OTG device goes back to idle state(a_idle or.."
bitfld.long 0x00 3. "HNPFIF,HNP Fail Interrupt Status\nWhen A-device has granted B-device to be host and USB bus is in SE0 (both USB_D+ and USB_D- low) state this bit will be set when A-device does not connect after specified interval expires" "0: A-device connects to B-device before..,1: A-device does not connect to B-device before.."
newline
bitfld.long 0x00 2. "SRPFIF,SRP Fail Interrupt Status\nAfter initiating SRP an OTG B-device will wait for the OTG A-device to drive VBUS high at least TB_SRP_FAIL minimum defined in OTG specification" "0: OTG B-device gets VBUS high before this..,1: OTG B-device does not get VBUS high before.."
bitfld.long 0x00 1. "VBEIF,VBUS Error Interrupt Status\nThis bit will be set when voltage on VBUS cannot reach a minimum valid threshold 4.4V within a maximum time of 100ms after OTG A-device starting to drive VBUS high" "0: OTG A-device drives VBUS over threshold..,1: OTG A-device cannot drive VBUS over threshold.."
newline
bitfld.long 0x00 0. "ROLECHGIF,OTG Role Change Interrupt Status\nThis flag is set when the role of an OTG device changed from a host to a peripheral or changed from a peripheral to a host while USB_ID pin status does not change.\nNote: Write 1 to clear this flag" "0: OTG device role not changed,1: OTG device role changed"
rgroup.long 0x10++0x03
line.long 0x00 "HSOTG_STATUS,HSOTG Status Register"
bitfld.long 0x00 7. "ASHOST,As Host Status\nWhen OTG acts as Host this bit is set" "0: OTG not as Host,1: OTG as Host"
bitfld.long 0x00 6. "ASPERI,As Peripheral Status\nWhen OTG acts as peripheral this bit is set" "0: OTG not as peripheral,1: OTG as peripheral"
newline
bitfld.long 0x00 5. "VBUSVLD,VBUS Valid Status\nWhen VBUS is larger than 4.7V and A-device drives VBUS this bit will be set to 1" "0: VBUS is not valid,1: VBUS is valid"
bitfld.long 0x00 4. "AVLD,A-Device Session Valid Status" "0: A-device session is not valid,1: A-device session is valid"
newline
bitfld.long 0x00 3. "BVLD,B-device Session Valid Status" "0: B-device session is not valid,1: B-device session is valid"
bitfld.long 0x00 2. "SESSEND,Session End Status\nWhen VBUS voltage is lower than 0.4V this bit will be set to 1" "0: Session is not end,1: Session is end"
newline
bitfld.long 0x00 1. "IDSTS,USB_ID Pin State of Mini-b/Micro-plug" "0: Mini-A/Micro-A plug is attached,1: Mini-B/Micro-B plug is attached"
bitfld.long 0x00 0. "OVERCUR,Overcurrent Condition\nThe voltage on VBUS cannot reach a minimum VBUS valid threshold 4.4V minimum within a maximum time of 100ms after OTG A-device drives VBUS high" "0: OTG A-device drives VBUS successfully,1: OTG A-device cannot drives VBUS high in this.."
tree.end
tree "I2C"
repeat 3. (list 0. 1. 2.) (list ad:0x40080000 ad:0x40081000 ad:0x40082000)
tree "I2C$1"
base $2
group.long 0x00++0x03
line.long 0x00 "I2C_CTL0,I2C Control Register 0"
bitfld.long 0x00 7. "INTEN,Enable Interrupt" "0: I2C interrupt Disabled,1: I2C interrupt Enabled"
bitfld.long 0x00 6. "I2CEN,I2C Controller Enable Bit" "0: I2C controller Disabled,1: I2C controller Enabled"
newline
bitfld.long 0x00 5. "STA,I2C START Control\nSetting STA to logic 1 to enter Master mode the I2C hardware sends a START or repeat START condition to bus when the bus is free" "0,1"
bitfld.long 0x00 4. "STO,I2C STOP Control\nIn Master mode setting STO to transmit a STOP condition to bus then I2C controller will check the bus condition if a STOP condition is detected" "0,1"
newline
bitfld.long 0x00 3. "SI,I2C Interrupt Flag\nWhen a new I2C state is present in the I2C_STATUS0 register the SI flag is set by hardware" "0,1"
bitfld.long 0x00 2. "AA,Assert Acknowledge Control" "0,1"
group.long 0x04++0x03
line.long 0x00 "I2C_ADDR0,I2C Slave Address Register0"
hexmask.long.word 0x00 1.--10. 1. "ADDR,I2C Address \nThe content of this register is irrelevant when I2C is in Master mode"
bitfld.long 0x00 0. "GC,General Call Function" "0: General Call Function Disabled,1: General Call Function Enabled"
group.long 0x08++0x03
line.long 0x00 "I2C_DAT,I2C Data Register"
hexmask.long.byte 0x00 0.--7. 1. "DAT,I2C Data \nBit [7:0] is located with the 8-bit transferred/received data of I2C serial port"
rgroup.long 0x0C++0x03
line.long 0x00 "I2C_STATUS0,I2C Status Register 0"
hexmask.long.byte 0x00 0.--7. 1. "STATUS,I2C Status"
group.long 0x10++0x03
line.long 0x00 "I2C_CLKDIV,I2C Clock Divided Register"
hexmask.long.word 0x00 0.--9. 1. "DIVIDER,I2C Clock Divided \nNote: The minimum value of I2C_CLKDIV is 4"
group.long 0x14++0x03
line.long 0x00 "I2C_TOCTL,I2C Time-out Control Register"
bitfld.long 0x00 2. "TOCEN,Time-out Counter Enable Bit\nWhen enabled the 14-bit time-out counter will start counting when SI is cleared" "0: Time-out counter Disabled,1: Time-out counter Enabled"
bitfld.long 0x00 1. "TOCDIV4,Time-out Counter Input Clock Divided by 4\nWhen enabled the time-out period is extended 4 times" "0: Time-out period is extend 4 times Disabled,1: Time-out period is extend 4 times Enabled"
newline
bitfld.long 0x00 0. "TOIF,Time-out Flag\nThis bit is set by hardware when I2C time-out happened and it can interrupt CPU if I2C interrupt enable bit (INTEN) is set to 1.\nNote: Software can write 1 to clear this bit" "0,1"
repeat 3. (strings "1" "2" "3" )(list 0x0 0x4 0x8 )
group.long ($2+0x18)++0x03
line.long 0x00 "I2C_ADDR$1,I2C Slave Address Register $1"
hexmask.long.word 0x00 1.--10. 1. "ADDR,I2C Address \nThe content of this register is irrelevant when I2C is in Master mode"
bitfld.long 0x00 0. "GC,General Call Function" "0: General Call Function Disabled,1: General Call Function Enabled"
repeat.end
repeat 4. (strings "0" "1" "2" "3" )(list 0x0 0x4 0x8 0xC )
group.long ($2+0x24)++0x03
line.long 0x00 "I2C_ADDRMSK$1,I2C Slave Address Mask Register $1"
hexmask.long.word 0x00 1.--10. 1. "ADDRMSK,I2C Address Mask\nI2C bus controllers support multiple address recognition with four address mask register"
repeat.end
group.long 0x3C++0x03
line.long 0x00 "I2C_WKCTL,I2C Wake-up Control Register"
bitfld.long 0x00 7. "NHDBUSEN,I2C No Hold BUS Enable Bit\nNote: The I2C controller could respond when WKIF event is not clear it may cause error data transmitted or received" "0: I2C hold bus after wake-up,1: I2C don't hold bus after wake-up"
bitfld.long 0x00 0. "WKEN,I2C Wake-up Enable Bit" "0: I2C wake-up function Disabled,1: I2C wake-up function Enabled"
group.long 0x40++0x03
line.long 0x00 "I2C_WKSTS,I2C Wake-up Status Register"
bitfld.long 0x00 2. "WRSTSWK,Read/Write Status Bit in Address Wakeup Frame\nNote: This bit will be cleared when software can write 1 to WKAKDONE bit" "0: Write command be record on the address match..,1: Read command be record on the address match.."
bitfld.long 0x00 1. "WKAKDONE,Wakeup Address Frame Acknowledge Bit Done\nNote: This bit can't release WKIF" "0: The ACK bit cycle of address match frame..,1: The ACK bit cycle of address match frame is.."
newline
bitfld.long 0x00 0. "WKIF,I2C Wake-up Flag\nWhen chip is woken up from Power-down mode by I2C this bit is set to 1" "0,1"
group.long 0x44++0x03
line.long 0x00 "I2C_CTL1,I2C Control Register 1"
bitfld.long 0x00 9. "ADDR10EN,Address 10-bit Function Enable Bit" "0: Address match 10-bit function Disabled,1: Address match 10-bit function Enabled"
bitfld.long 0x00 8. "PDMASTR,PDMA Stretch Bit" "0: I2C send STOP automatically after PDMA..,1: I2C SCL bus is stretched by hardware after.."
newline
bitfld.long 0x00 2. "PDMARST,PDMA Reset" "0: No effect,1: Reset the I2C request to PDMA"
bitfld.long 0x00 1. "RXPDMAEN,PDMA Receive Channel Available" "0: Receive PDMA function Disabled,1: Receive PDMA function Enabled"
newline
bitfld.long 0x00 0. "TXPDMAEN,PDMA Transmit Channel Available" "0: Transmit PDMA function Disabled,1: Transmit PDMA function Enabled"
group.long 0x48++0x03
line.long 0x00 "I2C_STATUS1,I2C Status Register 1"
rbitfld.long 0x00 8. "ONBUSY,On Bus Busy (Read Only)\nIndicates that a communication is in progress on the bus" "0: The bus is IDLE (both SCLK and SDA High),1: The bus is busy"
bitfld.long 0x00 3. "ADMAT3,I2C Address 3 Match Status\nWhen address 3 is matched hardware will inform which address used" "0,1"
newline
bitfld.long 0x00 2. "ADMAT2,I2C Address 2 Match Status\nWhen address 2 is matched hardware will inform which address used" "0,1"
bitfld.long 0x00 1. "ADMAT1,I2C Address 1 Match Status\nWhen address 1 is matched hardware will inform which address used" "0,1"
newline
bitfld.long 0x00 0. "ADMAT0,I2C Address 0 Match Status\nWhen address 0 is matched hardware will inform which address used" "0,1"
group.long 0x4C++0x03
line.long 0x00 "I2C_TMCTL,I2C Timing Configure Control Register"
hexmask.long.word 0x00 16.--24. 1. "HTCTL,Hold Time Configure Control \nThis field is used to generate the delay timing between SCL falling edge and SDA rising edge in transmission mode"
hexmask.long.word 0x00 0.--8. 1. "STCTL,Setup Time Configure Control\nThis field is used to generate a delay timing between SDA falling edge and SCL rising edge in transmission mode.\nNote: Setup time setting should not make SCL output less than three PCLKs"
group.long 0x50++0x03
line.long 0x00 "I2C_BUSCTL,I2C Bus Management Control Register"
bitfld.long 0x00 13. "PECDIEN,Packet Error Checking Byte Transfer Done Interrupt Enable Bit" "0: PEC transfer done interrupt Disabled,1: PEC transfer done interrupt Enabled"
bitfld.long 0x00 12. "BCDIEN,Packet Error Checking Byte Count Done Interrupt Enable Bit" "0: Byte count done interrupt Disabled,1: Byte count done interrupt Enabled"
newline
bitfld.long 0x00 11. "ACKM9SI,Acknowledge Manual Enable Extra SI Interrupt" "0: There is no SI interrupt in the 9th clock..,1: There is SI interrupt in the 9th clock cycle.."
bitfld.long 0x00 10. "PECCLR,PEC Clear at Repeat Start\nThe calculation of PEC starts when PECEN is set to 1 and it is cleared when the STA or STO bit is detected" "0: PEC calculation is cleared by 'Repeat Start'..,1: PEC calculation is cleared by 'Repeat Start'.."
newline
bitfld.long 0x00 9. "TIDLE,Timer Check in Idle State\nThe BUSTOUT is used to calculate the time-out of clock low in bus active and the idle period in bus Idle" "0: BUSTOUT is used to calculate the clock low..,1: BUSTOUT is used to calculate the IDLE period.."
bitfld.long 0x00 8. "PECTXEN,Packet Error Checking Byte Transmission/Reception" "0: No PEC transfer,1: PEC transmission is requested"
newline
bitfld.long 0x00 7. "BUSEN,BUS Enable Bit\nNote: When the bit is enabled the internal 14-bit counter is used to calculate the time out event of clock low condition" "0: The system management function Disabled,1: The system management function Enabled"
bitfld.long 0x00 6. "SCTLOEN,Suspend or Control Pin Output Enable Bit" "0: The SUSCON pin in input,1: The output enable is active on the SUSCON pin"
newline
bitfld.long 0x00 5. "SCTLOSTS,Suspend/Control Data Output Status" "0: The output of SUSCON pin is low,1: The output of SUSCON pin is high"
bitfld.long 0x00 4. "ALERTEN,Bus Management Alert Enable Bit" "0: Release the BM_ALERT pin high and Alert..,1: Drive BM_ALERT pin low and Alert Response.."
newline
bitfld.long 0x00 3. "BMHEN,Bus Management Host Enable Bit" "0: Host function Disabled,1: Host function Enabled"
bitfld.long 0x00 2. "BMDEN,Bus Management Device Default Address Enable Bit" "0: Device default address Disable,1: Device default address Enabled"
newline
bitfld.long 0x00 1. "PECEN,Packet Error Checking Calculation Enable Bit\nNote: When I2C enter powerdown mode the bit should be enabled after wake-up if needed PEC calculation" "0: Packet Error Checking Calculation Disabled,1: Packet Error Checking Calculation Enabled"
bitfld.long 0x00 0. "ACKMEN,Acknowledge Control by Manual\nIn order to allow ACK control in slave reception including the command and data slave byte control mode must be enabled by setting the ACKMEN bit" "0: Slave byte control Disabled,1: Slave byte control Enabled"
group.long 0x54++0x03
line.long 0x00 "I2C_BUSTCTL,I2C Bus Management Timer Control Register"
bitfld.long 0x00 4. "TORSTEN,Time Out Reset Enable Bit" "0: I2C state machine reset Disabled,1: I2C state machine reset Enabled"
bitfld.long 0x00 3. "CLKTOIEN,Extended Clock Time Out Interrupt Enable Bit" "0: Clock time out interrupt Disabled,1: Clock time out interrupt Enabled"
newline
bitfld.long 0x00 2. "BUSTOIEN,Time-out Interrupt Enable Bit" "0: SCLK low time-out interrupt Disabled.\nBus..,1: SCLK low time-out interrupt Enabled.\nBus.."
bitfld.long 0x00 1. "CLKTOEN,Cumulative Clock Low Time Out Enable Bit\nFor Master it calculates the period from START to ACK\nFor Slave it calculates the period from START to STOP" "0: Cumulative clock low time-out detection..,1: Cumulative clock low time-out detection Enabled"
newline
bitfld.long 0x00 0. "BUSTOEN,Bus Time Out Enable Bit" "0: Bus clock low time-out detection Disabled,1: Bus clock low time-out detection Enabled (bus.."
group.long 0x58++0x03
line.long 0x00 "I2C_BUSSTS,I2C Bus Management Status Register"
bitfld.long 0x00 7. "PECDONE,PEC Byte Transmission/Receive Done \nNote: Software can write 1 to clear this bit" "0: PEC transmission/ receive is not finished..,1: PEC transmission/ receive is finished when.."
bitfld.long 0x00 6. "CLKTO,Clock Low Cumulate Time-out Status \nNote: Software can write 1 to clear this bit" "0: Cumulative clock low is no any time-out,1: Cumulative clock low time-out occurred"
newline
bitfld.long 0x00 5. "BUSTO,Bus Time-out Status \nIn bus busy the bit indicates the total clock low time-out event occurred otherwise it indicates the bus idle time-out event occurred.\nNote: Software can write 1 to clear this bit" "0: There is no any time-out or external clock..,1: A time-out or external clock time-out occurred"
bitfld.long 0x00 4. "SCTLDIN,Bus Suspend or Control Signal Input Status" "0: The input status of SUSCON pin is 0,1: The input status of SUSCON pin is 1"
newline
bitfld.long 0x00 3. "ALERT,SMBus Alert Status \nNote: 1" "0: SMBALERT pin state is low.\nNo SMBALERT event,1: SMBALERT pin state is high.\nThere is.."
bitfld.long 0x00 2. "PECERR,PEC Error in Reception \nNote: Software can write 1 to clear this bit" "0: PEC value equal the received PEC data packet,1: PEC value doesn't match the receive PEC data.."
newline
bitfld.long 0x00 1. "BCDONE,Byte Count Transmission/Receive Done \nNote: Software can write 1 to clear this bit" "0: Byte count transmission/ receive is not..,1: Byte count transmission/ receive is finished.."
bitfld.long 0x00 0. "BUSY,Bus Busy\nIndicates that a communication is in progress on the bus" "0: Bus is IDLE (both SCLK and SDA High),1: Bus is busy"
group.long 0x5C++0x03
line.long 0x00 "I2C_PKTSIZE,I2C Packet Error Checking Byte Number Register"
hexmask.long.word 0x00 0.--8. 1. "PLDSIZE,Transfer Byte Number\nThe transmission or receive byte number in one transaction when the PECEN is set"
rgroup.long 0x60++0x03
line.long 0x00 "I2C_PKTCRC,I2C Packet Error Checking Byte Value Register"
hexmask.long.byte 0x00 0.--7. 1. "PECCRC,Packet Error Checking Byte Value"
group.long 0x64++0x03
line.long 0x00 "I2C_BUSTOUT,I2C Bus Management Timer Register"
hexmask.long.byte 0x00 0.--7. 1. "BUSTO,Bus Management Time-out Value\nIndicates the bus time-out value in bus is IDLE or SCLK low.\nNote: If the user wants to revise the value of BUSTOUT the TORSTEN (I2C_BUSTCTL[4]) bit shall be set to 1 and cleared to 0 first when the.."
group.long 0x68++0x03
line.long 0x00 "I2C_CLKTOUT,I2C Bus Management Clock Low Timer Register"
hexmask.long.byte 0x00 0.--7. 1. "CLKTO,Bus Clock Low Timer\nThe field is used to configure the cumulative clock extension time-out.\nNote: If the user wants to revise the value of CLKLTOUT the TORSTEN bit shall be set to 1 and cleared to 0 first when the BUSEN is set"
tree.end
repeat.end
tree.end
tree "I2S"
base ad:0x40048000
group.long 0x00++0x03
line.long 0x00 "I2S_CTL0,I2S Control Register 0"
bitfld.long 0x00 30.--31. "TDMCHNUM,TDM Channel Number" "0: 2 channels in audio frame,1: 4 channels in audio frame,2: 6 channels in audio frame,3: 8 channels in audio frame"
bitfld.long 0x00 28.--29. "CHWIDTH,Channel Width\nThis bit fields are used to define the length of audio channel" "0: The bit-width of each audio channel is 8-bit,1: The bit-width of each audio channel is 16-bit,2: The bit-width of each audio channel is 24-bit,3: The bit-width of each audio channel is 32-bit"
newline
bitfld.long 0x00 27. "PCMSYNC,PCM Synchronization Pulse Length Selection\nThis bit field is used to select the high pulse length of frame synchronization signal in PCM protocol\nNote: This bit is only available in master mode" "0: One BCLK period,1: One channel period"
bitfld.long 0x00 24.--26. "FORMAT,Data Format Selection" "0: I2S standard data format,1: I2S with MSB justified,2: I2S with LSB justified,3: Reserved,4: PCM standard data format,5: PCM with MSB justified,6: PCM with LSB justified,7: Reserved"
newline
bitfld.long 0x00 23. "RXLCH,Receive Left Channel Enable Bit" "0: Receive channel1 data in MONO mode,1: Receive channel0 data in MONO mode"
bitfld.long 0x00 21. "RXPDMAEN,Receive PDMA Enable Bit" "0: Receive PDMA function Disabled,1: Receive PDMA function Enabled"
newline
bitfld.long 0x00 20. "TXPDMAEN,Transmit PDMA Enable Bit" "0: Transmit PDMA function Disabled,1: Transmit PDMA function Enabled"
bitfld.long 0x00 19. "RXFBCLR,Receive FIFO Buffer Clear\n" "0: No Effect,1: Clear RX FIFO"
newline
bitfld.long 0x00 18. "TXFBCLR,Transmit FIFO Buffer Clear\n" "0: No Effect,1: Clear TX FIFO"
bitfld.long 0x00 15. "MCLKEN,Master Clock Enable Bit\nIf MCLKEN is set to 1 I2S controller will generate master clock on I2S_MCLK pin for external audio devices" "0: Master clock Disabled,1: Master clock Enabled"
newline
bitfld.long 0x00 8. "SLAVE,Slave Mode Enable Bit\nNote: I2S can operate as master or slave" "0: Master mode,1: Slave mode"
bitfld.long 0x00 7. "ORDER,Stereo Data Order in FIFO\nIn 8-bit/16-bit data width this bit is used to select whether the even or odd channel data is stored in higher byte" "0: Even channel data at high byte in..,1: Even channel data at low byte in 8-bit/16-bit.."
newline
bitfld.long 0x00 6. "MONO,Monaural Data Control\nNote: When chip records data RXLCH (I2S_CTL0[23]) indicates which channel data will be saved if monaural format is selected" "0: Data is stereo format,1: Data is monaural format"
bitfld.long 0x00 4.--5. "DATWIDTH,Data Width\nThis bit field is used to define the bit-width of data word in each audio channel" "0: The bit-width of data word is 8-bit,1: The bit-width of data word is 16-bit,2: The bit-width of data word is 24-bit,3: The bit-width of data word is 32-bit"
newline
bitfld.long 0x00 3. "MUTE,Transmit Mute Enable Bit" "0: Transmit data is shifted from buffer,1: Send zero on transmit channel"
bitfld.long 0x00 2. "RXEN,Receive Enable Bit" "0: Data receiving Disabled,1: Data receiving Enabled"
newline
bitfld.long 0x00 1. "TXEN,Transmit Enable Bit" "0: Data transmission Disabled,1: Data transmission Enabled"
bitfld.long 0x00 0. "I2SEN,I2S Controller Enable Bit" "0: I2S controller Disabled,1: I2S controller Enabled"
group.long 0x04++0x03
line.long 0x00 "I2S_CLKDIV,I2S Clock Divider Register"
hexmask.long.word 0x00 8.--17. 1. "BCLKDIV,Bit Clock Divider\nThe I2S controller will generate bit clock in Master mode"
hexmask.long.byte 0x00 0.--6. 1. "MCLKDIV,Master Clock Divider\nIf chip external crystal frequency is (2xMCLKDIV)*256fs then software can program these bits to generate 256fs clock frequency to audio codec chip"
group.long 0x08++0x03
line.long 0x00 "I2S_IEN,I2S Interrupt Enable Register"
bitfld.long 0x00 23. "CH7ZCIEN,Channel7 Zero-cross Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 22. "CH6ZCIEN,Channel6 Zero-cross Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 21. "CH5ZCIEN,Channel5 Zero-cross Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 20. "CH4ZCIEN,Channel4 Zero-cross Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 19. "CH3ZCIEN,Channel3 Zero-cross Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 18. "CH2ZCIEN,Channel2 Zero-cross Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 17. "CH1ZCIEN,Channel1 Zero-cross Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 16. "CH0ZCIEN,Channel0 Zero-cross Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 10. "TXTHIEN,Transmit FIFO Threshold Level Interrupt Enable Bit\nNote: Interrupt occurs if this bit is set to 1 and data words in transmit FIFO is less than or equal to TXTH (I2S_CTL1[11:8])" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 9. "TXOVFIEN,Transmit FIFO Overflow Interrupt Enable Bit\nNote: Interrupt occurs if this bit is set to 1 and TXOVIF (I2S_STATUS0[17]) flag is set to 1" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 8. "TXUDFIEN,Transmit FIFO Underflow Interrupt Enable Bit\nNote: Interrupt occur if this bit is set to 1 and TXUDIF (I2S_STATUS0[16]) flag is set to 1" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 2. "RXTHIEN,Receive FIFO Threshold Level Interrupt Enable Bit\nNote: Interrupt occurs if this bit is set to 1 and data words in receive FIFO is larger than RXTH (I2S_CTL1[19:16])" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 1. "RXOVFIEN,Receive FIFO Overflow Interrupt Enable Bit\nNote: Interrupt occurs if this bit is set to 1 and RXOVIF (I2S_STATUS0[9]) flag is set to 1" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 0. "RXUDFIEN,Receive FIFO Underflow Interrupt Enable Bit\nNote: If software reads receive FIFO when it is empty then RXUDIF (I2S_STATUS0[8]) flag is set to 1" "0: Interrupt Disabled,1: Interrupt Enabled"
group.long 0x0C++0x03
line.long 0x00 "I2S_STATUS0,I2S Status Register 0"
rbitfld.long 0x00 21. "TXBUSY,Transmit Busy (Read Only)\nNote: This bit is cleared to 0 when all data in transmit FIFO and shift buffer is shifted out" "0: Transmit shift buffer is empty,1: Transmit shift buffer is busy"
rbitfld.long 0x00 20. "TXEMPTY,Transmit FIFO Empty (Read Only)\nThis bit reflect data word number in transmit FIFO is 0" "0: Not empty,1: Empty"
newline
rbitfld.long 0x00 19. "TXFULL,Transmit FIFO Full (Read Only)\nThis bit reflect data word number in transmit FIFO is 16" "0: Not full,1: Full"
rbitfld.long 0x00 18. "TXTHIF,Transmit FIFO Threshold Interrupt Flag (Read Only)\nNote: When data word(s) in transmit FIFO is less than or equal to threshold value set in TXTH (I2S_CTL1[11:8]) the TXTHIF bit becomes to 1" "0: Data word(s) in FIFO is larger than threshold..,1: Data word(s) in FIFO is less than or equal to.."
newline
bitfld.long 0x00 17. "TXOVIF,Transmit FIFO Overflow Interrupt Flag\n" "0: No overflow,1: Overflow"
bitfld.long 0x00 16. "TXUDIF,Transmit FIFO Underflow Interrupt Flag\n" "0: No underflow,1: Underflow"
newline
rbitfld.long 0x00 12. "RXEMPTY,Receive FIFO Empty (Read Only)\nNote: This bit reflects data words number in receive FIFO is 0" "0: Not empty,1: Empty"
rbitfld.long 0x00 11. "RXFULL,Receive FIFO Full (Read Only)\nNote: This bit reflects data words number in receive FIFO is 16" "0: Not full,1: Full"
newline
rbitfld.long 0x00 10. "RXTHIF,Receive FIFO Threshold Interrupt Flag (Read Only)\nNote: When data word(s) in receive FIFO is larger than threshold value set in RXTH (I2S_CTL1[19:16]) the RXTHIF bit becomes to 1" "0: Data word(s) in FIFO is less than or equal to..,1: Data word(s) in FIFO is larger than threshold.."
bitfld.long 0x00 9. "RXOVIF,Receive FIFO Overflow Interrupt Flag\n" "0: No overflow occur,1: Overflow occur"
newline
bitfld.long 0x00 8. "RXUDIF,Receive FIFO Underflow Interrupt Flag\n" "0: No underflow occur,1: Underflow occur"
rbitfld.long 0x00 3.--5. "DATACH,Transmission Data Channel (Read Only)\nThis bit fields are used to indicate which audio channel is current transmit data belong" "0: channel0 (means left channel while 2-channel..,1: channel1 (means right channel while 2-channel..,2: channel2 (available while 4-channel TDM PCM..,3: channel3 (available while 4-channel TDM PCM..,4: channel4 (available while 6-channel TDM PCM..,5: channel5 (available while 6-channel TDM PCM..,6: channel6 (available while 8-channel TDM PCM..,7: channel7 (available while 8-channel TDM PCM.."
newline
rbitfld.long 0x00 2. "I2STXINT,I2S Transmit Interrupt (Read Only)" "0: No transmit interrupt,1: Transmit interrupt"
rbitfld.long 0x00 1. "I2SRXINT,I2S Receive Interrupt (Read Only)" "0: No receive interrupt,1: Receive interrupt"
newline
rbitfld.long 0x00 0. "I2SINT,I2S Interrupt Flag (Read Only)\nNote: It is wire-OR of I2STXINT and I2SRXINT bits" "0: No I2S interrupt,1: I2S interrupt"
wgroup.long 0x10++0x03
line.long 0x00 "I2S_TXFIFO,I2S Transmit FIFO Register"
hexmask.long 0x00 0.--31. 1. "TXFIFO,Transmit FIFO Bits\nI2S contains 16 words (16x32 bits) data buffer for data transmit"
rgroup.long 0x14++0x03
line.long 0x00 "I2S_RXFIFO,I2S Receive FIFO Register"
hexmask.long 0x00 0.--31. 1. "RXFIFO,Receive FIFO Bits\nI2S contains 16 words (16x32 bits) data buffer for data receive"
group.long 0x20++0x03
line.long 0x00 "I2S_CTL1,I2S Control Register 1"
bitfld.long 0x00 25. "PB16ORD,FIFO Read/Write Order in 16-bit Width of Peripheral Bus" "0: Low 16-bit read/write access first,1: High 16-bit read/write access first"
bitfld.long 0x00 24. "PBWIDTH,Peripheral Bus Data Width Selection\nThis bit is used to choice the available data width of APB bus" "0: 32 bits data width,1: 16 bits data width"
newline
bitfld.long 0x00 16.--19. "RXTH,Receive FIFO Threshold Level\nNote: When received data word number in receive buffer is larger than threshold level then RXTHIF (I2S_STATUS0[10]) flag is set" "0: 1 data word in receive FIFO,1: 2 data words in receive FIFO,2: 3 data words in receive FIFO,?,?,?,?,?,?,?,?,?,?,?,14: 15 data words in receive FIFO,15: 16 data words in receive FIFO"
bitfld.long 0x00 8.--11. "TXTH,Transmit FIFO Threshold Level\nNote: If remain data word number in transmit FIFO is less than or equal to threshold level then TXTHIF (I2S_STATUS0[18]) flag is set" "0: 0 data word in transmit FIFO,1: 1 data word in transmit FIFO,2: 2 data words in transmit FIFO,?,?,?,?,?,?,?,?,?,?,?,14: 14 data words in transmit FIFO,15: 15 data words in transmit FIFO"
newline
bitfld.long 0x00 7. "CH7ZCEN,Channel7 Zero-cross Detect Enable Bit\n" "0: channel7 zero-cross detect Disabled,1: channel7 zero-cross detect Enabled"
bitfld.long 0x00 6. "CH6ZCEN,Channel6 Zero-cross Detect Enable Bit\n" "0: channel6 zero-cross detect Disabled,1: channel6 zero-cross detect Enabled"
newline
bitfld.long 0x00 5. "CH5ZCEN,Channel5 Zero-cross Detect Enable Bit\n" "0: channel5 zero-cross detect Disabled,1: channel5 zero-cross detect Enabled"
bitfld.long 0x00 4. "CH4ZCEN,Channel4 Zero-cross Detect Enable Bit\n" "0: channel4 zero-cross detect Disabled,1: channel4 zero-cross detect Enabled"
newline
bitfld.long 0x00 3. "CH3ZCEN,Channel3 Zero-cross Detect Enable Bit\n" "0: channel3 zero-cross detect Disabled,1: channel3 zero-cross detect Enabled"
bitfld.long 0x00 2. "CH2ZCEN,Channel2 Zero-cross Detect Enable Bit\n" "0: channel2 zero-cross detect Disabled,1: channel2 zero-cross detect Enabled"
newline
bitfld.long 0x00 1. "CH1ZCEN,Channel1 Zero-cross Detect Enable Bit\n" "0: channel1 zero-cross detect Disabled,1: channel1 zero-cross detect Enabled"
bitfld.long 0x00 0. "CH0ZCEN,Channel0 Zero-cross Detection Enable Bit\n" "0: channel0 zero-cross detect Disabled,1: channel0 zero-cross detect Enabled"
group.long 0x24++0x03
line.long 0x00 "I2S_STATUS1,I2S Status Register 1"
rbitfld.long 0x00 16.--20. "RXCNT,Receive FIFO Level (Read Only)\nThese bits indicate the number of available entries in receive FIFO\nOthers are reserved" "0: No data,1: 1 word in receive FIFO,2: 2 words in receive FIFO,?,?,?,?,?,?,?,?,?,?,?,14: 14 words in receive FIFO,15: 15 words in receive FIFO,16: 16 words in receive FIFO,?..."
rbitfld.long 0x00 8.--12. "TXCNT,Transmit FIFO Level (Read Only)\nThese bits indicate the number of available entries in transmit FIFO\nOthers are reserved" "0: No data,1: 1 word in transmit FIFO,2: 2 words in transmit FIFO,?,?,?,?,?,?,?,?,?,?,?,14: 14 words in transmit FIFO,15: 15 words in transmit FIFO,16: 16 words in transmit FIFO,?..."
newline
bitfld.long 0x00 7. "CH7ZCIF,Channel7 Zero-cross Interrupt Flag\nIt indicates channel7 next sample data sign bit is changed or all data bits are 0" "0: No zero-cross in channel7,1: Channel7 zero-cross is detected"
bitfld.long 0x00 6. "CH6ZCIF,Channel6 Zero-cross Interrupt Flag\nIt indicates channel6 next sample data sign bit is changed or all data bits are 0" "0: No zero-cross in channel6,1: Channel6 zero-cross is detected"
newline
bitfld.long 0x00 5. "CH5ZCIF,Channel5 Zero-cross Interrupt Flag\nIt indicates channel5 next sample data sign bit is changed or all data bits are 0" "0: No zero-cross in channel5,1: Channel5 zero-cross is detected"
bitfld.long 0x00 4. "CH4ZCIF,Channel4 Zero-cross Interrupt Flag\nIt indicates channel4 next sample data sign bit is changed or all data bits are 0" "0: No zero-cross in channel4,1: Channel4 zero-cross is detected"
newline
bitfld.long 0x00 3. "CH3ZCIF,Channel3 Zero-cross Interrupt Flag\nIt indicates channel3 next sample data sign bit is changed or all data bits are 0" "0: No zero-cross in channel3,1: Channel3 zero-cross is detected"
bitfld.long 0x00 2. "CH2ZCIF,Channel2 Zero-cross Interrupt Flag\nIt indicates channel2 next sample data sign bit is changed or all data bits are 0" "0: No zero-cross in channel2,1: Channel2 zero-cross is detected"
newline
bitfld.long 0x00 1. "CH1ZCIF,Channel1 Zero-cross Interrupt Flag\nIt indicates channel1 next sample data sign bit is changed or all data bits are 0" "0: No zero-cross in channel1,1: Channel1 zero-cross is detected"
bitfld.long 0x00 0. "CH0ZCIF,Channel0 Zero-cross Interrupt Flag\nIt indicates channel0 next sample data sign bit is changed or all data bits are 0" "0: No zero-cross in channel0,1: Channel0 zero-cross is detected"
tree.end
tree "NMI"
base ad:0x40000300
group.long 0x00++0x03
line.long 0x00 "NMIEN,NMI Source Interrupt Enable Register"
bitfld.long 0x00 15. "UART1_INT,UART1 NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: UART1 NMI source Disabled,1: UART1 NMI source Enabled"
bitfld.long 0x00 14. "UART0_INT,UART0 NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: UART0 NMI source Disabled,1: UART0 NMI source Enabled"
newline
bitfld.long 0x00 13. "EINT5,External Interrupt From INT5 Pin NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: External interrupt from INT5 pin NMI source..,1: External interrupt from INT5 pin NMI source.."
bitfld.long 0x00 12. "EINT4,External Interrupt From INT4 Pin NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: External interrupt from INT4 pin NMI source..,1: External interrupt from INT4 pin NMI source.."
newline
bitfld.long 0x00 11. "EINT3,External Interrupt From INT3 Pin NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: External interrupt from INT3 pin NMI source..,1: External interrupt from INT3 pin NMI source.."
bitfld.long 0x00 10. "EINT2,External Interrupt From INT2 Pin NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: External interrupt from INT2 pin NMI source..,1: External interrupt from INT2 pin NMI source.."
newline
bitfld.long 0x00 9. "EINT1,External Interrupt From INT1 Pin NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: External interrupt from INT1 pin NMI source..,1: External interrupt from INT1 pin NMI source.."
bitfld.long 0x00 8. "EINT0,External Interrupt From INT0 Pin NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: External interrupt from INT0 pin NMI source..,1: External interrupt from INT0 pin NMI source.."
newline
bitfld.long 0x00 7. "TAMPER_INT,TAMPER_INT NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: Backup register tamper detected interrupt.NMI..,1: Backup register tamper detected interrupt.NMI.."
bitfld.long 0x00 6. "RTC_INT,RTC NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: RTC NMI source Disabled,1: RTC NMI source Enabled"
newline
bitfld.long 0x00 4. "CLKFAIL,Clock Fail Detected NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: Clock fail detected interrupt NMI source..,1: Clock fail detected interrupt NMI source.."
bitfld.long 0x00 3. "SRAM_PERR,SRAM ParityCheck Error NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: SRAM parity check error NMI source Disabled,1: SRAM parity check error NMI source Enabled"
newline
bitfld.long 0x00 2. "PWRWU_INT,Power-down Mode Wake-up NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: Power-down mode wake-up NMI source Disabled,1: Power-down mode wake-up NMI source Enabled"
bitfld.long 0x00 1. "IRC_INT,IRC TRIM NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: IRC TRIM NMI source Disabled,1: IRC TRIM NMI source Enabled"
newline
bitfld.long 0x00 0. "BODOUT,BOD NMI Source Enable (Write Protect)\nNote: This bit is write protected" "0: BOD NMI source Disabled,1: BOD NMI source Enabled"
rgroup.long 0x04++0x03
line.long 0x00 "NMISTS,NMI Source Interrupt Status Register"
bitfld.long 0x00 15. "UART1_INT,UART1 Interrupt Flag (Read Only)" "0: UART1 interrupt is deasserted,1: UART1 interrupt is asserted"
bitfld.long 0x00 14. "UART0_INT,UART0 Interrupt Flag (Read Only)" "0: UART1 interrupt is deasserted,1: UART1 interrupt is asserted"
newline
bitfld.long 0x00 13. "EINT5,External Interrupt From INT5 Pin Interrupt Flag (Read Only)" "0: External Interrupt from INT5 interrupt is..,1: External Interrupt from INT5 interrupt is.."
bitfld.long 0x00 12. "EINT4,External Interrupt From INT4 Pin Interrupt Flag (Read Only)" "0: External Interrupt from INT4 interrupt is..,1: External Interrupt from INT4 interrupt is.."
newline
bitfld.long 0x00 11. "EINT3,External Interrupt From INT3 Pin Interrupt Flag (Read Only)" "0: External Interrupt from INT3interrupt is..,1: External Interrupt from INT3 interrupt is.."
bitfld.long 0x00 10. "EINT2,External Interrupt From INT2 Pin Interrupt Flag (Read Only)" "0: External Interrupt from INT2 interrupt is..,1: External Interrupt from INT2 interrupt is.."
newline
bitfld.long 0x00 9. "EINT1,External Interrupt From INT1 Pin Interrupt Flag (Read Only)" "0: External Interrupt from INT1 interrupt is..,1: External Interrupt from INT1 interrupt is.."
bitfld.long 0x00 8. "EINT0,External Interrupt From INT0 Pin Interrupt Flag (Read Only)" "0: External Interrupt from INT0 interrupt is..,1: External Interrupt from INT0 interrupt is.."
newline
bitfld.long 0x00 7. "TAMPER_INT,TAMPER_INT Interrupt Flag (Read Only)" "0: Backup register tamper detected interrupt is..,1: Backup register tamper detected interrupt is.."
bitfld.long 0x00 6. "RTC_INT,RTC Interrupt Flag (Read Only)" "0: RTC interrupt is deasserted,1: RTC interrupt is asserted"
newline
bitfld.long 0x00 4. "CLKFAIL,Clock Fail Detected Interrupt Flag (Read Only)" "0: Clock fail detected interrupt is deasserted,1: Clock fail detected interrupt is asserted"
bitfld.long 0x00 3. "SRAM_PERR,SRAM ParityCheck Error Interrupt Flag (Read Only)" "0: SRAM parity check error interrupt is deasserted,1: SRAM parity check error interrupt is asserted"
newline
bitfld.long 0x00 2. "PWRWU_INT,Power-down Mode Wake-up Interrupt Flag (Read Only)" "0: Power-down mode wake-up interrupt is deasserted,1: Power-down mode wake-up interrupt is asserted"
bitfld.long 0x00 1. "IRC_INT,IRC TRIM Interrupt Flag (Read Only)" "0: HIRC TRIM interrupt is deasserted,1: HIRC TRIM interrupt is asserted"
newline
bitfld.long 0x00 0. "BODOUT,BOD Interrupt Flag (Read Only)" "0: BOD interrupt is deasserted,1: BOD interrupt is asserted"
tree.end
tree "NVIC"
base ad:0xE000E100
repeat 4. (strings "0" "1" "2" "3" )(list 0x0 0x4 0x8 0xC )
group.long ($2+0x00)++0x03
line.long 0x00 "NVIC_ISER$1,IRQ0 ~ IRQ108 Set-enable Control Register"
hexmask.long 0x00 0.--31. 1. "SETENA,Interrupt Set Enable Bit\nThe NVIC_ISER0-NVIC_ISER3 registers enable interrupts and show which interrupts are enabled\nWrite Operation"
repeat.end
repeat 4. (strings "0" "1" "2" "3" )(list 0x0 0x4 0x8 0xC )
group.long ($2+0x80)++0x03
line.long 0x00 "NVIC_ICER$1,IRQ0 ~ IRQ108 Clear-enable Control Register"
hexmask.long 0x00 0.--31. 1. "CALENA,Interrupt Clear Enable Bit\nThe NVIC_ICER0-NVIC_ICER3 registers disable interrupts and show which interrupts are enabled.\nWrite Operation"
repeat.end
repeat 4. (strings "0" "1" "2" "3" )(list 0x00 0x04 0x08 0x0C )
group.long ($2+0x100)++0x03
line.long 0x00 "NVIC_ISPR$1,IRQ0 ~ IRQ108 Set-pending Control Register"
hexmask.long 0x00 0.--31. 1. "SETPEND,Interrupt Set-pending \nThe NVIC_ISPR0-NVIC_ISPR3 registers force interrupts into the pending state and show which interrupts are pending\nWrite Operation"
repeat.end
repeat 4. (strings "0" "1" "2" "3" )(list 0x00 0x04 0x08 0x0C )
group.long ($2+0x180)++0x03
line.long 0x00 "NVIC_ICPR$1,IRQ0 ~ IRQ108 Clear-pending Control Register"
hexmask.long 0x00 0.--31. 1. "CALPEND,Interrupt Clear-pending\nThe NVIC_ICPR0-NVIC_ICPR3 registers remove the pending state from interrupts and show which interrupts are pending\nWrite Operation"
repeat.end
repeat 4. (strings "0" "1" "2" "3" )(list 0x00 0x04 0x08 0x0C )
group.long ($2+0x200)++0x03
line.long 0x00 "NVIC_IABR$1,IRQ0 ~ IRQ108 Active Bit Register"
hexmask.long 0x00 0.--31. 1. "ACTIVE,Interrupt Active Flags\nThe NVIC_IABR0-NVIC_IABR3 registers indicate which interrupts are active"
repeat.end
repeat 16. (strings "0" "1" "2" "3" "4" "5" "6" "7" "8" "9" "10" "11" "12" "13" "14" "15" )(list 0x00 0x04 0x08 0x0C 0x10 0x14 0x18 0x1C 0x20 0x24 0x28 0x2C 0x30 0x34 0x38 0x3C )
group.long ($2+0x300)++0x03
line.long 0x00 "NVIC_IPR$1,IRQ0 ~ IRQ71 Priority Control Register"
bitfld.long 0x00 28.--31. "PRI_4n_3,Priority of IRQ_4n+3\n'0' denotes the highest priority and '15' denotes the lowest priority" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "PRI_4n_2,Priority of IRQ_4n+2\n'0' denotes the highest priority and '15' denotes the lowest priority" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PRI_4n_1,Priority of IRQ_4n+1\n'0' denotes the highest priority and '15' denotes the lowest priority" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "PRI_4n_0,Priority of IRQ_4n+0\n'0' denotes the highest priority and '15' denotes the lowest priority" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
repeat.end
repeat 13. (strings "16" "17" "18" "19" "20" "21" "22" "23" "24" "25" "26" "27" "28" )(list 0x00 0x04 0x08 0x0C 0x10 0x14 0x18 0x1C 0x20 0x24 0x28 0x2C 0x30 )
group.long ($2+0x340)++0x03
line.long 0x00 "NVIC_IPR$1,IRQ0 ~ IRQ71 Priority Control Register"
bitfld.long 0x00 28.--31. "PRI_4n_3,Priority of IRQ_4n+3\n'0' denotes the highest priority and '15' denotes the lowest priority" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "PRI_4n_2,Priority of IRQ_4n+2\n'0' denotes the highest priority and '15' denotes the lowest priority" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PRI_4n_1,Priority of IRQ_4n+1\n'0' denotes the highest priority and '15' denotes the lowest priority" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--7. "PRI_4n_0,Priority of IRQ_4n+0\n'0' denotes the highest priority and '15' denotes the lowest priority" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
repeat.end
group.long 0xE00++0x03
line.long 0x00 "STIR,Software Trigger Interrupt Registers"
hexmask.long.word 0x00 0.--8. 1. "INTID,Interrupt ID\nWrite to the STIR To Generate An Interrupt from Software\nWhen the USERSETMPEND bit in the SCR is set to 1 unprivileged software can access the STIR\nInterrupt ID of the interrupt to trigger in the range 0-63"
tree.end
tree "OPA"
base ad:0x40046000
group.long 0x00++0x03
line.long 0x00 "OPA_CTL,OP Amplifier Control Register"
bitfld.long 0x00 10. "OPDOIEN2,OP Amplifier 2 Schmitt Trigger Digital Output Interrupt Enable Bit\nNote: The OPDOIF2 interrupt flag is set by hardware whenever the OP amplifier 2 Schmitt trigger non-inverting buffer digital output changes state in the meanwhile if OPDOIEN2.." "0: OP Amplifier 2 digital output interrupt..,1: OP Amplifier 2 digital output interrupt.."
bitfld.long 0x00 9. "OPDOIEN1,OP Amplifier 1 Schmitt Trigger Digital Output Interrupt Enable Bit\nNote: The OPDOIF1 interrupt flag is set by hardware whenever the OP amplifier 1 Schmitt trigger non-inverting buffer digital output changes state in the meanwhile if OPDOIEN1.." "0: OP Amplifier 1 digital output interrupt..,1: OP Amplifier 1 digital output interrupt.."
newline
bitfld.long 0x00 8. "OPDOIEN0,OP Amplifier 0 Schmitt Trigger Digital Output Interrupt Enable Bit\nNote: The OPDOIF0 interrupt flag is set by hardware whenever the OP amplifier 0 Schmitt trigger non-inverting buffer digital output changes state in the meanwhile if OPDOIEN0.." "0: OP Amplifier 0 digital output interrupt..,1: OP Amplifier 0 digital output interrupt.."
bitfld.long 0x00 6. "OPDOEN2,OP Amplifier 2 Schmitt Trigger Non-inverting Buffer Enable Bit" "0: OP amplifier2 schmitt trigger non-invert..,1: OP amplifier2 schmitt trigger non-invert.."
newline
bitfld.long 0x00 5. "OPDOEN1,OP Amplifier 1 Schmitt Trigger Non-inverting Buffer Enable Bit" "0: OP amplifier1 schmitt trigger non-invert..,1: OP amplifier1 schmitt trigger non-invert.."
bitfld.long 0x00 4. "OPDOEN0,OP Amplifier 0 Schmitt Trigger Non-inverting Buffer Enable Bit" "0: OP amplifier0 schmitt trigger non-invert..,1: OP amplifier0 schmitt trigger non-invert.."
newline
bitfld.long 0x00 2. "OPEN2,OP Amplifier 2 Enable Bit\nNote: OP Amplifier 2 output needs wait stable 20s after OPEN2 is set" "0: OP amplifier2 Disabled,1: OP amplifier2 Enabled"
bitfld.long 0x00 1. "OPEN1,OP Amplifier 1 Enable Bit\nNote: OP Amplifier 1 output needs wait stable 20s after OPEN1 is set" "0: OP amplifier1 Disabled,1: OP amplifier1 Enabled"
newline
bitfld.long 0x00 0. "OPEN0,OP Amplifier 0 Enable Bit\nNote: OP Amplifier 0 output needs wait stable 20s after OPEN0 is set" "0: OP amplifier0 Disabled,1: OP amplifier0 Enabled"
group.long 0x04++0x03
line.long 0x00 "OPA_STATUS,OP Amplifier Status Register"
bitfld.long 0x00 6. "OPDOIF2,OP Amplifier 2 Schmitt Trigger Digital Output Interrupt Flag\nOPDOIF2 interrupt flag is set by hardware whenever the OP amplifier 2 Schmitt trigger non-inverting buffer digital output changes state" "0,1"
bitfld.long 0x00 5. "OPDOIF1,OP Amplifier 1 Schmitt Trigger Digital Output Interrupt Flag\nOPDOIF1 interrupt flag is set by hardware whenever the OP amplifier 1 Schmitt trigger non-inverting buffer digital output changes state" "0,1"
newline
bitfld.long 0x00 4. "OPDOIF0,OP Amplifier 0 Schmitt Trigger Digital Output Interrupt Flag\nOPDOIF0 interrupt flag is set by hardware whenever the OP amplifier 0 Schmitt trigger non-inverting buffer digital output changes state" "0,1"
bitfld.long 0x00 2. "OPDO2,OP Amplifier 2 Digital Output" "0,1"
newline
bitfld.long 0x00 1. "OPDO1,OP Amplifier 1 Digital Output" "0,1"
bitfld.long 0x00 0. "OPDO0,OP Amplifier 0 Digital Output" "0,1"
group.long 0x08++0x03
line.long 0x00 "OPA_CALCTL,OP Amplifier Calibration Control Register"
bitfld.long 0x00 18. "CALRVS2,OPA2 Calibration Reference Voltage Selection" "0: VREF is,1: VREF from high vcm to low vcm"
bitfld.long 0x00 17. "CALRVS1,OPA1 Calibration Reference Voltage Selection" "0: VREF is,1: VREF from high vcm to low vcm"
newline
bitfld.long 0x00 16. "CALRVS0,OPA0 Calibration Reference Voltage Selection" "0: VREF is,1: VREF from high vcm to low vcm"
bitfld.long 0x00 8.--9. "CALCLK2,OP Amplifier 2 Calibration Clock Rate Selection" "0: 1 kHz,1: Reserved,2: Reserved,3: Reserved"
newline
bitfld.long 0x00 6.--7. "CALCLK1,OP Amplifier 1 Calibration Clock Rate Selection" "0: 1 kHz,1: Reserved,2: Reserved,3: Reserved"
bitfld.long 0x00 4.--5. "CALCLK0,OP Amplifier 0 Calibration Clock Rate Selection" "0: 1 kHz,1: Reserved,2: Reserved,3: Reserved"
newline
bitfld.long 0x00 2. "CALTRG2,OP Amplifier 2 Calibration Trigger Bit\n" "0: Calibration is stopped,1: Calibration is triggered"
bitfld.long 0x00 1. "CALTRG1,OP Amplifier 1 Calibration Trigger Bit\n" "0: Calibration is stopped,1: Calibration is triggered"
newline
bitfld.long 0x00 0. "CALTRG0,OP Amplifier 0 Calibration Trigger Bit\n" "0: Calibration is stopped,1: Calibration is triggered"
rgroup.long 0x0C++0x03
line.long 0x00 "OPA_CALST,OP Amplifier Calibration Status Register"
bitfld.long 0x00 10. "CALPS2,OP Amplifier 2 Calibration Result Status for PMOS" "0: Pass,1: Fail"
bitfld.long 0x00 9. "CALNS2,OP Amplifier 2 Calibration Result Status for NMOS" "0: Pass,1: Fail"
newline
bitfld.long 0x00 8. "DONE2,OP Amplifier 2 Calibration Done Status" "0: Calibrating,1: Calibration Done"
bitfld.long 0x00 6. "CALPS1,OP Amplifier 1 Calibration Result Status for PMOS" "0: Pass,1: Fail"
newline
bitfld.long 0x00 5. "CALNS1,OP Amplifier 1 Calibration Result Status for NMOS" "0: Pass,1: Fail"
bitfld.long 0x00 4. "DONE1,OP Amplifier 1 Calibration Done Status" "0: Calibrating,1: Calibration Done"
newline
bitfld.long 0x00 2. "CALPS0,OP Amplifier 0 Calibration Result Status for PMOS" "0: Pass,1: Fail"
bitfld.long 0x00 1. "CALNS0,OP Amplifier 0 Calibration Result Status for NMOS" "0: Pass,1: Fail"
newline
bitfld.long 0x00 0. "DONE0,OP Amplifier 0 Calibration Done Status" "0: Calibrating,1: Calibration Done"
tree.end
tree "OTG"
base ad:0x4004D000
group.long 0x00++0x03
line.long 0x00 "OTG_CTL,OTG Control Register"
bitfld.long 0x00 5. "WKEN,OTG ID Pin Wake-up Enable Bit" "0: OTG ID pin status change wake-up function..,1: OTG ID pin status change wake-up function.."
bitfld.long 0x00 4. "OTGEN,OTG Function Enable Bit\nUser needs to set this bit to enable OTG function while USB frame configured as OTG device" "0: OTG function Disabled,1: OTG function Enabled"
newline
bitfld.long 0x00 2. "HNPREQEN,OTG HNP Request Enable Bit\nWhen USB frame as A-device set this bit when A-device allows to process HNP protocolA-device changes role from Host to Peripheral" "0: HNP request Disabled,1: HNP request Enabled (A-device can change role.."
bitfld.long 0x00 1. "BUSREQ,OTG Bus Request\nIf OTG A-device wants to do data transfers via USB bus setting this bit will drive VBUS high to detect USB device connection" "0: Do not launch VBUS in OTG A-device or not..,1: Launch VBUS in OTG A-device or request SRP in.."
newline
bitfld.long 0x00 0. "VBUSDROP,Drop VBUS Control\nIf user application running on this OTG A-device wants to conserve power set this bit to drop VBUS" "0: Do not drop the VBUS,1: Drop the VBUS"
group.long 0x04++0x03
line.long 0x00 "OTG_PHYCTL,OTG PHY Control Register"
bitfld.long 0x00 5. "VBSTSPOL,Off-chip USB VBUS Power Switch Status Polarity\nThe polarity of off-chip USB VBUS power switch valid signal depends on the selected component" "0: The polarity of off-chip USB VBUS power..,1: The polarity of off-chip USB VBUS power.."
bitfld.long 0x00 4. "VBENPOL,Off-chip USB VBUS Power Switch Enable Polarity\nThe OTG controller will enable off-chip USB VBUS power switch to provide VBUS power when need" "0: The off-chip USB VBUS power switch enable is..,1: The off-chip USB VBUS power switch enable is.."
newline
bitfld.long 0x00 1. "IDDETEN,ID Detection Enable Bit" "0: Detect ID pin status Disabled,1: Detect ID pin status Enabled"
bitfld.long 0x00 0. "OTGPHYEN,OTG PHY Enable Bit\nWhen USB frame is configured as OTG-device or ID-dependent user needs to set this bit before using OTG function" "0: OTG PHY Disabled,1: OTG PHY Enabled"
group.long 0x08++0x03
line.long 0x00 "OTG_INTEN,OTG Interrupt Enable Register"
bitfld.long 0x00 13. "SRPDETIEN,SRP Detected Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 11. "SECHGIEN,SESSEND Status Changed Interrupt Enable Bit\nIf this bit is set to 1 and SESSEND (OTG_STATUS[2]) status is changed from high to low or from low to high a interrupt will be asserted" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 10. "VBCHGIEN,VBUSVLD Status Changed Interrupt Enable Bit\nIf this bit is set to 1 and VBUSVLD (OTG_STATUS[5]) status is changed from high to low or from low to high a interrupt will be asserted" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 9. "AVLDCHGIEN,A-Device Session Valid Status Changed Interrupt Enable Bit\nIf this bit is set to 1 and AVLD (OTG_STATUS[4]) status is changed from high to low or from low to high a interrupt will be asserted" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 8. "BVLDCHGIEN,B-device Session Valid Status Changed Interrupt Enable Bit\nIf this bit is set to 1 and BVLD (OTG_STATUS[3]) status is changed from high to low or from low to high a interrupt will be asserted" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 7. "HOSTIEN,Act As Host Interrupt Enable Bit\nIf this bit is set to 1 and the device is changed as a host a interrupt will be asserted" "0: This device as a host interrupt Disabled,1: This device as a host interrupt Enabled"
newline
bitfld.long 0x00 6. "PDEVIEN,Act As Peripheral Interrupt Enable Bit\nIf this bit is set to 1 and the device is changed as a peripheral a interrupt will be asserted" "0: This device as a peripheral interrupt Disabled,1: This device as a peripheral interrupt Enabled"
bitfld.long 0x00 5. "IDCHGIEN,IDSTS Changed Interrupt Enable Bit\nIf this bit is set to 1 and IDSTS (OTG_STATUS[1]) status is changed from high to low or from low to high a interrupt will be asserted" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 4. "GOIDLEIEN,OTG Device Goes to IDLE State Interrupt Enable Bit\nNote: Going to idle state means going to a_idle or b_idle state" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 3. "HNPFIEN,HNP Fail Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 2. "SRPFIEN,SRP Fail Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 1. "VBEIEN,VBUS Error Interrupt Enable Bit\nNote: VBUS error means going to a_vbus_err state" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 0. "ROLECHGIEN,Role (Host or Peripheral) Changed Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
group.long 0x0C++0x03
line.long 0x00 "OTG_INTSTS,OTG Interrupt Status Register"
bitfld.long 0x00 13. "SRPDETIF,SRP Detected Interrupt Status\nNote: Write 1 to clear this status" "0: SRP not detected,1: SRP detected"
bitfld.long 0x00 11. "SECHGIF,SESSEND State Change Interrupt Status\nNote: Write 1 to clear this flag" "0: SESSEND (OTG_STATUS[2]) not toggled,1: SESSEND (OTG_STATUS[2]) from high to low or.."
newline
bitfld.long 0x00 10. "VBCHGIF,VBUSVLD State Change Interrupt Status\nNote: Write 1 to clear this status" "0: VBUSVLD (OTG_STATUS[5]) not toggled,1: VBUSVLD (OTG_STATUS[5]) from high to low or.."
bitfld.long 0x00 9. "AVLDCHGIF,A-Device Session Valid State Change Interrupt Status\nNote: Write 1 to clear this status" "0: AVLD (OTG_STATUS[4]) not toggled,1: AVLD (OTG_STATUS[4]) from high to low or low.."
newline
bitfld.long 0x00 8. "BVLDCHGIF,B-device Session Valid State Change Interrupt Status\nNote: Write 1 to clear this status" "0: BVLD (OTG_STATUS[3]) is not toggled,1: BVLD (OTG_STATUS[3]) from high to low or low.."
bitfld.long 0x00 7. "HOSTIF,Act As Host Interrupt Status\nNote: Write 1 to clear this flag" "0: This device does not act as a host,1: This device acts as a host"
newline
bitfld.long 0x00 6. "PDEVIF,Act As Peripheral Interrupt Status\nNote: Write 1 to clear this flag" "0: This device does not act as a peripheral,1: This device acts as a peripheral"
bitfld.long 0x00 5. "IDCHGIF,ID State Change Interrupt Status\nNote: Write 1 to clear this flag" "0: IDSTS (OTG_STATUS[1]) not toggled,1: IDSTS (OTG_STATUS[1]) from high to low or.."
newline
bitfld.long 0x00 4. "GOIDLEIF,OTG Device Goes to IDLE Interrupt Status\nFlag is set if the OTG device transfers from non-idle state to idle state" "0: OTG device does not go back to idle state..,1: OTG device goes back to idle state(a_idle or.."
bitfld.long 0x00 3. "HNPFIF,HNP Fail Interrupt Status\nWhen A-device has granted B-device to be host and USB bus is in SE0 (both USB_D+ and USB_D- low) state this bit will be set when A-device does not connect after specified interval expires" "0: A-device connects to B-device before..,1: A-device does not connect to B-device before.."
newline
bitfld.long 0x00 2. "SRPFIF,SRP Fail Interrupt Status\nAfter initiating SRP an OTG B-device will wait for the OTG A-device to drive VBUS high at least TB_SRP_FAIL minimum defined in OTG specification" "0: OTG B-device gets VBUS high before this..,1: OTG B-device does not get VBUS high before.."
bitfld.long 0x00 1. "VBEIF,VBUS Error Interrupt Status\nThis bit will be set when voltage on VBUS cannot reach a minimum valid threshold 4.4V within a maximum time of 100ms after OTG A-device starting to drive VBUS high" "0: OTG A-device drives VBUS over threshold..,1: OTG A-device cannot drive VBUS over threshold.."
newline
bitfld.long 0x00 0. "ROLECHGIF,OTG Role Change Interrupt Status\nThis flag is set when the role of an OTG device changed from a host to a peripheral or changed from a peripheral to a host while USB_ID pin status does not change.\nNote: Write 1 to clear this flag" "0: OTG device role not changed,1: OTG device role changed"
rgroup.long 0x10++0x03
line.long 0x00 "OTG_STATUS,OTG Status Register"
bitfld.long 0x00 7. "ASHOST,As Host Status\nWhen OTG acts as Host this bit is set" "0: OTG not as Host,1: OTG as Host"
bitfld.long 0x00 6. "ASPERI,As Peripheral Status\nWhen OTG acts as peripheral this bit is set" "0: OTG not as peripheral,1: OTG as peripheral"
newline
bitfld.long 0x00 5. "VBUSVLD,VBUS Valid Status\nWhen VBUS is larger than 4.7V this bit will be set to 1" "0: VBUS is not valid,1: VBUS is valid"
bitfld.long 0x00 4. "AVLD,A-Device Session Valid Status" "0: A-device session is not valid,1: A-device session is valid"
newline
bitfld.long 0x00 3. "BVLD,B-device Session Valid Status" "0: B-device session is not valid,1: B-device session is valid"
bitfld.long 0x00 2. "SESSEND,Session End Status\nWhen VBUS voltage is lower than 0.4V this bit will be set to 1" "0: Session is not end,1: Session is end"
newline
bitfld.long 0x00 1. "IDSTS,USB_ID Pin State of Mini-b/Micro-plug" "0: Mini-A/Micro-A plug is attached,1: Mini-B/Micro-B plug is attached"
bitfld.long 0x00 0. "OVERCUR,Overcurrent Condition\nThe voltage on VBUS cannot reach a minimum VBUS valid threshold 4.4V minimum within a maximum time of 100ms after OTG A-device drives VBUS high" "0: OTG A-device drives VBUS successfully,1: OTG A-device cannot drives VBUS high in this.."
tree.end
tree "PDMA"
tree "CURSCAT"
base ad:0x40008100
rgroup.long 0x00++0x03
line.long 0x00 "PDMA_CURSCAT0,Current Scatter-gather Descriptor Table Address of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "CURADDR,PDMA Current Description Address (Read Only)\nThis field indicates a 32-bit current external description address of PDMA controller.\nNote: This field is read only and used for Scatter-Gather mode only to indicate the current external.."
repeat 15. (strings "1" "2" "3" "4" "5" "6" "7" "8" "9" "10" "11" "12" "13" "14" "15" )(list 0x0 0x4 0x8 0xC 0x10 0x14 0x18 0x1C 0x20 0x24 0x28 0x2C 0x30 0x34 0x38 )
group.long ($2+0x04)++0x03
line.long 0x00 "PDMA_CURSCAT$1,Current Scatter-gather Descriptor Table Address of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "CURADDR,PDMA Current Description Address (Read Only)\nThis field indicates a 32-bit current external description address of PDMA controller.\nNote: This field is read only and used for Scatter-Gather mode only to indicate the current external.."
repeat.end
tree.end
tree "DSCT_CTL"
base ad:0x40008000
group.long 0x00++0x03
line.long 0x00 "PDMA_DSCT0_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0x10++0x03
line.long 0x00 "PDMA_DSCT1_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0x20++0x03
line.long 0x00 "PDMA_DSCT2_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0x30++0x03
line.long 0x00 "PDMA_DSCT3_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0x40++0x03
line.long 0x00 "PDMA_DSCT4_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0x50++0x03
line.long 0x00 "PDMA_DSCT5_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0x60++0x03
line.long 0x00 "PDMA_DSCT6_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0x70++0x03
line.long 0x00 "PDMA_DSCT7_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0x80++0x03
line.long 0x00 "PDMA_DSCT8_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0x90++0x03
line.long 0x00 "PDMA_DSCT9_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0xA0++0x03
line.long 0x00 "PDMA_DSCT10_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0xB0++0x03
line.long 0x00 "PDMA_DSCT11_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0xC0++0x03
line.long 0x00 "PDMA_DSCT12_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0xD0++0x03
line.long 0x00 "PDMA_DSCT13_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0xE0++0x03
line.long 0x00 "PDMA_DSCT14_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
group.long 0xF0++0x03
line.long 0x00 "PDMA_DSCT15_CTL,Descriptor Table Control Register of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "TXCNT,Transfer Count\nThe TXCNT represents the required number of PDMA transfer the real transfer count is (TXCNT + 1) The maximum transfer count is 65536 every transfer may be byte half-word or word that is dependent on TXWIDTH field.\nNote: When PDMA.."
bitfld.long 0x00 15. "STRIDEEN,Stride Mode Enable Bit" "0: Stride transfer mode Disabled,1: Stride transfer mode Enabled"
newline
bitfld.long 0x00 12.--13. "TXWIDTH,Transfer Width Selection\nThis field is used for transfer width.\nNote: The PDMA transfer source address (PDMA_DSCT_SA) and PDMA transfer destination address (PDMA_DSCT_DA) should be alignment under the TXWIDTH selection" "0: One byte (8 bit) is transferred for every..,1: One half-word (16 bit) is transferred for..,2: One word (32-bit) is transferred for every..,3: Reserved"
bitfld.long 0x00 10.--11. "DAINC,Destination Address Increment\nThis field is used to set the destination address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
newline
bitfld.long 0x00 8.--9. "SAINC,Source Address Increment\nThis field is used to set the source address increment size.\nNote: The fixed address function is not supported in memory to memory transfer type" "?,?,?,3: No increment (fixed address)"
bitfld.long 0x00 7. "TBINTDIS,Table Interrupt Disable Bit\nThis field can be used to decide whether to enable table interrupt or not" "0: Table interrupt Enabled,1: Table interrupt Disabled"
newline
bitfld.long 0x00 4.--6. "BURSIZE,Burst Size\nNote: This field is only useful in burst transfer type" "0: 128 Transfers,1: 64 Transfers,2: 32 Transfers,3: 16 Transfers,4: 8 Transfers,5: 4 Transfers,6: 2 Transfers,7: 1 Transfers"
bitfld.long 0x00 2. "TXTYPE,Transfer Type" "0: Burst transfer type,1: Single transfer type"
newline
bitfld.long 0x00 0.--1. "OPMODE,PDMA Operation Mode Selection\nNote: Before filling new transfer task in the Descriptor Table user must check the PDMA_INTSTS[1] to make sure the curren task is complete" "0: Idle state,1: Basic mode,2: Scatter-Gather mode,3: Reserved"
tree.end
tree "DSCT_DA"
base ad:0x40008008
group.long 0x00++0x03
line.long 0x00 "PDMA_DSCT0_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0x10++0x03
line.long 0x00 "PDMA_DSCT1_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0x20++0x03
line.long 0x00 "PDMA_DSCT2_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0x30++0x03
line.long 0x00 "PDMA_DSCT3_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0x40++0x03
line.long 0x00 "PDMA_DSCT4_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0x50++0x03
line.long 0x00 "PDMA_DSCT5_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0x60++0x03
line.long 0x00 "PDMA_DSCT6_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0x70++0x03
line.long 0x00 "PDMA_DSCT7_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0x80++0x03
line.long 0x00 "PDMA_DSCT8_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0x90++0x03
line.long 0x00 "PDMA_DSCT9_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0xA0++0x03
line.long 0x00 "PDMA_DSCT10_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0xB0++0x03
line.long 0x00 "PDMA_DSCT11_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0xC0++0x03
line.long 0x00 "PDMA_DSCT12_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0xD0++0x03
line.long 0x00 "PDMA_DSCT13_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0xE0++0x03
line.long 0x00 "PDMA_DSCT14_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
group.long 0xF0++0x03
line.long 0x00 "PDMA_DSCT15_DA,Destination Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "DA,PDMA Transfer Destination Address\nThis field indicates a 32-bit destination address of PDMA controller"
tree.end
tree "DSCT_NEXT"
base ad:0x4000800C
group.long 0x00++0x03
line.long 0x00 "PDMA_DSCT0_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0x10++0x03
line.long 0x00 "PDMA_DSCT1_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0x20++0x03
line.long 0x00 "PDMA_DSCT2_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0x30++0x03
line.long 0x00 "PDMA_DSCT3_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0x40++0x03
line.long 0x00 "PDMA_DSCT4_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0x50++0x03
line.long 0x00 "PDMA_DSCT5_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0x60++0x03
line.long 0x00 "PDMA_DSCT6_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0x70++0x03
line.long 0x00 "PDMA_DSCT7_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0x80++0x03
line.long 0x00 "PDMA_DSCT8_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0x90++0x03
line.long 0x00 "PDMA_DSCT9_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0xA0++0x03
line.long 0x00 "PDMA_DSCT10_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0xB0++0x03
line.long 0x00 "PDMA_DSCT11_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0xC0++0x03
line.long 0x00 "PDMA_DSCT12_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0xD0++0x03
line.long 0x00 "PDMA_DSCT13_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0xE0++0x03
line.long 0x00 "PDMA_DSCT14_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
group.long 0xF0++0x03
line.long 0x00 "PDMA_DSCT15_NEXT,Next Scatter-gather Descriptor Table Offset Address of PDMA Channel n"
hexmask.long.word 0x00 16.--31. 1. "EXENEXT,PDMA Execution Next Descriptor Table Offset\nThis field indicates the offset of next descriptor table address of current execution descriptor table in system memory"
abitfld.long 0x00 0.--15. "NEXT,PDMA Next Descriptor Table Offset\nThis field indicates the offset of the next descriptor table address in system memory" "0x0001=1: The descriptor table address must be..,0x0002=2: Before filled transfer task in the.."
tree.end
tree "DSCT_SA"
base ad:0x40008004
group.long 0x00++0x03
line.long 0x00 "PDMA_DSCT0_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0x10++0x03
line.long 0x00 "PDMA_DSCT1_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0x20++0x03
line.long 0x00 "PDMA_DSCT2_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0x30++0x03
line.long 0x00 "PDMA_DSCT3_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0x40++0x03
line.long 0x00 "PDMA_DSCT4_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0x50++0x03
line.long 0x00 "PDMA_DSCT5_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0x60++0x03
line.long 0x00 "PDMA_DSCT6_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0x70++0x03
line.long 0x00 "PDMA_DSCT7_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0x80++0x03
line.long 0x00 "PDMA_DSCT8_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0x90++0x03
line.long 0x00 "PDMA_DSCT9_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0xA0++0x03
line.long 0x00 "PDMA_DSCT10_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0xB0++0x03
line.long 0x00 "PDMA_DSCT11_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0xC0++0x03
line.long 0x00 "PDMA_DSCT12_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0xD0++0x03
line.long 0x00 "PDMA_DSCT13_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0xE0++0x03
line.long 0x00 "PDMA_DSCT14_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
group.long 0xF0++0x03
line.long 0x00 "PDMA_DSCT15_SA,Source Address Register of PDMA Channel n"
hexmask.long 0x00 0.--31. 1. "SA,PDMA Transfer Source Address\nThis field indicates a 32-bit source address of PDMA controller"
tree.end
tree "PDMA"
base ad:0x40008000
group.long 0x400++0x03
line.long 0x00 "PDMA_CHCTL,PDMA Channel Control Register"
bitfld.long 0x00 15. "CHEN15,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
bitfld.long 0x00 14. "CHEN14,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
newline
bitfld.long 0x00 13. "CHEN13,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
bitfld.long 0x00 12. "CHEN12,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
newline
bitfld.long 0x00 11. "CHEN11,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
bitfld.long 0x00 10. "CHEN10,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
newline
bitfld.long 0x00 9. "CHEN9,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
bitfld.long 0x00 8. "CHEN8,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
newline
bitfld.long 0x00 7. "CHEN7,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
bitfld.long 0x00 6. "CHEN6,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
newline
bitfld.long 0x00 5. "CHEN5,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
bitfld.long 0x00 4. "CHEN4,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
newline
bitfld.long 0x00 3. "CHEN3,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
bitfld.long 0x00 2. "CHEN2,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
newline
bitfld.long 0x00 1. "CHEN1,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
bitfld.long 0x00 0. "CHEN0,PDMA Channel Enable Bits\nSet this bit to 1 to enable PDMAn operation" "0: PDMA channel [n] Disabled,1: PDMA channel [n] Enabled"
wgroup.long 0x404++0x03
line.long 0x00 "PDMA_PAUSE,PDMA Transfer Pause Control Register"
bitfld.long 0x00 15. "PAUSE15,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
bitfld.long 0x00 14. "PAUSE14,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
newline
bitfld.long 0x00 13. "PAUSE13,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
bitfld.long 0x00 12. "PAUSE12,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
newline
bitfld.long 0x00 11. "PAUSE11,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
bitfld.long 0x00 10. "PAUSE10,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
newline
bitfld.long 0x00 9. "PAUSE9,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
bitfld.long 0x00 8. "PAUSE8,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
newline
bitfld.long 0x00 7. "PAUSE7,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
bitfld.long 0x00 6. "PAUSE6,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
newline
bitfld.long 0x00 5. "PAUSE5,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
bitfld.long 0x00 4. "PAUSE4,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
newline
bitfld.long 0x00 3. "PAUSE3,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
bitfld.long 0x00 2. "PAUSE2,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
newline
bitfld.long 0x00 1. "PAUSE1,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
bitfld.long 0x00 0. "PAUSE0,PDMA Channel n Transfer Pause Control (Write Only)" "0: No effect,1: Pause PDMA channel n transfer"
wgroup.long 0x408++0x03
line.long 0x00 "PDMA_SWREQ,PDMA Software Request Register"
bitfld.long 0x00 15. "SWREQ15,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
bitfld.long 0x00 14. "SWREQ14,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
newline
bitfld.long 0x00 13. "SWREQ13,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
bitfld.long 0x00 12. "SWREQ12,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
newline
bitfld.long 0x00 11. "SWREQ11,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
bitfld.long 0x00 10. "SWREQ10,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
newline
bitfld.long 0x00 9. "SWREQ9,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
bitfld.long 0x00 8. "SWREQ8,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
newline
bitfld.long 0x00 7. "SWREQ7,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
bitfld.long 0x00 6. "SWREQ6,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
newline
bitfld.long 0x00 5. "SWREQ5,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
bitfld.long 0x00 4. "SWREQ4,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
newline
bitfld.long 0x00 3. "SWREQ3,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
bitfld.long 0x00 2. "SWREQ2,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
newline
bitfld.long 0x00 1. "SWREQ1,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
bitfld.long 0x00 0. "SWREQ0,PDMA Software Request (Write Only)\nSet this bit to 1 to generate a software request to PDMA [n].\n" "0: No effect,1: Generate a software request"
rgroup.long 0x40C++0x03
line.long 0x00 "PDMA_TRGSTS,PDMA Channel Request Status Register"
bitfld.long 0x00 15. "REQSTS15,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
bitfld.long 0x00 14. "REQSTS14,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
newline
bitfld.long 0x00 13. "REQSTS13,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
bitfld.long 0x00 12. "REQSTS12,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
newline
bitfld.long 0x00 11. "REQSTS11,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
bitfld.long 0x00 10. "REQSTS10,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
newline
bitfld.long 0x00 9. "REQSTS9,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
bitfld.long 0x00 8. "REQSTS8,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
newline
bitfld.long 0x00 7. "REQSTS7,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
bitfld.long 0x00 6. "REQSTS6,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
newline
bitfld.long 0x00 5. "REQSTS5,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
bitfld.long 0x00 4. "REQSTS4,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
newline
bitfld.long 0x00 3. "REQSTS3,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
bitfld.long 0x00 2. "REQSTS2,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
newline
bitfld.long 0x00 1. "REQSTS1,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
bitfld.long 0x00 0. "REQSTS0,PDMA Channel Request Status (Read Only)\nThis flag indicates whether channel[n] have a request or not no matter request from software or peripheral" "0: PDMA Channel n has no request,1: PDMA Channel n has a request"
group.long 0x410++0x03
line.long 0x00 "PDMA_PRISET,PDMA Fixed Priority Setting Register"
bitfld.long 0x00 15. "FPRISET15,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
bitfld.long 0x00 14. "FPRISET14,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
newline
bitfld.long 0x00 13. "FPRISET13,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
bitfld.long 0x00 12. "FPRISET12,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
newline
bitfld.long 0x00 11. "FPRISET11,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
bitfld.long 0x00 10. "FPRISET10,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
newline
bitfld.long 0x00 9. "FPRISET9,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
bitfld.long 0x00 8. "FPRISET8,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
newline
bitfld.long 0x00 7. "FPRISET7,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
bitfld.long 0x00 6. "FPRISET6,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
newline
bitfld.long 0x00 5. "FPRISET5,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
bitfld.long 0x00 4. "FPRISET4,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
newline
bitfld.long 0x00 3. "FPRISET3,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
bitfld.long 0x00 2. "FPRISET2,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
newline
bitfld.long 0x00 1. "FPRISET1,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
bitfld.long 0x00 0. "FPRISET0,PDMA Fixed Priority Setting\nSet this bit to 1 to enable fixed priority level.\nWrite Operation:\nNote: This field only set to fixed priority clear fixed priority use PDMA_PRICLR register" "0: No effect.\nCorresponding PDMA channel is..,1: Set PDMA channel [n] to fixed priority.."
wgroup.long 0x414++0x03
line.long 0x00 "PDMA_PRICLR,PDMA Fixed Priority Clear Register"
bitfld.long 0x00 15. "FPRICLR15,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
bitfld.long 0x00 14. "FPRICLR14,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
newline
bitfld.long 0x00 13. "FPRICLR13,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
bitfld.long 0x00 12. "FPRICLR12,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
newline
bitfld.long 0x00 11. "FPRICLR11,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
bitfld.long 0x00 10. "FPRICLR10,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
newline
bitfld.long 0x00 9. "FPRICLR9,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
bitfld.long 0x00 8. "FPRICLR8,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
newline
bitfld.long 0x00 7. "FPRICLR7,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
bitfld.long 0x00 6. "FPRICLR6,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
newline
bitfld.long 0x00 5. "FPRICLR5,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
bitfld.long 0x00 4. "FPRICLR4,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
newline
bitfld.long 0x00 3. "FPRICLR3,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
bitfld.long 0x00 2. "FPRICLR2,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
newline
bitfld.long 0x00 1. "FPRICLR1,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
bitfld.long 0x00 0. "FPRICLR0,PDMA Fixed Priority Clear Bits (Write Only)\nSet this bit to 1 to clear fixed priority level.\nNote: User can read PDMA_PRISET register to know the channel priority" "0: No effect,1: Clear PDMA channel [n] fixed priority setting"
group.long 0x418++0x03
line.long 0x00 "PDMA_INTEN,PDMA Interrupt Enable Register"
bitfld.long 0x00 15. "INTEN15,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
bitfld.long 0x00 14. "INTEN14,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
newline
bitfld.long 0x00 13. "INTEN13,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
bitfld.long 0x00 12. "INTEN12,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
newline
bitfld.long 0x00 11. "INTEN11,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
bitfld.long 0x00 10. "INTEN10,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
newline
bitfld.long 0x00 9. "INTEN9,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
bitfld.long 0x00 8. "INTEN8,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
newline
bitfld.long 0x00 7. "INTEN7,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
bitfld.long 0x00 6. "INTEN6,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
newline
bitfld.long 0x00 5. "INTEN5,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
bitfld.long 0x00 4. "INTEN4,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
newline
bitfld.long 0x00 3. "INTEN3,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
bitfld.long 0x00 2. "INTEN2,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
newline
bitfld.long 0x00 1. "INTEN1,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
bitfld.long 0x00 0. "INTEN0,PDMA Interrupt Enable Bits\nThis field is used to enable PDMA channel[n] interrupt" "0: PDMA channel n interrupt Disabled,1: PDMA channel n interrupt Enabled"
group.long 0x41C++0x03
line.long 0x00 "PDMA_INTSTS,PDMA Interrupt Status Register"
bitfld.long 0x00 9. "REQTOF1,Request Time-out Flag for Channel 1\nThis flag indicates that PDMA controller has waited peripheral request for a period defined by PDMA_TOC1 user can write 1 to clear these bits.\nNote: Please disable time-out function before clear this bit" "0: No request time-out,1: Peripheral request time-out"
bitfld.long 0x00 8. "REQTOF0,Request Time-out Flag for Channel 0\nThis flag indicates that PDMA controller has waited peripheral request for a period defined by PDMA_TOC0 user can write 1 to clear these bits.\nNote: Please disable time-out function before clear this bit" "0: No request time-out,1: Peripheral request time-out"
newline
rbitfld.long 0x00 2. "ALIGNF,Transfer Alignment Interrupt Flag (Read Only)" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
rbitfld.long 0x00 1. "TDIF,Transfer Done Interrupt Flag (Read Only)\nThis bit indicates that PDMA controller has finished transmission User can read PDMA_TDSTS register to indicate which channel finished transfer" "0: Not finished yet,1: PDMA channel has finished transmission"
newline
rbitfld.long 0x00 0. "ABTIF,PDMA Read/Write Target Abort Interrupt Flag (Read Only)\nThis bit indicates that PDMA has target abort error Software can read PDMA_ABTSTS register to find which channel has target abort error" "0: No AHB bus ERROR response received,1: AHB bus ERROR response received"
group.long 0x420++0x03
line.long 0x00 "PDMA_ABTSTS,PDMA Channel Read/Write Target Abort Flag Register"
bitfld.long 0x00 15. "ABTIF15,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
bitfld.long 0x00 14. "ABTIF14,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
newline
bitfld.long 0x00 13. "ABTIF13,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
bitfld.long 0x00 12. "ABTIF12,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
newline
bitfld.long 0x00 11. "ABTIF11,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
bitfld.long 0x00 10. "ABTIF10,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
newline
bitfld.long 0x00 9. "ABTIF9,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
bitfld.long 0x00 8. "ABTIF8,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
newline
bitfld.long 0x00 7. "ABTIF7,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
bitfld.long 0x00 6. "ABTIF6,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
newline
bitfld.long 0x00 5. "ABTIF5,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
bitfld.long 0x00 4. "ABTIF4,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
newline
bitfld.long 0x00 3. "ABTIF3,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
bitfld.long 0x00 2. "ABTIF2,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
newline
bitfld.long 0x00 1. "ABTIF1,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
bitfld.long 0x00 0. "ABTIF0,PDMA Read/Write Target Abort Interrupt Status Flag\nThis bit indicates which PDMA controller has target abort error User can write 1 to clear these bits" "0: No AHB bus ERROR response received when..,1: AHB bus ERROR response received when channel.."
group.long 0x424++0x03
line.long 0x00 "PDMA_TDSTS,PDMA Channel Transfer Done Flag Register"
bitfld.long 0x00 15. "TDIF15,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
bitfld.long 0x00 14. "TDIF14,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
newline
bitfld.long 0x00 13. "TDIF13,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
bitfld.long 0x00 12. "TDIF12,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
newline
bitfld.long 0x00 11. "TDIF11,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
bitfld.long 0x00 10. "TDIF10,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
newline
bitfld.long 0x00 9. "TDIF9,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
bitfld.long 0x00 8. "TDIF8,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
newline
bitfld.long 0x00 7. "TDIF7,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
bitfld.long 0x00 6. "TDIF6,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
newline
bitfld.long 0x00 5. "TDIF5,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
bitfld.long 0x00 4. "TDIF4,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
newline
bitfld.long 0x00 3. "TDIF3,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
bitfld.long 0x00 2. "TDIF2,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
newline
bitfld.long 0x00 1. "TDIF1,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
bitfld.long 0x00 0. "TDIF0,Transfer Done Flag\nThis bit indicates whether PDMA controller channel transfer has been finished or not user can write 1 to clear these bits" "0: PDMA channel transfer has not finished,1: PDMA channel has finished transmission"
group.long 0x428++0x03
line.long 0x00 "PDMA_ALIGN,PDMA Transfer Alignment Status Register"
bitfld.long 0x00 15. "ALIGN15,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
bitfld.long 0x00 14. "ALIGN14,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
newline
bitfld.long 0x00 13. "ALIGN13,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
bitfld.long 0x00 12. "ALIGN12,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
newline
bitfld.long 0x00 11. "ALIGN11,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
bitfld.long 0x00 10. "ALIGN10,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
newline
bitfld.long 0x00 9. "ALIGN9,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
bitfld.long 0x00 8. "ALIGN8,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
newline
bitfld.long 0x00 7. "ALIGN7,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
bitfld.long 0x00 6. "ALIGN6,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
newline
bitfld.long 0x00 5. "ALIGN5,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
bitfld.long 0x00 4. "ALIGN4,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
newline
bitfld.long 0x00 3. "ALIGN3,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
bitfld.long 0x00 2. "ALIGN2,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
newline
bitfld.long 0x00 1. "ALIGN1,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
bitfld.long 0x00 0. "ALIGN0,Transfer Alignment Flag\nNote: Source address and destination address should be alignment" "0: PDMA channel source address and destination..,1: PDMA channel source address or destination.."
rgroup.long 0x42C++0x03
line.long 0x00 "PDMA_TACTSTS,PDMA Transfer Active Flag Register"
bitfld.long 0x00 15. "TXACTF15,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
bitfld.long 0x00 14. "TXACTF14,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
newline
bitfld.long 0x00 13. "TXACTF13,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
bitfld.long 0x00 12. "TXACTF12,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
newline
bitfld.long 0x00 11. "TXACTF11,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
bitfld.long 0x00 10. "TXACTF10,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
newline
bitfld.long 0x00 9. "TXACTF9,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
bitfld.long 0x00 8. "TXACTF8,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
newline
bitfld.long 0x00 7. "TXACTF7,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
bitfld.long 0x00 6. "TXACTF6,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
newline
bitfld.long 0x00 5. "TXACTF5,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
bitfld.long 0x00 4. "TXACTF4,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
newline
bitfld.long 0x00 3. "TXACTF3,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
bitfld.long 0x00 2. "TXACTF2,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
newline
bitfld.long 0x00 1. "TXACTF1,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
bitfld.long 0x00 0. "TXACTF0,Transfer on Active Flag (Read Only)\nThis bit indicates which PDMA channel is in active" "0: PDMA channel is not finished,1: PDMA channel is active"
group.long 0x430++0x03
line.long 0x00 "PDMA_TOUTPSC,PDMA Time-out Prescaler Register"
bitfld.long 0x00 4.--6. "TOUTPSC1,PDMA Channel 1 Time-out Clock Source Prescaler Bits" "0: PDMA channel 1 time-out clock source is HCLK/28,1: PDMA channel 1 time-out clock source is HCLK/29,2: PDMA channel 1 time-out clock source is..,3: PDMA channel 1 time-out clock source is..,4: PDMA channel 1 time-out clock source is..,5: PDMA channel 1 time-out clock source is..,6: PDMA channel 1 time-out clock source is..,7: PDMA channel 1 time-out clock source is.."
bitfld.long 0x00 0.--2. "TOUTPSC0,PDMA Channel 0 Time-out Clock Source Prescaler Bits" "0: PDMA channel 0 time-out clock source is HCLK/28,1: PDMA channel 0 time-out clock source is HCLK/29,2: PDMA channel 0 time-out clock source is..,3: PDMA channel 0 time-out clock source is..,4: PDMA channel 0 time-out clock source is..,5: PDMA channel 0 time-out clock source is..,6: PDMA channel 0 time-out clock source is..,7: PDMA channel 0 time-out clock source is.."
group.long 0x434++0x03
line.long 0x00 "PDMA_TOUTEN,PDMA Time-out Enable Register"
bitfld.long 0x00 1. "TOUTEN1,PDMA Time-out Enable Bits" "0: PDMA Channel n time-out function Disabled,1: PDMA Channel n time-out function Enabled"
bitfld.long 0x00 0. "TOUTEN0,PDMA Time-out Enable Bits" "0: PDMA Channel n time-out function Disabled,1: PDMA Channel n time-out function Enabled"
group.long 0x438++0x03
line.long 0x00 "PDMA_TOUTIEN,PDMA Time-out Interrupt Enable Register"
bitfld.long 0x00 1. "TOUTIEN1,PDMA Time-out Interrupt Enable Bits" "0: PDMA Channel n time-out interrupt Disabled,1: PDMA Channel n time-out interrupt Enabled"
bitfld.long 0x00 0. "TOUTIEN0,PDMA Time-out Interrupt Enable Bits" "0: PDMA Channel n time-out interrupt Disabled,1: PDMA Channel n time-out interrupt Enabled"
group.long 0x43C++0x03
line.long 0x00 "PDMA_SCATBA,PDMA Scatter-gather Descriptor Table Base Address Register"
hexmask.long.word 0x00 16.--31. 1. "SCATBA,PDMA Scatter-gather Descriptor Table Address\nIn Scatter-Gather mode this is the base address for calculating the next link - list address"
group.long 0x440++0x03
line.long 0x00 "PDMA_TOC0_1,PDMA Time-out Counter Ch1 and Ch0 Register"
hexmask.long.word 0x00 16.--31. 1. "TOC1,Time-out Counter for Channel 1\nThis controls the period of time-out function for channel 1"
hexmask.long.word 0x00 0.--15. 1. "TOC0,Time-out Counter for Channel 0\nThis controls the period of time-out function for channel 0"
group.long 0x460++0x03
line.long 0x00 "PDMA_CHRST,PDMA Channel Reset Register"
hexmask.long.word 0x00 0.--15. 1. "CHnRST,Channel n Reset\nNote: This function don't support stride mode"
group.long 0x480++0x03
line.long 0x00 "PDMA_REQSEL0_3,PDMA Request Source Select Register 0"
hexmask.long.byte 0x00 24.--30. 1. "REQSRC3,Channel 3 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 3"
hexmask.long.byte 0x00 16.--22. 1. "REQSRC2,Channel 2 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 2"
newline
hexmask.long.byte 0x00 8.--14. 1. "REQSRC1,Channel 1 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 1"
abitfld.long 0x00 0.--6. "REQSRC0,Channel 0 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 0" "0x01=1: A peripheral cannot be assigned to two..,0x02=2: This field is useless when transfer.."
group.long 0x484++0x03
line.long 0x00 "PDMA_REQSEL4_7,PDMA Request Source Select Register 1"
hexmask.long.byte 0x00 24.--30. 1. "REQSRC7,Channel 7 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 7"
hexmask.long.byte 0x00 16.--22. 1. "REQSRC6,Channel 6 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 6"
newline
hexmask.long.byte 0x00 8.--14. 1. "REQSRC5,Channel 5 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 5"
hexmask.long.byte 0x00 0.--6. 1. "REQSRC4,Channel 4 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 4"
group.long 0x488++0x03
line.long 0x00 "PDMA_REQSEL8_11,PDMA Request Source Select Register 2"
hexmask.long.byte 0x00 24.--30. 1. "REQSRC11,Channel 11 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 11"
hexmask.long.byte 0x00 16.--22. 1. "REQSRC10,Channel 10 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 10"
newline
hexmask.long.byte 0x00 8.--14. 1. "REQSRC9,Channel 9 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 9"
hexmask.long.byte 0x00 0.--6. 1. "REQSRC8,Channel 8 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 8"
group.long 0x48C++0x03
line.long 0x00 "PDMA_REQSEL12_15,PDMA Request Source Select Register 3"
hexmask.long.byte 0x00 24.--30. 1. "REQSRC15,Channel 15 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 15"
hexmask.long.byte 0x00 16.--22. 1. "REQSRC14,Channel 14 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 14"
newline
hexmask.long.byte 0x00 8.--14. 1. "REQSRC13,Channel 13 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 13"
hexmask.long.byte 0x00 0.--6. 1. "REQSRC12,Channel 12 Request Source Selection\nThis filed defines which peripheral is connected to PDMA channel 12"
group.long 0x500++0x03
line.long 0x00 "PDMA_STC0,Stride Transfer Count Register of PDMA Channel 0"
hexmask.long.word 0x00 0.--15. 1. "STC,PDMA Stride Transfer Count\nThe 16-bit register defines the stride transfer count of each row the real transfer count is (STC + 1)"
group.long 0x504++0x03
line.long 0x00 "PDMA_ASOCTL0,Address Stride Offset Control Register of PDMA Channel 0"
hexmask.long.word 0x00 16.--31. 1. "DASOL,PDMA Destination Address Stride Offset Length\nThe 16-bit register defines the destination address stride transfer offset count of each row"
hexmask.long.word 0x00 0.--15. 1. "SASOL,PDMA Source Address Stride Offset Length\nThe 16-bit register defines the source address stride transfer offset count of each row"
group.long 0x508++0x03
line.long 0x00 "PDMA_STC1,Stride Transfer Count Register of PDMA Channel 1"
hexmask.long.word 0x00 0.--15. 1. "STC,PDMA Stride Transfer Count\nThe 16-bit register defines the stride transfer count of each row the real transfer count is (STC + 1)"
group.long 0x50C++0x03
line.long 0x00 "PDMA_ASOCTL1,Address Stride Offset Control Register of PDMA Channel 1"
hexmask.long.word 0x00 16.--31. 1. "DASOL,PDMA Destination Address Stride Offset Length\nThe 16-bit register defines the destination address stride transfer offset count of each row"
hexmask.long.word 0x00 0.--15. 1. "SASOL,PDMA Source Address Stride Offset Length\nThe 16-bit register defines the source address stride transfer offset count of each row"
group.long 0x510++0x03
line.long 0x00 "PDMA_STC2,Stride Transfer Count Register of PDMA Channel 2"
hexmask.long.word 0x00 0.--15. 1. "STC,PDMA Stride Transfer Count\nThe 16-bit register defines the stride transfer count of each row the real transfer count is (STC + 1)"
group.long 0x514++0x03
line.long 0x00 "PDMA_ASOCTL2,Address Stride Offset Control Register of PDMA Channel 2"
hexmask.long.word 0x00 16.--31. 1. "DASOL,PDMA Destination Address Stride Offset Length\nThe 16-bit register defines the destination address stride transfer offset count of each row"
hexmask.long.word 0x00 0.--15. 1. "SASOL,PDMA Source Address Stride Offset Length\nThe 16-bit register defines the source address stride transfer offset count of each row"
group.long 0x518++0x03
line.long 0x00 "PDMA_STC3,Stride Transfer Count Register of PDMA Channel 3"
hexmask.long.word 0x00 0.--15. 1. "STC,PDMA Stride Transfer Count\nThe 16-bit register defines the stride transfer count of each row the real transfer count is (STC + 1)"
group.long 0x51C++0x03
line.long 0x00 "PDMA_ASOCTL3,Address Stride Offset Control Register of PDMA Channel 3"
hexmask.long.word 0x00 16.--31. 1. "DASOL,PDMA Destination Address Stride Offset Length\nThe 16-bit register defines the destination address stride transfer offset count of each row"
hexmask.long.word 0x00 0.--15. 1. "SASOL,PDMA Source Address Stride Offset Length\nThe 16-bit register defines the source address stride transfer offset count of each row"
group.long 0x520++0x03
line.long 0x00 "PDMA_STC4,Stride Transfer Count Register of PDMA Channel 4"
hexmask.long.word 0x00 0.--15. 1. "STC,PDMA Stride Transfer Count\nThe 16-bit register defines the stride transfer count of each row the real transfer count is (STC + 1)"
group.long 0x524++0x03
line.long 0x00 "PDMA_ASOCTL4,Address Stride Offset Control Register of PDMA Channel 4"
hexmask.long.word 0x00 16.--31. 1. "DASOL,PDMA Destination Address Stride Offset Length\nThe 16-bit register defines the destination address stride transfer offset count of each row"
hexmask.long.word 0x00 0.--15. 1. "SASOL,PDMA Source Address Stride Offset Length\nThe 16-bit register defines the source address stride transfer offset count of each row"
group.long 0x528++0x03
line.long 0x00 "PDMA_STC5,Stride Transfer Count Register of PDMA Channel 5"
hexmask.long.word 0x00 0.--15. 1. "STC,PDMA Stride Transfer Count\nThe 16-bit register defines the stride transfer count of each row the real transfer count is (STC + 1)"
group.long 0x52C++0x03
line.long 0x00 "PDMA_ASOCTL5,Address Stride Offset Control Register of PDMA Channel 5"
hexmask.long.word 0x00 16.--31. 1. "DASOL,PDMA Destination Address Stride Offset Length\nThe 16-bit register defines the destination address stride transfer offset count of each row"
hexmask.long.word 0x00 0.--15. 1. "SASOL,PDMA Source Address Stride Offset Length\nThe 16-bit register defines the source address stride transfer offset count of each row"
group.long 0x600++0x03
line.long 0x00 "PDMA_AICTL0,Address Interval Control Register of PDMA Channel 0"
hexmask.long.word 0x00 16.--31. 1. "DAICNT,PDMA Destination Address Interval Count\nThe 16-bit register defines the destination address interval count of each row.\nNote: This register should be set to 0 when repeat count(PDMA_RCNTn) set to 0"
hexmask.long.word 0x00 0.--15. 1. "SAICNT,PDMA Source Address Interval Count\nThe 16-bit register defines the source address interval count of each row.\nNote: This register should be set to 0 when repeat count(PDMA_RCNTn) set to 0"
group.long 0x604++0x03
line.long 0x00 "PDMA_RCNT0,Repeat Count Register of PDMA Channel 0"
hexmask.long.word 0x00 0.--15. 1. "RCNT,PDMA Repeat Count\nThe 16-bit register defines the repeat times of block transfer.\nNote: This register should be set to 0 when stride function disabled"
group.long 0x608++0x03
line.long 0x00 "PDMA_AICTL1,Address Interval Control Register of PDMA Channel 1"
hexmask.long.word 0x00 16.--31. 1. "DAICNT,PDMA Destination Address Interval Count\nThe 16-bit register defines the destination address interval count of each row.\nNote: This register should be set to 0 when repeat count(PDMA_RCNTn) set to 0"
hexmask.long.word 0x00 0.--15. 1. "SAICNT,PDMA Source Address Interval Count\nThe 16-bit register defines the source address interval count of each row.\nNote: This register should be set to 0 when repeat count(PDMA_RCNTn) set to 0"
group.long 0x60C++0x03
line.long 0x00 "PDMA_RCNT1,Repeat Count Register of PDMA Channel 1"
hexmask.long.word 0x00 0.--15. 1. "RCNT,PDMA Repeat Count\nThe 16-bit register defines the repeat times of block transfer.\nNote: This register should be set to 0 when stride function disabled"
tree.end
tree.end
tree "QEI"
repeat 2. (list 0. 1.) (list ad:0x400B0000 ad:0x400B1000)
tree "QEI$1"
base $2
group.long 0x00++0x03
line.long 0x00 "QEI_CNT,QEI Counter Register"
hexmask.long 0x00 0.--31. 1. "CNT,Quadrature Encoder Interface Counter \nA 32-bit up/down counter"
group.long 0x04++0x03
line.long 0x00 "QEI_CNTHOLD,QEI Counter Hold Register"
hexmask.long 0x00 0.--31. 1. "CNTHOLD,Quadrature Encoder Interface Counter Hold\nWhen the bit HOLDCNT (QEI_CTL[24]) goes from low to high the CNT(QEI_CNT[31:0]) is copied into CNTHOLD (QEI_CNTHOLD[31:0]) register"
group.long 0x08++0x03
line.long 0x00 "QEI_CNTLATCH,QEI Counter Index Latch Register"
hexmask.long 0x00 0.--31. 1. "CNTLATCH,Quadrature Encoder Interface Counter Index Latch\nWhen the IDXF (QEI_STATUS[0]) bit is set the CNT(QEI_CNT[31:0]) is copied into CNTLATCH (QEI_CNTLATCH[31:0]) register"
group.long 0x0C++0x03
line.long 0x00 "QEI_CNTCMP,QEI Counter Compare Register"
hexmask.long 0x00 0.--31. 1. "CNTCMP,Quadrature Encoder Interface Counter Compare"
group.long 0x14++0x03
line.long 0x00 "QEI_CNTMAX,QEI Pre-set Maximum Count Register"
hexmask.long 0x00 0.--31. 1. "CNTMAX,Quadrature Encoder Interface Preset Maximum Count\nThis register value determined by user stores the maximum value which may be the number of the QEI counter for the QEI controller compare-counting mode"
group.long 0x18++0x03
line.long 0x00 "QEI_CTL,QEI Controller Control Register"
bitfld.long 0x00 29. "QEIEN,Quadrature Encoder Interface Controller Enable Bit" "0: QEI controller function Disabled,1: QEI controller function Enabled"
bitfld.long 0x00 28. "CMPEN,The Compare Function Enable Bit\nThe compare function in QEI controller is to compare the dynamic counting QEI_CNT with the compare register CNTCMP( QEI_CNTCMP[31:0]) if CNT(QEI_CNT[31:0]) reaches CNTCMP( QEI_CNTCMP[31:0]) the flag CMPF will be set" "0: Compare function Disabled,1: Compare function Enabled"
newline
bitfld.long 0x00 27. "IDXRLDEN,Index Trigger QEI_CNT Reload Enable Bit" "0: Reload function Disabled,1: QEI_CNT re-initialized by Index signal Enabled"
bitfld.long 0x00 25. "IDXLATEN,Index Latch QEI_CNT Enable Bit\nIf this bit is set to high the CNT(QEI_CNT[31:0]) content will be latched into CNTLATCH (QEI_CNTLATCH[31:0]) at every rising on signal CHX" "0: The index signal latch QEI counter function..,1: The index signal latch QEI counter function.."
newline
bitfld.long 0x00 24. "HOLDCNT,Hold QEI_CNT Control\nWhen this bit is set from low to high the CNT(QEI_CNT[31:0]) is copied into CNTHOLD(QEI_CNTHOLD[31:0])" "0: No operation,1: QEI_CNT content is captured and stored in.."
bitfld.long 0x00 23. "HOLDTMR3,Hold QEI_CNT by Timer 3" "0: TIF (TIMER3_INTSTS[0]) has no effect on HOLDCNT,1: A rising edge of bit TIF(TIMER3_INTSTS[0]) in.."
newline
bitfld.long 0x00 22. "HOLDTMR2,Hold QEI_CNT by Timer 2" "0: TIF(TIMER2_INTSTS[0]) has no effect on HOLDCNT,1: A rising edge of bit TIF(TIMER2_INTSTS[0]) in.."
bitfld.long 0x00 21. "HOLDTMR1,Hold QEI_CNT by Timer 1" "0: TIF(TIMER1_INTSTS[0]) has no effect on HOLDCNT,1: A rising edge of bit TIF (TIMER1_INTSTS[0]).."
newline
bitfld.long 0x00 20. "HOLDTMR0,Hold QEI_CNT by Timer 0" "0: TIF (TIMER0_INTSTS[0]) has no effect on HOLDCNT,1: A rising edge of bit TIF(TIMER0_INTSTS[0]) in.."
bitfld.long 0x00 19. "IDXIEN,IDXF Trigger QEI Interrupt Enable Bit" "0: The IDXF can trigger QEI interrupt Disabled,1: The IDXF can trigger QEI interrupt Enabled"
newline
bitfld.long 0x00 18. "CMPIEN,CMPF Trigger QEI Interrupt Enable Bit" "0: CMPF can trigger QEI controller interrupt..,1: CMPF can trigger QEI controller interrupt.."
bitfld.long 0x00 17. "DIRIEN,DIRCHGF Trigger QEI Interrupt Enable Bit" "0: DIRCHGF can trigger QEI controller interrupt..,1: DIRCHGF can trigger QEI controller interrupt.."
newline
bitfld.long 0x00 16. "OVUNIEN,OVUNF Trigger QEI Interrupt Enable Bit" "0: OVUNF can trigger QEI controller interrupt..,1: OVUNF can trigger QEI controller interrupt.."
bitfld.long 0x00 14. "IDXINV,Inverse IDX Input Polarity" "0: Not inverse IDX input polarity,1: IDX input polarity is inversed to QEI.."
newline
bitfld.long 0x00 13. "CHBINV,Inverse QEB Input Polarity" "0: Not inverse QEB input polarity,1: QEB input polarity is inversed to QEI.."
bitfld.long 0x00 12. "CHAINV,Inverse QEA Input Polarity" "0: Not inverse QEA input polarity,1: QEA input polarity is inversed to QEI.."
newline
bitfld.long 0x00 8.--9. "MODE,QEI Counting Mode Selection\nThere are four quadrature encoder pulse counter operation modes" "0: X4 Free-counting Mode,1: X2 Free-counting Mode,2: X4 Compare-counting Mode,3: X2 Compare-counting Mode"
bitfld.long 0x00 6. "IDXEN,IDX Input to QEI Controller Enable Bit" "0: IDX input to QEI Controller Disabled,1: IDX input to QEI Controller Enabled"
newline
bitfld.long 0x00 5. "CHBEN,QEB Input to QEI Controller Enable Bit" "0: QEB input to QEI Controller Disabled,1: QEB input to QEI Controller Enabled"
bitfld.long 0x00 4. "CHAEN,QEA Input to QEI Controller Enable Bit" "0: QEA input to QEI Controller Disabled,1: QEA input to QEI Controller Enabled"
newline
bitfld.long 0x00 3. "NFDIS,QEI Controller Input Noise Filter Disable Bit" "0: The noise filter of QEI controller Enabled,1: The noise filter of QEI controller Disabled"
bitfld.long 0x00 0.--2. "NFCLKSEL,Noise Filter Clock Pre-divide Selection\nTo determine the sampling frequency of the Noise Filter clock" "0: QEI_CLK,1: QEI_CLK/2,2: QEI_CLK/4,3: QEI_CLK/16,4: QEI_CLK/32,5: QEI_CLK/64,?..."
group.long 0x2C++0x03
line.long 0x00 "QEI_STATUS,QEI Controller Status Register"
bitfld.long 0x00 8. "DIRF,QEI Counter Counting Direction Indication\nNote: This bit is set/reset by hardware according to the phase detection between CHA and CHB" "0: QEI Counter is in down-counting,1: QEI Counter is in up-counting"
bitfld.long 0x00 3. "DIRCHGF,Direction Change Flag\nFlag is set by hardware while QEI counter counting direction is changed" "0: No change in QEI counter counting direction,1: QEI counter counting direction is changed"
newline
bitfld.long 0x00 2. "OVUNF,QEI Counter Overflow or Underflow Flag\nFlag is set by hardware while CNT(QEI_CNT[31:0]) overflows from 0xFFFF_FFFF to 0 in free-counting mode or from the CNTMAX (QEI_CNTMAX[31:0]) to 0 in compare-counting mode" "0: No overflow or underflow occurs in QEI counter,1: QEI counter occurs counting overflow or.."
bitfld.long 0x00 1. "CMPF,Compare-match Flag\nIf the QEI compare function is enabled the flag is set by hardware while QEI counter up or down counts and reach to the CNTCMP(QEI_CNTCMP[31:0]).\nNote: This bit is only cleared by writing 1 to it" "0: QEI counter does not match with..,1: QEI counter counts to the same as.."
newline
bitfld.long 0x00 0. "IDXF,IDX Detected Flag\nWhen the QEI controller detects a rising edge on signal CHX it will set flag IDXF to high.\nNote: This bit is only cleared by writing 1 to it" "0: No rising edge detected on signal CHX,1: A rising edge occurs on signal CHX"
tree.end
repeat.end
tree.end
tree "QSPI"
repeat 2. (list 0. 1.) (list ad:0x40060000 ad:0x40069000)
tree "QSPI$1"
base $2
group.long 0x00++0x03
line.long 0x00 "QSPIx_CTL,QSPI Control Register"
bitfld.long 0x00 23. "TXDTR_EN,TX DTR (Transmit Double Transfer Rate) Mode Enable Bit (Master Only)\nNote: QSPI master mode supports TXDTR mode and QSPI slave mode does not support this mode" "0: TX DTR mode Disabled,1: TX DTR mode Enabled"
bitfld.long 0x00 22. "QUADIOEN,Quad I/O Mode Enable Bit" "0: Quad I/O mode Disabled,1: Quad I/O mode Enabled"
newline
bitfld.long 0x00 21. "DUALIOEN,Dual I/O Mode Enable Bit" "0: Dual I/O mode Disabled,1: Dual I/O mode Enabled"
bitfld.long 0x00 20. "DATDIR,Data Port Direction Control\nThis bit is used to select the data input/output direction in half-duplex transfer and Dual/Quad transfer" "0: QSPI data is input direction,1: QSPI data is output direction"
newline
bitfld.long 0x00 19. "REORDER,Byte Reorder Function Enable Bit\nNote: Byte Reorder function is only available if DWIDTH is defined as 16 24 and 32 bits" "0: Byte Reorder function Disabled,1: Byte Reorder function Enabled"
bitfld.long 0x00 18. "SLAVE,Slave Mode Control" "0: Master mode,1: Slave mode"
newline
bitfld.long 0x00 17. "UNITIEN,Unit Transfer Interrupt Enable Bit" "0: QSPI unit transfer interrupt Disabled,1: QSPI unit transfer interrupt Enabled"
bitfld.long 0x00 16. "TWOBIT,2-bit Transfer Mode Enable Bit\nNote: When 2-bit Transfer mode is enabled the first serial transmitted bit data is from the first FIFO buffer data and the 2nd serial transmitted bit data is from the second FIFO buffer data" "0: 2-bit Transfer mode Disabled,1: 2-bit Transfer mode Enabled"
newline
bitfld.long 0x00 15. "RXONLY,Receive-only Mode Enable Bit (Master Only)\nThis bit field is only available in Master mode" "0: Receive-only mode Disabled,1: Receive-only mode Enabled"
bitfld.long 0x00 14. "HALFDPX,QSPI Half-duplex Transfer Enable Bit\nThis bit is used to select full-duplex or half-duplex for QSPI transfer" "0: QSPI operates in full-duplex transfer,1: QSPI operates in half-duplex transfer"
newline
bitfld.long 0x00 13. "LSB,Send LSB First" "0: The MSB which bit of transmit/receive..,1: The LSB bit 0 of the QSPIx TX register is.."
bitfld.long 0x00 8.--12. "DWIDTH,Data Width\nThis field specifies how many bits can be transmitted / received in one transaction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
bitfld.long 0x00 4.--7. "SUSPITV,Suspend Interval (Master Only)\nThe four bits provide configurable suspend interval between two successive transmit/receive transaction in a transfer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "CLKPOL,Clock Polarity" "0: QSPI bus clock is idle low,1: QSPI bus clock is idle high"
newline
bitfld.long 0x00 2. "TXNEG,Transmit on Negative Edge\nNote: In TX DTR mode TXNEG equals to CLKPOL (QSPI_CTL[3])" "0: Transmitted data output signal is changed on..,1: Transmitted data output signal is changed on.."
bitfld.long 0x00 1. "RXNEG,Receive on Negative Edge" "0: Received data input signal is latched on the..,1: Received data input signal is latched on the.."
newline
bitfld.long 0x00 0. "SPIEN,QSPI Transfer Control Enable Bit\nIn Master mode the transfer will start when there is data in the FIFO buffer after this bit is set to 1" "0: Transfer control Disabled,1: Transfer control Enabled"
group.long 0x04++0x03
line.long 0x00 "QSPIx_CLKDIV,QSPI Clock Divider Register"
hexmask.long.word 0x00 0.--8. 1. "DIVIDER,Clock Divider\nThe value in this field is the frequency divider for generating the peripheral clock fspi_eclk and the QSPI bus clock of QSPI Master"
group.long 0x08++0x03
line.long 0x00 "QSPIx_SSCTL,QSPI Slave Select Control Register"
hexmask.long.word 0x00 16.--31. 1. "SLVTOCNT,Slave Mode Time-out Period\nIn Slave mode these bits indicate the time-out period when there is bus clock input during slave select active"
bitfld.long 0x00 13. "SSINAIEN,Slave Select Inactive Interrupt Enable Bit" "0: Slave select inactive interrupt Disabled,1: Slave select inactive interrupt Enabled"
newline
bitfld.long 0x00 12. "SSACTIEN,Slave Select Active Interrupt Enable Bit" "0: Slave select active interrupt Disabled,1: Slave select active interrupt Enabled"
bitfld.long 0x00 9. "SLVURIEN,Slave Mode TX Under Run Interrupt Enable Bit" "0: Slave mode TX under run interrupt Disabled,1: Slave mode TX under run interrupt Enabled"
newline
bitfld.long 0x00 8. "SLVBEIEN,Slave Mode Bit Count Error Interrupt Enable Bit" "0: Slave mode bit count error interrupt Disabled,1: Slave mode bit count error interrupt Enabled"
bitfld.long 0x00 6. "SLVTORST,Slave Mode Time-out Reset Control" "0: When Slave mode time-out event occurs the TX..,1: When Slave mode time-out event occurs the TX.."
newline
bitfld.long 0x00 5. "SLVTOIEN,Slave Mode Time-out Interrupt Enable Bit" "0: Slave mode time-out interrupt Disabled,1: Slave mode time-out interrupt Enabled"
bitfld.long 0x00 4. "SLV3WIRE,Slave 3-wire Mode Enable Bit\nIn Slave 3-wire mode the QSPI controller can work with 3-wire interface including QSPIx_CLK QSPIx_MISO and SPIx_MOSI pins" "0: 4-wire bi-direction interface,1: 3-wire bi-direction interface"
newline
bitfld.long 0x00 3. "AUTOSS,Automatic Slave Selection Function Enable Bit (Master Only)" "0: Automatic slave selection function Disabled,1: Automatic slave selection function Enabled"
bitfld.long 0x00 2. "SSACTPOL,Slave Selection Active Polarity\nThis bit defines the active polarity of slave selection signal (QSPIx_SS)" "0: The slave selection signal QSPIx_SS is active..,1: The slave selection signal QSPIx_SS is active.."
newline
bitfld.long 0x00 0. "SS,Slave Selection Control (Master Only)\nIf AUTOSS bit is cleared to 0" "0: set the QSPIx_SS line to inactive..,1: set the QSPIx_SS line to active.."
group.long 0x0C++0x03
line.long 0x00 "QSPIx_PDMACTL,QSPI PDMA Control Register"
bitfld.long 0x00 2. "PDMARST,PDMA Reset" "0: No effect,1: Reset the PDMA control logic of the QSPI.."
bitfld.long 0x00 1. "RXPDMAEN,Receive PDMA Enable Bit" "0: Receive PDMA function Disabled,1: Receive PDMA function Enabled"
newline
bitfld.long 0x00 0. "TXPDMAEN,Transmit PDMA Enable Bit\nNote: In QSPI Master mode with full duplex transfer if both TX and RX PDMA functions are enabled RX PDMA function cannot be enabled prior to TX PDMA function" "0: Transmit PDMA function Disabled,1: Transmit PDMA function Enabled"
group.long 0x10++0x03
line.long 0x00 "QSPIx_FIFOCTL,QSPI FIFO Control Register"
bitfld.long 0x00 28.--30. "TXTH,Transmit FIFO Threshold\nIf the valid data count of the transmit FIFO buffer is less than or equal to the TXTH setting the TXTHIF bit will be set to 1 else the TXTHIF bit will be cleared to 0" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "RXTH,Receive FIFO Threshold\nIf the valid data count of the receive FIFO buffer is larger than the RXTH setting the RXTHIF bit will be set to 1 else the RXTHIF bit will be cleared to 0" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 9. "TXFBCLR,Transmit FIFO Buffer Clear\nNote: The TX shift register will not be cleared" "0: No effect,1: Clear transmit FIFO pointer"
bitfld.long 0x00 8. "RXFBCLR,Receive FIFO Buffer Clear\nNote: The RX shift register will not be cleared" "0: No effect,1: Clear receive FIFO pointer"
newline
bitfld.long 0x00 7. "TXUFIEN,TX Underflow Interrupt Enable Bit\nWhen TX underflow event occurs in Slave mode TXUFIF (QSPIx_STATUS[19]) will be set to 1" "0: Slave TX underflow interrupt Disabled,1: Slave TX underflow interrupt Enabled"
bitfld.long 0x00 6. "TXUFPOL,TX Underflow Data Polarity\n" "0: The QSPI data out is keep 0 if there is TX..,1: The QSPI data out is keep 1 if there is TX.."
newline
bitfld.long 0x00 5. "RXOVIEN,Receive FIFO Overrun Interrupt Enable Bit" "0: Receive FIFO overrun interrupt Disabled,1: Receive FIFO overrun interrupt Enabled"
bitfld.long 0x00 4. "RXTOIEN,Receive Time-out Interrupt Enable Bit" "0: Receive time-out interrupt Disabled,1: Receive time-out interrupt Enabled"
newline
bitfld.long 0x00 3. "TXTHIEN,Transmit FIFO Threshold Interrupt Enable Bit" "0: TX FIFO threshold interrupt Disabled,1: TX FIFO threshold interrupt Enabled"
bitfld.long 0x00 2. "RXTHIEN,Receive FIFO Threshold Interrupt Enable Bit" "0: RX FIFO threshold interrupt Disabled,1: RX FIFO threshold interrupt Enabled"
newline
bitfld.long 0x00 1. "TXRST,Transmit Reset\nNote: If TX underflow event occurs in QSPI Slave mode this bit can be used to make QSPI return to idle state" "0: No effect,1: Reset transmit FIFO pointer and transmit.."
bitfld.long 0x00 0. "RXRST,Receive Reset" "0: No effect,1: Reset receive FIFO pointer and receive circuit"
group.long 0x14++0x03
line.long 0x00 "QSPIx_STATUS,QSPI Status Register"
rbitfld.long 0x00 28.--31. "TXCNT,Transmit FIFO Data Count (Read Only)\nThis bit field indicates the valid data count of transmit FIFO buffer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "RXCNT,Receive FIFO Data Count (Read Only)\nThis bit field indicates the valid data count of receive FIFO buffer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
rbitfld.long 0x00 23. "TXRXRST,TX or RX Reset Status (Read Only)\nNote: Both the reset operations of TXRST and RXRST need 3 system clock cycles + 2 peripheral clock cycles" "0: The reset function of TXRST or RXRST is done,1: Doing the reset function of TXRST or RXRST"
bitfld.long 0x00 19. "TXUFIF,TX Underflow Interrupt Flag\nWhen the TX underflow event occurs this bit will be set to 1 the state of data output pin depends on the setting of TXUFPOL.\n" "0: No effect,1: No data in Transmit FIFO and TX shift.."
newline
rbitfld.long 0x00 18. "TXTHIF,Transmit FIFO Threshold Interrupt Flag (Read Only)" "0: The valid data count within the transmit FIFO..,1: The valid data count within the transmit FIFO.."
rbitfld.long 0x00 17. "TXFULL,Transmit FIFO Buffer Full Indicator (Read Only)" "0: Transmit FIFO buffer is not full,1: Transmit FIFO buffer is full"
newline
rbitfld.long 0x00 16. "TXEMPTY,Transmit FIFO Buffer Empty Indicator (Read Only)" "0: Transmit FIFO buffer is not empty,1: Transmit FIFO buffer is empty"
rbitfld.long 0x00 15. "SPIENSTS,QSPI Enable Status (Read Only)\nNote: The QSPI peripheral clock is asynchronous with the system clock" "0: QSPI controller Disabled,1: QSPI controller Enabled"
newline
bitfld.long 0x00 12. "RXTOIF,Receive Time-out Interrupt Flag\nNote: This bit will be cleared by writing 1 to it" "0: No receive FIFO time-out event,1: Receive FIFO buffer is not empty and no read.."
bitfld.long 0x00 11. "RXOVIF,Receive FIFO Overrun Interrupt Flag\nWhen the receive FIFO buffer is full the follow-up data will be dropped and this bit will be set to 1.\nNote: This bit will be cleared by writing 1 to it" "0: No FIFO is overrun,1: Receive FIFO is overrun"
newline
rbitfld.long 0x00 10. "RXTHIF,Receive FIFO Threshold Interrupt Flag (Read Only)" "0: The valid data count within the receive FIFO..,1: The valid data count within the receive FIFO.."
rbitfld.long 0x00 9. "RXFULL,Receive FIFO Buffer Full Indicator (Read Only)" "0: Receive FIFO buffer is not full,1: Receive FIFO buffer is full"
newline
rbitfld.long 0x00 8. "RXEMPTY,Receive FIFO Buffer Empty Indicator (Read Only)" "0: Receive FIFO buffer is not empty,1: Receive FIFO buffer is empty"
bitfld.long 0x00 7. "SLVURIF,Slave Mode TX Under Run Interrupt Flag\nIn Slave mode if TX underflow event occurs and the slave select line goes to inactive state this interrupt flag will be set to 1.\nNote: This bit will be cleared by writing 1 to it" "0: No Slave TX under run event,1: Slave TX under run event occurred"
newline
bitfld.long 0x00 6. "SLVBEIF,Slave Mode Bit Count Error Interrupt Flag\nIn Slave mode when the slave select line goes to inactive state if bit counter is mismatch with DWIDTH this interrupt flag will be set to 1.\nNote: If the slave select active but there is no any bus.." "0: No Slave mode bit count error event,1: Slave mode bit count error event occurred"
bitfld.long 0x00 5. "SLVTOIF,Slave Time-out Interrupt Flag \nWhen the slave select is active and the value of SLVTOCNT is not 0 if the bus clock is detected the slave time-out counter in QSPI controller logic will be started" "0: Slave time-out is not active,1: Slave time-out is active"
newline
rbitfld.long 0x00 4. "SSLINE,Slave Select Line Bus Status (Read Only)\nNote: This bit is only available in Slave mode" "0: The slave select line status is 0,1: The slave select line status is 1"
bitfld.long 0x00 3. "SSINAIF,Slave Select Inactive Interrupt Flag\nNote: Only available in Slave mode" "0: Slave select inactive interrupt was cleared..,1: Slave select inactive interrupt event occurred"
newline
bitfld.long 0x00 2. "SSACTIF,Slave Select Active Interrupt Flag\nNote: Only available in Slave mode" "0: Slave select active interrupt was cleared or..,1: Slave select active interrupt event occurred"
bitfld.long 0x00 1. "UNITIF,Unit Transfer Interrupt Flag\nNote: This bit will be cleared by writing 1 to it" "0: No transaction has been finished since this..,1: QSPI controller has finished one unit transfer"
newline
rbitfld.long 0x00 0. "BUSY,Busy Status (Read Only)" "0: QSPI controller is in idle state,1: QSPI controller is in busy state"
wgroup.long 0x20++0x03
line.long 0x00 "QSPIx_TX,QSPI Data Transmit Register"
hexmask.long 0x00 0.--31. 1. "TX,Data Transmit Register\nThe data transmit registers pass through the transmitted data into the 8-level transmit FIFO buffers"
rgroup.long 0x30++0x03
line.long 0x00 "QSPIx_RX,QSPI Data Receive Register"
hexmask.long 0x00 0.--31. 1. "RX,Data Receive Register (Read Only)\nThere are 8-level FIFO buffers in this controller"
tree.end
repeat.end
tree.end
tree "RTC"
base ad:0x40041000
group.long 0x00++0x03
line.long 0x00 "RTC_INIT,RTC Initiation Register"
hexmask.long 0x00 1.--31. 1. "INIT,RTC Initiation\nWhen RTC block is powered on RTC is at reset state"
rbitfld.long 0x00 0. "INIT_ACTIVE,RTC Active Status (Read Only)" "0: RTC is at reset state,1: RTC is at normal active state"
rgroup.long 0x04++0x03
line.long 0x00 "RTC_RWEN,RTC Access Enable Register"
bitfld.long 0x00 24. "RTCBUSY,RTC Write Busy Flag\nThis bit indicates RTC registers are writable or not" "0: RTC registers are writable,1: RTC registers can't be written"
bitfld.long 0x00 16. "RWENF,RTC Register Access Enable Flag (Read Only)\nNote: RWENF will be masked to 0 during RTCBUSY is 1" "0: RTC register read/write Disabled,1: RTC register read/write Enabled"
group.long 0x08++0x03
line.long 0x00 "RTC_FREQADJ,RTC Frequency Compensation Register"
rbitfld.long 0x00 31. "FCR_BUSY,Frequency Compensation Register Write Operation Busy (Read Only)\nNote: This bit is only used when DYN_COMP_EN(RTC_CLKFMT[16]) enabled" "0: The new register write operation is acceptable,1: The last write operation is in progress and.."
bitfld.long 0x00 8.--12. "INTEGER,Integer Part" "0: Integer part of detected value is 32752,1: Integer part of detected value is 32753,2: Integer part of detected value is 32754,3: Integer part of detected value is 32755,4: Integer part of detected value is 32756,5: Integer part of detected value is 32757,6: Integer part of detected value is 32758,7: Integer part of detected value is 32759,8: Integer part of detected value is 32760,9: Integer part of detected value is 32761,10: Integer part of detected value is 32762,11: Integer part of detected value is 32763,12: Integer part of detected value is 32764,13: Integer part of detected value is 32765,14: Integer part of detected value is 32766,15: Integer part of detected value is 32767,16: Integer part of detected value is 32768,17: Integer part of detected value is 32769,18: Integer part of detected value is 32770,19: Integer part of detected value is 32771,20: Integer part of detected value is 32772,21: Integer part of detected value is 32773,22: Integer part of detected value is 32774,23: Integer part of detected value is 32775,24: Integer part of detected value is 32776,25: Integer part of detected value is 32777,26: Integer part of detected value is 32778,27: Integer part of detected value is 32779,28: Integer part of detected value is 32780,29: Integer part of detected value is 32781,30: Integer part of detected value is 32782,31: Integer part of detected value is 32783"
newline
bitfld.long 0x00 0.--5. "FRACTION,Fraction Part\nNote: Digit in FCR must be expressed as hexadecimal number" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x0C++0x03
line.long 0x00 "RTC_TIME,RTC Time Loading Register"
hexmask.long.byte 0x00 24.--30. 1. "HZCNT,Index of sub-second counter(0x00 ~0x7F)"
bitfld.long 0x00 20.--21. "TENHR,10-Hour Time Digit (0~2)When RTC runs as 12-hour time scale mode RTC_TIME[21] (the high bit of TENHR[1:0]) means AM/PM indication (If RTC_TIME[21] is 1 it indicates PM time message.)" "0,1,2,3"
newline
bitfld.long 0x00 16.--19. "HR,1-Hour Time Digit (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--14. "TENMIN,10-Min Time Digit (0~5)" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 8.--11. "MIN,1-Min Time Digit (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--6. "TENSEC,10-Sec Time Digit (0~5)" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 0.--3. "SEC,1-Sec Time Digit (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x10++0x03
line.long 0x00 "RTC_CAL,RTC Calendar Loading Register"
bitfld.long 0x00 20.--23. "TENYEAR,10-Year Calendar Digit (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "YEAR,1-Year Calendar Digit (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12. "TENMON,10-Month Calendar Digit (0~1)" "0,1"
bitfld.long 0x00 8.--11. "MON,1-Month Calendar Digit (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--5. "TENDAY,10-Day Calendar Digit (0~3)" "0,1,2,3"
bitfld.long 0x00 0.--3. "DAY,1-Day Calendar Digit (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x14++0x03
line.long 0x00 "RTC_CLKFMT,RTC Time Scale Selection Register"
bitfld.long 0x00 16. "DYN_COMP_EN,Dynamic Compensation Enable Bit" "0: Dynamic Compensation Disabled,1: Dynamic Compensation Enabled"
bitfld.long 0x00 8. "HZCNTEN,Sub-second Counter Enable Bit" "0: HZCNT disabled in RTC_TIME and RTC_TALM,1: HZCNT enabled in RTC_TIME and RTC_TALM"
newline
bitfld.long 0x00 0. "_24HEN,24-hour / 12-hour Time Scale Selection\nIndicates that RTC_TIME and RTC_TALM are in 24-hour time scale or 12-hour time scale" "0: 12-hour time scale with AM and PM indication..,1: 24-hour time scale selected"
group.long 0x18++0x03
line.long 0x00 "RTC_WEEKDAY,RTC Day of the Week Register"
bitfld.long 0x00 0.--2. "WEEKDAY,Day of the Week Register" "0: Sunday,1: Monday,2: Tuesday,3: Wednesday,4: Thursday,5: Friday,6: Saturday,7: Reserved"
group.long 0x1C++0x03
line.long 0x00 "RTC_TALM,RTC Time Alarm Register"
hexmask.long.byte 0x00 24.--30. 1. "HZCNT,Index of sub-second counter(0x00 ~0x7F)"
bitfld.long 0x00 20.--21. "TENHR,10-Hour Time Digit of Alarm Setting (0~2)When RTC runs as 12-hour time scale mode RTC_TIME[21] (the high bit of TENHR[1:0]) means AM/PM indication (If RTC_TIME[21] is 1 it indicates PM time message.)" "0,1,2,3"
newline
bitfld.long 0x00 16.--19. "HR,1-Hour Time Digit of Alarm Setting (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--14. "TENMIN,10-Min Time Digit of Alarm Setting (0~5)" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 8.--11. "MIN,1-Min Time Digit of Alarm Setting (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--6. "TENSEC,10-Sec Time Digit of Alarm Setting (0~5)" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 0.--3. "SEC,1-Sec Time Digit of Alarm Setting (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x20++0x03
line.long 0x00 "RTC_CALM,RTC Calendar Alarm Register"
bitfld.long 0x00 20.--23. "TENYEAR,10-Year Calendar Digit of Alarm Setting (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "YEAR,1-Year Calendar Digit of Alarm Setting (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12. "TENMON,10-Month Calendar Digit of Alarm Setting (0~1)" "0,1"
bitfld.long 0x00 8.--11. "MON,1-Month Calendar Digit of Alarm Setting (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--5. "TENDAY,10-Day Calendar Digit of Alarm Setting (0~3)" "0,1,2,3"
bitfld.long 0x00 0.--3. "DAY,1-Day Calendar Digit of Alarm Setting (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x24++0x03
line.long 0x00 "RTC_LEAPYEAR,RTC Leap Year Indicator Register"
bitfld.long 0x00 0. "LEAPYEAR,Leap Year Indication (Read Only)" "0: This year is not a leap year,1: This year is leap year"
group.long 0x28++0x03
line.long 0x00 "RTC_INTEN,RTC Interrupt Enable Register"
bitfld.long 0x00 25. "CLKSTOPIEN,LXT Clock Frequency Monitor STOP Interrupt Enable Bit" "0: LXT Frequency Fail interrupt Disabled,1: LXT Frequency Fail interrupt Enabled"
bitfld.long 0x00 24. "CLKFIEN,LXT Clock Frequency Monitor Fail Interrupt Enable Bit" "0: LXT Frequency Stop interrupt Disabled,1: LXT Frequency Stop interrupt Enabled"
newline
bitfld.long 0x00 13. "TAMP5IEN,Tamper 5 or Pair 2 Interrupt Enable Bit\nSet TAMP5IEN to 1 can also enable chip wake-up function when tamper 5 interrupt event is generated" "0: Tamper 5 or Pair 2 interrupt Disabled,1: Tamper 5 or Pair 2 interrupt Enabled"
bitfld.long 0x00 12. "TAMP4IEN,Tamper 4 Interrupt Enable Bit\nSet TAMP4IEN to 1 can also enable chip wake-up function when tamper 4 interrupt event is generated" "0: Tamper 4 interrupt Disabled,1: Tamper 4 interrupt Enabled"
newline
bitfld.long 0x00 11. "TAMP3IEN,Tamper 3 or Pair 1 Interrupt Enable Bit\nSet TAMP3IEN to 1 can also enable chip wake-up function when tamper 3 interrupt event is generated" "0: Tamper 3 or Pair 1 interrupt Disabled,1: Tamper 3 or Pair 1 interrupt Enabled"
bitfld.long 0x00 10. "TAMP2IEN,Tamper 2 Interrupt Enable Bit\nSet TAMP2IEN to 1 can also enable chip wake-up function when tamper 2 interrupt event is generated" "0: Tamper 2 interrupt Disabled,1: Tamper 2 interrupt Enabled"
newline
bitfld.long 0x00 9. "TAMP1IEN,Tamper 1 or Pair 0 Interrupt Enable Bit\nSet TAMP1IEN to 1 can also enable chip wake-up function when tamper 1 interrupt event is generated" "0: Tamper 1 or Pair 0 interrupt Disabled,1: Tamper 1 or Pair 0 interrupt Enabled"
bitfld.long 0x00 8. "TAMP0IEN,Tamper 0 Interrupt Enable Bit\nSet TAMP0IEN to 1 can also enable chip wake-up function when tamper 0 interrupt event is generated" "0: Tamper 0 interrupt Disabled,1: Tamper 0 interrupt Enabled"
newline
bitfld.long 0x00 1. "TICKIEN,Time Tick Interrupt Enable Bit\nSet TICKIEN to 1 can also enable chip wake-up function when RTC tick interrupt event is generated" "0: RTC Time Tick interrupt Disabled,1: RTC Time Tick interrupt Enabled"
bitfld.long 0x00 0. "ALMIEN,Alarm Interrupt Enable Bit\nSet ALMIEN to 1 can also enable chip wake-up function when RTC alarm interrupt event is generated" "0: RTC Alarm interrupt Disabled,1: RTC Alarm interrupt Enabled"
group.long 0x2C++0x03
line.long 0x00 "RTC_INTSTS,RTC Interrupt Status Register"
bitfld.long 0x00 13. "TAMP5IF,Tamper 5 Interrupt Flag\nThis bit is set when TAMP5_PIN detected level non-equal TAMP5LV (RTC_TAMPCTL[29]) or TAMP4_PIN and TAMP5_PIN disconnected during DYNPR2EN (RTC_TAMPCTL[31]) is activated or TAMP0_PIN and TAMP5_PIN disconnected during.." "0: No Tamper 5 interrupt flag is generated,1: Tamper 5 interrupt flag is generated"
bitfld.long 0x00 12. "TAMP4IF,Tamper 4 Interrupt Flag\nThis bit is set when TAMP4_PIN detected level non-equal TAMP4LV (RTC_TAMPCTL[25]).\n" "0: No Tamper 4 interrupt flag is generated,1: Tamper 4 interrupt flag is generated"
newline
bitfld.long 0x00 11. "TAMP3IF,Tamper 3 Interrupt Flag\nThis bit is set when TAMP3_PIN detected level non-equal TAMP3LV (RTC_TAMPCTL[21]) or TAMP2_PIN and TAMP3_PIN disconnected during DYNPR1EN (RTC_TAMPCTL[23]) is activated or TAMP0_PIN and TAMP3_PIN disconnected during.." "0: No Tamper 3 interrupt flag is generated,1: Tamper 3 interrupt flag is generated"
bitfld.long 0x00 10. "TAMP2IF,Tamper 2 Interrupt Flag\nThis bit is set when TAMP2_PIN detected level non-equal TAMP2LV (RTC_TAMPCTL[17]).\n" "0: No Tamper 2 interrupt flag is generated,1: Tamper 2 interrupt flag is generated"
newline
bitfld.long 0x00 9. "TAMP1IF,Tamper 1 or Pair 0 Interrupt Flag\nThis bit is set when TAMP1_PIN detected level non-equal TAMP1LV (RTC_TAMPCTL[13]) or TAMP0_PIN and TAMP1_PIN disconnected during DYNPR0EN (RTC_TAMPCTL[15]) is activated.\n" "0: No Tamper 1 interrupt flag is generated,1: Tamper 1 interrupt flag is generated"
bitfld.long 0x00 8. "TAMP0IF,Tamper 0 Interrupt Flag\nThis bit is set when TAMP0_PIN detected level non-equal TAMP0LV (RTC_TAMPCTL[9]).\n" "0: No Tamper 0 interrupt flag is generated,1: Tamper 0 interrupt flag is generated"
newline
bitfld.long 0x00 1. "TICKIF,RTC Time Tick Interrupt Flag\nNote: Write 1 to clear this bit" "0: Tick condition did not occur,1: Tick condition occurred"
bitfld.long 0x00 0. "ALMIF,RTC Alarm Interrupt Flag\nNote: Write 1 to clear this bit" "0: Alarm condition is not matched,1: Alarm condition is matched"
group.long 0x30++0x03
line.long 0x00 "RTC_TICK,RTC Time Tick Register"
bitfld.long 0x00 0.--2. "TICK,Time Tick Register\nThese bits are used to select RTC time tick period for Periodic Time Tick Interrupt request" "0: Time tick is 1 second,1: Time tick is 1/2 second,2: Time tick is 1/4 second,3: Time tick is 1/8 second,4: Time tick is 1/16 second,5: Time tick is 1/32 second,6: Time tick is 1/64 second,7: Time tick is 1/128 second"
group.long 0x34++0x03
line.long 0x00 "RTC_TAMSK,RTC Time Alarm Mask Register"
bitfld.long 0x00 5. "MTENHR,Mask 10-Hour Time Digit of Alarm Setting (0~2)" "0,1"
bitfld.long 0x00 4. "MHR,Mask 1-Hour Time Digit of Alarm Setting (0~9)" "0,1"
newline
bitfld.long 0x00 3. "MTENMIN,Mask 10-Min Time Digit of Alarm Setting (0~5)" "0,1"
bitfld.long 0x00 2. "MMIN,Mask 1-Min Time Digit of Alarm Setting (0~9)" "0,1"
newline
bitfld.long 0x00 1. "MTENSEC,Mask 10-Sec Time Digit of Alarm Setting (0~5)" "0,1"
bitfld.long 0x00 0. "MSEC,Mask 1-Sec Time Digit of Alarm Setting (0~9)" "0,1"
group.long 0x38++0x03
line.long 0x00 "RTC_CAMSK,RTC Calendar Alarm Mask Register"
bitfld.long 0x00 5. "MTENYEAR,Mask 10-Year Calendar Digit of Alarm Setting (0~9)" "0,1"
bitfld.long 0x00 4. "MYEAR,Mask 1-Year Calendar Digit of Alarm Setting (0~9)" "0,1"
newline
bitfld.long 0x00 3. "MTENMON,Mask 10-Month Calendar Digit of Alarm Setting (0~1)" "0,1"
bitfld.long 0x00 2. "MMON,Mask 1-Month Calendar Digit of Alarm Setting (0~9)" "0,1"
newline
bitfld.long 0x00 1. "MTENDAY,Mask 10-Day Calendar Digit of Alarm Setting (0~3)" "0,1"
bitfld.long 0x00 0. "MDAY,Mask 1-Day Calendar Digit of Alarm Setting (0~9)" "0,1"
group.long 0x3C++0x03
line.long 0x00 "RTC_SPRCTL,RTC Spare Functional Control Register"
bitfld.long 0x00 16. "LXTFCLR,LXT Clock Fail/Stop to Clear Spare Enable Bit" "0: LXT Fail/Stop to clear Spare register content..,1: LXT Fail/Stop to clear Spare register content.."
bitfld.long 0x00 5. "SPRCSTS,SPR Clear Flag \nThis bit indicates if the RTC_SPR0 ~RTC_SPR19 content is cleared when specify tamper event is detected.\n" "0: Spare register content is not cleared,1: Spare register content is cleared"
newline
bitfld.long 0x00 2. "SPRRWEN,Spare Register Enable Bit\nNote: When spare register is disabled RTC_SPR0 ~ RTC_SPR19 cannot be accessed" "0: Spare register Disabled,1: Spare register Enabled"
repeat 5. (strings "0" "1" "2" "3" "4" )(list 0x0 0x4 0x8 0xC 0x10 )
group.long ($2+0x40)++0x03
line.long 0x00 "RTC_SPR$1,RTC Spare Register $1"
hexmask.long 0x00 0.--31. 1. "SPARE,Spare Register\nThis field is used to store back-up information defined by user.\nThis field will be cleared by hardware automatically once a tamper pin event is detected.\nBefore storing back-up information in to RTC_SPRx register user should.."
repeat.end
group.long 0x100++0x03
line.long 0x00 "RTC_LXTCTL,RTC 32.768 kHz Oscillator Control Register"
bitfld.long 0x00 1.--3. "GAIN,Oscillator Gain Option\nUser can select oscillator gain according to crystal external loading and operating temperature range" "0: L0 mode,1: L1 mode,2: L2 mode,3: L3 mode(Default),4: L4 mode,5: L5 mode,6: L6 mode,7: L7 mode"
group.long 0x104++0x03
line.long 0x00 "RTC_GPIOCTL0,RTC GPIO Control 0 Register"
bitfld.long 0x00 28.--29. "PUSEL3,IO Pull-up and Pull-down Enable Bits\nDetermine PF.7 I/O pull-up or pull-down.\nNote: Basically the pull-up control and pull-down control has following behavior limitation.\nThe independent pull-up / pull-down control register only valid when.." "0: PF.7 pull-up and pull-down disabled,1: PF.7 pull-up enabled,2: PF.7 pull-down enabled,3: PF.7 pull-up and pull-down disabled"
bitfld.long 0x00 27. "CTLSEL3,IO Pin State Backup Selection\nWhen TAMP1EN is disabled PF.7 pin (TAMPER1 pin) can be used as GPIO function" "0: PF.7 pin I/O function is controlled by GPIO..,1: PF.7 pin I/O function is controlled by VBAT.."
newline
bitfld.long 0x00 26. "DOUT3,IO Output Data" "0: PF.7 output low,1: PF.7 output high"
bitfld.long 0x00 24.--25. "OPMODE3,IO Operation Mode" "0: PF.7 is input only mode,1: PF.7 is output push pull mode,2: PF.7 is open drain mode,3: PF.7 is quasi-bidirectional mode"
newline
bitfld.long 0x00 20.--21. "PUSEL2,IO Pull-up and Pull-down Enable Bits\nDetermine PF.6 I/O pull-up or pull-down.\nNote: Basically the pull-up control and pull-down control has following behavior limitation.\nThe independent pull-up / pull-down control register only valid when.." "0: PF.6 pull-up and pull-down disabled,1: PF.6 pull-up enabled,2: PF.6 pull-down enabled,3: PF.6 pull-up and pull-down disabled"
bitfld.long 0x00 19. "CTLSEL2,IO Pin State Backup Selection\nWhen TAMP0EN is disabled PF.6 pin (TAMPER0 pin) can be used as GPIO function" "0: PF.6 pin I/O function is controlled by GPIO..,1: PF.6 pin I/O function is controlled by VBAT.."
newline
bitfld.long 0x00 18. "DOUT2,IO Output Data" "0: PF.6 output low,1: PF.6 output high"
bitfld.long 0x00 16.--17. "OPMODE2,IO Operation Mode" "0: PF.6 is input only mode,1: PF.6 is output push pull mode,2: PF.6 is open drain mode,3: PF.6 is quasi-bidirectional mode"
newline
bitfld.long 0x00 12.--13. "PUSEL1,IO Pull-up and Pull-down Enable Bits\nDetermine PF.5 I/O pullOpull-up or pull-down.\nNote: Basically the pull-up control and pull-down control has following behavior limitation.\nThe independent pull-up / pull-down control register only valid.." "0: PF.5 pull-up and pull-down disabled,1: PF.5 pull-up enabled,2: PF.5 pull-down enabled,3: PF.5 pull-up and pull-down disabled"
bitfld.long 0x00 11. "CTLSEL1,IO Pin State Backup Selection\nWhen low speed 32 kHz oscillator is disabled PF.5 pin (X32KI pin) can be used as GPIO function" "0: PF.5 pin I/O function is controlled by GPIO..,1: PF.5 pin I/O function is controlled by VBAT.."
newline
bitfld.long 0x00 10. "DOUT1,IO Output Data" "0: PF.5 output low,1: PF.5 output high"
bitfld.long 0x00 8.--9. "OPMODE1,IO Operation Mode" "0: PF.5 is input only mode,1: PF.5 is output push pull mode,2: PF.5 is open drain mode,3: PF.5 is quasi-bidirectional mode"
newline
bitfld.long 0x00 4.--5. "PUSEL0,IO Pull-up and Pull-down \nDetermine PF.4 I/O pull-up or pull-down.\nNote: Basically the pull-up control and pull-down control has following behavior limitation.\nThe independent pull-up / pull-down control register only valid when OPMODE0 set as.." "0: PF.4 pull-up and pull-down disabled,1: PF.4 pull-up enabled,2: PF.4 pull-down enabled,3: PF.4 pull-up and pull-down disabled"
bitfld.long 0x00 3. "CTLSEL0,IO Pin State Backup Selection\nWhen low speed 32 kHz oscillator is disabled PF.4 pin (X32KO pin) can be used as GPIO function" "0: PF.4 pin I/O function is controlled by GPIO..,1: PF.4 pin I/O function is controlled by VBAT.."
newline
bitfld.long 0x00 2. "DOUT0,IO Output Data" "0: PF.4 output low,1: PF.4 output high"
bitfld.long 0x00 0.--1. "OPMODE0,IO Operation Mode" "0: PF.4 is input only mode,1: PF.4 is output push pull mode,2: PF.4 is open drain mode,3: PF.4 is quasi-bidirectional mode"
group.long 0x108++0x03
line.long 0x00 "RTC_GPIOCTL1,RTC GPIO Control 1 Register"
bitfld.long 0x00 28.--29. "PUSEL7,I/O Pull-up and Pull-down Enable Bits\nDetermine PF.11 I/O pull-up or pull-down.\nNote: Basically the pull-up control and pull-down control has following behavior limitation.\nThe independent pull-up / pull-down control register only valid when.." "0: PF.11 pull-up and pull-down disabled,1: PF.11 pull-up enabled,2: PF.11 pull-down enabled,3: PF.11 pull-up and pull-down disabled"
bitfld.long 0x00 27. "CTLSEL7,I/O Pin State Backup Selection\nWhen TAMP5EN is disabled PF.11 pin (TAMPER5 pin) can be used as GPIO function" "0: PF.11 pin I/O function is controlled by GPIO..,1: PF.11 pin I/O function is controlled by VBAT.."
newline
bitfld.long 0x00 26. "DOUT7,I/O Output Data" "0: PF.11 output low,1: PF.11 output high"
bitfld.long 0x00 24.--25. "OPMODE7,I/O Operation Mode" "0: PF.11 is input only mode,1: PF.11 is output push pull mode,2: PF.11 is open drain mode,3: PF.11 is quasi-bidirectional mode"
newline
bitfld.long 0x00 20.--21. "PUSEL6,I/O Pull-up and Pull-down Enable Bits\nDetermine PF.10 I/O pull-up or pull-down.\nNote: Basically the pull-up control and pull-down control has following behavior limitation.\nThe independent pull-up / pull-down control register only valid when.." "0: PF.10 pull-up and pull-down disabled,1: PF.10 pull-up enabled,2: PF.10 pull-down enabled,3: PF.10 pull-up and pull-down disabled"
bitfld.long 0x00 19. "CTLSEL6,I/O Pin State Backup Selection\nWhen TAMP4EN is disabled PF.10 pin (TAMPER4 pin) can be used as GPIO function" "0: PF.10 pin I/O function is controlled by GPIO..,1: PF.10 pin I/O function is controlled by VBAT.."
newline
bitfld.long 0x00 18. "DOUT6,I/O Output Data" "0: PF.10 output low,1: PF.10 output high"
bitfld.long 0x00 16.--17. "OPMODE6,I/O Operation Mode" "0: PF.10 is input only mode,1: PF.10 is output push pull mode,2: PF.10 is open drain mode,3: PF.10 is quasi-bidirectional mode"
newline
bitfld.long 0x00 12.--13. "PUSEL5,I/O Pull-up and Pull-down Enable Bits\nDetermine PF.9 I/O pull-up or pull-down.\nNote: Basically the pull-up control and pull-down control has following behavior limitation.\nThe independent pull-up / pull-down control register only valid when.." "0: PF.9 pull-up and pull-down disabled,1: PF.9 pull-up enabled,2: PF.9 pull-down enabled,3: PF.9 pull-up and pull-down disabled"
bitfld.long 0x00 11. "CTLSEL5,I/O Pin State Backup Selection\nWhen TAMP3EN is disabled PF.9 pin (TAMPER3 pin) can be used as GPIO function" "0: PF.9 pin I/O function is controlled by GPIO..,1: PF.9 pin I/O function is controlled by VBAT.."
newline
bitfld.long 0x00 10. "DOUT5,I/O Output Data" "0: PF.9 output low,1: PF.9 output high"
bitfld.long 0x00 8.--9. "OPMODE5,I/O Operation Mode" "0: PF.9 is input only mode,1: PF.9 is output push pull mode,2: PF.9 is open drain mode,3: PF.9 is quasi-bidirectional mode"
newline
bitfld.long 0x00 4.--5. "PUSEL4,I/O Pull-up and Pull-down \nDetermine PF.8 I/O pull-up or pull-down.\nNote: Basically the pull-up control and pull-down control has following behavior limitation.\nThe independent pull-up / pull-down control register only valid when OPMODE4 set.." "0: PF.8 pull-up and pull-down disabled,1: PF.8 pull-up enabled,2: PF.8 pull-down enabled,3: PF.8 pull-up and pull-down disabled"
bitfld.long 0x00 3. "CTLSEL4,I/O Pin State Backup Selection\nWhen TAMP2EN is disabled PF.8 pin (TAMPER2 pin) can be used as GPIO function" "0: PF.8 pin I/O function is controlled by GPIO..,1: PF.8 pin I/O function is controlled by VBAT.."
newline
bitfld.long 0x00 2. "DOUT4,I/O Output Data" "0: PF.8 output low,1: PF.8 output high"
bitfld.long 0x00 0.--1. "OPMODE4,I/O Operation Mode" "0: PF.8 is input only mode,1: PF.8 is output push pull mode,2: PF.8 is open drain mode,3: PF.8 is quasi-bidirectional mode"
group.long 0x110++0x03
line.long 0x00 "RTC_DSTCTL,RTC Daylight Saving Time Control Register"
bitfld.long 0x00 2. "DSBAK,Daylight Saving Back" "0: Daylight Saving Change is not performed,1: Daylight Saving Change is performed"
bitfld.long 0x00 1. "SUBHR,Subtract 1 Hour" "0: No effect,1: Indicates RTC hour digit has been subtracted.."
newline
bitfld.long 0x00 0. "ADDHR,Add 1 Hour" "0: No effect,1: Indicates RTC hour digit has been added one.."
group.long 0x120++0x03
line.long 0x00 "RTC_TAMPCTL,RTC Tamper Pin Control Register"
bitfld.long 0x00 30. "TAMP5DBEN,Tamper 5 De-bounce Enable Bit" "0: Tamper 5 de-bounce Disabled,1: Tamper 5 de-bounce Enabled tamper detection.."
bitfld.long 0x00 29. "TAMP5LV,Tamper 5 Level\nThis bit depends on level attribute of tamper pin for static tamper detection" "0: Detect voltage level is low,1: Detect voltage level is high"
newline
bitfld.long 0x00 28. "TAMP5EN,Tamper 5 Detect Enable Bit\nNote: The reference is RTC-clock" "0: Tamper 5 detect Disabled,1: Tamper 5 detect Enabled"
bitfld.long 0x00 26. "TAMP4DBEN,Tamper 4 De-bounce Enable Bit" "0: Tamper 4 de-bounce Disabled,1: Tamper 4 de-bounce Enabled tamper detection.."
newline
bitfld.long 0x00 25. "TAMP4LV,Tamper 4 Level\nThis bit depends on level attribute of tamper pin for static tamper detection" "0: Detect voltage level is low,1: Detect voltage level is high"
bitfld.long 0x00 24. "TAMP4EN,Tamper4 Detect Enable Bit\nNote: The reference is RTC-clock" "0: Tamper 4 detect Disabled,1: Tamper 4 detect Enabled"
newline
bitfld.long 0x00 22. "TAMP3DBEN,Tamper 3 De-bounce Enable Bit" "0: Tamper 3 de-bounce Disabled,1: Tamper 3 de-bounce Enabled tamper detection.."
bitfld.long 0x00 21. "TAMP3LV,Tamper 3 Level\nThis bit depends on level attribute of tamper pin for static tamper detection" "0: Detect voltage level is low,1: Detect voltage level is high"
newline
bitfld.long 0x00 20. "TAMP3EN,Tamper 3 Detect Enable Bit\nNote: The reference is RTC-clock" "0: Tamper 3 detect Disabled,1: Tamper 3 detect Enabled"
bitfld.long 0x00 18. "TAMP2DBEN,Tamper 2 De-bounce Enable Bit" "0: Tamper 2 de-bounce Disabled,1: Tamper 2 de-bounce Enabled tamper detection.."
newline
bitfld.long 0x00 17. "TAMP2LV,Tamper 2 Level\nThis bit depends on level attribute of tamper pin for static tamper detection" "0: Detect voltage level is low,1: Detect voltage level is high"
bitfld.long 0x00 16. "TAMP2EN,Tamper 2 Detect Enable Bit\nNote: The reference is RTC-clock" "0: Tamper 2 detect Disabled,1: Tamper 2 detect Enabled"
newline
bitfld.long 0x00 14. "TAMP1DBEN,Tamper 1 De-bounce Enable Bit" "0: Tamper 1 de-bounce Disabled,1: Tamper 1 de-bounce Enabled tamper detection.."
bitfld.long 0x00 13. "TAMP1LV,Tamper 1 Level\nThis bit depends on level attribute of tamper pin for static tamper detection" "0: Detect voltage level is low,1: Detect voltage level is high"
newline
bitfld.long 0x00 12. "TAMP1EN,Tamper 1 Detect Enable Bit\nNote: The reference is RTC-clock" "0: Tamper 1 detect Disabled,1: Tamper 1 detect Enabled"
bitfld.long 0x00 10. "TAMP0DBEN,Tamper 0 De-bounce Enable Bit" "0: Tamper 0 de-bounce Disabled,1: Tamper 0 de-bounce Enabled tamper detection.."
newline
bitfld.long 0x00 9. "TAMP0LV,Tamper 0 Level\nThis bit depends on level attribute of tamper pin for static tamper detection" "0: Detect voltage level is low,1: Detect voltage level is high"
bitfld.long 0x00 8. "TAMP0EN,Tamper0 Detect Enable Bit\nNote: The reference is RTC-clock" "0: Tamper 0 detect Disabled,1: Tamper 0 detect Enabled"
rgroup.long 0x130++0x03
line.long 0x00 "RTC_TAMPTIME,RTC Tamper Time Register"
hexmask.long.byte 0x00 24.--30. 1. "HZCNT,Index of sub-second counter(0x00 ~0x7F)"
bitfld.long 0x00 20.--21. "TENHR,10-Hour Time Digit of TAMPER Time (0~2)Note: 24-hour time scale only" "0,1,2,3"
newline
bitfld.long 0x00 16.--19. "HR,1-Hour Time Digit of TAMPER Time (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--14. "TENMIN,10-Min Time Digit of TAMPER Time (0~5)" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 8.--11. "MIN,1-Min Time Digit of TAMPER Time (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 4.--6. "TENSEC,10-Sec Time Digit of TAMPER Time (0~5)" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 0.--3. "SEC,1-Sec Time Digit of TAMPER Time (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x134++0x03
line.long 0x00 "RTC_TAMPCAL,RTC Tamper Calendar Register"
bitfld.long 0x00 20.--23. "TENYEAR,10-Year Calendar Digit of TAMPER Calendar (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "YEAR,1-Year Calendar Digit of TAMPER Calendar (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12. "TENMON,10-Month Calendar Digit of TAMPER Calendar (0~1)" "0,1"
bitfld.long 0x00 8.--11. "MON,1-Month Calendar Digit of TAMPER Calendar (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--5. "TENDAY,10-Day Calendar Digit of TAMPER Calendar (0~3)" "0,1,2,3"
bitfld.long 0x00 0.--3. "DAY,1-Day Calendar Digit of TAMPER Calendar (0~9)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "SC"
repeat 3. (list 0. 1. 2.) (list ad:0x40090000 ad:0x40091000 ad:0x40092000)
tree "SC$1"
base $2
group.long 0x00++0x03
line.long 0x00 "SC_DAT,SC Receive/Transmit Holding Buffer Register"
hexmask.long.byte 0x00 0.--7. 1. "DAT,Receive/Transmit Holding Buffer\nWrite Operation:\nBy writing data to DAT the SC will send out an 8-bit data.\nNote: If SCEN (SCn_CTL[0]) is not enabled DAT cannot be programmed.\nRead Operation:\nBy reading DAT the SC will return an 8-bit received.."
group.long 0x04++0x03
line.long 0x00 "SC_CTL,SC Control Register"
rbitfld.long 0x00 30. "SYNC,SYNC Flag Indicator (Read Only)\nDue to synchronization user should check this bit before writing a new value to RXRTY and TXRTY fields" "0: Synchronizing is completion user can write..,1: Last value is synchronizing"
bitfld.long 0x00 26. "CDLV,Card Detect Level Selection \nNote: User must select card detect level before Smart Card controller enabled" "0: When hardware detects the card detect pin..,1: When hardware detects the card detect pin.."
newline
bitfld.long 0x00 24.--25. "CDDBSEL,Card Detect De-bounce Selection\nThis field indicates the card detect de-bounce selection.\nOther configurations are reserved" "0: De-bounce sample card insert once per 384..,?..."
bitfld.long 0x00 23. "TXRTYEN,TX Error Retry Enable Bit\nThis bit enables transmitter retry function when parity error has occurred" "0: TX error retry function Disabled,1: TX error retry function Enabled"
newline
bitfld.long 0x00 20.--22. "TXRTY,TX Error Retry Count Number\nThis field indicates the maximum number of transmitter retries that are allowed when parity error has occurred.\n" "?,1: The real retry number is TXRTY + 1 so 8 is the,2: This field cannot be changed when TXRTYEN..,?..."
bitfld.long 0x00 19. "RXRTYEN,RX Error Retry Enable Bit\nThis bit enables receiver retry function when parity error has occurred.\nNote: User must fill in the RXRTY value before enabling this bit" "0: RX error retry function Disabled,1: RX error retry function Enabled"
newline
bitfld.long 0x00 16.--18. "RXRTY,RX Error Retry Count Number\nThis field indicates the maximum number of receiver retries that are allowed when parity error has occurred\n" "?,1: The real retry number is RXRTY + 1 so 8 is the,2: This field cannot be changed when RXRTYEN..,?..."
bitfld.long 0x00 15. "NSB,Stop Bit Length\nThis field indicates the length of stop bit.\n" "0: The stop bit length is 2 ETU,1: The stop bit length is 1 ETU"
newline
bitfld.long 0x00 13.--14. "TMRSEL,Timer Channel Selection \nOther configurations are reserved" "0: All internal timer function Disabled,?,?,3: Internal 24 bit timer and two 8 bit timers.."
bitfld.long 0x00 8.--12. "BGT,Block Guard Time (BGT)\nNote: The real block guard time is BGT + 1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
bitfld.long 0x00 6.--7. "RXTRGLV,Rx Buffer Trigger Level \nWhen the number of bytes in the receiving buffer equals the RXTRGLV the RDAIF will be set" "0: Rx Buffer Trigger Level with 01 bytes,1: Rx Buffer Trigger Level with 02 bytes,2: Rx Buffer Trigger Level with 03 bytes,3: Reserved"
bitfld.long 0x00 4.--5. "CONSEL,Convention Selection\nNote: If AUTOCEN (SCn_CTL[3]) is enabled this field is ignored" "0: Direct convention,1: Reserved,2: Reserved,3: Inverse convention"
newline
bitfld.long 0x00 3. "AUTOCEN,Auto Convention Enable Bit\nThis bit is used for enable auto convention function.\nIf user enables auto convention function the setting step must be done before Answer to Reset (ATR) state and the first data must be 0x3B or 0x3F" "0: Auto-convention Disabled,1: Auto-convention Enabled"
bitfld.long 0x00 2. "TXOFF,TX Transition Disable Control Bit\nThis bit is used for disable Tx transition function" "0: The transceiver Enabled,1: The transceiver Disabled"
newline
bitfld.long 0x00 1. "RXOFF,RX Transition Disable Control Bit\nThis bit is used for disable Rx transition function.\nNote: If AUTOCEN (SCn_CTL[3]) is enabled this field is ignored" "0: The receiver Enabled,1: The receiver Disabled"
bitfld.long 0x00 0. "SCEN,SC Controller Enable Bit\nSet this bit to 1 to enable SC operation" "0: SC will force all transition to IDLE state,1: SC controller is enabled and all function can.."
group.long 0x08++0x03
line.long 0x00 "SC_ALTCTL,SC Alternate Control Register"
rbitfld.long 0x00 31. "SYNC,SYNC Flag Indicator (Read Only)\nDue to synchronization user should check this bit when writing a new value to SCn_ALTCTL register" "0: Synchronizing is completion user can write..,1: Last value is synchronizing"
rbitfld.long 0x00 15. "ACTSTS2,Internal Timer2 Active Status (Read Only)\nThis bit indicates the timer counter status of timer2.\nNote: Timer2 is active does not always mean timer2 is counting the CNT (SCn_TMRCTL2[7:0])" "0: Timer2 is not active,1: Timer2 is active"
newline
rbitfld.long 0x00 14. "ACTSTS1,Internal Timer1 Active Status (Read Only)\nThis bit indicates the timer counter status of timer1.\nNote: Timer1 is active does not always mean timer1 is counting the CNT (SCn_TMRCTL1[7:0])" "0: Timer1 is not active,1: Timer1 is active"
rbitfld.long 0x00 13. "ACTSTS0,Internal Timer0 Active Status (Read Only)\nThis bit indicates the timer counter status of timer0.\nNote: Timer0 is active does not always mean timer0 is counting the CNT (SCn_TMRCTL0[23:0])" "0: Timer0 is not active,1: Timer0 is active"
newline
bitfld.long 0x00 12. "RXBGTEN,Receiver Block Guard Time Function Enable Bit\nThis bit enables the receiver block guard time function" "0: Receiver block guard time function Disabled,1: Receiver block guard time function Enabled"
bitfld.long 0x00 11. "ADACEN,Auto Deactivation When Card Removal\nThis bit is used for enable hardware auto deactivation when smart card is removed.\nNote: When the card is removed hardware will stop any process and then do deactivation sequence if this bit is set" "0: Auto deactivation Disabled,1: Auto deactivation Enabled"
newline
bitfld.long 0x00 8.--9. "INITSEL,Initial Timing Selection\nThis fields indicates the initial timing of hardware activation warm-reset or deactivation.\nThe unit of initial timing is SC module clock.\nActivation: refer to SC Activation Sequence in Figure 6.1854.\nWarm-reset:.." "0,1,2,3"
bitfld.long 0x00 7. "CNTEN2,Internal Timer2 Start Enable Bit\nThis bit enables Timer 2 to start counting" "0: Stops counting,1: Start counting"
newline
bitfld.long 0x00 6. "CNTEN1,Internal Timer1 Start Enable Bit\nThis bit enables Timer 1 to start counting" "0: Stops counting,1: Start counting"
bitfld.long 0x00 5. "CNTEN0,Internal Timer0 Start Enable Bit\nThis bit enables Timer 0 to start counting" "0: Stops counting,1: Start counting"
newline
bitfld.long 0x00 4. "WARSTEN,Warm Reset Sequence Generator Enable Bit\nThis bit enables SC controller to initiate the card by warm reset sequence.\n" "0: No effect,1: Warm reset sequence generator Enabled"
bitfld.long 0x00 3. "ACTEN,Activation Sequence Generator Enable Bit\nThis bit enables SC controller to initiate the card by activation sequence.\n" "0: No effect,1: Activation sequence generator Enabled"
newline
bitfld.long 0x00 2. "DACTEN,Deactivation Sequence Generator Enable Bit\nThis bit enables SC controller to initiate the card by deactivation sequence.\n" "0: No effect,1: Deactivation sequence generator Enabled"
bitfld.long 0x00 1. "RXRST,Rx Software Reset\nWhen RXRST is set all the bytes in the receive buffer and Rx internal state machine will be cleared.\nNote: This bit will be auto cleared after reset is complete" "0: No effect,1: Reset the Rx internal state machine and.."
newline
bitfld.long 0x00 0. "TXRST,TX Software Reset\nWhen TXRST is set all the bytes in the transmit buffer and TX internal state machine will be cleared.\nNote: This bit will be auto cleared after reset is complete" "0: No effect,1: Reset the TX internal state machine and.."
group.long 0x0C++0x03
line.long 0x00 "SC_EGT,SC Extra Guard Time Register"
hexmask.long.byte 0x00 0.--7. 1. "EGT,Extra Guard Time\nThis field indicates the extra guard time value.\nNote: The extra guard time unit is ETU base"
group.long 0x10++0x03
line.long 0x00 "SC_RXTOUT,SC Receive Buffer Time-out Counter Register"
abitfld.long 0x00 0.--8. "RFTM,SC Receiver FIFO Time-out Counter\nThe time-out down counter resets and starts counting whenever the RX buffer received a new data" "0x001=1: The counter unit is ETU based and the..,0x002=2: Filling in all 0 to this field.."
group.long 0x14++0x03
line.long 0x00 "SC_ETUCTL,SC Element Time Unit Control Register"
hexmask.long.word 0x00 0.--11. 1. "ETURDIV,ETU Rate Divider\nThe field is used for ETU clock rate divider.\nThe real ETU is ETURDIV + 1.\nNote: User can configure this field but this field must be greater than 0x04"
group.long 0x18++0x03
line.long 0x00 "SC_INTEN,SC Interrupt Enable Control Register"
bitfld.long 0x00 10. "ACERRIEN,Auto Convention Error Interrupt Enable Bit \nThis field is used to enable auto-convention error interrupt" "0: Auto-convention error interrupt Disabled,1: Auto-convention error interrupt Enabled"
bitfld.long 0x00 9. "RXTOIEN,Receiver Buffer Time-out Interrupt Enable Bit \nThis field is used to enable receiver buffer time-out interrupt" "0: Receiver buffer time-out interrupt Disabled,1: Receiver buffer time-out interrupt Enabled"
newline
bitfld.long 0x00 8. "INITIEN,Initial End Interrupt Enable Bit" "0: Initial end interrupt Disabled,1: Initial end interrupt Enabled"
bitfld.long 0x00 7. "CDIEN,Card Detect Interrupt Enable Bit\nThis field is used to enable card detect interrupt" "0: Card detect interrupt Disabled,1: Card detect interrupt Enabled"
newline
bitfld.long 0x00 6. "BGTIEN,Block Guard Time Interrupt Enable Bit\nThis field is used to enable block guard time interrupt in receive direction.\nNote: This bit is valid only for receive direction block guard time" "0: Block guard time interrupt Disabled,1: Block guard time interrupt Enabled"
bitfld.long 0x00 5. "TMR2IEN,Timer2 Interrupt Enable Bit\nThis field is used to enable Timer2 interrupt function" "0: Timer2 interrupt Disabled,1: Timer2 interrupt Enabled"
newline
bitfld.long 0x00 4. "TMR1IEN,Timer1 Interrupt Enable Bit\nThis field is used to enable the Timer1 interrupt function" "0: Timer1 interrupt Disabled,1: Timer1 interrupt Enabled"
bitfld.long 0x00 3. "TMR0IEN,Timer0 Interrupt Enable Bit\nThis field is used to enable Timer0 interrupt function" "0: Timer0 interrupt Disabled,1: Timer0 interrupt Enabled"
newline
bitfld.long 0x00 2. "TERRIEN,Transfer Error Interrupt Enable Bit\nThis field is used to enable transfer error interrupt" "0: Transfer error interrupt Disabled,1: Transfer error interrupt Enabled"
bitfld.long 0x00 1. "TBEIEN,Transmit Buffer Empty Interrupt Enable Bit\nThis field is used to enable transmit buffer empty interrupt" "0: Transmit buffer empty interrupt Disabled,1: Transmit buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "RDAIEN,Receive Data Reach Interrupt Enable Bit\nThis field is used to enable received data reaching trigger level RXTRGLV (SCn_CTL[7:6]) interrupt" "0: Receive data reach trigger level interrupt..,1: Receive data reach trigger level interrupt.."
group.long 0x1C++0x03
line.long 0x00 "SC_INTSTS,SC Interrupt Status Register"
bitfld.long 0x00 10. "ACERRIF,Auto Convention Error Interrupt Status Flag\nThis field indicates auto convention sequence error.\nNote: This bit can be cleared by writing 1 to it" "0: Received TS at ATR state is 0x3B or 0x3F,1: Received TS at ATR state is neither 0x3B nor.."
rbitfld.long 0x00 9. "RXTOIF,Receive Buffer Time-out Interrupt Status Flag (Read Only)\nThis field is used for indicate receive buffer time-out interrupt status flag.\nNote: This bit is read only user must read all receive buffer remaining data by reading SCn_DAT register to.." "0: Receive buffer time-out interrupt did not occur,1: Receive buffer time-out interrupt occurred"
newline
bitfld.long 0x00 8. "INITIF,Initial End Interrupt Status Flag\nThis field is used for activation (ACTEN (SCn_ALTCTL[3])) deactivation (DACTEN (SCn_ALTCTL[2])) and warm reset (WARSTEN (SCn_ALTCTL[4])) sequence interrupt status flag.\nNote: This bit can be cleared by writing.." "0: Initial sequence is not complete,1: Initial sequence is completed"
rbitfld.long 0x00 7. "CDIF,Card Detect Interrupt Status Flag (Read Only)\nThis field is used for card detect interrupt status flag" "0: Card detect event did not occur,1: Card detect event occurred"
newline
bitfld.long 0x00 6. "BGTIF,Block Guard Time Interrupt Status Flag\nThis field is used for indicate block guard time interrupt status flag in receive direction.\n" "0: Block guard time interrupt did not occur,1: Block guard time interrupt occurred"
bitfld.long 0x00 5. "TMR2IF,Timer2 Interrupt Status Flag\nThis field is used for Timer2 interrupt status flag.\nNote: This bit can be cleared by writing 1 to it" "0: Timer2 interrupt did not occur,1: Timer2 interrupt occurred"
newline
bitfld.long 0x00 4. "TMR1IF,Timer1 Interrupt Status Flag\nThis field is used for Timer1 interrupt status flag.\nNote: This bit can be cleared by writing 1 to it" "0: Timer1 interrupt did not occur,1: Timer1 interrupt occurred"
bitfld.long 0x00 3. "TMR0IF,Timer0 Interrupt Status Flag\nThis field is used for Timer0 interrupt status flag.\nNote: This bit can be cleared by writing 1 to it" "0: Timer0 interrupt did not occur,1: Timer0 interrupt occurred"
newline
bitfld.long 0x00 2. "TERRIF,Transfer Error Interrupt Status Flag\nThis field is used for transfer error interrupt status flag" "0: Transfer error interrupt did not occur,1: Transfer error interrupt occurred"
rbitfld.long 0x00 1. "TBEIF,Transmit Buffer Empty Interrupt Status Flag (Read Only)\nThis field is used for transmit buffer empty interrupt status flag.\nNote: This bit is read only" "0: Transmit buffer is not empty,1: Transmit buffer is empty"
newline
rbitfld.long 0x00 0. "RDAIF,Receive Data Reach Interrupt Status Flag (Read Only)\nThis field is used for received data reaching trigger level RXTRGLV (SCn_CTL[7:6]) interrupt status flag.\nNote: This bit is read only" "0: Number of receive buffer is less than RXTRGLV..,1: Number of receive buffer data equals the.."
group.long 0x20++0x03
line.long 0x00 "SC_STATUS,SC Transfer Status Register"
rbitfld.long 0x00 31. "TXACT,Transmit in Active Status Flag (Read Only)\nThis bit indicates Tx transmit status" "0: This bit is cleared automatically when Tx..,1: Transmit is active and this bit is set by.."
bitfld.long 0x00 30. "TXOVERR,Transmitter over Retry Error\nThis bit is used for transmitter retry counts over than retry number limitation.\nNote: This bit can be cleared by writing 1 to it" "0: Transmitter retries counts is less than TXRTY..,1: Transmitter retries counts is equal or over.."
newline
bitfld.long 0x00 29. "TXRERR,Transmitter Retry Error\nThis bit is used for indicate transmitter error retry and set by hardware..\n" "0: No Tx retry transfer,1: Tx has any error and retries transfer"
rbitfld.long 0x00 24.--26. "TXPOINT,Transmit Buffer Pointer Status (Read Only)\nThis field indicates the Tx buffer pointer status" "0,1,2,3,4,5,6,7"
newline
rbitfld.long 0x00 23. "RXACT,Receiver in Active Status Flag (Read Only)\nThis bit indicates Rx transfer status" "0: This bit is cleared automatically when Rx..,1: This bit is set by hardware when Rx transfer.."
bitfld.long 0x00 22. "RXOVERR,Receiver over Retry Error\nThis bit is used for receiver retry counts over than retry number limitation.\n" "0: Receiver retries counts is less than RXRTY..,1: Receiver retries counts is equal or over than.."
newline
bitfld.long 0x00 21. "RXRERR,Receiver Retry Error\nThis bit is used for receiver error retry and set by hardware.\n" "0: No Rx retry transfer,1: Rx has any error and retries transfer"
rbitfld.long 0x00 16.--18. "RXPOINT,Receive Buffer Pointer Status (Read Only)\nThis field indicates the Rx buffer pointer status" "0,1,2,3,4,5,6,7"
newline
rbitfld.long 0x00 13. "CDPINSTS,Card Detect Pin Status (Read Only)\nThis bit is the pin status of SCn_CD" "0: The SCn_CD pin state at low,1: The SCn_CD pin state at high"
bitfld.long 0x00 12. "CINSERT,Card Insert Status of SCn_CD Pin\nThis bit is set whenever card has been inserted.\n" "0: No effect,1: Card insert"
newline
bitfld.long 0x00 11. "CREMOVE,Card Removal Status of SCn_CD Pin\nThis bit is set whenever card has been removal.\n" "0: No effect,1: Card removed"
rbitfld.long 0x00 10. "TXFULL,Transmit Buffer Full Status Flag (Read Only)\nThis bit indicates Tx buffer full or not" "0: Tx buffer count is less than 4,1: Tx buffer count equals to 4"
newline
rbitfld.long 0x00 9. "TXEMPTY,Transmit Buffer Empty Status Flag (Read Only)\nThis bit indicates TX buffer empty or not.\nNote: This bit will be cleared when writing data into DAT (SCn_DAT[7:0])" "0: Tx buffer is not empty,1: Tx buffer is empty it means the last byte of.."
bitfld.long 0x00 8. "TXOV,Transmit Overflow Error Interrupt Status Flag\nThis bit is set when Tx buffer overflow" "0: Tx buffer is not overflow,1: Tx buffer is overflow when Tx buffer is full.."
newline
bitfld.long 0x00 6. "BEF,Receiver Break Error Status Flag\nThis bit is set to logic 1 whenever the received data input (Rx) held in the spacing state (logic 0) is longer than a full word transmission time (that is the total time of 'start bit' + 'data bits' + 'parity bit' +.." "0: Receiver break error flag did not occur,1: Receiver break error flag occurred"
bitfld.long 0x00 5. "FEF,Receiver Frame Error Status Flag\nThis bit is set to logic 1 whenever the received character does not have a valid stop bit (that is the stop bit following the last data bit or parity bit is detected as logic 0)" "0: Receiver frame error flag did not occur,1: Receiver frame error flag occurred"
newline
bitfld.long 0x00 4. "PEF,Receiver Parity Error Status Flag\nThis bit is set to logic 1 whenever the received character does not have a valid parity bit.\n" "0: Receiver parity error flag did not occur,1: Receiver parity error flag occurred"
rbitfld.long 0x00 2. "RXFULL,Receive Buffer Full Status Flag (Read Only)\nThis bit indicates Rx buffer full or not" "0: Rx buffer count is less than 4,1: Rx buffer count equals to 4"
newline
rbitfld.long 0x00 1. "RXEMPTY,Receive Buffer Empty Status Flag (Read Only)\nThis bit indicates Rx buffer empty or not" "0: Rx buffer is not empty,1: Rx buffer is empty it means the last byte of.."
bitfld.long 0x00 0. "RXOV,Receive Overflow Error Status Flag \nThis bit is set when Rx buffer overflow.\nNote: This bit can be cleared by writing 1 to it" "0: Rx buffer is not overflow,1: Rx buffer is overflow when the number of.."
group.long 0x24++0x03
line.long 0x00 "SC_PINCTL,SC Pin Control State Register"
rbitfld.long 0x00 30. "SYNC,SYNC Flag Indicator (Read Only)\nDue to synchronization user should check this bit when writing a new value to SCn_PINCTL register" "0: Synchronizing is completion user can write..,1: Last value is synchronizing"
rbitfld.long 0x00 18. "RSTSTS,SCn_RST Pin Status (Read Only)\nThis bit is the pin status of SCn_RST" "0: SCn_RST pin is low,1: SCn_RST pin is high"
newline
rbitfld.long 0x00 17. "PWRSTS,SCn_PWR Pin Status (Read Only)\nThis bit is the pin status of SCn_PWR" "0: SCn_PWR pin to low,1: SCn_PWR pin to high"
rbitfld.long 0x00 16. "DATASTS,SCn_DATA Pin Status (Read Only)\nThis bit is the pin status of SCn_DATA" "0: The SCn_DATA pin status is low,1: The SCn_DATA pin status is high"
newline
bitfld.long 0x00 11. "PWRINV,SCn_PWR Pin Inverse\nThis bit is used for inverse the SCn_PWR pin.\nThere are four kinds of combination for SCn_PWR pin setting by PWRINV (SCn_PINCTL[11]) and PWREN (SCn_PINCTL[0])" "0: SCn_PWR pin is 0,1: SCn_PWR pin is 1"
bitfld.long 0x00 9. "SCDATA,SCn_DATA Pin Signal \nThis bit is the signal status of SCn_DATA but user can drive SCn_DATA pin to high or low by setting this bit.\nNote: When SC is at activation warm reset or deactivation mode this bit will be changed automatically" "0: Drive SCn_DATA pin to low.\nSCn_DATA signal..,1: Drive SCn_DATA pin to high.\nSCn_DATA signal.."
newline
bitfld.long 0x00 6. "CLKKEEP,SC Clock Enable Bit \nNote: When operating in activation warm reset or deactivation mode this bit will be changed automatically" "0: SC clock generation Disabled,1: SC clock always keeps free running"
bitfld.long 0x00 1. "RSTEN,SCn_RST Pin Signal\nUser can set RSTEN (SCn_PINCTL[1]) to decide SCn_RST pin is in high or low level.\nWrite this field to drive SCn_RST pin.\nNote: When operating at activation warm reset or deactivation mode this bit will be changed automatically" "0: Drive SCn_RST pin to low.\nSCn_RST signal..,1: Drive SCn_RST pin to high.\nSCn_RST signal.."
newline
bitfld.long 0x00 0. "PWREN,SCn_PWR Pin Signal\nUser can set PWRINV (SCn_PINCTL[11]) and PWREN (SCn_PINCTL[0]) to decide SCn_PWR pin is in high or low level.\nWrite this field to drive SCn_PWR pin\nRefer PWRINV (SCn_PINCTL[11]) description for programming SCn_PWR pin voltage.." "0: SCn_PWR signal status is low,1: SCn_PWR signal status is high"
group.long 0x28++0x03
line.long 0x00 "SC_TMRCTL0,SC Internal Timer0 Control Register"
rbitfld.long 0x00 31. "SYNC,SYNC Flag Indicator (Read Only)\nDue to synchronization user should check this bit when writing a new value to the SCn_TMRCTL0 register" "0: Synchronizing is completion user can write..,1: Last value is synchronizing"
bitfld.long 0x00 24.--27. "OPMODE,Timer0 Operation Mode Selection\nThis field indicates the internal 24-bit Timer0 operation selection.\nRefer to Table 6.183 for programming Timer0" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.tbyte 0x00 0.--23. 1. "CNT,Timer0 Counter Value\nThis field indicates the internal Timer0 counter values.\nNote: Unit of Timer0 counter is ETU base"
group.long 0x2C++0x03
line.long 0x00 "SC_TMRCTL1,SC Internal Timer1 Control Register"
rbitfld.long 0x00 31. "SYNC,SYNC Flag Indicator (Read Only)\nDue to synchronization software should check this bit when writing a new value to SCn_TMRCTL1 register" "0: Synchronizing is completion user can write..,1: Last value is synchronizing"
bitfld.long 0x00 24.--27. "OPMODE,Timer 1 Operation Mode Selection\nThis field indicates the internal 8-bit Timer1 operation selection.\nRefer to Table 6.183 for programming Timer1" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.byte 0x00 0.--7. 1. "CNT,Timer 1 Counter Value\nThis field indicates the internal Timer1 counter values"
group.long 0x30++0x03
line.long 0x00 "SC_TMRCTL2,SC Internal Timer2 Control Register"
rbitfld.long 0x00 31. "SYNC,SYNC Flag Indicator (Read Only)\nDue to synchronization user should check this bit when writing a new value to SCn_TMRCTL2 register" "0: Synchronizing is completion user can write..,1: Last value is synchronizing"
bitfld.long 0x00 24.--27. "OPMODE,Timer 2 Operation Mode Selection\nThis field indicates the internal 8-bit Timer2 operation selection\nRefer to Table 6.183 for programming Timer2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
hexmask.long.byte 0x00 0.--7. 1. "CNT,Timer 2 Counter Value\nThis field indicates the internal Timer2 counter values"
group.long 0x34++0x03
line.long 0x00 "SC_UARTCTL,SC UART Mode Control Register"
bitfld.long 0x00 7. "OPE,Odd Parity Enable Bit\nThis is used for odd/even parity selection.\nNote: This bit has effect only when PBOFF bit is 0" "0: Even number of logic 1 are transmitted or..,1: Odd number of logic 1 are transmitted or.."
bitfld.long 0x00 6. "PBOFF,Parity Bit Disable Bit\nSets this bit is used for disable parity check function.\nNote: In smart card mode this field must be 0 (default setting is with parity bit)" "0: Parity bit is generated or checked between..,1: Parity bit is not generated (transmitting.."
newline
bitfld.long 0x00 4.--5. "WLS,Word Length Selection\nThis field is used for select UART data length.\nNote: In smart card mode this WLS must be 00" "0: Word length is 8 bits,1: Word length is 7 bits,2: Word length is 6 bits,3: Word length is 5 bits"
bitfld.long 0x00 0. "UARTEN,UART Mode Enable Bit\nSets this bit to enable UART mode function.\n" "0: Smart Card mode,1: UART mode"
group.long 0x4C++0x03
line.long 0x00 "SC_ACTCTL,SC Activation Control Register"
bitfld.long 0x00 0.--4. "T1EXT,T1 Extend Time of Hardware Activation\nThis field provide the configurable cycles to extend the activation time T1 period.\nThe cycle scaling factor is 2048.\nNote: Setting 0 to this field conforms to the protocol ISO/IEC 7816-3" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
tree.end
repeat.end
tree.end
tree "SDH"
repeat 2. (list 0. 1.) (list ad:0x4000D000 ad:0x4000E000)
tree "SDH$1"
base $2
repeat 16. (strings "0" "1" "2" "3" "4" "5" "6" "7" "8" "9" "10" "11" "12" "13" "14" "15" )(list 0x0 0x4 0x8 0xC 0x10 0x14 0x18 0x1C 0x20 0x24 0x28 0x2C 0x30 0x34 0x38 0x3C )
group.long ($2+0x00)++0x03
line.long 0x00 "SDH_FB_$1,Shared Buffer (FIFO)"
hexmask.long 0x00 0.--31. 1. "SB,SDH Shared Buffer (FIFO)\nSingle 128 Bytes shared buffer for data exchange between system memory and cards"
repeat.end
repeat 16. (strings "16" "17" "18" "19" "20" "21" "22" "23" "24" "25" "26" "27" "28" "29" "30" "31" )(list 0x0 0x4 0x8 0xC 0x10 0x14 0x18 0x1C 0x20 0x24 0x28 0x2C 0x30 0x34 0x38 0x3C )
group.long ($2+0x40)++0x03
line.long 0x00 "SDH_FB_$1,Shared Buffer (FIFO)"
hexmask.long 0x00 0.--31. 1. "SB,SDH Shared Buffer (FIFO)\nSingle 128 Bytes shared buffer for data exchange between system memory and cards"
repeat.end
group.long 0x400++0x03
line.long 0x00 "SDH_DMACTL,DMA Control and Status Register"
bitfld.long 0x00 9. "DMABUSY,DMA Transfer Is in Progress\nThis bit indicates if SD Host is granted and doing DMA transfer or not" "0: DMA transfer is not in progress,1: DMA transfer is in progress"
bitfld.long 0x00 3. "SGEN,Scatter-gather Function Enable Bit" "0: Scatter-gather function Disabled (DMA will..,1: Scatter-gather function Enabled (DMA will.."
newline
bitfld.long 0x00 1. "DMARST,Software Engine Reset\nNote: The software reset DMA related registers" "0: No effect,1: Reset internal state machine and pointers"
bitfld.long 0x00 0. "DMAEN,DMA Engine Enable Bit\n" "0: DMA Disabled,1: DMA Enabled"
group.long 0x408++0x03
line.long 0x00 "SDH_DMASA,DMA Transfer Starting Address Register"
hexmask.long 0x00 1.--31. 1. "DMASA,DMA Transfer Starting Address\nThis field pads 0 as least significant bit indicates a 32-bit starting address of system memory (SRAM) for DMA to retrieve or fill in data.\nIf DMA is not in normal mode this field will be interpreted as a starting.."
bitfld.long 0x00 0. "ORDER,Determined to the PAD Table Fetching Is in Order or Out of Order" "0: PAD table is fetched in order,1: PAD table is fetched out of order"
rgroup.long 0x40C++0x03
line.long 0x00 "SDH_DMABCNT,DMA Transfer Byte Count Register"
hexmask.long 0x00 0.--25. 1. "BCNT,DMA Transfer Byte Count (Read Only)\nThis field indicates the remained byte count of DMA transfer"
group.long 0x410++0x03
line.long 0x00 "SDH_DMAINTEN,DMA Interrupt Enable Control Register"
bitfld.long 0x00 1. "WEOTIEN,Wrong EOT Encountered Interrupt Enable Bit" "0: Interrupt generation Disabled when wrong EOT..,1: Interrupt generation Enabled when wrong EOT.."
bitfld.long 0x00 0. "ABORTIEN,DMA Read/Write Target Abort Interrupt Enable Bit" "0: Target abort interrupt generation Disabled..,1: Target abort interrupt generation Enabled.."
group.long 0x414++0x03
line.long 0x00 "SDH_DMAINTSTS,DMA Interrupt Status Register"
rbitfld.long 0x00 1. "WEOTIF,Wrong EOT Encountered Interrupt Flag (Read Only)\nWhen DMA Scatter-Gather function is enabled and EOT of the descriptor is encountered before DMA transfer finished (that means the total sector count of all PAD is less than the sector count of SD.." "0: No EOT encountered before DMA transfer finished,1: EOT encountered before DMA transfer finished"
rbitfld.long 0x00 0. "ABORTIF,DMA Read/Write Target Abort Interrupt Flag (Read Only)\n" "0: No bus ERROR response received,1: Bus ERROR response received"
group.long 0x800++0x03
line.long 0x00 "SDH_GCTL,Global Control and Status Register"
bitfld.long 0x00 1. "SDEN,Secure Digital Functionality Enable Bit" "0: SD functionality Disabled,1: SD functionality Enabled"
bitfld.long 0x00 0. "GCTLRST,Software Engine Reset" "0: No effect,1: Reset SD host"
group.long 0x804++0x03
line.long 0x00 "SDH_GINTEN,Global Interrupt Control Register"
bitfld.long 0x00 0. "DTAIEN,DMA READ/WRITE Target Abort Interrupt Enable Bit" "0: DMA READ/WRITE target abort interrupt..,1: DMA READ/WRITE target abort interrupt.."
group.long 0x808++0x03
line.long 0x00 "SDH_GINTSTS,Global Interrupt Status Register"
rbitfld.long 0x00 0. "DTAIF,DMA READ/WRITE Target Abort Interrupt Flag (Read Only)\nThis bit indicates DMA received an ERROR response from internal AHB bus during DMA read/write operation" "0: No bus ERROR response received,1: Bus ERROR response received"
group.long 0x820++0x03
line.long 0x00 "SDH_CTL,SD Control and Status Register"
bitfld.long 0x00 24.--27. "SDNWR,NWR Parameter for Block Write Operation\nThis value indicates the NWR parameter for data block write operation in SD clock counts" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.byte 0x00 16.--23. 1. "BLKCNT,Block Counts to Be Transferred or Received\nThis field contains the block counts for data-in and data-out transfer"
newline
bitfld.long 0x00 15. "DBW,SD Data Bus Width (for 1-bit / 4-bit Selection)" "0: Data bus width is 1-bit,1: Data bus width is 4-bit"
bitfld.long 0x00 14. "CTLRST,Software Engine Reset" "0: No effect,1: Reset the internal state machine and counters"
newline
bitfld.long 0x00 8.--13. "CMDCODE,SD Command Code\nThe bits contain the SD command code (0x00 - 0x3F)" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
bitfld.long 0x00 7. "CLKKEEP,SD Clock Enable Control" "0: SD host decided when to output clock and when..,1: SD clock always keeps free running"
newline
bitfld.long 0x00 6. "CLK8OEN,Generating 8 Clock Cycles Output Enable Bit\nNote: When operation is finished this bit will be cleared automatically so don't write 0 to this bit (the controller will be abnormal)" "0: No effect,1: Enabled"
bitfld.long 0x00 5. "CLK74OEN,Initial 74 Clock Cycles Output Enable Bit\nNote: When operation is finished this bit will be cleared automatically so don't write 0 to this bit (the controller will be abnormal)" "0: No effect,1: Enabled"
newline
bitfld.long 0x00 4. "R2EN,Response R2 Input Enable Bit\nNote: When operation is finished this bit will be cleared automatically so don't write 0 to this bit (the controller will be abnormal)" "0: No effect,1: Enabled"
bitfld.long 0x00 3. "DOEN,Data Output Enable Bit\nNote: When operation is finished this bit will be cleared automatically so don't write 0 to this bit (the controller will be abnormal)" "0: No effect,1: Enabled"
newline
bitfld.long 0x00 2. "DIEN,Data Input Enable Bit\nNote: When operation is finished this bit will be cleared automatically so don't write 0 to this bit (the controller will be abnormal)" "0: No effect,1: Enabled"
bitfld.long 0x00 1. "RIEN,Response Input Enable Bit\nNote: When operation is finished this bit will be cleared automatically so don't write 0 to this bit (the controller will be abnormal)" "0: No effect,1: Enabled"
newline
bitfld.long 0x00 0. "COEN,Command Output Enable Bit\nNote: When operation is finished this bit will be cleared automatically so don't write 0 to this bit (the controller will be abnormal)" "0: No effect,1: Enabled"
group.long 0x824++0x03
line.long 0x00 "SDH_CMDARG,SD Command Argument Register"
hexmask.long 0x00 0.--31. 1. "ARGUMENT,SD Command Argument\nThis register contains a 32-bit value specifies the argument of SD command from host controller to SD card"
group.long 0x828++0x03
line.long 0x00 "SDH_INTEN,SD Interrupt Control Register"
bitfld.long 0x00 30. "CDSRC,SD Card Detect Source Selection" "0: From SD card's DAT3 pin,1: From GPIO pin"
bitfld.long 0x00 14. "WKIEN,Wake-up Signal Generating Enable Bit\nEnable/Disable wake-up signal generating of SD controller when card is inserted or removed" "0: SD Card interrupt to wake-up chip Disabled,1: SD Card interrupt to wake-up chip Enabled"
newline
bitfld.long 0x00 13. "DITOIEN,Data Input Time-out Interrupt Enable Bit\nEnable/Disable interrupts generation of SD controller when data input time-out" "0: DITOIF (SDH_INTEN[13]) trigger interrupt..,1: DITOIF (SDH_INTEN[13]) trigger interrupt.."
bitfld.long 0x00 12. "RTOIEN,Response Time-out Interrupt Enable Bit\nEnable/Disable interrupts generation of SD controller when receiving response or R2 time-out" "0: RTOIF (SDH_INTEN[12]) trigger interrupt..,1: RTOIF (SDH_INTEN[12]) trigger interrupt Enabled"
newline
bitfld.long 0x00 8. "CDIEN,SD Card Detection Interrupt Enable Bit\nEnable/Disable interrupts generation of SD controller when card is inserted or removed" "0: CDIF (SDH_INTEN[8]) trigger interrupt Disable,1: CDIF (SDH_INTEN[8]) trigger interrupt Enabled"
bitfld.long 0x00 1. "CRCIEN,CRC7 CRC16 and CRC Status Error Interrupt Enable Bit" "0: CRCIF (SDH_INTEN[1]) trigger interrupt Disable,1: CRCIF (SDH_INTEN[1]) trigger interrupt Enabled"
newline
bitfld.long 0x00 0. "BLKDIEN,Block Transfer Done Interrupt Enable Bit" "0: BLKDIF (SDH_INTEN[0]) trigger interrupt Disable,1: BLKDIF (SDH_INTEN[0]) trigger interrupt Enabled"
group.long 0x82C++0x03
line.long 0x00 "SDH_INTSTS,SD Interrupt Status Register"
rbitfld.long 0x00 18. "DAT1STS,DAT1 Pin Status of SD Card (Read Only)\nThis bit indicates the DAT1 pin status of SD card" "0,1"
rbitfld.long 0x00 16. "CDSTS,Card Detect Status of SD (Read Only)\nThis bit indicates the card detect pin status of SD and is used for card detection" "0: Card removed.\nCard inserted,1: Card inserted.\nCard removed"
newline
rbitfld.long 0x00 13. "DITOIF,Data Input Time-out Interrupt Flag (Read Only)\nThis bit indicates that SD host counts to time-out value when receiving data (waiting start bit).\nNote: This bit is read only but can be cleared by writing '1' to it" "0: Not time-out,1: Data input time-out"
rbitfld.long 0x00 12. "RTOIF,Response Time-out Interrupt Flag (Read Only)\nThis bit indicates that SD host counts to time-out value when receiving response or R2 (waiting start bit).\nNote: This bit is read only but can be cleared by writing '1' to it" "0: Not time-out,1: Response time-out"
newline
rbitfld.long 0x00 8. "CDIF,SD Card Detection Interrupt Flag (Read Only)\nThis bit indicates that SD card is inserted or removed" "0: No card is inserted or removed,1: There is a card inserted in or removed from SD"
rbitfld.long 0x00 7. "DAT0STS,DAT0 Pin Status of Current Selected SD Port (Read Only)\nThis bit is the DAT0 pin status of current selected SD port" "0,1"
newline
rbitfld.long 0x00 4.--6. "CRCSTS,CRC Status Value of Data-out Transfer (Read Only)\nSD host will record CRC status of data-out transfer" "?,?,2: Positive CRC status,?,?,5: Negative CRC status,?,7: SD card programming error occurs"
rbitfld.long 0x00 3. "CRC16,CRC16 Check Status of Data-in Transfer (Read Only)\nSD host will check CRC16 correctness after data-in transfer" "0: Fault,1: OK"
newline
rbitfld.long 0x00 2. "CRC7,CRC7 Check Status (Read Only)\nSD host will check CRC7 correctness during each response in" "0: Fault,1: OK"
rbitfld.long 0x00 1. "CRCIF,CRC7 CRC16 and CRC Status Error Interrupt Flag (Read Only)\nThis bit indicates that SD host has occurred CRC error during response in data-in or data-out (CRC status error) transfer" "0: No CRC error is occurred,1: CRC error is occurred"
newline
rbitfld.long 0x00 0. "BLKDIF,Block Transfer Done Interrupt Flag (Read Only)\nThis bit indicates that SD host has finished all data-in or data-out block transfer" "0: Not finished yet,1: Done"
rgroup.long 0x830++0x03
line.long 0x00 "SDH_RESP0,SD Receiving Response Token Register 0"
hexmask.long 0x00 0.--31. 1. "RESPTK0,SD Receiving Response Token 0\nSD host controller will receive a response token for getting a reply from SD card when RIEN (SDH_CTL[1]) is set"
rgroup.long 0x834++0x03
line.long 0x00 "SDH_RESP1,SD Receiving Response Token Register 1"
hexmask.long.byte 0x00 0.--7. 1. "RESPTK1,SD Receiving Response Token 1\nThe SD host controller will receive a response token for getting a reply from SD card when RIEN (SDH_CTL[1]) is set"
group.long 0x838++0x03
line.long 0x00 "SDH_BLEN,SD Block Length Register"
hexmask.long.word 0x00 0.--10. 1. "BLKLEN,SD BLOCK LENGTH in Byte Unit\nAn 11-bit value specifies the SD transfer byte count of a block"
group.long 0x83C++0x03
line.long 0x00 "SDH_TOUT,SD Response/Data-in Time-out Register"
hexmask.long.tbyte 0x00 0.--23. 1. "TOUT,SD Response/Data-in Time-out Value\nA 24-bit value specifies the time-out counts of response and data input"
tree.end
repeat.end
tree.end
tree "SPI"
repeat 4. (list 0. 1. 2. 3.) (list ad:0x40061000 ad:0x40062000 ad:0x40063000 ad:0x40064000)
tree "SPI$1"
base $2
group.long 0x00++0x03
line.long 0x00 "SPIx_CTL,SPI Control Register"
bitfld.long 0x00 20. "DATDIR,Data Port Direction Control\nThis bit is used to select the data input/output direction in half-duplex transfer and Dual/Quad transfer" "0: SPI data is input direction,1: SPI data is output direction"
bitfld.long 0x00 19. "REORDER,Byte Reorder Function Enable Bit\nNote: Byte Reorder function is only available if DWIDTH is defined as 16 24 and 32 bits" "0: Byte Reorder function Disabled,1: Byte Reorder function Enabled"
newline
bitfld.long 0x00 18. "SLAVE,Slave Mode Control" "0: Master mode,1: Slave mode"
bitfld.long 0x00 17. "UNITIEN,Unit Transfer Interrupt Enable Bit" "0: SPI unit transfer interrupt Disabled,1: SPI unit transfer interrupt Enabled"
newline
bitfld.long 0x00 15. "RXONLY,Receive-only Mode Enable Bit (Master Only)\nThis bit field is only available in Master mode" "0: Receive-only mode Disabled,1: Receive-only mode Enabled"
bitfld.long 0x00 14. "HALFDPX,SPI Half-duplex Transfer Enable Bit\nThis bit is used to select full-duplex or half-duplex for SPI transfer" "0: SPI operates in full-duplex transfer,1: SPI operates in half-duplex transfer"
newline
bitfld.long 0x00 13. "LSB,Send LSB First" "0: The MSB which bit of transmit/receive..,1: The LSB bit 0 of the SPI TX register is sent.."
bitfld.long 0x00 8.--12. "DWIDTH,Data Width\nThis field specifies how many bits can be transmitted / received in one transaction" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
bitfld.long 0x00 4.--7. "SUSPITV,Suspend Interval (Master Only)\nThe four bits provide configurable suspend interval between two successive transmit/receive transaction in a transfer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "CLKPOL,Clock Polarity" "0: SPI bus clock is idle low,1: SPI bus clock is idle high"
newline
bitfld.long 0x00 2. "TXNEG,Transmit on Negative Edge" "0: Transmitted data output signal is changed on..,1: Transmitted data output signal is changed on.."
bitfld.long 0x00 1. "RXNEG,Receive on Negative Edge" "0: Received data input signal is latched on the..,1: Received data input signal is latched on the.."
newline
bitfld.long 0x00 0. "SPIEN,SPI Transfer Control Enable Bit\nIn Master mode the transfer will start when there is data in the FIFO buffer after this bit is set to 1" "0: Transfer control Disabled,1: Transfer control Enabled"
group.long 0x04++0x03
line.long 0x00 "SPIx_CLKDIV,SPI Clock Divider Register"
abitfld.long 0x00 0.--8. "DIVIDER,Clock Divider\nThe value in this field is the frequency divider for generating the peripheral clock fspi_eclk and the SPI bus clock of SPI Master" "0x001=1: Not supported in I2S mode.\n,0x002=2: The time interval must be larger than.."
group.long 0x08++0x03
line.long 0x00 "SPIx_SSCTL,SPI Slave Select Control Register"
bitfld.long 0x00 13. "SSINAIEN,Slave Select Inactive Interrupt Enable Bit" "0: Slave select inactive interrupt Disabled,1: Slave select inactive interrupt Enabled"
bitfld.long 0x00 12. "SSACTIEN,Slave Select Active Interrupt Enable Bit" "0: Slave select active interrupt Disabled,1: Slave select active interrupt Enabled"
newline
bitfld.long 0x00 9. "SLVURIEN,Slave Mode TX Under Run Interrupt Enable Bit" "0: Slave mode TX under run interrupt Disabled,1: Slave mode TX under run interrupt Enabled"
bitfld.long 0x00 8. "SLVBEIEN,Slave Mode Bit Count Error Interrupt Enable Bit" "0: Slave mode bit count error interrupt Disabled,1: Slave mode bit count error interrupt Enabled"
newline
bitfld.long 0x00 3. "AUTOSS,Automatic Slave Selection Function Enable Bit (Master Only)" "0: Automatic slave selection function Disabled,1: Automatic slave selection function Enabled"
bitfld.long 0x00 2. "SSACTPOL,Slave Selection Active Polarity\nThis bit defines the active polarity of slave selection signal (SPIx_SS)" "0: The slave selection signal SPIx_SS is active..,1: The slave selection signal SPIx_SS is active.."
newline
bitfld.long 0x00 0. "SS,Slave Selection Control (Master Only)\nIf AUTOSS bit is cleared to 0" "0: set the SPIx_SS line to inactive state.\nKeep..,1: set the SPIx_SS line to active.."
group.long 0x0C++0x03
line.long 0x00 "SPIx_PDMACTL,SPI PDMA Control Register"
bitfld.long 0x00 2. "PDMARST,PDMA Reset" "0: No effect,1: Reset the PDMA control logic of the SPI.."
bitfld.long 0x00 1. "RXPDMAEN,Receive PDMA Enable Bit" "0: Receive PDMA function Disabled,1: Receive PDMA function Enabled"
newline
bitfld.long 0x00 0. "TXPDMAEN,Transmit PDMA Enable Bit\nNote: In SPI Master mode with full duplex transfer if both TX and RX PDMA functions are enabled RX PDMA function cannot be enabled prior to TX PDMA function" "0: Transmit PDMA function Disabled,1: Transmit PDMA function Enabled"
group.long 0x10++0x03
line.long 0x00 "SPIx_FIFOCTL,SPI FIFO Control Register"
bitfld.long 0x00 28.--30. "TXTH,Transmit FIFO Threshold\nIf the valid data count of the transmit FIFO buffer is less than or equal to the (TXTH + 1) setting the TXTHIF bit will be set to 1 else the TXTHIF bit will be cleared to 0" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 24.--26. "RXTH,Receive FIFO Threshold\nIf the valid data count of the receive FIFO buffer is larger than the (RXTH + 1) setting the RXTHIF bit will be set to 1 else the RXTHIF bit will be cleared to 0" "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 9. "TXFBCLR,Transmit FIFO Buffer Clear\nNote: The TX shift register will not be cleared" "0: No effect,1: Clear transmit FIFO pointer"
bitfld.long 0x00 8. "RXFBCLR,Receive FIFO Buffer Clear\nNote: The RX shift register will not be cleared" "0: No effect,1: Clear receive FIFO pointer"
newline
bitfld.long 0x00 7. "TXUFIEN,TX Underflow Interrupt Enable Bit\nWhen TX underflow event occurs in Slave mode TXUFIF (SPIx_STATUS[19]) will be set to 1" "0: Slave TX underflow interrupt Disabled,1: Slave TX underflow interrupt Enabled"
bitfld.long 0x00 6. "TXUFPOL,TX Underflow Data Polarity\n" "0: The SPI data out is keep 0 if there is TX..,1: The SPI data out is keep 1 if there is TX.."
newline
bitfld.long 0x00 5. "RXOVIEN,Receive FIFO Overrun Interrupt Enable Bit" "0: Receive FIFO overrun interrupt Disabled,1: Receive FIFO overrun interrupt Enabled"
bitfld.long 0x00 4. "RXTOIEN,Slave Receive Time-out Interrupt Enable Bit" "0: Receive time-out interrupt Disabled,1: Receive time-out interrupt Enabled"
newline
bitfld.long 0x00 3. "TXTHIEN,Transmit FIFO Threshold Interrupt Enable Bit" "0: TX FIFO threshold interrupt Disabled,1: TX FIFO threshold interrupt Enabled"
bitfld.long 0x00 2. "RXTHIEN,Receive FIFO Threshold Interrupt Enable Bit" "0: RX FIFO threshold interrupt Disabled,1: RX FIFO threshold interrupt Enabled"
newline
bitfld.long 0x00 1. "TXRST,Transmit Reset\nNote: If TX underflow event occurs in SPI Slave mode this bit can be used to make SPI return to idle state" "0: No effect,1: Reset transmit FIFO pointer and transmit.."
bitfld.long 0x00 0. "RXRST,Receive Reset" "0: No effect,1: Reset receive FIFO pointer and receive circuit"
group.long 0x14++0x03
line.long 0x00 "SPIx_STATUS,SPI Status Register"
rbitfld.long 0x00 28.--31. "TXCNT,Transmit FIFO Data Count (Read Only)\nThis bit field indicates the valid data count of transmit FIFO buffer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rbitfld.long 0x00 24.--27. "RXCNT,Receive FIFO Data Count (Read Only)\nThis bit field indicates the valid data count of receive FIFO buffer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
rbitfld.long 0x00 23. "TXRXRST,TX or RX Reset Status (Read Only)\nNote: Both the reset operations of TXRST and RXRST need 3 system clock cycles + 2 peripheral clock cycles" "0: The reset function of TXRST or RXRST is done,1: Doing the reset function of TXRST or RXRST"
bitfld.long 0x00 19. "TXUFIF,TX Underflow Interrupt Flag\nWhen the TX underflow event occurs this bit will be set to 1 the state of data output pin depends on the setting of TXUFPOL.\n" "0: No effect,1: No data in Transmit FIFO and TX shift.."
newline
rbitfld.long 0x00 18. "TXTHIF,Transmit FIFO Threshold Interrupt Flag (Read Only)" "0: The valid data count within the transmit FIFO..,1: The valid data count within the transmit FIFO.."
rbitfld.long 0x00 17. "TXFULL,Transmit FIFO Buffer Full Indicator (Read Only)" "0: Transmit FIFO buffer is not full,1: Transmit FIFO buffer is full"
newline
rbitfld.long 0x00 16. "TXEMPTY,Transmit FIFO Buffer Empty Indicator (Read Only)" "0: Transmit FIFO buffer is not empty,1: Transmit FIFO buffer is empty"
rbitfld.long 0x00 15. "SPIENSTS,SPI Enable Status (Read Only)\nNote: The SPI peripheral clock is asynchronous with the system clock" "0: SPI controller Disabled,1: SPI controller Enabled"
newline
bitfld.long 0x00 12. "RXTOIF,Receive Time-out Interrupt Flag\nNote: This bit will be cleared by writing 1 to it" "0: No receive FIFO time-out event,1: Receive FIFO buffer is not empty and no read.."
bitfld.long 0x00 11. "RXOVIF,Receive FIFO Overrun Interrupt Flag\nWhen the receive FIFO buffer is full the follow-up data will be dropped and this bit will be set to 1.\nNote: This bit will be cleared by writing 1 to it" "0: No FIFO is overrun,1: Receive FIFO is overrun"
newline
rbitfld.long 0x00 10. "RXTHIF,Receive FIFO Threshold Interrupt Flag (Read Only)" "0: The valid data count within the receive FIFO..,1: The valid data count within the receive FIFO.."
rbitfld.long 0x00 9. "RXFULL,Receive FIFO Buffer Full Indicator (Read Only)" "0: Receive FIFO buffer is not full,1: Receive FIFO buffer is full"
newline
rbitfld.long 0x00 8. "RXEMPTY,Receive FIFO Buffer Empty Indicator (Read Only)" "0: Receive FIFO buffer is not empty,1: Receive FIFO buffer is empty"
bitfld.long 0x00 7. "SLVURIF,Slave Mode TX Under Run Interrupt Flag\nIn Slave mode if TX underflow event occurs and the slave select line goes to inactive state this interrupt flag will be set to 1.\nNote: This bit will be cleared by writing 1 to it" "0: No Slave TX under run event,1: Slave TX under run event occurred"
newline
bitfld.long 0x00 6. "SLVBEIF,Slave Mode Bit Count Error Interrupt Flag\nIn Slave mode when the slave select line goes to inactive state if bit counter is mismatch with DWIDTH this interrupt flag will be set to 1.\nNote: If the slave select active but there is no any bus.." "0: No Slave mode bit count error event,1: Slave mode bit count error event occurred"
rbitfld.long 0x00 4. "SSLINE,Slave Select Line Bus Status (Read Only)\nNote: This bit is only available in Slave mode" "0: The slave select line status is 0,1: The slave select line status is 1"
newline
bitfld.long 0x00 3. "SSINAIF,Slave Select Inactive Interrupt Flag\nNote: Only available in Slave mode" "0: Slave select inactive interrupt was cleared..,1: Slave select inactive interrupt event occurred"
bitfld.long 0x00 2. "SSACTIF,Slave Select Active Interrupt Flag\nNote: Only available in Slave mode" "0: Slave select active interrupt was cleared or..,1: Slave select active interrupt event occurred"
newline
bitfld.long 0x00 1. "UNITIF,Unit Transfer Interrupt Flag\nNote: This bit will be cleared by writing 1 to it" "0: No transaction has been finished since this..,1: SPI controller has finished one unit transfer"
rbitfld.long 0x00 0. "BUSY,Busy Status (Read Only)" "0: SPI controller is in idle state,1: SPI controller is in busy state"
wgroup.long 0x20++0x03
line.long 0x00 "SPIx_TX,SPI Data Transmit Register"
hexmask.long 0x00 0.--31. 1. "TX,Data Transmit Register\nThe data transmit registers pass through the transmitted data into the 4-level transmit FIFO buffers"
rgroup.long 0x30++0x03
line.long 0x00 "SPIx_RX,SPI Data Receive Register"
hexmask.long 0x00 0.--31. 1. "RX,Data Receive Register (Read Only)\nThere are 4-level FIFO buffers in this controller"
group.long 0x60++0x03
line.long 0x00 "SPIx_I2SCTL,I2S Control Register"
bitfld.long 0x00 31. "SLVERRIEN,Bit Clock Loss Interrupt Enable Bit for Slave Mode\nInterrupt occurs if this bit is set to 1 and bit clock loss event occurs" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 28.--29. "FORMAT,Data Format Selection" "0: I2S data format,1: MSB justified data format,2: PCM mode A,3: PCM mode B"
newline
bitfld.long 0x00 25. "LZCIEN,Left Channel Zero Cross Interrupt Enable Bit\nInterrupt occurs if this bit is set to 1 and left channel zero cross event occurs" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 24. "RZCIEN,Right Channel Zero Cross Interrupt Enable Bit\nInterrupt occurs if this bit is set to 1 and right channel zero cross event occurs" "0: Interrupt Disabled,1: Interrupt Enabled"
newline
bitfld.long 0x00 23. "RXLCH,Receive Left Channel Enable Bit" "0: Receive right channel data in Mono mode,1: Receive left channel data in Mono mode"
bitfld.long 0x00 17. "LZCEN,Left Channel Zero Cross Detection Enable Bit\nIf this bit is set to 1 when left channel data sign bit changes or next shift data bits are all 0 then LZCIF flag in SPIx_I2SSTS register is set to 1" "0: Left channel zero cross detection Disabled,1: Left channel zero cross detection Enabled"
newline
bitfld.long 0x00 16. "RZCEN,Right Channel Zero Cross Detection Enable Bit\nIf this bit is set to 1 when right channel data sign bit change or next shift data bits are all 0 then RZCIF flag in SPIx_I2SSTS register is set to 1" "0: Right channel zero cross detection Disabled,1: Right channel zero cross detection Enabled"
bitfld.long 0x00 15. "MCLKEN,Master Clock Enable Bit\nIf MCLKEN is set to 1 I2S controller will generate master clock on SPIx_I2SMCLK pin for external audio devices" "0: Master clock Disabled,1: Master clock Enabled"
newline
bitfld.long 0x00 8. "SLAVE,Slave Mode\nI2S can operate as master or slave" "0: Master mode,1: Slave mode"
bitfld.long 0x00 7. "ORDER,Stereo Data Order in FIFO" "0: Left channel data at high byte,1: Left channel data at low byte"
newline
bitfld.long 0x00 6. "MONO,Monaural Data" "0: Data is stereo format,1: Data is monaural format"
bitfld.long 0x00 4.--5. "WDWIDTH,Word Width" "0: data size is 8-bit,1: data size is 16-bit,2: data size is 24-bit,3: data size is 32-bit"
newline
bitfld.long 0x00 3. "MUTE,Transmit Mute Enable Bit" "0: Transmit data is shifted from buffer,1: Transmit channel zero"
bitfld.long 0x00 2. "RXEN,Receive Enable Bit" "0: Data receive Disabled,1: Data receive Enabled"
newline
bitfld.long 0x00 1. "TXEN,Transmit Enable Bit" "0: Data transmit Disabled,1: Data transmit Enabled"
bitfld.long 0x00 0. "I2SEN,I2S Controller Enable Bit\n" "0: I2S mode Disabled,1: I2S mode Enabled"
group.long 0x64++0x03
line.long 0x00 "SPIx_I2SCLK,I2S Clock Divider Control Register"
hexmask.long.word 0x00 8.--17. 1. "BCLKDIV,Bit Clock Divider\nThe I2S controller will generate bit clock in Master mode"
hexmask.long.byte 0x00 0.--6. 1. "MCLKDIV,Master Clock Divider\nIf MCLKEN is set to 1 I2S controller will generate master clock for external audio devices"
group.long 0x68++0x03
line.long 0x00 "SPIx_I2SSTS,I2S Status Register"
rbitfld.long 0x00 28.--30. "TXCNT,Transmit FIFO Data Count (Read Only)\nThis bit field indicates the valid data count of transmit FIFO buffer" "0,1,2,3,4,5,6,7"
rbitfld.long 0x00 24.--26. "RXCNT,Receive FIFO Data Count (Read Only)\nThis bit field indicates the valid data count of receive FIFO buffer" "0,1,2,3,4,5,6,7"
newline
rbitfld.long 0x00 23. "TXRXRST,TX or RX Reset Status (Read Only)\nNote: Both the reset operations of TXRST and RXRST need 3 system clock cycles + 2 peripheral clock cycles" "0: The reset function of TXRST or RXRST is done,1: Doing the reset function of TXRST or RXRST"
bitfld.long 0x00 22. "SLVERRIF,Bit Clock Loss Interrupt Flag for Slave Mode\nNote: This bit will be cleared by writing 1 to it" "0: No bit clock loss event occurred,1: Bit clock loss event occurred"
newline
bitfld.long 0x00 21. "LZCIF,Left Channel Zero Cross Interrupt Flag" "0: No zero cross event occurred on left channel,1: Zero cross event occurred on left channel"
bitfld.long 0x00 20. "RZCIF,Right Channel Zero Cross Interrupt Flag" "0: No zero cross event occurred on right channel,1: Zero cross event occurred on right channel"
newline
bitfld.long 0x00 19. "TXUFIF,Transmit FIFO Underflow Interrupt Flag\nWhen the transmit FIFO buffer is empty and there is no datum written into the FIFO buffer if there is more bus clock input this bit will be set to 1.\nNote: This bit will be cleared by writing 1 to it" "0,1"
rbitfld.long 0x00 18. "TXTHIF,Transmit FIFO Threshold Interrupt Flag (Read Only)" "0: The valid data count within the transmit FIFO..,1: The valid data count within the transmit FIFO.."
newline
rbitfld.long 0x00 17. "TXFULL,Transmit FIFO Buffer Full Indicator (Read Only)" "0: Transmit FIFO buffer is not full,1: Transmit FIFO buffer is full"
rbitfld.long 0x00 16. "TXEMPTY,Transmit FIFO Buffer Empty Indicator (Read Only)" "0: Transmit FIFO buffer is not empty,1: Transmit FIFO buffer is empty"
newline
rbitfld.long 0x00 15. "I2SENSTS,I2S Enable Status (Read Only)\nNote: The SPI peripheral clock is asynchronous with the system clock" "0: The SPI/I2S control logic is disabled,1: The SPI/I2S control logic is enabled"
bitfld.long 0x00 12. "RXTOIF,Receive Time-out Interrupt Flag\nNote: This bit will be cleared by writing 1 to it" "0: No receive FIFO time-out event,1: Receive FIFO buffer is not empty and no read.."
newline
bitfld.long 0x00 11. "RXOVIF,Receive FIFO Overrun Interrupt Flag\nWhen the receive FIFO buffer is full the follow-up data will be dropped and this bit will be set to 1.\nNote: This bit will be cleared by writing 1 to it" "0,1"
rbitfld.long 0x00 10. "RXTHIF,Receive FIFO Threshold Interrupt Flag (Read Only)" "0: The valid data count within the receive FIFO..,1: The valid data count within the receive FIFO.."
newline
rbitfld.long 0x00 9. "RXFULL,Receive FIFO Buffer Full Indicator (Read Only)" "0: Receive FIFO buffer is not full,1: Receive FIFO buffer is full"
rbitfld.long 0x00 8. "RXEMPTY,Receive FIFO Buffer Empty Indicator (Read Only)" "0: Receive FIFO buffer is not empty,1: Receive FIFO buffer is empty"
newline
rbitfld.long 0x00 4. "RIGHT,Right Channel (Read Only)\nThis bit indicates the current transmit data is belong to which channel" "0: Left channel,1: Right channel"
tree.end
repeat.end
tree.end
tree "SPIM"
base ad:0x40007000
group.long 0x00++0x03
line.long 0x00 "SPIM_CTL0,Control and Status Register 0"
hexmask.long.byte 0x00 24.--31. 1. "CMDCODE,Page Program Command Code (Note4)\nThe Others command codes are Reserved.\nThe DTR/DDR read commands '0x0D 0xBD 0xED' improves throughput by transferring address and data on both the falling and rising edge of SPI Flash clock (SPIM_CLK)"
bitfld.long 0x00 22.--23. "OPMODE,SPI Function Operation Mode\nNote1: After using Normal I/O mode of SPI Flash controller to program the content of external SPI Flash please set CDINVAL(SPIM_CTL1[3]) to 0x1 (Set all cache data to be invalid).\nNote2: In DMA write mode hardware.." "0: Normal I/O mode,1: DMA write mode,2: DMA read mode,3: Direct Memory Mapping mode (DMM mode) (Default)"
newline
bitfld.long 0x00 20.--21. "BITMODE,SPI Interface Bit Mode\nNote: Only used for normal I/O mode" "0: Standard mode,1: Dual mode,2: Quad mode,3: Reserved"
bitfld.long 0x00 16.--19. "SUSPITV,Suspend Interval\nNote: Only used for normal I/O mode" "0: 2 AHB clock cycles,1: 3 AHB clock cycles,?,?,?,?,?,?,?,?,?,?,?,?,14: 16 AHB clock cycles,15: 17 AHB clock cycles"
newline
bitfld.long 0x00 15. "QDIODIR,SPI Interface Direction Select for Quad/Dual Mode\nNote: Only used for normal I/O mode" "0: Interface signals are input,1: Interface signals are output"
bitfld.long 0x00 13.--14. "BURSTNUM,Transmit/Receive Burst Number\nThis field specifies how many transmit/receive transactions should be executed continuously in one transfer.\nNote: Only used for normal I/O Mode" "0: Only one transmit/receive transaction will be..,1: Two successive transmit/receive transactions..,2: Three successive transmit/receive..,3: Four successive transmit/receive transactions.."
newline
bitfld.long 0x00 8.--12. "DWIDTH,Transmit/Receive Bit Length\nThis specifies how many bits are transmitted/received in one transmit/receive transaction.\nNote1: Only used for normal I/O mode.\nNote2: Only 8 16 24 and 32 bits are allowed" "?,?,?,?,?,?,?,7: 8 bits,?,?,?,?,?,?,?,15: 16 bits,?,?,?,?,?,?,?,23: 24 bits,?,?,?,?,?,?,?,31: 32 bits"
bitfld.long 0x00 7. "IF,Interrupt Flag\nWrite Operation" "0: No effect.\nThe transfer has not finished yet,1: Write 1 to clear.\nThe transfer has done"
newline
bitfld.long 0x00 6. "IEN,Interrupt Enable Bit" "0: SPIM Interrupt Disabled,1: SPIM Interrupt Enabled"
bitfld.long 0x00 5. "B4ADDREN,4-byte Address Mode Enable Bit\nNote: Used for DMA write mode DMA read mode and DMM mode" "0: 4-byte address mode Disabled and 3-byte..,1: 4-byte address mode Enabled"
newline
bitfld.long 0x00 2. "BALEN,Balance the AHB Control Time Between Cipher Enable and Disable Control\nWhen cipher is enabled the AHB control signal will delay some time caused by the encoding or decoding calculation" "0,1"
bitfld.long 0x00 0. "CIPHOFF,Cipher Disable Bit" "0: Cipher function Enabled,1: Cipher function Disabled"
group.long 0x04++0x03
line.long 0x00 "SPIM_CTL1,Control Register 1"
hexmask.long.word 0x00 16.--31. 1. "DIVIDER,Clock Divider Register\nThe value in this field is the frequency divider of the AHB clock (HCLK) to generate the serial SPI output clock 'SCLK' on the output SPIM_CLK pin"
bitfld.long 0x00 8.--11. "IDLETIME,Idle Time Interval\nIn DMM mode IDLETIME is set to control the minimum idle time between two SPI Flash accesses" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 5. "SSACTPOL,Slave Select Active Level\nIt defines the active level of device/slave select signal (SPIM_SS) as shown in Table 6.222" "0: The SPIM_SS slave select signal is active low,1: The SPIM_SS slave select signal is active high"
bitfld.long 0x00 4. "SS,Slave Select Active Enable Bit\nNote: This interface can only drive one device/slave at a given time" "0: SPIM_SS is in active level,1: SPIM_SS is in inactive level (Default)"
newline
bitfld.long 0x00 3. "CDINVAL,Cache Data Invalid Enable Bit\nWrite Operation:\nRead Operation: No effect\nNote: When SPI Flash memory is page erasing or whole Flash erasing please set CDINVAL to 0x1" "0: No effect,1: Set all cache data to be invalid"
bitfld.long 0x00 2. "CCMEN,CCM (Core Coupled Memory) Mode Enable Bit\nNote1: When CCM mode is enabled the cache function will be disable by hardware automatically" "0: CCM mode Disabled,1: CCM mode Enabled"
newline
bitfld.long 0x00 1. "CACHEOFF,Cache Memory Function Disable Bit\nNote: When CCM mode is enabled the cache function will be disable by hardware automatically" "0: Cache memory function Enabled,1: Cache memory function Disabled"
bitfld.long 0x00 0. "SPIMEN,Go and Busy Status\nWrite Operation:\nNote: All registers should be set before writing 1 to the SPIMEN bit" "0: No effect.\nThe transfer has done,1: Start the transfer"
group.long 0x0C++0x03
line.long 0x00 "SPIM_RXCLKDLY,RX Clock Delay Control Register"
bitfld.long 0x00 20. "RDEDGE,Sampling Clock Edge Selection for Received Data (for Normal I/O Mode DMA Read Mode DMA Write Mode and Direct Memory Mapping Mode)" "0: Use SPI input clock rising edge to sample..,1: Use SPI input clock falling edge to sample.."
bitfld.long 0x00 16.--18. "RDDLYSEL,Sampling Clock Delay Selection for Received Data (for Normal I/O Mode DMA Rread Mode DMA Write Mode and Direct Memory Mapping Mode)\nDetermine the number of inserted delay cycles" "0,1,2,3,4,5,6,7"
newline
hexmask.long.byte 0x00 8.--15. 1. "PHDELSEL,SPI Flash Phase Delay Time (for DMA Write Mode DMA Read Mode)\nThe bits set phase delay time between command data phase address data phase and dummy cycle phase where SPI Flash controller will send those phase data to external SPI Flash"
hexmask.long.byte 0x00 0.--7. 1. "DWDELSEL,SPI Flash Deselect Time Interval of DMA Write Mode (for DMA Write Mode Only)\nThe bits set the deselect time interval of SPI Flash (i.e. time interval of inactive level of SPIM_SS) when SPI Flash controller operates on DMA write mode"
rgroup.long 0x10++0x03
line.long 0x00 "SPIM_RX0,Data Receive Register 0"
hexmask.long 0x00 0.--31. 1. "RXDAT,Data Receive Register\nThe Data Receive Registers hold the received data of the last executed transfer"
repeat 3. (strings "1" "2" "3" )(list 0x0 0x4 0x8 )
group.long ($2+0x14)++0x03
line.long 0x00 "SPIM_RX$1,Data Receive Register $1"
hexmask.long 0x00 0.--31. 1. "RXDAT,Data Receive Register\nThe Data Receive Registers hold the received data of the last executed transfer"
repeat.end
repeat 4. (strings "0" "1" "2" "3" )(list 0x0 0x4 0x8 0xC )
group.long ($2+0x20)++0x03
line.long 0x00 "SPIM_TX$1,Data Transmit Register $1"
hexmask.long 0x00 0.--31. 1. "TXDAT,Data Transmit Register\nThe Data Transmit Registers hold the data to be transmitted in next transfer"
repeat.end
group.long 0x30++0x03
line.long 0x00 "SPIM_SRAMADDR,SRAM Memory Address Register"
hexmask.long 0x00 0.--31. 1. "ADDR,SRAM Memory Address\nFor DMA Read mode this is the destination address for DMA transfer.\nFor DMA Write mode this is the source address for DMA transfer.\nNote: This address must be word-aligned"
group.long 0x34++0x03
line.long 0x00 "SPIM_DMACNT,DMA Transfer Byte Count Register"
hexmask.long.tbyte 0x00 0.--23. 1. "DMACNT,DMA Transfer Byte Count Register\nIt indicates the transfer length for DMA process"
group.long 0x38++0x03
line.long 0x00 "SPIM_FADDR,SPI Flash Address Register"
hexmask.long 0x00 0.--31. 1. "ADDR,SPI Flash Address Register\nFor DMA Read mode this is the source address for DMA transfer.\nFor DMA Write mode this is the destination address for DMA transfer.\nNote1: This address must be word-aligned.\nNote2: For external SPI Flash with 32.."
wgroup.long 0x3C++0x03
line.long 0x00 "SPIM_KEY1,Cipher Key1 Register"
hexmask.long 0x00 0.--31. 1. "KEY1,Cipher Key1 Register\nThis is the KEY1 data for cipher function.\nNote1: If there is not any KEY1(SPIM_KEY1[31:0]) or KEY2(SPIM_KEY2[31:0]) (KEY1 is 0x0000_0000 or KEY2 is 0x0000_0000) the cipher function will be disabled automatically.\nNote2:.."
wgroup.long 0x40++0x03
line.long 0x00 "SPIM_KEY2,Cipher Key2 Register"
hexmask.long 0x00 0.--31. 1. "KEY2,Cipher Key2 Register\nThis is the KEY2 data for cipher function.\nNote1: If there is not any KEY1(SPIM_KEY1[31:0]) or KEY2(SPIM_KEY2[31:0]) (KEY1 is 0x0000_0000 or KEY2 is 0x0000_0000) the cipher function will be disabled automatically.\nNote2:.."
group.long 0x44++0x03
line.long 0x00 "SPIM_DMMCTL,Direct Memory Mapping Mode Control Register"
bitfld.long 0x00 28.--31. "ACTSCLKT,SPI Flash Active SCLK Time (Only for Direct Memory Mapping Mode DMA Write Mode and DMA Read Mode)\nThe bits set time interval between SPIM SS active edge and the position edge of the first serial SPI output clock as shown in Figure.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 26. "UACTSCLK,User Sets SPI Flash Active SCLK Time (Only for Direct Memory Mapping Mode DMA Write Mode and DMA Read Mode)\nNote: When user wants to set ACTSCLKT(SPIM_DMMCTL[31:28]) manually please set UACTSCLK to 1" "0: According to DIVIDER(SPIM_CTL1[31:16])..,1: Set ACTSCLKT(SPIM_DMMCTL[31:28]) by user.."
newline
bitfld.long 0x00 25. "CREN,Continuous Read Mode Enable Bit (Only for Direct Memory Mapping Mode Read Command Codes 0xBB 0xEB 0xE7 0x0D 0xBD 0xED)\nFor read operations of SPI Flash commands of fast read quad I/O (0xEB) word read quad I/O (0xE7) fast read dual I/O (0xBB).." "0: Continuous Read Mode Disabled,1: Continuous Read Mode Enabled"
bitfld.long 0x00 24. "BWEN,16 Bytes Burst Wrap Mode Enable Bit (Only for Direct Memory Mapping Mode Cache Enable and Read Command Code '0xEB and 0xE7')\nIn direct memory mapping mode both of quad read commands '0xEB' and '0xE7' support burst wrap mode for cache application.." "0: Burst Wrap Mode Disabled,1: Burst Wrap Mode Enabled"
newline
bitfld.long 0x00 16.--20. "DESELTIM,SPI Flash Deselect Time (Only for Direct Memory Mapping Mode)\nSet the minimum time width of SPI Flash deselect time (i.e. Minimum SPIM_SS deselect time) as shown in Figure 6.2211.\n(1) Cache function disable:\nNote3: Please check the used SPI.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
hexmask.long.byte 0x00 8.--15. 1. "CRMDAT,Mode Bits Data for Continuous Read Mode (or Performance Enhance Mode) (Only for Direct Memory Mapping Mode)\nSet the mode bits data for continuous read mode (or performance enhance mode).\nWhen setting this mode bits currently (Note1) and set.."
group.long 0x48++0x03
line.long 0x00 "SPIM_CTL2,Control Register 2"
bitfld.long 0x00 24.--28. "DCNUM,Dummy Cycle Number (Only for Direct Memory Mapping Mode and DMA Read Mode)\nSet number of dummy cycles\n(1) For non-DTR/non-DDR command codes 0x03 0x0B 0x3B 0xBB 0xEB and" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 20. "DTRMPOFF,Mode Phase OFF for DTR/DDR Command Codes 0x0D 0xBD and 0xED (Only for Direct Memory Mapping Mode and DMA Read Mode)\nNote: Please check the used SPI Flash specification to know the mode cycle number (or performance enhance cycle number) for.." "0: Mode cycle number (or performance enhance..,1: mode cycle number (or performance enhance.."
newline
bitfld.long 0x00 16. "USETEN,User Set Value Enable Bit (Only for Direct Memory Mapping Mode and DMA Read Mode with Read Commands 0x03 0x0B 0x3B 0xBB 0xEB 0xE7)\nFor DTR/DDR command codes 0x0D 0xBD and 0xED please set USETEN to 0x1" "0: Hardware circuit of SPI Flash controller will..,1: If DCNUM(SPIM_CTL2[28:24]) and.."
tree.end
tree "SYS"
base ad:0x40000000
rgroup.long 0x00++0x03
line.long 0x00 "SYS_PDID,Part Device Identification Number Register"
hexmask.long 0x00 0.--31. 1. "PDID,Part Device Identification Number (Read Only)\nThis register reflects device part number code"
group.long 0x04++0x03
line.long 0x00 "SYS_RSTSTS,System Reset Status Register"
bitfld.long 0x00 8. "CPULKRF,CPU Lockup Reset Flag\n" "0: No reset from CPU lockup happened,1: The Cortex-M4 lockup happened and chip is reset"
bitfld.long 0x00 7. "CPURF,CPU Reset Flag\nThe CPU reset flag is set by hardware if software writes CPURST (SYS_IPRST0[1]) 1 to reset Cortex-M4 Core and Flash Memory Controller (FMC).\nNote: Write 1 to clear this bit to 0" "0: No reset from CPU,1: The Cortex-M4 Core and FMC are reset by.."
newline
bitfld.long 0x00 6. "HRESETRF,HRESET Reset Flag\nThe HRESET reset flag is set by the 'Reset Signal' from the HRESET.\nNote: Write 1 to clear this bit to 0" "0: No reset from HRESET,1: Reset from HRESET"
bitfld.long 0x00 5. "SYSRF,System Reset Flag\nThe system reset flag is set by the 'Reset Signal' from the Cortex-M4 Core to indicate the previous reset source.\nNote: Write 1 to clear this bit to 0" "0: No reset from Cortex-M4,1: The Cortex-M4 had issued the reset signal to.."
newline
bitfld.long 0x00 4. "BODRF,BOD Reset Flag\nThe BOD reset flag is set by the 'Reset Signal' from the Brown-Out Detector to indicate the previous reset source.\nNote: Write 1 to clear this bit to 0" "0: No reset from BOD,1: The BOD had issued the reset signal to reset.."
bitfld.long 0x00 3. "LVRF,LVR Reset Flag\nThe LVR reset flag is set by the 'Reset Signal' from the Low Voltage Reset Controller to indicate the previous reset source.\nNote: Write 1 to clear this bit to 0" "0: No reset from LVR,1: LVR controller had issued the reset signal to.."
newline
bitfld.long 0x00 2. "WDTRF,WDT Reset Flag\nThe WDT reset flag is set by the 'Reset Signal' from the Watchdog Timer or Window Watchdog Timer to indicate the previous reset source.\n" "0: No reset from watchdog timer or window..,1: The watchdog timer or window watchdog timer.."
bitfld.long 0x00 1. "PINRF,NRESET Pin Reset Flag\nThe nRESET pin reset flag is set by the 'Reset Signal' from the nRESET Pin to indicate the previous reset source.\nNote: Write 1 to clear this bit to 0" "0: No reset from nRESET pin,1: Pin nRESET had issued the reset signal to.."
newline
bitfld.long 0x00 0. "PORF,POR Reset Flag\nThe POR reset flag is set by the 'Reset Signal' from the Power-on Reset (POR) Controller or bit CHIPRST (SYS_IPRST0[0]) to indicate the previous reset source.\nNote: Write 1 to clear this bit to 0" "0: No reset from POR or CHIPRST,1: Power-on Reset (POR) or CHIPRST had issued.."
group.long 0x08++0x03
line.long 0x00 "SYS_IPRST0,Peripheral Reset Control Register 0"
bitfld.long 0x00 17. "SDH1RST,SDHOST1 Controller Reset (Write Protect)\nSetting this bit to 1 will generate a reset signal to the SDHOST1 controller" "0: SDHOST1 controller normal operation,1: SDHOST1 controller reset"
bitfld.long 0x00 16. "HSUSBHRST,HSUSBH Controller Reset (Write Protect)\nSet this bit to 1 will generate a reset signal to the HSUSBH controller" "0: HSUSBH controller normal operation,1: HSUSBH controller reset"
newline
bitfld.long 0x00 14. "SPIMRST,SPIM Controller Reset\nSetting this bit to 1 will generate a reset signal to the SPIM controller" "0: SPIM controller normal operation,1: SPIM controller reset"
bitfld.long 0x00 12. "CRPTRST,CRYPTO Controller Reset (Write Protect)\nSetting this bit to 1 will generate a reset signal to the CRYPTO controller" "0: CRYPTO controller normal operation,1: CRYPTO controller reset"
newline
bitfld.long 0x00 10. "HSUSBDRST,HSUSBD Controller Reset (Write Protect)\nSetting this bit to 1 will generate a reset signal to the HSUSBD controller" "0: HSUSBD controller normal operation,1: HSUSBD controller reset"
bitfld.long 0x00 8. "CCAPRST,CCAP Controller Reset (Write Protect)\nSet this bit to 1 will generate a reset signal to the CCAP controller" "0: CCAP controller normal operation,1: CCAP controller reset"
newline
bitfld.long 0x00 7. "CRCRST,CRC Calculation Controller Reset (Write Protect)\nSet this bit to 1 will generate a reset signal to the CRC calculation controller" "0: CRC calculation controller normal operation,1: CRC calculation controller reset"
bitfld.long 0x00 6. "SDH0RST,SDHOST0 Controller Reset (Write Protect)\nSetting this bit to 1 will generate a reset signal to the SDHOST0 controller" "0: SDHOST0 controller normal operation,1: SDHOST0 controller reset"
newline
bitfld.long 0x00 5. "EMACRST,EMAC Controller Reset (Write Protect)\nSetting this bit to 1 will generate a reset signal to the EMAC controller" "0: EMAC controller normal operation,1: EMAC controller reset"
bitfld.long 0x00 3. "EBIRST,EBI Controller Reset (Write Protect)\nSet this bit to 1 will generate a reset signal to the EBI" "0: EBI controller normal operation,1: EBI controller reset"
newline
bitfld.long 0x00 2. "PDMARST,PDMA Controller Reset (Write Protect)\nSetting this bit to 1 will generate a reset signal to the PDMA" "0: PDMA controller normal operation,1: PDMA controller reset"
bitfld.long 0x00 1. "CPURST,Processor Core One-shot Reset (Write Protect)\nSetting this bit will only reset the processor core and Flash Memory Controller(FMC) and this bit will automatically return to 0 after the 2 clock cycles.\nNote: This bit is write protected" "0: Processor core normal operation,1: Processor core one-shot reset"
newline
bitfld.long 0x00 0. "CHIPRST,Chip One-shot Reset (Write Protect)\nSetting this bit will reset the whole chip including Processor core and all peripherals and this bit will automatically return to 0 after the 2 clock cycles.\nThe CHIPRST is same as the POR reset all the chip.." "0: Chip normal operation,1: Chip one-shot reset"
group.long 0x0C++0x03
line.long 0x00 "SYS_IPRST1,Peripheral Reset Control Register 1"
bitfld.long 0x00 31. "TRNGRST,TRNG Controller Reset" "0: TRNG controller normal operation,1: TRNG controller reset"
bitfld.long 0x00 30. "HSOTGRST,HSOTG Controller Reset" "0: HSOTG controller normal operation,1: HSOTG controller reset"
newline
bitfld.long 0x00 29. "I2S0RST,I2S0 Controller Reset" "0: I2S0 controller normal operation,1: I2S0 controller reset"
bitfld.long 0x00 28. "EADCRST,EADC Controller Reset" "0: EADC controller normal operation,1: EADC controller reset"
newline
bitfld.long 0x00 27. "USBDRST,USBD Controller Reset" "0: USBD controller normal operation,1: USBD controller reset"
bitfld.long 0x00 26. "OTGRST,OTG Controller Reset" "0: OTG controller normal operation,1: OTG controller reset"
newline
bitfld.long 0x00 25. "CAN1RST,CAN1 Controller Reset" "0: CAN1 controller normal operation,1: CAN1 controller reset"
bitfld.long 0x00 24. "CAN0RST,CAN0 Controller Reset" "0: CAN0 controller normal operation,1: CAN0 controller reset"
newline
bitfld.long 0x00 23. "UART7RST,UART7 Controller Reset" "0: UART7 controller normal operation,1: UART7 controller reset"
bitfld.long 0x00 22. "UART6RST,UART6 Controller Reset" "0: UART6 controller normal operation,1: UART6 controller reset"
newline
bitfld.long 0x00 21. "UART5RST,UART5 Controller Reset" "0: UART5 controller normal operation,1: UART5 controller reset"
bitfld.long 0x00 20. "UART4RST,UART4 Controller Reset" "0: UART4 controller normal operation,1: UART4 controller reset"
newline
bitfld.long 0x00 19. "UART3RST,UART3 Controller Reset" "0: UART3 controller normal operation,1: UART3 controller reset"
bitfld.long 0x00 18. "UART2RST,UART2 Controller Reset" "0: UART2 controller normal operation,1: UART2 controller reset"
newline
bitfld.long 0x00 17. "UART1RST,UART1 Controller Reset" "0: UART1 controller normal operation,1: UART1 controller reset"
bitfld.long 0x00 16. "UART0RST,UART0 Controller Reset" "0: UART0 controller normal operation,1: UART0 controller reset"
newline
bitfld.long 0x00 15. "SPI2RST,SPI2 Controller Reset" "0: SPI2 controller normal operation,1: SPI2 controller reset"
bitfld.long 0x00 14. "SPI1RST,SPI1 Controller Reset" "0: SPI1 controller normal operation,1: SPI1 controller reset"
newline
bitfld.long 0x00 13. "SPI0RST,SPI0 Controller Reset" "0: SPI0 controller normal operation,1: SPI0 controller reset"
bitfld.long 0x00 12. "QSPI0RST,Qual SPI0 Controller Reset" "0: Qual SPI0 controller normal operation,1: Qual SPI0 controller reset"
newline
bitfld.long 0x00 10. "I2C2RST,I2C2 Controller Reset" "0: I2C2 controller normal operation,1: I2C2 controller reset"
bitfld.long 0x00 9. "I2C1RST,I2C1 Controller Reset" "0: I2C1 controller normal operation,1: I2C1 controller reset"
newline
bitfld.long 0x00 8. "I2C0RST,I2C0 Controller Reset" "0: I2C0 controller normal operation,1: I2C0 controller reset"
bitfld.long 0x00 7. "ACMP01RST,Analog Comparator 0/1 Controller Reset" "0: Analog Comparator 0/1 controller normal..,1: Analog Comparator 0/1 controller reset"
newline
bitfld.long 0x00 5. "TMR3RST,Timer3 Controller Reset" "0: Timer3 controller normal operation,1: Timer3 controller reset"
bitfld.long 0x00 4. "TMR2RST,Timer2 Controller Reset" "0: Timer2 controller normal operation,1: Timer2 controller reset"
newline
bitfld.long 0x00 3. "TMR1RST,Timer1 Controller Reset" "0: Timer1 controller normal operation,1: Timer1 controller reset"
bitfld.long 0x00 2. "TMR0RST,Timer0 Controller Reset" "0: Timer0 controller normal operation,1: Timer0 controller reset"
newline
bitfld.long 0x00 1. "GPIORST,GPIO Controller Reset" "0: GPIO controller normal operation,1: GPIO controller reset"
group.long 0x10++0x03
line.long 0x00 "SYS_IPRST2,Peripheral Reset Control Register 2"
bitfld.long 0x00 31. "EADC1RST,EADC1 Controller Reset" "0: EADC1 controller normal operation,1: EADC1 controller reset"
bitfld.long 0x00 30. "OPARST,OP Amplifier (OPA) Controller Reset" "0: OPA controller normal operation,1: OPA controller reset"
newline
bitfld.long 0x00 28. "CAN2RST,CAN2 Controller Reset" "0: CAN2 controller normal operation,1: CAN2 controller reset"
bitfld.long 0x00 27. "ECAP1RST,ECAP1 Controller Reset" "0: ECAP1 controller normal operation,1: ECAP1 controller reset"
newline
bitfld.long 0x00 26. "ECAP0RST,ECAP0 Controller Reset" "0: ECAP0 controller normal operation,1: ECAP0 controller reset"
bitfld.long 0x00 23. "QEI1RST,QEI1 Controller Reset" "0: QEI1 controller normal operation,1: QEI1 controller reset"
newline
bitfld.long 0x00 22. "QEI0RST,QEI0 Controller Reset" "0: QEI0 controller normal operation,1: QEI0 controller reset"
bitfld.long 0x00 19. "BPWM1RST,BPWM1 Controller Reset" "0: BPWM1 controller normal operation,1: BPWM1 controller reset"
newline
bitfld.long 0x00 18. "BPWM0RST,BPWM0 Controller Reset" "0: BPWM0 controller normal operation,1: BPWM0 controller reset"
bitfld.long 0x00 17. "EPWM1RST,EPWM1 Controller Reset" "0: EPWM1 controller normal operation,1: EPWM1 controller reset"
newline
bitfld.long 0x00 16. "EPWM0RST,EPWM0 Controller Reset" "0: EPWM0 controller normal operation,1: EPWM0 controller reset"
bitfld.long 0x00 12. "DACRST,DAC Controller Reset" "0: DAC controller normal operation,1: DAC controller reset"
newline
bitfld.long 0x00 9. "USCI1RST,USCI1 Controller Reset" "0: USCI1 controller normal operation,1: USCI1 controller reset"
bitfld.long 0x00 8. "USCI0RST,USCI0 Controller Reset" "0: USCI0 controller normal operation,1: USCI0 controller reset"
newline
bitfld.long 0x00 6. "SPI3RST,SPI3 Controller Reset" "0: SPI3 controller normal operation,1: SPI3 controller reset"
bitfld.long 0x00 4. "QSPI1RST,QSPI1 Controller Reset" "0: QSPI1 controller normal operation,1: QSPI1 controller reset"
newline
bitfld.long 0x00 2. "SC2RST,SC2 Controller Reset" "0: SC2 controller normal operation,1: SC2 controller reset"
bitfld.long 0x00 1. "SC1RST,SC1 Controller Reset" "0: SC1 controller normal operation,1: SC1 controller reset"
newline
bitfld.long 0x00 0. "SC0RST,SC0 Controller Reset" "0: SC0 controller normal operation,1: SC0 controller reset"
group.long 0x18++0x03
line.long 0x00 "SYS_BODCTL,Brown-out Detector Control Register"
bitfld.long 0x00 16.--18. "BODVL,Brown-out Detector Threshold Voltage Selection (Write Protect)\nThe default value is set by Flash controller user configuration register CBOV (CONFIG0 [23:21]).\nNote: This bit is write protected" "0: Brown-Out Detector threshold voltage is 1.6V,1: Brown-Out Detector threshold voltage is 1.8V,2: Brown-Out Detector threshold voltage is 2.0V,3: Brown-Out Detector threshold voltage is 2.2V,4: Brown-Out Detector threshold voltage is 2.4V,5: Brown-Out Detector threshold voltage is 2.6V,6: Brown-Out Detector threshold voltage is 2.8V,7: Brown-Out Detector threshold voltage is 3.0V"
bitfld.long 0x00 12.--14. "LVRDGSEL,LVR Output De-glitch Time Select (Write Protect)\nNote: These bits are write protected" "0: Without de-glitch function,1: 4 system clock (HCLK),2: 8 system clock (HCLK),3: 16 system clock (HCLK),4: 32 system clock (HCLK),5: 64 system clock (HCLK),6: 128 system clock (HCLK),7: 256 system clock (HCLK)"
newline
bitfld.long 0x00 8.--10. "BODDGSEL,Brown-out Detector Output De-glitch Time Select (Write Protect)\nNote: These bits are write protected" "0: BOD output is sampled by RC10K clock,1: 4 system clock (HCLK),2: 8 system clock (HCLK),3: 16 system clock (HCLK),4: 32 system clock (HCLK),5: 64 system clock (HCLK),6: 128 system clock (HCLK),7: 256 system clock (HCLK)"
bitfld.long 0x00 7. "LVREN,Low Voltage Reset Enable Bit (Write Protect)\nThe LVR function resets the chip when the input power voltage is lower than LVR circuit setting" "0: Low Voltage Reset function Disabled,1: Low Voltage Reset function Enabled"
newline
bitfld.long 0x00 6. "BODOUT,Brown-out Detector Output Status\nIt means the detected voltage is lower than BODVL setting" "0: Brown-out Detector output status is 0,1: Brown-out Detector output status is 1"
bitfld.long 0x00 5. "BODLPM,Brown-out Detector Low Power Mode (Write Protect)\n" "0: BOD operate in normal mode (default),1: BOD Low Power mode Enabled"
newline
bitfld.long 0x00 4. "BODIF,Brown-out Detector Interrupt Flag\nNote: Write 1 to clear this bit to 0" "0: Brown-out Detector does not detect any..,1: When Brown-out Detector detects the VDD is.."
bitfld.long 0x00 3. "BODRSTEN,Brown-out Reset Enable Bit (Write Protect)\nThe default value is set by Flash controller user configuration register CBORST(CONFIG0[20]) bit.\n" "0: Brown-out 'INTERRUPT' function Enabled,1: Brown-out 'RESET' function Enabled"
newline
bitfld.long 0x00 0. "BODEN,Brown-out Detector Enable Bit (Write Protect)\nThe default value is set by Flash controller user configuration register CBODEN (CONFIG0 [19]).\nNote: This bit is write protected" "0: Brown-out Detector function Disabled,1: Brown-out Detector function Enabled"
group.long 0x1C++0x03
line.long 0x00 "SYS_IVSCTL,Internal Voltage Source Control Register"
bitfld.long 0x00 1. "VBATUGEN,VBAT Unity Gain Buffer Enable Bit\nThis bit is used to enable/disable VBAT unity gain buffer function.\nNote: After this bit is set to 1 the value of VBAT unity gain buffer output voltage can be obtained from ADC conversion result" "0: VBAT unity gain buffer function Disabled..,1: VBAT unity gain buffer function Enabled"
bitfld.long 0x00 0. "VTEMPEN,Temperature Sensor Enable Bit\nThis bit is used to enable/disable temperature sensor function" "0: Temperature sensor function Disabled (default),1: Temperature sensor function Enabled"
group.long 0x28++0x03
line.long 0x00 "SYS_VREFCTL,VREF Control Register"
bitfld.long 0x00 25.--26. "VBGISEL,Chip Internal Voltage Bandgap Current Selection Bits (Write Only)\nNote: When ADC conversion source select bandgap voltage suggest set VBGISEL as 10" "0: Bandgap voltage buffer current is 4.2uA,1: Bandgap voltage buffer current is 7.3uA,2: Bandgap voltage buffer current is 10.4uA,3: Bandgap voltage buffer current is 13.5uA"
bitfld.long 0x00 24. "VBGFEN,Chip Internal Voltage Bandgap Force Enable Bit(Write Only)" "0: Chip internal voltage bandgap controlled by..,1: Chip internal voltage bandgap force enable"
newline
bitfld.long 0x00 6.--7. "PRELOAD_SEL,Pre-load Timing Selection (Write Protect)" "0: pre-load time is 60us for 0.1uF Capacitor,1: pre-load time is 310us for 1uF Capacitor,2: pre-load time is 1270us for 4.7uF Capacitor,3: pre-load time is 2650us for 10uF Capacitor"
bitfld.long 0x00 0.--4. "VREFCTL,VREF Control Bits (Write Protect)\nNote: This bit is write protected" "0: VREF is from external pin,?,?,3: VREF is internal 1.6V,?,?,?,7: VREF is internal 2.0V,?,?,?,11: VREF is internal 2.5V,?,?,?,15: VREF is internal 3.0V,?..."
group.long 0x2C++0x03
line.long 0x00 "SYS_USBPHY,USB PHY Control Register"
bitfld.long 0x00 25. "HSUSBACT,HSUSB PHY Active Control\nThis bit is used to control HSUSB PHY at reset state or active state\nNote: After set HSUSBEN (SYS_USBPHY[24]) to enable HSUSB PHY user should keep HSUSB PHY at reset mode at lease 10uS before changing to active mode" "0: HSUSB PHY at reset state,1: HSUSB PHY at active state"
bitfld.long 0x00 24. "HSUSBEN,HSUSB PHY Enable\nThis bit is used to enable/disable HSUSB PHY" "0: HSUSB PHY Disabled,1: HSUSB PHY Enabled"
newline
bitfld.long 0x00 16.--17. "HSUSBROLE,HSUSB Role Option (Write Protect)\nThese two bits are used to select the role of HSUSB\nNote: This bit is write protected" "0: Standard HSUSB Device mode,1: Standard HSUSB Host mode,2: ID dependent mode,3: On-The-Go device mode"
bitfld.long 0x00 8. "USBEN,USB PHY Enable\nThis bit is used to enable/disable USB PHY" "0: USB PHY Disabled,1: USB PHY Enabled"
newline
bitfld.long 0x00 2. "SBO,Note: This bit must always be kept 1" "0,1"
bitfld.long 0x00 0.--1. "USBROLE,USB Role Option (Write Protect)\nThese two bits are used to select the role of USB.\nNote: This bit is write protected" "0: Standard USB Device mode,1: Standard USB Host mode,2: ID dependent mode,3: On-The-Go device mode"
group.long 0x30++0x03
line.long 0x00 "SYS_GPA_MFPL,GPIOA Low Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PA7MFP,PA.7 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PA6MFP,PA.6 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PA5MFP,PA.5 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PA4MFP,PA.4 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PA3MFP,PA.3 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PA2MFP,PA.2 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PA1MFP,PA.1 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PA0MFP,PA.0 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x34++0x03
line.long 0x00 "SYS_GPA_MFPH,GPIOA High Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PA15MFP,PA.15 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PA14MFP,PA.14 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PA13MFP,PA.13 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PA12MFP,PA.12 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PA11MFP,PA.11 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PA10MFP,PA.10 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PA9MFP,PA.9 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PA8MFP,PA.8 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x38++0x03
line.long 0x00 "SYS_GPB_MFPL,GPIOB Low Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PB7MFP,PB.7 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PB6MFP,PB.6 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PB5MFP,PB.5 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PB4MFP,PB.4 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PB3MFP,PB.3 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PB2MFP,PB.2 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PB1MFP,PB.1 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PB0MFP,PB.0 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x3C++0x03
line.long 0x00 "SYS_GPB_MFPH,GPIOB High Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PB15MFP,PB.15 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PB14MFP,PB.14 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PB13MFP,PB.13 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PB12MFP,PB.12 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PB11MFP,PB.11 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PB10MFP,PB.10 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PB9MFP,PB.9 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PB8MFP,PB.8 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x40++0x03
line.long 0x00 "SYS_GPC_MFPL,GPIOC Low Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PC7MFP,PC.7 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PC6MFP,PC.6 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PC5MFP,PC.5 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PC4MFP,PC.4 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PC3MFP,PC.3 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PC2MFP,PC.2 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PC1MFP,PC.1 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PC0MFP,PC.0 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x44++0x03
line.long 0x00 "SYS_GPC_MFPH,GPIOC High Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PC15MFP,PC.15 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PC14MFP,PC.14 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PC13MFP,PC.13 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PC12MFP,PC.12 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PC11MFP,PC.11 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PC10MFP,PC.10 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PC9MFP,PC.9 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PC8MFP,PC.8 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x48++0x03
line.long 0x00 "SYS_GPD_MFPL,GPIOD Low Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PD7MFP,PD.7 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PD6MFP,PD.6 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PD5MFP,PD.5 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PD4MFP,PD.4 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PD3MFP,PD.3 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PD2MFP,PD.2 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PD1MFP,PD.1 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PD0MFP,PD.0 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x4C++0x03
line.long 0x00 "SYS_GPD_MFPH,GPIOD High Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PD15MFP,PD.15 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PD14MFP,PD.14 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PD13MFP,PD.13 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PD12MFP,PD.12 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PD11MFP,PD.11 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PD10MFP,PD.10 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PD9MFP,PD.9 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PD8MFP,PD.8 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50++0x03
line.long 0x00 "SYS_GPE_MFPL,GPIOE Low Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PE7MFP,PE.7 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PE6MFP,PE.6 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PE5MFP,PE.5 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PE4MFP,PE.4 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PE3MFP,PE.3 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PE2MFP,PE.2 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PE1MFP,PE.1 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PE0MFP,PE.0 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x54++0x03
line.long 0x00 "SYS_GPE_MFPH,GPIOE High Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PE15MFP,PE.15 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PE14MFP,PE.14 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PE13MFP,PE.13 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PE12MFP,PE.12 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PE11MFP,PE.11 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PE10MFP,PE.10 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PE9MFP,PE.9 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PE8MFP,PE.8 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x58++0x03
line.long 0x00 "SYS_GPF_MFPL,GPIOF Low Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PF7MFP,PF.7 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PF6MFP,PF.6 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PF5MFP,PF.5 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PF4MFP,PF.4 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PF3MFP,PF.3 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PF2MFP,PF.2 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PF1MFP,PF.1 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PF0MFP,PF.0 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5C++0x03
line.long 0x00 "SYS_GPF_MFPH,GPIOF High Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PF15MFP,PF.15 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PF14MFP,PF.14 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PF13MFP,PF.13 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PF12MFP,PF.12 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PF11MFP,PF.11 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PF10MFP,PF.10 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PF9MFP,PF.9 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PF8MFP,PF.8 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x60++0x03
line.long 0x00 "SYS_GPG_MFPL,GPIOG Low Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PG7MFP,PG.7 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PG6MFP,PG.6 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PG5MFP,PG.5 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PG4MFP,PG.4 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PG3MFP,PG.3 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PG2MFP,PG.2 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PG1MFP,PG.1 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PG0MFP,PG.0 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x64++0x03
line.long 0x00 "SYS_GPG_MFPH,GPIOG High Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PG15MFP,PG.15 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PG14MFP,PG.14 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PG13MFP,PG.13 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PG12MFP,PG.12 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PG11MFP,PG.11 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PG10MFP,PG.10 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PG9MFP,PG.9 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PG8MFP,PG.8 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x68++0x03
line.long 0x00 "SYS_GPH_MFPL,GPIOH Low Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PH7MFP,PH.7 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PH6MFP,PH.6 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PH5MFP,PH.5 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PH4MFP,PH.4 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PH3MFP,PH.3 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PH2MFP,PH.2 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PH1MFP,PH.1 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PH0MFP,PH.0 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x6C++0x03
line.long 0x00 "SYS_GPH_MFPH,GPIOH High Byte Multiple Function Control Register"
bitfld.long 0x00 28.--31. "PH15MFP,PH.15 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 24.--27. "PH14MFP,PH.14 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 20.--23. "PH13MFP,PH.13 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 16.--19. "PH12MFP,PH.12 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 12.--15. "PH11MFP,PH.11 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "PH10MFP,PH.10 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PH9MFP,PH.9 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0.--3. "PH8MFP,PH.8 Multi-function Pin Selection" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x80++0x03
line.long 0x00 "SYS_GPA_MFOS,GPIOA Multiple Function Output Select Register"
bitfld.long 0x00 15. "MFOS15,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 14. "MFOS14,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 13. "MFOS13,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 12. "MFOS12,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 11. "MFOS11,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 10. "MFOS10,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 9. "MFOS9,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 8. "MFOS8,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 7. "MFOS7,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 6. "MFOS6,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 5. "MFOS5,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 4. "MFOS4,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 3. "MFOS3,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 2. "MFOS2,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 1. "MFOS1,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 0. "MFOS0,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
group.long 0x84++0x03
line.long 0x00 "SYS_GPB_MFOS,GPIOB Multiple Function Output Select Register"
bitfld.long 0x00 15. "MFOS15,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 14. "MFOS14,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 13. "MFOS13,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 12. "MFOS12,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 11. "MFOS11,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 10. "MFOS10,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 9. "MFOS9,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 8. "MFOS8,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 7. "MFOS7,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 6. "MFOS6,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 5. "MFOS5,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 4. "MFOS4,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 3. "MFOS3,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 2. "MFOS2,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 1. "MFOS1,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 0. "MFOS0,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
group.long 0x88++0x03
line.long 0x00 "SYS_GPC_MFOS,GPIOC Multiple Function Output Select Register"
bitfld.long 0x00 15. "MFOS15,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 14. "MFOS14,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 13. "MFOS13,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 12. "MFOS12,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 11. "MFOS11,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 10. "MFOS10,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 9. "MFOS9,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 8. "MFOS8,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 7. "MFOS7,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 6. "MFOS6,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 5. "MFOS5,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 4. "MFOS4,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 3. "MFOS3,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 2. "MFOS2,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 1. "MFOS1,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 0. "MFOS0,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
group.long 0x8C++0x03
line.long 0x00 "SYS_GPD_MFOS,GPIOD Multiple Function Output Select Register"
bitfld.long 0x00 15. "MFOS15,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 14. "MFOS14,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 13. "MFOS13,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 12. "MFOS12,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 11. "MFOS11,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 10. "MFOS10,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 9. "MFOS9,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 8. "MFOS8,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 7. "MFOS7,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 6. "MFOS6,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 5. "MFOS5,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 4. "MFOS4,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 3. "MFOS3,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 2. "MFOS2,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 1. "MFOS1,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 0. "MFOS0,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
group.long 0x90++0x03
line.long 0x00 "SYS_GPE_MFOS,GPIOE Multiple Function Output Select Register"
bitfld.long 0x00 15. "MFOS15,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 14. "MFOS14,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 13. "MFOS13,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 12. "MFOS12,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 11. "MFOS11,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 10. "MFOS10,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 9. "MFOS9,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 8. "MFOS8,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 7. "MFOS7,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 6. "MFOS6,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 5. "MFOS5,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 4. "MFOS4,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 3. "MFOS3,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 2. "MFOS2,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 1. "MFOS1,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 0. "MFOS0,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
group.long 0x94++0x03
line.long 0x00 "SYS_GPF_MFOS,GPIOF Multiple Function Output Select Register"
bitfld.long 0x00 15. "MFOS15,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 14. "MFOS14,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 13. "MFOS13,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 12. "MFOS12,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 11. "MFOS11,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 10. "MFOS10,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 9. "MFOS9,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 8. "MFOS8,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 7. "MFOS7,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 6. "MFOS6,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 5. "MFOS5,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 4. "MFOS4,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 3. "MFOS3,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 2. "MFOS2,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 1. "MFOS1,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 0. "MFOS0,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
group.long 0x98++0x03
line.long 0x00 "SYS_GPG_MFOS,GPIOG Multiple Function Output Select Register"
bitfld.long 0x00 15. "MFOS15,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 14. "MFOS14,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 13. "MFOS13,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 12. "MFOS12,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 11. "MFOS11,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 10. "MFOS10,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 9. "MFOS9,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 8. "MFOS8,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 7. "MFOS7,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 6. "MFOS6,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 5. "MFOS5,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 4. "MFOS4,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 3. "MFOS3,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 2. "MFOS2,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 1. "MFOS1,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 0. "MFOS0,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
group.long 0x9C++0x03
line.long 0x00 "SYS_GPH_MFOS,GPIOH Multiple Function Output Select Register"
bitfld.long 0x00 15. "MFOS15,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 14. "MFOS14,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 13. "MFOS13,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 12. "MFOS12,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 11. "MFOS11,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 10. "MFOS10,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 9. "MFOS9,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 8. "MFOS8,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 7. "MFOS7,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 6. "MFOS6,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 5. "MFOS5,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 4. "MFOS4,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 3. "MFOS3,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 2. "MFOS2,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
newline
bitfld.long 0x00 1. "MFOS1,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
bitfld.long 0x00 0. "MFOS0,GPIOA-h Pin[n] Multiple Function Pin Output Mode Select\nThis bit used to select multiple function pin output mode type for Px.n pin" "0: Multiple function pin output mode type is..,1: Multiple function pin output mode type is.."
group.long 0xC0++0x03
line.long 0x00 "SYS_SRAM_INTCTL,System SRAM Interrupt Enable Control Register"
bitfld.long 0x00 0. "PERRIEN,SRAM Parity Check Error Interrupt Enable Bit" "0: SRAM parity check error interrupt Disabled,1: SRAM parity check error interrupt Enabled"
group.long 0xC4++0x03
line.long 0x00 "SYS_SRAM_STATUS,System SRAM Parity Error Status Register"
bitfld.long 0x00 0. "PERRIF,SRAM Parity Check Error Flag\nThis bit indicates the System SRAM parity error occurred" "0: No System SRAM parity error,1: System SRAM parity error occur"
rgroup.long 0xC8++0x03
line.long 0x00 "SYS_SRAM_ERRADDR,System SRAM Parity Check Error Address Register"
hexmask.long 0x00 0.--31. 1. "ERRADDR,System SRAM Parity Error Address\nThis register shows system SRAM parity error byte address"
group.long 0xD0++0x03
line.long 0x00 "SYS_SRAM_BISTCTL,System SRAM BIST Test Control Register"
bitfld.long 0x00 9. "HSUSBHBIST,HSUSBH BIST Enable Bit (Write Protect)\nThis bit enables BIST test for HSUSBH RAM\nNote: This bit is write protected" "0: system HSUSBH BIST Disabled,1: system HSUSBH BIST Enabled"
bitfld.long 0x00 8. "HSUSBDBIST,HSUSBD BIST Enable Bit (Write Protect)\nThis bit enables BIST test for HSUSBD RAM\nNote: This bit is write protected" "0: system HSUSBD BIST Disabled,1: system HSUSBD BIST Enabled"
newline
bitfld.long 0x00 7. "PDMABIST,PDMA BIST Enable Bit (Write Protect)\nThis bit enables BIST test for PDMA RAM\nNote: This bit is write protected" "0: system PDMA BIST Disabled,1: system PDMA BIST Enabled"
bitfld.long 0x00 6. "EMCBIST,EMC BIST Enable Bit (Write Protect)\nThis bit enables BIST test for EMC RAM\nNote: This bit is write protected" "0: system EMC BIST Disabled,1: system EMC BIST Enabled"
newline
bitfld.long 0x00 5. "SPIMBIST,SPIM BIST Enable Bit (Write Protect)\nThis bit enables BIST test for SPIM RAM\nNote: This bit is write protected" "0: system SPIM BIST Disabled,1: system SPIM BIST Enabled"
bitfld.long 0x00 4. "USBBIST,USB BIST Enable Bit (Write Protect)\nThis bit enables BIST test for USB RAM\nNote: This bit is write protected" "0: system USB BIST Disabled,1: system USB BIST Enabled"
newline
bitfld.long 0x00 3. "CANBIST,CAN BIST Enable Bit (Write Protect)\nThis bit enables BIST test for CAN RAM\nNote: This bit is write protected" "0: system CAN BIST Disabled,1: system CAN BIST Enabled"
bitfld.long 0x00 2. "CRBIST,CACHE BIST Enable Bit (Write Protect)\nThis bit enables BIST test for CACHE RAM\nNote: This bit is write protected" "0: system CACHE BIST Disabled,1: system CACHE BIST Enabled"
newline
bitfld.long 0x00 1. "SRBIST1,SRAM Bank1 BIST Enable Bit (Write Protect)\nThis bit enables BIST test for SRAM bank1.\nNote: This bit is write protected" "0: system SRAM bank1 BIST Disabled,1: system SRAM bank1 BIST Enabled"
bitfld.long 0x00 0. "SRBIST0,SRAM Bank0 BIST Enable Bit (Write Protect)\nThis bit enables BIST test for SRAM bank0.\nNote: This bit is write protected" "0: system SRAM bank0 BIST Disabled,1: system SRAM bank0 BIST Enabled"
rgroup.long 0xD4++0x03
line.long 0x00 "SYS_SRAM_BISTSTS,System SRAM BIST Test Status Register"
bitfld.long 0x00 23. "PDMABEND,PDMA SRAM BIST Test Finish" "0: PDMA SRAM BIST is active,1: PDMA SRAM BIST test finish"
bitfld.long 0x00 20. "USBBEND,USB SRAM BIST Test Finish" "0: USB SRAM BIST is active,1: USB SRAM BIST test finish"
newline
bitfld.long 0x00 19. "CANBEND,CAN SRAM BIST Test Finish" "0: CAN SRAM BIST is active,1: CAN SRAM BIST test finish"
bitfld.long 0x00 18. "CRBEND,CACHE SRAM BIST Test Finish" "0: System CACHE RAM BIST is active,1: System CACHE RAM BIST test finish"
newline
bitfld.long 0x00 17. "SRBEND1,2nd SRAM BIST Test Finish" "0: 2nd system SRAM BIST is active,1: 2nd system SRAM BIST finish"
bitfld.long 0x00 16. "SRBEND0,1st SRAM BIST Test Finish" "0: 1st system SRAM BIST active,1: 1st system SRAM BIST finish"
newline
bitfld.long 0x00 7. "PDMABEF,PDMA SRAM BIST Fail Flag" "0: PDMA SRAM BIST test pass,1: PDMA SRAM BIST test fail"
bitfld.long 0x00 4. "USBBEF,USB SRAM BIST Fail Flag" "0: USB SRAM BIST test pass,1: USB SRAM BIST test fail"
newline
bitfld.long 0x00 3. "CANBEF,CAN SRAM BIST Fail Flag" "0: CAN SRAM BIST test pass,1: CAN SRAM BIST test fail"
bitfld.long 0x00 2. "CRBISTEF,CACHE SRAM BIST Fail Flag" "0: System CACHE RAM BIST test pass,1: System CACHE RAM BIST test fail"
newline
bitfld.long 0x00 1. "SRBISTEF1,2nd System SRAM BIST Fail Flag" "0: 2nd system SRAM BIST test pass,1: 2nd system SRAM BIST test fail"
bitfld.long 0x00 0. "SRBISTEF0,1st System SRAM BIST Fail Flag" "0: 1st system SRAM BIST test pass,1: 1st system SRAM BIST test fail"
group.long 0xE4++0x03
line.long 0x00 "SYS_HIRCTCTL,HIRC48M Trim Control Register"
bitfld.long 0x00 16.--20. "BOUNDARY,Boundary Selection\nFill the boundary range from 0x1 to 0x31 0x0 is reserved.\nNote: This field is effective only when the BOUNDEN(SYS_HIRCTRIMCTL[9]) is enabled" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "REFCKSEL,Reference Clock Selection\nNote: HIRC trim reference clock is 20 kHz in test mode" "0: HIRC trim reference clock is from LXT (32.768..,1: HIRC trim reference clock is from internal.."
newline
bitfld.long 0x00 9. "BOUNDEN,Boundary Enable Bit" "0: Boundary function Disabled,1: Boundary function Enabled"
bitfld.long 0x00 8. "CESTOPEN,Clock Error Stop Enable Bit" "0: The trim operation is keep going if clock is..,1: The trim operation is stopped if clock is.."
newline
bitfld.long 0x00 6.--7. "RETRYCNT,Trim Value Update Limitation Count\nThis field defines that how many times the auto trim circuit will try to update the HIRC trim value before the frequency of HIRC locked.\nOnce the HIRC locked the internal trim value update counter will be.." "0: Trim retry count limitation is 64 loops,1: Trim retry count limitation is 128 loops,2: Trim retry count limitation is 256 loops,3: Trim retry count limitation is 512 loops"
bitfld.long 0x00 4.--5. "LOOPSEL,Trim Calculation Loop Selection\nThis field defines that trim value calculation is based on how many reference clocks.\nNote: For example if LOOPSEL is set as 00 auto trim circuit will calculate trim value based on the average frequency.." "0: Trim value calculation is based on average..,1: Trim value calculation is based on average..,2: Trim value calculation is based on average..,3: Trim value calculation is based on average.."
newline
bitfld.long 0x00 0.--1. "FREQSEL,Trim Frequency Selection\nThis field indicates the target frequency of 48 MHz internal high speed RC oscillator (HIRC) auto trim.\nDuring auto trim operation if clock error detected with CESTOPEN is set to 1 or trim retry limitation count.." "0: Disable HIRC auto trim function,1: Enable HIRC auto trim function and trim HIRC..,2: Reserved,3: Reserved"
group.long 0xE8++0x03
line.long 0x00 "SYS_HIRCTIEN,HIRC48M Trim Interrupt Enable Register"
bitfld.long 0x00 2. "CLKEIEN,Clock Error Interrupt Enable Bit\nThis bit controls if CPU would get an interrupt while clock is inaccuracy during auto trim operation.\nIf this bit is set to1 and CLKERRIF(SYS_IRCTISTS[2]) is set during auto trim operation an interrupt will be.." "0: Disable CLKERRIF(SYS_IRCTISTS[2]) status to..,1: Enable CLKERRIF(SYS_IRCTISTS[2]) status to.."
bitfld.long 0x00 1. "TFAILIEN,Trim Failure Interrupt Enable Bit\nThis bit controls if an interrupt will be triggered while HIRC trim value update limitation count reached and HIRC frequency still not locked on target frequency set by FREQSEL(SYS_IRCTCTL[1:0]).\nIf this bit.." "0: Disable TFAILIF(SYS_IRCTISTS[1]) status to..,1: Enable TFAILIF(SYS_IRCTISTS[1]) status to.."
group.long 0xEC++0x03
line.long 0x00 "SYS_HIRCTISTS,HIRC48M Trim Interrupt Status Register"
bitfld.long 0x00 3. "OVBDIF,Over Boundary Status\nWhen the over boundary function is set if there occurs the over boundary condition this flag will be set.\n" "0: Over boundary coundition did not occur,1: Over boundary coundition occurred"
bitfld.long 0x00 2. "CLKERRIF,Clock Error Interrupt Status\nWhen the frequency of 32.768 kHz external low speed crystal oscillator (LXT) or 48 MHz internal high speed RC oscillator (HIRC) is shift larger to unreasonable value this bit will be set and to be an indicate that.." "0: Clock frequency is accuracy,1: Clock frequency is inaccuracy"
newline
bitfld.long 0x00 1. "TFAILIF,Trim Failure Interrupt Status\nThis bit indicates that HIRC trim value update limitation count reached and the HIRC clock frequency still doesn't be locked" "0: Trim value update limitation count does not..,1: Trim value update limitation count reached.."
bitfld.long 0x00 0. "FREQLOCK,HIRC Frequency Lock Status\nThis bit indicates the HIRC frequency is locked.\nThis is a status bit and doesn't trigger any interrupt\nWrite 1 to clear this to 0" "0: The internal high-speed oscillator frequency..,1: The internal high-speed oscillator frequency.."
group.long 0xF0++0x03
line.long 0x00 "SYS_IRCTCTL,HIRC Trim Control Register"
bitfld.long 0x00 16.--20. "BOUNDARY,Boundary Selection\nFill the boundary range from 0x1 to 0x31 0x0 is reserved.\n" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
bitfld.long 0x00 10. "REFCKSEL,Reference Clock Selection\nNote: HIRC trim reference clock is 20 kHz in test mode" "0: HIRC trim reference clock is from LXT (32.768..,1: HIRC trim reference clock is from internal.."
newline
bitfld.long 0x00 9. "BOUNDEN,Boundary Enable Bit" "0: Boundary function Disabled,1: Boundary function Enabled"
bitfld.long 0x00 8. "CESTOPEN,Clock Error Stop Enable Bit" "0: The trim operation is keep going if clock is..,1: The trim operation is stopped if clock is.."
newline
bitfld.long 0x00 6.--7. "RETRYCNT,Trim Value Update Limitation Count\nThis field defines that how many times the auto trim circuit will try to update the HIRC trim value before the frequency of HIRC locked.\nOnce the HIRC locked the internal trim value update counter will be.." "0: Trim retry count limitation is 64 loops,1: Trim retry count limitation is 128 loops,2: Trim retry count limitation is 256 loops,3: Trim retry count limitation is 512 loops"
bitfld.long 0x00 4.--5. "LOOPSEL,Trim Calculation Loop Selection\nThis field defines that trim value calculation is based on how many reference clocks.\nNote: For example if LOOPSEL is set as 00 auto trim circuit will calculate trim value based on the average frequency.." "0: Trim value calculation is based on average..,1: Trim value calculation is based on average..,2: Trim value calculation is based on average..,3: Trim value calculation is based on average.."
newline
bitfld.long 0x00 0.--1. "FREQSEL,Trim Frequency Selection\nThis field indicates the target frequency of 12 MHz internal high speed RC oscillator (HIRC) auto trim.\nDuring auto trim operation if clock error detected with CESTOPEN is set to 1 or trim retry limitation count.." "0: Disable HIRC auto trim function,1: Enable HIRC auto trim function and trim HIRC..,2: Reserved,3: Reserved"
group.long 0xF4++0x03
line.long 0x00 "SYS_IRCTIEN,HIRC Trim Interrupt Enable Register"
bitfld.long 0x00 2. "CLKEIEN,Clock Error Interrupt Enable Bit\nThis bit controls if CPU would get an interrupt while clock is inaccuracy during auto trim operation.\nIf this bit is set to1 and CLKERRIF(SYS_IRCTISTS[2]) is set during auto trim operation an interrupt will be.." "0: Disable CLKERRIF(SYS_IRCTISTS[2]) status to..,1: Enable CLKERRIF(SYS_IRCTISTS[2]) status to.."
bitfld.long 0x00 1. "TFAILIEN,Trim Failure Interrupt Enable Bit\nThis bit controls if an interrupt will be triggered while HIRC trim value update limitation count reached and HIRC frequency still not locked on target frequency set by FREQSEL(SYS_IRCTCTL[1:0]).\nIf this bit.." "0: Disable TFAILIF(SYS_IRCTISTS[1]) status to..,1: Enable TFAILIF(SYS_IRCTISTS[1]) status to.."
group.long 0xF8++0x03
line.long 0x00 "SYS_IRCTISTS,HIRC Trim Interrupt Status Register"
bitfld.long 0x00 3. "OVBDIF,Over Boundary Status\nWhen the over boundary function is set if there occurs the over boundary condition this flag will be set.\n" "0: Over boundary coundition did not occur,1: Over boundary coundition occurred"
bitfld.long 0x00 2. "CLKERRIF,Clock Error Interrupt Status\nWhen the frequency of 32.768 kHz external low speed crystal oscillator (LXT) or 12 MHz internal high speed RC oscillator (HIRC) is shift larger to unreasonable value this bit will be set and to be an indicate that.." "0: Clock frequency is accuracy,1: Clock frequency is inaccuracy"
newline
bitfld.long 0x00 1. "TFAILIF,Trim Failure Interrupt Status\nThis bit indicates that HIRC trim value update limitation count reached and the HIRC clock frequency still doesn't be locked" "0: Trim value update limitation count does not..,1: Trim value update limitation count reached.."
bitfld.long 0x00 0. "FREQLOCK,HIRC Frequency Lock Status\nThis bit indicates the HIRC frequency is locked.\nThis is a status bit and doesn't trigger any interrupt\nWrite 1 to clear this to 0" "0: The internal high-speed oscillator frequency..,1: The internal high-speed oscillator frequency.."
group.long 0x100++0x03
line.long 0x00 "SYS_REGLCTL,Register Lock Control Register"
hexmask.long.byte 0x00 0.--7. 1. "REGLCTL,Register Lock Control Code\nSome registers have write-protection function"
group.long 0x1EC++0x03
line.long 0x00 "SYS_PORDISAN,Analog POR Disable Control Register"
hexmask.long.word 0x00 0.--15. 1. "POROFFAN,Power-on Reset Enable Bit (Write Protect)\nAfter powered on User can turn off internal analog POR circuit to save power by writing 0x5AA5 to this field.\nThe analog POR circuit will be active again when this field is set to another value or.."
rgroup.long 0x1F4++0x03
line.long 0x00 "SYS_CSERVER,Chip Series Version Register"
hexmask.long.byte 0x00 0.--7. 1. "VERSION,Chip Series Version\nThese bits indicate the series version of chip"
group.long 0x1F8++0x03
line.long 0x00 "SYS_PLCTL,Power Level Control Register"
hexmask.long.byte 0x00 24.--31. 1. "LVSPRD,LDO Voltage Scaling Period(Write Protect)\nThe LVSPRD value is the period of each LDO voltage rising step"
bitfld.long 0x00 16.--21. "LVSSTEP,LDO Voltage Scaling Step(Write Protect)\nThe LVSSTEP value is LDO voltage rising step" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 0.--1. "PLSEL,Power Level Select(Write Protect)\nThese bits indicate the status of power level" "0: Power level is PL0,1: Power level is PL1,?..."
rgroup.long 0x1FC++0x03
line.long 0x00 "SYS_PLSTS,Power Level Status Register"
bitfld.long 0x00 8.--9. "PLSTATUS,Power Level Status (Read Only)\nThis bit indicates the status of power level" "0: Power level is PL0,1: Power level is PL1,?..."
bitfld.long 0x00 0. "PLCBUSY,Power Level Change Busy Bit (Read Only)\nThis bit is set by hardware when power level is changing" "0: Core voltage change is completed,1: Core voltage change is ongoing"
group.long 0x400++0x03
line.long 0x00 "SYS_AHBMCTL,AHB Bus Matrix Priority Control Register"
bitfld.long 0x00 0. "INTACTEN,Highest AHB Bus Priority of Cortex-M4 Core Enable Bit (Write Protect)\nEnable Cortex-M4 Core With Highest AHB Bus Priority In AHB Bus Matrix\nNote: This bit is write protected" "0: Round-robin mode,1: Cortex-M4 CPU with highest bus priority when.."
tree.end
tree "SYST_SCR"
base ad:0xE000E000
group.long 0x10++0x03
line.long 0x00 "SYST_CTRL,SysTick Control and Status Register"
bitfld.long 0x00 16. "COUNTFLAG,System Tick Counter Flag\nReturns 1 if timer counted to 0 since last time this register was read.\nCOUNTFLAG is set by a count transition from 1 to 0.\nCOUNTFLAG is cleared on read or by a write to the Current Value register" "0,1"
bitfld.long 0x00 2. "CLKSRC,System Tick Clock Source Selection" "0: Clock source is the (optional) external..,1: Core clock used for SysTick"
newline
bitfld.long 0x00 1. "TICKINT,System Tick Interrupt Enabled" "0: Counting down to 0 does not cause the SysTick..,1: Counting down to 0 will cause the SysTick.."
bitfld.long 0x00 0. "ENABLE,System Tick Counter Enabled" "0: Counter Disabled,1: Counter will operate in a multi-shot manner"
group.long 0x14++0x03
line.long 0x00 "SYST_LOAD,SysTick Reload Value Register"
hexmask.long.tbyte 0x00 0.--23. 1. "RELOAD,System Tick Reload Value\nValue to load into the Current Value register when the counter reaches 0"
group.long 0x18++0x03
line.long 0x00 "SYST_VAL,SysTick Current Value Register"
hexmask.long.tbyte 0x00 0.--23. 1. "CURRENT,System Tick Current Value\nCurrent counter value"
group.long 0xD04++0x03
line.long 0x00 "ICSR,Interrupt Control and State Register"
bitfld.long 0x00 31. "NMIPENDSET,NMI Set-pending Bit\nWrite Operation:\nNote: Because NMI is the highest-priority exception normally the processor enters the NMI exception handler as soon as it detects a write of 1 to this bit" "0: No effect.\nNMI exception is not pending,1: Change NMI exception state to pending.\nNMI.."
bitfld.long 0x00 28. "PENDSVSET,PendSV Set-pending Bit\nWrite Operation:\nNote: Writing 1 to this bit is the only way to set the PendSV exception state to pending" "0: No effect.\nPendSV exception is not pending,1: Change PendSV exception state to.."
newline
bitfld.long 0x00 27. "PENDSVRTC_CAL,PendSV Clear-pending Bit\nWrite Operation:\nNote: This is a write only bit" "0: No effect,1: Remove the pending state from the PendSV.."
bitfld.long 0x00 26. "PENDSTSET,SysTick Exception Set-pending Bit\nWrite Operation" "0: No effect.\nSysTick exception is not pending,1: Change SysTick exception state to.."
newline
bitfld.long 0x00 25. "PENDSTRTC_CAL,SysTick Exception Clear-pending Bit\nWrite Operation:\nNote: This is a write only bit" "0: No effect,1: Remove the pending state from the SysTick.."
rbitfld.long 0x00 23. "ISRPREEMPT,Interrupt Preempt Bit (Read Only)\nIf set a pending exception will be serviced on exit from the debug halt state" "0,1"
newline
rbitfld.long 0x00 22. "ISRPENDING,Interrupt Pending Flag Excluding NMI and Faults (Read Only)" "0: Interrupt not pending,1: Interrupt pending"
bitfld.long 0x00 12.--17. "VECTPENDING,Number of the Highest Pended Exception\nIndicate the Exception Number of the Highest Priority Pending Enabled Exception\nThe value indicated by this field includes the effect of the BASEPRI and FAULTMASK registers but not any effect of the.." "0: No pending exceptions,?..."
newline
bitfld.long 0x00 11. "RETTOBASE,Preempted Active Exceptions Indicator\nIndicate whether There are Preempted Active Exceptions" "0: there are preempted active exceptions to..,1: there are no active exceptions or the.."
hexmask.long.byte 0x00 0.--6. 1. "VECTACTIVE,Number of the Current Active Exception"
group.long 0xD0C++0x03
line.long 0x00 "AIRCR,Application Interrupt and Reset Control Register"
hexmask.long.word 0x00 16.--31. 1. "VECTORKEY,Register Access Key\nWhen writing this register this field should be 0x05FA otherwise the write action will be unpredictable.\nThe VECTORKEY filed is used to prevent accidental write to this register from resetting the system or clearing of.."
bitfld.long 0x00 15. "ENDIANNESS,Data Endianness" "0: Little-endian,1: Big-endian"
newline
bitfld.long 0x00 8.--10. "PRIGROUP,Interrupt Priority Grouping\nThis field determines the Split Of Group priority from subpriority" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 2. "SYSRESETREQ,System Reset Request\nWriting This Bit to 1 Will Cause A Reset Signal To Be Asserted To The Chip And Indicate A Reset Is Requested\nThis bit is write only and self-cleared as part of the reset sequence" "0,1"
newline
bitfld.long 0x00 1. "VECTCLRACTIVE,Exception Active Status Clear Bit\nSetting This Bit To 1 Will Clears All Active State Information For Fixed And Configurable Exceptions\nThis bit is write only and can only be written when the core is halted.\nNote: It is the debugger's.." "0,1"
bitfld.long 0x00 0. "VECTRESET,Reserved" "0,1"
group.long 0xD10++0x03
line.long 0x00 "SCR,System Control Register"
bitfld.long 0x00 4. "SEVONPEND,Send Event on Pending\nWhen an event or interrupt enters pending state the event signal wakes up the processor from WFE" "0: Only enabled interrupts or events can wake up..,1: Enabled events and all interrupts including.."
bitfld.long 0x00 2. "SLEEPDEEP,Processor Deep Sleep and Sleep Mode Selection\nControl whether the Processor Uses Sleep Or Deep Sleep as its Low Power Mode" "0: Sleep,1: Deep sleep"
newline
bitfld.long 0x00 1. "SLEEPONEXIT,Sleep-on-exit Enable Control\nThis bit indicate Sleep-On-Exit when Returning from Handler Mode to Thread Mode.\nSetting this bit to 1 enables an interrupt driven application to avoid returning to an empty main application" "0: Do not sleep when returning to Thread mode,1: Enter sleep or deep sleep on return from an.."
group.long 0xD18++0x03
line.long 0x00 "SHPR1,System Handler Priority Register 1"
bitfld.long 0x00 20.--23. "PRI_6,Priority of system handler 6 UsageFault" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 12.--15. "PRI_5,Priority of system handler 5 BusFault" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4.--7. "PRI_4,Priority of system handler 4 MemManage" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xD1C++0x03
line.long 0x00 "SHPR2,System Handler Priority Register 2"
bitfld.long 0x00 28.--31. "PRI_11,Priority of System Handler" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0xD20++0x03
line.long 0x00 "SHPR3,System Handler Priority Register 3"
bitfld.long 0x00 28.--31. "PRI_15,Priority of System Handler" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 20.--23. "PRI_14,Priority of System Handler" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
tree.end
tree "TIMER"
tree "TMR01"
base ad:0x40050000
group.long 0x00++0x03
line.long 0x00 "TIMER0_CTL,Timer0 Control Register"
bitfld.long 0x00 31. "ICEDEBUG,ICE Debug Mode Acknowledge Disable Bit (Write Protect)\nTIMER counter will keep going no matter CPU is held by ICE or not.\nNote: This bit is write protected" "0: ICE debug mode acknowledgement effects TIMER..,1: ICE debug mode acknowledgement Disabled"
bitfld.long 0x00 30. "CNTEN,Timer Counting Enable Bit\n" "0: Stops/Suspends counting,1: Starts counting"
newline
bitfld.long 0x00 29. "INTEN,Timer Interrupt Enable Bit\nNote: If this bit is enabled when the timer time-out interrupt flag TIF is set to 1 the timer interrupt signal is generated and inform to CPU" "0: Timer time-out interrupt Disabled,1: Timer time-out interrupt Enabled"
bitfld.long 0x00 27.--28. "OPMODE,Timer Counting Mode Select" "0: The timer controller is operated in One-shot..,1: The timer controller is operated in Periodic..,2: The timer controller is operated in..,3: The timer controller is operated in.."
newline
rbitfld.long 0x00 25. "ACTSTS,Timer Active Status Bit (Read Only)\nThis bit indicates the 24-bit up counter status.\nNote: This bit may active when CNT 0 transition to CNT 1" "0: 24-bit up counter is not active,1: 24-bit up counter is active"
bitfld.long 0x00 24. "EXTCNTEN,Event Counter Mode Enable Bit \nThis bit is for external counting pin function enabled" "0: Event counter mode Disabled,1: Event counter mode Enabled"
newline
bitfld.long 0x00 23. "WKEN,Wake-up Function Enable Bit\nIf this bit is set to 1 while timer interrupt flag TIF (TIMERx_INTSTS[0]) is 1 and INTEN (TIMERx_CTL[29]) is enabled the timer interrupt signal will generate a wake-up trigger event to CPU" "0: Wake-up function Disabled if timer interrupt..,1: Wake-up function Enabled if timer interrupt.."
bitfld.long 0x00 22. "CAPSRC,Capture Pin Source Selection" "0: Capture Function source is from TMx_EXT (x=..,1: Capture Function source is from internal ACMP.."
newline
bitfld.long 0x00 21. "TGLPINSEL,Toggle-output Pin Select" "0: Toggle mode output to TMx (Timer Event..,1: Toggle mode output to TMx_EXT (Timer External.."
bitfld.long 0x00 20. "PERIOSEL,Periodic Mode Behavior Selection Enable Bit\nIf updated CMPDAT value CNT CNT will be reset to default value" "0: The behavior selection in periodic mode is..,1: The behavior selection in periodic mode is.."
newline
bitfld.long 0x00 19. "INTRGEN,Inter-timer Trigger Mode Enable Bit\nSetting this bit will enable the inter-timer trigger capture function.\nThe Timer0/2 will be in event counter mode and counting with external clock source or event.Also Timer1/3 will be in trigger-counting.." "0: Inter-Timer Trigger Capture mode Disabled,1: Inter-Timer Trigger Capture mode Enabled"
hexmask.long.byte 0x00 0.--7. 1. "PSC,Prescale Counter\nNote: Update prescale counter value will reset internal 8-bit prescale counter and 24-bit up counter value"
group.long 0x04++0x03
line.long 0x00 "TIMER0_CMP,Timer0 Comparator Register"
abitfld.long 0x00 0.--23. "CMPDAT,Timer Comparator Value\nCMPDAT is a 24-bit compared value register" "0x000001=1: Never write 0x0 or 0x1 in CMPDAT..,0x000002=2: When timer is operating at.."
group.long 0x08++0x03
line.long 0x00 "TIMER0_INTSTS,Timer0 Interrupt Status Register"
bitfld.long 0x00 1. "TWKF,Timer Wake-up Flag\nThis bit indicates the interrupt wake-up flag status of timer.\nNote: This bit is cleared by writing 1 to it" "0: Timer does not cause CPU wake-up,1: CPU wake-up from Idle or Power-down mode if.."
bitfld.long 0x00 0. "TIF,Timer Interrupt Flag\nThis bit indicates the interrupt flag status of Timer while 24-bit timer up counter CNT (TIMERx_CNT[23:0]) value reaches to CMPDAT (TIMERx_CMP[23:0]) value.\nNote: This bit is cleared by writing 1 to it" "0: No effect,1: CNT value matches the CMPDAT value"
group.long 0x0C++0x03
line.long 0x00 "TIMER0_CNT,Timer0 Data Register"
rbitfld.long 0x00 31. "RSTACT,Timer Data Register Reset Active (Read Only)\nThis bit indicates if the counter reset operation active.\nWhen user writes this CNT register timer starts to reset its internal 24-bit timer up-counter to 0 and reload 8-bit pre-scale counter" "0: Reset operation is done,1: Reset operation triggered by writing.."
hexmask.long.tbyte 0x00 0.--23. 1. "CNT,Timer Data Register\nRead operation.\nRead this register to get CNT value"
rgroup.long 0x10++0x03
line.long 0x00 "TIMER0_CAP,Timer0 Capture Data Register"
hexmask.long.tbyte 0x00 0.--23. 1. "CAPDAT,Timer Capture Data Register\nWhen CAPEN (TIMERx_EXTCTL[3]) bit is set CAPFUNCS (TIMERx_EXTCTL[4]) bit is 0 and a transition on TMx_EXT pin matched the CAPEDGE (TIMERx_EXTCTL[14:12]) setting CAPIF (TIMERx_EINTSTS[0]) will be set to 1 and the.."
group.long 0x14++0x03
line.long 0x00 "TIMER0_EXTCTL,Timer0 External Control Register"
bitfld.long 0x00 28.--31. "CAPDIVSCL,Timer Capture Source Divider\nThis bits indicate the divide scale for capture source divider \nNote: Sets INTERCAPSEL (TIMERx_EXTCTL[10:8]) and CAPSRC (TIMERx_CTL[22]) to select capture source" "0: Capture source/1,1: Capture source/2,2: Capture source/4,3: Capture source/8,4: Capture source/16,5: Capture source/32,6: Capture source/64,7: Capture source/128,8: Capture source/256,?..."
bitfld.long 0x00 16. "ECNTSSEL,Event Counter Source Selection to Trigger Event Counter Function" "0: Event Counter input source is from TMx (x=..,1: Event Counter input source is from USB.."
newline
bitfld.long 0x00 12.--14. "CAPEDGE,Timer External Capture Pin Edge Detect\nWhen first capture event is generated the CNT (TIMERx_CNT[23:0]) will be reset to 0 and first CAPDAT (TIMERx_CAP[23:0]) should be to 0" "0: Capture event occurred when detect falling..,1: Capture event occurred when detect rising..,2: Capture event occurred when detect both..,3: Capture event occurred when detect both..,?,?,6: First capture event occurred at falling edge..,7: First capture event occurred at rising edge.."
bitfld.long 0x00 8.--10. "ICAPSEL,Internal Capture Source Select\nNote:These bits only available when CAPSRC (TIMERx_CTL[22]) is 1" "0: Capture Function source is from internal..,1: Capture Function source is from internal..,2: Capture Function source is from HXT,3: Capture Function source is from LXT,4: Capture Function source is from HIRC,5: Capture Function source is from LIRC,6: Reserved,7: Reserved"
newline
bitfld.long 0x00 7. "CNTDBEN,Timer Counter Pin De-bounce Enable Bit\nNote: If this bit is enabled the edge detection of TMx pin is detected with de-bounce circuit" "0: TMx (x= 0~3) pin de-bounce Disabled,1: TMx (x= 0~3) pin de-bounce Enabled"
bitfld.long 0x00 6. "CAPDBEN,Timer External Capture Pin De-bounce Enable Bit\nNote: If this bit is enabled the edge detection of TMx_EXT pin or ACMP output is detected with de-bounce circuit" "0: TMx_EXT (x= 0~3) pin de-bounce or ACMP output..,1: TMx_EXT (x= 0~3) pin de-bounce or ACMP output.."
newline
bitfld.long 0x00 5. "CAPIEN,Timer External Capture Interrupt Enable Bit" "0: TMx_EXT (x= 0~3) pin detection Interrupt..,1: TMx_EXT (x= 0~3) pin detection Interrupt.."
bitfld.long 0x00 4. "CAPFUNCS,Capture Function Selection" "0: External Capture Mode Enabled,1: External Reset Mode Enabled"
newline
bitfld.long 0x00 3. "CAPEN,Timer External Capture Pin Enable Bit\nThis bit enables the TMx_EXT capture pin input function" "0: TMx_EXT (x= 0~3) pin Disabled,1: TMx_EXT (x= 0~3) pin Enabled"
bitfld.long 0x00 0. "CNTPHASE,Timer External Count Phase" "0: A falling edge of external counting pin will..,1: A rising edge of external counting pin will.."
group.long 0x18++0x03
line.long 0x00 "TIMER0_EINTSTS,Timer0 External Interrupt Status Register"
bitfld.long 0x00 0. "CAPIF,Timer External Capture Interrupt Flag\nThis bit indicates the timer external capture interrupt flag status.\n" "0: TMx_EXT (x= 0~3) pin interrupt did not occur,1: TMx_EXT (x= 0~3) pin interrupt occurred"
group.long 0x1C++0x03
line.long 0x00 "TIMER0_TRGCTL,Timer0 Trigger Control Register"
bitfld.long 0x00 4. "TRGPDMA,Trigger PDMA Enable Bit\nIf this bit is set to 1 each timer time-out event or capture event can be triggered PDMA transfer" "0: Timer interrupt trigger PDMA Disabled,1: Timer interrupt trigger PDMA Enabled"
bitfld.long 0x00 3. "TRGDAC,Trigger DAC Enable Bit\nIf this bit is set to 1 timer time-out interrupt or capture interrupt can be triggered DAC" "0: Timer interrupt trigger DAC Disabled,1: Timer interrupt trigger DAC Enabled"
newline
bitfld.long 0x00 2. "TRGEADC,Trigger EADC Enable Bit\nIf this bit is set to 1 each timer time-out event or capture event can be triggered EADC conversion" "0: Timer interrupt trigger EADC Disabled,1: Timer interrupt trigger EADC Enabled"
bitfld.long 0x00 1. "TRGPWM,Trigger EPWM and BPWM Enable Bit\nIf this bit is set to 1 each timer time-out event or capture event can be as EPWM and BPWM counter clock source" "0: Timer interrupt trigger EPWM and BPWM Disabled,1: Timer interrupt trigger EPWM and BPWM Enabled"
newline
bitfld.long 0x00 0. "TRGSSEL,Trigger Source Select Bit\nThis bit is used to select internal trigger source is form timer time-out interrupt signal or capture interrupt signal" "0: Time-out interrupt signal is used to internal..,1: Capture interrupt signal is used to internal.."
group.long 0x20++0x03
line.long 0x00 "TIMER0_ALTCTL,Timer0 Alternative Control Register"
bitfld.long 0x00 0. "FUNCSEL,Function Selection\nNote: When the timer is used as PWM the clock source of time controller will be forced to PCLKx automatically" "0: Timer controller is used as timer function,1: Timer controller is used as PWM function"
group.long 0x40++0x03
line.long 0x00 "TIMER0_PWMCTL,Timer0 PWM Control Register"
bitfld.long 0x00 31. "DBGTRIOFF,ICE Debug Mode Acknowledge Disable Bit (Write Protect)\nPWM output pin will keep output no matter ICE debug mode acknowledged or not.\nNote: This bit is write protected" "0: ICE debug mode acknowledgement effects PWM..,1: ICE debug mode acknowledgement disabled"
bitfld.long 0x00 30. "DBGHALT,ICE Debug Mode Counter Halt (Write Protect)\nIf debug mode counter halt is enabled PWM counter will keep current value until exit ICE debug mode" "0: ICE debug mode counter halt disable,1: ICE debug mode counter halt enable"
newline
bitfld.long 0x00 16. "OUTMODE,PWM Output Mode\nThis bit controls the output mode of corresponding PWM channel" "0: PWM independent mode,1: PWM complementary mode"
bitfld.long 0x00 9. "IMMLDEN,Immediately Load Enable Bit\nNote: If IMMLDEN is enabled CTRLD will be invalid" "0: PERIOD will load to PBUF when current PWM..,1: PERIOD/CMP will load to PBUF/CMPBUF.."
newline
bitfld.long 0x00 8. "CTRLD,Center Re-load\nIn up-down count type PERIOD will load to PBUF when current PWM period is completed always and CMP will load to CMPBUF at the center point of current period" "0,1"
bitfld.long 0x00 3. "CNTMODE,PWM Counter Mode" "0: Auto-reload mode,1: One-shot mode"
newline
bitfld.long 0x00 1.--2. "CNTTYPE,PWM Counter Behavior Type" "0: Up count type,1: Down count type,2: Up-down count type,3: Reserved"
bitfld.long 0x00 0. "CNTEN,PWM Counter Enable Bit" "0: PWM counter and clock prescale Stop Running,1: PWM counter and clock prescale Start Running"
group.long 0x44++0x03
line.long 0x00 "TIMER0_PWMCLKSRC,Timer0 PWM Counter Clock Source Register"
bitfld.long 0x00 0.--2. "CLKSRC,PWM Counter Clock Source Select\nThe PWM counter clock source can be selected from TMRx_CLK or internal timer time-out or capture event.\nNote: If TIMER0 PWM function is enabled the PWM counter clock source can be selected from TMR0_CLK TIMER1.." "0: TMRx_CLK,1: Internal TIMER0 time-out or capture event,2: Internal TIMER1 time-out or capture event,3: Internal TIMER2 time-out or capture event,4: Internal TIMER3 time-out or capture event,?..."
group.long 0x48++0x03
line.long 0x00 "TIMER0_PWMCLKPSC,Timer0 PWM Counter Clock Pre-scale Register"
hexmask.long.word 0x00 0.--11. 1. "CLKPSC,PWM Counter Clock Pre-scale \nThe active clock of PWM counter is decided by counter clock prescale and divided by (CLKPSC + 1)"
group.long 0x4C++0x03
line.long 0x00 "TIMER0_PWMCNTCLR,Timer0 PWM Clear Counter Register"
bitfld.long 0x00 0. "CNTCLR,Clear PWM Counter Control Bit\nIt is automatically cleared by hardware" "0: No effect,1: Clear 16-bit PWM counter to 0x10000 in up and.."
group.long 0x50++0x03
line.long 0x00 "TIMER0_PWMPERIOD,Timer0 PWM Period Register"
hexmask.long.word 0x00 0.--15. 1. "PERIOD,PWM Period Register\nIn up count type: PWM counter counts from 0 to PERIOD and restarts from 0.\nIn down count type: PWM counter counts from PERIOD to 0 and restarts from PERIOD.\nIn up-down count type: PWM counter counts from 0 to PERIOD then.."
group.long 0x54++0x03
line.long 0x00 "TIMER0_PWMCMPDAT,Timer0 PWM Comparator Register"
hexmask.long.word 0x00 0.--15. 1. "CMP,PWM Comparator Register\nPWM CMP is used to compare with PWM CNT to generate PWM output waveform interrupt events and trigger ADC to start convert"
group.long 0x58++0x03
line.long 0x00 "TIMER0_PWMDTCTL,Timer0 PWM Dead-time Control Register"
bitfld.long 0x00 24. "DTCKSEL,Dead-time Clock Select (Write Protect)\nNote: This bit is write protected" "0: Dead-time clock source from TMRx_PWMCLK..,1: Dead-time clock source from TMRx_PWMCLK with.."
bitfld.long 0x00 16. "DTEN,Enable Dead-time Insertion for PWMx_CH0 and PWMx_CH1 (Write Protect)\nDead-time insertion function is only active when PWM complementary mode is enabled" "0: Dead-time insertion Disabled on the pin pair,1: Dead-time insertion Enabled on the pin pair"
newline
hexmask.long.word 0x00 0.--11. 1. "DTCNT,Dead-time Counter (Write Protect)\nThe dead-time can be calculated from the following two formulas: \nNote: This bit is write protected"
rgroup.long 0x5C++0x03
line.long 0x00 "TIMER0_PWMCNT,Timer0 PWM Counter Register"
bitfld.long 0x00 16. "DIRF,PWM Counter Direction Indicator Flag (Read Only)" "0: Counter is active in down count,1: Counter is active up count"
hexmask.long.word 0x00 0.--15. 1. "CNT,PWM Counter Value Register (Read Only)\nUser can monitor CNT to know the current counter value in 16-bit period counter"
group.long 0x60++0x03
line.long 0x00 "TIMER0_PWMMSKEN,Timer0 PWM Output Mask Enable Register"
bitfld.long 0x00 1. "MSKEN1,PWMx_CH1 Output Mask Enable Bit\nThe PWMx_CH1 output signal will be masked when this bit is enabled" "0: PWMx_CH1 output signal is non-masked,1: PWMx_CH1 output signal is masked and output.."
bitfld.long 0x00 0. "MSKEN0,PWMx_CH0 Output Mask Enable Bit\nThe PWMx_CH0 output signal will be masked when this bit is enabled" "0: PWMx_CH0 output signal is non-masked,1: PWMx_CH0 output signal is masked and output.."
group.long 0x64++0x03
line.long 0x00 "TIMER0_PWMMSK,Timer0 PWM Output Mask Data Control Register"
bitfld.long 0x00 1. "MSKDAT1,PWMx_CH1 Output Mask Data Control Bit" "0: Output logic Low to PWMx_CH1,1: Output logic High to PWMx_CH1"
bitfld.long 0x00 0. "MSKDAT0,PWMx_CH0 Output Mask Data Control Bit" "0: Output logic Low to PWMx_CH0,1: Output logic High to PWMx_CH0"
group.long 0x68++0x03
line.long 0x00 "TIMER0_PWMBNF,Timer0 PWM Brake Pin Noise Filter Register"
bitfld.long 0x00 16.--17. "BKPINSRC,Brake Pin Source Select" "0: Brake pin source comes from PWM0_BRAKE0 pin,1: Brake pin source comes from PWM0_BRAKE1 pin,2: Brake pin source comes from PWM1_BRAKE0 pin,3: Brake pin source comes from PWM1_BRAKE1 pin"
bitfld.long 0x00 7. "BRKPINV,Brake Pin Detection Control Bit" "0: Brake pin event will be detected if..,1: Brake pin event will be detected if.."
newline
bitfld.long 0x00 4.--6. "BRKFCNT,Brake Pin Noise Filter Count\nThe fields is used to control the active noise filter sample time" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1.--3. "BRKNFSEL,Brake Pin Noise Filter Clock Selection" "0: Noise filter clock is PCLKx,1: Noise filter clock is PCLKx/2,2: Noise filter clock is PCLKx/4,3: Noise filter clock is PCLKx/8,4: Noise filter clock is PCLKx/16,5: Noise filter clock is PCLKx/32,6: Noise filter clock is PCLKx/64,7: Noise filter clock is PCLKx/128"
newline
bitfld.long 0x00 0. "BRKNFEN,Brake Pin Noise Filter Enable Bit" "0: Pin noise filter detect of PWMx_BRAKEy Disabled,1: Pin noise filter detect of PWMx_BRAKEy Enabled"
group.long 0x6C++0x03
line.long 0x00 "TIMER0_PWMFAILBRK,Timer0 PWM System Fail Brake Control Register"
bitfld.long 0x00 3. "CORBRKEN,Core Lockup Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by core lockup event..,1: Brake Function triggered by core lockup event.."
bitfld.long 0x00 2. "RAMBRKEN,SRAM Parity Error Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by SRAM parity error..,1: Brake Function triggered by SRAM parity error.."
newline
bitfld.long 0x00 1. "BODBRKEN,Brown-out Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by BOD event Disabled,1: Brake Function triggered by BOD event Enabled"
bitfld.long 0x00 0. "CSSBRKEN,Clock Security System Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by clock fail..,1: Brake Function triggered by clock fail.."
group.long 0x70++0x03
line.long 0x00 "TIMER0_PWMBRKCTL,Timer0 PWM Brake Control Register"
bitfld.long 0x00 18.--19. "BRKAODD,PWM Brake Action Select for PWMx_CH1 (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy brake event will not affect..,1: PWMx_CH1 output tri-state when PWMx_BRAKEy..,2: PWMx_CH1 output low level when PWMx_BRAKEy..,3: PWMx_CH1 output high level when PWMx_BRAKEy.."
bitfld.long 0x00 16.--17. "BRKAEVEN,PWM Brake Action Select for PWMx_CH0 (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy brake event will not affect..,1: PWMx_CH0 output tri-state when PWMx_BRAKEy..,2: PWMx_CH0 output low level when PWMx_BRAKEy..,3: PWMx_CH0 output high level when PWMx_BRAKEy.."
newline
bitfld.long 0x00 15. "SYSLBEN,Enable System Fail As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System fail condition as level-detect brake..,1: System fail condition as level-detect brake.."
bitfld.long 0x00 12. "BRKPLEN,Enable TM_BRAKEx Pin As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy pin event as level-detect brake..,1: PWMx_BRAKEy pin event as level-detect brake.."
newline
bitfld.long 0x00 9. "CPO1LBEN,Enable Internal ACMP1_O Digital Output As Level-detect Brake Source (Write Protect)\n" "0: Internal ACMP1_O signal as level-detect brake..,1: Internal ACMP1_O signal as level-detect brake.."
bitfld.long 0x00 8. "CPO0LBEN,Enable Internal ACMP0_O Digital Output As Level-detect Brake Source (Write Protect)\n" "0: Internal ACMP0_O signal as level-detect brake..,1: Internal ACMP0_O signal as level-detect brake.."
newline
bitfld.long 0x00 7. "SYSEBEN,Enable System Fail As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System fail condition as edge-detect brake..,1: System fail condition as edge-detect brake.."
bitfld.long 0x00 4. "BRKPEEN,Enable TM_BRAKEx Pin As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy pin event as edge-detect brake..,1: PWMx_BRAKEy pin event as edge-detect brake.."
newline
bitfld.long 0x00 1. "CPO1EBEN,Enable Internal ACMP1_O Digital Output As Edge-detect Brake Source (Write Protect)\n" "0: Internal ACMP1_O signal as edge-detect brake..,1: Internal ACMP1_O signal as edge-detect brake.."
bitfld.long 0x00 0. "CPO0EBEN,Enable Internal ACMP0_O Digital Output As Edge-detect Brake Source (Write Protect)\n" "0: Internal ACMP0_O signal as edge-detect brake..,1: Internal ACMP0_O signal as edge-detect brake.."
group.long 0x74++0x03
line.long 0x00 "TIMER0_PWMPOLCTL,Timer0 PWM Pin Output Polar Control Register"
bitfld.long 0x00 1. "PINV1,PWMx_CH1 Output Pin Polar Control Bit\nThe bit is used to control polarity state of PWMx_CH1 output pin" "0: PWMx_CH1 output pin polar inverse Disabled,1: PWMx_CH1 output pin polar inverse Enabled"
bitfld.long 0x00 0. "PINV0,PWMx_CH0 Output Pin Polar Control Bit\nThe bit is used to control polarity state of PWMx_CH0 output pin" "0: PWMx_CH0 output pin polar inverse Disabled,1: PWMx_CH0 output pin polar inverse Enabled"
group.long 0x78++0x03
line.long 0x00 "TIMER0_PWMPOEN,Timer0 PWM Pin Output Enable Register"
bitfld.long 0x00 1. "POEN1,PWMx_CH1 Output Pin Enable Bit" "0: PWMx_CH1 pin at tri-state mode,1: PWMx_CH1 pin in output mode"
bitfld.long 0x00 0. "POEN0,PWMx_CH0 Output Pin Enable Bit" "0: PWMx_CH0 pin at tri-state mode,1: PWMx_CH0 pin in output mode"
wgroup.long 0x7C++0x03
line.long 0x00 "TIMER0_PWMSWBRK,Timer0 PWM Software Trigger Brake Control Register"
bitfld.long 0x00 8. "BRKLTRG,Software Trigger Level-detect Brake Source (Write Only) (Write Protect)\nWrite 1 to this bit will trigger PWM level-detect brake source then BRKLIF0 and BRKLIF1 will be set to 1 automatically in TIMERx_PWMINTSTS1 register" "0,1"
bitfld.long 0x00 0. "BRKETRG,Software Trigger Edge-detect Brake Source (Write Only) (Write Protect)\nWrite 1 to this bit will trigger PWM edge-detect brake source then BRKEIF0 and BRKEIF1 will be set to 1 automatically in TIMERx_PWMINTSTS1 register" "0,1"
group.long 0x80++0x03
line.long 0x00 "TIMER0_PWMINTEN0,Timer0 PWM Interrupt Enable Register 0"
bitfld.long 0x00 3. "CMPDIEN,PWM Compare Down Count Interrupt Enable Bit" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
bitfld.long 0x00 2. "CMPUIEN,PWM Compare Up Count Interrupt Enable Bit" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
newline
bitfld.long 0x00 1. "PIEN,PWM Period Point Interrupt Enable Bit\nNote: In up-down count type period point means the center point of current PWM period" "0: Period point interrupt Disabled,1: Period point interrupt Enabled"
bitfld.long 0x00 0. "ZIEN,PWM Zero Point Interrupt Enable Bit" "0: Zero point interrupt Disabled,1: Zero point interrupt Enabled"
group.long 0x84++0x03
line.long 0x00 "TIMER0_PWMINTEN1,Timer0 PWM Interrupt Enable Register 1"
bitfld.long 0x00 8. "BRKLIEN,PWM Level-detect Brake Interrupt Enable Bit (Write Protect)\nNote: This bit is write protected" "0: PWM level-detect brake interrupt Disabled,1: PWM level-detect brake interrupt Enabled"
bitfld.long 0x00 0. "BRKEIEN,PWM Edge-detect Brake Interrupt Enable Bit (Write Protect)\nNote: This bit is write protected" "0: PWM edge-detect brake interrupt Disabled,1: PWM edge-detect brake interrupt Enabled"
group.long 0x88++0x03
line.long 0x00 "TIMER0_PWMINTSTS0,Timer0 PWM Interrupt Status Register 0"
bitfld.long 0x00 3. "CMPDIF,PWM Compare Down Count Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter in down count direction and reaches CMP.\n" "0,1"
bitfld.long 0x00 2. "CMPUIF,PWM Compare Up Count Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter in up count direction and reaches CMP.\n" "0,1"
newline
bitfld.long 0x00 1. "PIF,PWM Period Point Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter reaches PERIOD.\n" "0,1"
bitfld.long 0x00 0. "ZIF,PWM Zero Point Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter reaches 0.\nNote: This bit is cleared by writing 1 to it" "0,1"
group.long 0x8C++0x03
line.long 0x00 "TIMER0_PWMINTSTS1,Timer0 PWM Interrupt Status Register 1"
rbitfld.long 0x00 25. "BRKLSTS1,Level-detect Brake Status of PWMx_CH1 (Read Only)\nNote: If TIMERx_PWM level-detect brake source has released both PWMx_CH0 and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH0 and PWMx_CH1 output waveform.." "0: PWMx_CH1 level-detect brake state is released,1: PWMx_CH1 at level-detect brake state"
rbitfld.long 0x00 24. "BRKLSTS0,Level-detect Brake Status of PWMx_CH0 (Read Only)\nNote: If TIMERx_PWM level-detect brake source has released both PWMx_CH0 and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH0 and PWMx_CH1 output waveform.." "0: PWMx_CH0 level-detect brake state is released,1: PWMx_CH0 at level-detect brake state"
newline
rbitfld.long 0x00 17. "BRKESTS1,Edge-detect Brake Status of PWMx_CH1 (Read Only)\nNote: User can set BRKEIF1 1 to clear BRKEIF1 flag and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH1 output waveform start from next full PWM period" "0: PWMx_CH1 edge-detect brake state is released,1: PWMx_CH1 at edge-detect brake state"
rbitfld.long 0x00 16. "BRKESTS0,Edge -detect Brake Status of PWMx_CH0 (Read Only)\nNote: User can set BRKEIF0 1 to clear BRKEIF0 flag and PWMx_CH0 will release brake state when current PWM period finished and resume PWMx_CH0 output waveform start from next full PWM period" "0: PWMx_CH0 edge-detect brake state is released,1: PWMx_CH0 at edge-detect brake state"
newline
bitfld.long 0x00 9. "BRKLIF1,Level-detect Brake Interrupt Flag on PWMx_CH1 (Write Protect)\n" "0: PWMx_CH1 level-detect brake event do not..,1: PWMx_CH1 level-detect brake event happened"
bitfld.long 0x00 8. "BRKLIF0,Level-detect Brake Interrupt Flag on PWMx_CH0 (Write Protect)\n" "0: PWMx_CH0 level-detect brake event do not..,1: PWMx_CH0 level-detect brake event happened"
newline
bitfld.long 0x00 1. "BRKEIF1,Edge-detect Brake Interrupt Flag PWMx_CH1 (Write Protect)\n" "0: PWMx_CH1 edge-detect brake event do not..,1: PWMx_CH1 edge-detect brake event happened"
bitfld.long 0x00 0. "BRKEIF0,Edge-detect Brake Interrupt Flag on PWMx_CH0 (Write Protect)\n" "0: PWMx_CH0 edge-detect brake event do not..,1: PWMx_CH0 edge-detect brake event happened"
group.long 0x90++0x03
line.long 0x00 "TIMER0_PWMADCTS,Timer0 PWM ADC Trigger Source Select Register"
bitfld.long 0x00 7. "TRGEN,PWM Counter Event Trigger ADC Conversion Enable Bit" "0: PWM counter event trigger ADC conversion..,1: PWM counter event trigger ADC conversion.."
bitfld.long 0x00 0.--2. "TRGSEL,PWM Counter Event Source Select to Trigger EADC Conversion" "0: Trigger EADC conversion at zero point (ZIF),1: Trigger EADC conversion at period point (PIF),2: Trigger EADC conversion at zero or period..,3: Trigger EADC conversion at compare up count..,4: Trigger EADC conversion at compare down count..,?..."
group.long 0x94++0x03
line.long 0x00 "TIMER0_PWMSCTL,Timer0 PWM Synchronous Control Register"
bitfld.long 0x00 8. "SYNCSRC,PWM Synchronous Counter Start/Clear Source Select\n" "0: Counter synchronous start/clear by trigger..,1: Counter synchronous start/clear by trigger.."
bitfld.long 0x00 0.--1. "SYNCMODE,PWM Synchronous Mode Enable Select" "0: PWM synchronous function Disabled,1: PWM synchronous counter start function Enabled,2: Reserved,3: PWM synchronous counter clear function Enabled"
wgroup.long 0x98++0x03
line.long 0x00 "TIMER0_PWMSTRG,Timer0 PWM Synchronous Trigger Register"
bitfld.long 0x00 0. "STRGEN,PWM Counter Synchronous Trigger Enable Bit (Write Only)\nPMW counter synchronous function is used to make selected PWM channels (include TIMER0/1/2/3 PWM TIMER0/1 PWM and TIMER2/3 PWM) start counting or clear counter at the same time according to.." "0,1"
group.long 0x9C++0x03
line.long 0x00 "TIMER0_PWMSTATUS,Timer0 PWM Status Register"
bitfld.long 0x00 16. "EADCTRGF,Trigger EADC Start Conversion Flag\nNote: This bit is cleared by writing 1 to it" "0: PWM counter event trigger EADC start..,1: PWM counter event trigger EADC start.."
bitfld.long 0x00 0. "CNTMAXF,PWM Counter Equal to 0xFFFF Flag\nNote: This bit is cleared by writing 1 to it" "0: The PWM counter value never reached its..,1: The PWM counter value has reached its maximum.."
rgroup.long 0xA0++0x03
line.long 0x00 "TIMER0_PWMPBUF,Timer0 PWM Period Buffer Register"
hexmask.long.word 0x00 0.--15. 1. "PBUF,PWM Period Buffer Register (Read Only)\nUsed as PERIOD active register"
rgroup.long 0xA4++0x03
line.long 0x00 "TIMER0_PWMCMPBUF,Timer0 PWM Comparator Buffer Register"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,PWM Comparator Buffer Register (Read Only)\nUsed as CMP active register"
group.long 0x100++0x03
line.long 0x00 "TIMER1_CTL,Timer1 Control Register"
bitfld.long 0x00 31. "ICEDEBUG,ICE Debug Mode Acknowledge Disable Bit (Write Protect)\nTIMER counter will keep going no matter CPU is held by ICE or not.\nNote: This bit is write protected" "0: ICE debug mode acknowledgement effects TIMER..,1: ICE debug mode acknowledgement Disabled"
bitfld.long 0x00 30. "CNTEN,Timer Counting Enable Bit\n" "0: Stops/Suspends counting,1: Starts counting"
newline
bitfld.long 0x00 29. "INTEN,Timer Interrupt Enable Bit\nNote: If this bit is enabled when the timer time-out interrupt flag TIF is set to 1 the timer interrupt signal is generated and inform to CPU" "0: Timer time-out interrupt Disabled,1: Timer time-out interrupt Enabled"
bitfld.long 0x00 27.--28. "OPMODE,Timer Counting Mode Select" "0: The timer controller is operated in One-shot..,1: The timer controller is operated in Periodic..,2: The timer controller is operated in..,3: The timer controller is operated in.."
newline
rbitfld.long 0x00 25. "ACTSTS,Timer Active Status Bit (Read Only)\nThis bit indicates the 24-bit up counter status.\nNote: This bit may active when CNT 0 transition to CNT 1" "0: 24-bit up counter is not active,1: 24-bit up counter is active"
bitfld.long 0x00 24. "EXTCNTEN,Event Counter Mode Enable Bit \nThis bit is for external counting pin function enabled" "0: Event counter mode Disabled,1: Event counter mode Enabled"
newline
bitfld.long 0x00 23. "WKEN,Wake-up Function Enable Bit\nIf this bit is set to 1 while timer interrupt flag TIF (TIMERx_INTSTS[0]) is 1 and INTEN (TIMERx_CTL[29]) is enabled the timer interrupt signal will generate a wake-up trigger event to CPU" "0: Wake-up function Disabled if timer interrupt..,1: Wake-up function Enabled if timer interrupt.."
bitfld.long 0x00 22. "CAPSRC,Capture Pin Source Selection" "0: Capture Function source is from TMx_EXT (x=..,1: Capture Function source is from internal ACMP.."
newline
bitfld.long 0x00 21. "TGLPINSEL,Toggle-output Pin Select" "0: Toggle mode output to TMx (Timer Event..,1: Toggle mode output to TMx_EXT (Timer External.."
bitfld.long 0x00 20. "PERIOSEL,Periodic Mode Behavior Selection Enable Bit\nIf updated CMPDAT value CNT CNT will be reset to default value" "0: The behavior selection in periodic mode is..,1: The behavior selection in periodic mode is.."
newline
bitfld.long 0x00 19. "INTRGEN,Inter-timer Trigger Mode Enable Bit\nSetting this bit will enable the inter-timer trigger capture function.\nThe Timer0/2 will be in event counter mode and counting with external clock source or event.Also Timer1/3 will be in trigger-counting.." "0: Inter-Timer Trigger Capture mode Disabled,1: Inter-Timer Trigger Capture mode Enabled"
hexmask.long.byte 0x00 0.--7. 1. "PSC,Prescale Counter\nNote: Update prescale counter value will reset internal 8-bit prescale counter and 24-bit up counter value"
group.long 0x104++0x03
line.long 0x00 "TIMER1_CMP,Timer1 Comparator Register"
abitfld.long 0x00 0.--23. "CMPDAT,Timer Comparator Value\nCMPDAT is a 24-bit compared value register" "0x000001=1: Never write 0x0 or 0x1 in CMPDAT..,0x000002=2: When timer is operating at.."
group.long 0x108++0x03
line.long 0x00 "TIMER1_INTSTS,Timer1 Interrupt Status Register"
bitfld.long 0x00 1. "TWKF,Timer Wake-up Flag\nThis bit indicates the interrupt wake-up flag status of timer.\nNote: This bit is cleared by writing 1 to it" "0: Timer does not cause CPU wake-up,1: CPU wake-up from Idle or Power-down mode if.."
bitfld.long 0x00 0. "TIF,Timer Interrupt Flag\nThis bit indicates the interrupt flag status of Timer while 24-bit timer up counter CNT (TIMERx_CNT[23:0]) value reaches to CMPDAT (TIMERx_CMP[23:0]) value.\nNote: This bit is cleared by writing 1 to it" "0: No effect,1: CNT value matches the CMPDAT value"
group.long 0x10C++0x03
line.long 0x00 "TIMER1_CNT,Timer1 Data Register"
rbitfld.long 0x00 31. "RSTACT,Timer Data Register Reset Active (Read Only)\nThis bit indicates if the counter reset operation active.\nWhen user writes this CNT register timer starts to reset its internal 24-bit timer up-counter to 0 and reload 8-bit pre-scale counter" "0: Reset operation is done,1: Reset operation triggered by writing.."
hexmask.long.tbyte 0x00 0.--23. 1. "CNT,Timer Data Register\nRead operation.\nRead this register to get CNT value"
group.long 0x110++0x03
line.long 0x00 "TIMER1_CAP,Timer1 Capture Data Register"
hexmask.long.tbyte 0x00 0.--23. 1. "CAPDAT,Timer Capture Data Register\nWhen CAPEN (TIMERx_EXTCTL[3]) bit is set CAPFUNCS (TIMERx_EXTCTL[4]) bit is 0 and a transition on TMx_EXT pin matched the CAPEDGE (TIMERx_EXTCTL[14:12]) setting CAPIF (TIMERx_EINTSTS[0]) will be set to 1 and the.."
group.long 0x114++0x03
line.long 0x00 "TIMER1_EXTCTL,Timer1 External Control Register"
bitfld.long 0x00 28.--31. "CAPDIVSCL,Timer Capture Source Divider\nThis bits indicate the divide scale for capture source divider \nNote: Sets INTERCAPSEL (TIMERx_EXTCTL[10:8]) and CAPSRC (TIMERx_CTL[22]) to select capture source" "0: Capture source/1,1: Capture source/2,2: Capture source/4,3: Capture source/8,4: Capture source/16,5: Capture source/32,6: Capture source/64,7: Capture source/128,8: Capture source/256,?..."
bitfld.long 0x00 16. "ECNTSSEL,Event Counter Source Selection to Trigger Event Counter Function" "0: Event Counter input source is from TMx (x=..,1: Event Counter input source is from USB.."
newline
bitfld.long 0x00 12.--14. "CAPEDGE,Timer External Capture Pin Edge Detect\nWhen first capture event is generated the CNT (TIMERx_CNT[23:0]) will be reset to 0 and first CAPDAT (TIMERx_CAP[23:0]) should be to 0" "0: Capture event occurred when detect falling..,1: Capture event occurred when detect rising..,2: Capture event occurred when detect both..,3: Capture event occurred when detect both..,?,?,6: First capture event occurred at falling edge..,7: First capture event occurred at rising edge.."
bitfld.long 0x00 8.--10. "ICAPSEL,Internal Capture Source Select\nNote:These bits only available when CAPSRC (TIMERx_CTL[22]) is 1" "0: Capture Function source is from internal..,1: Capture Function source is from internal..,2: Capture Function source is from HXT,3: Capture Function source is from LXT,4: Capture Function source is from HIRC,5: Capture Function source is from LIRC,6: Reserved,7: Reserved"
newline
bitfld.long 0x00 7. "CNTDBEN,Timer Counter Pin De-bounce Enable Bit\nNote: If this bit is enabled the edge detection of TMx pin is detected with de-bounce circuit" "0: TMx (x= 0~3) pin de-bounce Disabled,1: TMx (x= 0~3) pin de-bounce Enabled"
bitfld.long 0x00 6. "CAPDBEN,Timer External Capture Pin De-bounce Enable Bit\nNote: If this bit is enabled the edge detection of TMx_EXT pin or ACMP output is detected with de-bounce circuit" "0: TMx_EXT (x= 0~3) pin de-bounce or ACMP output..,1: TMx_EXT (x= 0~3) pin de-bounce or ACMP output.."
newline
bitfld.long 0x00 5. "CAPIEN,Timer External Capture Interrupt Enable Bit" "0: TMx_EXT (x= 0~3) pin detection Interrupt..,1: TMx_EXT (x= 0~3) pin detection Interrupt.."
bitfld.long 0x00 4. "CAPFUNCS,Capture Function Selection" "0: External Capture Mode Enabled,1: External Reset Mode Enabled"
newline
bitfld.long 0x00 3. "CAPEN,Timer External Capture Pin Enable Bit\nThis bit enables the TMx_EXT capture pin input function" "0: TMx_EXT (x= 0~3) pin Disabled,1: TMx_EXT (x= 0~3) pin Enabled"
bitfld.long 0x00 0. "CNTPHASE,Timer External Count Phase" "0: A falling edge of external counting pin will..,1: A rising edge of external counting pin will.."
group.long 0x118++0x03
line.long 0x00 "TIMER1_EINTSTS,Timer1 External Interrupt Status Register"
bitfld.long 0x00 0. "CAPIF,Timer External Capture Interrupt Flag\nThis bit indicates the timer external capture interrupt flag status.\n" "0: TMx_EXT (x= 0~3) pin interrupt did not occur,1: TMx_EXT (x= 0~3) pin interrupt occurred"
group.long 0x11C++0x03
line.long 0x00 "TIMER1_TRGCTL,Timer1 Trigger Control Register"
bitfld.long 0x00 4. "TRGPDMA,Trigger PDMA Enable Bit\nIf this bit is set to 1 each timer time-out event or capture event can be triggered PDMA transfer" "0: Timer interrupt trigger PDMA Disabled,1: Timer interrupt trigger PDMA Enabled"
bitfld.long 0x00 3. "TRGDAC,Trigger DAC Enable Bit\nIf this bit is set to 1 timer time-out interrupt or capture interrupt can be triggered DAC" "0: Timer interrupt trigger DAC Disabled,1: Timer interrupt trigger DAC Enabled"
newline
bitfld.long 0x00 2. "TRGEADC,Trigger EADC Enable Bit\nIf this bit is set to 1 each timer time-out event or capture event can be triggered EADC conversion" "0: Timer interrupt trigger EADC Disabled,1: Timer interrupt trigger EADC Enabled"
bitfld.long 0x00 1. "TRGPWM,Trigger EPWM and BPWM Enable Bit\nIf this bit is set to 1 each timer time-out event or capture event can be as EPWM and BPWM counter clock source" "0: Timer interrupt trigger EPWM and BPWM Disabled,1: Timer interrupt trigger EPWM and BPWM Enabled"
newline
bitfld.long 0x00 0. "TRGSSEL,Trigger Source Select Bit\nThis bit is used to select internal trigger source is form timer time-out interrupt signal or capture interrupt signal" "0: Time-out interrupt signal is used to internal..,1: Capture interrupt signal is used to internal.."
group.long 0x120++0x03
line.long 0x00 "TIMER1_ALTCTL,Timer1 Alternative Control Register"
bitfld.long 0x00 0. "FUNCSEL,Function Selection\nNote: When the timer is used as PWM the clock source of time controller will be forced to PCLKx automatically" "0: Timer controller is used as timer function,1: Timer controller is used as PWM function"
group.long 0x140++0x03
line.long 0x00 "TIMER1_PWMCTL,Timer1 PWM Control Register"
bitfld.long 0x00 31. "DBGTRIOFF,ICE Debug Mode Acknowledge Disable Bit (Write Protect)\nPWM output pin will keep output no matter ICE debug mode acknowledged or not.\nNote: This bit is write protected" "0: ICE debug mode acknowledgement effects PWM..,1: ICE debug mode acknowledgement disabled"
bitfld.long 0x00 30. "DBGHALT,ICE Debug Mode Counter Halt (Write Protect)\nIf debug mode counter halt is enabled PWM counter will keep current value until exit ICE debug mode" "0: ICE debug mode counter halt disable,1: ICE debug mode counter halt enable"
newline
bitfld.long 0x00 16. "OUTMODE,PWM Output Mode\nThis bit controls the output mode of corresponding PWM channel" "0: PWM independent mode,1: PWM complementary mode"
bitfld.long 0x00 9. "IMMLDEN,Immediately Load Enable Bit\nNote: If IMMLDEN is enabled CTRLD will be invalid" "0: PERIOD will load to PBUF when current PWM..,1: PERIOD/CMP will load to PBUF/CMPBUF.."
newline
bitfld.long 0x00 8. "CTRLD,Center Re-load\nIn up-down count type PERIOD will load to PBUF when current PWM period is completed always and CMP will load to CMPBUF at the center point of current period" "0,1"
bitfld.long 0x00 3. "CNTMODE,PWM Counter Mode" "0: Auto-reload mode,1: One-shot mode"
newline
bitfld.long 0x00 1.--2. "CNTTYPE,PWM Counter Behavior Type" "0: Up count type,1: Down count type,2: Up-down count type,3: Reserved"
bitfld.long 0x00 0. "CNTEN,PWM Counter Enable Bit" "0: PWM counter and clock prescale Stop Running,1: PWM counter and clock prescale Start Running"
group.long 0x144++0x03
line.long 0x00 "TIMER1_PWMCLKSRC,Timer1 PWM Counter Clock Source Register"
bitfld.long 0x00 0.--2. "CLKSRC,PWM Counter Clock Source Select\nThe PWM counter clock source can be selected from TMRx_CLK or internal timer time-out or capture event.\nNote: If TIMER0 PWM function is enabled the PWM counter clock source can be selected from TMR0_CLK TIMER1.." "0: TMRx_CLK,1: Internal TIMER0 time-out or capture event,2: Internal TIMER1 time-out or capture event,3: Internal TIMER2 time-out or capture event,4: Internal TIMER3 time-out or capture event,?..."
group.long 0x148++0x03
line.long 0x00 "TIMER1_PWMCLKPSC,Timer1 PWM Counter Clock Pre-scale Register"
hexmask.long.word 0x00 0.--11. 1. "CLKPSC,PWM Counter Clock Pre-scale \nThe active clock of PWM counter is decided by counter clock prescale and divided by (CLKPSC + 1)"
group.long 0x14C++0x03
line.long 0x00 "TIMER1_PWMCNTCLR,Timer1 PWM Clear Counter Register"
bitfld.long 0x00 0. "CNTCLR,Clear PWM Counter Control Bit\nIt is automatically cleared by hardware" "0: No effect,1: Clear 16-bit PWM counter to 0x10000 in up and.."
group.long 0x150++0x03
line.long 0x00 "TIMER1_PWMPERIOD,Timer1 PWM Period Register"
hexmask.long.word 0x00 0.--15. 1. "PERIOD,PWM Period Register\nIn up count type: PWM counter counts from 0 to PERIOD and restarts from 0.\nIn down count type: PWM counter counts from PERIOD to 0 and restarts from PERIOD.\nIn up-down count type: PWM counter counts from 0 to PERIOD then.."
group.long 0x154++0x03
line.long 0x00 "TIMER1_PWMCMPDAT,Timer1 PWM Comparator Register"
hexmask.long.word 0x00 0.--15. 1. "CMP,PWM Comparator Register\nPWM CMP is used to compare with PWM CNT to generate PWM output waveform interrupt events and trigger ADC to start convert"
group.long 0x158++0x03
line.long 0x00 "TIMER1_PWMDTCTL,Timer1 PWM Dead-Time Control Register"
bitfld.long 0x00 24. "DTCKSEL,Dead-time Clock Select (Write Protect)\nNote: This bit is write protected" "0: Dead-time clock source from TMRx_PWMCLK..,1: Dead-time clock source from TMRx_PWMCLK with.."
bitfld.long 0x00 16. "DTEN,Enable Dead-time Insertion for PWMx_CH0 and PWMx_CH1 (Write Protect)\nDead-time insertion function is only active when PWM complementary mode is enabled" "0: Dead-time insertion Disabled on the pin pair,1: Dead-time insertion Enabled on the pin pair"
newline
hexmask.long.word 0x00 0.--11. 1. "DTCNT,Dead-time Counter (Write Protect)\nThe dead-time can be calculated from the following two formulas: \nNote: This bit is write protected"
group.long 0x15C++0x03
line.long 0x00 "TIMER1_PWMCNT,Timer1 PWM Counter Register"
rbitfld.long 0x00 16. "DIRF,PWM Counter Direction Indicator Flag (Read Only)" "0: Counter is active in down count,1: Counter is active up count"
hexmask.long.word 0x00 0.--15. 1. "CNT,PWM Counter Value Register (Read Only)\nUser can monitor CNT to know the current counter value in 16-bit period counter"
group.long 0x160++0x03
line.long 0x00 "TIMER1_PWMMSKEN,Timer1 PWM Output Mask Enable Register"
bitfld.long 0x00 1. "MSKEN1,PWMx_CH1 Output Mask Enable Bit\nThe PWMx_CH1 output signal will be masked when this bit is enabled" "0: PWMx_CH1 output signal is non-masked,1: PWMx_CH1 output signal is masked and output.."
bitfld.long 0x00 0. "MSKEN0,PWMx_CH0 Output Mask Enable Bit\nThe PWMx_CH0 output signal will be masked when this bit is enabled" "0: PWMx_CH0 output signal is non-masked,1: PWMx_CH0 output signal is masked and output.."
group.long 0x164++0x03
line.long 0x00 "TIMER1_PWMMSK,Timer1 PWM Output Mask Data Control Register"
bitfld.long 0x00 1. "MSKDAT1,PWMx_CH1 Output Mask Data Control Bit" "0: Output logic Low to PWMx_CH1,1: Output logic High to PWMx_CH1"
bitfld.long 0x00 0. "MSKDAT0,PWMx_CH0 Output Mask Data Control Bit" "0: Output logic Low to PWMx_CH0,1: Output logic High to PWMx_CH0"
group.long 0x168++0x03
line.long 0x00 "TIMER1_PWMBNF,Timer1 PWM Brake Pin Noise Filter Register"
bitfld.long 0x00 16.--17. "BKPINSRC,Brake Pin Source Select" "0: Brake pin source comes from PWM0_BRAKE0 pin,1: Brake pin source comes from PWM0_BRAKE1 pin,2: Brake pin source comes from PWM1_BRAKE0 pin,3: Brake pin source comes from PWM1_BRAKE1 pin"
bitfld.long 0x00 7. "BRKPINV,Brake Pin Detection Control Bit" "0: Brake pin event will be detected if..,1: Brake pin event will be detected if.."
newline
bitfld.long 0x00 4.--6. "BRKFCNT,Brake Pin Noise Filter Count\nThe fields is used to control the active noise filter sample time" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1.--3. "BRKNFSEL,Brake Pin Noise Filter Clock Selection" "0: Noise filter clock is PCLKx,1: Noise filter clock is PCLKx/2,2: Noise filter clock is PCLKx/4,3: Noise filter clock is PCLKx/8,4: Noise filter clock is PCLKx/16,5: Noise filter clock is PCLKx/32,6: Noise filter clock is PCLKx/64,7: Noise filter clock is PCLKx/128"
newline
bitfld.long 0x00 0. "BRKNFEN,Brake Pin Noise Filter Enable Bit" "0: Pin noise filter detect of PWMx_BRAKEy Disabled,1: Pin noise filter detect of PWMx_BRAKEy Enabled"
group.long 0x16C++0x03
line.long 0x00 "TIMER1_PWMFAILBRK,Timer1 PWM System Fail Brake Control Register"
bitfld.long 0x00 3. "CORBRKEN,Core Lockup Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by core lockup event..,1: Brake Function triggered by core lockup event.."
bitfld.long 0x00 2. "RAMBRKEN,SRAM Parity Error Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by SRAM parity error..,1: Brake Function triggered by SRAM parity error.."
newline
bitfld.long 0x00 1. "BODBRKEN,Brown-out Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by BOD event Disabled,1: Brake Function triggered by BOD event Enabled"
bitfld.long 0x00 0. "CSSBRKEN,Clock Security System Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by clock fail..,1: Brake Function triggered by clock fail.."
group.long 0x170++0x03
line.long 0x00 "TIMER1_PWMBRKCTL,Timer1 PWM Brake Control Register"
bitfld.long 0x00 18.--19. "BRKAODD,PWM Brake Action Select for PWMx_CH1 (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy brake event will not affect..,1: PWMx_CH1 output tri-state when PWMx_BRAKEy..,2: PWMx_CH1 output low level when PWMx_BRAKEy..,3: PWMx_CH1 output high level when PWMx_BRAKEy.."
bitfld.long 0x00 16.--17. "BRKAEVEN,PWM Brake Action Select for PWMx_CH0 (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy brake event will not affect..,1: PWMx_CH0 output tri-state when PWMx_BRAKEy..,2: PWMx_CH0 output low level when PWMx_BRAKEy..,3: PWMx_CH0 output high level when PWMx_BRAKEy.."
newline
bitfld.long 0x00 15. "SYSLBEN,Enable System Fail As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System fail condition as level-detect brake..,1: System fail condition as level-detect brake.."
bitfld.long 0x00 12. "BRKPLEN,Enable TM_BRAKEx Pin As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy pin event as level-detect brake..,1: PWMx_BRAKEy pin event as level-detect brake.."
newline
bitfld.long 0x00 9. "CPO1LBEN,Enable Internal ACMP1_O Digital Output As Level-detect Brake Source (Write Protect)\n" "0: Internal ACMP1_O signal as level-detect brake..,1: Internal ACMP1_O signal as level-detect brake.."
bitfld.long 0x00 8. "CPO0LBEN,Enable Internal ACMP0_O Digital Output As Level-detect Brake Source (Write Protect)\n" "0: Internal ACMP0_O signal as level-detect brake..,1: Internal ACMP0_O signal as level-detect brake.."
newline
bitfld.long 0x00 7. "SYSEBEN,Enable System Fail As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System fail condition as edge-detect brake..,1: System fail condition as edge-detect brake.."
bitfld.long 0x00 4. "BRKPEEN,Enable TM_BRAKEx Pin As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy pin event as edge-detect brake..,1: PWMx_BRAKEy pin event as edge-detect brake.."
newline
bitfld.long 0x00 1. "CPO1EBEN,Enable Internal ACMP1_O Digital Output As Edge-detect Brake Source (Write Protect)\n" "0: Internal ACMP1_O signal as edge-detect brake..,1: Internal ACMP1_O signal as edge-detect brake.."
bitfld.long 0x00 0. "CPO0EBEN,Enable Internal ACMP0_O Digital Output As Edge-detect Brake Source (Write Protect)\n" "0: Internal ACMP0_O signal as edge-detect brake..,1: Internal ACMP0_O signal as edge-detect brake.."
group.long 0x174++0x03
line.long 0x00 "TIMER1_PWMPOLCTL,Timer1 PWM Pin Output Polar Control Register"
bitfld.long 0x00 1. "PINV1,PWMx_CH1 Output Pin Polar Control Bit\nThe bit is used to control polarity state of PWMx_CH1 output pin" "0: PWMx_CH1 output pin polar inverse Disabled,1: PWMx_CH1 output pin polar inverse Enabled"
bitfld.long 0x00 0. "PINV0,PWMx_CH0 Output Pin Polar Control Bit\nThe bit is used to control polarity state of PWMx_CH0 output pin" "0: PWMx_CH0 output pin polar inverse Disabled,1: PWMx_CH0 output pin polar inverse Enabled"
group.long 0x178++0x03
line.long 0x00 "TIMER1_PWMPOEN,Timer1 PWM Pin Output Enable Register"
bitfld.long 0x00 1. "POEN1,PWMx_CH1 Output Pin Enable Bit" "0: PWMx_CH1 pin at tri-state mode,1: PWMx_CH1 pin in output mode"
bitfld.long 0x00 0. "POEN0,PWMx_CH0 Output Pin Enable Bit" "0: PWMx_CH0 pin at tri-state mode,1: PWMx_CH0 pin in output mode"
group.long 0x17C++0x03
line.long 0x00 "TIMER1_PWMSWBRK,Timer1 PWM Software Trigger Brake Control Register"
bitfld.long 0x00 8. "BRKLTRG,Software Trigger Level-detect Brake Source (Write Only) (Write Protect)\nWrite 1 to this bit will trigger PWM level-detect brake source then BRKLIF0 and BRKLIF1 will be set to 1 automatically in TIMERx_PWMINTSTS1 register" "0,1"
bitfld.long 0x00 0. "BRKETRG,Software Trigger Edge-detect Brake Source (Write Only) (Write Protect)\nWrite 1 to this bit will trigger PWM edge-detect brake source then BRKEIF0 and BRKEIF1 will be set to 1 automatically in TIMERx_PWMINTSTS1 register" "0,1"
group.long 0x180++0x03
line.long 0x00 "TIMER1_PWMINTEN0,Timer1 PWM Interrupt Enable Register 0"
bitfld.long 0x00 3. "CMPDIEN,PWM Compare Down Count Interrupt Enable Bit" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
bitfld.long 0x00 2. "CMPUIEN,PWM Compare Up Count Interrupt Enable Bit" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
newline
bitfld.long 0x00 1. "PIEN,PWM Period Point Interrupt Enable Bit\nNote: In up-down count type period point means the center point of current PWM period" "0: Period point interrupt Disabled,1: Period point interrupt Enabled"
bitfld.long 0x00 0. "ZIEN,PWM Zero Point Interrupt Enable Bit" "0: Zero point interrupt Disabled,1: Zero point interrupt Enabled"
group.long 0x184++0x03
line.long 0x00 "TIMER1_PWMINTEN1,Timer1 PWM Interrupt Enable Register 1"
bitfld.long 0x00 8. "BRKLIEN,PWM Level-detect Brake Interrupt Enable Bit (Write Protect)\nNote: This bit is write protected" "0: PWM level-detect brake interrupt Disabled,1: PWM level-detect brake interrupt Enabled"
bitfld.long 0x00 0. "BRKEIEN,PWM Edge-detect Brake Interrupt Enable Bit (Write Protect)\nNote: This bit is write protected" "0: PWM edge-detect brake interrupt Disabled,1: PWM edge-detect brake interrupt Enabled"
group.long 0x188++0x03
line.long 0x00 "TIMER1_PWMINTSTS0,Timer1 PWM Interrupt Status Register 0"
bitfld.long 0x00 3. "CMPDIF,PWM Compare Down Count Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter in down count direction and reaches CMP.\n" "0,1"
bitfld.long 0x00 2. "CMPUIF,PWM Compare Up Count Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter in up count direction and reaches CMP.\n" "0,1"
newline
bitfld.long 0x00 1. "PIF,PWM Period Point Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter reaches PERIOD.\n" "0,1"
bitfld.long 0x00 0. "ZIF,PWM Zero Point Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter reaches 0.\nNote: This bit is cleared by writing 1 to it" "0,1"
group.long 0x18C++0x03
line.long 0x00 "TIMER1_PWMINTSTS1,Timer1 PWM Interrupt Status Register 1"
rbitfld.long 0x00 25. "BRKLSTS1,Level-detect Brake Status of PWMx_CH1 (Read Only)\nNote: If TIMERx_PWM level-detect brake source has released both PWMx_CH0 and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH0 and PWMx_CH1 output waveform.." "0: PWMx_CH1 level-detect brake state is released,1: PWMx_CH1 at level-detect brake state"
rbitfld.long 0x00 24. "BRKLSTS0,Level-detect Brake Status of PWMx_CH0 (Read Only)\nNote: If TIMERx_PWM level-detect brake source has released both PWMx_CH0 and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH0 and PWMx_CH1 output waveform.." "0: PWMx_CH0 level-detect brake state is released,1: PWMx_CH0 at level-detect brake state"
newline
rbitfld.long 0x00 17. "BRKESTS1,Edge-detect Brake Status of PWMx_CH1 (Read Only)\nNote: User can set BRKEIF1 1 to clear BRKEIF1 flag and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH1 output waveform start from next full PWM period" "0: PWMx_CH1 edge-detect brake state is released,1: PWMx_CH1 at edge-detect brake state"
rbitfld.long 0x00 16. "BRKESTS0,Edge -detect Brake Status of PWMx_CH0 (Read Only)\nNote: User can set BRKEIF0 1 to clear BRKEIF0 flag and PWMx_CH0 will release brake state when current PWM period finished and resume PWMx_CH0 output waveform start from next full PWM period" "0: PWMx_CH0 edge-detect brake state is released,1: PWMx_CH0 at edge-detect brake state"
newline
bitfld.long 0x00 9. "BRKLIF1,Level-detect Brake Interrupt Flag on PWMx_CH1 (Write Protect)\n" "0: PWMx_CH1 level-detect brake event do not..,1: PWMx_CH1 level-detect brake event happened"
bitfld.long 0x00 8. "BRKLIF0,Level-detect Brake Interrupt Flag on PWMx_CH0 (Write Protect)\n" "0: PWMx_CH0 level-detect brake event do not..,1: PWMx_CH0 level-detect brake event happened"
newline
bitfld.long 0x00 1. "BRKEIF1,Edge-detect Brake Interrupt Flag PWMx_CH1 (Write Protect)\n" "0: PWMx_CH1 edge-detect brake event do not..,1: PWMx_CH1 edge-detect brake event happened"
bitfld.long 0x00 0. "BRKEIF0,Edge-detect Brake Interrupt Flag on PWMx_CH0 (Write Protect)\n" "0: PWMx_CH0 edge-detect brake event do not..,1: PWMx_CH0 edge-detect brake event happened"
group.long 0x190++0x03
line.long 0x00 "TIMER1_PWMADCTS,Timer1 PWM ADC Trigger Source Select Register"
bitfld.long 0x00 7. "TRGEN,PWM Counter Event Trigger ADC Conversion Enable Bit" "0: PWM counter event trigger ADC conversion..,1: PWM counter event trigger ADC conversion.."
bitfld.long 0x00 0.--2. "TRGSEL,PWM Counter Event Source Select to Trigger EADC Conversion" "0: Trigger EADC conversion at zero point (ZIF),1: Trigger EADC conversion at period point (PIF),2: Trigger EADC conversion at zero or period..,3: Trigger EADC conversion at compare up count..,4: Trigger EADC conversion at compare down count..,?..."
group.long 0x194++0x03
line.long 0x00 "TIMER1_PWMSCTL,Timer1 PWM Synchronous Control Register"
bitfld.long 0x00 8. "SYNCSRC,PWM Synchronous Counter Start/Clear Source Select\n" "0: Counter synchronous start/clear by trigger..,1: Counter synchronous start/clear by trigger.."
bitfld.long 0x00 0.--1. "SYNCMODE,PWM Synchronous Mode Enable Select" "0: PWM synchronous function Disabled,1: PWM synchronous counter start function Enabled,2: Reserved,3: PWM synchronous counter clear function Enabled"
group.long 0x19C++0x03
line.long 0x00 "TIMER1_PWMSTATUS,Timer1 PWM Status Register"
bitfld.long 0x00 16. "EADCTRGF,Trigger EADC Start Conversion Flag\nNote: This bit is cleared by writing 1 to it" "0: PWM counter event trigger EADC start..,1: PWM counter event trigger EADC start.."
bitfld.long 0x00 0. "CNTMAXF,PWM Counter Equal to 0xFFFF Flag\nNote: This bit is cleared by writing 1 to it" "0: The PWM counter value never reached its..,1: The PWM counter value has reached its maximum.."
group.long 0x1A0++0x03
line.long 0x00 "TIMER1_PWMPBUF,Timer1 PWM Period Buffer Register"
hexmask.long.word 0x00 0.--15. 1. "PBUF,PWM Period Buffer Register (Read Only)\nUsed as PERIOD active register"
group.long 0x1A4++0x03
line.long 0x00 "TIMER1_PWMCMPBUF,Timer1 PWM Comparator Buffer Register"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,PWM Comparator Buffer Register (Read Only)\nUsed as CMP active register"
tree.end
tree "TMR23"
base ad:0x40051000
group.long 0x00++0x03
line.long 0x00 "TIMER2_CTL,Timer2 Control Register"
bitfld.long 0x00 31. "ICEDEBUG,ICE Debug Mode Acknowledge Disable Bit (Write Protect)\nTIMER counter will keep going no matter CPU is held by ICE or not.\nNote: This bit is write protected" "0: ICE debug mode acknowledgement effects TIMER..,1: ICE debug mode acknowledgement Disabled"
bitfld.long 0x00 30. "CNTEN,Timer Counting Enable Bit\n" "0: Stops/Suspends counting,1: Starts counting"
newline
bitfld.long 0x00 29. "INTEN,Timer Interrupt Enable Bit\nNote: If this bit is enabled when the timer time-out interrupt flag TIF is set to 1 the timer interrupt signal is generated and inform to CPU" "0: Timer time-out interrupt Disabled,1: Timer time-out interrupt Enabled"
bitfld.long 0x00 27.--28. "OPMODE,Timer Counting Mode Select" "0: The timer controller is operated in One-shot..,1: The timer controller is operated in Periodic..,2: The timer controller is operated in..,3: The timer controller is operated in.."
newline
rbitfld.long 0x00 25. "ACTSTS,Timer Active Status Bit (Read Only)\nThis bit indicates the 24-bit up counter status.\nNote: This bit may active when CNT 0 transition to CNT 1" "0: 24-bit up counter is not active,1: 24-bit up counter is active"
bitfld.long 0x00 24. "EXTCNTEN,Event Counter Mode Enable Bit \nThis bit is for external counting pin function enabled" "0: Event counter mode Disabled,1: Event counter mode Enabled"
newline
bitfld.long 0x00 23. "WKEN,Wake-up Function Enable Bit\nIf this bit is set to 1 while timer interrupt flag TIF (TIMERx_INTSTS[0]) is 1 and INTEN (TIMERx_CTL[29]) is enabled the timer interrupt signal will generate a wake-up trigger event to CPU" "0: Wake-up function Disabled if timer interrupt..,1: Wake-up function Enabled if timer interrupt.."
bitfld.long 0x00 22. "CAPSRC,Capture Pin Source Selection" "0: Capture Function source is from TMx_EXT (x=..,1: Capture Function source is from internal ACMP.."
newline
bitfld.long 0x00 21. "TGLPINSEL,Toggle-output Pin Select" "0: Toggle mode output to TMx (Timer Event..,1: Toggle mode output to TMx_EXT (Timer External.."
bitfld.long 0x00 20. "PERIOSEL,Periodic Mode Behavior Selection Enable Bit\nIf updated CMPDAT value CNT CNT will be reset to default value" "0: The behavior selection in periodic mode is..,1: The behavior selection in periodic mode is.."
newline
bitfld.long 0x00 19. "INTRGEN,Inter-timer Trigger Mode Enable Bit\nSetting this bit will enable the inter-timer trigger capture function.\nThe Timer0/2 will be in event counter mode and counting with external clock source or event.Also Timer1/3 will be in trigger-counting.." "0: Inter-Timer Trigger Capture mode Disabled,1: Inter-Timer Trigger Capture mode Enabled"
hexmask.long.byte 0x00 0.--7. 1. "PSC,Prescale Counter\nNote: Update prescale counter value will reset internal 8-bit prescale counter and 24-bit up counter value"
group.long 0x04++0x03
line.long 0x00 "TIMER2_CMP,Timer2 Comparator Register"
abitfld.long 0x00 0.--23. "CMPDAT,Timer Comparator Value\nCMPDAT is a 24-bit compared value register" "0x000001=1: Never write 0x0 or 0x1 in CMPDAT..,0x000002=2: When timer is operating at.."
group.long 0x08++0x03
line.long 0x00 "TIMER2_INTSTS,Timer2 Interrupt Status Register"
bitfld.long 0x00 1. "TWKF,Timer Wake-up Flag\nThis bit indicates the interrupt wake-up flag status of timer.\nNote: This bit is cleared by writing 1 to it" "0: Timer does not cause CPU wake-up,1: CPU wake-up from Idle or Power-down mode if.."
bitfld.long 0x00 0. "TIF,Timer Interrupt Flag\nThis bit indicates the interrupt flag status of Timer while 24-bit timer up counter CNT (TIMERx_CNT[23:0]) value reaches to CMPDAT (TIMERx_CMP[23:0]) value.\nNote: This bit is cleared by writing 1 to it" "0: No effect,1: CNT value matches the CMPDAT value"
group.long 0x0C++0x03
line.long 0x00 "TIMER2_CNT,Timer2 Data Register"
rbitfld.long 0x00 31. "RSTACT,Timer Data Register Reset Active (Read Only)\nThis bit indicates if the counter reset operation active.\nWhen user writes this CNT register timer starts to reset its internal 24-bit timer up-counter to 0 and reload 8-bit pre-scale counter" "0: Reset operation is done,1: Reset operation triggered by writing.."
hexmask.long.tbyte 0x00 0.--23. 1. "CNT,Timer Data Register\nRead operation.\nRead this register to get CNT value"
rgroup.long 0x10++0x03
line.long 0x00 "TIMER2_CAP,Timer2 Capture Data Register"
hexmask.long.tbyte 0x00 0.--23. 1. "CAPDAT,Timer Capture Data Register\nWhen CAPEN (TIMERx_EXTCTL[3]) bit is set CAPFUNCS (TIMERx_EXTCTL[4]) bit is 0 and a transition on TMx_EXT pin matched the CAPEDGE (TIMERx_EXTCTL[14:12]) setting CAPIF (TIMERx_EINTSTS[0]) will be set to 1 and the.."
group.long 0x14++0x03
line.long 0x00 "TIMER2_EXTCTL,Timer2 External Control Register"
bitfld.long 0x00 28.--31. "CAPDIVSCL,Timer Capture Source Divider\nThis bits indicate the divide scale for capture source divider \nNote: Sets INTERCAPSEL (TIMERx_EXTCTL[10:8]) and CAPSRC (TIMERx_CTL[22]) to select capture source" "0: Capture source/1,1: Capture source/2,2: Capture source/4,3: Capture source/8,4: Capture source/16,5: Capture source/32,6: Capture source/64,7: Capture source/128,8: Capture source/256,?..."
bitfld.long 0x00 16. "ECNTSSEL,Event Counter Source Selection to Trigger Event Counter Function" "0: Event Counter input source is from TMx (x=..,1: Event Counter input source is from USB.."
newline
bitfld.long 0x00 12.--14. "CAPEDGE,Timer External Capture Pin Edge Detect\nWhen first capture event is generated the CNT (TIMERx_CNT[23:0]) will be reset to 0 and first CAPDAT (TIMERx_CAP[23:0]) should be to 0" "0: Capture event occurred when detect falling..,1: Capture event occurred when detect rising..,2: Capture event occurred when detect both..,3: Capture event occurred when detect both..,?,?,6: First capture event occurred at falling edge..,7: First capture event occurred at rising edge.."
bitfld.long 0x00 8.--10. "ICAPSEL,Internal Capture Source Select\nNote:These bits only available when CAPSRC (TIMERx_CTL[22]) is 1" "0: Capture Function source is from internal..,1: Capture Function source is from internal..,2: Capture Function source is from HXT,3: Capture Function source is from LXT,4: Capture Function source is from HIRC,5: Capture Function source is from LIRC,6: Reserved,7: Reserved"
newline
bitfld.long 0x00 7. "CNTDBEN,Timer Counter Pin De-bounce Enable Bit\nNote: If this bit is enabled the edge detection of TMx pin is detected with de-bounce circuit" "0: TMx (x= 0~3) pin de-bounce Disabled,1: TMx (x= 0~3) pin de-bounce Enabled"
bitfld.long 0x00 6. "CAPDBEN,Timer External Capture Pin De-bounce Enable Bit\nNote: If this bit is enabled the edge detection of TMx_EXT pin or ACMP output is detected with de-bounce circuit" "0: TMx_EXT (x= 0~3) pin de-bounce or ACMP output..,1: TMx_EXT (x= 0~3) pin de-bounce or ACMP output.."
newline
bitfld.long 0x00 5. "CAPIEN,Timer External Capture Interrupt Enable Bit" "0: TMx_EXT (x= 0~3) pin detection Interrupt..,1: TMx_EXT (x= 0~3) pin detection Interrupt.."
bitfld.long 0x00 4. "CAPFUNCS,Capture Function Selection" "0: External Capture Mode Enabled,1: External Reset Mode Enabled"
newline
bitfld.long 0x00 3. "CAPEN,Timer External Capture Pin Enable Bit\nThis bit enables the TMx_EXT capture pin input function" "0: TMx_EXT (x= 0~3) pin Disabled,1: TMx_EXT (x= 0~3) pin Enabled"
bitfld.long 0x00 0. "CNTPHASE,Timer External Count Phase" "0: A falling edge of external counting pin will..,1: A rising edge of external counting pin will.."
group.long 0x18++0x03
line.long 0x00 "TIMER2_EINTSTS,Timer2 External Interrupt Status Register"
bitfld.long 0x00 0. "CAPIF,Timer External Capture Interrupt Flag\nThis bit indicates the timer external capture interrupt flag status.\n" "0: TMx_EXT (x= 0~3) pin interrupt did not occur,1: TMx_EXT (x= 0~3) pin interrupt occurred"
group.long 0x1C++0x03
line.long 0x00 "TIMER2_TRGCTL,Timer2 Trigger Control Register"
bitfld.long 0x00 4. "TRGPDMA,Trigger PDMA Enable Bit\nIf this bit is set to 1 each timer time-out event or capture event can be triggered PDMA transfer" "0: Timer interrupt trigger PDMA Disabled,1: Timer interrupt trigger PDMA Enabled"
bitfld.long 0x00 3. "TRGDAC,Trigger DAC Enable Bit\nIf this bit is set to 1 timer time-out interrupt or capture interrupt can be triggered DAC" "0: Timer interrupt trigger DAC Disabled,1: Timer interrupt trigger DAC Enabled"
newline
bitfld.long 0x00 2. "TRGEADC,Trigger EADC Enable Bit\nIf this bit is set to 1 each timer time-out event or capture event can be triggered EADC conversion" "0: Timer interrupt trigger EADC Disabled,1: Timer interrupt trigger EADC Enabled"
bitfld.long 0x00 1. "TRGPWM,Trigger EPWM and BPWM Enable Bit\nIf this bit is set to 1 each timer time-out event or capture event can be as EPWM and BPWM counter clock source" "0: Timer interrupt trigger EPWM and BPWM Disabled,1: Timer interrupt trigger EPWM and BPWM Enabled"
newline
bitfld.long 0x00 0. "TRGSSEL,Trigger Source Select Bit\nThis bit is used to select internal trigger source is form timer time-out interrupt signal or capture interrupt signal" "0: Time-out interrupt signal is used to internal..,1: Capture interrupt signal is used to internal.."
group.long 0x20++0x03
line.long 0x00 "TIMER2_ALTCTL,Timer2 Alternative Control Register"
bitfld.long 0x00 0. "FUNCSEL,Function Selection\nNote: When the timer is used as PWM the clock source of time controller will be forced to PCLKx automatically" "0: Timer controller is used as timer function,1: Timer controller is used as PWM function"
group.long 0x40++0x03
line.long 0x00 "TIMER2_PWMCTL,Timer2 PWM Control Register"
bitfld.long 0x00 31. "DBGTRIOFF,ICE Debug Mode Acknowledge Disable Bit (Write Protect)\nPWM output pin will keep output no matter ICE debug mode acknowledged or not.\nNote: This bit is write protected" "0: ICE debug mode acknowledgement effects PWM..,1: ICE debug mode acknowledgement disabled"
bitfld.long 0x00 30. "DBGHALT,ICE Debug Mode Counter Halt (Write Protect)\nIf debug mode counter halt is enabled PWM counter will keep current value until exit ICE debug mode" "0: ICE debug mode counter halt disable,1: ICE debug mode counter halt enable"
newline
bitfld.long 0x00 16. "OUTMODE,PWM Output Mode\nThis bit controls the output mode of corresponding PWM channel" "0: PWM independent mode,1: PWM complementary mode"
bitfld.long 0x00 9. "IMMLDEN,Immediately Load Enable Bit\nNote: If IMMLDEN is enabled CTRLD will be invalid" "0: PERIOD will load to PBUF when current PWM..,1: PERIOD/CMP will load to PBUF/CMPBUF.."
newline
bitfld.long 0x00 8. "CTRLD,Center Re-load\nIn up-down count type PERIOD will load to PBUF when current PWM period is completed always and CMP will load to CMPBUF at the center point of current period" "0,1"
bitfld.long 0x00 3. "CNTMODE,PWM Counter Mode" "0: Auto-reload mode,1: One-shot mode"
newline
bitfld.long 0x00 1.--2. "CNTTYPE,PWM Counter Behavior Type" "0: Up count type,1: Down count type,2: Up-down count type,3: Reserved"
bitfld.long 0x00 0. "CNTEN,PWM Counter Enable Bit" "0: PWM counter and clock prescale Stop Running,1: PWM counter and clock prescale Start Running"
group.long 0x44++0x03
line.long 0x00 "TIMER2_PWMCLKSRC,Timer2 PWM Counter Clock Source Register"
bitfld.long 0x00 0.--2. "CLKSRC,PWM Counter Clock Source Select\nThe PWM counter clock source can be selected from TMRx_CLK or internal timer time-out or capture event.\nNote: If TIMER0 PWM function is enabled the PWM counter clock source can be selected from TMR0_CLK TIMER1.." "0: TMRx_CLK,1: Internal TIMER0 time-out or capture event,2: Internal TIMER1 time-out or capture event,3: Internal TIMER2 time-out or capture event,4: Internal TIMER3 time-out or capture event,?..."
group.long 0x48++0x03
line.long 0x00 "TIMER2_PWMCLKPSC,Timer2 PWM Counter Clock Pre-scale Register"
hexmask.long.word 0x00 0.--11. 1. "CLKPSC,PWM Counter Clock Pre-scale \nThe active clock of PWM counter is decided by counter clock prescale and divided by (CLKPSC + 1)"
group.long 0x4C++0x03
line.long 0x00 "TIMER2_PWMCNTCLR,Timer2 PWM Clear Counter Register"
bitfld.long 0x00 0. "CNTCLR,Clear PWM Counter Control Bit\nIt is automatically cleared by hardware" "0: No effect,1: Clear 16-bit PWM counter to 0x10000 in up and.."
group.long 0x50++0x03
line.long 0x00 "TIMER2_PWMPERIOD,Timer2 PWM Period Register"
hexmask.long.word 0x00 0.--15. 1. "PERIOD,PWM Period Register\nIn up count type: PWM counter counts from 0 to PERIOD and restarts from 0.\nIn down count type: PWM counter counts from PERIOD to 0 and restarts from PERIOD.\nIn up-down count type: PWM counter counts from 0 to PERIOD then.."
group.long 0x54++0x03
line.long 0x00 "TIMER2_PWMCMPDAT,Timer2 PWM Comparator Register"
hexmask.long.word 0x00 0.--15. 1. "CMP,PWM Comparator Register\nPWM CMP is used to compare with PWM CNT to generate PWM output waveform interrupt events and trigger ADC to start convert"
group.long 0x58++0x03
line.long 0x00 "TIMER2_PWMDTCTL,Timer2 PWM Dead-Time Control Register"
bitfld.long 0x00 24. "DTCKSEL,Dead-time Clock Select (Write Protect)\nNote: This bit is write protected" "0: Dead-time clock source from TMRx_PWMCLK..,1: Dead-time clock source from TMRx_PWMCLK with.."
bitfld.long 0x00 16. "DTEN,Enable Dead-time Insertion for PWMx_CH0 and PWMx_CH1 (Write Protect)\nDead-time insertion function is only active when PWM complementary mode is enabled" "0: Dead-time insertion Disabled on the pin pair,1: Dead-time insertion Enabled on the pin pair"
newline
hexmask.long.word 0x00 0.--11. 1. "DTCNT,Dead-time Counter (Write Protect)\nThe dead-time can be calculated from the following two formulas: \nNote: This bit is write protected"
rgroup.long 0x5C++0x03
line.long 0x00 "TIMER2_PWMCNT,Timer2 PWM Counter Register"
bitfld.long 0x00 16. "DIRF,PWM Counter Direction Indicator Flag (Read Only)" "0: Counter is active in down count,1: Counter is active up count"
hexmask.long.word 0x00 0.--15. 1. "CNT,PWM Counter Value Register (Read Only)\nUser can monitor CNT to know the current counter value in 16-bit period counter"
group.long 0x60++0x03
line.long 0x00 "TIMER2_PWMMSKEN,Timer2 PWM Output Mask Enable Register"
bitfld.long 0x00 1. "MSKEN1,PWMx_CH1 Output Mask Enable Bit\nThe PWMx_CH1 output signal will be masked when this bit is enabled" "0: PWMx_CH1 output signal is non-masked,1: PWMx_CH1 output signal is masked and output.."
bitfld.long 0x00 0. "MSKEN0,PWMx_CH0 Output Mask Enable Bit\nThe PWMx_CH0 output signal will be masked when this bit is enabled" "0: PWMx_CH0 output signal is non-masked,1: PWMx_CH0 output signal is masked and output.."
group.long 0x64++0x03
line.long 0x00 "TIMER2_PWMMSK,Timer2 PWM Output Mask Data Control Register"
bitfld.long 0x00 1. "MSKDAT1,PWMx_CH1 Output Mask Data Control Bit" "0: Output logic Low to PWMx_CH1,1: Output logic High to PWMx_CH1"
bitfld.long 0x00 0. "MSKDAT0,PWMx_CH0 Output Mask Data Control Bit" "0: Output logic Low to PWMx_CH0,1: Output logic High to PWMx_CH0"
group.long 0x68++0x03
line.long 0x00 "TIMER2_PWMBNF,Timer2 PWM Brake Pin Noise Filter Register"
bitfld.long 0x00 16.--17. "BKPINSRC,Brake Pin Source Select" "0: Brake pin source comes from PWM0_BRAKE0 pin,1: Brake pin source comes from PWM0_BRAKE1 pin,2: Brake pin source comes from PWM1_BRAKE0 pin,3: Brake pin source comes from PWM1_BRAKE1 pin"
bitfld.long 0x00 7. "BRKPINV,Brake Pin Detection Control Bit" "0: Brake pin event will be detected if..,1: Brake pin event will be detected if.."
newline
bitfld.long 0x00 4.--6. "BRKFCNT,Brake Pin Noise Filter Count\nThe fields is used to control the active noise filter sample time" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1.--3. "BRKNFSEL,Brake Pin Noise Filter Clock Selection" "0: Noise filter clock is PCLKx,1: Noise filter clock is PCLKx/2,2: Noise filter clock is PCLKx/4,3: Noise filter clock is PCLKx/8,4: Noise filter clock is PCLKx/16,5: Noise filter clock is PCLKx/32,6: Noise filter clock is PCLKx/64,7: Noise filter clock is PCLKx/128"
newline
bitfld.long 0x00 0. "BRKNFEN,Brake Pin Noise Filter Enable Bit" "0: Pin noise filter detect of PWMx_BRAKEy Disabled,1: Pin noise filter detect of PWMx_BRAKEy Enabled"
group.long 0x6C++0x03
line.long 0x00 "TIMER2_PWMFAILBRK,Timer2 PWM System Fail Brake Control Register"
bitfld.long 0x00 3. "CORBRKEN,Core Lockup Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by core lockup event..,1: Brake Function triggered by core lockup event.."
bitfld.long 0x00 2. "RAMBRKEN,SRAM Parity Error Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by SRAM parity error..,1: Brake Function triggered by SRAM parity error.."
newline
bitfld.long 0x00 1. "BODBRKEN,Brown-out Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by BOD event Disabled,1: Brake Function triggered by BOD event Enabled"
bitfld.long 0x00 0. "CSSBRKEN,Clock Security System Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by clock fail..,1: Brake Function triggered by clock fail.."
group.long 0x70++0x03
line.long 0x00 "TIMER2_PWMBRKCTL,Timer2 PWM Brake Control Register"
bitfld.long 0x00 18.--19. "BRKAODD,PWM Brake Action Select for PWMx_CH1 (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy brake event will not affect..,1: PWMx_CH1 output tri-state when PWMx_BRAKEy..,2: PWMx_CH1 output low level when PWMx_BRAKEy..,3: PWMx_CH1 output high level when PWMx_BRAKEy.."
bitfld.long 0x00 16.--17. "BRKAEVEN,PWM Brake Action Select for PWMx_CH0 (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy brake event will not affect..,1: PWMx_CH0 output tri-state when PWMx_BRAKEy..,2: PWMx_CH0 output low level when PWMx_BRAKEy..,3: PWMx_CH0 output high level when PWMx_BRAKEy.."
newline
bitfld.long 0x00 15. "SYSLBEN,Enable System Fail As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System fail condition as level-detect brake..,1: System fail condition as level-detect brake.."
bitfld.long 0x00 12. "BRKPLEN,Enable TM_BRAKEx Pin As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy pin event as level-detect brake..,1: PWMx_BRAKEy pin event as level-detect brake.."
newline
bitfld.long 0x00 9. "CPO1LBEN,Enable Internal ACMP1_O Digital Output As Level-detect Brake Source (Write Protect)\n" "0: Internal ACMP1_O signal as level-detect brake..,1: Internal ACMP1_O signal as level-detect brake.."
bitfld.long 0x00 8. "CPO0LBEN,Enable Internal ACMP0_O Digital Output As Level-detect Brake Source (Write Protect)\n" "0: Internal ACMP0_O signal as level-detect brake..,1: Internal ACMP0_O signal as level-detect brake.."
newline
bitfld.long 0x00 7. "SYSEBEN,Enable System Fail As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System fail condition as edge-detect brake..,1: System fail condition as edge-detect brake.."
bitfld.long 0x00 4. "BRKPEEN,Enable TM_BRAKEx Pin As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy pin event as edge-detect brake..,1: PWMx_BRAKEy pin event as edge-detect brake.."
newline
bitfld.long 0x00 1. "CPO1EBEN,Enable Internal ACMP1_O Digital Output As Edge-detect Brake Source (Write Protect)\n" "0: Internal ACMP1_O signal as edge-detect brake..,1: Internal ACMP1_O signal as edge-detect brake.."
bitfld.long 0x00 0. "CPO0EBEN,Enable Internal ACMP0_O Digital Output As Edge-detect Brake Source (Write Protect)\n" "0: Internal ACMP0_O signal as edge-detect brake..,1: Internal ACMP0_O signal as edge-detect brake.."
group.long 0x74++0x03
line.long 0x00 "TIMER2_PWMPOLCTL,Timer2 PWM Pin Output Polar Control Register"
bitfld.long 0x00 1. "PINV1,PWMx_CH1 Output Pin Polar Control Bit\nThe bit is used to control polarity state of PWMx_CH1 output pin" "0: PWMx_CH1 output pin polar inverse Disabled,1: PWMx_CH1 output pin polar inverse Enabled"
bitfld.long 0x00 0. "PINV0,PWMx_CH0 Output Pin Polar Control Bit\nThe bit is used to control polarity state of PWMx_CH0 output pin" "0: PWMx_CH0 output pin polar inverse Disabled,1: PWMx_CH0 output pin polar inverse Enabled"
group.long 0x78++0x03
line.long 0x00 "TIMER2_PWMPOEN,Timer2 PWM Pin Output Enable Register"
bitfld.long 0x00 1. "POEN1,PWMx_CH1 Output Pin Enable Bit" "0: PWMx_CH1 pin at tri-state mode,1: PWMx_CH1 pin in output mode"
bitfld.long 0x00 0. "POEN0,PWMx_CH0 Output Pin Enable Bit" "0: PWMx_CH0 pin at tri-state mode,1: PWMx_CH0 pin in output mode"
wgroup.long 0x7C++0x03
line.long 0x00 "TIMER2_PWMSWBRK,Timer2 PWM Software Trigger Brake Control Register"
bitfld.long 0x00 8. "BRKLTRG,Software Trigger Level-detect Brake Source (Write Only) (Write Protect)\nWrite 1 to this bit will trigger PWM level-detect brake source then BRKLIF0 and BRKLIF1 will be set to 1 automatically in TIMERx_PWMINTSTS1 register" "0,1"
bitfld.long 0x00 0. "BRKETRG,Software Trigger Edge-detect Brake Source (Write Only) (Write Protect)\nWrite 1 to this bit will trigger PWM edge-detect brake source then BRKEIF0 and BRKEIF1 will be set to 1 automatically in TIMERx_PWMINTSTS1 register" "0,1"
group.long 0x80++0x03
line.long 0x00 "TIMER2_PWMINTEN0,Timer2 PWM Interrupt Enable Register 0"
bitfld.long 0x00 3. "CMPDIEN,PWM Compare Down Count Interrupt Enable Bit" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
bitfld.long 0x00 2. "CMPUIEN,PWM Compare Up Count Interrupt Enable Bit" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
newline
bitfld.long 0x00 1. "PIEN,PWM Period Point Interrupt Enable Bit\nNote: In up-down count type period point means the center point of current PWM period" "0: Period point interrupt Disabled,1: Period point interrupt Enabled"
bitfld.long 0x00 0. "ZIEN,PWM Zero Point Interrupt Enable Bit" "0: Zero point interrupt Disabled,1: Zero point interrupt Enabled"
group.long 0x84++0x03
line.long 0x00 "TIMER2_PWMINTEN1,Timer2 PWM Interrupt Enable Register 1"
bitfld.long 0x00 8. "BRKLIEN,PWM Level-detect Brake Interrupt Enable Bit (Write Protect)\nNote: This bit is write protected" "0: PWM level-detect brake interrupt Disabled,1: PWM level-detect brake interrupt Enabled"
bitfld.long 0x00 0. "BRKEIEN,PWM Edge-detect Brake Interrupt Enable Bit (Write Protect)\nNote: This bit is write protected" "0: PWM edge-detect brake interrupt Disabled,1: PWM edge-detect brake interrupt Enabled"
group.long 0x88++0x03
line.long 0x00 "TIMER2_PWMINTSTS0,Timer2 PWM Interrupt Status Register 0"
bitfld.long 0x00 3. "CMPDIF,PWM Compare Down Count Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter in down count direction and reaches CMP.\n" "0,1"
bitfld.long 0x00 2. "CMPUIF,PWM Compare Up Count Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter in up count direction and reaches CMP.\n" "0,1"
newline
bitfld.long 0x00 1. "PIF,PWM Period Point Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter reaches PERIOD.\n" "0,1"
bitfld.long 0x00 0. "ZIF,PWM Zero Point Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter reaches 0.\nNote: This bit is cleared by writing 1 to it" "0,1"
group.long 0x8C++0x03
line.long 0x00 "TIMER2_PWMINTSTS1,Timer2 PWM Interrupt Status Register 1"
rbitfld.long 0x00 25. "BRKLSTS1,Level-detect Brake Status of PWMx_CH1 (Read Only)\nNote: If TIMERx_PWM level-detect brake source has released both PWMx_CH0 and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH0 and PWMx_CH1 output waveform.." "0: PWMx_CH1 level-detect brake state is released,1: PWMx_CH1 at level-detect brake state"
rbitfld.long 0x00 24. "BRKLSTS0,Level-detect Brake Status of PWMx_CH0 (Read Only)\nNote: If TIMERx_PWM level-detect brake source has released both PWMx_CH0 and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH0 and PWMx_CH1 output waveform.." "0: PWMx_CH0 level-detect brake state is released,1: PWMx_CH0 at level-detect brake state"
newline
rbitfld.long 0x00 17. "BRKESTS1,Edge-detect Brake Status of PWMx_CH1 (Read Only)\nNote: User can set BRKEIF1 1 to clear BRKEIF1 flag and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH1 output waveform start from next full PWM period" "0: PWMx_CH1 edge-detect brake state is released,1: PWMx_CH1 at edge-detect brake state"
rbitfld.long 0x00 16. "BRKESTS0,Edge -detect Brake Status of PWMx_CH0 (Read Only)\nNote: User can set BRKEIF0 1 to clear BRKEIF0 flag and PWMx_CH0 will release brake state when current PWM period finished and resume PWMx_CH0 output waveform start from next full PWM period" "0: PWMx_CH0 edge-detect brake state is released,1: PWMx_CH0 at edge-detect brake state"
newline
bitfld.long 0x00 9. "BRKLIF1,Level-detect Brake Interrupt Flag on PWMx_CH1 (Write Protect)\n" "0: PWMx_CH1 level-detect brake event do not..,1: PWMx_CH1 level-detect brake event happened"
bitfld.long 0x00 8. "BRKLIF0,Level-detect Brake Interrupt Flag on PWMx_CH0 (Write Protect)\n" "0: PWMx_CH0 level-detect brake event do not..,1: PWMx_CH0 level-detect brake event happened"
newline
bitfld.long 0x00 1. "BRKEIF1,Edge-detect Brake Interrupt Flag PWMx_CH1 (Write Protect)\n" "0: PWMx_CH1 edge-detect brake event do not..,1: PWMx_CH1 edge-detect brake event happened"
bitfld.long 0x00 0. "BRKEIF0,Edge-detect Brake Interrupt Flag on PWMx_CH0 (Write Protect)\n" "0: PWMx_CH0 edge-detect brake event do not..,1: PWMx_CH0 edge-detect brake event happened"
group.long 0x90++0x03
line.long 0x00 "TIMER2_PWMADCTS,Timer2 PWM ADC Trigger Source Select Register"
bitfld.long 0x00 7. "TRGEN,PWM Counter Event Trigger ADC Conversion Enable Bit" "0: PWM counter event trigger ADC conversion..,1: PWM counter event trigger ADC conversion.."
bitfld.long 0x00 0.--2. "TRGSEL,PWM Counter Event Source Select to Trigger EADC Conversion" "0: Trigger EADC conversion at zero point (ZIF),1: Trigger EADC conversion at period point (PIF),2: Trigger EADC conversion at zero or period..,3: Trigger EADC conversion at compare up count..,4: Trigger EADC conversion at compare down count..,?..."
group.long 0x94++0x03
line.long 0x00 "TIMER2_PWMSCTL,Timer2 PWM Synchronous Control Register"
bitfld.long 0x00 8. "SYNCSRC,PWM Synchronous Counter Start/Clear Source Select\n" "0: Counter synchronous start/clear by trigger..,1: Counter synchronous start/clear by trigger.."
bitfld.long 0x00 0.--1. "SYNCMODE,PWM Synchronous Mode Enable Select" "0: PWM synchronous function Disabled,1: PWM synchronous counter start function Enabled,2: Reserved,3: PWM synchronous counter clear function Enabled"
wgroup.long 0x98++0x03
line.long 0x00 "TIMER2_PWMSTRG,Timer2 PWM Synchronous Trigger Register"
bitfld.long 0x00 0. "STRGEN,PWM Counter Synchronous Trigger Enable Bit (Write Only)\nPMW counter synchronous function is used to make selected PWM channels (include TIMER0/1/2/3 PWM TIMER0/1 PWM and TIMER2/3 PWM) start counting or clear counter at the same time according to.." "0,1"
group.long 0x9C++0x03
line.long 0x00 "TIMER2_PWMSTATUS,Timer2 PWM Status Register"
bitfld.long 0x00 16. "EADCTRGF,Trigger EADC Start Conversion Flag\nNote: This bit is cleared by writing 1 to it" "0: PWM counter event trigger EADC start..,1: PWM counter event trigger EADC start.."
bitfld.long 0x00 0. "CNTMAXF,PWM Counter Equal to 0xFFFF Flag\nNote: This bit is cleared by writing 1 to it" "0: The PWM counter value never reached its..,1: The PWM counter value has reached its maximum.."
rgroup.long 0xA0++0x03
line.long 0x00 "TIMER2_PWMPBUF,Timer2 PWM Period Buffer Register"
hexmask.long.word 0x00 0.--15. 1. "PBUF,PWM Period Buffer Register (Read Only)\nUsed as PERIOD active register"
rgroup.long 0xA4++0x03
line.long 0x00 "TIMER2_PWMCMPBUF,Timer2 PWM Comparator Buffer Register"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,PWM Comparator Buffer Register (Read Only)\nUsed as CMP active register"
group.long 0x100++0x03
line.long 0x00 "TIMER3_CTL,Timer3 Control Register"
bitfld.long 0x00 31. "ICEDEBUG,ICE Debug Mode Acknowledge Disable Bit (Write Protect)\nTIMER counter will keep going no matter CPU is held by ICE or not.\nNote: This bit is write protected" "0: ICE debug mode acknowledgement effects TIMER..,1: ICE debug mode acknowledgement Disabled"
bitfld.long 0x00 30. "CNTEN,Timer Counting Enable Bit\n" "0: Stops/Suspends counting,1: Starts counting"
newline
bitfld.long 0x00 29. "INTEN,Timer Interrupt Enable Bit\nNote: If this bit is enabled when the timer time-out interrupt flag TIF is set to 1 the timer interrupt signal is generated and inform to CPU" "0: Timer time-out interrupt Disabled,1: Timer time-out interrupt Enabled"
bitfld.long 0x00 27.--28. "OPMODE,Timer Counting Mode Select" "0: The timer controller is operated in One-shot..,1: The timer controller is operated in Periodic..,2: The timer controller is operated in..,3: The timer controller is operated in.."
newline
rbitfld.long 0x00 25. "ACTSTS,Timer Active Status Bit (Read Only)\nThis bit indicates the 24-bit up counter status.\nNote: This bit may active when CNT 0 transition to CNT 1" "0: 24-bit up counter is not active,1: 24-bit up counter is active"
bitfld.long 0x00 24. "EXTCNTEN,Event Counter Mode Enable Bit \nThis bit is for external counting pin function enabled" "0: Event counter mode Disabled,1: Event counter mode Enabled"
newline
bitfld.long 0x00 23. "WKEN,Wake-up Function Enable Bit\nIf this bit is set to 1 while timer interrupt flag TIF (TIMERx_INTSTS[0]) is 1 and INTEN (TIMERx_CTL[29]) is enabled the timer interrupt signal will generate a wake-up trigger event to CPU" "0: Wake-up function Disabled if timer interrupt..,1: Wake-up function Enabled if timer interrupt.."
bitfld.long 0x00 22. "CAPSRC,Capture Pin Source Selection" "0: Capture Function source is from TMx_EXT (x=..,1: Capture Function source is from internal ACMP.."
newline
bitfld.long 0x00 21. "TGLPINSEL,Toggle-output Pin Select" "0: Toggle mode output to TMx (Timer Event..,1: Toggle mode output to TMx_EXT (Timer External.."
bitfld.long 0x00 20. "PERIOSEL,Periodic Mode Behavior Selection Enable Bit\nIf updated CMPDAT value CNT CNT will be reset to default value" "0: The behavior selection in periodic mode is..,1: The behavior selection in periodic mode is.."
newline
bitfld.long 0x00 19. "INTRGEN,Inter-timer Trigger Mode Enable Bit\nSetting this bit will enable the inter-timer trigger capture function.\nThe Timer0/2 will be in event counter mode and counting with external clock source or event.Also Timer1/3 will be in trigger-counting.." "0: Inter-Timer Trigger Capture mode Disabled,1: Inter-Timer Trigger Capture mode Enabled"
hexmask.long.byte 0x00 0.--7. 1. "PSC,Prescale Counter\nNote: Update prescale counter value will reset internal 8-bit prescale counter and 24-bit up counter value"
group.long 0x104++0x03
line.long 0x00 "TIMER3_CMP,Timer3 Comparator Register"
abitfld.long 0x00 0.--23. "CMPDAT,Timer Comparator Value\nCMPDAT is a 24-bit compared value register" "0x000001=1: Never write 0x0 or 0x1 in CMPDAT..,0x000002=2: When timer is operating at.."
group.long 0x108++0x03
line.long 0x00 "TIMER3_INTSTS,Timer3 Interrupt Status Register"
bitfld.long 0x00 1. "TWKF,Timer Wake-up Flag\nThis bit indicates the interrupt wake-up flag status of timer.\nNote: This bit is cleared by writing 1 to it" "0: Timer does not cause CPU wake-up,1: CPU wake-up from Idle or Power-down mode if.."
bitfld.long 0x00 0. "TIF,Timer Interrupt Flag\nThis bit indicates the interrupt flag status of Timer while 24-bit timer up counter CNT (TIMERx_CNT[23:0]) value reaches to CMPDAT (TIMERx_CMP[23:0]) value.\nNote: This bit is cleared by writing 1 to it" "0: No effect,1: CNT value matches the CMPDAT value"
group.long 0x10C++0x03
line.long 0x00 "TIMER3_CNT,Timer3 Data Register"
rbitfld.long 0x00 31. "RSTACT,Timer Data Register Reset Active (Read Only)\nThis bit indicates if the counter reset operation active.\nWhen user writes this CNT register timer starts to reset its internal 24-bit timer up-counter to 0 and reload 8-bit pre-scale counter" "0: Reset operation is done,1: Reset operation triggered by writing.."
hexmask.long.tbyte 0x00 0.--23. 1. "CNT,Timer Data Register\nRead operation.\nRead this register to get CNT value"
group.long 0x110++0x03
line.long 0x00 "TIMER3_CAP,Timer3 Capture Data Register"
hexmask.long.tbyte 0x00 0.--23. 1. "CAPDAT,Timer Capture Data Register\nWhen CAPEN (TIMERx_EXTCTL[3]) bit is set CAPFUNCS (TIMERx_EXTCTL[4]) bit is 0 and a transition on TMx_EXT pin matched the CAPEDGE (TIMERx_EXTCTL[14:12]) setting CAPIF (TIMERx_EINTSTS[0]) will be set to 1 and the.."
group.long 0x114++0x03
line.long 0x00 "TIMER3_EXTCTL,Timer3 External Control Register"
bitfld.long 0x00 28.--31. "CAPDIVSCL,Timer Capture Source Divider\nThis bits indicate the divide scale for capture source divider \nNote: Sets INTERCAPSEL (TIMERx_EXTCTL[10:8]) and CAPSRC (TIMERx_CTL[22]) to select capture source" "0: Capture source/1,1: Capture source/2,2: Capture source/4,3: Capture source/8,4: Capture source/16,5: Capture source/32,6: Capture source/64,7: Capture source/128,8: Capture source/256,?..."
bitfld.long 0x00 16. "ECNTSSEL,Event Counter Source Selection to Trigger Event Counter Function" "0: Event Counter input source is from TMx (x=..,1: Event Counter input source is from USB.."
newline
bitfld.long 0x00 12.--14. "CAPEDGE,Timer External Capture Pin Edge Detect\nWhen first capture event is generated the CNT (TIMERx_CNT[23:0]) will be reset to 0 and first CAPDAT (TIMERx_CAP[23:0]) should be to 0" "0: Capture event occurred when detect falling..,1: Capture event occurred when detect rising..,2: Capture event occurred when detect both..,3: Capture event occurred when detect both..,?,?,6: First capture event occurred at falling edge..,7: First capture event occurred at rising edge.."
bitfld.long 0x00 8.--10. "ICAPSEL,Internal Capture Source Select\nNote:These bits only available when CAPSRC (TIMERx_CTL[22]) is 1" "0: Capture Function source is from internal..,1: Capture Function source is from internal..,2: Capture Function source is from HXT,3: Capture Function source is from LXT,4: Capture Function source is from HIRC,5: Capture Function source is from LIRC,6: Reserved,7: Reserved"
newline
bitfld.long 0x00 7. "CNTDBEN,Timer Counter Pin De-bounce Enable Bit\nNote: If this bit is enabled the edge detection of TMx pin is detected with de-bounce circuit" "0: TMx (x= 0~3) pin de-bounce Disabled,1: TMx (x= 0~3) pin de-bounce Enabled"
bitfld.long 0x00 6. "CAPDBEN,Timer External Capture Pin De-bounce Enable Bit\nNote: If this bit is enabled the edge detection of TMx_EXT pin or ACMP output is detected with de-bounce circuit" "0: TMx_EXT (x= 0~3) pin de-bounce or ACMP output..,1: TMx_EXT (x= 0~3) pin de-bounce or ACMP output.."
newline
bitfld.long 0x00 5. "CAPIEN,Timer External Capture Interrupt Enable Bit" "0: TMx_EXT (x= 0~3) pin detection Interrupt..,1: TMx_EXT (x= 0~3) pin detection Interrupt.."
bitfld.long 0x00 4. "CAPFUNCS,Capture Function Selection" "0: External Capture Mode Enabled,1: External Reset Mode Enabled"
newline
bitfld.long 0x00 3. "CAPEN,Timer External Capture Pin Enable Bit\nThis bit enables the TMx_EXT capture pin input function" "0: TMx_EXT (x= 0~3) pin Disabled,1: TMx_EXT (x= 0~3) pin Enabled"
bitfld.long 0x00 0. "CNTPHASE,Timer External Count Phase" "0: A falling edge of external counting pin will..,1: A rising edge of external counting pin will.."
group.long 0x118++0x03
line.long 0x00 "TIMER3_EINTSTS,Timer3 External Interrupt Status Register"
bitfld.long 0x00 0. "CAPIF,Timer External Capture Interrupt Flag\nThis bit indicates the timer external capture interrupt flag status.\n" "0: TMx_EXT (x= 0~3) pin interrupt did not occur,1: TMx_EXT (x= 0~3) pin interrupt occurred"
group.long 0x11C++0x03
line.long 0x00 "TIMER3_TRGCTL,Timer3 Trigger Control Register"
bitfld.long 0x00 4. "TRGPDMA,Trigger PDMA Enable Bit\nIf this bit is set to 1 each timer time-out event or capture event can be triggered PDMA transfer" "0: Timer interrupt trigger PDMA Disabled,1: Timer interrupt trigger PDMA Enabled"
bitfld.long 0x00 3. "TRGDAC,Trigger DAC Enable Bit\nIf this bit is set to 1 timer time-out interrupt or capture interrupt can be triggered DAC" "0: Timer interrupt trigger DAC Disabled,1: Timer interrupt trigger DAC Enabled"
newline
bitfld.long 0x00 2. "TRGEADC,Trigger EADC Enable Bit\nIf this bit is set to 1 each timer time-out event or capture event can be triggered EADC conversion" "0: Timer interrupt trigger EADC Disabled,1: Timer interrupt trigger EADC Enabled"
bitfld.long 0x00 1. "TRGPWM,Trigger EPWM and BPWM Enable Bit\nIf this bit is set to 1 each timer time-out event or capture event can be as EPWM and BPWM counter clock source" "0: Timer interrupt trigger EPWM and BPWM Disabled,1: Timer interrupt trigger EPWM and BPWM Enabled"
newline
bitfld.long 0x00 0. "TRGSSEL,Trigger Source Select Bit\nThis bit is used to select internal trigger source is form timer time-out interrupt signal or capture interrupt signal" "0: Time-out interrupt signal is used to internal..,1: Capture interrupt signal is used to internal.."
group.long 0x120++0x03
line.long 0x00 "TIMER3_ALTCTL,Timer3 Alternative Control Register"
bitfld.long 0x00 0. "FUNCSEL,Function Selection\nNote: When the timer is used as PWM the clock source of time controller will be forced to PCLKx automatically" "0: Timer controller is used as timer function,1: Timer controller is used as PWM function"
group.long 0x140++0x03
line.long 0x00 "TIMER3_PWMCTL,Timer3 PWM Control Register"
bitfld.long 0x00 31. "DBGTRIOFF,ICE Debug Mode Acknowledge Disable Bit (Write Protect)\nPWM output pin will keep output no matter ICE debug mode acknowledged or not.\nNote: This bit is write protected" "0: ICE debug mode acknowledgement effects PWM..,1: ICE debug mode acknowledgement disabled"
bitfld.long 0x00 30. "DBGHALT,ICE Debug Mode Counter Halt (Write Protect)\nIf debug mode counter halt is enabled PWM counter will keep current value until exit ICE debug mode" "0: ICE debug mode counter halt disable,1: ICE debug mode counter halt enable"
newline
bitfld.long 0x00 16. "OUTMODE,PWM Output Mode\nThis bit controls the output mode of corresponding PWM channel" "0: PWM independent mode,1: PWM complementary mode"
bitfld.long 0x00 9. "IMMLDEN,Immediately Load Enable Bit\nNote: If IMMLDEN is enabled CTRLD will be invalid" "0: PERIOD will load to PBUF when current PWM..,1: PERIOD/CMP will load to PBUF/CMPBUF.."
newline
bitfld.long 0x00 8. "CTRLD,Center Re-load\nIn up-down count type PERIOD will load to PBUF when current PWM period is completed always and CMP will load to CMPBUF at the center point of current period" "0,1"
bitfld.long 0x00 3. "CNTMODE,PWM Counter Mode" "0: Auto-reload mode,1: One-shot mode"
newline
bitfld.long 0x00 1.--2. "CNTTYPE,PWM Counter Behavior Type" "0: Up count type,1: Down count type,2: Up-down count type,3: Reserved"
bitfld.long 0x00 0. "CNTEN,PWM Counter Enable Bit" "0: PWM counter and clock prescale Stop Running,1: PWM counter and clock prescale Start Running"
group.long 0x144++0x03
line.long 0x00 "TIMER3_PWMCLKSRC,Timer3 PWM Counter Clock Source Register"
bitfld.long 0x00 0.--2. "CLKSRC,PWM Counter Clock Source Select\nThe PWM counter clock source can be selected from TMRx_CLK or internal timer time-out or capture event.\nNote: If TIMER0 PWM function is enabled the PWM counter clock source can be selected from TMR0_CLK TIMER1.." "0: TMRx_CLK,1: Internal TIMER0 time-out or capture event,2: Internal TIMER1 time-out or capture event,3: Internal TIMER2 time-out or capture event,4: Internal TIMER3 time-out or capture event,?..."
group.long 0x148++0x03
line.long 0x00 "TIMER3_PWMCLKPSC,Timer3 PWM Counter Clock Pre-scale Register"
hexmask.long.word 0x00 0.--11. 1. "CLKPSC,PWM Counter Clock Pre-scale \nThe active clock of PWM counter is decided by counter clock prescale and divided by (CLKPSC + 1)"
group.long 0x14C++0x03
line.long 0x00 "TIMER3_PWMCNTCLR,Timer3 PWM Clear Counter Register"
bitfld.long 0x00 0. "CNTCLR,Clear PWM Counter Control Bit\nIt is automatically cleared by hardware" "0: No effect,1: Clear 16-bit PWM counter to 0x10000 in up and.."
group.long 0x150++0x03
line.long 0x00 "TIMER3_PWMPERIOD,Timer3 PWM Period Register"
hexmask.long.word 0x00 0.--15. 1. "PERIOD,PWM Period Register\nIn up count type: PWM counter counts from 0 to PERIOD and restarts from 0.\nIn down count type: PWM counter counts from PERIOD to 0 and restarts from PERIOD.\nIn up-down count type: PWM counter counts from 0 to PERIOD then.."
group.long 0x154++0x03
line.long 0x00 "TIMER3_PWMCMPDAT,Timer3 PWM Comparator Register"
hexmask.long.word 0x00 0.--15. 1. "CMP,PWM Comparator Register\nPWM CMP is used to compare with PWM CNT to generate PWM output waveform interrupt events and trigger ADC to start convert"
group.long 0x158++0x03
line.long 0x00 "TIMER3_PWMDTCTL,Timer3 PWM Dead-Time Control Register"
bitfld.long 0x00 24. "DTCKSEL,Dead-time Clock Select (Write Protect)\nNote: This bit is write protected" "0: Dead-time clock source from TMRx_PWMCLK..,1: Dead-time clock source from TMRx_PWMCLK with.."
bitfld.long 0x00 16. "DTEN,Enable Dead-time Insertion for PWMx_CH0 and PWMx_CH1 (Write Protect)\nDead-time insertion function is only active when PWM complementary mode is enabled" "0: Dead-time insertion Disabled on the pin pair,1: Dead-time insertion Enabled on the pin pair"
newline
hexmask.long.word 0x00 0.--11. 1. "DTCNT,Dead-time Counter (Write Protect)\nThe dead-time can be calculated from the following two formulas: \nNote: This bit is write protected"
group.long 0x15C++0x03
line.long 0x00 "TIMER3_PWMCNT,Timer3 PWM Counter Register"
rbitfld.long 0x00 16. "DIRF,PWM Counter Direction Indicator Flag (Read Only)" "0: Counter is active in down count,1: Counter is active up count"
hexmask.long.word 0x00 0.--15. 1. "CNT,PWM Counter Value Register (Read Only)\nUser can monitor CNT to know the current counter value in 16-bit period counter"
group.long 0x160++0x03
line.long 0x00 "TIMER3_PWMMSKEN,Timer3 PWM Output Mask Enable Register"
bitfld.long 0x00 1. "MSKEN1,PWMx_CH1 Output Mask Enable Bit\nThe PWMx_CH1 output signal will be masked when this bit is enabled" "0: PWMx_CH1 output signal is non-masked,1: PWMx_CH1 output signal is masked and output.."
bitfld.long 0x00 0. "MSKEN0,PWMx_CH0 Output Mask Enable Bit\nThe PWMx_CH0 output signal will be masked when this bit is enabled" "0: PWMx_CH0 output signal is non-masked,1: PWMx_CH0 output signal is masked and output.."
group.long 0x164++0x03
line.long 0x00 "TIMER3_PWMMSK,Timer3 PWM Output Mask Data Control Register"
bitfld.long 0x00 1. "MSKDAT1,PWMx_CH1 Output Mask Data Control Bit" "0: Output logic Low to PWMx_CH1,1: Output logic High to PWMx_CH1"
bitfld.long 0x00 0. "MSKDAT0,PWMx_CH0 Output Mask Data Control Bit" "0: Output logic Low to PWMx_CH0,1: Output logic High to PWMx_CH0"
group.long 0x168++0x03
line.long 0x00 "TIMER3_PWMBNF,Timer3 PWM Brake Pin Noise Filter Register"
bitfld.long 0x00 16.--17. "BKPINSRC,Brake Pin Source Select" "0: Brake pin source comes from PWM0_BRAKE0 pin,1: Brake pin source comes from PWM0_BRAKE1 pin,2: Brake pin source comes from PWM1_BRAKE0 pin,3: Brake pin source comes from PWM1_BRAKE1 pin"
bitfld.long 0x00 7. "BRKPINV,Brake Pin Detection Control Bit" "0: Brake pin event will be detected if..,1: Brake pin event will be detected if.."
newline
bitfld.long 0x00 4.--6. "BRKFCNT,Brake Pin Noise Filter Count\nThe fields is used to control the active noise filter sample time" "0,1,2,3,4,5,6,7"
bitfld.long 0x00 1.--3. "BRKNFSEL,Brake Pin Noise Filter Clock Selection" "0: Noise filter clock is PCLKx,1: Noise filter clock is PCLKx/2,2: Noise filter clock is PCLKx/4,3: Noise filter clock is PCLKx/8,4: Noise filter clock is PCLKx/16,5: Noise filter clock is PCLKx/32,6: Noise filter clock is PCLKx/64,7: Noise filter clock is PCLKx/128"
newline
bitfld.long 0x00 0. "BRKNFEN,Brake Pin Noise Filter Enable Bit" "0: Pin noise filter detect of PWMx_BRAKEy Disabled,1: Pin noise filter detect of PWMx_BRAKEy Enabled"
group.long 0x16C++0x03
line.long 0x00 "TIMER3_PWMFAILBRK,Timer3 PWM System Fail Brake Control Register"
bitfld.long 0x00 3. "CORBRKEN,Core Lockup Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by core lockup event..,1: Brake Function triggered by core lockup event.."
bitfld.long 0x00 2. "RAMBRKEN,SRAM Parity Error Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by SRAM parity error..,1: Brake Function triggered by SRAM parity error.."
newline
bitfld.long 0x00 1. "BODBRKEN,Brown-out Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by BOD event Disabled,1: Brake Function triggered by BOD event Enabled"
bitfld.long 0x00 0. "CSSBRKEN,Clock Security System Detection Trigger PWM Brake Function Enable Bit" "0: Brake Function triggered by clock fail..,1: Brake Function triggered by clock fail.."
group.long 0x170++0x03
line.long 0x00 "TIMER3_PWMBRKCTL,Timer3 PWM Brake Control Register"
bitfld.long 0x00 18.--19. "BRKAODD,PWM Brake Action Select for PWMx_CH1 (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy brake event will not affect..,1: PWMx_CH1 output tri-state when PWMx_BRAKEy..,2: PWMx_CH1 output low level when PWMx_BRAKEy..,3: PWMx_CH1 output high level when PWMx_BRAKEy.."
bitfld.long 0x00 16.--17. "BRKAEVEN,PWM Brake Action Select for PWMx_CH0 (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy brake event will not affect..,1: PWMx_CH0 output tri-state when PWMx_BRAKEy..,2: PWMx_CH0 output low level when PWMx_BRAKEy..,3: PWMx_CH0 output high level when PWMx_BRAKEy.."
newline
bitfld.long 0x00 15. "SYSLBEN,Enable System Fail As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System fail condition as level-detect brake..,1: System fail condition as level-detect brake.."
bitfld.long 0x00 12. "BRKPLEN,Enable TM_BRAKEx Pin As Level-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy pin event as level-detect brake..,1: PWMx_BRAKEy pin event as level-detect brake.."
newline
bitfld.long 0x00 9. "CPO1LBEN,Enable Internal ACMP1_O Digital Output As Level-detect Brake Source (Write Protect)\n" "0: Internal ACMP1_O signal as level-detect brake..,1: Internal ACMP1_O signal as level-detect brake.."
bitfld.long 0x00 8. "CPO0LBEN,Enable Internal ACMP0_O Digital Output As Level-detect Brake Source (Write Protect)\n" "0: Internal ACMP0_O signal as level-detect brake..,1: Internal ACMP0_O signal as level-detect brake.."
newline
bitfld.long 0x00 7. "SYSEBEN,Enable System Fail As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: System fail condition as edge-detect brake..,1: System fail condition as edge-detect brake.."
bitfld.long 0x00 4. "BRKPEEN,Enable TM_BRAKEx Pin As Edge-detect Brake Source (Write Protect)\nNote: This bit is write protected" "0: PWMx_BRAKEy pin event as edge-detect brake..,1: PWMx_BRAKEy pin event as edge-detect brake.."
newline
bitfld.long 0x00 1. "CPO1EBEN,Enable Internal ACMP1_O Digital Output As Edge-detect Brake Source (Write Protect)\n" "0: Internal ACMP1_O signal as edge-detect brake..,1: Internal ACMP1_O signal as edge-detect brake.."
bitfld.long 0x00 0. "CPO0EBEN,Enable Internal ACMP0_O Digital Output As Edge-detect Brake Source (Write Protect)\n" "0: Internal ACMP0_O signal as edge-detect brake..,1: Internal ACMP0_O signal as edge-detect brake.."
group.long 0x174++0x03
line.long 0x00 "TIMER3_PWMPOLCTL,Timer3 PWM Pin Output Polar Control Register"
bitfld.long 0x00 1. "PINV1,PWMx_CH1 Output Pin Polar Control Bit\nThe bit is used to control polarity state of PWMx_CH1 output pin" "0: PWMx_CH1 output pin polar inverse Disabled,1: PWMx_CH1 output pin polar inverse Enabled"
bitfld.long 0x00 0. "PINV0,PWMx_CH0 Output Pin Polar Control Bit\nThe bit is used to control polarity state of PWMx_CH0 output pin" "0: PWMx_CH0 output pin polar inverse Disabled,1: PWMx_CH0 output pin polar inverse Enabled"
group.long 0x178++0x03
line.long 0x00 "TIMER3_PWMPOEN,Timer3 PWM Pin Output Enable Register"
bitfld.long 0x00 1. "POEN1,PWMx_CH1 Output Pin Enable Bit" "0: PWMx_CH1 pin at tri-state mode,1: PWMx_CH1 pin in output mode"
bitfld.long 0x00 0. "POEN0,PWMx_CH0 Output Pin Enable Bit" "0: PWMx_CH0 pin at tri-state mode,1: PWMx_CH0 pin in output mode"
group.long 0x17C++0x03
line.long 0x00 "TIMER3_PWMSWBRK,Timer3 PWM Software Trigger Brake Control Register"
bitfld.long 0x00 8. "BRKLTRG,Software Trigger Level-detect Brake Source (Write Only) (Write Protect)\nWrite 1 to this bit will trigger PWM level-detect brake source then BRKLIF0 and BRKLIF1 will be set to 1 automatically in TIMERx_PWMINTSTS1 register" "0,1"
bitfld.long 0x00 0. "BRKETRG,Software Trigger Edge-detect Brake Source (Write Only) (Write Protect)\nWrite 1 to this bit will trigger PWM edge-detect brake source then BRKEIF0 and BRKEIF1 will be set to 1 automatically in TIMERx_PWMINTSTS1 register" "0,1"
group.long 0x180++0x03
line.long 0x00 "TIMER3_PWMINTEN0,Timer3 PWM Interrupt Enable Register 0"
bitfld.long 0x00 3. "CMPDIEN,PWM Compare Down Count Interrupt Enable Bit" "0: Compare down count interrupt Disabled,1: Compare down count interrupt Enabled"
bitfld.long 0x00 2. "CMPUIEN,PWM Compare Up Count Interrupt Enable Bit" "0: Compare up count interrupt Disabled,1: Compare up count interrupt Enabled"
newline
bitfld.long 0x00 1. "PIEN,PWM Period Point Interrupt Enable Bit\nNote: In up-down count type period point means the center point of current PWM period" "0: Period point interrupt Disabled,1: Period point interrupt Enabled"
bitfld.long 0x00 0. "ZIEN,PWM Zero Point Interrupt Enable Bit" "0: Zero point interrupt Disabled,1: Zero point interrupt Enabled"
group.long 0x184++0x03
line.long 0x00 "TIMER3_PWMINTEN1,Timer3 PWM Interrupt Enable Register 1"
bitfld.long 0x00 8. "BRKLIEN,PWM Level-detect Brake Interrupt Enable Bit (Write Protect)\nNote: This bit is write protected" "0: PWM level-detect brake interrupt Disabled,1: PWM level-detect brake interrupt Enabled"
bitfld.long 0x00 0. "BRKEIEN,PWM Edge-detect Brake Interrupt Enable Bit (Write Protect)\nNote: This bit is write protected" "0: PWM edge-detect brake interrupt Disabled,1: PWM edge-detect brake interrupt Enabled"
group.long 0x188++0x03
line.long 0x00 "TIMER3_PWMINTSTS0,Timer3 PWM Interrupt Status Register 0"
bitfld.long 0x00 3. "CMPDIF,PWM Compare Down Count Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter in down count direction and reaches CMP.\n" "0,1"
bitfld.long 0x00 2. "CMPUIF,PWM Compare Up Count Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter in up count direction and reaches CMP.\n" "0,1"
newline
bitfld.long 0x00 1. "PIF,PWM Period Point Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter reaches PERIOD.\n" "0,1"
bitfld.long 0x00 0. "ZIF,PWM Zero Point Interrupt Flag\nThis bit is set by hardware when TIMERx_PWM counter reaches 0.\nNote: This bit is cleared by writing 1 to it" "0,1"
group.long 0x18C++0x03
line.long 0x00 "TIMER3_PWMINTSTS1,Timer3 PWM Interrupt Status Register 1"
rbitfld.long 0x00 25. "BRKLSTS1,Level-detect Brake Status of PWMx_CH1 (Read Only)\nNote: If TIMERx_PWM level-detect brake source has released both PWMx_CH0 and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH0 and PWMx_CH1 output waveform.." "0: PWMx_CH1 level-detect brake state is released,1: PWMx_CH1 at level-detect brake state"
rbitfld.long 0x00 24. "BRKLSTS0,Level-detect Brake Status of PWMx_CH0 (Read Only)\nNote: If TIMERx_PWM level-detect brake source has released both PWMx_CH0 and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH0 and PWMx_CH1 output waveform.." "0: PWMx_CH0 level-detect brake state is released,1: PWMx_CH0 at level-detect brake state"
newline
rbitfld.long 0x00 17. "BRKESTS1,Edge-detect Brake Status of PWMx_CH1 (Read Only)\nNote: User can set BRKEIF1 1 to clear BRKEIF1 flag and PWMx_CH1 will release brake state when current PWM period finished and resume PWMx_CH1 output waveform start from next full PWM period" "0: PWMx_CH1 edge-detect brake state is released,1: PWMx_CH1 at edge-detect brake state"
rbitfld.long 0x00 16. "BRKESTS0,Edge -detect Brake Status of PWMx_CH0 (Read Only)\nNote: User can set BRKEIF0 1 to clear BRKEIF0 flag and PWMx_CH0 will release brake state when current PWM period finished and resume PWMx_CH0 output waveform start from next full PWM period" "0: PWMx_CH0 edge-detect brake state is released,1: PWMx_CH0 at edge-detect brake state"
newline
bitfld.long 0x00 9. "BRKLIF1,Level-detect Brake Interrupt Flag on PWMx_CH1 (Write Protect)\n" "0: PWMx_CH1 level-detect brake event do not..,1: PWMx_CH1 level-detect brake event happened"
bitfld.long 0x00 8. "BRKLIF0,Level-detect Brake Interrupt Flag on PWMx_CH0 (Write Protect)\n" "0: PWMx_CH0 level-detect brake event do not..,1: PWMx_CH0 level-detect brake event happened"
newline
bitfld.long 0x00 1. "BRKEIF1,Edge-detect Brake Interrupt Flag PWMx_CH1 (Write Protect)\n" "0: PWMx_CH1 edge-detect brake event do not..,1: PWMx_CH1 edge-detect brake event happened"
bitfld.long 0x00 0. "BRKEIF0,Edge-detect Brake Interrupt Flag on PWMx_CH0 (Write Protect)\n" "0: PWMx_CH0 edge-detect brake event do not..,1: PWMx_CH0 edge-detect brake event happened"
group.long 0x190++0x03
line.long 0x00 "TIMER3_PWMADCTS,Timer3 PWM ADC Trigger Source Select Register"
bitfld.long 0x00 7. "TRGEN,PWM Counter Event Trigger ADC Conversion Enable Bit" "0: PWM counter event trigger ADC conversion..,1: PWM counter event trigger ADC conversion.."
bitfld.long 0x00 0.--2. "TRGSEL,PWM Counter Event Source Select to Trigger EADC Conversion" "0: Trigger EADC conversion at zero point (ZIF),1: Trigger EADC conversion at period point (PIF),2: Trigger EADC conversion at zero or period..,3: Trigger EADC conversion at compare up count..,4: Trigger EADC conversion at compare down count..,?..."
group.long 0x194++0x03
line.long 0x00 "TIMER3_PWMSCTL,Timer3 PWM Synchronous Control Register"
bitfld.long 0x00 8. "SYNCSRC,PWM Synchronous Counter Start/Clear Source Select\n" "0: Counter synchronous start/clear by trigger..,1: Counter synchronous start/clear by trigger.."
bitfld.long 0x00 0.--1. "SYNCMODE,PWM Synchronous Mode Enable Select" "0: PWM synchronous function Disabled,1: PWM synchronous counter start function Enabled,2: Reserved,3: PWM synchronous counter clear function Enabled"
group.long 0x19C++0x03
line.long 0x00 "TIMER3_PWMSTATUS,Timer3 PWM Status Register"
bitfld.long 0x00 16. "EADCTRGF,Trigger EADC Start Conversion Flag\nNote: This bit is cleared by writing 1 to it" "0: PWM counter event trigger EADC start..,1: PWM counter event trigger EADC start.."
bitfld.long 0x00 0. "CNTMAXF,PWM Counter Equal to 0xFFFF Flag\nNote: This bit is cleared by writing 1 to it" "0: The PWM counter value never reached its..,1: The PWM counter value has reached its maximum.."
group.long 0x1A0++0x03
line.long 0x00 "TIMER3_PWMPBUF,Timer3 PWM Period Buffer Register"
hexmask.long.word 0x00 0.--15. 1. "PBUF,PWM Period Buffer Register (Read Only)\nUsed as PERIOD active register"
group.long 0x1A4++0x03
line.long 0x00 "TIMER3_PWMCMPBUF,Timer3 PWM Comparator Buffer Register"
hexmask.long.word 0x00 0.--15. 1. "CMPBUF,PWM Comparator Buffer Register (Read Only)\nUsed as CMP active register"
tree.end
tree.end
tree "TRNG"
base ad:0x400B9000
group.long 0x00++0x03
line.long 0x00 "TRNG_CTL,TRNG Control Register and Status"
hexmask.long.tbyte 0x00 8.--31. 1. "Reversed,Reversed"
rbitfld.long 0x00 7. "READY,Random Number Generator Ready (Read Only)\nAfter ACT (TRNG_ACT[7]) bit is set the READY bit become to 1 after a delay of 90us~120us" "0: RNG is not ready or activated,1: RNG is ready to be enabled"
newline
bitfld.long 0x00 6. "DVIEN,Data Valid Interrupt Enable Bit" "0: Interrupt Disabled,1: Interrupt Enabled"
bitfld.long 0x00 2.--5. "CLKPSC,Clock Prescaler\nThe CLKPSC is the peripheral clock frequency range for the selected value the CLKPSC setting must be higher than or equal to the actual peripheral clock frequency (for correct random bit generation)" "0: 80 ~ 100 MHz,1: 60 ~ 80 MHz,2: 50 ~60 MHz,3: 40 ~50 MHz,4: 30 ~40 MHz,5: 25 ~30 MHz,6: 20 ~25 MHz,7: 15 ~20 MHz,8: 12 ~15 MHz,9: 9 ~12 MHz,10: 7 ~9 MHz,11: 6 ~7 MHz,12: 5 ~6 MHz,13: 4 ~5 MHz,?,15: Reserved"
newline
rbitfld.long 0x00 1. "DVIF,Data Valid (Read Only)\nNote: This bit is cleared to '0' by reading TRNG_DATA" "0: Data is not valid,1: Data is valid"
bitfld.long 0x00 0. "TRNGEN,Random Number Generator Enable Bit\nThis bit can be set to 1 only after ACT (TRNG_ACT[7]) bit is set to 1 and READY (TRNG_CTL[7]) bit became 1.\nNote: TRNGEN is an enable bit of digital part" "0: TRNG Disabled,1: TRNG Enabled"
rgroup.long 0x04++0x03
line.long 0x00 "TRNG_DATA,TRNG Data Register"
hexmask.long.byte 0x00 0.--7. 1. "DATA,Random Number Generator Data (Read Only)\nThe DATA store the random number is generated by TRNG and can be read only once"
group.long 0x0C++0x03
line.long 0x00 "TRNG_ACT,TRNG Activation Register"
bitfld.long 0x00 7. "ACT,Random Number Generator Activation\nAfter enable the ACT bit it will active the TRNG module and wait the READY (TRNG_CTL[7]) bit to become 1.\nNote: ACT is an enable bit of analog part" "0: TRNG inactive,1: TRNG active"
tree.end
tree "UART"
tree "UART0"
base ad:0x40070000
group.long 0x00++0x03
line.long 0x00 "UART_DAT,UART Receive/Transmit Buffer Register"
bitfld.long 0x00 8. "PARITY,PARITY Bit Receive/Transmit Buffer\nWrite Operation:\nBy writing to this bit the PARITY bit will be stored in transmitter FIFO" "0,1"
hexmask.long.byte 0x00 0.--7. 1. "DAT,Data Receive/Transmit Buffer\nWrite Operation:\nBy writing one byte to this register the data byte will be stored in transmitter FIFO"
group.long 0x04++0x03
line.long 0x00 "UART_INTEN,UART Interrupt Enable Register"
bitfld.long 0x00 22. "TXENDIEN,Transmitter Empty Interrupt Enable Bit\nIf TXENDIEN (UART_INTEN[22]) is enabled the Transmitter Empty interrupt TXENDINT (UART_INTSTS[30]) will be generated when TXENDIF (UART_INTSTS[22]) is set (TX FIFO (UART_DAT) is empty and the STOP bit of.." "0: Transmitter empty interrupt Disabled,1: Transmitter empty interrupt Enabled"
bitfld.long 0x00 18. "ABRIEN,Auto-baud Rate Interrupt Enable Bit" "0: Auto-baud rate interrupt Disabled,1: Auto-baud rate interrupt Enabled"
newline
bitfld.long 0x00 16. "SWBEIEN,Single-wire Bit Error Detection Interrupt Enable Bit\nSet this bit the Single-wire Half Duplex Bit Error Detection Interrupt SWBEINT(UART_INTSTS[24]) is generated when Single-wire Bit Error Detection SWBEIF(UART_INTSTS[16]) is set.\nNote: This.." "0: Single-wire Bit Error Detect Inerrupt Disabled,1: Single-wire Bit Error Detect Inerrupt Enabled"
bitfld.long 0x00 15. "RXPDMAEN,RX PDMA Enable Bit\nThis bit can enable or disable RX PDMA service.\nNote: If RLSIEN (UART_INTEN[2]) is enabled and HWRLSINT (UART_INTSTS[26]) is set to 1 the RLS (Receive Line Status) Interrupt is caused" "0: RX PDMA Disabled,1: RX PDMA Enabled"
newline
bitfld.long 0x00 14. "TXPDMAEN,TX PDMA Enable Bit\nNote: If RLSIEN (UART_INTEN[2]) is enabled and HWRLSINT (UART_INTSTS[26]) is set to 1 the RLS (Receive Line Status) Interrupt is caused" "0: TX PDMA Disabled,1: TX PDMA Enabled"
bitfld.long 0x00 13. "ATOCTSEN,nCTS Auto-flow Control Enable Bit\nNote: When nCTS auto-flow is enabled the UART will send data to external device if nCTS input assert (UART will not send data to device until nCTS is asserted)" "0: nCTS auto-flow control Disabled,1: nCTS auto-flow control Enabled"
newline
bitfld.long 0x00 12. "ATORTSEN,nRTS Auto-flow Control Enable Bit\nNote: When nRTS auto-flow is enabled if the number of bytes in the RX FIFO equals the RTSTRGLV (UART_FIFO[19:16]) the UART will de-assert nRTS signal" "0: nRTS auto-flow control Disabled,1: nRTS auto-flow control Enabled"
bitfld.long 0x00 11. "TOCNTEN,Receive Buffer Time-out Counter Enable Bit" "0: Receive Buffer Time-out counter Disabled,1: Receive Buffer Time-out counter Enabled"
newline
bitfld.long 0x00 8. "LINIEN,LIN Bus Interrupt Enable Bit\nNote: This bit is used for LIN function mode" "0: LIN bus interrupt Disabled,1: LIN bus interrupt Enabled"
bitfld.long 0x00 6. "WKIEN,Wake-up Interrupt Enable Bit" "0: Wake-up Interrupt Disabled,1: Wake-up Interrupt Enabled"
newline
bitfld.long 0x00 5. "BUFERRIEN,Buffer Error Interrupt Enable Bit" "0: Buffer error interrupt Disabled,1: Buffer error interrupt Enabled"
bitfld.long 0x00 4. "RXTOIEN,RX Time-out Interrupt Enable Bit" "0: RX time-out interrupt Disabled,1: RX time-out interrupt Enabled"
newline
bitfld.long 0x00 3. "MODEMIEN,Modem Status Interrupt Enable Bit" "0: Modem status interrupt Disabled,1: Modem status interrupt Enabled"
bitfld.long 0x00 2. "RLSIEN,Receive Line Status Interrupt Enable Bit" "0: Receive Line Status interrupt Disabled,1: Receive Line Status interrupt Enabled"
newline
bitfld.long 0x00 1. "THREIEN,Transmit Holding Register Empty Interrupt Enable Bit" "0: Transmit holding register empty interrupt..,1: Transmit holding register empty interrupt.."
bitfld.long 0x00 0. "RDAIEN,Receive Data Available Interrupt Enable Bit" "0: Receive data available interrupt Disabled,1: Receive data available interrupt Enabled"
group.long 0x08++0x03
line.long 0x00 "UART_FIFO,UART FIFO Control Register"
bitfld.long 0x00 16.--19. "RTSTRGLV,nRTS Trigger Level for Auto-flow Control\nNote: This field is used for auto nRTS flow control" "0: nRTS Trigger Level is 1 byte,1: nRTS Trigger Level is 4 bytes,2: nRTS Trigger Level is 8 bytes,3: nRTS Trigger Level is 14 bytes,?..."
bitfld.long 0x00 8. "RXOFF,Receiver Disable Bit\nThe receiver is disabled or not (set 1 to disable receiver).\nNote: This bit is used for RS-485 Normal Multi-drop mode" "0: Receiver Enabled,1: Receiver Disabled"
newline
bitfld.long 0x00 4.--7. "RFITL,RX FIFO Interrupt Trigger Level\nWhen the number of bytes in the receive FIFO equals the RFITL the RDAIF (UART_INTSTS[0]) will be set (if RDAIEN (UART_INTEN [0]) enabled and an interrupt will be generated)" "0: RX FIFO Interrupt Trigger Level is 1 byte,1: RX FIFO Interrupt Trigger Level is 4 bytes,2: RX FIFO Interrupt Trigger Level is 8 bytes,3: RX FIFO Interrupt Trigger Level is 14 bytes,?..."
bitfld.long 0x00 2. "TXRST,TX Field Software Reset\nWhen TXRST (UART_FIFO[2]) is set all the byte in the transmit FIFO and TX internal state machine are cleared.\n" "0: No effect,1: Reset the TX internal state machine and.."
newline
bitfld.long 0x00 1. "RXRST,RX Field Software Reset\nWhen RXRST (UART_FIFO[1]) is set all the byte in the receiver FIFO and RX internal state machine are cleared.\n" "0: No effect,1: Reset the RX internal state machine and.."
group.long 0x0C++0x03
line.long 0x00 "UART_LINE,UART Line Control Register"
bitfld.long 0x00 9. "RXDINV,RX Data Inverted\n" "0: Received data signal inverted Disabled,1: Received data signal inverted Enabled"
bitfld.long 0x00 8. "TXDINV,TX Data Inverted\n" "0: Transmitted data signal inverted Disabled,1: Transmitted data signal inverted Enabled"
newline
bitfld.long 0x00 7. "PSS,PARITY Bit Source Selection\nThe PARITY bit can be selected to be generated and checked automatically or by software.\n" "0: PARITY bit is generated by EPE (UART_LINE[4])..,1: PARITY bit generated and checked by software"
bitfld.long 0x00 6. "BCB,Break Control Bit\nNote: When this bit is set to logic 1 the transmitted serial data output (TX) is forced to the Spacing State (logic 0)" "0: Break Control Disabled,1: Break Control Enabled"
newline
bitfld.long 0x00 5. "SPE,Stick Parity Enable Bit\nNote: If PBE (UART_LINE[3]) and EPE (UART_LINE[4]) are logic 1 the PARITY bit is transmitted and checked as logic 0" "0: Stick parity Disabled,1: Stick parity Enabled"
bitfld.long 0x00 4. "EPE,Even Parity Enable Bit\nNote: This bit has effect only when PBE (UART_LINE[3]) is set" "0: Odd number of logic 1's is transmitted and..,1: Even number of logic 1's is transmitted and.."
newline
bitfld.long 0x00 3. "PBE,PARITY Bit Enable Bit\nNote: PARITY bit is generated on each outgoing character and is checked on each incoming data" "0: PARITY bit generated Disabled,1: PARITY bit generated Enabled"
bitfld.long 0x00 2. "NSB,Number of 'STOP Bit'" "0: One 'STOP bit' is generated in the..,1: When select 5-bit word length 1.5 'STOP bit'.."
newline
bitfld.long 0x00 0.--1. "WLS,Word Length Selection\nThis field sets UART word length" "0: 5 bits,1: 6 bits,2: 7 bits,3: 8 bits"
group.long 0x10++0x03
line.long 0x00 "UART_MODEM,UART Modem Control Register"
rbitfld.long 0x00 13. "RTSSTS,nRTS Pin Status (Read Only)\nThis bit mirror from nRTS pin output of voltage logic status" "0: nRTS pin output is low level voltage logic..,1: nRTS pin output is high level voltage logic.."
bitfld.long 0x00 9. "RTSACTLV,nRTS Pin Active Level\nThis bit defines the active level state of nRTS pin output.\n" "0: nRTS pin output is high level active,1: nRTS pin output is low level active"
newline
bitfld.long 0x00 1. "RTS,nRTS (Request-to-send) Signal Control\nThis bit is direct control internal nRTS signal active or not and then drive the nRTS pin output with RTSACTLV bit configuration.\n" "0: nRTS signal is active,1: nRTS signal is inactive"
group.long 0x14++0x03
line.long 0x00 "UART_MODEMSTS,UART Modem Status Register"
bitfld.long 0x00 8. "CTSACTLV,nCTS Pin Active Level\nThis bit defines the active level state of nCTS pin input.\nNote: Before setting this bit TXRXDIS (UART_FUNCSEL[3]) should be set then waited for TXRXACT (UART_FIFOSTS[31]) is cleared" "0: nCTS pin input is high level active,1: nCTS pin input is low level active"
rbitfld.long 0x00 4. "CTSSTS,nCTS Pin Status (Read Only)\nThis bit mirror from nCTS pin input of voltage logic status.\nNote: This bit echoes when UART controller peripheral clock is enabled and nCTS multi-function port is selected" "0: nCTS pin input is low level voltage logic state,1: nCTS pin input is high level voltage logic.."
newline
bitfld.long 0x00 0. "CTSDETF,Detect nCTS State Change Flag\nThis bit is set whenever nCTS input has change state and it will generate Modem interrupt to CPU when MODEMIEN (UART_INTEN [3]) is set to 1.\nNote: This bit can be cleared by writing '1' to it" "0: nCTS input has not change state,1: nCTS input has change state"
group.long 0x18++0x03
line.long 0x00 "UART_FIFOSTS,UART FIFO Status Register"
rbitfld.long 0x00 31. "TXRXACT,TX and RX Active Status (Read Only)\nThis bit indicates TX and RX are active or inactive.\nNote: When TXRXDIS (UART_FUNCSEL[3]) is set and both TX and RX are in idle state this bit is cleared" "0: TX and RX are inactive,1: TX and RX are active"
rbitfld.long 0x00 29. "RXIDLE,RX Idle Status (Read Only)\nThis bit is set by hardware when RX is idle" "0: RX is busy,1: RX is idle"
newline
rbitfld.long 0x00 28. "TXEMPTYF,Transmitter Empty Flag (Read Only)\nThis bit is set by hardware when TX FIFO (UART_DAT) is empty and the STOP bit of the last byte has been transmitted.\nNote: This bit is cleared automatically when TX FIFO is not empty or the last byte.." "0: TX FIFO is not empty or the STOP bit of the..,1: TX FIFO is empty and the STOP bit of the last.."
bitfld.long 0x00 24. "TXOVIF,TX Overflow Error Interrupt Flag\nIf TX FIFO (UART_DAT) is full an additional write to UART_DAT will cause this bit to logic 1.\nNote: This bit can be cleared by writing '1' to it" "0: TX FIFO is not overflow,1: TX FIFO is overflow"
newline
rbitfld.long 0x00 23. "TXFULL,Transmitter FIFO Full (Read Only)\nThis bit indicates TX FIFO full or not.\nNote: This bit is set when the number of usage in TX FIFO Buffer is equal to 16 otherwise it is cleared by hardware" "0: TX FIFO is not full,1: TX FIFO is full"
rbitfld.long 0x00 22. "TXEMPTY,Transmitter FIFO Empty (Read Only)\nThis bit indicates TX FIFO empty or not.\nNote: When the last byte of TX FIFO has been transferred to Transmitter Shift Register hardware sets this bit high" "0: TX FIFO is not empty,1: TX FIFO is empty"
newline
rbitfld.long 0x00 16.--21. "TXPTR,TX FIFO Pointer (Read Only)\nThis field indicates the TX FIFO Buffer Pointer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rbitfld.long 0x00 15. "RXFULL,Receiver FIFO Full (Read Only)\nThis bit initiates RX FIFO full or not.\nNote: This bit is set when the number of usage in RX FIFO Buffer is equal to 16 otherwise it is cleared by hardware" "0: RX FIFO is not full,1: RX FIFO is full"
newline
rbitfld.long 0x00 14. "RXEMPTY,Receiver FIFO Empty (Read Only)\nThis bit initiate RX FIFO empty or not.\nNote: When the last byte of RX FIFO has been read by CPU hardware sets this bit high" "0: RX FIFO is not empty,1: RX FIFO is empty"
rbitfld.long 0x00 8.--13. "RXPTR,RX FIFO Pointer (Read Only)\nThis field indicates the RX FIFO Buffer Pointer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 6. "BIF,Break Interrupt Flag\nThis bit is set to logic 1 whenever the received data input (RX) is held in the 'spacing state' (logic 0) for longer than a full word transmission time (that is the total time of 'START bit' + data bits + parity + STOP.." "0: No Break interrupt is generated,1: Break interrupt is generated"
bitfld.long 0x00 5. "FEF,Framing Error Flag\nThis bit is set to logic 1 whenever the received character does not have a valid 'STOP bit' (that is the STOP bit following the last data bit or PARITY bit is detected as logic 0).\nNote: This bit can be cleared by writing '1' to.." "0: No framing error is generated,1: Framing error is generated"
newline
bitfld.long 0x00 4. "PEF,Parity Error Flag\nThis bit is set to logic 1 whenever the received character does not have a valid 'PARITY bit'.\nNote: This bit can be cleared by writing '1' to it" "0: No parity error is generated,1: Parity error is generated"
bitfld.long 0x00 3. "ADDRDETF,RS-485 Address Byte Detect Flag\n" "0: Receiver detects a data that is not an..,1: Receiver detects a data that is an address.."
newline
bitfld.long 0x00 2. "ABRDTOIF,Auto-baud Rate Detect Time-out Interrupt Flag\nThis bit is set to logic '1' in Auto-baud Rate Detect mode when the baud rate counter is overflow.\nNote: This bit can be cleared by writing '1' to it" "0: Auto-baud rate counter is underflow,1: Auto-baud rate counter is overflow"
bitfld.long 0x00 1. "ABRDIF,Auto-baud Rate Detect Interrupt Flag\nThis bit is set to logic '1' when auto-baud rate detect function is finished.\nNote: This bit can be cleared by writing '1' to it" "0: Auto-baud rate detect function is not finished,1: Auto-baud rate detect function is finished"
newline
bitfld.long 0x00 0. "RXOVIF,RX Overflow Error Interrupt Flag\nThis bit is set when RX FIFO overflow.\nIf the number of bytes of received data is greater than RX_FIFO (UART_DAT) size 16 bytes this bit will be set.\nNote: This bit can be cleared by writing '1' to it" "0: RX FIFO is not overflow,1: RX FIFO is overflow"
group.long 0x1C++0x03
line.long 0x00 "UART_INTSTS,UART Interrupt Status Register"
rbitfld.long 0x00 31. "ABRINT,Auto-baud Rate Interrupt Indicator (Read Only)\nThis bit is set if ABRIEN (UART_INTEN[18]) and ABRIF (UART_ALTCTL[17]) are both set to 1" "0: No Auto-baud Rate interrupt is generated,1: The Auto-baud Rate interrupt is generated"
rbitfld.long 0x00 30. "TXENDINT,Transmitter Empty Interrupt Indicator (Read Only) \nThis bit is set if TXENDIEN (UART_INTEN[22]) and TXENDIF(UART_INTSTS[22]) are both set to 1" "0: No Transmitter Empty interrupt is generated,1: Transmitter Empty interrupt is generated"
newline
rbitfld.long 0x00 29. "HWBUFEINT,PDMA Mode Buffer Error Interrupt Indicator (Read Only)\nThis bit is set if BUFERRIEN (UART_INTEN[5]) and HWBUFEIF (UART_INTSTS[21]) are both set to 1" "0: No buffer error interrupt is generated in..,1: Buffer error interrupt is generated in PDMA.."
rbitfld.long 0x00 28. "HWTOINT,PDMA Mode RX Time-out Interrupt Indicator (Read Only)\nThis bit is set if RXTOIEN (UART_INTEN[4]) and HWTOIF(UART_INTSTS[20]) are both set to 1" "0: No RX time-out interrupt is generated in PDMA..,1: RX time-out interrupt is generated in PDMA mode"
newline
rbitfld.long 0x00 27. "HWMODINT,PDMA Mode MODEM Status Interrupt Indicator (Read Only)\nThis bit is set if MODEMIEN (UART_INTEN[3]) and HWMODIF(UART_INTSTS[19]) are both set to 1" "0: No Modem interrupt is generated in PDMA mode,1: Modem interrupt is generated in PDMA mode"
rbitfld.long 0x00 26. "HWRLSINT,PDMA Mode Receive Line Status Interrupt Indicator (Read Only)\nThis bit is set if RLSIEN (UART_INTEN[2]) and HWRLSIF(UART_INTSTS[18]) are both set to 1" "0: No RLS interrupt is generated in PDMA mode,1: RLS interrupt is generated in PDMA mode"
newline
rbitfld.long 0x00 24. "SWBEINT,Single-wire Bit Error Detect Interrupt Indicator (Read Only)\nThis bit is set if SWBEIEN (UART_INTEN[16]) and SWBEIF (UART_INTSTS[16]) are both set to 1" "0: No Single-wire Bit Error Detection Interrupt..,1: Single-wire Bit Error Detection Interrupt.."
bitfld.long 0x00 22. "TXENDIF,Transmitter Empty Interrupt Flag\nThis bit is set when TX FIFO (UART_DAT) is empty and the STOP bit of the last byte has been transmitted (TXEMPTYF (UART_FIFOSTS[28]) is set)" "0: No transmitter empty interrupt flag is..,1: Transmitter empty interrupt flag is generated"
newline
rbitfld.long 0x00 21. "HWBUFEIF,PDMA Mode Buffer Error Interrupt Flag (Read Only)\nThis bit is set when the TX or RX FIFO overflows (TXOVIF (UART_FIFOSTS [24]) or RXOVIF (UART_FIFOSTS[0]) is set)" "0: No buffer error interrupt flag is generated..,1: Buffer error interrupt flag is generated in.."
rbitfld.long 0x00 20. "HWTOIF,PDMA Mode RX Time-out Interrupt Flag (Read Only)\nThis bit is set when the RX FIFO is not empty and no activities occurred in the RX FIFO and the time-out counter equal to TOIC (UART_TOUT[7:0])" "0: No RX time-out interrupt flag is generated in..,1: RX time-out interrupt flag is generated in.."
newline
rbitfld.long 0x00 19. "HWMODIF,PDMA Mode MODEM Interrupt Flag (Read Only)\nNote: This bit is read only and reset to 0 when the bit CTSDETF (UART_MODEMSTS[0]) is cleared by writing 1 on CTSDETF (UART_MODEMSTS [0])" "0: No Modem interrupt flag is generated in PDMA..,1: Modem interrupt flag is generated in PDMA mode"
rbitfld.long 0x00 18. "HWRLSIF,PDMA Mode Receive Line Status Flag (Read Only)\nThis bit is set when the RX receive data have parity error frame error or break error (at least one of 3 bits BIF (UART_FIFOSTS[6]) FEF (UART_FIFOSTS[5]) and PEF (UART_FIFOSTS[4]) is set)" "0: No RLS interrupt flag is generated in PDMA mode,1: RLS interrupt flag is generated in PDMA mode"
newline
bitfld.long 0x00 16. "SBEIF,Single-wire Bit Error Detection Interrupt Flag\nThis bit is set when the single wire bus state not equals to UART controller TX state in Single-wire mode.\n" "0: No single-wire bit error detection interrupt..,1: Single-wire bit error detection interrupt.."
rbitfld.long 0x00 15. "LININT,LIN Bus Interrupt Indicator (Read Only)\nThis bit is set if LINIEN (UART_INTEN[8]) and LINIF(UART_INTSTS[7]) are both set to 1" "0: No LIN Bus interrupt is generated,1: The LIN Bus interrupt is generated"
newline
rbitfld.long 0x00 14. "WKINT,UART Wake-up Interrupt Indicator (Read Only)\nThis bit is set if WKIEN (UART_INTEN[6]) and WKIF (UART_INTSTS[6]) are both set to 1" "0: No UART wake-up interrupt is generated,1: UART wake-up interrupt is generated"
rbitfld.long 0x00 13. "BUFERRINT,Buffer Error Interrupt Indicator (Read Only)\nThis bit is set if BUFERRIEN(UART_INTEN[5]) and BUFERRIF(UART_ INTSTS[5]) are both set to 1" "0: No buffer error interrupt is generated,1: Buffer error interrupt is generated"
newline
rbitfld.long 0x00 12. "RXTOINT,RX Time-out Interrupt Indicator (Read Only)\nThis bit is set if RXTOIEN (UART_INTEN[4]) and RXTOIF(UART_INTSTS[4]) are both set to 1" "0: No RX time-out interrupt is generated,1: RX time-out interrupt is generated"
rbitfld.long 0x00 11. "MODEMINT,MODEM Status Interrupt Indicator (Read Only)\nThis bit is set if MODEMIEN(UART_INTEN[3]) and MODEMIF(UART_INTSTS[3]) are both set to 1" "0: No Modem interrupt is generated,1: Modem interrupt is generated"
newline
rbitfld.long 0x00 10. "RLSINT,Receive Line Status Interrupt Indicator (Read Only) \nThis bit is set if RLSIEN (UART_INTEN[2]) and RLSIF(UART_INTSTS[2]) are both set to 1" "0: No RLS interrupt is generated,1: RLS interrupt is generated"
rbitfld.long 0x00 9. "THREINT,Transmit Holding Register Empty Interrupt Indicator (Read Only)\nThis bit is set if THREIEN (UART_INTEN[1]) and THREIF(UART_INTSTS[1]) are both set to 1" "0: No THRE interrupt is generated,1: THRE interrupt is generated"
newline
rbitfld.long 0x00 8. "RDAINT,Receive Data Available Interrupt Indicator (Read Only)\nThis bit is set if RDAIEN (UART_INTEN[0]) and RDAIF (UART_INTSTS[0]) are both set to 1" "0: No RDA interrupt is generated,1: RDA interrupt is generated"
bitfld.long 0x00 7. "LINIF,LIN Bus Interrupt Flag\nNote: This bit is cleared when SLVHDETF(UART_LINSTS[0]) BRKDETF(UART_LINSTS[8]) BITEF(UART_LINSTS[9]) SLVIDPEF (UART_LINSTS[2]) and SLVHEF(UART_LINSTS[1]) all are cleared and software writing '1' to LINIF(UART_INTSTS[7])" "0: None of SLVHDETF BRKDETF BITEF SLVIDPEF and..,1: At least one of SLVHDETF BRKDETF BITEF.."
newline
rbitfld.long 0x00 6. "WKIF,UART Wake-up Interrupt Flag (Read Only)\nThis bit is set when TOUTWKF (UART_WKSTS[4]) RS485WKF (UART_WKSTS[3]) RFRTWKF (UART_WKSTS[2]) DATWKF (UART_WKSTS[1]) or CTSWKF(UART_WKSTS[0]) is set to 1.\nNote: This bit is cleared if all of TOUTWKF.." "0: No UART wake-up interrupt flag is generated,1: UART wake-up interrupt flag is generated"
rbitfld.long 0x00 5. "BUFERRIF,Buffer Error Interrupt Flag (Read Only)\nThis bit is set when the TX FIFO or RX FIFO overflows (TXOVIF (UART_FIFOSTS[24]) or RXOVIF (UART_FIFOSTS[0]) is set)" "0: No buffer error interrupt flag is generated,1: Buffer error interrupt flag is generated"
newline
rbitfld.long 0x00 4. "RXTOIF,RX Time-out Interrupt Flag (Read Only)\nThis bit is set when the RX FIFO is not empty and no activities occurred in the RX FIFO and the time-out counter equal to TOIC (UART_TOUT[7:0])" "0: No RX time-out interrupt flag is generated,1: RX time-out interrupt flag is generated"
rbitfld.long 0x00 3. "MODEMIF,MODEM Interrupt Flag (Read Only)\nNote: This bit is read only and reset to 0 when bit CTSDETF is cleared by a write 1 on CTSDETF(UART_MODEMSTS[0])" "0: No Modem interrupt flag is generated,1: Modem interrupt flag is generated"
newline
rbitfld.long 0x00 2. "RLSIF,Receive Line Interrupt Flag (Read Only)\nThis bit is set when the RX receive data have parity error frame error or break error (at least one of 3 bits BIF(UART_FIFOSTS[6]) FEF(UART_FIFOSTS[5]) and PEF(UART_FIFOSTS[4]) is set)" "0: No RLS interrupt flag is generated,1: RLS interrupt flag is generated"
rbitfld.long 0x00 1. "THREIF,Transmit Holding Register Empty Interrupt Flag (Read Only)\nThis bit is set when the last data of TX FIFO is transferred to Transmitter Shift Register" "0: No THRE interrupt flag is generated,1: THRE interrupt flag is generated"
newline
rbitfld.long 0x00 0. "RDAIF,Receive Data Available Interrupt Flag (Read Only)\nWhen the number of bytes in the RX FIFO equals the RFITL then the RDAIF(UART_INTSTS[0]) will be set" "0: No RDA interrupt flag is generated,1: RDA interrupt flag is generated"
group.long 0x20++0x03
line.long 0x00 "UART_TOUT,UART Time-out Register"
hexmask.long.byte 0x00 8.--15. 1. "DLY,TX Delay Time Value \nThis field is used to program the transfer delay time between the last STOP bit and next START bit"
hexmask.long.byte 0x00 0.--7. 1. "TOIC,Time-out Interrupt Comparator"
group.long 0x24++0x03
line.long 0x00 "UART_BAUD,UART Baud Rate Divider Register"
bitfld.long 0x00 29. "BAUDM1,BAUD Rate Mode Selection Bit 1\nThis bit is baud rate mode selection bit 1" "0,1"
bitfld.long 0x00 28. "BAUDM0,BAUD Rate Mode Selection Bit 0\nThis bit is baud rate mode selection bit 0" "0,1"
newline
bitfld.long 0x00 24.--27. "EDIVM1,Extra Divider for BAUD Rate Mode 1\nThis field is used for baud rate calculation in mode 1 and has no effect for baud rate calculation in mode 0 and mode 2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--15. 1. "BRD,Baud Rate Divider\nThe field indicates the baud rate divider"
group.long 0x28++0x03
line.long 0x00 "UART_IRDA,UART IrDA Control Register"
bitfld.long 0x00 6. "RXINV,IrDA Inverse Receive Input Signal \n" "0: None inverse receiving input signal,1: Inverse receiving input signal"
bitfld.long 0x00 5. "TXINV,IrDA Inverse Transmitting Output Signal \n" "0: None inverse transmitting signal,1: Inverse transmitting output signal"
newline
bitfld.long 0x00 1. "TXEN,IrDA Receiver/Transmitter Selection Enable Bit" "0: IrDA Transmitter Disabled and Receiver Enabled,1: IrDA Transmitter Enabled and Receiver Disabled"
group.long 0x2C++0x03
line.long 0x00 "UART_ALTCTL,UART Alternate Control/Status Register"
hexmask.long.byte 0x00 24.--31. 1. "ADDRMV,Address Match Value \nThis field contains the RS-485 address match values.\nNote: This field is used for RS-485 auto address detection mode"
bitfld.long 0x00 19.--20. "ABRDBITS,Auto-baud Rate Detect Bit Length \nNote : The calculation of bit number includes the START bit" "0: 1-bit time from START bit to the 1st rising..,1: 2-bit time from START bit to the 1st rising..,2: 4-bit time from START bit to the 1st rising..,3: 8-bit time from START bit to the 1st rising.."
newline
bitfld.long 0x00 18. "ABRDEN,Auto-baud Rate Detect Enable Bit\nNote : This bit is cleared automatically after auto-baud detection is finished" "0: Auto-baud rate detect function Disabled,1: Auto-baud rate detect function Enabled"
rbitfld.long 0x00 17. "ABRIF,Auto-baud Rate Interrupt Flag (Read Only) \nThis bit is set when auto-baud rate detection function finished or the auto-baud rate counter was overflow and if ABRIEN(UART_INTEN [18]) is set then the auto-baud rate interrupt will be generated" "0: No auto-baud rate interrupt flag is generated,1: Auto-baud rate interrupt flag is generated"
newline
bitfld.long 0x00 15. "ADDRDEN,RS-485 Address Detection Enable Bit\nThis bit is used to enable RS-485 Address Detection mode" "0: Address detection mode Disabled,1: Address detection mode Enabled"
bitfld.long 0x00 10. "RS485AUD,RS-485 Auto Direction Function (AUD) \nNote: It can be active with RS-485_AAD or RS-485_NMM operation mode" "0: RS-485 Auto Direction Operation function..,1: RS-485 Auto Direction Operation function.."
newline
bitfld.long 0x00 9. "RS485AAD,RS-485 Auto Address Detection Operation Mode (AAD)\nNote: It cannot be active with RS-485_NMM operation mode" "0: RS-485 Auto Address Detection Operation mode..,1: RS-485 Auto Address Detection Operation mode.."
bitfld.long 0x00 8. "RS485NMM,RS-485 Normal Multi-drop Operation Mode (NMM) \nNote: It cannot be active with RS-485_AAD operation mode" "0: RS-485 Normal Multi-drop Operation mode (NMM)..,1: RS-485 Normal Multi-drop Operation mode (NMM).."
newline
bitfld.long 0x00 7. "LINTXEN,LIN TX Break Mode Enable Bit\nNote: When TX break field transfer operation finished this bit will be cleared automatically" "0: LIN TX Break mode Disabled,1: LIN TX Break mode Enabled"
bitfld.long 0x00 6. "LINRXEN,LIN RX Enable Bit" "0: LIN RX mode Disabled,1: LIN RX mode Enabled"
newline
bitfld.long 0x00 0.--3. "BRKFL,UART LIN Break Field Length\nThis field indicates a 4-bit LIN TX break field count.\n" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x03
line.long 0x00 "UART_FUNCSEL,UART Function Select Register"
bitfld.long 0x00 3. "TXRXDIS,TX and RX Disable Bit\nSetting this bit can disable TX and RX.\nNote: The TX and RX will not disable immediately when this bit is set" "0: TX and RX Enabled,1: TX and RX Disabled"
bitfld.long 0x00 0.--2. "FUNCSEL,Function Select" "0: UART function,1: LIN function,2: IrDA function,3: RS-485 function,4: UART Single-wire function,?..."
group.long 0x34++0x03
line.long 0x00 "UART_LINCTL,UART LIN Control Register"
abitfld.long 0x00 24.--31. "PID,LIN PID Bits\nIf the parity generated by hardware user fill ID0~ID5 (PID [29:24]) hardware will calculate P0 (PID[30]) and P1 (PID[31]) otherwise user must filled frame ID and parity in this field.\n" "0x01=1: User can fill any 8-bit value to this..,0x02=2: This field can be used for LIN master.."
bitfld.long 0x00 22.--23. "HSEL,LIN Header Select" "0: The LIN header includes 'break field',1: The LIN header includes 'break field' and..,2: The LIN header includes 'break field' 'sync..,3: Reserved"
newline
bitfld.long 0x00 20.--21. "BSL,LIN Break/Sync Delimiter Length \nNote: This bit used for LIN master to sending header field" "0: The LIN break/sync delimiter length is 1-bit..,1: The LIN break/sync delimiter length is 2-bit..,2: The LIN break/sync delimiter length is 3-bit..,3: The LIN break/sync delimiter length is 4-bit.."
bitfld.long 0x00 16.--19. "BRKFL,LIN Break Field Length \nThis field indicates a 4-bit LIN TX break field count.\n" "?,1: These registers are shadow registers of BRKFL,2: This break field length is BRKFL + 1,?..."
newline
bitfld.long 0x00 12. "BITERREN,Bit Error Detect Enable Bit" "0: Bit error detection function Disabled,1: Bit error detection function Enabled"
bitfld.long 0x00 11. "LINRXOFF,LIN Receiver Disable Bit" "0: LIN receiver Enabled,1: LIN receiver Disabled"
newline
bitfld.long 0x00 10. "BRKDETEN,LIN Break Detection Enable Bit" "0: LIN break detection Disabled,1: LIN break detection Enabled"
bitfld.long 0x00 9. "IDPEN,LIN ID Parity Enable Bit" "0: LIN frame ID parity Disabled,1: LIN frame ID parity Enabled"
newline
bitfld.long 0x00 8. "SENDH,LIN TX Send Header Enable Bit\nThe LIN TX header can be 'break field' or 'break and sync field' or 'break sync and frame ID field' it is depend on setting HSEL (UART_LINCTL[23:22]).\n" "0: Send LIN TX header Disabled,1: Send LIN TX header Enabled"
bitfld.long 0x00 4. "MUTE,LIN Mute Mode Enable Bit\nNote: The exit from mute mode condition and each control and interactions of this field are explained in 6.16.5.10 (LIN slave mode)" "0: LIN mute mode Disabled,1: LIN mute mode Enabled"
newline
bitfld.long 0x00 3. "SLVDUEN,LIN Slave Divider Update Method Enable Bit\n" "0: UART_BAUD updated is written by software (if..,1: UART_BAUD is updated at the next received.."
bitfld.long 0x00 2. "SLVAREN,LIN Slave Automatic Resynchronization Mode Enable Bit\n" "0: LIN automatic resynchronization Disabled,1: LIN automatic resynchronization Enabled"
newline
bitfld.long 0x00 1. "SLVHDEN,LIN Slave Header Detection Enable Bit" "0: LIN slave header detection Disabled,1: LIN slave header detection Enabled"
bitfld.long 0x00 0. "SLVEN,LIN Slave Mode Enable Bit" "0: LIN slave mode Disabled,1: LIN slave mode Enabled"
group.long 0x38++0x03
line.long 0x00 "UART_LINSTS,UART LIN Status Register"
bitfld.long 0x00 9. "BITEF,Bit Error Detect Status Flag \nAt TX transfer state hardware will monitor the bus state if the input pin (UART_RXD) state not equals to the output pin (UART_TXD) state BITEF (UART_LINSTS[9]) will be set" "0: Bit error not detected,1: Bit error detected"
bitfld.long 0x00 8. "BRKDETF,LIN Break Detection Flag\nThis bit is set by hardware when a break is detected and be cleared by writing 1 to it through software" "0: LIN break not detected,1: LIN break detected"
newline
bitfld.long 0x00 3. "SLVSYNCF,LIN Slave Sync Field\nThis bit indicates that the LIN sync field is being analyzed in Automatic Resynchronization mode" "0: The current character is not at LIN sync state,1: The current character is at LIN sync state"
bitfld.long 0x00 2. "SLVIDPEF,LIN Slave ID Parity Error Flag \nThis bit is set by hardware when receipted frame ID parity is not correct" "0: No active,1: Receipted frame ID parity is not correct"
newline
bitfld.long 0x00 1. "SLVHEF,LIN Slave Header Error Flag\nThis bit is set by hardware when a LIN header error is detected in LIN slave mode and be cleared by writing 1 to it" "0: LIN header error not detected,1: LIN header error detected"
bitfld.long 0x00 0. "SLVHDETF,LIN Slave Header Detection Flag\nThis bit is set by hardware when a LIN header is detected in LIN slave mode and be cleared by writing 1 to it.\n" "0: LIN header not detected,1: LIN header detected (break + sync + frame ID)"
group.long 0x3C++0x03
line.long 0x00 "UART_BRCOMP,UART Baud Rate Compensation Register"
bitfld.long 0x00 31. "BRCOMPDEC,Baud Rate Compensation Decrease" "0: Positive (increase one module clock)..,1: Negative (decrease one module clock).."
hexmask.long.word 0x00 0.--8. 1. "BRCOMP,Baud Rate Compensation Patten\nThese 9-bits are used to define the relative bit is compensated or not"
group.long 0x40++0x03
line.long 0x00 "UART_WKCTL,UART Wake-up Control Register"
bitfld.long 0x00 4. "WKTOUTEN,Received Data FIFO Reached Threshold Time-out Wake-up Enable Bit\n" "0: Received Data FIFO reached threshold time-out..,1: Received Data FIFO reached threshold time-out.."
bitfld.long 0x00 3. "WKRS485EN,RS-485 Address Match (AAD Mode) Wake-up Enable Bit\n" "0: RS-485 Address Match (AAD mode) wake-up..,1: RS-485 Address Match (AAD mode) wake-up.."
newline
bitfld.long 0x00 2. "WKRFRTEN,Received Data FIFO Reached Threshold Wake-up Enable Bit\nNote: When the system is in Power-down mode Received Data FIFO reached threshold will wake-up system from Power-down mode" "0: Received Data FIFO reached threshold wake-up..,1: Received Data FIFO reached threshold wake-up.."
bitfld.long 0x00 1. "WKDATEN,Incoming Data Wake-up Enable Bit\nNote:When the system is in Power-down mode incoming data will wake-up system from Power-down mode" "0: Incoming data wake-up system function Disabled,1: Incoming data wake-up system function Enabled"
newline
bitfld.long 0x00 0. "WKCTSEN,nCTS Wake-up Enable Bit\nNote:When the system is in Power-down mode an external.nCTS change will wake up system from Power-down mode" "0: nCTS Wake-up system function Disabled,1: nCTS Wake-up system function Enabled"
group.long 0x44++0x03
line.long 0x00 "UART_WKSTS,UART Wake-up Status Register"
bitfld.long 0x00 4. "TOUTWKF,Received Data FIFO Threshold Time-out Wake-up Flag\nThis bit is set if chip wake-up from power-down state by Received Data FIFO Threshold Time-out\nwake-up.\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by.."
bitfld.long 0x00 3. "RS485WKF,RS-485 Address Match (AAD Mode) Wake-up Flag\nThis bit is set if chip wake-up from power-down state by RS-485 Address Match (AAD mode).\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by RS-485.."
newline
bitfld.long 0x00 2. "RFRTWKF,Received Data FIFO Reached Threshold Wake-up Flag\nThis bit is set if chip wake-up from power-down state by Received Data FIFO reached threshold wake-up.\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by.."
bitfld.long 0x00 1. "DATWKF,Incoming Data Wake-up Flag\nThis bit is set if chip wake-up from power-down state by data wake-up.\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by.."
newline
bitfld.long 0x00 0. "CTSWKF,nCTS Wake-up Flag\nThis bit is set if chip wake-up from power-down state by nCTS wake-up.\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by nCTS.."
group.long 0x48++0x03
line.long 0x00 "UART_DWKCOMP,UART Incoming Data Wake-up Compensation Register"
hexmask.long.word 0x00 0.--15. 1. "STCOMP,START Bit Compensation Value\nThese bits field indicate how many clock cycle selected by UART_CLK do the UART controller can get the 1st bit (START bit) when the device is wake-up from Power-down mode.\nNote: It is valid only when WKDATEN.."
tree.end
tree "UART1"
base ad:0x40071000
group.long 0x00++0x03
line.long 0x00 "UART_DAT,UART Receive/Transmit Buffer Register"
bitfld.long 0x00 8. "PARITY,PARITY Bit Receive/Transmit Buffer\nWrite Operation:\nBy writing to this bit the PARITY bit will be stored in transmitter FIFO" "0,1"
hexmask.long.byte 0x00 0.--7. 1. "DAT,Data Receive/Transmit Buffer\nWrite Operation:\nBy writing one byte to this register the data byte will be stored in transmitter FIFO"
group.long 0x04++0x03
line.long 0x00 "UART_INTEN,UART Interrupt Enable Register"
bitfld.long 0x00 22. "TXENDIEN,Transmitter Empty Interrupt Enable Bit\nIf TXENDIEN (UART_INTEN[22]) is enabled the Transmitter Empty interrupt TXENDINT (UART_INTSTS[30]) will be generated when TXENDIF (UART_INTSTS[22]) is set (TX FIFO (UART_DAT) is empty and the STOP bit of.." "0: Transmitter empty interrupt Disabled,1: Transmitter empty interrupt Enabled"
bitfld.long 0x00 18. "ABRIEN,Auto-baud Rate Interrupt Enable Bit" "0: Auto-baud rate interrupt Disabled,1: Auto-baud rate interrupt Enabled"
newline
bitfld.long 0x00 16. "SWBEIEN,Single-wire Bit Error Detection Interrupt Enable Bit\nSet this bit the Single-wire Half Duplex Bit Error Detection Interrupt SWBEINT(UART_INTSTS[24]) is generated when Single-wire Bit Error Detection SWBEIF(UART_INTSTS[16]) is set.\nNote: This.." "0: Single-wire Bit Error Detect Inerrupt Disabled,1: Single-wire Bit Error Detect Inerrupt Enabled"
bitfld.long 0x00 15. "RXPDMAEN,RX PDMA Enable Bit\nThis bit can enable or disable RX PDMA service.\nNote: If RLSIEN (UART_INTEN[2]) is enabled and HWRLSINT (UART_INTSTS[26]) is set to 1 the RLS (Receive Line Status) Interrupt is caused" "0: RX PDMA Disabled,1: RX PDMA Enabled"
newline
bitfld.long 0x00 14. "TXPDMAEN,TX PDMA Enable Bit\nNote: If RLSIEN (UART_INTEN[2]) is enabled and HWRLSINT (UART_INTSTS[26]) is set to 1 the RLS (Receive Line Status) Interrupt is caused" "0: TX PDMA Disabled,1: TX PDMA Enabled"
bitfld.long 0x00 13. "ATOCTSEN,nCTS Auto-flow Control Enable Bit\nNote: When nCTS auto-flow is enabled the UART will send data to external device if nCTS input assert (UART will not send data to device until nCTS is asserted)" "0: nCTS auto-flow control Disabled,1: nCTS auto-flow control Enabled"
newline
bitfld.long 0x00 12. "ATORTSEN,nRTS Auto-flow Control Enable Bit\nNote: When nRTS auto-flow is enabled if the number of bytes in the RX FIFO equals the RTSTRGLV (UART_FIFO[19:16]) the UART will de-assert nRTS signal" "0: nRTS auto-flow control Disabled,1: nRTS auto-flow control Enabled"
bitfld.long 0x00 11. "TOCNTEN,Receive Buffer Time-out Counter Enable Bit" "0: Receive Buffer Time-out counter Disabled,1: Receive Buffer Time-out counter Enabled"
newline
bitfld.long 0x00 8. "LINIEN,LIN Bus Interrupt Enable Bit\nNote: This bit is used for LIN function mode" "0: LIN bus interrupt Disabled,1: LIN bus interrupt Enabled"
bitfld.long 0x00 6. "WKIEN,Wake-up Interrupt Enable Bit" "0: Wake-up Interrupt Disabled,1: Wake-up Interrupt Enabled"
newline
bitfld.long 0x00 5. "BUFERRIEN,Buffer Error Interrupt Enable Bit" "0: Buffer error interrupt Disabled,1: Buffer error interrupt Enabled"
bitfld.long 0x00 4. "RXTOIEN,RX Time-out Interrupt Enable Bit" "0: RX time-out interrupt Disabled,1: RX time-out interrupt Enabled"
newline
bitfld.long 0x00 3. "MODEMIEN,Modem Status Interrupt Enable Bit" "0: Modem status interrupt Disabled,1: Modem status interrupt Enabled"
bitfld.long 0x00 2. "RLSIEN,Receive Line Status Interrupt Enable Bit" "0: Receive Line Status interrupt Disabled,1: Receive Line Status interrupt Enabled"
newline
bitfld.long 0x00 1. "THREIEN,Transmit Holding Register Empty Interrupt Enable Bit" "0: Transmit holding register empty interrupt..,1: Transmit holding register empty interrupt.."
bitfld.long 0x00 0. "RDAIEN,Receive Data Available Interrupt Enable Bit" "0: Receive data available interrupt Disabled,1: Receive data available interrupt Enabled"
group.long 0x08++0x03
line.long 0x00 "UART_FIFO,UART FIFO Control Register"
bitfld.long 0x00 16.--19. "RTSTRGLV,nRTS Trigger Level for Auto-flow Control\nNote: This field is used for auto nRTS flow control" "0: nRTS Trigger Level is 1 byte,1: nRTS Trigger Level is 4 bytes,2: nRTS Trigger Level is 8 bytes,3: nRTS Trigger Level is 14 bytes,?..."
bitfld.long 0x00 8. "RXOFF,Receiver Disable Bit\nThe receiver is disabled or not (set 1 to disable receiver).\nNote: This bit is used for RS-485 Normal Multi-drop mode" "0: Receiver Enabled,1: Receiver Disabled"
newline
bitfld.long 0x00 4.--7. "RFITL,RX FIFO Interrupt Trigger Level\nWhen the number of bytes in the receive FIFO equals the RFITL the RDAIF (UART_INTSTS[0]) will be set (if RDAIEN (UART_INTEN [0]) enabled and an interrupt will be generated)" "0: RX FIFO Interrupt Trigger Level is 1 byte,1: RX FIFO Interrupt Trigger Level is 4 bytes,2: RX FIFO Interrupt Trigger Level is 8 bytes,3: RX FIFO Interrupt Trigger Level is 14 bytes,?..."
bitfld.long 0x00 2. "TXRST,TX Field Software Reset\nWhen TXRST (UART_FIFO[2]) is set all the byte in the transmit FIFO and TX internal state machine are cleared.\n" "0: No effect,1: Reset the TX internal state machine and.."
newline
bitfld.long 0x00 1. "RXRST,RX Field Software Reset\nWhen RXRST (UART_FIFO[1]) is set all the byte in the receiver FIFO and RX internal state machine are cleared.\n" "0: No effect,1: Reset the RX internal state machine and.."
group.long 0x0C++0x03
line.long 0x00 "UART_LINE,UART Line Control Register"
bitfld.long 0x00 9. "RXDINV,RX Data Inverted\n" "0: Received data signal inverted Disabled,1: Received data signal inverted Enabled"
bitfld.long 0x00 8. "TXDINV,TX Data Inverted\n" "0: Transmitted data signal inverted Disabled,1: Transmitted data signal inverted Enabled"
newline
bitfld.long 0x00 7. "PSS,PARITY Bit Source Selection\nThe PARITY bit can be selected to be generated and checked automatically or by software.\n" "0: PARITY bit is generated by EPE (UART_LINE[4])..,1: PARITY bit generated and checked by software"
bitfld.long 0x00 6. "BCB,Break Control Bit\nNote: When this bit is set to logic 1 the transmitted serial data output (TX) is forced to the Spacing State (logic 0)" "0: Break Control Disabled,1: Break Control Enabled"
newline
bitfld.long 0x00 5. "SPE,Stick Parity Enable Bit\nNote: If PBE (UART_LINE[3]) and EPE (UART_LINE[4]) are logic 1 the PARITY bit is transmitted and checked as logic 0" "0: Stick parity Disabled,1: Stick parity Enabled"
bitfld.long 0x00 4. "EPE,Even Parity Enable Bit\nNote: This bit has effect only when PBE (UART_LINE[3]) is set" "0: Odd number of logic 1's is transmitted and..,1: Even number of logic 1's is transmitted and.."
newline
bitfld.long 0x00 3. "PBE,PARITY Bit Enable Bit\nNote: PARITY bit is generated on each outgoing character and is checked on each incoming data" "0: PARITY bit generated Disabled,1: PARITY bit generated Enabled"
bitfld.long 0x00 2. "NSB,Number of 'STOP Bit'" "0: One 'STOP bit' is generated in the..,1: When select 5-bit word length 1.5 'STOP bit'.."
newline
bitfld.long 0x00 0.--1. "WLS,Word Length Selection\nThis field sets UART word length" "0: 5 bits,1: 6 bits,2: 7 bits,3: 8 bits"
group.long 0x10++0x03
line.long 0x00 "UART_MODEM,UART Modem Control Register"
rbitfld.long 0x00 13. "RTSSTS,nRTS Pin Status (Read Only)\nThis bit mirror from nRTS pin output of voltage logic status" "0: nRTS pin output is low level voltage logic..,1: nRTS pin output is high level voltage logic.."
bitfld.long 0x00 9. "RTSACTLV,nRTS Pin Active Level\nThis bit defines the active level state of nRTS pin output.\n" "0: nRTS pin output is high level active,1: nRTS pin output is low level active"
newline
bitfld.long 0x00 1. "RTS,nRTS (Request-to-send) Signal Control\nThis bit is direct control internal nRTS signal active or not and then drive the nRTS pin output with RTSACTLV bit configuration.\n" "0: nRTS signal is active,1: nRTS signal is inactive"
group.long 0x14++0x03
line.long 0x00 "UART_MODEMSTS,UART Modem Status Register"
bitfld.long 0x00 8. "CTSACTLV,nCTS Pin Active Level\nThis bit defines the active level state of nCTS pin input.\nNote: Before setting this bit TXRXDIS (UART_FUNCSEL[3]) should be set then waited for TXRXACT (UART_FIFOSTS[31]) is cleared" "0: nCTS pin input is high level active,1: nCTS pin input is low level active"
rbitfld.long 0x00 4. "CTSSTS,nCTS Pin Status (Read Only)\nThis bit mirror from nCTS pin input of voltage logic status.\nNote: This bit echoes when UART controller peripheral clock is enabled and nCTS multi-function port is selected" "0: nCTS pin input is low level voltage logic state,1: nCTS pin input is high level voltage logic.."
newline
bitfld.long 0x00 0. "CTSDETF,Detect nCTS State Change Flag\nThis bit is set whenever nCTS input has change state and it will generate Modem interrupt to CPU when MODEMIEN (UART_INTEN [3]) is set to 1.\nNote: This bit can be cleared by writing '1' to it" "0: nCTS input has not change state,1: nCTS input has change state"
group.long 0x18++0x03
line.long 0x00 "UART_FIFOSTS,UART FIFO Status Register"
rbitfld.long 0x00 31. "TXRXACT,TX and RX Active Status (Read Only)\nThis bit indicates TX and RX are active or inactive.\nNote: When TXRXDIS (UART_FUNCSEL[3]) is set and both TX and RX are in idle state this bit is cleared" "0: TX and RX are inactive,1: TX and RX are active"
rbitfld.long 0x00 29. "RXIDLE,RX Idle Status (Read Only)\nThis bit is set by hardware when RX is idle" "0: RX is busy,1: RX is idle"
newline
rbitfld.long 0x00 28. "TXEMPTYF,Transmitter Empty Flag (Read Only)\nThis bit is set by hardware when TX FIFO (UART_DAT) is empty and the STOP bit of the last byte has been transmitted.\nNote: This bit is cleared automatically when TX FIFO is not empty or the last byte.." "0: TX FIFO is not empty or the STOP bit of the..,1: TX FIFO is empty and the STOP bit of the last.."
bitfld.long 0x00 24. "TXOVIF,TX Overflow Error Interrupt Flag\nIf TX FIFO (UART_DAT) is full an additional write to UART_DAT will cause this bit to logic 1.\nNote: This bit can be cleared by writing '1' to it" "0: TX FIFO is not overflow,1: TX FIFO is overflow"
newline
rbitfld.long 0x00 23. "TXFULL,Transmitter FIFO Full (Read Only)\nThis bit indicates TX FIFO full or not.\nNote: This bit is set when the number of usage in TX FIFO Buffer is equal to 16 otherwise it is cleared by hardware" "0: TX FIFO is not full,1: TX FIFO is full"
rbitfld.long 0x00 22. "TXEMPTY,Transmitter FIFO Empty (Read Only)\nThis bit indicates TX FIFO empty or not.\nNote: When the last byte of TX FIFO has been transferred to Transmitter Shift Register hardware sets this bit high" "0: TX FIFO is not empty,1: TX FIFO is empty"
newline
rbitfld.long 0x00 16.--21. "TXPTR,TX FIFO Pointer (Read Only)\nThis field indicates the TX FIFO Buffer Pointer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rbitfld.long 0x00 15. "RXFULL,Receiver FIFO Full (Read Only)\nThis bit initiates RX FIFO full or not.\nNote: This bit is set when the number of usage in RX FIFO Buffer is equal to 16 otherwise it is cleared by hardware" "0: RX FIFO is not full,1: RX FIFO is full"
newline
rbitfld.long 0x00 14. "RXEMPTY,Receiver FIFO Empty (Read Only)\nThis bit initiate RX FIFO empty or not.\nNote: When the last byte of RX FIFO has been read by CPU hardware sets this bit high" "0: RX FIFO is not empty,1: RX FIFO is empty"
rbitfld.long 0x00 8.--13. "RXPTR,RX FIFO Pointer (Read Only)\nThis field indicates the RX FIFO Buffer Pointer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 6. "BIF,Break Interrupt Flag\nThis bit is set to logic 1 whenever the received data input (RX) is held in the 'spacing state' (logic 0) for longer than a full word transmission time (that is the total time of 'START bit' + data bits + parity + STOP.." "0: No Break interrupt is generated,1: Break interrupt is generated"
bitfld.long 0x00 5. "FEF,Framing Error Flag\nThis bit is set to logic 1 whenever the received character does not have a valid 'STOP bit' (that is the STOP bit following the last data bit or PARITY bit is detected as logic 0).\nNote: This bit can be cleared by writing '1' to.." "0: No framing error is generated,1: Framing error is generated"
newline
bitfld.long 0x00 4. "PEF,Parity Error Flag\nThis bit is set to logic 1 whenever the received character does not have a valid 'PARITY bit'.\nNote: This bit can be cleared by writing '1' to it" "0: No parity error is generated,1: Parity error is generated"
bitfld.long 0x00 3. "ADDRDETF,RS-485 Address Byte Detect Flag\n" "0: Receiver detects a data that is not an..,1: Receiver detects a data that is an address.."
newline
bitfld.long 0x00 2. "ABRDTOIF,Auto-baud Rate Detect Time-out Interrupt Flag\nThis bit is set to logic '1' in Auto-baud Rate Detect mode when the baud rate counter is overflow.\nNote: This bit can be cleared by writing '1' to it" "0: Auto-baud rate counter is underflow,1: Auto-baud rate counter is overflow"
bitfld.long 0x00 1. "ABRDIF,Auto-baud Rate Detect Interrupt Flag\nThis bit is set to logic '1' when auto-baud rate detect function is finished.\nNote: This bit can be cleared by writing '1' to it" "0: Auto-baud rate detect function is not finished,1: Auto-baud rate detect function is finished"
newline
bitfld.long 0x00 0. "RXOVIF,RX Overflow Error Interrupt Flag\nThis bit is set when RX FIFO overflow.\nIf the number of bytes of received data is greater than RX_FIFO (UART_DAT) size 16 bytes this bit will be set.\nNote: This bit can be cleared by writing '1' to it" "0: RX FIFO is not overflow,1: RX FIFO is overflow"
group.long 0x1C++0x03
line.long 0x00 "UART_INTSTS,UART Interrupt Status Register"
rbitfld.long 0x00 31. "ABRINT,Auto-baud Rate Interrupt Indicator (Read Only)\nThis bit is set if ABRIEN (UART_INTEN[18]) and ABRIF (UART_ALTCTL[17]) are both set to 1" "0: No Auto-baud Rate interrupt is generated,1: The Auto-baud Rate interrupt is generated"
rbitfld.long 0x00 30. "TXENDINT,Transmitter Empty Interrupt Indicator (Read Only) \nThis bit is set if TXENDIEN (UART_INTEN[22]) and TXENDIF(UART_INTSTS[22]) are both set to 1" "0: No Transmitter Empty interrupt is generated,1: Transmitter Empty interrupt is generated"
newline
rbitfld.long 0x00 29. "HWBUFEINT,PDMA Mode Buffer Error Interrupt Indicator (Read Only)\nThis bit is set if BUFERRIEN (UART_INTEN[5]) and HWBUFEIF (UART_INTSTS[21]) are both set to 1" "0: No buffer error interrupt is generated in..,1: Buffer error interrupt is generated in PDMA.."
rbitfld.long 0x00 28. "HWTOINT,PDMA Mode RX Time-out Interrupt Indicator (Read Only)\nThis bit is set if RXTOIEN (UART_INTEN[4]) and HWTOIF(UART_INTSTS[20]) are both set to 1" "0: No RX time-out interrupt is generated in PDMA..,1: RX time-out interrupt is generated in PDMA mode"
newline
rbitfld.long 0x00 27. "HWMODINT,PDMA Mode MODEM Status Interrupt Indicator (Read Only)\nThis bit is set if MODEMIEN (UART_INTEN[3]) and HWMODIF(UART_INTSTS[19]) are both set to 1" "0: No Modem interrupt is generated in PDMA mode,1: Modem interrupt is generated in PDMA mode"
rbitfld.long 0x00 26. "HWRLSINT,PDMA Mode Receive Line Status Interrupt Indicator (Read Only)\nThis bit is set if RLSIEN (UART_INTEN[2]) and HWRLSIF(UART_INTSTS[18]) are both set to 1" "0: No RLS interrupt is generated in PDMA mode,1: RLS interrupt is generated in PDMA mode"
newline
rbitfld.long 0x00 24. "SWBEINT,Single-wire Bit Error Detect Interrupt Indicator (Read Only)\nThis bit is set if SWBEIEN (UART_INTEN[16]) and SWBEIF (UART_INTSTS[16]) are both set to 1" "0: No Single-wire Bit Error Detection Interrupt..,1: Single-wire Bit Error Detection Interrupt.."
bitfld.long 0x00 22. "TXENDIF,Transmitter Empty Interrupt Flag\nThis bit is set when TX FIFO (UART_DAT) is empty and the STOP bit of the last byte has been transmitted (TXEMPTYF (UART_FIFOSTS[28]) is set)" "0: No transmitter empty interrupt flag is..,1: Transmitter empty interrupt flag is generated"
newline
rbitfld.long 0x00 21. "HWBUFEIF,PDMA Mode Buffer Error Interrupt Flag (Read Only)\nThis bit is set when the TX or RX FIFO overflows (TXOVIF (UART_FIFOSTS [24]) or RXOVIF (UART_FIFOSTS[0]) is set)" "0: No buffer error interrupt flag is generated..,1: Buffer error interrupt flag is generated in.."
rbitfld.long 0x00 20. "HWTOIF,PDMA Mode RX Time-out Interrupt Flag (Read Only)\nThis bit is set when the RX FIFO is not empty and no activities occurred in the RX FIFO and the time-out counter equal to TOIC (UART_TOUT[7:0])" "0: No RX time-out interrupt flag is generated in..,1: RX time-out interrupt flag is generated in.."
newline
rbitfld.long 0x00 19. "HWMODIF,PDMA Mode MODEM Interrupt Flag (Read Only)\nNote: This bit is read only and reset to 0 when the bit CTSDETF (UART_MODEMSTS[0]) is cleared by writing 1 on CTSDETF (UART_MODEMSTS [0])" "0: No Modem interrupt flag is generated in PDMA..,1: Modem interrupt flag is generated in PDMA mode"
rbitfld.long 0x00 18. "HWRLSIF,PDMA Mode Receive Line Status Flag (Read Only)\nThis bit is set when the RX receive data have parity error frame error or break error (at least one of 3 bits BIF (UART_FIFOSTS[6]) FEF (UART_FIFOSTS[5]) and PEF (UART_FIFOSTS[4]) is set)" "0: No RLS interrupt flag is generated in PDMA mode,1: RLS interrupt flag is generated in PDMA mode"
newline
bitfld.long 0x00 16. "SBEIF,Single-wire Bit Error Detection Interrupt Flag\nThis bit is set when the single wire bus state not equals to UART controller TX state in Single-wire mode.\n" "0: No single-wire bit error detection interrupt..,1: Single-wire bit error detection interrupt.."
rbitfld.long 0x00 15. "LININT,LIN Bus Interrupt Indicator (Read Only)\nThis bit is set if LINIEN (UART_INTEN[8]) and LINIF(UART_INTSTS[7]) are both set to 1" "0: No LIN Bus interrupt is generated,1: The LIN Bus interrupt is generated"
newline
rbitfld.long 0x00 14. "WKINT,UART Wake-up Interrupt Indicator (Read Only)\nThis bit is set if WKIEN (UART_INTEN[6]) and WKIF (UART_INTSTS[6]) are both set to 1" "0: No UART wake-up interrupt is generated,1: UART wake-up interrupt is generated"
rbitfld.long 0x00 13. "BUFERRINT,Buffer Error Interrupt Indicator (Read Only)\nThis bit is set if BUFERRIEN(UART_INTEN[5]) and BUFERRIF(UART_ INTSTS[5]) are both set to 1" "0: No buffer error interrupt is generated,1: Buffer error interrupt is generated"
newline
rbitfld.long 0x00 12. "RXTOINT,RX Time-out Interrupt Indicator (Read Only)\nThis bit is set if RXTOIEN (UART_INTEN[4]) and RXTOIF(UART_INTSTS[4]) are both set to 1" "0: No RX time-out interrupt is generated,1: RX time-out interrupt is generated"
rbitfld.long 0x00 11. "MODEMINT,MODEM Status Interrupt Indicator (Read Only)\nThis bit is set if MODEMIEN(UART_INTEN[3]) and MODEMIF(UART_INTSTS[3]) are both set to 1" "0: No Modem interrupt is generated,1: Modem interrupt is generated"
newline
rbitfld.long 0x00 10. "RLSINT,Receive Line Status Interrupt Indicator (Read Only) \nThis bit is set if RLSIEN (UART_INTEN[2]) and RLSIF(UART_INTSTS[2]) are both set to 1" "0: No RLS interrupt is generated,1: RLS interrupt is generated"
rbitfld.long 0x00 9. "THREINT,Transmit Holding Register Empty Interrupt Indicator (Read Only)\nThis bit is set if THREIEN (UART_INTEN[1]) and THREIF(UART_INTSTS[1]) are both set to 1" "0: No THRE interrupt is generated,1: THRE interrupt is generated"
newline
rbitfld.long 0x00 8. "RDAINT,Receive Data Available Interrupt Indicator (Read Only)\nThis bit is set if RDAIEN (UART_INTEN[0]) and RDAIF (UART_INTSTS[0]) are both set to 1" "0: No RDA interrupt is generated,1: RDA interrupt is generated"
bitfld.long 0x00 7. "LINIF,LIN Bus Interrupt Flag\nNote: This bit is cleared when SLVHDETF(UART_LINSTS[0]) BRKDETF(UART_LINSTS[8]) BITEF(UART_LINSTS[9]) SLVIDPEF (UART_LINSTS[2]) and SLVHEF(UART_LINSTS[1]) all are cleared and software writing '1' to LINIF(UART_INTSTS[7])" "0: None of SLVHDETF BRKDETF BITEF SLVIDPEF and..,1: At least one of SLVHDETF BRKDETF BITEF.."
newline
rbitfld.long 0x00 6. "WKIF,UART Wake-up Interrupt Flag (Read Only)\nThis bit is set when TOUTWKF (UART_WKSTS[4]) RS485WKF (UART_WKSTS[3]) RFRTWKF (UART_WKSTS[2]) DATWKF (UART_WKSTS[1]) or CTSWKF(UART_WKSTS[0]) is set to 1.\nNote: This bit is cleared if all of TOUTWKF.." "0: No UART wake-up interrupt flag is generated,1: UART wake-up interrupt flag is generated"
rbitfld.long 0x00 5. "BUFERRIF,Buffer Error Interrupt Flag (Read Only)\nThis bit is set when the TX FIFO or RX FIFO overflows (TXOVIF (UART_FIFOSTS[24]) or RXOVIF (UART_FIFOSTS[0]) is set)" "0: No buffer error interrupt flag is generated,1: Buffer error interrupt flag is generated"
newline
rbitfld.long 0x00 4. "RXTOIF,RX Time-out Interrupt Flag (Read Only)\nThis bit is set when the RX FIFO is not empty and no activities occurred in the RX FIFO and the time-out counter equal to TOIC (UART_TOUT[7:0])" "0: No RX time-out interrupt flag is generated,1: RX time-out interrupt flag is generated"
rbitfld.long 0x00 3. "MODEMIF,MODEM Interrupt Flag (Read Only)\nNote: This bit is read only and reset to 0 when bit CTSDETF is cleared by a write 1 on CTSDETF(UART_MODEMSTS[0])" "0: No Modem interrupt flag is generated,1: Modem interrupt flag is generated"
newline
rbitfld.long 0x00 2. "RLSIF,Receive Line Interrupt Flag (Read Only)\nThis bit is set when the RX receive data have parity error frame error or break error (at least one of 3 bits BIF(UART_FIFOSTS[6]) FEF(UART_FIFOSTS[5]) and PEF(UART_FIFOSTS[4]) is set)" "0: No RLS interrupt flag is generated,1: RLS interrupt flag is generated"
rbitfld.long 0x00 1. "THREIF,Transmit Holding Register Empty Interrupt Flag (Read Only)\nThis bit is set when the last data of TX FIFO is transferred to Transmitter Shift Register" "0: No THRE interrupt flag is generated,1: THRE interrupt flag is generated"
newline
rbitfld.long 0x00 0. "RDAIF,Receive Data Available Interrupt Flag (Read Only)\nWhen the number of bytes in the RX FIFO equals the RFITL then the RDAIF(UART_INTSTS[0]) will be set" "0: No RDA interrupt flag is generated,1: RDA interrupt flag is generated"
group.long 0x20++0x03
line.long 0x00 "UART_TOUT,UART Time-out Register"
hexmask.long.byte 0x00 8.--15. 1. "DLY,TX Delay Time Value \nThis field is used to program the transfer delay time between the last STOP bit and next START bit"
hexmask.long.byte 0x00 0.--7. 1. "TOIC,Time-out Interrupt Comparator"
group.long 0x24++0x03
line.long 0x00 "UART_BAUD,UART Baud Rate Divider Register"
bitfld.long 0x00 29. "BAUDM1,BAUD Rate Mode Selection Bit 1\nThis bit is baud rate mode selection bit 1" "0,1"
bitfld.long 0x00 28. "BAUDM0,BAUD Rate Mode Selection Bit 0\nThis bit is baud rate mode selection bit 0" "0,1"
newline
bitfld.long 0x00 24.--27. "EDIVM1,Extra Divider for BAUD Rate Mode 1\nThis field is used for baud rate calculation in mode 1 and has no effect for baud rate calculation in mode 0 and mode 2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--15. 1. "BRD,Baud Rate Divider\nThe field indicates the baud rate divider"
group.long 0x28++0x03
line.long 0x00 "UART_IRDA,UART IrDA Control Register"
bitfld.long 0x00 6. "RXINV,IrDA Inverse Receive Input Signal \n" "0: None inverse receiving input signal,1: Inverse receiving input signal"
bitfld.long 0x00 5. "TXINV,IrDA Inverse Transmitting Output Signal \n" "0: None inverse transmitting signal,1: Inverse transmitting output signal"
newline
bitfld.long 0x00 1. "TXEN,IrDA Receiver/Transmitter Selection Enable Bit" "0: IrDA Transmitter Disabled and Receiver Enabled,1: IrDA Transmitter Enabled and Receiver Disabled"
group.long 0x2C++0x03
line.long 0x00 "UART_ALTCTL,UART Alternate Control/Status Register"
hexmask.long.byte 0x00 24.--31. 1. "ADDRMV,Address Match Value \nThis field contains the RS-485 address match values.\nNote: This field is used for RS-485 auto address detection mode"
bitfld.long 0x00 19.--20. "ABRDBITS,Auto-baud Rate Detect Bit Length \nNote : The calculation of bit number includes the START bit" "0: 1-bit time from START bit to the 1st rising..,1: 2-bit time from START bit to the 1st rising..,2: 4-bit time from START bit to the 1st rising..,3: 8-bit time from START bit to the 1st rising.."
newline
bitfld.long 0x00 18. "ABRDEN,Auto-baud Rate Detect Enable Bit\nNote : This bit is cleared automatically after auto-baud detection is finished" "0: Auto-baud rate detect function Disabled,1: Auto-baud rate detect function Enabled"
rbitfld.long 0x00 17. "ABRIF,Auto-baud Rate Interrupt Flag (Read Only) \nThis bit is set when auto-baud rate detection function finished or the auto-baud rate counter was overflow and if ABRIEN(UART_INTEN [18]) is set then the auto-baud rate interrupt will be generated" "0: No auto-baud rate interrupt flag is generated,1: Auto-baud rate interrupt flag is generated"
newline
bitfld.long 0x00 15. "ADDRDEN,RS-485 Address Detection Enable Bit\nThis bit is used to enable RS-485 Address Detection mode" "0: Address detection mode Disabled,1: Address detection mode Enabled"
bitfld.long 0x00 10. "RS485AUD,RS-485 Auto Direction Function (AUD) \nNote: It can be active with RS-485_AAD or RS-485_NMM operation mode" "0: RS-485 Auto Direction Operation function..,1: RS-485 Auto Direction Operation function.."
newline
bitfld.long 0x00 9. "RS485AAD,RS-485 Auto Address Detection Operation Mode (AAD)\nNote: It cannot be active with RS-485_NMM operation mode" "0: RS-485 Auto Address Detection Operation mode..,1: RS-485 Auto Address Detection Operation mode.."
bitfld.long 0x00 8. "RS485NMM,RS-485 Normal Multi-drop Operation Mode (NMM) \nNote: It cannot be active with RS-485_AAD operation mode" "0: RS-485 Normal Multi-drop Operation mode (NMM)..,1: RS-485 Normal Multi-drop Operation mode (NMM).."
newline
bitfld.long 0x00 7. "LINTXEN,LIN TX Break Mode Enable Bit\nNote: When TX break field transfer operation finished this bit will be cleared automatically" "0: LIN TX Break mode Disabled,1: LIN TX Break mode Enabled"
bitfld.long 0x00 6. "LINRXEN,LIN RX Enable Bit" "0: LIN RX mode Disabled,1: LIN RX mode Enabled"
newline
bitfld.long 0x00 0.--3. "BRKFL,UART LIN Break Field Length\nThis field indicates a 4-bit LIN TX break field count.\n" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x03
line.long 0x00 "UART_FUNCSEL,UART Function Select Register"
bitfld.long 0x00 3. "TXRXDIS,TX and RX Disable Bit\nSetting this bit can disable TX and RX.\nNote: The TX and RX will not disable immediately when this bit is set" "0: TX and RX Enabled,1: TX and RX Disabled"
bitfld.long 0x00 0.--2. "FUNCSEL,Function Select" "0: UART function,1: LIN function,2: IrDA function,3: RS-485 function,4: UART Single-wire function,?..."
group.long 0x34++0x03
line.long 0x00 "UART_LINCTL,UART LIN Control Register"
abitfld.long 0x00 24.--31. "PID,LIN PID Bits\nIf the parity generated by hardware user fill ID0~ID5 (PID [29:24]) hardware will calculate P0 (PID[30]) and P1 (PID[31]) otherwise user must filled frame ID and parity in this field.\n" "0x01=1: User can fill any 8-bit value to this..,0x02=2: This field can be used for LIN master.."
bitfld.long 0x00 22.--23. "HSEL,LIN Header Select" "0: The LIN header includes 'break field',1: The LIN header includes 'break field' and..,2: The LIN header includes 'break field' 'sync..,3: Reserved"
newline
bitfld.long 0x00 20.--21. "BSL,LIN Break/Sync Delimiter Length \nNote: This bit used for LIN master to sending header field" "0: The LIN break/sync delimiter length is 1-bit..,1: The LIN break/sync delimiter length is 2-bit..,2: The LIN break/sync delimiter length is 3-bit..,3: The LIN break/sync delimiter length is 4-bit.."
bitfld.long 0x00 16.--19. "BRKFL,LIN Break Field Length \nThis field indicates a 4-bit LIN TX break field count.\n" "?,1: These registers are shadow registers of BRKFL,2: This break field length is BRKFL + 1,?..."
newline
bitfld.long 0x00 12. "BITERREN,Bit Error Detect Enable Bit" "0: Bit error detection function Disabled,1: Bit error detection function Enabled"
bitfld.long 0x00 11. "LINRXOFF,LIN Receiver Disable Bit" "0: LIN receiver Enabled,1: LIN receiver Disabled"
newline
bitfld.long 0x00 10. "BRKDETEN,LIN Break Detection Enable Bit" "0: LIN break detection Disabled,1: LIN break detection Enabled"
bitfld.long 0x00 9. "IDPEN,LIN ID Parity Enable Bit" "0: LIN frame ID parity Disabled,1: LIN frame ID parity Enabled"
newline
bitfld.long 0x00 8. "SENDH,LIN TX Send Header Enable Bit\nThe LIN TX header can be 'break field' or 'break and sync field' or 'break sync and frame ID field' it is depend on setting HSEL (UART_LINCTL[23:22]).\n" "0: Send LIN TX header Disabled,1: Send LIN TX header Enabled"
bitfld.long 0x00 4. "MUTE,LIN Mute Mode Enable Bit\nNote: The exit from mute mode condition and each control and interactions of this field are explained in 6.16.5.10 (LIN slave mode)" "0: LIN mute mode Disabled,1: LIN mute mode Enabled"
newline
bitfld.long 0x00 3. "SLVDUEN,LIN Slave Divider Update Method Enable Bit\n" "0: UART_BAUD updated is written by software (if..,1: UART_BAUD is updated at the next received.."
bitfld.long 0x00 2. "SLVAREN,LIN Slave Automatic Resynchronization Mode Enable Bit\n" "0: LIN automatic resynchronization Disabled,1: LIN automatic resynchronization Enabled"
newline
bitfld.long 0x00 1. "SLVHDEN,LIN Slave Header Detection Enable Bit" "0: LIN slave header detection Disabled,1: LIN slave header detection Enabled"
bitfld.long 0x00 0. "SLVEN,LIN Slave Mode Enable Bit" "0: LIN slave mode Disabled,1: LIN slave mode Enabled"
group.long 0x38++0x03
line.long 0x00 "UART_LINSTS,UART LIN Status Register"
bitfld.long 0x00 9. "BITEF,Bit Error Detect Status Flag \nAt TX transfer state hardware will monitor the bus state if the input pin (UART_RXD) state not equals to the output pin (UART_TXD) state BITEF (UART_LINSTS[9]) will be set" "0: Bit error not detected,1: Bit error detected"
bitfld.long 0x00 8. "BRKDETF,LIN Break Detection Flag\nThis bit is set by hardware when a break is detected and be cleared by writing 1 to it through software" "0: LIN break not detected,1: LIN break detected"
newline
bitfld.long 0x00 3. "SLVSYNCF,LIN Slave Sync Field\nThis bit indicates that the LIN sync field is being analyzed in Automatic Resynchronization mode" "0: The current character is not at LIN sync state,1: The current character is at LIN sync state"
bitfld.long 0x00 2. "SLVIDPEF,LIN Slave ID Parity Error Flag \nThis bit is set by hardware when receipted frame ID parity is not correct" "0: No active,1: Receipted frame ID parity is not correct"
newline
bitfld.long 0x00 1. "SLVHEF,LIN Slave Header Error Flag\nThis bit is set by hardware when a LIN header error is detected in LIN slave mode and be cleared by writing 1 to it" "0: LIN header error not detected,1: LIN header error detected"
bitfld.long 0x00 0. "SLVHDETF,LIN Slave Header Detection Flag\nThis bit is set by hardware when a LIN header is detected in LIN slave mode and be cleared by writing 1 to it.\n" "0: LIN header not detected,1: LIN header detected (break + sync + frame ID)"
group.long 0x3C++0x03
line.long 0x00 "UART_BRCOMP,UART Baud Rate Compensation Register"
bitfld.long 0x00 31. "BRCOMPDEC,Baud Rate Compensation Decrease" "0: Positive (increase one module clock)..,1: Negative (decrease one module clock).."
hexmask.long.word 0x00 0.--8. 1. "BRCOMP,Baud Rate Compensation Patten\nThese 9-bits are used to define the relative bit is compensated or not"
group.long 0x40++0x03
line.long 0x00 "UART_WKCTL,UART Wake-up Control Register"
bitfld.long 0x00 4. "WKTOUTEN,Received Data FIFO Reached Threshold Time-out Wake-up Enable Bit\n" "0: Received Data FIFO reached threshold time-out..,1: Received Data FIFO reached threshold time-out.."
bitfld.long 0x00 3. "WKRS485EN,RS-485 Address Match (AAD Mode) Wake-up Enable Bit\n" "0: RS-485 Address Match (AAD mode) wake-up..,1: RS-485 Address Match (AAD mode) wake-up.."
newline
bitfld.long 0x00 2. "WKRFRTEN,Received Data FIFO Reached Threshold Wake-up Enable Bit\nNote: When the system is in Power-down mode Received Data FIFO reached threshold will wake-up system from Power-down mode" "0: Received Data FIFO reached threshold wake-up..,1: Received Data FIFO reached threshold wake-up.."
bitfld.long 0x00 1. "WKDATEN,Incoming Data Wake-up Enable Bit\nNote:When the system is in Power-down mode incoming data will wake-up system from Power-down mode" "0: Incoming data wake-up system function Disabled,1: Incoming data wake-up system function Enabled"
newline
bitfld.long 0x00 0. "WKCTSEN,nCTS Wake-up Enable Bit\nNote:When the system is in Power-down mode an external.nCTS change will wake up system from Power-down mode" "0: nCTS Wake-up system function Disabled,1: nCTS Wake-up system function Enabled"
group.long 0x44++0x03
line.long 0x00 "UART_WKSTS,UART Wake-up Status Register"
bitfld.long 0x00 4. "TOUTWKF,Received Data FIFO Threshold Time-out Wake-up Flag\nThis bit is set if chip wake-up from power-down state by Received Data FIFO Threshold Time-out\nwake-up.\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by.."
bitfld.long 0x00 3. "RS485WKF,RS-485 Address Match (AAD Mode) Wake-up Flag\nThis bit is set if chip wake-up from power-down state by RS-485 Address Match (AAD mode).\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by RS-485.."
newline
bitfld.long 0x00 2. "RFRTWKF,Received Data FIFO Reached Threshold Wake-up Flag\nThis bit is set if chip wake-up from power-down state by Received Data FIFO reached threshold wake-up.\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by.."
bitfld.long 0x00 1. "DATWKF,Incoming Data Wake-up Flag\nThis bit is set if chip wake-up from power-down state by data wake-up.\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by.."
newline
bitfld.long 0x00 0. "CTSWKF,nCTS Wake-up Flag\nThis bit is set if chip wake-up from power-down state by nCTS wake-up.\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by nCTS.."
group.long 0x48++0x03
line.long 0x00 "UART_DWKCOMP,UART Incoming Data Wake-up Compensation Register"
hexmask.long.word 0x00 0.--15. 1. "STCOMP,START Bit Compensation Value\nThese bits field indicate how many clock cycle selected by UART_CLK do the UART controller can get the 1st bit (START bit) when the device is wake-up from Power-down mode.\nNote: It is valid only when WKDATEN.."
tree.end
repeat 6. (list 2. 3. 4. 5. 6. 7.) (list ad:0x40072000 ad:0x40073000 ad:0x40074000 ad:0x40075000 ad:0x40076000 ad:0x40077000)
tree "UART$1"
base $2
group.long 0x00++0x03
line.long 0x00 "UART_DAT,UART Receive/Transmit Buffer Register"
bitfld.long 0x00 8. "PARITY,PARITY Bit Receive/Transmit Buffer\nWrite Operation:\nBy writing to this bit the PARITY bit will be stored in transmitter FIFO" "0,1"
hexmask.long.byte 0x00 0.--7. 1. "DAT,Data Receive/Transmit Buffer\nWrite Operation:\nBy writing one byte to this register the data byte will be stored in transmitter FIFO"
group.long 0x04++0x03
line.long 0x00 "UART_INTEN,UART Interrupt Enable Register"
bitfld.long 0x00 22. "TXENDIEN,Transmitter Empty Interrupt Enable Bit\nIf TXENDIEN (UART_INTEN[22]) is enabled the Transmitter Empty interrupt TXENDINT (UART_INTSTS[30]) will be generated when TXENDIF (UART_INTSTS[22]) is set (TX FIFO (UART_DAT) is empty and the STOP bit of.." "0: Transmitter empty interrupt Disabled,1: Transmitter empty interrupt Enabled"
bitfld.long 0x00 18. "ABRIEN,Auto-baud Rate Interrupt Enable Bit" "0: Auto-baud rate interrupt Disabled,1: Auto-baud rate interrupt Enabled"
newline
bitfld.long 0x00 16. "SWBEIEN,Single-wire Bit Error Detection Interrupt Enable Bit\nSet this bit the Single-wire Half Duplex Bit Error Detection Interrupt SWBEINT(UART_INTSTS[24]) is generated when Single-wire Bit Error Detection SWBEIF(UART_INTSTS[16]) is set.\nNote: This.." "0: Single-wire Bit Error Detect Inerrupt Disabled,1: Single-wire Bit Error Detect Inerrupt Enabled"
bitfld.long 0x00 15. "RXPDMAEN,RX PDMA Enable Bit\nThis bit can enable or disable RX PDMA service.\nNote: If RLSIEN (UART_INTEN[2]) is enabled and HWRLSINT (UART_INTSTS[26]) is set to 1 the RLS (Receive Line Status) Interrupt is caused" "0: RX PDMA Disabled,1: RX PDMA Enabled"
newline
bitfld.long 0x00 14. "TXPDMAEN,TX PDMA Enable Bit\nNote: If RLSIEN (UART_INTEN[2]) is enabled and HWRLSINT (UART_INTSTS[26]) is set to 1 the RLS (Receive Line Status) Interrupt is caused" "0: TX PDMA Disabled,1: TX PDMA Enabled"
bitfld.long 0x00 13. "ATOCTSEN,nCTS Auto-flow Control Enable Bit\nNote: When nCTS auto-flow is enabled the UART will send data to external device if nCTS input assert (UART will not send data to device until nCTS is asserted)" "0: nCTS auto-flow control Disabled,1: nCTS auto-flow control Enabled"
newline
bitfld.long 0x00 12. "ATORTSEN,nRTS Auto-flow Control Enable Bit\nNote: When nRTS auto-flow is enabled if the number of bytes in the RX FIFO equals the RTSTRGLV (UART_FIFO[19:16]) the UART will de-assert nRTS signal" "0: nRTS auto-flow control Disabled,1: nRTS auto-flow control Enabled"
bitfld.long 0x00 11. "TOCNTEN,Receive Buffer Time-out Counter Enable Bit" "0: Receive Buffer Time-out counter Disabled,1: Receive Buffer Time-out counter Enabled"
newline
bitfld.long 0x00 8. "LINIEN,LIN Bus Interrupt Enable Bit\nNote: This bit is used for LIN function mode" "0: LIN bus interrupt Disabled,1: LIN bus interrupt Enabled"
bitfld.long 0x00 6. "WKIEN,Wake-up Interrupt Enable Bit" "0: Wake-up Interrupt Disabled,1: Wake-up Interrupt Enabled"
newline
bitfld.long 0x00 5. "BUFERRIEN,Buffer Error Interrupt Enable Bit" "0: Buffer error interrupt Disabled,1: Buffer error interrupt Enabled"
bitfld.long 0x00 4. "RXTOIEN,RX Time-out Interrupt Enable Bit" "0: RX time-out interrupt Disabled,1: RX time-out interrupt Enabled"
newline
bitfld.long 0x00 3. "MODEMIEN,Modem Status Interrupt Enable Bit" "0: Modem status interrupt Disabled,1: Modem status interrupt Enabled"
bitfld.long 0x00 2. "RLSIEN,Receive Line Status Interrupt Enable Bit" "0: Receive Line Status interrupt Disabled,1: Receive Line Status interrupt Enabled"
newline
bitfld.long 0x00 1. "THREIEN,Transmit Holding Register Empty Interrupt Enable Bit" "0: Transmit holding register empty interrupt..,1: Transmit holding register empty interrupt.."
bitfld.long 0x00 0. "RDAIEN,Receive Data Available Interrupt Enable Bit" "0: Receive data available interrupt Disabled,1: Receive data available interrupt Enabled"
group.long 0x08++0x03
line.long 0x00 "UART_FIFO,UART FIFO Control Register"
bitfld.long 0x00 16.--19. "RTSTRGLV,nRTS Trigger Level for Auto-flow Control\nNote: This field is used for auto nRTS flow control" "0: nRTS Trigger Level is 1 byte,1: nRTS Trigger Level is 4 bytes,2: nRTS Trigger Level is 8 bytes,3: nRTS Trigger Level is 14 bytes,?..."
bitfld.long 0x00 8. "RXOFF,Receiver Disable Bit\nThe receiver is disabled or not (set 1 to disable receiver).\nNote: This bit is used for RS-485 Normal Multi-drop mode" "0: Receiver Enabled,1: Receiver Disabled"
newline
bitfld.long 0x00 4.--7. "RFITL,RX FIFO Interrupt Trigger Level\nWhen the number of bytes in the receive FIFO equals the RFITL the RDAIF (UART_INTSTS[0]) will be set (if RDAIEN (UART_INTEN [0]) enabled and an interrupt will be generated)" "0: RX FIFO Interrupt Trigger Level is 1 byte,1: RX FIFO Interrupt Trigger Level is 4 bytes,2: RX FIFO Interrupt Trigger Level is 8 bytes,3: RX FIFO Interrupt Trigger Level is 14 bytes,?..."
bitfld.long 0x00 2. "TXRST,TX Field Software Reset\nWhen TXRST (UART_FIFO[2]) is set all the byte in the transmit FIFO and TX internal state machine are cleared.\n" "0: No effect,1: Reset the TX internal state machine and.."
newline
bitfld.long 0x00 1. "RXRST,RX Field Software Reset\nWhen RXRST (UART_FIFO[1]) is set all the byte in the receiver FIFO and RX internal state machine are cleared.\n" "0: No effect,1: Reset the RX internal state machine and.."
group.long 0x0C++0x03
line.long 0x00 "UART_LINE,UART Line Control Register"
bitfld.long 0x00 9. "RXDINV,RX Data Inverted\n" "0: Received data signal inverted Disabled,1: Received data signal inverted Enabled"
bitfld.long 0x00 8. "TXDINV,TX Data Inverted\n" "0: Transmitted data signal inverted Disabled,1: Transmitted data signal inverted Enabled"
newline
bitfld.long 0x00 7. "PSS,PARITY Bit Source Selection\nThe PARITY bit can be selected to be generated and checked automatically or by software.\n" "0: PARITY bit is generated by EPE (UART_LINE[4])..,1: PARITY bit generated and checked by software"
bitfld.long 0x00 6. "BCB,Break Control Bit\nNote: When this bit is set to logic 1 the transmitted serial data output (TX) is forced to the Spacing State (logic 0)" "0: Break Control Disabled,1: Break Control Enabled"
newline
bitfld.long 0x00 5. "SPE,Stick Parity Enable Bit\nNote: If PBE (UART_LINE[3]) and EPE (UART_LINE[4]) are logic 1 the PARITY bit is transmitted and checked as logic 0" "0: Stick parity Disabled,1: Stick parity Enabled"
bitfld.long 0x00 4. "EPE,Even Parity Enable Bit\nNote: This bit has effect only when PBE (UART_LINE[3]) is set" "0: Odd number of logic 1's is transmitted and..,1: Even number of logic 1's is transmitted and.."
newline
bitfld.long 0x00 3. "PBE,PARITY Bit Enable Bit\nNote: PARITY bit is generated on each outgoing character and is checked on each incoming data" "0: PARITY bit generated Disabled,1: PARITY bit generated Enabled"
bitfld.long 0x00 2. "NSB,Number of 'STOP Bit'" "0: One 'STOP bit' is generated in the..,1: When select 5-bit word length 1.5 'STOP bit'.."
newline
bitfld.long 0x00 0.--1. "WLS,Word Length Selection\nThis field sets UART word length" "0: 5 bits,1: 6 bits,2: 7 bits,3: 8 bits"
group.long 0x10++0x03
line.long 0x00 "UART_MODEM,UART Modem Control Register"
rbitfld.long 0x00 13. "RTSSTS,nRTS Pin Status (Read Only)\nThis bit mirror from nRTS pin output of voltage logic status" "0: nRTS pin output is low level voltage logic..,1: nRTS pin output is high level voltage logic.."
bitfld.long 0x00 9. "RTSACTLV,nRTS Pin Active Level\nThis bit defines the active level state of nRTS pin output.\n" "0: nRTS pin output is high level active,1: nRTS pin output is low level active"
newline
bitfld.long 0x00 1. "RTS,nRTS (Request-to-send) Signal Control\nThis bit is direct control internal nRTS signal active or not and then drive the nRTS pin output with RTSACTLV bit configuration.\n" "0: nRTS signal is active,1: nRTS signal is inactive"
group.long 0x14++0x03
line.long 0x00 "UART_MODEMSTS,UART Modem Status Register"
bitfld.long 0x00 8. "CTSACTLV,nCTS Pin Active Level\nThis bit defines the active level state of nCTS pin input.\nNote: Before setting this bit TXRXDIS (UART_FUNCSEL[3]) should be set then waited for TXRXACT (UART_FIFOSTS[31]) is cleared" "0: nCTS pin input is high level active,1: nCTS pin input is low level active"
rbitfld.long 0x00 4. "CTSSTS,nCTS Pin Status (Read Only)\nThis bit mirror from nCTS pin input of voltage logic status.\nNote: This bit echoes when UART controller peripheral clock is enabled and nCTS multi-function port is selected" "0: nCTS pin input is low level voltage logic state,1: nCTS pin input is high level voltage logic.."
newline
bitfld.long 0x00 0. "CTSDETF,Detect nCTS State Change Flag\nThis bit is set whenever nCTS input has change state and it will generate Modem interrupt to CPU when MODEMIEN (UART_INTEN [3]) is set to 1.\nNote: This bit can be cleared by writing '1' to it" "0: nCTS input has not change state,1: nCTS input has change state"
group.long 0x18++0x03
line.long 0x00 "UART_FIFOSTS,UART FIFO Status Register"
rbitfld.long 0x00 31. "TXRXACT,TX and RX Active Status (Read Only)\nThis bit indicates TX and RX are active or inactive.\nNote: When TXRXDIS (UART_FUNCSEL[3]) is set and both TX and RX are in idle state this bit is cleared" "0: TX and RX are inactive,1: TX and RX are active"
rbitfld.long 0x00 29. "RXIDLE,RX Idle Status (Read Only)\nThis bit is set by hardware when RX is idle" "0: RX is busy,1: RX is idle"
newline
rbitfld.long 0x00 28. "TXEMPTYF,Transmitter Empty Flag (Read Only)\nThis bit is set by hardware when TX FIFO (UART_DAT) is empty and the STOP bit of the last byte has been transmitted.\nNote: This bit is cleared automatically when TX FIFO is not empty or the last byte.." "0: TX FIFO is not empty or the STOP bit of the..,1: TX FIFO is empty and the STOP bit of the last.."
bitfld.long 0x00 24. "TXOVIF,TX Overflow Error Interrupt Flag\nIf TX FIFO (UART_DAT) is full an additional write to UART_DAT will cause this bit to logic 1.\nNote: This bit can be cleared by writing '1' to it" "0: TX FIFO is not overflow,1: TX FIFO is overflow"
newline
rbitfld.long 0x00 23. "TXFULL,Transmitter FIFO Full (Read Only)\nThis bit indicates TX FIFO full or not.\nNote: This bit is set when the number of usage in TX FIFO Buffer is equal to 16 otherwise it is cleared by hardware" "0: TX FIFO is not full,1: TX FIFO is full"
rbitfld.long 0x00 22. "TXEMPTY,Transmitter FIFO Empty (Read Only)\nThis bit indicates TX FIFO empty or not.\nNote: When the last byte of TX FIFO has been transferred to Transmitter Shift Register hardware sets this bit high" "0: TX FIFO is not empty,1: TX FIFO is empty"
newline
rbitfld.long 0x00 16.--21. "TXPTR,TX FIFO Pointer (Read Only)\nThis field indicates the TX FIFO Buffer Pointer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rbitfld.long 0x00 15. "RXFULL,Receiver FIFO Full (Read Only)\nThis bit initiates RX FIFO full or not.\nNote: This bit is set when the number of usage in RX FIFO Buffer is equal to 16 otherwise it is cleared by hardware" "0: RX FIFO is not full,1: RX FIFO is full"
newline
rbitfld.long 0x00 14. "RXEMPTY,Receiver FIFO Empty (Read Only)\nThis bit initiate RX FIFO empty or not.\nNote: When the last byte of RX FIFO has been read by CPU hardware sets this bit high" "0: RX FIFO is not empty,1: RX FIFO is empty"
rbitfld.long 0x00 8.--13. "RXPTR,RX FIFO Pointer (Read Only)\nThis field indicates the RX FIFO Buffer Pointer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 6. "BIF,Break Interrupt Flag\nThis bit is set to logic 1 whenever the received data input (RX) is held in the 'spacing state' (logic 0) for longer than a full word transmission time (that is the total time of 'START bit' + data bits + parity + STOP.." "0: No Break interrupt is generated,1: Break interrupt is generated"
bitfld.long 0x00 5. "FEF,Framing Error Flag\nThis bit is set to logic 1 whenever the received character does not have a valid 'STOP bit' (that is the STOP bit following the last data bit or PARITY bit is detected as logic 0).\nNote: This bit can be cleared by writing '1' to.." "0: No framing error is generated,1: Framing error is generated"
newline
bitfld.long 0x00 4. "PEF,Parity Error Flag\nThis bit is set to logic 1 whenever the received character does not have a valid 'PARITY bit'.\nNote: This bit can be cleared by writing '1' to it" "0: No parity error is generated,1: Parity error is generated"
bitfld.long 0x00 3. "ADDRDETF,RS-485 Address Byte Detect Flag\n" "0: Receiver detects a data that is not an..,1: Receiver detects a data that is an address.."
newline
bitfld.long 0x00 2. "ABRDTOIF,Auto-baud Rate Detect Time-out Interrupt Flag\nThis bit is set to logic '1' in Auto-baud Rate Detect mode when the baud rate counter is overflow.\nNote: This bit can be cleared by writing '1' to it" "0: Auto-baud rate counter is underflow,1: Auto-baud rate counter is overflow"
bitfld.long 0x00 1. "ABRDIF,Auto-baud Rate Detect Interrupt Flag\nThis bit is set to logic '1' when auto-baud rate detect function is finished.\nNote: This bit can be cleared by writing '1' to it" "0: Auto-baud rate detect function is not finished,1: Auto-baud rate detect function is finished"
newline
bitfld.long 0x00 0. "RXOVIF,RX Overflow Error Interrupt Flag\nThis bit is set when RX FIFO overflow.\nIf the number of bytes of received data is greater than RX_FIFO (UART_DAT) size 16 bytes this bit will be set.\nNote: This bit can be cleared by writing '1' to it" "0: RX FIFO is not overflow,1: RX FIFO is overflow"
group.long 0x1C++0x03
line.long 0x00 "UART_INTSTS,UART Interrupt Status Register"
rbitfld.long 0x00 31. "ABRINT,Auto-baud Rate Interrupt Indicator (Read Only)\nThis bit is set if ABRIEN (UART_INTEN[18]) and ABRIF (UART_ALTCTL[17]) are both set to 1" "0: No Auto-baud Rate interrupt is generated,1: The Auto-baud Rate interrupt is generated"
rbitfld.long 0x00 30. "TXENDINT,Transmitter Empty Interrupt Indicator (Read Only) \nThis bit is set if TXENDIEN (UART_INTEN[22]) and TXENDIF(UART_INTSTS[22]) are both set to 1" "0: No Transmitter Empty interrupt is generated,1: Transmitter Empty interrupt is generated"
newline
rbitfld.long 0x00 29. "HWBUFEINT,PDMA Mode Buffer Error Interrupt Indicator (Read Only)\nThis bit is set if BUFERRIEN (UART_INTEN[5]) and HWBUFEIF (UART_INTSTS[21]) are both set to 1" "0: No buffer error interrupt is generated in..,1: Buffer error interrupt is generated in PDMA.."
rbitfld.long 0x00 28. "HWTOINT,PDMA Mode RX Time-out Interrupt Indicator (Read Only)\nThis bit is set if RXTOIEN (UART_INTEN[4]) and HWTOIF(UART_INTSTS[20]) are both set to 1" "0: No RX time-out interrupt is generated in PDMA..,1: RX time-out interrupt is generated in PDMA mode"
newline
rbitfld.long 0x00 27. "HWMODINT,PDMA Mode MODEM Status Interrupt Indicator (Read Only)\nThis bit is set if MODEMIEN (UART_INTEN[3]) and HWMODIF(UART_INTSTS[19]) are both set to 1" "0: No Modem interrupt is generated in PDMA mode,1: Modem interrupt is generated in PDMA mode"
rbitfld.long 0x00 26. "HWRLSINT,PDMA Mode Receive Line Status Interrupt Indicator (Read Only)\nThis bit is set if RLSIEN (UART_INTEN[2]) and HWRLSIF(UART_INTSTS[18]) are both set to 1" "0: No RLS interrupt is generated in PDMA mode,1: RLS interrupt is generated in PDMA mode"
newline
rbitfld.long 0x00 24. "SWBEINT,Single-wire Bit Error Detect Interrupt Indicator (Read Only)\nThis bit is set if SWBEIEN (UART_INTEN[16]) and SWBEIF (UART_INTSTS[16]) are both set to 1" "0: No Single-wire Bit Error Detection Interrupt..,1: Single-wire Bit Error Detection Interrupt.."
bitfld.long 0x00 22. "TXENDIF,Transmitter Empty Interrupt Flag\nThis bit is set when TX FIFO (UART_DAT) is empty and the STOP bit of the last byte has been transmitted (TXEMPTYF (UART_FIFOSTS[28]) is set)" "0: No transmitter empty interrupt flag is..,1: Transmitter empty interrupt flag is generated"
newline
rbitfld.long 0x00 21. "HWBUFEIF,PDMA Mode Buffer Error Interrupt Flag (Read Only)\nThis bit is set when the TX or RX FIFO overflows (TXOVIF (UART_FIFOSTS [24]) or RXOVIF (UART_FIFOSTS[0]) is set)" "0: No buffer error interrupt flag is generated..,1: Buffer error interrupt flag is generated in.."
rbitfld.long 0x00 20. "HWTOIF,PDMA Mode RX Time-out Interrupt Flag (Read Only)\nThis bit is set when the RX FIFO is not empty and no activities occurred in the RX FIFO and the time-out counter equal to TOIC (UART_TOUT[7:0])" "0: No RX time-out interrupt flag is generated in..,1: RX time-out interrupt flag is generated in.."
newline
rbitfld.long 0x00 19. "HWMODIF,PDMA Mode MODEM Interrupt Flag (Read Only)\nNote: This bit is read only and reset to 0 when the bit CTSDETF (UART_MODEMSTS[0]) is cleared by writing 1 on CTSDETF (UART_MODEMSTS [0])" "0: No Modem interrupt flag is generated in PDMA..,1: Modem interrupt flag is generated in PDMA mode"
rbitfld.long 0x00 18. "HWRLSIF,PDMA Mode Receive Line Status Flag (Read Only)\nThis bit is set when the RX receive data have parity error frame error or break error (at least one of 3 bits BIF (UART_FIFOSTS[6]) FEF (UART_FIFOSTS[5]) and PEF (UART_FIFOSTS[4]) is set)" "0: No RLS interrupt flag is generated in PDMA mode,1: RLS interrupt flag is generated in PDMA mode"
newline
bitfld.long 0x00 16. "SBEIF,Single-wire Bit Error Detection Interrupt Flag\nThis bit is set when the single wire bus state not equals to UART controller TX state in Single-wire mode.\n" "0: No single-wire bit error detection interrupt..,1: Single-wire bit error detection interrupt.."
rbitfld.long 0x00 15. "LININT,LIN Bus Interrupt Indicator (Read Only)\nThis bit is set if LINIEN (UART_INTEN[8]) and LINIF(UART_INTSTS[7]) are both set to 1" "0: No LIN Bus interrupt is generated,1: The LIN Bus interrupt is generated"
newline
rbitfld.long 0x00 14. "WKINT,UART Wake-up Interrupt Indicator (Read Only)\nThis bit is set if WKIEN (UART_INTEN[6]) and WKIF (UART_INTSTS[6]) are both set to 1" "0: No UART wake-up interrupt is generated,1: UART wake-up interrupt is generated"
rbitfld.long 0x00 13. "BUFERRINT,Buffer Error Interrupt Indicator (Read Only)\nThis bit is set if BUFERRIEN(UART_INTEN[5]) and BUFERRIF(UART_ INTSTS[5]) are both set to 1" "0: No buffer error interrupt is generated,1: Buffer error interrupt is generated"
newline
rbitfld.long 0x00 12. "RXTOINT,RX Time-out Interrupt Indicator (Read Only)\nThis bit is set if RXTOIEN (UART_INTEN[4]) and RXTOIF(UART_INTSTS[4]) are both set to 1" "0: No RX time-out interrupt is generated,1: RX time-out interrupt is generated"
rbitfld.long 0x00 11. "MODEMINT,MODEM Status Interrupt Indicator (Read Only)\nThis bit is set if MODEMIEN(UART_INTEN[3]) and MODEMIF(UART_INTSTS[3]) are both set to 1" "0: No Modem interrupt is generated,1: Modem interrupt is generated"
newline
rbitfld.long 0x00 10. "RLSINT,Receive Line Status Interrupt Indicator (Read Only) \nThis bit is set if RLSIEN (UART_INTEN[2]) and RLSIF(UART_INTSTS[2]) are both set to 1" "0: No RLS interrupt is generated,1: RLS interrupt is generated"
rbitfld.long 0x00 9. "THREINT,Transmit Holding Register Empty Interrupt Indicator (Read Only)\nThis bit is set if THREIEN (UART_INTEN[1]) and THREIF(UART_INTSTS[1]) are both set to 1" "0: No THRE interrupt is generated,1: THRE interrupt is generated"
newline
rbitfld.long 0x00 8. "RDAINT,Receive Data Available Interrupt Indicator (Read Only)\nThis bit is set if RDAIEN (UART_INTEN[0]) and RDAIF (UART_INTSTS[0]) are both set to 1" "0: No RDA interrupt is generated,1: RDA interrupt is generated"
bitfld.long 0x00 7. "LINIF,LIN Bus Interrupt Flag\nNote: This bit is cleared when SLVHDETF(UART_LINSTS[0]) BRKDETF(UART_LINSTS[8]) BITEF(UART_LINSTS[9]) SLVIDPEF (UART_LINSTS[2]) and SLVHEF(UART_LINSTS[1]) all are cleared and software writing '1' to LINIF(UART_INTSTS[7])" "0: None of SLVHDETF BRKDETF BITEF SLVIDPEF and..,1: At least one of SLVHDETF BRKDETF BITEF.."
newline
rbitfld.long 0x00 6. "WKIF,UART Wake-up Interrupt Flag (Read Only)\nThis bit is set when TOUTWKF (UART_WKSTS[4]) RS485WKF (UART_WKSTS[3]) RFRTWKF (UART_WKSTS[2]) DATWKF (UART_WKSTS[1]) or CTSWKF(UART_WKSTS[0]) is set to 1.\nNote: This bit is cleared if all of TOUTWKF.." "0: No UART wake-up interrupt flag is generated,1: UART wake-up interrupt flag is generated"
rbitfld.long 0x00 5. "BUFERRIF,Buffer Error Interrupt Flag (Read Only)\nThis bit is set when the TX FIFO or RX FIFO overflows (TXOVIF (UART_FIFOSTS[24]) or RXOVIF (UART_FIFOSTS[0]) is set)" "0: No buffer error interrupt flag is generated,1: Buffer error interrupt flag is generated"
newline
rbitfld.long 0x00 4. "RXTOIF,RX Time-out Interrupt Flag (Read Only)\nThis bit is set when the RX FIFO is not empty and no activities occurred in the RX FIFO and the time-out counter equal to TOIC (UART_TOUT[7:0])" "0: No RX time-out interrupt flag is generated,1: RX time-out interrupt flag is generated"
rbitfld.long 0x00 3. "MODEMIF,MODEM Interrupt Flag (Read Only)\nNote: This bit is read only and reset to 0 when bit CTSDETF is cleared by a write 1 on CTSDETF(UART_MODEMSTS[0])" "0: No Modem interrupt flag is generated,1: Modem interrupt flag is generated"
newline
rbitfld.long 0x00 2. "RLSIF,Receive Line Interrupt Flag (Read Only)\nThis bit is set when the RX receive data have parity error frame error or break error (at least one of 3 bits BIF(UART_FIFOSTS[6]) FEF(UART_FIFOSTS[5]) and PEF(UART_FIFOSTS[4]) is set)" "0: No RLS interrupt flag is generated,1: RLS interrupt flag is generated"
rbitfld.long 0x00 1. "THREIF,Transmit Holding Register Empty Interrupt Flag (Read Only)\nThis bit is set when the last data of TX FIFO is transferred to Transmitter Shift Register" "0: No THRE interrupt flag is generated,1: THRE interrupt flag is generated"
newline
rbitfld.long 0x00 0. "RDAIF,Receive Data Available Interrupt Flag (Read Only)\nWhen the number of bytes in the RX FIFO equals the RFITL then the RDAIF(UART_INTSTS[0]) will be set" "0: No RDA interrupt flag is generated,1: RDA interrupt flag is generated"
group.long 0x20++0x03
line.long 0x00 "UART_TOUT,UART Time-out Register"
hexmask.long.byte 0x00 8.--15. 1. "DLY,TX Delay Time Value \nThis field is used to program the transfer delay time between the last STOP bit and next START bit"
hexmask.long.byte 0x00 0.--7. 1. "TOIC,Time-out Interrupt Comparator"
group.long 0x24++0x03
line.long 0x00 "UART_BAUD,UART Baud Rate Divider Register"
bitfld.long 0x00 29. "BAUDM1,BAUD Rate Mode Selection Bit 1\nThis bit is baud rate mode selection bit 1" "0,1"
bitfld.long 0x00 28. "BAUDM0,BAUD Rate Mode Selection Bit 0\nThis bit is baud rate mode selection bit 0" "0,1"
newline
bitfld.long 0x00 24.--27. "EDIVM1,Extra Divider for BAUD Rate Mode 1\nThis field is used for baud rate calculation in mode 1 and has no effect for baud rate calculation in mode 0 and mode 2" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
hexmask.long.word 0x00 0.--15. 1. "BRD,Baud Rate Divider\nThe field indicates the baud rate divider"
group.long 0x28++0x03
line.long 0x00 "UART_IRDA,UART IrDA Control Register"
bitfld.long 0x00 6. "RXINV,IrDA Inverse Receive Input Signal \n" "0: None inverse receiving input signal,1: Inverse receiving input signal"
bitfld.long 0x00 5. "TXINV,IrDA Inverse Transmitting Output Signal \n" "0: None inverse transmitting signal,1: Inverse transmitting output signal"
newline
bitfld.long 0x00 1. "TXEN,IrDA Receiver/Transmitter Selection Enable Bit" "0: IrDA Transmitter Disabled and Receiver Enabled,1: IrDA Transmitter Enabled and Receiver Disabled"
group.long 0x2C++0x03
line.long 0x00 "UART_ALTCTL,UART Alternate Control/Status Register"
hexmask.long.byte 0x00 24.--31. 1. "ADDRMV,Address Match Value \nThis field contains the RS-485 address match values.\nNote: This field is used for RS-485 auto address detection mode"
bitfld.long 0x00 19.--20. "ABRDBITS,Auto-baud Rate Detect Bit Length \nNote : The calculation of bit number includes the START bit" "0: 1-bit time from START bit to the 1st rising..,1: 2-bit time from START bit to the 1st rising..,2: 4-bit time from START bit to the 1st rising..,3: 8-bit time from START bit to the 1st rising.."
newline
bitfld.long 0x00 18. "ABRDEN,Auto-baud Rate Detect Enable Bit\nNote : This bit is cleared automatically after auto-baud detection is finished" "0: Auto-baud rate detect function Disabled,1: Auto-baud rate detect function Enabled"
rbitfld.long 0x00 17. "ABRIF,Auto-baud Rate Interrupt Flag (Read Only) \nThis bit is set when auto-baud rate detection function finished or the auto-baud rate counter was overflow and if ABRIEN(UART_INTEN [18]) is set then the auto-baud rate interrupt will be generated" "0: No auto-baud rate interrupt flag is generated,1: Auto-baud rate interrupt flag is generated"
newline
bitfld.long 0x00 15. "ADDRDEN,RS-485 Address Detection Enable Bit\nThis bit is used to enable RS-485 Address Detection mode" "0: Address detection mode Disabled,1: Address detection mode Enabled"
bitfld.long 0x00 10. "RS485AUD,RS-485 Auto Direction Function (AUD) \nNote: It can be active with RS-485_AAD or RS-485_NMM operation mode" "0: RS-485 Auto Direction Operation function..,1: RS-485 Auto Direction Operation function.."
newline
bitfld.long 0x00 9. "RS485AAD,RS-485 Auto Address Detection Operation Mode (AAD)\nNote: It cannot be active with RS-485_NMM operation mode" "0: RS-485 Auto Address Detection Operation mode..,1: RS-485 Auto Address Detection Operation mode.."
bitfld.long 0x00 8. "RS485NMM,RS-485 Normal Multi-drop Operation Mode (NMM) \nNote: It cannot be active with RS-485_AAD operation mode" "0: RS-485 Normal Multi-drop Operation mode (NMM)..,1: RS-485 Normal Multi-drop Operation mode (NMM).."
newline
bitfld.long 0x00 7. "LINTXEN,LIN TX Break Mode Enable Bit\nNote: When TX break field transfer operation finished this bit will be cleared automatically" "0: LIN TX Break mode Disabled,1: LIN TX Break mode Enabled"
bitfld.long 0x00 6. "LINRXEN,LIN RX Enable Bit" "0: LIN RX mode Disabled,1: LIN RX mode Enabled"
newline
bitfld.long 0x00 0.--3. "BRKFL,UART LIN Break Field Length\nThis field indicates a 4-bit LIN TX break field count.\n" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x30++0x03
line.long 0x00 "UART_FUNCSEL,UART Function Select Register"
bitfld.long 0x00 3. "TXRXDIS,TX and RX Disable Bit\nSetting this bit can disable TX and RX.\nNote: The TX and RX will not disable immediately when this bit is set" "0: TX and RX Enabled,1: TX and RX Disabled"
bitfld.long 0x00 0.--2. "FUNCSEL,Function Select" "0: UART function,1: LIN function,2: IrDA function,3: RS-485 function,4: UART Single-wire function,?..."
group.long 0x3C++0x03
line.long 0x00 "UART_BRCOMP,UART Baud Rate Compensation Register"
bitfld.long 0x00 31. "BRCOMPDEC,Baud Rate Compensation Decrease" "0: Positive (increase one module clock)..,1: Negative (decrease one module clock).."
hexmask.long.word 0x00 0.--8. 1. "BRCOMP,Baud Rate Compensation Patten\nThese 9-bits are used to define the relative bit is compensated or not"
group.long 0x40++0x03
line.long 0x00 "UART_WKCTL,UART Wake-up Control Register"
bitfld.long 0x00 4. "WKTOUTEN,Received Data FIFO Reached Threshold Time-out Wake-up Enable Bit\n" "0: Received Data FIFO reached threshold time-out..,1: Received Data FIFO reached threshold time-out.."
bitfld.long 0x00 3. "WKRS485EN,RS-485 Address Match (AAD Mode) Wake-up Enable Bit\n" "0: RS-485 Address Match (AAD mode) wake-up..,1: RS-485 Address Match (AAD mode) wake-up.."
newline
bitfld.long 0x00 2. "WKRFRTEN,Received Data FIFO Reached Threshold Wake-up Enable Bit\nNote: When the system is in Power-down mode Received Data FIFO reached threshold will wake-up system from Power-down mode" "0: Received Data FIFO reached threshold wake-up..,1: Received Data FIFO reached threshold wake-up.."
bitfld.long 0x00 1. "WKDATEN,Incoming Data Wake-up Enable Bit\nNote:When the system is in Power-down mode incoming data will wake-up system from Power-down mode" "0: Incoming data wake-up system function Disabled,1: Incoming data wake-up system function Enabled"
newline
bitfld.long 0x00 0. "WKCTSEN,nCTS Wake-up Enable Bit\nNote:When the system is in Power-down mode an external.nCTS change will wake up system from Power-down mode" "0: nCTS Wake-up system function Disabled,1: nCTS Wake-up system function Enabled"
group.long 0x44++0x03
line.long 0x00 "UART_WKSTS,UART Wake-up Status Register"
bitfld.long 0x00 4. "TOUTWKF,Received Data FIFO Threshold Time-out Wake-up Flag\nThis bit is set if chip wake-up from power-down state by Received Data FIFO Threshold Time-out\nwake-up.\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by.."
bitfld.long 0x00 3. "RS485WKF,RS-485 Address Match (AAD Mode) Wake-up Flag\nThis bit is set if chip wake-up from power-down state by RS-485 Address Match (AAD mode).\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by RS-485.."
newline
bitfld.long 0x00 2. "RFRTWKF,Received Data FIFO Reached Threshold Wake-up Flag\nThis bit is set if chip wake-up from power-down state by Received Data FIFO reached threshold wake-up.\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by.."
bitfld.long 0x00 1. "DATWKF,Incoming Data Wake-up Flag\nThis bit is set if chip wake-up from power-down state by data wake-up.\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by.."
newline
bitfld.long 0x00 0. "CTSWKF,nCTS Wake-up Flag\nThis bit is set if chip wake-up from power-down state by nCTS wake-up.\n" "0: Chip stays in power-down state,1: Chip wake-up from power-down state by nCTS.."
group.long 0x48++0x03
line.long 0x00 "UART_DWKCOMP,UART Incoming Data Wake-up Compensation Register"
hexmask.long.word 0x00 0.--15. 1. "STCOMP,START Bit Compensation Value\nThese bits field indicate how many clock cycle selected by UART_CLK do the UART controller can get the 1st bit (START bit) when the device is wake-up from Power-down mode.\nNote: It is valid only when WKDATEN.."
tree.end
repeat.end
tree.end
tree "USBD"
tree "HSUSBD"
base ad:0x40019000
rgroup.long 0x00++0x03
line.long 0x00 "HSUSBD_GINTSTS,Global Interrupt Status Register"
bitfld.long 0x00 13. "EPLIF,Endpoint L Interrupt\nWhen set the corresponding Endpoint L's interrupt status register should be read to determine the cause of the interrupt" "0: No interrupt event occurred,1: The related interrupt event occurred"
bitfld.long 0x00 12. "EPKIF,Endpoint K Interrupt\nWhen set the corresponding Endpoint K's interrupt status register should be read to determine the cause of the interrupt" "0: No interrupt event occurred,1: The related interrupt event occurred"
newline
bitfld.long 0x00 11. "EPJIF,Endpoint J Interrupt\nWhen set the corresponding Endpoint J's interrupt status register should be read to determine the cause of the interrupt" "0: No interrupt event occurred,1: The related interrupt event occurred"
bitfld.long 0x00 10. "EPIIF,Endpoint I Interrupt\nWhen set the corresponding Endpoint I's interrupt status register should be read to determine the cause of the interrupt" "0: No interrupt event occurred,1: The related interrupt event occurred"
newline
bitfld.long 0x00 9. "EPHIF,Endpoint H Interrupt\nWhen set the corresponding Endpoint H's interrupt status register should be read to determine the cause of the interrupt" "0: No interrupt event occurred,1: The related interrupt event occurred"
bitfld.long 0x00 8. "EPGIF,Endpoint G Interrupt\nWhen set the corresponding Endpoint G's interrupt status register should be read to determine the cause of the interrupt" "0: No interrupt event occurred,1: The related interrupt event occurred"
newline
bitfld.long 0x00 7. "EPFIF,Endpoint F Interrupt\nWhen set the corresponding Endpoint F's interrupt status register should be read to determine the cause of the interrupt" "0: No interrupt event occurred,1: The related interrupt event occurred"
bitfld.long 0x00 6. "EPEIF,Endpoint E Interrupt\nWhen set the corresponding Endpoint E's interrupt status register should be read to determine the cause of the interrupt" "0: No interrupt event occurred,1: The related interrupt event occurred"
newline
bitfld.long 0x00 5. "EPDIF,Endpoint D Interrupt\nWhen set the corresponding Endpoint D's interrupt status register should be read to determine the cause of the interrupt" "0: No interrupt event occurred,1: The related interrupt event occurred"
bitfld.long 0x00 4. "EPCIF,Endpoint C Interrupt\nWhen set the corresponding Endpoint C's interrupt status register should be read to determine the cause of the interrupt" "0: No interrupt event occurred,1: The related interrupt event occurred"
newline
bitfld.long 0x00 3. "EPBIF,Endpoint B Interrupt\nWhen set the corresponding Endpoint B's interrupt status register should be read to determine the cause of the interrupt" "0: No interrupt event occurred,1: The related interrupt event occurred"
bitfld.long 0x00 2. "EPAIF,Endpoint a Interrupt\nWhen set the corresponding Endpoint A's interrupt status register should be read to determine the cause of the interrupt" "0: No interrupt event occurred,1: The related interrupt event occurred"
newline
bitfld.long 0x00 1. "CEPIF,Control Endpoint Interrupt \nThis bit conveys the interrupt status for control endpoint" "0: No interrupt event occurred,1: The related interrupt event occurred"
bitfld.long 0x00 0. "USBIF,USB Interrupt \nThis bit conveys the interrupt status for USB specific events endpoint" "0: No interrupt event occurred,1: The related interrupt event occurred"
group.long 0x08++0x03
line.long 0x00 "HSUSBD_GINTEN,Global Interrupt Enable Register"
bitfld.long 0x00 13. "EPLIEN,Interrupt Enable Control for Endpoint L \nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the endpoint L" "0: The related interrupt Disabled,1: The related interrupt Enabled"
bitfld.long 0x00 12. "EPKIEN,Interrupt Enable Control for Endpoint K \nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the endpoint K" "0: The related interrupt Disabled,1: The related interrupt Enabled"
newline
bitfld.long 0x00 11. "EPJIEN,Interrupt Enable Control for Endpoint J \nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the endpoint J" "0: The related interrupt Disabled,1: The related interrupt Enabled"
bitfld.long 0x00 10. "EPIIEN,Interrupt Enable Control for Endpoint I \nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the endpoint I" "0: The related interrupt Disabled,1: The related interrupt Enabled"
newline
bitfld.long 0x00 9. "EPHIEN,Interrupt Enable Control for Endpoint H \nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the endpoint H" "0: The related interrupt Disabled,1: The related interrupt Enabled"
bitfld.long 0x00 8. "EPGIEN,Interrupt Enable Control for Endpoint G\nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the endpoint G" "0: The related interrupt Disabled,1: The related interrupt Enabled"
newline
bitfld.long 0x00 7. "EPFIEN,Interrupt Enable Control for Endpoint F \nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the endpoint F" "0: The related interrupt Disabled,1: The related interrupt Enabled"
bitfld.long 0x00 6. "EPEIEN,Interrupt Enable Control for Endpoint E \nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the endpoint E" "0: The related interrupt Disabled,1: The related interrupt Enabled"
newline
bitfld.long 0x00 5. "EPDIEN,Interrupt Enable Control for Endpoint D \nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the endpoint D" "0: The related interrupt Disabled,1: The related interrupt Enabled"
bitfld.long 0x00 4. "EPCIEN,Interrupt Enable Control for Endpoint C \nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the endpoint C" "0: The related interrupt Disabled,1: The related interrupt Enabled"
newline
bitfld.long 0x00 3. "EPBIEN,Interrupt Enable Control for Endpoint B \nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the endpoint B" "0: The related interrupt Disabled,1: The related interrupt Enabled"
bitfld.long 0x00 2. "EPAIEN,Interrupt Enable Control for Endpoint a \nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the endpoint A" "0: The related interrupt Disabled,1: The related interrupt Enabled"
newline
bitfld.long 0x00 1. "CEPIEN,Control Endpoint Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be generated when an interrupt is pending for the control endpoint" "0: The related interrupt Disabled,1: The related interrupt Enabled"
bitfld.long 0x00 0. "USBIEN,USB Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be generated when a USB event occurs on the bus" "0: The related interrupt Disabled,1: The related interrupt Enabled"
group.long 0x10++0x03
line.long 0x00 "HSUSBD_BUSINTSTS,USB Bus Interrupt Status Register"
bitfld.long 0x00 8. "VBUSDETIF,VBUS Detection Interrupt Status \nNote: Write 1 to clear this bit to 0" "0: No VBUS is plug-in,1: VBUS is plug-in"
bitfld.long 0x00 6. "PHYCLKVLDIF,Usable Clock Interrupt \nNote: Write 1 to clear this bit to 0" "0: Usable clock is not available,1: Usable clock is available from the transceiver"
newline
bitfld.long 0x00 5. "DMADONEIF,DMA Completion Interrupt \nNote: Write 1 to clear this bit to 0" "0: No DMA transfer over,1: DMA transfer is over"
bitfld.long 0x00 4. "HISPDIF,High-speed Settle \nNote: Write 1 to clear this bit to 0" "0: No valid high-speed reset protocol is detected,1: Valid high-speed reset protocol is over and.."
newline
bitfld.long 0x00 3. "SUSPENDIF,Suspend Request \nThis bit is set as default and it has to be cleared by writing '1' before the USB reset" "0: No USB Suspend request is detected from the..,1: USB Suspend request is detected from the host"
bitfld.long 0x00 2. "RESUMEIF,Resume \nWhen set this bit indicates that a device resume has occurred.\nNote: Write 1 to clear this bit to 0" "0: No device resume has occurred,1: Device resume has occurred"
newline
bitfld.long 0x00 1. "RSTIF,Reset Status \nWhen set this bit indicates that either the USB root port reset is end.\nNote: Write 1 to clear this bit to 0" "0: No USB root port reset is end,1: USB root port reset is end"
bitfld.long 0x00 0. "SOFIF,SOF Receive Control\nThis bit indicates when a start-of-frame packet has been received" "0: No start-of-frame packet has been received,1: Start-of-frame packet has been received"
group.long 0x14++0x03
line.long 0x00 "HSUSBD_BUSINTEN,USB Bus Interrupt Enable Register"
bitfld.long 0x00 8. "VBUSDETIEN,VBUS Detection Interrupt Enable Bit\nThis bit enables the VBUS floating detection interrupt" "0: VBUS floating detection interrupt Disabled,1: VBUS floating detection interrupt Enabled"
bitfld.long 0x00 6. "PHYCLKVLDIEN,Usable Clock Interrupt\nThis bit enables the usable clock interrupt" "0: Usable clock interrupt Disabled,1: Usable clock interrupt Enabled"
newline
bitfld.long 0x00 5. "DMADONEIEN,DMA Completion Interrupt \nThis bit enables the DMA completion interrupt" "0: DMA completion interrupt Disabled,1: DMA completion interrupt Enabled"
bitfld.long 0x00 4. "HISPDIEN,High-speed Settle \nThis bit enables the high-speed settle interrupt" "0: High-speed settle interrupt Disabled,1: High-speed settle interrupt Enabled"
newline
bitfld.long 0x00 3. "SUSPENDIEN,Suspend Request \nThis bit enables the Suspend interrupt" "0: Suspend interrupt Disabled,1: Suspend interrupt Enabled"
bitfld.long 0x00 2. "RESUMEIEN,Resume \nThis bit enables the Resume interrupt" "0: Resume interrupt Disabled,1: Resume interrupt Enabled"
newline
bitfld.long 0x00 1. "RSTIEN,Reset Status \nThis bit enables the USB-Reset interrupt" "0: USB-Reset interrupt Disabled,1: USB-Reset interrupt Enabled"
bitfld.long 0x00 0. "SOFIEN,SOF Interrupt\nThis bit enables the SOF interrupt" "0: SOF interrupt Disabled,1: SOF interrupt Enabled"
group.long 0x18++0x03
line.long 0x00 "HSUSBD_OPER,USB Operational Register"
bitfld.long 0x00 2. "CURSPD,USB Current Speed" "0: The device has settled in Full Speed,1: The USB device controller has settled in.."
bitfld.long 0x00 1. "HISPDEN,USB High-speed" "0: The USB device controller to suppress the..,1: The USB device controller to initiate a.."
newline
bitfld.long 0x00 0. "RESUMEEN,Generate Resume" "0: No Resume sequence to be initiated to the host,1: A Resume sequence to be initiated to the host.."
rgroup.long 0x1C++0x03
line.long 0x00 "HSUSBD_FRAMECNT,USB Frame Count Register"
hexmask.long.word 0x00 3.--13. 1. "FRAMECNT,Frame Counter\nThis field contains the frame count from the most recent start-of-frame packet"
bitfld.long 0x00 0.--2. "MFRAMECNT,Micro-frame Counter\nThis field contains the micro-frame number for the frame number in the frame counter field" "0,1,2,3,4,5,6,7"
group.long 0x20++0x03
line.long 0x00 "HSUSBD_FADDR,USB Function Address Register"
hexmask.long.byte 0x00 0.--6. 1. "FADDR,USB Function Address\nThis field contains the current USB address of the device"
group.long 0x24++0x03
line.long 0x00 "HSUSBD_TEST,USB Test Mode Register"
bitfld.long 0x00 0.--2. "TESTMODE,Test Mode Selection\nNote: This field is cleared when root port reset is detected" "0: Normal Operation,1: Test_J,2: Test_K,3: Test_SE0_NAK,4: Test_Packet,5: Test_Force_Enable,6: Reserved,7: Reserved"
group.long 0x28++0x03
line.long 0x00 "HSUSBD_CEPDAT,Control-endpoint Data Buffer"
hexmask.long 0x00 0.--31. 1. "DAT,Control-endpoint Data Buffer \nControl endpoint data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0x2C++0x03
line.long 0x00 "HSUSBD_CEPCTL,Control-endpoint Control Register"
bitfld.long 0x00 3. "FLUSH,CEP-flush Bit" "0: No the packet buffer and its corresponding..,1: The packet buffer and its corresponding.."
bitfld.long 0x00 2. "ZEROLEN,Zero Packet Length\nThis bit is valid for Auto Validation mode only" "0: No zero length packet to the host during Data..,1: USB device controller can send a zero length.."
newline
bitfld.long 0x00 1. "STALLEN,Stall Enable Bit\nWhen this stall bit is set the control endpoint sends a stall handshake in response to any in or out token thereafter" "0: No sends a stall handshake in response to any..,1: The control endpoint sends a stall handshake.."
bitfld.long 0x00 0. "NAKCLR,No Acknowledge Control\nThis bit plays a crucial role in any control transfer" "0: The bit is being cleared by the local CPU by..,1: This bit is set to one by the USB device.."
group.long 0x30++0x03
line.long 0x00 "HSUSBD_CEPINTEN,Control-endpoint Interrupt Enable"
bitfld.long 0x00 12. "BUFEMPTYIEN,Buffer Empty Interrupt" "0: The buffer empty interrupt in Control..,1: The buffer empty interrupt in Control.."
bitfld.long 0x00 11. "BUFFULLIEN,Buffer Full Interrupt" "0: The buffer full interrupt in Control Endpoint..,1: The buffer full interrupt in Control Endpoint.."
newline
bitfld.long 0x00 10. "STSDONEIEN,Status Completion Interrupt" "0: The Status Completion interrupt in Control..,1: The Status Completion interrupt in Control.."
bitfld.long 0x00 9. "ERRIEN,USB Error Interrupt" "0: The USB Error interrupt in Control Endpoint..,1: The USB Error interrupt in Control Endpoint.."
newline
bitfld.long 0x00 8. "STALLIEN,STALL Sent Interrupt" "0: The STALL sent interrupt in Control Endpoint..,1: The STALL sent interrupt in Control Endpoint.."
bitfld.long 0x00 7. "NAKIEN,NAK Sent Interrupt" "0: The NAK sent interrupt in Control Endpoint..,1: The NAK sent interrupt in Control Endpoint.."
newline
bitfld.long 0x00 6. "RXPKIEN,Data Packet Received Interrupt" "0: The data received interrupt in Control..,1: The data received interrupt in Control.."
bitfld.long 0x00 5. "TXPKIEN,Data Packet Transmitted Interrupt" "0: The data packet transmitted interrupt in..,1: The data packet transmitted interrupt in.."
newline
bitfld.long 0x00 4. "PINGIEN,Ping Token Interrupt" "0: The ping token interrupt in Control Endpoint..,1: The ping token interrupt Control Endpoint.."
bitfld.long 0x00 3. "INTKIEN,In Token Interrupt" "0: The IN token interrupt in Control Endpoint..,1: The IN token interrupt in Control Endpoint.."
newline
bitfld.long 0x00 2. "OUTTKIEN,Out Token Interrupt" "0: The OUT token interrupt in Control Endpoint..,1: The OUT token interrupt in Control Endpoint.."
bitfld.long 0x00 1. "SETUPPKIEN,Setup Packet Interrupt" "0: The SETUP packet interrupt in Control..,1: The SETUP packet interrupt in Control.."
newline
bitfld.long 0x00 0. "SETUPTKIEN,Setup Token Interrupt Enable Bit" "0: The SETUP token interrupt in Control Endpoint..,1: The SETUP token interrupt in Control Endpoint.."
group.long 0x34++0x03
line.long 0x00 "HSUSBD_CEPINTSTS,Control-endpoint Interrupt Status"
bitfld.long 0x00 12. "BUFEMPTYIF,Buffer Empty Interrupt \nNote: Write 1 to clear this bit to 0" "0: The control-endpoint buffer is not empty,1: The control-endpoint buffer is empty"
bitfld.long 0x00 11. "BUFFULLIF,Buffer Full Interrupt \nNote: Write 1 to clear this bit to 0" "0: The control-endpoint buffer is not full,1: The control-endpoint buffer is full"
newline
bitfld.long 0x00 10. "STSDONEIF,Status Completion Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a USB transaction has completed..,1: The status stage of a USB transaction has.."
bitfld.long 0x00 9. "ERRIF,USB Error Interrupt\nNote: Write 1 to clear this bit to 0" "0: No error had occurred during the transaction,1: An error had occurred during the transaction"
newline
bitfld.long 0x00 8. "STALLIF,STALL Sent Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a stall-token is sent in response to an..,1: A stall-token is sent in response to an.."
bitfld.long 0x00 7. "NAKIF,NAK Sent Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a NAK-token is sent in response to an..,1: A NAK-token is sent in response to an IN/OUT.."
newline
bitfld.long 0x00 6. "RXPKIF,Data Packet Received Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is successfully received..,1: A data packet is successfully received from.."
bitfld.long 0x00 5. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is successfully transmitted..,1: A data packet is successfully transmitted to.."
newline
bitfld.long 0x00 4. "PINGIF,Ping Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: The control-endpoint does not received a ping..,1: The control-endpoint receives a ping token.."
bitfld.long 0x00 3. "INTKIF,in Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: The control-endpoint does not received an IN..,1: The control-endpoint receives an IN token.."
newline
bitfld.long 0x00 2. "OUTTKIF,Out Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: The control-endpoint does not received an OUT..,1: The control-endpoint receives an OUT token.."
bitfld.long 0x00 1. "SETUPPKIF,Setup Packet Interrupt \nThis bit must be cleared (by writing 1) before the next setup packet can be received" "0: Not a Setup packet has been received from the..,1: A Setup packet has been received from the host"
newline
bitfld.long 0x00 0. "SETUPTKIF,Setup Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a Setup token is received,1: A Setup token is received"
group.long 0x38++0x03
line.long 0x00 "HSUSBD_CEPTXCNT,Control-endpoint In-transfer Data Count"
hexmask.long.byte 0x00 0.--7. 1. "TXCNT,In-transfer Data Count\nThere is no mode selection for the control endpoint (but it operates like manual mode).The local-CPU has to fill the control-endpoint buffer with the data to be sent for an in-token and to write the count of bytes in this.."
rgroup.long 0x3C++0x03
line.long 0x00 "HSUSBD_CEPRXCNT,Control-endpoint Out-transfer Data Count"
hexmask.long.byte 0x00 0.--7. 1. "RXCNT,Out-transfer Data Count \nThe USB device controller maintains the count of the data received in case of an out transfer during the control transfer"
rgroup.long 0x40++0x03
line.long 0x00 "HSUSBD_CEPDATCNT,Control-endpoint Data Count"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Control-endpoint Data Count \nThe USB device controller maintains the count of the data of control-endpoint"
rgroup.long 0x44++0x03
line.long 0x00 "HSUSBD_SETUP1_0,Setup1 Setup0 Bytes"
hexmask.long.byte 0x00 8.--15. 1. "SETUP1,Setup Byte 1[15:8]\nThis register provides byte 1 of the last setup packet received"
abitfld.long 0x00 0.--7. "SETUP0,Setup Byte 0[7:0]\nThis register provides byte 0 of the last setup packet received" "0x00=0: Device\n,0x01=1: Interface\n,0x0A=10: Endpoint\n,0x0B=11: Other\n Others: Reserved"
rgroup.long 0x48++0x03
line.long 0x00 "HSUSBD_SETUP3_2,Setup3 Setup2 Bytes"
hexmask.long.byte 0x00 8.--15. 1. "SETUP3,Setup Byte 3 [15:8]\nThis register provides byte 3 of the last setup packet received"
hexmask.long.byte 0x00 0.--7. 1. "SETUP2,Setup Byte 2 [7:0]\nThis register provides byte 2 of the last setup packet received"
rgroup.long 0x4C++0x03
line.long 0x00 "HSUSBD_SETUP5_4,Setup5 Setup4 Bytes"
hexmask.long.byte 0x00 8.--15. 1. "SETUP5,Setup Byte 5[15:8] \nThis register provides byte 5 of the last setup packet received"
hexmask.long.byte 0x00 0.--7. 1. "SETUP4,Setup Byte 4[7:0] \nThis register provides byte 4 of the last setup packet received"
rgroup.long 0x50++0x03
line.long 0x00 "HSUSBD_SETUP7_6,Setup7 Setup6 Bytes"
hexmask.long.byte 0x00 8.--15. 1. "SETUP7,Setup Byte 7[15:8] \nThis register provides byte 7 of the last setup packet received"
hexmask.long.byte 0x00 0.--7. 1. "SETUP6,Setup Byte 6[7:0] \nThis register provides byte 6 of the last setup packet received"
group.long 0x54++0x03
line.long 0x00 "HSUSBD_CEPBUFSTART,Control Endpoint RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Control-endpoint Start Address\nThis is the start-address of the RAM space allocated for the control-endpoint"
group.long 0x58++0x03
line.long 0x00 "HSUSBD_CEPBUFEND,Control Endpoint RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Control-endpoint End Address\nThis is the end-address of the RAM space allocated for the control-endpoint"
group.long 0x5C++0x03
line.long 0x00 "HSUSBD_DMACTL,DMA Control Status Register"
bitfld.long 0x00 8. "SVINEP,Serve IN Endpoint\nThis bit is used to specify DMA serving endpoint-IN endpoint or OUT endpoint" "0: DMA serves OUT endpoint,1: DMA serves IN endpoint"
bitfld.long 0x00 7. "DMARST,Reset DMA State Machine" "0: No reset the DMA state machine,1: Reset the DMA state machine"
newline
bitfld.long 0x00 6. "SGEN,Scatter Gather Function Enable Bit" "0: Scatter gather function Disabled,1: Scatter gather function Enabled"
bitfld.long 0x00 5. "DMAEN,DMA Enable Bit" "0: DMA function Disabled,1: DMA function Enabled"
newline
bitfld.long 0x00 4. "DMARD,DMA Operation" "0: The operation is a DMA write (read from USB..,1: The operation is a DMA read (write to USB.."
bitfld.long 0x00 0.--3. "EPNUM,DMA Endpoint Address Bits\nUsed to define the Endpoint Address" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x60++0x03
line.long 0x00 "HSUSBD_DMACNT,DMA Count Register"
hexmask.long.tbyte 0x00 0.--19. 1. "DMACNT,DMA Transfer Count\nThe transfer count of the DMA operation to be performed is written to this register"
group.long 0x64++0x03
line.long 0x00 "HSUSBD_EPADAT,Endpoint A Data Register"
hexmask.long 0x00 0.--31. 1. "EPDAT,Endpoint A~L Data Register \nEndpoint A~L data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0x68++0x03
line.long 0x00 "HSUSBD_EPAINTSTS,Endpoint A Interrupt Status Register"
bitfld.long 0x00 12. "SHORTRXIF,Bulk Out Short Packet Received\nNote: Write 1 to clear this bit to 0" "0: No bulk out short packet is received,1: Received bulk out short packet (including.."
bitfld.long 0x00 11. "ERRIF,ERR Sent \nNote: Write 1 to clear this bit to 0" "0: No any error in the transaction,1: There occurs any error in the transaction"
newline
bitfld.long 0x00 10. "NYETIF,NYET Sent \nNote: Write 1 to clear this bit to 0" "0: The space available in the RAM is sufficient..,1: The space available in the RAM is not.."
bitfld.long 0x00 9. "STALLIF,USB STALL Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB packet could be accepted or..,1: The last USB packet could not be accepted or.."
newline
bitfld.long 0x00 8. "NAKIF,USB NAK Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB IN packet could be provided and..,1: The last USB IN packet could not be provided.."
bitfld.long 0x00 7. "PINGIF,PING Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: A Data PING token has not been received from..,1: A Data PING token has been received from the.."
newline
bitfld.long 0x00 6. "INTKIF,Data IN Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not Data IN token has been received from the..,1: A Data IN token has been received from the host"
bitfld.long 0x00 5. "OUTTKIF,Data OUT Token Interrupt\nNote: Write 1 to clear this bit to 0" "0: A Data OUT token has not been received from..,1: A Data OUT token has been received from the.."
newline
bitfld.long 0x00 4. "RXPKIF,Data Packet Received Interrupt\nNote: Write 1 to clear this bit to 0" "0: No data packet is received from the host by..,1: A data packet is received from the host by.."
bitfld.long 0x00 3. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is transmitted from the..,1: A data packet is transmitted from the.."
newline
bitfld.long 0x00 2. "SHORTTXIF,Short Packet Transferred Interrupt \nNote: Write 1 to clear this bit to 0" "0: The length of the last packet was not less..,1: The length of the last packet was less than.."
bitfld.long 0x00 1. "BUFEMPTYIF,Buffer Empty\nFor an IN endpoint a buffer is available to the local side for writing up to FIFO full of bytes" "0: The endpoint buffer is not empty.\nThe..,1: The endpoint buffer is empty.\nThe currently.."
newline
bitfld.long 0x00 0. "BUFFULLIF,Buffer Full \nFor an IN endpoint the currently selected buffer is full or no buffer is available to the local side for writing (no space to write)" "0: The endpoint packet buffer is not full,1: The endpoint packet buffer is full"
group.long 0x6C++0x03
line.long 0x00 "HSUSBD_EPAINTEN,Endpoint A Interrupt Enable Register"
bitfld.long 0x00 12. "SHORTRXIEN,Bulk Out Short Packet Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever bulk out short packet occurs on the bus for this endpoint" "0: Bulk out interrupt Disabled,1: Bulk out interrupt Enabled"
bitfld.long 0x00 11. "ERRIEN,ERR Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever ERR condition occurs on the bus for this endpoint" "0: Error event interrupt Disabled,1: Error event interrupt Enabled"
newline
bitfld.long 0x00 10. "NYETIEN,NYET Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever NYET condition occurs on the bus for this endpoint" "0: NYET condition interrupt Disabled,1: NYET condition interrupt Enabled"
bitfld.long 0x00 9. "STALLIEN,USB STALL Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a stall token is sent to the host" "0: STALL token interrupt Disabled,1: STALL token interrupt Enabled"
newline
bitfld.long 0x00 8. "NAKIEN,USB NAK Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a NAK token is sent to the host" "0: NAK token interrupt Disabled,1: NAK token interrupt Enabled"
bitfld.long 0x00 7. "PINGIEN,PING Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a PING token has been received from the host" "0: PING token interrupt Disabled,1: PING token interrupt Enabled"
newline
bitfld.long 0x00 6. "INTKIEN,Data IN Token Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set when a Data IN token has been received from the host" "0: Data IN token interrupt Disabled,1: Data IN token interrupt Enabled"
bitfld.long 0x00 5. "OUTTKIEN,Data OUT Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a Data OUT token has been received from the host" "0: Data OUT token interrupt Disabled,1: Data OUT token interrupt Enabled"
newline
bitfld.long 0x00 4. "RXPKIEN,Data Packet Received Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been received from the host" "0: Data packet has been received from the host..,1: Data packet has been received from the host.."
bitfld.long 0x00 3. "TXPKIEN,Data Packet Transmitted Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been transmitted to the host" "0: Data packet has been transmitted to the host..,1: Data packet has been transmitted to the host.."
newline
bitfld.long 0x00 2. "SHORTTXIEN,Short Packet Transferred Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a short data packet has been transferred to/from the host" "0: Short data packet interrupt Disabled,1: Short data packet interrupt Enabled"
bitfld.long 0x00 1. "BUFEMPTYIEN,Buffer Empty Interrupt\nWhen set this bit enables a local interrupt to be set when a buffer empty condition is detected on the bus" "0: Buffer empty interrupt Disabled,1: Buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "BUFFULLIEN,Buffer Full Interrupt \nWhen set this bit enables a local interrupt to be set when a buffer full condition is detected on the bus" "0: Buffer full interrupt Disabled,1: Buffer full interrupt Enabled"
rgroup.long 0x70++0x03
line.long 0x00 "HSUSBD_EPADATCNT,Endpoint A Data Available Count Register"
hexmask.long.word 0x00 16.--30. 1. "DMALOOP,DMA Loop\nThis register is the remaining DMA loop to complete"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Data Count\nFor an IN endpoint (EPDIR(HSUSBD_EPxCFG[3] is high.) this register returns the number of valid bytes in the IN endpoint packet buffer.\nFor an OUT endpoint (EPDIR(HSUSBD_EPxCFG[3] is low.) this register returns the number of received.."
group.long 0x74++0x03
line.long 0x00 "HSUSBD_EPARSPCTL,Endpoint A Response Control Register"
bitfld.long 0x00 7. "DISBUF,Buffer Disable Bit\nThis bit is used to receive unknown size OUT short packet" "0: Buffer Not Disabled when Bulk-OUT short..,1: Buffer Disabled when Bulk-OUT short packet is.."
bitfld.long 0x00 6. "SHORTTXEN,Short Packet Transfer Enable \nThis bit is applicable only in case of Auto-Validate Method" "0: Not validate any remaining data in the buffer..,1: Validate any remaining data in the buffer.."
newline
bitfld.long 0x00 5. "ZEROLEN,Zero Length\nThis bit is used to send a zero-length packet response to an IN-token" "0: A zero packet is not sent to the host on..,1: A zero packet is sent to the host on.."
bitfld.long 0x00 4. "HALT,Endpoint Halt \nThis bit is used to send a STALL handshake as response to the token from the host" "0: Not send a STALL handshake as response to the..,1: Send a STALL handshake as response to the.."
newline
bitfld.long 0x00 3. "TOGGLE,Endpoint Toggle \nThis bit is used to clear the endpoint data toggle bit" "0: Not clear the endpoint data toggle bit,1: Clear the endpoint data toggle bit"
bitfld.long 0x00 1.--2. "MODE,Mode Control\nThe two bits decide the operation mode of the in-endpoint" "0: Auto-Validate Mode,1: Manual-Validate Mode,2: Fly Mode,3: Reserved"
newline
bitfld.long 0x00 0. "FLUSH,Buffer Flush \nWriting 1 to this bit causes the packet buffer to be flushed and the corresponding EP_AVAIL register to be cleared" "0: The packet buffer is not flushed,1: The packet buffer is flushed by user"
group.long 0x78++0x03
line.long 0x00 "HSUSBD_EPAMPS,Endpoint A Maximum Packet Size Register"
hexmask.long.word 0x00 0.--10. 1. "EPMPS,Endpoint Maximum Packet Size \nThis field determines the Maximum Packet Size of the Endpoint"
group.long 0x7C++0x03
line.long 0x00 "HSUSBD_EPATXCNT,Endpoint A Transfer Count Register"
hexmask.long.word 0x00 0.--10. 1. "TXCNT,Endpoint Transfer Count\nFor IN endpoints this field determines the total number of bytes to be sent to the host in case of manual validation method.\nFor OUT endpoints this field has no effect"
group.long 0x80++0x03
line.long 0x00 "HSUSBD_EPACFG,Endpoint A Configuration Register"
bitfld.long 0x00 4.--7. "EPNUM,Endpoint Number\nThis field selects the number of the endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "EPDIR,Endpoint Direction\nNote: A maximum of one OUT and IN endpoint is allowed for each endpoint number" "0: out-endpoint (Host OUT to Device),1: in-endpoint (Host IN to Device)"
newline
bitfld.long 0x00 1.--2. "EPTYPE,Endpoint Type\nThis field selects the type of this endpoint" "0: Reserved,1: Bulk,2: Interrupt,3: Isochronous"
bitfld.long 0x00 0. "EPEN,Endpoint Valid\nWhen set this bit enables this endpoint" "0: The endpoint Disabled,1: The endpoint Enabled"
group.long 0x84++0x03
line.long 0x00 "HSUSBD_EPABUFSTART,Endpoint A RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Endpoint Start Address\nThis is the start-address of the RAM space allocated for the endpoint A~L"
group.long 0x88++0x03
line.long 0x00 "HSUSBD_EPABUFEND,Endpoint A RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Endpoint End Address\nThis is the end-address of the RAM space allocated for the endpoint A~L"
group.long 0x8C++0x03
line.long 0x00 "HSUSBD_EPBDAT,Endpoint B Data Register"
hexmask.long 0x00 0.--31. 1. "EPDAT,Endpoint A~L Data Register \nEndpoint A~L data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0x90++0x03
line.long 0x00 "HSUSBD_EPBINTSTS,Endpoint B Interrupt Status Register"
bitfld.long 0x00 12. "SHORTRXIF,Bulk Out Short Packet Received\nNote: Write 1 to clear this bit to 0" "0: No bulk out short packet is received,1: Received bulk out short packet (including.."
bitfld.long 0x00 11. "ERRIF,ERR Sent \nNote: Write 1 to clear this bit to 0" "0: No any error in the transaction,1: There occurs any error in the transaction"
newline
bitfld.long 0x00 10. "NYETIF,NYET Sent \nNote: Write 1 to clear this bit to 0" "0: The space available in the RAM is sufficient..,1: The space available in the RAM is not.."
bitfld.long 0x00 9. "STALLIF,USB STALL Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB packet could be accepted or..,1: The last USB packet could not be accepted or.."
newline
bitfld.long 0x00 8. "NAKIF,USB NAK Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB IN packet could be provided and..,1: The last USB IN packet could not be provided.."
bitfld.long 0x00 7. "PINGIF,PING Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: A Data PING token has not been received from..,1: A Data PING token has been received from the.."
newline
bitfld.long 0x00 6. "INTKIF,Data IN Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not Data IN token has been received from the..,1: A Data IN token has been received from the host"
bitfld.long 0x00 5. "OUTTKIF,Data OUT Token Interrupt\nNote: Write 1 to clear this bit to 0" "0: A Data OUT token has not been received from..,1: A Data OUT token has been received from the.."
newline
bitfld.long 0x00 4. "RXPKIF,Data Packet Received Interrupt\nNote: Write 1 to clear this bit to 0" "0: No data packet is received from the host by..,1: A data packet is received from the host by.."
bitfld.long 0x00 3. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is transmitted from the..,1: A data packet is transmitted from the.."
newline
bitfld.long 0x00 2. "SHORTTXIF,Short Packet Transferred Interrupt \nNote: Write 1 to clear this bit to 0" "0: The length of the last packet was not less..,1: The length of the last packet was less than.."
bitfld.long 0x00 1. "BUFEMPTYIF,Buffer Empty\nFor an IN endpoint a buffer is available to the local side for writing up to FIFO full of bytes" "0: The endpoint buffer is not empty.\nThe..,1: The endpoint buffer is empty.\nThe currently.."
newline
bitfld.long 0x00 0. "BUFFULLIF,Buffer Full \nFor an IN endpoint the currently selected buffer is full or no buffer is available to the local side for writing (no space to write)" "0: The endpoint packet buffer is not full,1: The endpoint packet buffer is full"
group.long 0x94++0x03
line.long 0x00 "HSUSBD_EPBINTEN,Endpoint B Interrupt Enable Register"
bitfld.long 0x00 12. "SHORTRXIEN,Bulk Out Short Packet Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever bulk out short packet occurs on the bus for this endpoint" "0: Bulk out interrupt Disabled,1: Bulk out interrupt Enabled"
bitfld.long 0x00 11. "ERRIEN,ERR Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever ERR condition occurs on the bus for this endpoint" "0: Error event interrupt Disabled,1: Error event interrupt Enabled"
newline
bitfld.long 0x00 10. "NYETIEN,NYET Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever NYET condition occurs on the bus for this endpoint" "0: NYET condition interrupt Disabled,1: NYET condition interrupt Enabled"
bitfld.long 0x00 9. "STALLIEN,USB STALL Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a stall token is sent to the host" "0: STALL token interrupt Disabled,1: STALL token interrupt Enabled"
newline
bitfld.long 0x00 8. "NAKIEN,USB NAK Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a NAK token is sent to the host" "0: NAK token interrupt Disabled,1: NAK token interrupt Enabled"
bitfld.long 0x00 7. "PINGIEN,PING Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a PING token has been received from the host" "0: PING token interrupt Disabled,1: PING token interrupt Enabled"
newline
bitfld.long 0x00 6. "INTKIEN,Data IN Token Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set when a Data IN token has been received from the host" "0: Data IN token interrupt Disabled,1: Data IN token interrupt Enabled"
bitfld.long 0x00 5. "OUTTKIEN,Data OUT Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a Data OUT token has been received from the host" "0: Data OUT token interrupt Disabled,1: Data OUT token interrupt Enabled"
newline
bitfld.long 0x00 4. "RXPKIEN,Data Packet Received Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been received from the host" "0: Data packet has been received from the host..,1: Data packet has been received from the host.."
bitfld.long 0x00 3. "TXPKIEN,Data Packet Transmitted Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been transmitted to the host" "0: Data packet has been transmitted to the host..,1: Data packet has been transmitted to the host.."
newline
bitfld.long 0x00 2. "SHORTTXIEN,Short Packet Transferred Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a short data packet has been transferred to/from the host" "0: Short data packet interrupt Disabled,1: Short data packet interrupt Enabled"
bitfld.long 0x00 1. "BUFEMPTYIEN,Buffer Empty Interrupt\nWhen set this bit enables a local interrupt to be set when a buffer empty condition is detected on the bus" "0: Buffer empty interrupt Disabled,1: Buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "BUFFULLIEN,Buffer Full Interrupt \nWhen set this bit enables a local interrupt to be set when a buffer full condition is detected on the bus" "0: Buffer full interrupt Disabled,1: Buffer full interrupt Enabled"
group.long 0x98++0x03
line.long 0x00 "HSUSBD_EPBDATCNT,Endpoint B Data Available Count Register"
hexmask.long.word 0x00 16.--30. 1. "DMALOOP,DMA Loop\nThis register is the remaining DMA loop to complete"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Data Count\nFor an IN endpoint (EPDIR(HSUSBD_EPxCFG[3] is high.) this register returns the number of valid bytes in the IN endpoint packet buffer.\nFor an OUT endpoint (EPDIR(HSUSBD_EPxCFG[3] is low.) this register returns the number of received.."
group.long 0x9C++0x03
line.long 0x00 "HSUSBD_EPBRSPCTL,Endpoint B Response Control Register"
bitfld.long 0x00 7. "DISBUF,Buffer Disable Bit\nThis bit is used to receive unknown size OUT short packet" "0: Buffer Not Disabled when Bulk-OUT short..,1: Buffer Disabled when Bulk-OUT short packet is.."
bitfld.long 0x00 6. "SHORTTXEN,Short Packet Transfer Enable \nThis bit is applicable only in case of Auto-Validate Method" "0: Not validate any remaining data in the buffer..,1: Validate any remaining data in the buffer.."
newline
bitfld.long 0x00 5. "ZEROLEN,Zero Length\nThis bit is used to send a zero-length packet response to an IN-token" "0: A zero packet is not sent to the host on..,1: A zero packet is sent to the host on.."
bitfld.long 0x00 4. "HALT,Endpoint Halt \nThis bit is used to send a STALL handshake as response to the token from the host" "0: Not send a STALL handshake as response to the..,1: Send a STALL handshake as response to the.."
newline
bitfld.long 0x00 3. "TOGGLE,Endpoint Toggle \nThis bit is used to clear the endpoint data toggle bit" "0: Not clear the endpoint data toggle bit,1: Clear the endpoint data toggle bit"
bitfld.long 0x00 1.--2. "MODE,Mode Control\nThe two bits decide the operation mode of the in-endpoint" "0: Auto-Validate Mode,1: Manual-Validate Mode,2: Fly Mode,3: Reserved"
newline
bitfld.long 0x00 0. "FLUSH,Buffer Flush \nWriting 1 to this bit causes the packet buffer to be flushed and the corresponding EP_AVAIL register to be cleared" "0: The packet buffer is not flushed,1: The packet buffer is flushed by user"
group.long 0xA0++0x03
line.long 0x00 "HSUSBD_EPBMPS,Endpoint B Maximum Packet Size Register"
hexmask.long.word 0x00 0.--10. 1. "EPMPS,Endpoint Maximum Packet Size \nThis field determines the Maximum Packet Size of the Endpoint"
group.long 0xA4++0x03
line.long 0x00 "HSUSBD_EPBTXCNT,Endpoint B Transfer Count Register"
hexmask.long.word 0x00 0.--10. 1. "TXCNT,Endpoint Transfer Count\nFor IN endpoints this field determines the total number of bytes to be sent to the host in case of manual validation method.\nFor OUT endpoints this field has no effect"
group.long 0xA8++0x03
line.long 0x00 "HSUSBD_EPBCFG,Endpoint B Configuration Register"
bitfld.long 0x00 4.--7. "EPNUM,Endpoint Number\nThis field selects the number of the endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "EPDIR,Endpoint Direction\nNote: A maximum of one OUT and IN endpoint is allowed for each endpoint number" "0: out-endpoint (Host OUT to Device),1: in-endpoint (Host IN to Device)"
newline
bitfld.long 0x00 1.--2. "EPTYPE,Endpoint Type\nThis field selects the type of this endpoint" "0: Reserved,1: Bulk,2: Interrupt,3: Isochronous"
bitfld.long 0x00 0. "EPEN,Endpoint Valid\nWhen set this bit enables this endpoint" "0: The endpoint Disabled,1: The endpoint Enabled"
group.long 0xAC++0x03
line.long 0x00 "HSUSBD_EPBBUFSTART,Endpoint B RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Endpoint Start Address\nThis is the start-address of the RAM space allocated for the endpoint A~L"
group.long 0xB0++0x03
line.long 0x00 "HSUSBD_EPBBUFEND,Endpoint B RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Endpoint End Address\nThis is the end-address of the RAM space allocated for the endpoint A~L"
group.long 0xB4++0x03
line.long 0x00 "HSUSBD_EPCDAT,Endpoint C Data Register"
hexmask.long 0x00 0.--31. 1. "EPDAT,Endpoint A~L Data Register \nEndpoint A~L data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0xB8++0x03
line.long 0x00 "HSUSBD_EPCINTSTS,Endpoint C Interrupt Status Register"
bitfld.long 0x00 12. "SHORTRXIF,Bulk Out Short Packet Received\nNote: Write 1 to clear this bit to 0" "0: No bulk out short packet is received,1: Received bulk out short packet (including.."
bitfld.long 0x00 11. "ERRIF,ERR Sent \nNote: Write 1 to clear this bit to 0" "0: No any error in the transaction,1: There occurs any error in the transaction"
newline
bitfld.long 0x00 10. "NYETIF,NYET Sent \nNote: Write 1 to clear this bit to 0" "0: The space available in the RAM is sufficient..,1: The space available in the RAM is not.."
bitfld.long 0x00 9. "STALLIF,USB STALL Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB packet could be accepted or..,1: The last USB packet could not be accepted or.."
newline
bitfld.long 0x00 8. "NAKIF,USB NAK Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB IN packet could be provided and..,1: The last USB IN packet could not be provided.."
bitfld.long 0x00 7. "PINGIF,PING Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: A Data PING token has not been received from..,1: A Data PING token has been received from the.."
newline
bitfld.long 0x00 6. "INTKIF,Data IN Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not Data IN token has been received from the..,1: A Data IN token has been received from the host"
bitfld.long 0x00 5. "OUTTKIF,Data OUT Token Interrupt\nNote: Write 1 to clear this bit to 0" "0: A Data OUT token has not been received from..,1: A Data OUT token has been received from the.."
newline
bitfld.long 0x00 4. "RXPKIF,Data Packet Received Interrupt\nNote: Write 1 to clear this bit to 0" "0: No data packet is received from the host by..,1: A data packet is received from the host by.."
bitfld.long 0x00 3. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is transmitted from the..,1: A data packet is transmitted from the.."
newline
bitfld.long 0x00 2. "SHORTTXIF,Short Packet Transferred Interrupt \nNote: Write 1 to clear this bit to 0" "0: The length of the last packet was not less..,1: The length of the last packet was less than.."
bitfld.long 0x00 1. "BUFEMPTYIF,Buffer Empty\nFor an IN endpoint a buffer is available to the local side for writing up to FIFO full of bytes" "0: The endpoint buffer is not empty.\nThe..,1: The endpoint buffer is empty.\nThe currently.."
newline
bitfld.long 0x00 0. "BUFFULLIF,Buffer Full \nFor an IN endpoint the currently selected buffer is full or no buffer is available to the local side for writing (no space to write)" "0: The endpoint packet buffer is not full,1: The endpoint packet buffer is full"
group.long 0xBC++0x03
line.long 0x00 "HSUSBD_EPCINTEN,Endpoint C Interrupt Enable Register"
bitfld.long 0x00 12. "SHORTRXIEN,Bulk Out Short Packet Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever bulk out short packet occurs on the bus for this endpoint" "0: Bulk out interrupt Disabled,1: Bulk out interrupt Enabled"
bitfld.long 0x00 11. "ERRIEN,ERR Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever ERR condition occurs on the bus for this endpoint" "0: Error event interrupt Disabled,1: Error event interrupt Enabled"
newline
bitfld.long 0x00 10. "NYETIEN,NYET Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever NYET condition occurs on the bus for this endpoint" "0: NYET condition interrupt Disabled,1: NYET condition interrupt Enabled"
bitfld.long 0x00 9. "STALLIEN,USB STALL Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a stall token is sent to the host" "0: STALL token interrupt Disabled,1: STALL token interrupt Enabled"
newline
bitfld.long 0x00 8. "NAKIEN,USB NAK Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a NAK token is sent to the host" "0: NAK token interrupt Disabled,1: NAK token interrupt Enabled"
bitfld.long 0x00 7. "PINGIEN,PING Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a PING token has been received from the host" "0: PING token interrupt Disabled,1: PING token interrupt Enabled"
newline
bitfld.long 0x00 6. "INTKIEN,Data IN Token Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set when a Data IN token has been received from the host" "0: Data IN token interrupt Disabled,1: Data IN token interrupt Enabled"
bitfld.long 0x00 5. "OUTTKIEN,Data OUT Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a Data OUT token has been received from the host" "0: Data OUT token interrupt Disabled,1: Data OUT token interrupt Enabled"
newline
bitfld.long 0x00 4. "RXPKIEN,Data Packet Received Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been received from the host" "0: Data packet has been received from the host..,1: Data packet has been received from the host.."
bitfld.long 0x00 3. "TXPKIEN,Data Packet Transmitted Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been transmitted to the host" "0: Data packet has been transmitted to the host..,1: Data packet has been transmitted to the host.."
newline
bitfld.long 0x00 2. "SHORTTXIEN,Short Packet Transferred Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a short data packet has been transferred to/from the host" "0: Short data packet interrupt Disabled,1: Short data packet interrupt Enabled"
bitfld.long 0x00 1. "BUFEMPTYIEN,Buffer Empty Interrupt\nWhen set this bit enables a local interrupt to be set when a buffer empty condition is detected on the bus" "0: Buffer empty interrupt Disabled,1: Buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "BUFFULLIEN,Buffer Full Interrupt \nWhen set this bit enables a local interrupt to be set when a buffer full condition is detected on the bus" "0: Buffer full interrupt Disabled,1: Buffer full interrupt Enabled"
group.long 0xC0++0x03
line.long 0x00 "HSUSBD_EPCDATCNT,Endpoint C Data Available Count Register"
hexmask.long.word 0x00 16.--30. 1. "DMALOOP,DMA Loop\nThis register is the remaining DMA loop to complete"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Data Count\nFor an IN endpoint (EPDIR(HSUSBD_EPxCFG[3] is high.) this register returns the number of valid bytes in the IN endpoint packet buffer.\nFor an OUT endpoint (EPDIR(HSUSBD_EPxCFG[3] is low.) this register returns the number of received.."
group.long 0xC4++0x03
line.long 0x00 "HSUSBD_EPCRSPCTL,Endpoint C Response Control Register"
bitfld.long 0x00 7. "DISBUF,Buffer Disable Bit\nThis bit is used to receive unknown size OUT short packet" "0: Buffer Not Disabled when Bulk-OUT short..,1: Buffer Disabled when Bulk-OUT short packet is.."
bitfld.long 0x00 6. "SHORTTXEN,Short Packet Transfer Enable \nThis bit is applicable only in case of Auto-Validate Method" "0: Not validate any remaining data in the buffer..,1: Validate any remaining data in the buffer.."
newline
bitfld.long 0x00 5. "ZEROLEN,Zero Length\nThis bit is used to send a zero-length packet response to an IN-token" "0: A zero packet is not sent to the host on..,1: A zero packet is sent to the host on.."
bitfld.long 0x00 4. "HALT,Endpoint Halt \nThis bit is used to send a STALL handshake as response to the token from the host" "0: Not send a STALL handshake as response to the..,1: Send a STALL handshake as response to the.."
newline
bitfld.long 0x00 3. "TOGGLE,Endpoint Toggle \nThis bit is used to clear the endpoint data toggle bit" "0: Not clear the endpoint data toggle bit,1: Clear the endpoint data toggle bit"
bitfld.long 0x00 1.--2. "MODE,Mode Control\nThe two bits decide the operation mode of the in-endpoint" "0: Auto-Validate Mode,1: Manual-Validate Mode,2: Fly Mode,3: Reserved"
newline
bitfld.long 0x00 0. "FLUSH,Buffer Flush \nWriting 1 to this bit causes the packet buffer to be flushed and the corresponding EP_AVAIL register to be cleared" "0: The packet buffer is not flushed,1: The packet buffer is flushed by user"
group.long 0xC8++0x03
line.long 0x00 "HSUSBD_EPCMPS,Endpoint C Maximum Packet Size Register"
hexmask.long.word 0x00 0.--10. 1. "EPMPS,Endpoint Maximum Packet Size \nThis field determines the Maximum Packet Size of the Endpoint"
group.long 0xCC++0x03
line.long 0x00 "HSUSBD_EPCTXCNT,Endpoint C Transfer Count Register"
hexmask.long.word 0x00 0.--10. 1. "TXCNT,Endpoint Transfer Count\nFor IN endpoints this field determines the total number of bytes to be sent to the host in case of manual validation method.\nFor OUT endpoints this field has no effect"
group.long 0xD0++0x03
line.long 0x00 "HSUSBD_EPCCFG,Endpoint C Configuration Register"
bitfld.long 0x00 4.--7. "EPNUM,Endpoint Number\nThis field selects the number of the endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "EPDIR,Endpoint Direction\nNote: A maximum of one OUT and IN endpoint is allowed for each endpoint number" "0: out-endpoint (Host OUT to Device),1: in-endpoint (Host IN to Device)"
newline
bitfld.long 0x00 1.--2. "EPTYPE,Endpoint Type\nThis field selects the type of this endpoint" "0: Reserved,1: Bulk,2: Interrupt,3: Isochronous"
bitfld.long 0x00 0. "EPEN,Endpoint Valid\nWhen set this bit enables this endpoint" "0: The endpoint Disabled,1: The endpoint Enabled"
group.long 0xD4++0x03
line.long 0x00 "HSUSBD_EPCBUFSTART,Endpoint C RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Endpoint Start Address\nThis is the start-address of the RAM space allocated for the endpoint A~L"
group.long 0xD8++0x03
line.long 0x00 "HSUSBD_EPCBUFEND,Endpoint C RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Endpoint End Address\nThis is the end-address of the RAM space allocated for the endpoint A~L"
group.long 0xDC++0x03
line.long 0x00 "HSUSBD_EPDDAT,Endpoint D Data Register"
hexmask.long 0x00 0.--31. 1. "EPDAT,Endpoint A~L Data Register \nEndpoint A~L data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0xE0++0x03
line.long 0x00 "HSUSBD_EPDINTSTS,Endpoint D Interrupt Status Register"
bitfld.long 0x00 12. "SHORTRXIF,Bulk Out Short Packet Received\nNote: Write 1 to clear this bit to 0" "0: No bulk out short packet is received,1: Received bulk out short packet (including.."
bitfld.long 0x00 11. "ERRIF,ERR Sent \nNote: Write 1 to clear this bit to 0" "0: No any error in the transaction,1: There occurs any error in the transaction"
newline
bitfld.long 0x00 10. "NYETIF,NYET Sent \nNote: Write 1 to clear this bit to 0" "0: The space available in the RAM is sufficient..,1: The space available in the RAM is not.."
bitfld.long 0x00 9. "STALLIF,USB STALL Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB packet could be accepted or..,1: The last USB packet could not be accepted or.."
newline
bitfld.long 0x00 8. "NAKIF,USB NAK Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB IN packet could be provided and..,1: The last USB IN packet could not be provided.."
bitfld.long 0x00 7. "PINGIF,PING Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: A Data PING token has not been received from..,1: A Data PING token has been received from the.."
newline
bitfld.long 0x00 6. "INTKIF,Data IN Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not Data IN token has been received from the..,1: A Data IN token has been received from the host"
bitfld.long 0x00 5. "OUTTKIF,Data OUT Token Interrupt\nNote: Write 1 to clear this bit to 0" "0: A Data OUT token has not been received from..,1: A Data OUT token has been received from the.."
newline
bitfld.long 0x00 4. "RXPKIF,Data Packet Received Interrupt\nNote: Write 1 to clear this bit to 0" "0: No data packet is received from the host by..,1: A data packet is received from the host by.."
bitfld.long 0x00 3. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is transmitted from the..,1: A data packet is transmitted from the.."
newline
bitfld.long 0x00 2. "SHORTTXIF,Short Packet Transferred Interrupt \nNote: Write 1 to clear this bit to 0" "0: The length of the last packet was not less..,1: The length of the last packet was less than.."
bitfld.long 0x00 1. "BUFEMPTYIF,Buffer Empty\nFor an IN endpoint a buffer is available to the local side for writing up to FIFO full of bytes" "0: The endpoint buffer is not empty.\nThe..,1: The endpoint buffer is empty.\nThe currently.."
newline
bitfld.long 0x00 0. "BUFFULLIF,Buffer Full \nFor an IN endpoint the currently selected buffer is full or no buffer is available to the local side for writing (no space to write)" "0: The endpoint packet buffer is not full,1: The endpoint packet buffer is full"
group.long 0xE4++0x03
line.long 0x00 "HSUSBD_EPDINTEN,Endpoint D Interrupt Enable Register"
bitfld.long 0x00 12. "SHORTRXIEN,Bulk Out Short Packet Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever bulk out short packet occurs on the bus for this endpoint" "0: Bulk out interrupt Disabled,1: Bulk out interrupt Enabled"
bitfld.long 0x00 11. "ERRIEN,ERR Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever ERR condition occurs on the bus for this endpoint" "0: Error event interrupt Disabled,1: Error event interrupt Enabled"
newline
bitfld.long 0x00 10. "NYETIEN,NYET Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever NYET condition occurs on the bus for this endpoint" "0: NYET condition interrupt Disabled,1: NYET condition interrupt Enabled"
bitfld.long 0x00 9. "STALLIEN,USB STALL Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a stall token is sent to the host" "0: STALL token interrupt Disabled,1: STALL token interrupt Enabled"
newline
bitfld.long 0x00 8. "NAKIEN,USB NAK Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a NAK token is sent to the host" "0: NAK token interrupt Disabled,1: NAK token interrupt Enabled"
bitfld.long 0x00 7. "PINGIEN,PING Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a PING token has been received from the host" "0: PING token interrupt Disabled,1: PING token interrupt Enabled"
newline
bitfld.long 0x00 6. "INTKIEN,Data IN Token Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set when a Data IN token has been received from the host" "0: Data IN token interrupt Disabled,1: Data IN token interrupt Enabled"
bitfld.long 0x00 5. "OUTTKIEN,Data OUT Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a Data OUT token has been received from the host" "0: Data OUT token interrupt Disabled,1: Data OUT token interrupt Enabled"
newline
bitfld.long 0x00 4. "RXPKIEN,Data Packet Received Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been received from the host" "0: Data packet has been received from the host..,1: Data packet has been received from the host.."
bitfld.long 0x00 3. "TXPKIEN,Data Packet Transmitted Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been transmitted to the host" "0: Data packet has been transmitted to the host..,1: Data packet has been transmitted to the host.."
newline
bitfld.long 0x00 2. "SHORTTXIEN,Short Packet Transferred Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a short data packet has been transferred to/from the host" "0: Short data packet interrupt Disabled,1: Short data packet interrupt Enabled"
bitfld.long 0x00 1. "BUFEMPTYIEN,Buffer Empty Interrupt\nWhen set this bit enables a local interrupt to be set when a buffer empty condition is detected on the bus" "0: Buffer empty interrupt Disabled,1: Buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "BUFFULLIEN,Buffer Full Interrupt \nWhen set this bit enables a local interrupt to be set when a buffer full condition is detected on the bus" "0: Buffer full interrupt Disabled,1: Buffer full interrupt Enabled"
group.long 0xE8++0x03
line.long 0x00 "HSUSBD_EPDDATCNT,Endpoint D Data Available Count Register"
hexmask.long.word 0x00 16.--30. 1. "DMALOOP,DMA Loop\nThis register is the remaining DMA loop to complete"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Data Count\nFor an IN endpoint (EPDIR(HSUSBD_EPxCFG[3] is high.) this register returns the number of valid bytes in the IN endpoint packet buffer.\nFor an OUT endpoint (EPDIR(HSUSBD_EPxCFG[3] is low.) this register returns the number of received.."
group.long 0xEC++0x03
line.long 0x00 "HSUSBD_EPDRSPCTL,Endpoint D Response Control Register"
bitfld.long 0x00 7. "DISBUF,Buffer Disable Bit\nThis bit is used to receive unknown size OUT short packet" "0: Buffer Not Disabled when Bulk-OUT short..,1: Buffer Disabled when Bulk-OUT short packet is.."
bitfld.long 0x00 6. "SHORTTXEN,Short Packet Transfer Enable \nThis bit is applicable only in case of Auto-Validate Method" "0: Not validate any remaining data in the buffer..,1: Validate any remaining data in the buffer.."
newline
bitfld.long 0x00 5. "ZEROLEN,Zero Length\nThis bit is used to send a zero-length packet response to an IN-token" "0: A zero packet is not sent to the host on..,1: A zero packet is sent to the host on.."
bitfld.long 0x00 4. "HALT,Endpoint Halt \nThis bit is used to send a STALL handshake as response to the token from the host" "0: Not send a STALL handshake as response to the..,1: Send a STALL handshake as response to the.."
newline
bitfld.long 0x00 3. "TOGGLE,Endpoint Toggle \nThis bit is used to clear the endpoint data toggle bit" "0: Not clear the endpoint data toggle bit,1: Clear the endpoint data toggle bit"
bitfld.long 0x00 1.--2. "MODE,Mode Control\nThe two bits decide the operation mode of the in-endpoint" "0: Auto-Validate Mode,1: Manual-Validate Mode,2: Fly Mode,3: Reserved"
newline
bitfld.long 0x00 0. "FLUSH,Buffer Flush \nWriting 1 to this bit causes the packet buffer to be flushed and the corresponding EP_AVAIL register to be cleared" "0: The packet buffer is not flushed,1: The packet buffer is flushed by user"
group.long 0xF0++0x03
line.long 0x00 "HSUSBD_EPDMPS,Endpoint D Maximum Packet Size Register"
hexmask.long.word 0x00 0.--10. 1. "EPMPS,Endpoint Maximum Packet Size \nThis field determines the Maximum Packet Size of the Endpoint"
group.long 0xF4++0x03
line.long 0x00 "HSUSBD_EPDTXCNT,Endpoint D Transfer Count Register"
hexmask.long.word 0x00 0.--10. 1. "TXCNT,Endpoint Transfer Count\nFor IN endpoints this field determines the total number of bytes to be sent to the host in case of manual validation method.\nFor OUT endpoints this field has no effect"
group.long 0xF8++0x03
line.long 0x00 "HSUSBD_EPDCFG,Endpoint D Configuration Register"
bitfld.long 0x00 4.--7. "EPNUM,Endpoint Number\nThis field selects the number of the endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "EPDIR,Endpoint Direction\nNote: A maximum of one OUT and IN endpoint is allowed for each endpoint number" "0: out-endpoint (Host OUT to Device),1: in-endpoint (Host IN to Device)"
newline
bitfld.long 0x00 1.--2. "EPTYPE,Endpoint Type\nThis field selects the type of this endpoint" "0: Reserved,1: Bulk,2: Interrupt,3: Isochronous"
bitfld.long 0x00 0. "EPEN,Endpoint Valid\nWhen set this bit enables this endpoint" "0: The endpoint Disabled,1: The endpoint Enabled"
group.long 0xFC++0x03
line.long 0x00 "HSUSBD_EPDBUFSTART,Endpoint D RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Endpoint Start Address\nThis is the start-address of the RAM space allocated for the endpoint A~L"
group.long 0x100++0x03
line.long 0x00 "HSUSBD_EPDBUFEND,Endpoint D RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Endpoint End Address\nThis is the end-address of the RAM space allocated for the endpoint A~L"
group.long 0x104++0x03
line.long 0x00 "HSUSBD_EPEDAT,Endpoint E Data Register"
hexmask.long 0x00 0.--31. 1. "EPDAT,Endpoint A~L Data Register \nEndpoint A~L data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0x108++0x03
line.long 0x00 "HSUSBD_EPEINTSTS,Endpoint E Interrupt Status Register"
bitfld.long 0x00 12. "SHORTRXIF,Bulk Out Short Packet Received\nNote: Write 1 to clear this bit to 0" "0: No bulk out short packet is received,1: Received bulk out short packet (including.."
bitfld.long 0x00 11. "ERRIF,ERR Sent \nNote: Write 1 to clear this bit to 0" "0: No any error in the transaction,1: There occurs any error in the transaction"
newline
bitfld.long 0x00 10. "NYETIF,NYET Sent \nNote: Write 1 to clear this bit to 0" "0: The space available in the RAM is sufficient..,1: The space available in the RAM is not.."
bitfld.long 0x00 9. "STALLIF,USB STALL Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB packet could be accepted or..,1: The last USB packet could not be accepted or.."
newline
bitfld.long 0x00 8. "NAKIF,USB NAK Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB IN packet could be provided and..,1: The last USB IN packet could not be provided.."
bitfld.long 0x00 7. "PINGIF,PING Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: A Data PING token has not been received from..,1: A Data PING token has been received from the.."
newline
bitfld.long 0x00 6. "INTKIF,Data IN Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not Data IN token has been received from the..,1: A Data IN token has been received from the host"
bitfld.long 0x00 5. "OUTTKIF,Data OUT Token Interrupt\nNote: Write 1 to clear this bit to 0" "0: A Data OUT token has not been received from..,1: A Data OUT token has been received from the.."
newline
bitfld.long 0x00 4. "RXPKIF,Data Packet Received Interrupt\nNote: Write 1 to clear this bit to 0" "0: No data packet is received from the host by..,1: A data packet is received from the host by.."
bitfld.long 0x00 3. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is transmitted from the..,1: A data packet is transmitted from the.."
newline
bitfld.long 0x00 2. "SHORTTXIF,Short Packet Transferred Interrupt \nNote: Write 1 to clear this bit to 0" "0: The length of the last packet was not less..,1: The length of the last packet was less than.."
bitfld.long 0x00 1. "BUFEMPTYIF,Buffer Empty\nFor an IN endpoint a buffer is available to the local side for writing up to FIFO full of bytes" "0: The endpoint buffer is not empty.\nThe..,1: The endpoint buffer is empty.\nThe currently.."
newline
bitfld.long 0x00 0. "BUFFULLIF,Buffer Full \nFor an IN endpoint the currently selected buffer is full or no buffer is available to the local side for writing (no space to write)" "0: The endpoint packet buffer is not full,1: The endpoint packet buffer is full"
group.long 0x10C++0x03
line.long 0x00 "HSUSBD_EPEINTEN,Endpoint E Interrupt Enable Register"
bitfld.long 0x00 12. "SHORTRXIEN,Bulk Out Short Packet Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever bulk out short packet occurs on the bus for this endpoint" "0: Bulk out interrupt Disabled,1: Bulk out interrupt Enabled"
bitfld.long 0x00 11. "ERRIEN,ERR Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever ERR condition occurs on the bus for this endpoint" "0: Error event interrupt Disabled,1: Error event interrupt Enabled"
newline
bitfld.long 0x00 10. "NYETIEN,NYET Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever NYET condition occurs on the bus for this endpoint" "0: NYET condition interrupt Disabled,1: NYET condition interrupt Enabled"
bitfld.long 0x00 9. "STALLIEN,USB STALL Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a stall token is sent to the host" "0: STALL token interrupt Disabled,1: STALL token interrupt Enabled"
newline
bitfld.long 0x00 8. "NAKIEN,USB NAK Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a NAK token is sent to the host" "0: NAK token interrupt Disabled,1: NAK token interrupt Enabled"
bitfld.long 0x00 7. "PINGIEN,PING Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a PING token has been received from the host" "0: PING token interrupt Disabled,1: PING token interrupt Enabled"
newline
bitfld.long 0x00 6. "INTKIEN,Data IN Token Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set when a Data IN token has been received from the host" "0: Data IN token interrupt Disabled,1: Data IN token interrupt Enabled"
bitfld.long 0x00 5. "OUTTKIEN,Data OUT Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a Data OUT token has been received from the host" "0: Data OUT token interrupt Disabled,1: Data OUT token interrupt Enabled"
newline
bitfld.long 0x00 4. "RXPKIEN,Data Packet Received Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been received from the host" "0: Data packet has been received from the host..,1: Data packet has been received from the host.."
bitfld.long 0x00 3. "TXPKIEN,Data Packet Transmitted Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been transmitted to the host" "0: Data packet has been transmitted to the host..,1: Data packet has been transmitted to the host.."
newline
bitfld.long 0x00 2. "SHORTTXIEN,Short Packet Transferred Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a short data packet has been transferred to/from the host" "0: Short data packet interrupt Disabled,1: Short data packet interrupt Enabled"
bitfld.long 0x00 1. "BUFEMPTYIEN,Buffer Empty Interrupt\nWhen set this bit enables a local interrupt to be set when a buffer empty condition is detected on the bus" "0: Buffer empty interrupt Disabled,1: Buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "BUFFULLIEN,Buffer Full Interrupt \nWhen set this bit enables a local interrupt to be set when a buffer full condition is detected on the bus" "0: Buffer full interrupt Disabled,1: Buffer full interrupt Enabled"
group.long 0x110++0x03
line.long 0x00 "HSUSBD_EPEDATCNT,Endpoint E Data Available Count Register"
hexmask.long.word 0x00 16.--30. 1. "DMALOOP,DMA Loop\nThis register is the remaining DMA loop to complete"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Data Count\nFor an IN endpoint (EPDIR(HSUSBD_EPxCFG[3] is high.) this register returns the number of valid bytes in the IN endpoint packet buffer.\nFor an OUT endpoint (EPDIR(HSUSBD_EPxCFG[3] is low.) this register returns the number of received.."
group.long 0x114++0x03
line.long 0x00 "HSUSBD_EPERSPCTL,Endpoint E Response Control Register"
bitfld.long 0x00 7. "DISBUF,Buffer Disable Bit\nThis bit is used to receive unknown size OUT short packet" "0: Buffer Not Disabled when Bulk-OUT short..,1: Buffer Disabled when Bulk-OUT short packet is.."
bitfld.long 0x00 6. "SHORTTXEN,Short Packet Transfer Enable \nThis bit is applicable only in case of Auto-Validate Method" "0: Not validate any remaining data in the buffer..,1: Validate any remaining data in the buffer.."
newline
bitfld.long 0x00 5. "ZEROLEN,Zero Length\nThis bit is used to send a zero-length packet response to an IN-token" "0: A zero packet is not sent to the host on..,1: A zero packet is sent to the host on.."
bitfld.long 0x00 4. "HALT,Endpoint Halt \nThis bit is used to send a STALL handshake as response to the token from the host" "0: Not send a STALL handshake as response to the..,1: Send a STALL handshake as response to the.."
newline
bitfld.long 0x00 3. "TOGGLE,Endpoint Toggle \nThis bit is used to clear the endpoint data toggle bit" "0: Not clear the endpoint data toggle bit,1: Clear the endpoint data toggle bit"
bitfld.long 0x00 1.--2. "MODE,Mode Control\nThe two bits decide the operation mode of the in-endpoint" "0: Auto-Validate Mode,1: Manual-Validate Mode,2: Fly Mode,3: Reserved"
newline
bitfld.long 0x00 0. "FLUSH,Buffer Flush \nWriting 1 to this bit causes the packet buffer to be flushed and the corresponding EP_AVAIL register to be cleared" "0: The packet buffer is not flushed,1: The packet buffer is flushed by user"
group.long 0x118++0x03
line.long 0x00 "HSUSBD_EPEMPS,Endpoint E Maximum Packet Size Register"
hexmask.long.word 0x00 0.--10. 1. "EPMPS,Endpoint Maximum Packet Size \nThis field determines the Maximum Packet Size of the Endpoint"
group.long 0x11C++0x03
line.long 0x00 "HSUSBD_EPETXCNT,Endpoint E Transfer Count Register"
hexmask.long.word 0x00 0.--10. 1. "TXCNT,Endpoint Transfer Count\nFor IN endpoints this field determines the total number of bytes to be sent to the host in case of manual validation method.\nFor OUT endpoints this field has no effect"
group.long 0x120++0x03
line.long 0x00 "HSUSBD_EPECFG,Endpoint E Configuration Register"
bitfld.long 0x00 4.--7. "EPNUM,Endpoint Number\nThis field selects the number of the endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "EPDIR,Endpoint Direction\nNote: A maximum of one OUT and IN endpoint is allowed for each endpoint number" "0: out-endpoint (Host OUT to Device),1: in-endpoint (Host IN to Device)"
newline
bitfld.long 0x00 1.--2. "EPTYPE,Endpoint Type\nThis field selects the type of this endpoint" "0: Reserved,1: Bulk,2: Interrupt,3: Isochronous"
bitfld.long 0x00 0. "EPEN,Endpoint Valid\nWhen set this bit enables this endpoint" "0: The endpoint Disabled,1: The endpoint Enabled"
group.long 0x124++0x03
line.long 0x00 "HSUSBD_EPEBUFSTART,Endpoint E RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Endpoint Start Address\nThis is the start-address of the RAM space allocated for the endpoint A~L"
group.long 0x128++0x03
line.long 0x00 "HSUSBD_EPEBUFEND,Endpoint E RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Endpoint End Address\nThis is the end-address of the RAM space allocated for the endpoint A~L"
group.long 0x12C++0x03
line.long 0x00 "HSUSBD_EPFDAT,Endpoint F Data Register"
hexmask.long 0x00 0.--31. 1. "EPDAT,Endpoint A~L Data Register \nEndpoint A~L data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0x130++0x03
line.long 0x00 "HSUSBD_EPFINTSTS,Endpoint F Interrupt Status Register"
bitfld.long 0x00 12. "SHORTRXIF,Bulk Out Short Packet Received\nNote: Write 1 to clear this bit to 0" "0: No bulk out short packet is received,1: Received bulk out short packet (including.."
bitfld.long 0x00 11. "ERRIF,ERR Sent \nNote: Write 1 to clear this bit to 0" "0: No any error in the transaction,1: There occurs any error in the transaction"
newline
bitfld.long 0x00 10. "NYETIF,NYET Sent \nNote: Write 1 to clear this bit to 0" "0: The space available in the RAM is sufficient..,1: The space available in the RAM is not.."
bitfld.long 0x00 9. "STALLIF,USB STALL Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB packet could be accepted or..,1: The last USB packet could not be accepted or.."
newline
bitfld.long 0x00 8. "NAKIF,USB NAK Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB IN packet could be provided and..,1: The last USB IN packet could not be provided.."
bitfld.long 0x00 7. "PINGIF,PING Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: A Data PING token has not been received from..,1: A Data PING token has been received from the.."
newline
bitfld.long 0x00 6. "INTKIF,Data IN Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not Data IN token has been received from the..,1: A Data IN token has been received from the host"
bitfld.long 0x00 5. "OUTTKIF,Data OUT Token Interrupt\nNote: Write 1 to clear this bit to 0" "0: A Data OUT token has not been received from..,1: A Data OUT token has been received from the.."
newline
bitfld.long 0x00 4. "RXPKIF,Data Packet Received Interrupt\nNote: Write 1 to clear this bit to 0" "0: No data packet is received from the host by..,1: A data packet is received from the host by.."
bitfld.long 0x00 3. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is transmitted from the..,1: A data packet is transmitted from the.."
newline
bitfld.long 0x00 2. "SHORTTXIF,Short Packet Transferred Interrupt \nNote: Write 1 to clear this bit to 0" "0: The length of the last packet was not less..,1: The length of the last packet was less than.."
bitfld.long 0x00 1. "BUFEMPTYIF,Buffer Empty\nFor an IN endpoint a buffer is available to the local side for writing up to FIFO full of bytes" "0: The endpoint buffer is not empty.\nThe..,1: The endpoint buffer is empty.\nThe currently.."
newline
bitfld.long 0x00 0. "BUFFULLIF,Buffer Full \nFor an IN endpoint the currently selected buffer is full or no buffer is available to the local side for writing (no space to write)" "0: The endpoint packet buffer is not full,1: The endpoint packet buffer is full"
group.long 0x134++0x03
line.long 0x00 "HSUSBD_EPFINTEN,Endpoint F Interrupt Enable Register"
bitfld.long 0x00 12. "SHORTRXIEN,Bulk Out Short Packet Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever bulk out short packet occurs on the bus for this endpoint" "0: Bulk out interrupt Disabled,1: Bulk out interrupt Enabled"
bitfld.long 0x00 11. "ERRIEN,ERR Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever ERR condition occurs on the bus for this endpoint" "0: Error event interrupt Disabled,1: Error event interrupt Enabled"
newline
bitfld.long 0x00 10. "NYETIEN,NYET Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever NYET condition occurs on the bus for this endpoint" "0: NYET condition interrupt Disabled,1: NYET condition interrupt Enabled"
bitfld.long 0x00 9. "STALLIEN,USB STALL Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a stall token is sent to the host" "0: STALL token interrupt Disabled,1: STALL token interrupt Enabled"
newline
bitfld.long 0x00 8. "NAKIEN,USB NAK Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a NAK token is sent to the host" "0: NAK token interrupt Disabled,1: NAK token interrupt Enabled"
bitfld.long 0x00 7. "PINGIEN,PING Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a PING token has been received from the host" "0: PING token interrupt Disabled,1: PING token interrupt Enabled"
newline
bitfld.long 0x00 6. "INTKIEN,Data IN Token Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set when a Data IN token has been received from the host" "0: Data IN token interrupt Disabled,1: Data IN token interrupt Enabled"
bitfld.long 0x00 5. "OUTTKIEN,Data OUT Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a Data OUT token has been received from the host" "0: Data OUT token interrupt Disabled,1: Data OUT token interrupt Enabled"
newline
bitfld.long 0x00 4. "RXPKIEN,Data Packet Received Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been received from the host" "0: Data packet has been received from the host..,1: Data packet has been received from the host.."
bitfld.long 0x00 3. "TXPKIEN,Data Packet Transmitted Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been transmitted to the host" "0: Data packet has been transmitted to the host..,1: Data packet has been transmitted to the host.."
newline
bitfld.long 0x00 2. "SHORTTXIEN,Short Packet Transferred Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a short data packet has been transferred to/from the host" "0: Short data packet interrupt Disabled,1: Short data packet interrupt Enabled"
bitfld.long 0x00 1. "BUFEMPTYIEN,Buffer Empty Interrupt\nWhen set this bit enables a local interrupt to be set when a buffer empty condition is detected on the bus" "0: Buffer empty interrupt Disabled,1: Buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "BUFFULLIEN,Buffer Full Interrupt \nWhen set this bit enables a local interrupt to be set when a buffer full condition is detected on the bus" "0: Buffer full interrupt Disabled,1: Buffer full interrupt Enabled"
group.long 0x138++0x03
line.long 0x00 "HSUSBD_EPFDATCNT,Endpoint F Data Available Count Register"
hexmask.long.word 0x00 16.--30. 1. "DMALOOP,DMA Loop\nThis register is the remaining DMA loop to complete"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Data Count\nFor an IN endpoint (EPDIR(HSUSBD_EPxCFG[3] is high.) this register returns the number of valid bytes in the IN endpoint packet buffer.\nFor an OUT endpoint (EPDIR(HSUSBD_EPxCFG[3] is low.) this register returns the number of received.."
group.long 0x13C++0x03
line.long 0x00 "HSUSBD_EPFRSPCTL,Endpoint F Response Control Register"
bitfld.long 0x00 7. "DISBUF,Buffer Disable Bit\nThis bit is used to receive unknown size OUT short packet" "0: Buffer Not Disabled when Bulk-OUT short..,1: Buffer Disabled when Bulk-OUT short packet is.."
bitfld.long 0x00 6. "SHORTTXEN,Short Packet Transfer Enable \nThis bit is applicable only in case of Auto-Validate Method" "0: Not validate any remaining data in the buffer..,1: Validate any remaining data in the buffer.."
newline
bitfld.long 0x00 5. "ZEROLEN,Zero Length\nThis bit is used to send a zero-length packet response to an IN-token" "0: A zero packet is not sent to the host on..,1: A zero packet is sent to the host on.."
bitfld.long 0x00 4. "HALT,Endpoint Halt \nThis bit is used to send a STALL handshake as response to the token from the host" "0: Not send a STALL handshake as response to the..,1: Send a STALL handshake as response to the.."
newline
bitfld.long 0x00 3. "TOGGLE,Endpoint Toggle \nThis bit is used to clear the endpoint data toggle bit" "0: Not clear the endpoint data toggle bit,1: Clear the endpoint data toggle bit"
bitfld.long 0x00 1.--2. "MODE,Mode Control\nThe two bits decide the operation mode of the in-endpoint" "0: Auto-Validate Mode,1: Manual-Validate Mode,2: Fly Mode,3: Reserved"
newline
bitfld.long 0x00 0. "FLUSH,Buffer Flush \nWriting 1 to this bit causes the packet buffer to be flushed and the corresponding EP_AVAIL register to be cleared" "0: The packet buffer is not flushed,1: The packet buffer is flushed by user"
group.long 0x140++0x03
line.long 0x00 "HSUSBD_EPFMPS,Endpoint F Maximum Packet Size Register"
hexmask.long.word 0x00 0.--10. 1. "EPMPS,Endpoint Maximum Packet Size \nThis field determines the Maximum Packet Size of the Endpoint"
group.long 0x144++0x03
line.long 0x00 "HSUSBD_EPFTXCNT,Endpoint F Transfer Count Register"
hexmask.long.word 0x00 0.--10. 1. "TXCNT,Endpoint Transfer Count\nFor IN endpoints this field determines the total number of bytes to be sent to the host in case of manual validation method.\nFor OUT endpoints this field has no effect"
group.long 0x148++0x03
line.long 0x00 "HSUSBD_EPFCFG,Endpoint F Configuration Register"
bitfld.long 0x00 4.--7. "EPNUM,Endpoint Number\nThis field selects the number of the endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "EPDIR,Endpoint Direction\nNote: A maximum of one OUT and IN endpoint is allowed for each endpoint number" "0: out-endpoint (Host OUT to Device),1: in-endpoint (Host IN to Device)"
newline
bitfld.long 0x00 1.--2. "EPTYPE,Endpoint Type\nThis field selects the type of this endpoint" "0: Reserved,1: Bulk,2: Interrupt,3: Isochronous"
bitfld.long 0x00 0. "EPEN,Endpoint Valid\nWhen set this bit enables this endpoint" "0: The endpoint Disabled,1: The endpoint Enabled"
group.long 0x14C++0x03
line.long 0x00 "HSUSBD_EPFBUFSTART,Endpoint F RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Endpoint Start Address\nThis is the start-address of the RAM space allocated for the endpoint A~L"
group.long 0x150++0x03
line.long 0x00 "HSUSBD_EPFBUFEND,Endpoint F RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Endpoint End Address\nThis is the end-address of the RAM space allocated for the endpoint A~L"
group.long 0x154++0x03
line.long 0x00 "HSUSBD_EPGDAT,Endpoint G Data Register"
hexmask.long 0x00 0.--31. 1. "EPDAT,Endpoint A~L Data Register \nEndpoint A~L data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0x158++0x03
line.long 0x00 "HSUSBD_EPGINTSTS,Endpoint G Interrupt Status Register"
bitfld.long 0x00 12. "SHORTRXIF,Bulk Out Short Packet Received\nNote: Write 1 to clear this bit to 0" "0: No bulk out short packet is received,1: Received bulk out short packet (including.."
bitfld.long 0x00 11. "ERRIF,ERR Sent \nNote: Write 1 to clear this bit to 0" "0: No any error in the transaction,1: There occurs any error in the transaction"
newline
bitfld.long 0x00 10. "NYETIF,NYET Sent \nNote: Write 1 to clear this bit to 0" "0: The space available in the RAM is sufficient..,1: The space available in the RAM is not.."
bitfld.long 0x00 9. "STALLIF,USB STALL Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB packet could be accepted or..,1: The last USB packet could not be accepted or.."
newline
bitfld.long 0x00 8. "NAKIF,USB NAK Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB IN packet could be provided and..,1: The last USB IN packet could not be provided.."
bitfld.long 0x00 7. "PINGIF,PING Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: A Data PING token has not been received from..,1: A Data PING token has been received from the.."
newline
bitfld.long 0x00 6. "INTKIF,Data IN Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not Data IN token has been received from the..,1: A Data IN token has been received from the host"
bitfld.long 0x00 5. "OUTTKIF,Data OUT Token Interrupt\nNote: Write 1 to clear this bit to 0" "0: A Data OUT token has not been received from..,1: A Data OUT token has been received from the.."
newline
bitfld.long 0x00 4. "RXPKIF,Data Packet Received Interrupt\nNote: Write 1 to clear this bit to 0" "0: No data packet is received from the host by..,1: A data packet is received from the host by.."
bitfld.long 0x00 3. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is transmitted from the..,1: A data packet is transmitted from the.."
newline
bitfld.long 0x00 2. "SHORTTXIF,Short Packet Transferred Interrupt \nNote: Write 1 to clear this bit to 0" "0: The length of the last packet was not less..,1: The length of the last packet was less than.."
bitfld.long 0x00 1. "BUFEMPTYIF,Buffer Empty\nFor an IN endpoint a buffer is available to the local side for writing up to FIFO full of bytes" "0: The endpoint buffer is not empty.\nThe..,1: The endpoint buffer is empty.\nThe currently.."
newline
bitfld.long 0x00 0. "BUFFULLIF,Buffer Full \nFor an IN endpoint the currently selected buffer is full or no buffer is available to the local side for writing (no space to write)" "0: The endpoint packet buffer is not full,1: The endpoint packet buffer is full"
group.long 0x15C++0x03
line.long 0x00 "HSUSBD_EPGINTEN,Endpoint G Interrupt Enable Register"
bitfld.long 0x00 12. "SHORTRXIEN,Bulk Out Short Packet Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever bulk out short packet occurs on the bus for this endpoint" "0: Bulk out interrupt Disabled,1: Bulk out interrupt Enabled"
bitfld.long 0x00 11. "ERRIEN,ERR Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever ERR condition occurs on the bus for this endpoint" "0: Error event interrupt Disabled,1: Error event interrupt Enabled"
newline
bitfld.long 0x00 10. "NYETIEN,NYET Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever NYET condition occurs on the bus for this endpoint" "0: NYET condition interrupt Disabled,1: NYET condition interrupt Enabled"
bitfld.long 0x00 9. "STALLIEN,USB STALL Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a stall token is sent to the host" "0: STALL token interrupt Disabled,1: STALL token interrupt Enabled"
newline
bitfld.long 0x00 8. "NAKIEN,USB NAK Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a NAK token is sent to the host" "0: NAK token interrupt Disabled,1: NAK token interrupt Enabled"
bitfld.long 0x00 7. "PINGIEN,PING Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a PING token has been received from the host" "0: PING token interrupt Disabled,1: PING token interrupt Enabled"
newline
bitfld.long 0x00 6. "INTKIEN,Data IN Token Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set when a Data IN token has been received from the host" "0: Data IN token interrupt Disabled,1: Data IN token interrupt Enabled"
bitfld.long 0x00 5. "OUTTKIEN,Data OUT Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a Data OUT token has been received from the host" "0: Data OUT token interrupt Disabled,1: Data OUT token interrupt Enabled"
newline
bitfld.long 0x00 4. "RXPKIEN,Data Packet Received Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been received from the host" "0: Data packet has been received from the host..,1: Data packet has been received from the host.."
bitfld.long 0x00 3. "TXPKIEN,Data Packet Transmitted Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been transmitted to the host" "0: Data packet has been transmitted to the host..,1: Data packet has been transmitted to the host.."
newline
bitfld.long 0x00 2. "SHORTTXIEN,Short Packet Transferred Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a short data packet has been transferred to/from the host" "0: Short data packet interrupt Disabled,1: Short data packet interrupt Enabled"
bitfld.long 0x00 1. "BUFEMPTYIEN,Buffer Empty Interrupt\nWhen set this bit enables a local interrupt to be set when a buffer empty condition is detected on the bus" "0: Buffer empty interrupt Disabled,1: Buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "BUFFULLIEN,Buffer Full Interrupt \nWhen set this bit enables a local interrupt to be set when a buffer full condition is detected on the bus" "0: Buffer full interrupt Disabled,1: Buffer full interrupt Enabled"
group.long 0x160++0x03
line.long 0x00 "HSUSBD_EPGDATCNT,Endpoint G Data Available Count Register"
hexmask.long.word 0x00 16.--30. 1. "DMALOOP,DMA Loop\nThis register is the remaining DMA loop to complete"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Data Count\nFor an IN endpoint (EPDIR(HSUSBD_EPxCFG[3] is high.) this register returns the number of valid bytes in the IN endpoint packet buffer.\nFor an OUT endpoint (EPDIR(HSUSBD_EPxCFG[3] is low.) this register returns the number of received.."
group.long 0x164++0x03
line.long 0x00 "HSUSBD_EPGRSPCTL,Endpoint G Response Control Register"
bitfld.long 0x00 7. "DISBUF,Buffer Disable Bit\nThis bit is used to receive unknown size OUT short packet" "0: Buffer Not Disabled when Bulk-OUT short..,1: Buffer Disabled when Bulk-OUT short packet is.."
bitfld.long 0x00 6. "SHORTTXEN,Short Packet Transfer Enable \nThis bit is applicable only in case of Auto-Validate Method" "0: Not validate any remaining data in the buffer..,1: Validate any remaining data in the buffer.."
newline
bitfld.long 0x00 5. "ZEROLEN,Zero Length\nThis bit is used to send a zero-length packet response to an IN-token" "0: A zero packet is not sent to the host on..,1: A zero packet is sent to the host on.."
bitfld.long 0x00 4. "HALT,Endpoint Halt \nThis bit is used to send a STALL handshake as response to the token from the host" "0: Not send a STALL handshake as response to the..,1: Send a STALL handshake as response to the.."
newline
bitfld.long 0x00 3. "TOGGLE,Endpoint Toggle \nThis bit is used to clear the endpoint data toggle bit" "0: Not clear the endpoint data toggle bit,1: Clear the endpoint data toggle bit"
bitfld.long 0x00 1.--2. "MODE,Mode Control\nThe two bits decide the operation mode of the in-endpoint" "0: Auto-Validate Mode,1: Manual-Validate Mode,2: Fly Mode,3: Reserved"
newline
bitfld.long 0x00 0. "FLUSH,Buffer Flush \nWriting 1 to this bit causes the packet buffer to be flushed and the corresponding EP_AVAIL register to be cleared" "0: The packet buffer is not flushed,1: The packet buffer is flushed by user"
group.long 0x168++0x03
line.long 0x00 "HSUSBD_EPGMPS,Endpoint G Maximum Packet Size Register"
hexmask.long.word 0x00 0.--10. 1. "EPMPS,Endpoint Maximum Packet Size \nThis field determines the Maximum Packet Size of the Endpoint"
group.long 0x16C++0x03
line.long 0x00 "HSUSBD_EPGTXCNT,Endpoint G Transfer Count Register"
hexmask.long.word 0x00 0.--10. 1. "TXCNT,Endpoint Transfer Count\nFor IN endpoints this field determines the total number of bytes to be sent to the host in case of manual validation method.\nFor OUT endpoints this field has no effect"
group.long 0x170++0x03
line.long 0x00 "HSUSBD_EPGCFG,Endpoint G Configuration Register"
bitfld.long 0x00 4.--7. "EPNUM,Endpoint Number\nThis field selects the number of the endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "EPDIR,Endpoint Direction\nNote: A maximum of one OUT and IN endpoint is allowed for each endpoint number" "0: out-endpoint (Host OUT to Device),1: in-endpoint (Host IN to Device)"
newline
bitfld.long 0x00 1.--2. "EPTYPE,Endpoint Type\nThis field selects the type of this endpoint" "0: Reserved,1: Bulk,2: Interrupt,3: Isochronous"
bitfld.long 0x00 0. "EPEN,Endpoint Valid\nWhen set this bit enables this endpoint" "0: The endpoint Disabled,1: The endpoint Enabled"
group.long 0x174++0x03
line.long 0x00 "HSUSBD_EPGBUFSTART,Endpoint G RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Endpoint Start Address\nThis is the start-address of the RAM space allocated for the endpoint A~L"
group.long 0x178++0x03
line.long 0x00 "HSUSBD_EPGBUFEND,Endpoint G RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Endpoint End Address\nThis is the end-address of the RAM space allocated for the endpoint A~L"
group.long 0x17C++0x03
line.long 0x00 "HSUSBD_EPHDAT,Endpoint H Data Register"
hexmask.long 0x00 0.--31. 1. "EPDAT,Endpoint A~L Data Register \nEndpoint A~L data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0x180++0x03
line.long 0x00 "HSUSBD_EPHINTSTS,Endpoint H Interrupt Status Register"
bitfld.long 0x00 12. "SHORTRXIF,Bulk Out Short Packet Received\nNote: Write 1 to clear this bit to 0" "0: No bulk out short packet is received,1: Received bulk out short packet (including.."
bitfld.long 0x00 11. "ERRIF,ERR Sent \nNote: Write 1 to clear this bit to 0" "0: No any error in the transaction,1: There occurs any error in the transaction"
newline
bitfld.long 0x00 10. "NYETIF,NYET Sent \nNote: Write 1 to clear this bit to 0" "0: The space available in the RAM is sufficient..,1: The space available in the RAM is not.."
bitfld.long 0x00 9. "STALLIF,USB STALL Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB packet could be accepted or..,1: The last USB packet could not be accepted or.."
newline
bitfld.long 0x00 8. "NAKIF,USB NAK Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB IN packet could be provided and..,1: The last USB IN packet could not be provided.."
bitfld.long 0x00 7. "PINGIF,PING Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: A Data PING token has not been received from..,1: A Data PING token has been received from the.."
newline
bitfld.long 0x00 6. "INTKIF,Data IN Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not Data IN token has been received from the..,1: A Data IN token has been received from the host"
bitfld.long 0x00 5. "OUTTKIF,Data OUT Token Interrupt\nNote: Write 1 to clear this bit to 0" "0: A Data OUT token has not been received from..,1: A Data OUT token has been received from the.."
newline
bitfld.long 0x00 4. "RXPKIF,Data Packet Received Interrupt\nNote: Write 1 to clear this bit to 0" "0: No data packet is received from the host by..,1: A data packet is received from the host by.."
bitfld.long 0x00 3. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is transmitted from the..,1: A data packet is transmitted from the.."
newline
bitfld.long 0x00 2. "SHORTTXIF,Short Packet Transferred Interrupt \nNote: Write 1 to clear this bit to 0" "0: The length of the last packet was not less..,1: The length of the last packet was less than.."
bitfld.long 0x00 1. "BUFEMPTYIF,Buffer Empty\nFor an IN endpoint a buffer is available to the local side for writing up to FIFO full of bytes" "0: The endpoint buffer is not empty.\nThe..,1: The endpoint buffer is empty.\nThe currently.."
newline
bitfld.long 0x00 0. "BUFFULLIF,Buffer Full \nFor an IN endpoint the currently selected buffer is full or no buffer is available to the local side for writing (no space to write)" "0: The endpoint packet buffer is not full,1: The endpoint packet buffer is full"
group.long 0x184++0x03
line.long 0x00 "HSUSBD_EPHINTEN,Endpoint H Interrupt Enable Register"
bitfld.long 0x00 12. "SHORTRXIEN,Bulk Out Short Packet Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever bulk out short packet occurs on the bus for this endpoint" "0: Bulk out interrupt Disabled,1: Bulk out interrupt Enabled"
bitfld.long 0x00 11. "ERRIEN,ERR Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever ERR condition occurs on the bus for this endpoint" "0: Error event interrupt Disabled,1: Error event interrupt Enabled"
newline
bitfld.long 0x00 10. "NYETIEN,NYET Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever NYET condition occurs on the bus for this endpoint" "0: NYET condition interrupt Disabled,1: NYET condition interrupt Enabled"
bitfld.long 0x00 9. "STALLIEN,USB STALL Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a stall token is sent to the host" "0: STALL token interrupt Disabled,1: STALL token interrupt Enabled"
newline
bitfld.long 0x00 8. "NAKIEN,USB NAK Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a NAK token is sent to the host" "0: NAK token interrupt Disabled,1: NAK token interrupt Enabled"
bitfld.long 0x00 7. "PINGIEN,PING Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a PING token has been received from the host" "0: PING token interrupt Disabled,1: PING token interrupt Enabled"
newline
bitfld.long 0x00 6. "INTKIEN,Data IN Token Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set when a Data IN token has been received from the host" "0: Data IN token interrupt Disabled,1: Data IN token interrupt Enabled"
bitfld.long 0x00 5. "OUTTKIEN,Data OUT Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a Data OUT token has been received from the host" "0: Data OUT token interrupt Disabled,1: Data OUT token interrupt Enabled"
newline
bitfld.long 0x00 4. "RXPKIEN,Data Packet Received Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been received from the host" "0: Data packet has been received from the host..,1: Data packet has been received from the host.."
bitfld.long 0x00 3. "TXPKIEN,Data Packet Transmitted Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been transmitted to the host" "0: Data packet has been transmitted to the host..,1: Data packet has been transmitted to the host.."
newline
bitfld.long 0x00 2. "SHORTTXIEN,Short Packet Transferred Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a short data packet has been transferred to/from the host" "0: Short data packet interrupt Disabled,1: Short data packet interrupt Enabled"
bitfld.long 0x00 1. "BUFEMPTYIEN,Buffer Empty Interrupt\nWhen set this bit enables a local interrupt to be set when a buffer empty condition is detected on the bus" "0: Buffer empty interrupt Disabled,1: Buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "BUFFULLIEN,Buffer Full Interrupt \nWhen set this bit enables a local interrupt to be set when a buffer full condition is detected on the bus" "0: Buffer full interrupt Disabled,1: Buffer full interrupt Enabled"
group.long 0x188++0x03
line.long 0x00 "HSUSBD_EPHDATCNT,Endpoint H Data Available Count Register"
hexmask.long.word 0x00 16.--30. 1. "DMALOOP,DMA Loop\nThis register is the remaining DMA loop to complete"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Data Count\nFor an IN endpoint (EPDIR(HSUSBD_EPxCFG[3] is high.) this register returns the number of valid bytes in the IN endpoint packet buffer.\nFor an OUT endpoint (EPDIR(HSUSBD_EPxCFG[3] is low.) this register returns the number of received.."
group.long 0x18C++0x03
line.long 0x00 "HSUSBD_EPHRSPCTL,Endpoint H Response Control Register"
bitfld.long 0x00 7. "DISBUF,Buffer Disable Bit\nThis bit is used to receive unknown size OUT short packet" "0: Buffer Not Disabled when Bulk-OUT short..,1: Buffer Disabled when Bulk-OUT short packet is.."
bitfld.long 0x00 6. "SHORTTXEN,Short Packet Transfer Enable \nThis bit is applicable only in case of Auto-Validate Method" "0: Not validate any remaining data in the buffer..,1: Validate any remaining data in the buffer.."
newline
bitfld.long 0x00 5. "ZEROLEN,Zero Length\nThis bit is used to send a zero-length packet response to an IN-token" "0: A zero packet is not sent to the host on..,1: A zero packet is sent to the host on.."
bitfld.long 0x00 4. "HALT,Endpoint Halt \nThis bit is used to send a STALL handshake as response to the token from the host" "0: Not send a STALL handshake as response to the..,1: Send a STALL handshake as response to the.."
newline
bitfld.long 0x00 3. "TOGGLE,Endpoint Toggle \nThis bit is used to clear the endpoint data toggle bit" "0: Not clear the endpoint data toggle bit,1: Clear the endpoint data toggle bit"
bitfld.long 0x00 1.--2. "MODE,Mode Control\nThe two bits decide the operation mode of the in-endpoint" "0: Auto-Validate Mode,1: Manual-Validate Mode,2: Fly Mode,3: Reserved"
newline
bitfld.long 0x00 0. "FLUSH,Buffer Flush \nWriting 1 to this bit causes the packet buffer to be flushed and the corresponding EP_AVAIL register to be cleared" "0: The packet buffer is not flushed,1: The packet buffer is flushed by user"
group.long 0x190++0x03
line.long 0x00 "HSUSBD_EPHMPS,Endpoint H Maximum Packet Size Register"
hexmask.long.word 0x00 0.--10. 1. "EPMPS,Endpoint Maximum Packet Size \nThis field determines the Maximum Packet Size of the Endpoint"
group.long 0x194++0x03
line.long 0x00 "HSUSBD_EPHTXCNT,Endpoint H Transfer Count Register"
hexmask.long.word 0x00 0.--10. 1. "TXCNT,Endpoint Transfer Count\nFor IN endpoints this field determines the total number of bytes to be sent to the host in case of manual validation method.\nFor OUT endpoints this field has no effect"
group.long 0x198++0x03
line.long 0x00 "HSUSBD_EPHCFG,Endpoint H Configuration Register"
bitfld.long 0x00 4.--7. "EPNUM,Endpoint Number\nThis field selects the number of the endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "EPDIR,Endpoint Direction\nNote: A maximum of one OUT and IN endpoint is allowed for each endpoint number" "0: out-endpoint (Host OUT to Device),1: in-endpoint (Host IN to Device)"
newline
bitfld.long 0x00 1.--2. "EPTYPE,Endpoint Type\nThis field selects the type of this endpoint" "0: Reserved,1: Bulk,2: Interrupt,3: Isochronous"
bitfld.long 0x00 0. "EPEN,Endpoint Valid\nWhen set this bit enables this endpoint" "0: The endpoint Disabled,1: The endpoint Enabled"
group.long 0x19C++0x03
line.long 0x00 "HSUSBD_EPHBUFSTART,Endpoint H RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Endpoint Start Address\nThis is the start-address of the RAM space allocated for the endpoint A~L"
group.long 0x1A0++0x03
line.long 0x00 "HSUSBD_EPHBUFEND,Endpoint H RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Endpoint End Address\nThis is the end-address of the RAM space allocated for the endpoint A~L"
group.long 0x1A4++0x03
line.long 0x00 "HSUSBD_EPIDAT,Endpoint I Data Register"
hexmask.long 0x00 0.--31. 1. "EPDAT,Endpoint A~L Data Register \nEndpoint A~L data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0x1A8++0x03
line.long 0x00 "HSUSBD_EPIINTSTS,Endpoint I Interrupt Status Register"
bitfld.long 0x00 12. "SHORTRXIF,Bulk Out Short Packet Received\nNote: Write 1 to clear this bit to 0" "0: No bulk out short packet is received,1: Received bulk out short packet (including.."
bitfld.long 0x00 11. "ERRIF,ERR Sent \nNote: Write 1 to clear this bit to 0" "0: No any error in the transaction,1: There occurs any error in the transaction"
newline
bitfld.long 0x00 10. "NYETIF,NYET Sent \nNote: Write 1 to clear this bit to 0" "0: The space available in the RAM is sufficient..,1: The space available in the RAM is not.."
bitfld.long 0x00 9. "STALLIF,USB STALL Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB packet could be accepted or..,1: The last USB packet could not be accepted or.."
newline
bitfld.long 0x00 8. "NAKIF,USB NAK Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB IN packet could be provided and..,1: The last USB IN packet could not be provided.."
bitfld.long 0x00 7. "PINGIF,PING Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: A Data PING token has not been received from..,1: A Data PING token has been received from the.."
newline
bitfld.long 0x00 6. "INTKIF,Data IN Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not Data IN token has been received from the..,1: A Data IN token has been received from the host"
bitfld.long 0x00 5. "OUTTKIF,Data OUT Token Interrupt\nNote: Write 1 to clear this bit to 0" "0: A Data OUT token has not been received from..,1: A Data OUT token has been received from the.."
newline
bitfld.long 0x00 4. "RXPKIF,Data Packet Received Interrupt\nNote: Write 1 to clear this bit to 0" "0: No data packet is received from the host by..,1: A data packet is received from the host by.."
bitfld.long 0x00 3. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is transmitted from the..,1: A data packet is transmitted from the.."
newline
bitfld.long 0x00 2. "SHORTTXIF,Short Packet Transferred Interrupt \nNote: Write 1 to clear this bit to 0" "0: The length of the last packet was not less..,1: The length of the last packet was less than.."
bitfld.long 0x00 1. "BUFEMPTYIF,Buffer Empty\nFor an IN endpoint a buffer is available to the local side for writing up to FIFO full of bytes" "0: The endpoint buffer is not empty.\nThe..,1: The endpoint buffer is empty.\nThe currently.."
newline
bitfld.long 0x00 0. "BUFFULLIF,Buffer Full \nFor an IN endpoint the currently selected buffer is full or no buffer is available to the local side for writing (no space to write)" "0: The endpoint packet buffer is not full,1: The endpoint packet buffer is full"
group.long 0x1AC++0x03
line.long 0x00 "HSUSBD_EPIINTEN,Endpoint I Interrupt Enable Register"
bitfld.long 0x00 12. "SHORTRXIEN,Bulk Out Short Packet Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever bulk out short packet occurs on the bus for this endpoint" "0: Bulk out interrupt Disabled,1: Bulk out interrupt Enabled"
bitfld.long 0x00 11. "ERRIEN,ERR Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever ERR condition occurs on the bus for this endpoint" "0: Error event interrupt Disabled,1: Error event interrupt Enabled"
newline
bitfld.long 0x00 10. "NYETIEN,NYET Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever NYET condition occurs on the bus for this endpoint" "0: NYET condition interrupt Disabled,1: NYET condition interrupt Enabled"
bitfld.long 0x00 9. "STALLIEN,USB STALL Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a stall token is sent to the host" "0: STALL token interrupt Disabled,1: STALL token interrupt Enabled"
newline
bitfld.long 0x00 8. "NAKIEN,USB NAK Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a NAK token is sent to the host" "0: NAK token interrupt Disabled,1: NAK token interrupt Enabled"
bitfld.long 0x00 7. "PINGIEN,PING Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a PING token has been received from the host" "0: PING token interrupt Disabled,1: PING token interrupt Enabled"
newline
bitfld.long 0x00 6. "INTKIEN,Data IN Token Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set when a Data IN token has been received from the host" "0: Data IN token interrupt Disabled,1: Data IN token interrupt Enabled"
bitfld.long 0x00 5. "OUTTKIEN,Data OUT Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a Data OUT token has been received from the host" "0: Data OUT token interrupt Disabled,1: Data OUT token interrupt Enabled"
newline
bitfld.long 0x00 4. "RXPKIEN,Data Packet Received Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been received from the host" "0: Data packet has been received from the host..,1: Data packet has been received from the host.."
bitfld.long 0x00 3. "TXPKIEN,Data Packet Transmitted Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been transmitted to the host" "0: Data packet has been transmitted to the host..,1: Data packet has been transmitted to the host.."
newline
bitfld.long 0x00 2. "SHORTTXIEN,Short Packet Transferred Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a short data packet has been transferred to/from the host" "0: Short data packet interrupt Disabled,1: Short data packet interrupt Enabled"
bitfld.long 0x00 1. "BUFEMPTYIEN,Buffer Empty Interrupt\nWhen set this bit enables a local interrupt to be set when a buffer empty condition is detected on the bus" "0: Buffer empty interrupt Disabled,1: Buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "BUFFULLIEN,Buffer Full Interrupt \nWhen set this bit enables a local interrupt to be set when a buffer full condition is detected on the bus" "0: Buffer full interrupt Disabled,1: Buffer full interrupt Enabled"
group.long 0x1B0++0x03
line.long 0x00 "HSUSBD_EPIDATCNT,Endpoint I Data Available Count Register"
hexmask.long.word 0x00 16.--30. 1. "DMALOOP,DMA Loop\nThis register is the remaining DMA loop to complete"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Data Count\nFor an IN endpoint (EPDIR(HSUSBD_EPxCFG[3] is high.) this register returns the number of valid bytes in the IN endpoint packet buffer.\nFor an OUT endpoint (EPDIR(HSUSBD_EPxCFG[3] is low.) this register returns the number of received.."
group.long 0x1B4++0x03
line.long 0x00 "HSUSBD_EPIRSPCTL,Endpoint I Response Control Register"
bitfld.long 0x00 7. "DISBUF,Buffer Disable Bit\nThis bit is used to receive unknown size OUT short packet" "0: Buffer Not Disabled when Bulk-OUT short..,1: Buffer Disabled when Bulk-OUT short packet is.."
bitfld.long 0x00 6. "SHORTTXEN,Short Packet Transfer Enable \nThis bit is applicable only in case of Auto-Validate Method" "0: Not validate any remaining data in the buffer..,1: Validate any remaining data in the buffer.."
newline
bitfld.long 0x00 5. "ZEROLEN,Zero Length\nThis bit is used to send a zero-length packet response to an IN-token" "0: A zero packet is not sent to the host on..,1: A zero packet is sent to the host on.."
bitfld.long 0x00 4. "HALT,Endpoint Halt \nThis bit is used to send a STALL handshake as response to the token from the host" "0: Not send a STALL handshake as response to the..,1: Send a STALL handshake as response to the.."
newline
bitfld.long 0x00 3. "TOGGLE,Endpoint Toggle \nThis bit is used to clear the endpoint data toggle bit" "0: Not clear the endpoint data toggle bit,1: Clear the endpoint data toggle bit"
bitfld.long 0x00 1.--2. "MODE,Mode Control\nThe two bits decide the operation mode of the in-endpoint" "0: Auto-Validate Mode,1: Manual-Validate Mode,2: Fly Mode,3: Reserved"
newline
bitfld.long 0x00 0. "FLUSH,Buffer Flush \nWriting 1 to this bit causes the packet buffer to be flushed and the corresponding EP_AVAIL register to be cleared" "0: The packet buffer is not flushed,1: The packet buffer is flushed by user"
group.long 0x1B8++0x03
line.long 0x00 "HSUSBD_EPIMPS,Endpoint I Maximum Packet Size Register"
hexmask.long.word 0x00 0.--10. 1. "EPMPS,Endpoint Maximum Packet Size \nThis field determines the Maximum Packet Size of the Endpoint"
group.long 0x1BC++0x03
line.long 0x00 "HSUSBD_EPITXCNT,Endpoint I Transfer Count Register"
hexmask.long.word 0x00 0.--10. 1. "TXCNT,Endpoint Transfer Count\nFor IN endpoints this field determines the total number of bytes to be sent to the host in case of manual validation method.\nFor OUT endpoints this field has no effect"
group.long 0x1C0++0x03
line.long 0x00 "HSUSBD_EPICFG,Endpoint I Configuration Register"
bitfld.long 0x00 4.--7. "EPNUM,Endpoint Number\nThis field selects the number of the endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "EPDIR,Endpoint Direction\nNote: A maximum of one OUT and IN endpoint is allowed for each endpoint number" "0: out-endpoint (Host OUT to Device),1: in-endpoint (Host IN to Device)"
newline
bitfld.long 0x00 1.--2. "EPTYPE,Endpoint Type\nThis field selects the type of this endpoint" "0: Reserved,1: Bulk,2: Interrupt,3: Isochronous"
bitfld.long 0x00 0. "EPEN,Endpoint Valid\nWhen set this bit enables this endpoint" "0: The endpoint Disabled,1: The endpoint Enabled"
group.long 0x1C4++0x03
line.long 0x00 "HSUSBD_EPIBUFSTART,Endpoint I RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Endpoint Start Address\nThis is the start-address of the RAM space allocated for the endpoint A~L"
group.long 0x1C8++0x03
line.long 0x00 "HSUSBD_EPIBUFEND,Endpoint I RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Endpoint End Address\nThis is the end-address of the RAM space allocated for the endpoint A~L"
group.long 0x1CC++0x03
line.long 0x00 "HSUSBD_EPJDAT,Endpoint J Data Register"
hexmask.long 0x00 0.--31. 1. "EPDAT,Endpoint A~L Data Register \nEndpoint A~L data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0x1D0++0x03
line.long 0x00 "HSUSBD_EPJINTSTS,Endpoint J Interrupt Status Register"
bitfld.long 0x00 12. "SHORTRXIF,Bulk Out Short Packet Received\nNote: Write 1 to clear this bit to 0" "0: No bulk out short packet is received,1: Received bulk out short packet (including.."
bitfld.long 0x00 11. "ERRIF,ERR Sent \nNote: Write 1 to clear this bit to 0" "0: No any error in the transaction,1: There occurs any error in the transaction"
newline
bitfld.long 0x00 10. "NYETIF,NYET Sent \nNote: Write 1 to clear this bit to 0" "0: The space available in the RAM is sufficient..,1: The space available in the RAM is not.."
bitfld.long 0x00 9. "STALLIF,USB STALL Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB packet could be accepted or..,1: The last USB packet could not be accepted or.."
newline
bitfld.long 0x00 8. "NAKIF,USB NAK Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB IN packet could be provided and..,1: The last USB IN packet could not be provided.."
bitfld.long 0x00 7. "PINGIF,PING Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: A Data PING token has not been received from..,1: A Data PING token has been received from the.."
newline
bitfld.long 0x00 6. "INTKIF,Data IN Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not Data IN token has been received from the..,1: A Data IN token has been received from the host"
bitfld.long 0x00 5. "OUTTKIF,Data OUT Token Interrupt\nNote: Write 1 to clear this bit to 0" "0: A Data OUT token has not been received from..,1: A Data OUT token has been received from the.."
newline
bitfld.long 0x00 4. "RXPKIF,Data Packet Received Interrupt\nNote: Write 1 to clear this bit to 0" "0: No data packet is received from the host by..,1: A data packet is received from the host by.."
bitfld.long 0x00 3. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is transmitted from the..,1: A data packet is transmitted from the.."
newline
bitfld.long 0x00 2. "SHORTTXIF,Short Packet Transferred Interrupt \nNote: Write 1 to clear this bit to 0" "0: The length of the last packet was not less..,1: The length of the last packet was less than.."
bitfld.long 0x00 1. "BUFEMPTYIF,Buffer Empty\nFor an IN endpoint a buffer is available to the local side for writing up to FIFO full of bytes" "0: The endpoint buffer is not empty.\nThe..,1: The endpoint buffer is empty.\nThe currently.."
newline
bitfld.long 0x00 0. "BUFFULLIF,Buffer Full \nFor an IN endpoint the currently selected buffer is full or no buffer is available to the local side for writing (no space to write)" "0: The endpoint packet buffer is not full,1: The endpoint packet buffer is full"
group.long 0x1D4++0x03
line.long 0x00 "HSUSBD_EPJINTEN,Endpoint J Interrupt Enable Register"
bitfld.long 0x00 12. "SHORTRXIEN,Bulk Out Short Packet Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever bulk out short packet occurs on the bus for this endpoint" "0: Bulk out interrupt Disabled,1: Bulk out interrupt Enabled"
bitfld.long 0x00 11. "ERRIEN,ERR Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever ERR condition occurs on the bus for this endpoint" "0: Error event interrupt Disabled,1: Error event interrupt Enabled"
newline
bitfld.long 0x00 10. "NYETIEN,NYET Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever NYET condition occurs on the bus for this endpoint" "0: NYET condition interrupt Disabled,1: NYET condition interrupt Enabled"
bitfld.long 0x00 9. "STALLIEN,USB STALL Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a stall token is sent to the host" "0: STALL token interrupt Disabled,1: STALL token interrupt Enabled"
newline
bitfld.long 0x00 8. "NAKIEN,USB NAK Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a NAK token is sent to the host" "0: NAK token interrupt Disabled,1: NAK token interrupt Enabled"
bitfld.long 0x00 7. "PINGIEN,PING Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a PING token has been received from the host" "0: PING token interrupt Disabled,1: PING token interrupt Enabled"
newline
bitfld.long 0x00 6. "INTKIEN,Data IN Token Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set when a Data IN token has been received from the host" "0: Data IN token interrupt Disabled,1: Data IN token interrupt Enabled"
bitfld.long 0x00 5. "OUTTKIEN,Data OUT Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a Data OUT token has been received from the host" "0: Data OUT token interrupt Disabled,1: Data OUT token interrupt Enabled"
newline
bitfld.long 0x00 4. "RXPKIEN,Data Packet Received Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been received from the host" "0: Data packet has been received from the host..,1: Data packet has been received from the host.."
bitfld.long 0x00 3. "TXPKIEN,Data Packet Transmitted Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been transmitted to the host" "0: Data packet has been transmitted to the host..,1: Data packet has been transmitted to the host.."
newline
bitfld.long 0x00 2. "SHORTTXIEN,Short Packet Transferred Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a short data packet has been transferred to/from the host" "0: Short data packet interrupt Disabled,1: Short data packet interrupt Enabled"
bitfld.long 0x00 1. "BUFEMPTYIEN,Buffer Empty Interrupt\nWhen set this bit enables a local interrupt to be set when a buffer empty condition is detected on the bus" "0: Buffer empty interrupt Disabled,1: Buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "BUFFULLIEN,Buffer Full Interrupt \nWhen set this bit enables a local interrupt to be set when a buffer full condition is detected on the bus" "0: Buffer full interrupt Disabled,1: Buffer full interrupt Enabled"
group.long 0x1D8++0x03
line.long 0x00 "HSUSBD_EPJDATCNT,Endpoint J Data Available Count Register"
hexmask.long.word 0x00 16.--30. 1. "DMALOOP,DMA Loop\nThis register is the remaining DMA loop to complete"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Data Count\nFor an IN endpoint (EPDIR(HSUSBD_EPxCFG[3] is high.) this register returns the number of valid bytes in the IN endpoint packet buffer.\nFor an OUT endpoint (EPDIR(HSUSBD_EPxCFG[3] is low.) this register returns the number of received.."
group.long 0x1DC++0x03
line.long 0x00 "HSUSBD_EPJRSPCTL,Endpoint J Response Control Register"
bitfld.long 0x00 7. "DISBUF,Buffer Disable Bit\nThis bit is used to receive unknown size OUT short packet" "0: Buffer Not Disabled when Bulk-OUT short..,1: Buffer Disabled when Bulk-OUT short packet is.."
bitfld.long 0x00 6. "SHORTTXEN,Short Packet Transfer Enable \nThis bit is applicable only in case of Auto-Validate Method" "0: Not validate any remaining data in the buffer..,1: Validate any remaining data in the buffer.."
newline
bitfld.long 0x00 5. "ZEROLEN,Zero Length\nThis bit is used to send a zero-length packet response to an IN-token" "0: A zero packet is not sent to the host on..,1: A zero packet is sent to the host on.."
bitfld.long 0x00 4. "HALT,Endpoint Halt \nThis bit is used to send a STALL handshake as response to the token from the host" "0: Not send a STALL handshake as response to the..,1: Send a STALL handshake as response to the.."
newline
bitfld.long 0x00 3. "TOGGLE,Endpoint Toggle \nThis bit is used to clear the endpoint data toggle bit" "0: Not clear the endpoint data toggle bit,1: Clear the endpoint data toggle bit"
bitfld.long 0x00 1.--2. "MODE,Mode Control\nThe two bits decide the operation mode of the in-endpoint" "0: Auto-Validate Mode,1: Manual-Validate Mode,2: Fly Mode,3: Reserved"
newline
bitfld.long 0x00 0. "FLUSH,Buffer Flush \nWriting 1 to this bit causes the packet buffer to be flushed and the corresponding EP_AVAIL register to be cleared" "0: The packet buffer is not flushed,1: The packet buffer is flushed by user"
group.long 0x1E0++0x03
line.long 0x00 "HSUSBD_EPJMPS,Endpoint J Maximum Packet Size Register"
hexmask.long.word 0x00 0.--10. 1. "EPMPS,Endpoint Maximum Packet Size \nThis field determines the Maximum Packet Size of the Endpoint"
group.long 0x1E4++0x03
line.long 0x00 "HSUSBD_EPJTXCNT,Endpoint J Transfer Count Register"
hexmask.long.word 0x00 0.--10. 1. "TXCNT,Endpoint Transfer Count\nFor IN endpoints this field determines the total number of bytes to be sent to the host in case of manual validation method.\nFor OUT endpoints this field has no effect"
group.long 0x1E8++0x03
line.long 0x00 "HSUSBD_EPJCFG,Endpoint J Configuration Register"
bitfld.long 0x00 4.--7. "EPNUM,Endpoint Number\nThis field selects the number of the endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "EPDIR,Endpoint Direction\nNote: A maximum of one OUT and IN endpoint is allowed for each endpoint number" "0: out-endpoint (Host OUT to Device),1: in-endpoint (Host IN to Device)"
newline
bitfld.long 0x00 1.--2. "EPTYPE,Endpoint Type\nThis field selects the type of this endpoint" "0: Reserved,1: Bulk,2: Interrupt,3: Isochronous"
bitfld.long 0x00 0. "EPEN,Endpoint Valid\nWhen set this bit enables this endpoint" "0: The endpoint Disabled,1: The endpoint Enabled"
group.long 0x1EC++0x03
line.long 0x00 "HSUSBD_EPJBUFSTART,Endpoint J RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Endpoint Start Address\nThis is the start-address of the RAM space allocated for the endpoint A~L"
group.long 0x1F0++0x03
line.long 0x00 "HSUSBD_EPJBUFEND,Endpoint J RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Endpoint End Address\nThis is the end-address of the RAM space allocated for the endpoint A~L"
group.long 0x1F4++0x03
line.long 0x00 "HSUSBD_EPKDAT,Endpoint K Data Register"
hexmask.long 0x00 0.--31. 1. "EPDAT,Endpoint A~L Data Register \nEndpoint A~L data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0x1F8++0x03
line.long 0x00 "HSUSBD_EPKINTSTS,Endpoint K Interrupt Status Register"
bitfld.long 0x00 12. "SHORTRXIF,Bulk Out Short Packet Received\nNote: Write 1 to clear this bit to 0" "0: No bulk out short packet is received,1: Received bulk out short packet (including.."
bitfld.long 0x00 11. "ERRIF,ERR Sent \nNote: Write 1 to clear this bit to 0" "0: No any error in the transaction,1: There occurs any error in the transaction"
newline
bitfld.long 0x00 10. "NYETIF,NYET Sent \nNote: Write 1 to clear this bit to 0" "0: The space available in the RAM is sufficient..,1: The space available in the RAM is not.."
bitfld.long 0x00 9. "STALLIF,USB STALL Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB packet could be accepted or..,1: The last USB packet could not be accepted or.."
newline
bitfld.long 0x00 8. "NAKIF,USB NAK Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB IN packet could be provided and..,1: The last USB IN packet could not be provided.."
bitfld.long 0x00 7. "PINGIF,PING Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: A Data PING token has not been received from..,1: A Data PING token has been received from the.."
newline
bitfld.long 0x00 6. "INTKIF,Data IN Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not Data IN token has been received from the..,1: A Data IN token has been received from the host"
bitfld.long 0x00 5. "OUTTKIF,Data OUT Token Interrupt\nNote: Write 1 to clear this bit to 0" "0: A Data OUT token has not been received from..,1: A Data OUT token has been received from the.."
newline
bitfld.long 0x00 4. "RXPKIF,Data Packet Received Interrupt\nNote: Write 1 to clear this bit to 0" "0: No data packet is received from the host by..,1: A data packet is received from the host by.."
bitfld.long 0x00 3. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is transmitted from the..,1: A data packet is transmitted from the.."
newline
bitfld.long 0x00 2. "SHORTTXIF,Short Packet Transferred Interrupt \nNote: Write 1 to clear this bit to 0" "0: The length of the last packet was not less..,1: The length of the last packet was less than.."
bitfld.long 0x00 1. "BUFEMPTYIF,Buffer Empty\nFor an IN endpoint a buffer is available to the local side for writing up to FIFO full of bytes" "0: The endpoint buffer is not empty.\nThe..,1: The endpoint buffer is empty.\nThe currently.."
newline
bitfld.long 0x00 0. "BUFFULLIF,Buffer Full \nFor an IN endpoint the currently selected buffer is full or no buffer is available to the local side for writing (no space to write)" "0: The endpoint packet buffer is not full,1: The endpoint packet buffer is full"
group.long 0x1FC++0x03
line.long 0x00 "HSUSBD_EPKINTEN,Endpoint K Interrupt Enable Register"
bitfld.long 0x00 12. "SHORTRXIEN,Bulk Out Short Packet Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever bulk out short packet occurs on the bus for this endpoint" "0: Bulk out interrupt Disabled,1: Bulk out interrupt Enabled"
bitfld.long 0x00 11. "ERRIEN,ERR Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever ERR condition occurs on the bus for this endpoint" "0: Error event interrupt Disabled,1: Error event interrupt Enabled"
newline
bitfld.long 0x00 10. "NYETIEN,NYET Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever NYET condition occurs on the bus for this endpoint" "0: NYET condition interrupt Disabled,1: NYET condition interrupt Enabled"
bitfld.long 0x00 9. "STALLIEN,USB STALL Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a stall token is sent to the host" "0: STALL token interrupt Disabled,1: STALL token interrupt Enabled"
newline
bitfld.long 0x00 8. "NAKIEN,USB NAK Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a NAK token is sent to the host" "0: NAK token interrupt Disabled,1: NAK token interrupt Enabled"
bitfld.long 0x00 7. "PINGIEN,PING Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a PING token has been received from the host" "0: PING token interrupt Disabled,1: PING token interrupt Enabled"
newline
bitfld.long 0x00 6. "INTKIEN,Data IN Token Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set when a Data IN token has been received from the host" "0: Data IN token interrupt Disabled,1: Data IN token interrupt Enabled"
bitfld.long 0x00 5. "OUTTKIEN,Data OUT Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a Data OUT token has been received from the host" "0: Data OUT token interrupt Disabled,1: Data OUT token interrupt Enabled"
newline
bitfld.long 0x00 4. "RXPKIEN,Data Packet Received Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been received from the host" "0: Data packet has been received from the host..,1: Data packet has been received from the host.."
bitfld.long 0x00 3. "TXPKIEN,Data Packet Transmitted Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been transmitted to the host" "0: Data packet has been transmitted to the host..,1: Data packet has been transmitted to the host.."
newline
bitfld.long 0x00 2. "SHORTTXIEN,Short Packet Transferred Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a short data packet has been transferred to/from the host" "0: Short data packet interrupt Disabled,1: Short data packet interrupt Enabled"
bitfld.long 0x00 1. "BUFEMPTYIEN,Buffer Empty Interrupt\nWhen set this bit enables a local interrupt to be set when a buffer empty condition is detected on the bus" "0: Buffer empty interrupt Disabled,1: Buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "BUFFULLIEN,Buffer Full Interrupt \nWhen set this bit enables a local interrupt to be set when a buffer full condition is detected on the bus" "0: Buffer full interrupt Disabled,1: Buffer full interrupt Enabled"
group.long 0x200++0x03
line.long 0x00 "HSUSBD_EPKDATCNT,Endpoint K Data Available Count Register"
hexmask.long.word 0x00 16.--30. 1. "DMALOOP,DMA Loop\nThis register is the remaining DMA loop to complete"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Data Count\nFor an IN endpoint (EPDIR(HSUSBD_EPxCFG[3] is high.) this register returns the number of valid bytes in the IN endpoint packet buffer.\nFor an OUT endpoint (EPDIR(HSUSBD_EPxCFG[3] is low.) this register returns the number of received.."
group.long 0x204++0x03
line.long 0x00 "HSUSBD_EPKRSPCTL,Endpoint K Response Control Register"
bitfld.long 0x00 7. "DISBUF,Buffer Disable Bit\nThis bit is used to receive unknown size OUT short packet" "0: Buffer Not Disabled when Bulk-OUT short..,1: Buffer Disabled when Bulk-OUT short packet is.."
bitfld.long 0x00 6. "SHORTTXEN,Short Packet Transfer Enable \nThis bit is applicable only in case of Auto-Validate Method" "0: Not validate any remaining data in the buffer..,1: Validate any remaining data in the buffer.."
newline
bitfld.long 0x00 5. "ZEROLEN,Zero Length\nThis bit is used to send a zero-length packet response to an IN-token" "0: A zero packet is not sent to the host on..,1: A zero packet is sent to the host on.."
bitfld.long 0x00 4. "HALT,Endpoint Halt \nThis bit is used to send a STALL handshake as response to the token from the host" "0: Not send a STALL handshake as response to the..,1: Send a STALL handshake as response to the.."
newline
bitfld.long 0x00 3. "TOGGLE,Endpoint Toggle \nThis bit is used to clear the endpoint data toggle bit" "0: Not clear the endpoint data toggle bit,1: Clear the endpoint data toggle bit"
bitfld.long 0x00 1.--2. "MODE,Mode Control\nThe two bits decide the operation mode of the in-endpoint" "0: Auto-Validate Mode,1: Manual-Validate Mode,2: Fly Mode,3: Reserved"
newline
bitfld.long 0x00 0. "FLUSH,Buffer Flush \nWriting 1 to this bit causes the packet buffer to be flushed and the corresponding EP_AVAIL register to be cleared" "0: The packet buffer is not flushed,1: The packet buffer is flushed by user"
group.long 0x208++0x03
line.long 0x00 "HSUSBD_EPKMPS,Endpoint K Maximum Packet Size Register"
hexmask.long.word 0x00 0.--10. 1. "EPMPS,Endpoint Maximum Packet Size \nThis field determines the Maximum Packet Size of the Endpoint"
group.long 0x20C++0x03
line.long 0x00 "HSUSBD_EPKTXCNT,Endpoint K Transfer Count Register"
hexmask.long.word 0x00 0.--10. 1. "TXCNT,Endpoint Transfer Count\nFor IN endpoints this field determines the total number of bytes to be sent to the host in case of manual validation method.\nFor OUT endpoints this field has no effect"
group.long 0x210++0x03
line.long 0x00 "HSUSBD_EPKCFG,Endpoint K Configuration Register"
bitfld.long 0x00 4.--7. "EPNUM,Endpoint Number\nThis field selects the number of the endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "EPDIR,Endpoint Direction\nNote: A maximum of one OUT and IN endpoint is allowed for each endpoint number" "0: out-endpoint (Host OUT to Device),1: in-endpoint (Host IN to Device)"
newline
bitfld.long 0x00 1.--2. "EPTYPE,Endpoint Type\nThis field selects the type of this endpoint" "0: Reserved,1: Bulk,2: Interrupt,3: Isochronous"
bitfld.long 0x00 0. "EPEN,Endpoint Valid\nWhen set this bit enables this endpoint" "0: The endpoint Disabled,1: The endpoint Enabled"
group.long 0x214++0x03
line.long 0x00 "HSUSBD_EPKBUFSTART,Endpoint K RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Endpoint Start Address\nThis is the start-address of the RAM space allocated for the endpoint A~L"
group.long 0x218++0x03
line.long 0x00 "HSUSBD_EPKBUFEND,Endpoint K RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Endpoint End Address\nThis is the end-address of the RAM space allocated for the endpoint A~L"
group.long 0x21C++0x03
line.long 0x00 "HSUSBD_EPLDAT,Endpoint L Data Register"
hexmask.long 0x00 0.--31. 1. "EPDAT,Endpoint A~L Data Register \nEndpoint A~L data buffer for the buffer transaction (read or write).\nNote: Only word or byte access are supported"
group.long 0x220++0x03
line.long 0x00 "HSUSBD_EPLINTSTS,Endpoint L Interrupt Status Register"
bitfld.long 0x00 12. "SHORTRXIF,Bulk Out Short Packet Received\nNote: Write 1 to clear this bit to 0" "0: No bulk out short packet is received,1: Received bulk out short packet (including.."
bitfld.long 0x00 11. "ERRIF,ERR Sent \nNote: Write 1 to clear this bit to 0" "0: No any error in the transaction,1: There occurs any error in the transaction"
newline
bitfld.long 0x00 10. "NYETIF,NYET Sent \nNote: Write 1 to clear this bit to 0" "0: The space available in the RAM is sufficient..,1: The space available in the RAM is not.."
bitfld.long 0x00 9. "STALLIF,USB STALL Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB packet could be accepted or..,1: The last USB packet could not be accepted or.."
newline
bitfld.long 0x00 8. "NAKIF,USB NAK Sent\nNote: Write 1 to clear this bit to 0" "0: The last USB IN packet could be provided and..,1: The last USB IN packet could not be provided.."
bitfld.long 0x00 7. "PINGIF,PING Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: A Data PING token has not been received from..,1: A Data PING token has been received from the.."
newline
bitfld.long 0x00 6. "INTKIF,Data IN Token Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not Data IN token has been received from the..,1: A Data IN token has been received from the host"
bitfld.long 0x00 5. "OUTTKIF,Data OUT Token Interrupt\nNote: Write 1 to clear this bit to 0" "0: A Data OUT token has not been received from..,1: A Data OUT token has been received from the.."
newline
bitfld.long 0x00 4. "RXPKIF,Data Packet Received Interrupt\nNote: Write 1 to clear this bit to 0" "0: No data packet is received from the host by..,1: A data packet is received from the host by.."
bitfld.long 0x00 3. "TXPKIF,Data Packet Transmitted Interrupt \nNote: Write 1 to clear this bit to 0" "0: Not a data packet is transmitted from the..,1: A data packet is transmitted from the.."
newline
bitfld.long 0x00 2. "SHORTTXIF,Short Packet Transferred Interrupt \nNote: Write 1 to clear this bit to 0" "0: The length of the last packet was not less..,1: The length of the last packet was less than.."
bitfld.long 0x00 1. "BUFEMPTYIF,Buffer Empty\nFor an IN endpoint a buffer is available to the local side for writing up to FIFO full of bytes" "0: The endpoint buffer is not empty.\nThe..,1: The endpoint buffer is empty.\nThe currently.."
newline
bitfld.long 0x00 0. "BUFFULLIF,Buffer Full \nFor an IN endpoint the currently selected buffer is full or no buffer is available to the local side for writing (no space to write)" "0: The endpoint packet buffer is not full,1: The endpoint packet buffer is full"
group.long 0x224++0x03
line.long 0x00 "HSUSBD_EPLINTEN,Endpoint L Interrupt Enable Register"
bitfld.long 0x00 12. "SHORTRXIEN,Bulk Out Short Packet Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever bulk out short packet occurs on the bus for this endpoint" "0: Bulk out interrupt Disabled,1: Bulk out interrupt Enabled"
bitfld.long 0x00 11. "ERRIEN,ERR Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever ERR condition occurs on the bus for this endpoint" "0: Error event interrupt Disabled,1: Error event interrupt Enabled"
newline
bitfld.long 0x00 10. "NYETIEN,NYET Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set whenever NYET condition occurs on the bus for this endpoint" "0: NYET condition interrupt Disabled,1: NYET condition interrupt Enabled"
bitfld.long 0x00 9. "STALLIEN,USB STALL Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a stall token is sent to the host" "0: STALL token interrupt Disabled,1: STALL token interrupt Enabled"
newline
bitfld.long 0x00 8. "NAKIEN,USB NAK Sent Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a NAK token is sent to the host" "0: NAK token interrupt Disabled,1: NAK token interrupt Enabled"
bitfld.long 0x00 7. "PINGIEN,PING Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a PING token has been received from the host" "0: PING token interrupt Disabled,1: PING token interrupt Enabled"
newline
bitfld.long 0x00 6. "INTKIEN,Data IN Token Interrupt Enable Bit\nWhen set this bit enables a local interrupt to be set when a Data IN token has been received from the host" "0: Data IN token interrupt Disabled,1: Data IN token interrupt Enabled"
bitfld.long 0x00 5. "OUTTKIEN,Data OUT Token Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a Data OUT token has been received from the host" "0: Data OUT token interrupt Disabled,1: Data OUT token interrupt Enabled"
newline
bitfld.long 0x00 4. "RXPKIEN,Data Packet Received Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been received from the host" "0: Data packet has been received from the host..,1: Data packet has been received from the host.."
bitfld.long 0x00 3. "TXPKIEN,Data Packet Transmitted Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a data packet has been transmitted to the host" "0: Data packet has been transmitted to the host..,1: Data packet has been transmitted to the host.."
newline
bitfld.long 0x00 2. "SHORTTXIEN,Short Packet Transferred Interrupt Enable Bit \nWhen set this bit enables a local interrupt to be set when a short data packet has been transferred to/from the host" "0: Short data packet interrupt Disabled,1: Short data packet interrupt Enabled"
bitfld.long 0x00 1. "BUFEMPTYIEN,Buffer Empty Interrupt\nWhen set this bit enables a local interrupt to be set when a buffer empty condition is detected on the bus" "0: Buffer empty interrupt Disabled,1: Buffer empty interrupt Enabled"
newline
bitfld.long 0x00 0. "BUFFULLIEN,Buffer Full Interrupt \nWhen set this bit enables a local interrupt to be set when a buffer full condition is detected on the bus" "0: Buffer full interrupt Disabled,1: Buffer full interrupt Enabled"
group.long 0x228++0x03
line.long 0x00 "HSUSBD_EPLDATCNT,Endpoint L Data Available Count Register"
hexmask.long.word 0x00 16.--30. 1. "DMALOOP,DMA Loop\nThis register is the remaining DMA loop to complete"
hexmask.long.word 0x00 0.--15. 1. "DATCNT,Data Count\nFor an IN endpoint (EPDIR(HSUSBD_EPxCFG[3] is high.) this register returns the number of valid bytes in the IN endpoint packet buffer.\nFor an OUT endpoint (EPDIR(HSUSBD_EPxCFG[3] is low.) this register returns the number of received.."
group.long 0x22C++0x03
line.long 0x00 "HSUSBD_EPLRSPCTL,Endpoint L Response Control Register"
bitfld.long 0x00 7. "DISBUF,Buffer Disable Bit\nThis bit is used to receive unknown size OUT short packet" "0: Buffer Not Disabled when Bulk-OUT short..,1: Buffer Disabled when Bulk-OUT short packet is.."
bitfld.long 0x00 6. "SHORTTXEN,Short Packet Transfer Enable \nThis bit is applicable only in case of Auto-Validate Method" "0: Not validate any remaining data in the buffer..,1: Validate any remaining data in the buffer.."
newline
bitfld.long 0x00 5. "ZEROLEN,Zero Length\nThis bit is used to send a zero-length packet response to an IN-token" "0: A zero packet is not sent to the host on..,1: A zero packet is sent to the host on.."
bitfld.long 0x00 4. "HALT,Endpoint Halt \nThis bit is used to send a STALL handshake as response to the token from the host" "0: Not send a STALL handshake as response to the..,1: Send a STALL handshake as response to the.."
newline
bitfld.long 0x00 3. "TOGGLE,Endpoint Toggle \nThis bit is used to clear the endpoint data toggle bit" "0: Not clear the endpoint data toggle bit,1: Clear the endpoint data toggle bit"
bitfld.long 0x00 1.--2. "MODE,Mode Control\nThe two bits decide the operation mode of the in-endpoint" "0: Auto-Validate Mode,1: Manual-Validate Mode,2: Fly Mode,3: Reserved"
newline
bitfld.long 0x00 0. "FLUSH,Buffer Flush \nWriting 1 to this bit causes the packet buffer to be flushed and the corresponding EP_AVAIL register to be cleared" "0: The packet buffer is not flushed,1: The packet buffer is flushed by user"
group.long 0x230++0x03
line.long 0x00 "HSUSBD_EPLMPS,Endpoint L Maximum Packet Size Register"
hexmask.long.word 0x00 0.--10. 1. "EPMPS,Endpoint Maximum Packet Size \nThis field determines the Maximum Packet Size of the Endpoint"
group.long 0x234++0x03
line.long 0x00 "HSUSBD_EPLTXCNT,Endpoint L Transfer Count Register"
hexmask.long.word 0x00 0.--10. 1. "TXCNT,Endpoint Transfer Count\nFor IN endpoints this field determines the total number of bytes to be sent to the host in case of manual validation method.\nFor OUT endpoints this field has no effect"
group.long 0x238++0x03
line.long 0x00 "HSUSBD_EPLCFG,Endpoint L Configuration Register"
bitfld.long 0x00 4.--7. "EPNUM,Endpoint Number\nThis field selects the number of the endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 3. "EPDIR,Endpoint Direction\nNote: A maximum of one OUT and IN endpoint is allowed for each endpoint number" "0: out-endpoint (Host OUT to Device),1: in-endpoint (Host IN to Device)"
newline
bitfld.long 0x00 1.--2. "EPTYPE,Endpoint Type\nThis field selects the type of this endpoint" "0: Reserved,1: Bulk,2: Interrupt,3: Isochronous"
bitfld.long 0x00 0. "EPEN,Endpoint Valid\nWhen set this bit enables this endpoint" "0: The endpoint Disabled,1: The endpoint Enabled"
group.long 0x23C++0x03
line.long 0x00 "HSUSBD_EPLBUFSTART,Endpoint L RAM Start Address Register"
hexmask.long.word 0x00 0.--11. 1. "SADDR,Endpoint Start Address\nThis is the start-address of the RAM space allocated for the endpoint A~L"
group.long 0x240++0x03
line.long 0x00 "HSUSBD_EPLBUFEND,Endpoint L RAM End Address Register"
hexmask.long.word 0x00 0.--11. 1. "EADDR,Endpoint End Address\nThis is the end-address of the RAM space allocated for the endpoint A~L"
group.long 0x700++0x03
line.long 0x00 "HSUSBD_DMAADDR,AHB DMA Address Register"
hexmask.long 0x00 0.--31. 1. "DMAADDR,DMAADDR\nThe register specifies the address from which the DMA has to read /"
group.long 0x704++0x03
line.long 0x00 "HSUSBD_PHYCTL,USB PHY Control Register"
bitfld.long 0x00 31. "VBUSDET,VBUS Status" "0: The VBUS is not detected yet,1: The VBUS is detected"
bitfld.long 0x00 24. "WKEN,Wake-up Enable Bit" "0: The wake-up function Disabled,1: The wake-up function Enabled"
newline
bitfld.long 0x00 9. "PHYEN,PHY Suspend Enable Bit" "0: The USB PHY is suspend,1: The USB PHY is not suspend"
bitfld.long 0x00 8. "DPPUEN,DP Pull-up" "0: Pull-up resistor on D+ Disabled,1: Pull-up resistor on D+ Enabled"
tree.end
tree "USBD"
base ad:0x400C0000
group.long 0x00++0x03
line.long 0x00 "USBD_INTEN,USB Device Interrupt Enable Register"
bitfld.long 0x00 15. "INNAKEN,Active NAK Function and Its Status in IN Token" "0: When device responds NAK after receiving IN..,1: IN NAK status will be updated to USBD_EPSTS0.."
bitfld.long 0x00 8. "WKEN,Wake-up Function Enable Bit" "0: USB wake-up function Disabled,1: USB wake-up function Enabled"
newline
bitfld.long 0x00 4. "SOFIEN,Start of Frame Interrupt Enable Bit" "0: SOF Interrupt Disabled,1: SOF Interrupt Enabled"
bitfld.long 0x00 3. "NEVWKIEN,USB No-event-wake-up Interrupt Enable Bit" "0: No-event-wake-up Interrupt Disabled,1: No-event-wake-up Interrupt Enabled"
newline
bitfld.long 0x00 2. "VBDETIEN,VBUS Detection Interrupt Enable Bit" "0: VBUS detection Interrupt Disabled,1: VBUS detection Interrupt Enabled"
bitfld.long 0x00 1. "USBIEN,USB Event Interrupt Enable Bit" "0: USB event interrupt Disabled,1: USB event interrupt Enabled"
newline
bitfld.long 0x00 0. "BUSIEN,Bus Event Interrupt Enable Bit" "0: BUS event interrupt Disabled,1: BUS event interrupt Enabled"
group.long 0x04++0x03
line.long 0x00 "USBD_INTSTS,USB Device Interrupt Event Status Register"
bitfld.long 0x00 31. "SETUP,Setup Event Status" "0: No Setup event,1: Setup event occurred cleared by write 1 to.."
bitfld.long 0x00 27. "EPEVT11,Endpoint 11's USB Event Status" "0: No event occurred in endpoint 11,1: USB event occurred on Endpoint 11 check.."
newline
bitfld.long 0x00 26. "EPEVT10,Endpoint 10's USB Event Status" "0: No event occurred in endpoint 10,1: USB event occurred on Endpoint 10 check.."
bitfld.long 0x00 25. "EPEVT9,Endpoint 9's USB Event Status" "0: No event occurred in endpoint 9,1: USB event occurred on Endpoint 9 check.."
newline
bitfld.long 0x00 24. "EPEVT8,Endpoint 8's USB Event Status" "0: No event occurred in endpoint 8,1: USB event occurred on Endpoint 8 check.."
bitfld.long 0x00 23. "EPEVT7,Endpoint 7's USB Event Status" "0: No event occurred in endpoint 7,1: USB event occurred on Endpoint 7 check.."
newline
bitfld.long 0x00 22. "EPEVT6,Endpoint 6's USB Event Status" "0: No event occurred in endpoint 6,1: USB event occurred on Endpoint 6 check.."
bitfld.long 0x00 21. "EPEVT5,Endpoint 5's USB Event Status" "0: No event occurred in endpoint 5,1: USB event occurred on Endpoint 5 check.."
newline
bitfld.long 0x00 20. "EPEVT4,Endpoint 4's USB Event Status" "0: No event occurred in endpoint 4,1: USB event occurred on Endpoint 4 check.."
bitfld.long 0x00 19. "EPEVT3,Endpoint 3's USB Event Status" "0: No event occurred in endpoint 3,1: USB event occurred on Endpoint 3 check.."
newline
bitfld.long 0x00 18. "EPEVT2,Endpoint 2's USB Event Status" "0: No event occurred in endpoint 2,1: USB event occurred on Endpoint 2 check.."
bitfld.long 0x00 17. "EPEVT1,Endpoint 1's USB Event Status" "0: No event occurred in endpoint 1,1: USB event occurred on Endpoint 1 check.."
newline
bitfld.long 0x00 16. "EPEVT0,Endpoint 0's USB Event Status" "0: No event occurred in endpoint 0,1: USB event occurred on Endpoint 0 check.."
bitfld.long 0x00 4. "SOFIF,Start of Frame Interrupt Status" "0: SOF event does not occur,1: SOF event occurred cleared by write 1 to.."
newline
bitfld.long 0x00 3. "NEVWKIF,No-event-wake-up Interrupt Status" "0: NEVWK event does not occur,1: No-event-wake-up event occurred cleared by.."
bitfld.long 0x00 2. "VBDETIF,VBUS Detection Interrupt Status" "0: There is not attached/detached event in the USB,1: There is attached/detached event in the USB.."
newline
bitfld.long 0x00 1. "USBIF,USB Event Interrupt Status\nThe USB event includes the SETUP Token IN Token OUT ACK ISO IN or ISO OUT events in the bus" "0: No USB event occurred,1: USB event occurred check EPSTS0~5[2:0] to.."
bitfld.long 0x00 0. "BUSIF,BUS Interrupt Status\nThe BUS event means that there is one of the suspense or the resume function in the bus" "0: No BUS event occurred,1: Bus event occurred check USBD_ATTR[3:0] to.."
group.long 0x08++0x03
line.long 0x00 "USBD_FADDR,USB Device Function Address Register"
hexmask.long.byte 0x00 0.--6. 1. "FADDR,USB Device Function Address"
rgroup.long 0x0C++0x03
line.long 0x00 "USBD_EPSTS,USB Device Endpoint Status Register"
bitfld.long 0x00 7. "OV,Overrun\nIt indicates that the received data is over the maximum payload number or not" "0: No overrun,1: Out Data is more than the Max Payload in.."
group.long 0x10++0x03
line.long 0x00 "USBD_ATTR,USB Device Bus Status and Attribution Register"
rbitfld.long 0x00 13. "L1RESUME,LPM L1 Resume (Read Only)" "0: Bus no LPM L1 state resume,1: LPM L1 state Resume from LPM L1 state suspend"
rbitfld.long 0x00 12. "L1SUSPEND,LPM L1 Suspend (Read Only)" "0: Bus no L1 state suspend,1: This bit is set by the hardware when LPM.."
newline
bitfld.long 0x00 11. "LPMACK,LPM Token Acknowledge Enable Bit" "0: the valid LPM Token will be NYET,1: the valid LPM Token will be ACK"
bitfld.long 0x00 10. "BYTEM,CPU Access USB SRAM Size Mode Selection" "0: Word mode,1: Byte mode"
newline
bitfld.long 0x00 9. "PWRDN,Power-down PHY Transceiver Low Active" "0: Power-down related circuit of PHY transceiver,1: Turn-on related circuit of PHY transceiver"
bitfld.long 0x00 8. "DPPUEN,Pull-up Resistor on USB_DP Enable Bit" "0: Pull-up resistor in USB_D+ bus Disabled,1: Pull-up resistor in USB_D+ bus Active"
newline
bitfld.long 0x00 7. "USBEN,USB Controller Enable Bit" "0: USB Controller Disabled,1: USB Controller Enabled"
bitfld.long 0x00 5. "RWAKEUP,Remote Wake-up" "0: Release the USB bus from K state,1: Force USB bus to K (USB_D+ low USB_D-: high).."
newline
bitfld.long 0x00 4. "PHYEN,PHY Transceiver Function Enable Bit" "0: PHY transceiver function Disabled,1: PHY transceiver function Enabled"
rbitfld.long 0x00 3. "TOUT,Time-out Status (Read Only)" "0: No time-out,1: No Bus response more than 18 bits time"
newline
rbitfld.long 0x00 2. "RESUME,Resume Status (Read Only)" "0: No bus resume,1: Resume from suspend"
rbitfld.long 0x00 1. "SUSPEND,Suspend Status (Read Only)" "0: Bus no suspend,1: Bus idle more than 3ms either cable is.."
newline
rbitfld.long 0x00 0. "USBRST,USB Reset Status (Read Only)" "0: Bus no reset,1: Bus reset when SE0 (single-ended 0) more than.."
rgroup.long 0x14++0x03
line.long 0x00 "USBD_VBUSDET,USB Device VBUS Detection Register"
bitfld.long 0x00 0. "VBUSDET,Device VBUS Detection" "0: Controller is not attached to the USB host,1: Controller is attached to the USB host"
group.long 0x18++0x03
line.long 0x00 "USBD_STBUFSEG,SETUP Token Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "STBUFSEG,SETUP Token Buffer Segmentation\nIt is used to indicate the offset address for the SETUP token with the USB Device SRAM starting address The effective starting address is\nUSBD_SRAM address + {STBUFSEG 3'b000} \nNote: It is used for SETUP token.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
rgroup.long 0x20++0x03
line.long 0x00 "USBD_EPSTS0,USB Device Endpoint Status Register 0"
bitfld.long 0x00 28.--31. "EPSTS7,Endpoint 7 Status\nThese bits are used to indicate the current status of this endpoint" "0: In ACK,1: In NAK,2: Out Packet Data0 ACK,?,?,?,6: Out Packet Data1 ACK,7: Isochronous transfer end,?..."
bitfld.long 0x00 24.--27. "EPSTS6,Endpoint 6 Status\nThese bits are used to indicate the current status of this endpoint" "0: In ACK,1: In NAK,2: Out Packet Data0 ACK,?,?,?,6: Out Packet Data1 ACK,7: Isochronous transfer end,?..."
newline
bitfld.long 0x00 20.--23. "EPSTS5,Endpoint 5 Status\nThese bits are used to indicate the current status of this endpoint" "0: In ACK,1: In NAK,2: Out Packet Data0 ACK,?,?,?,6: Out Packet Data1 ACK,7: Isochronous transfer end,?..."
rgroup.long 0x24++0x03
line.long 0x00 "USBD_EPSTS1,USB Device Endpoint Status Register 1"
bitfld.long 0x00 12.--15. "EPSTS11,Endpoint 11 Status\nThese bits are used to indicate the current status of this endpoint" "0: In ACK,1: In NAK,2: Out Packet Data0 ACK,?,?,?,6: Out Packet Data1 ACK,7: Isochronous transfer end,?..."
bitfld.long 0x00 8.--11. "EPSTS10,Endpoint 10 Status\nThese bits are used to indicate the current status of this endpoint" "0: In ACK,1: In NAK,2: Out Packet Data0 ACK,?,?,?,6: Out Packet Data1 ACK,7: Isochronous transfer end,?..."
newline
bitfld.long 0x00 4.--7. "EPSTS9,Endpoint 9 Status\nThese bits are used to indicate the current status of this endpoint" "0: In ACK,1: In NAK,2: Out Packet Data0 ACK,?,?,?,6: Out Packet Data1 ACK,7: Isochronous transfer end,?..."
bitfld.long 0x00 0.--3. "EPSTS8,Endpoint 8 Status\nThese bits are used to indicate the current status of this endpoint" "0: In ACK,1: In NAK,2: Out Packet Data0 ACK,?,?,?,6: Out Packet Data1 ACK,7: Isochronous transfer end,?..."
rgroup.long 0x88++0x03
line.long 0x00 "USBD_LPMATTR,USB LPM Attribution Register"
bitfld.long 0x00 8. "LPMRWAKUP,LPM Remote Wakeup\nThis bit contains the bRemoteWake value received with last ACK LPM Token" "0,1"
bitfld.long 0x00 4.--7. "LPMBESL,LPM Best Effort Service Latency\nThese bits contain the BESL value received with last ACK LPM Token" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 0.--3. "LPMLINKSTS,LPM Link State\nThese bits contain the bLinkState received with last ACK LPM Token" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x8C++0x03
line.long 0x00 "USBD_FN,USB Frame Number Register"
hexmask.long.word 0x00 0.--10. 1. "FN,Frame Number\nThese bits contain the 11-bits frame number in the last received SOF packet"
group.long 0x90++0x03
line.long 0x00 "USBD_SE0,USB Device Drive SE0 Control Register"
bitfld.long 0x00 0. "SE0,Drive Single Ended Zero in USB Bus\nThe Single Ended Zero (SE0) is when both lines (USB_D+ and USB_D-) are being pulled low" "0: Normal operation,1: Force USB PHY transceiver to drive SE0"
group.long 0x500++0x03
line.long 0x00 "USBD_BUFSEG0,Endpoint 0 Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "BUFSEG,Endpoint Buffer Segmentation\nIt is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is\nUSBD_SRAM address + { BUFSEG 3'b000}\nRefer to the section 6.31.6.7.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x504++0x03
line.long 0x00 "USBD_MXPLD0,Endpoint 0 Maximal Payload Register"
hexmask.long.word 0x00 0.--8. 1. "MXPLD,Maximal Payload\nDefine the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)"
group.long 0x508++0x03
line.long 0x00 "USBD_CFG0,Endpoint 0 Configuration Register"
bitfld.long 0x00 9. "CSTALL,Clear STALL Response" "0: Disable the device to clear the STALL..,1: Clear the device to response STALL handshake.."
bitfld.long 0x00 7. "DSQSYNC,Data Sequence Synchronization\nNote: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction" "0: DATA0 PID,1: DATA1 PID"
newline
bitfld.long 0x00 5.--6. "STATE,Endpoint STATE" "0: Endpoint is Disabled,1: Out endpoint,2: IN endpoint,3: Undefined"
bitfld.long 0x00 4. "ISOCH,Isochronous Endpoint\nThis bit is used to set the endpoint as Isochronous endpoint no handshake" "0: No Isochronous endpoint,1: Isochronous endpoint"
newline
bitfld.long 0x00 0.--3. "EPNUM,Endpoint Number\nThese bits are used to define the endpoint number of the current endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x50C++0x03
line.long 0x00 "USBD_CFGP0,Endpoint 0 Set Stall and Clear In/Out Ready Control Register"
bitfld.long 0x00 1. "SSTALL,Set STALL" "0: Disable the device to response STALL,1: Set the device to respond STALL automatically"
bitfld.long 0x00 0. "CLRRDY,Clear Ready\nWhen the USBD_MXPLDx register is set by user it means that the endpoint is ready to transmit or receive data" "0,1"
group.long 0x510++0x03
line.long 0x00 "USBD_BUFSEG1,Endpoint 1 Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "BUFSEG,Endpoint Buffer Segmentation\nIt is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is\nUSBD_SRAM address + { BUFSEG 3'b000}\nRefer to the section 6.31.6.7.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x514++0x03
line.long 0x00 "USBD_MXPLD1,Endpoint 1 Maximal Payload Register"
hexmask.long.word 0x00 0.--8. 1. "MXPLD,Maximal Payload\nDefine the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)"
group.long 0x518++0x03
line.long 0x00 "USBD_CFG1,Endpoint 1 Configuration Register"
bitfld.long 0x00 9. "CSTALL,Clear STALL Response" "0: Disable the device to clear the STALL..,1: Clear the device to response STALL handshake.."
bitfld.long 0x00 7. "DSQSYNC,Data Sequence Synchronization\nNote: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction" "0: DATA0 PID,1: DATA1 PID"
newline
bitfld.long 0x00 5.--6. "STATE,Endpoint STATE" "0: Endpoint is Disabled,1: Out endpoint,2: IN endpoint,3: Undefined"
bitfld.long 0x00 4. "ISOCH,Isochronous Endpoint\nThis bit is used to set the endpoint as Isochronous endpoint no handshake" "0: No Isochronous endpoint,1: Isochronous endpoint"
newline
bitfld.long 0x00 0.--3. "EPNUM,Endpoint Number\nThese bits are used to define the endpoint number of the current endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x51C++0x03
line.long 0x00 "USBD_CFGP1,Endpoint 1 Set Stall and Clear In/Out Ready Control Register"
bitfld.long 0x00 1. "SSTALL,Set STALL" "0: Disable the device to response STALL,1: Set the device to respond STALL automatically"
bitfld.long 0x00 0. "CLRRDY,Clear Ready\nWhen the USBD_MXPLDx register is set by user it means that the endpoint is ready to transmit or receive data" "0,1"
group.long 0x520++0x03
line.long 0x00 "USBD_BUFSEG2,Endpoint 2 Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "BUFSEG,Endpoint Buffer Segmentation\nIt is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is\nUSBD_SRAM address + { BUFSEG 3'b000}\nRefer to the section 6.31.6.7.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x524++0x03
line.long 0x00 "USBD_MXPLD2,Endpoint 2 Maximal Payload Register"
hexmask.long.word 0x00 0.--8. 1. "MXPLD,Maximal Payload\nDefine the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)"
group.long 0x528++0x03
line.long 0x00 "USBD_CFG2,Endpoint 2 Configuration Register"
bitfld.long 0x00 9. "CSTALL,Clear STALL Response" "0: Disable the device to clear the STALL..,1: Clear the device to response STALL handshake.."
bitfld.long 0x00 7. "DSQSYNC,Data Sequence Synchronization\nNote: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction" "0: DATA0 PID,1: DATA1 PID"
newline
bitfld.long 0x00 5.--6. "STATE,Endpoint STATE" "0: Endpoint is Disabled,1: Out endpoint,2: IN endpoint,3: Undefined"
bitfld.long 0x00 4. "ISOCH,Isochronous Endpoint\nThis bit is used to set the endpoint as Isochronous endpoint no handshake" "0: No Isochronous endpoint,1: Isochronous endpoint"
newline
bitfld.long 0x00 0.--3. "EPNUM,Endpoint Number\nThese bits are used to define the endpoint number of the current endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x52C++0x03
line.long 0x00 "USBD_CFGP2,Endpoint 2 Set Stall and Clear In/Out Ready Control Register"
bitfld.long 0x00 1. "SSTALL,Set STALL" "0: Disable the device to response STALL,1: Set the device to respond STALL automatically"
bitfld.long 0x00 0. "CLRRDY,Clear Ready\nWhen the USBD_MXPLDx register is set by user it means that the endpoint is ready to transmit or receive data" "0,1"
group.long 0x530++0x03
line.long 0x00 "USBD_BUFSEG3,Endpoint 3 Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "BUFSEG,Endpoint Buffer Segmentation\nIt is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is\nUSBD_SRAM address + { BUFSEG 3'b000}\nRefer to the section 6.31.6.7.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x534++0x03
line.long 0x00 "USBD_MXPLD3,Endpoint 3 Maximal Payload Register"
hexmask.long.word 0x00 0.--8. 1. "MXPLD,Maximal Payload\nDefine the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)"
group.long 0x538++0x03
line.long 0x00 "USBD_CFG3,Endpoint 3 Configuration Register"
bitfld.long 0x00 9. "CSTALL,Clear STALL Response" "0: Disable the device to clear the STALL..,1: Clear the device to response STALL handshake.."
bitfld.long 0x00 7. "DSQSYNC,Data Sequence Synchronization\nNote: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction" "0: DATA0 PID,1: DATA1 PID"
newline
bitfld.long 0x00 5.--6. "STATE,Endpoint STATE" "0: Endpoint is Disabled,1: Out endpoint,2: IN endpoint,3: Undefined"
bitfld.long 0x00 4. "ISOCH,Isochronous Endpoint\nThis bit is used to set the endpoint as Isochronous endpoint no handshake" "0: No Isochronous endpoint,1: Isochronous endpoint"
newline
bitfld.long 0x00 0.--3. "EPNUM,Endpoint Number\nThese bits are used to define the endpoint number of the current endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x53C++0x03
line.long 0x00 "USBD_CFGP3,Endpoint 3 Set Stall and Clear In/Out Ready Control Register"
bitfld.long 0x00 1. "SSTALL,Set STALL" "0: Disable the device to response STALL,1: Set the device to respond STALL automatically"
bitfld.long 0x00 0. "CLRRDY,Clear Ready\nWhen the USBD_MXPLDx register is set by user it means that the endpoint is ready to transmit or receive data" "0,1"
group.long 0x540++0x03
line.long 0x00 "USBD_BUFSEG4,Endpoint 4 Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "BUFSEG,Endpoint Buffer Segmentation\nIt is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is\nUSBD_SRAM address + { BUFSEG 3'b000}\nRefer to the section 6.31.6.7.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x544++0x03
line.long 0x00 "USBD_MXPLD4,Endpoint 4 Maximal Payload Register"
hexmask.long.word 0x00 0.--8. 1. "MXPLD,Maximal Payload\nDefine the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)"
group.long 0x548++0x03
line.long 0x00 "USBD_CFG4,Endpoint 4 Configuration Register"
bitfld.long 0x00 9. "CSTALL,Clear STALL Response" "0: Disable the device to clear the STALL..,1: Clear the device to response STALL handshake.."
bitfld.long 0x00 7. "DSQSYNC,Data Sequence Synchronization\nNote: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction" "0: DATA0 PID,1: DATA1 PID"
newline
bitfld.long 0x00 5.--6. "STATE,Endpoint STATE" "0: Endpoint is Disabled,1: Out endpoint,2: IN endpoint,3: Undefined"
bitfld.long 0x00 4. "ISOCH,Isochronous Endpoint\nThis bit is used to set the endpoint as Isochronous endpoint no handshake" "0: No Isochronous endpoint,1: Isochronous endpoint"
newline
bitfld.long 0x00 0.--3. "EPNUM,Endpoint Number\nThese bits are used to define the endpoint number of the current endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x54C++0x03
line.long 0x00 "USBD_CFGP4,Endpoint 4 Set Stall and Clear In/Out Ready Control Register"
bitfld.long 0x00 1. "SSTALL,Set STALL" "0: Disable the device to response STALL,1: Set the device to respond STALL automatically"
bitfld.long 0x00 0. "CLRRDY,Clear Ready\nWhen the USBD_MXPLDx register is set by user it means that the endpoint is ready to transmit or receive data" "0,1"
group.long 0x550++0x03
line.long 0x00 "USBD_BUFSEG5,Endpoint 5 Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "BUFSEG,Endpoint Buffer Segmentation\nIt is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is\nUSBD_SRAM address + { BUFSEG 3'b000}\nRefer to the section 6.31.6.7.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x554++0x03
line.long 0x00 "USBD_MXPLD5,Endpoint 5 Maximal Payload Register"
hexmask.long.word 0x00 0.--8. 1. "MXPLD,Maximal Payload\nDefine the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)"
group.long 0x558++0x03
line.long 0x00 "USBD_CFG5,Endpoint 5 Configuration Register"
bitfld.long 0x00 9. "CSTALL,Clear STALL Response" "0: Disable the device to clear the STALL..,1: Clear the device to response STALL handshake.."
bitfld.long 0x00 7. "DSQSYNC,Data Sequence Synchronization\nNote: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction" "0: DATA0 PID,1: DATA1 PID"
newline
bitfld.long 0x00 5.--6. "STATE,Endpoint STATE" "0: Endpoint is Disabled,1: Out endpoint,2: IN endpoint,3: Undefined"
bitfld.long 0x00 4. "ISOCH,Isochronous Endpoint\nThis bit is used to set the endpoint as Isochronous endpoint no handshake" "0: No Isochronous endpoint,1: Isochronous endpoint"
newline
bitfld.long 0x00 0.--3. "EPNUM,Endpoint Number\nThese bits are used to define the endpoint number of the current endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x55C++0x03
line.long 0x00 "USBD_CFGP5,Endpoint 5 Set Stall and Clear In/Out Ready Control Register"
bitfld.long 0x00 1. "SSTALL,Set STALL" "0: Disable the device to response STALL,1: Set the device to respond STALL automatically"
bitfld.long 0x00 0. "CLRRDY,Clear Ready\nWhen the USBD_MXPLDx register is set by user it means that the endpoint is ready to transmit or receive data" "0,1"
group.long 0x560++0x03
line.long 0x00 "USBD_BUFSEG6,Endpoint 6 Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "BUFSEG,Endpoint Buffer Segmentation\nIt is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is\nUSBD_SRAM address + { BUFSEG 3'b000}\nRefer to the section 6.31.6.7.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x564++0x03
line.long 0x00 "USBD_MXPLD6,Endpoint 6 Maximal Payload Register"
hexmask.long.word 0x00 0.--8. 1. "MXPLD,Maximal Payload\nDefine the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)"
group.long 0x568++0x03
line.long 0x00 "USBD_CFG6,Endpoint 6 Configuration Register"
bitfld.long 0x00 9. "CSTALL,Clear STALL Response" "0: Disable the device to clear the STALL..,1: Clear the device to response STALL handshake.."
bitfld.long 0x00 7. "DSQSYNC,Data Sequence Synchronization\nNote: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction" "0: DATA0 PID,1: DATA1 PID"
newline
bitfld.long 0x00 5.--6. "STATE,Endpoint STATE" "0: Endpoint is Disabled,1: Out endpoint,2: IN endpoint,3: Undefined"
bitfld.long 0x00 4. "ISOCH,Isochronous Endpoint\nThis bit is used to set the endpoint as Isochronous endpoint no handshake" "0: No Isochronous endpoint,1: Isochronous endpoint"
newline
bitfld.long 0x00 0.--3. "EPNUM,Endpoint Number\nThese bits are used to define the endpoint number of the current endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x56C++0x03
line.long 0x00 "USBD_CFGP6,Endpoint 6 Set Stall and Clear In/Out Ready Control Register"
bitfld.long 0x00 1. "SSTALL,Set STALL" "0: Disable the device to response STALL,1: Set the device to respond STALL automatically"
bitfld.long 0x00 0. "CLRRDY,Clear Ready\nWhen the USBD_MXPLDx register is set by user it means that the endpoint is ready to transmit or receive data" "0,1"
group.long 0x570++0x03
line.long 0x00 "USBD_BUFSEG7,Endpoint 7 Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "BUFSEG,Endpoint Buffer Segmentation\nIt is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is\nUSBD_SRAM address + { BUFSEG 3'b000}\nRefer to the section 6.31.6.7.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x574++0x03
line.long 0x00 "USBD_MXPLD7,Endpoint 7 Maximal Payload Register"
hexmask.long.word 0x00 0.--8. 1. "MXPLD,Maximal Payload\nDefine the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)"
group.long 0x578++0x03
line.long 0x00 "USBD_CFG7,Endpoint 7 Configuration Register"
bitfld.long 0x00 9. "CSTALL,Clear STALL Response" "0: Disable the device to clear the STALL..,1: Clear the device to response STALL handshake.."
bitfld.long 0x00 7. "DSQSYNC,Data Sequence Synchronization\nNote: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction" "0: DATA0 PID,1: DATA1 PID"
newline
bitfld.long 0x00 5.--6. "STATE,Endpoint STATE" "0: Endpoint is Disabled,1: Out endpoint,2: IN endpoint,3: Undefined"
bitfld.long 0x00 4. "ISOCH,Isochronous Endpoint\nThis bit is used to set the endpoint as Isochronous endpoint no handshake" "0: No Isochronous endpoint,1: Isochronous endpoint"
newline
bitfld.long 0x00 0.--3. "EPNUM,Endpoint Number\nThese bits are used to define the endpoint number of the current endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x57C++0x03
line.long 0x00 "USBD_CFGP7,Endpoint 7 Set Stall and Clear In/Out Ready Control Register"
bitfld.long 0x00 1. "SSTALL,Set STALL" "0: Disable the device to response STALL,1: Set the device to respond STALL automatically"
bitfld.long 0x00 0. "CLRRDY,Clear Ready\nWhen the USBD_MXPLDx register is set by user it means that the endpoint is ready to transmit or receive data" "0,1"
group.long 0x580++0x03
line.long 0x00 "USBD_BUFSEG8,Endpoint 8 Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "BUFSEG,Endpoint Buffer Segmentation\nIt is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is\nUSBD_SRAM address + { BUFSEG 3'b000}\nRefer to the section 6.31.6.7.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x584++0x03
line.long 0x00 "USBD_MXPLD8,Endpoint 8 Maximal Payload Register"
hexmask.long.word 0x00 0.--8. 1. "MXPLD,Maximal Payload\nDefine the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)"
group.long 0x588++0x03
line.long 0x00 "USBD_CFG8,Endpoint 8 Configuration Register"
bitfld.long 0x00 9. "CSTALL,Clear STALL Response" "0: Disable the device to clear the STALL..,1: Clear the device to response STALL handshake.."
bitfld.long 0x00 7. "DSQSYNC,Data Sequence Synchronization\nNote: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction" "0: DATA0 PID,1: DATA1 PID"
newline
bitfld.long 0x00 5.--6. "STATE,Endpoint STATE" "0: Endpoint is Disabled,1: Out endpoint,2: IN endpoint,3: Undefined"
bitfld.long 0x00 4. "ISOCH,Isochronous Endpoint\nThis bit is used to set the endpoint as Isochronous endpoint no handshake" "0: No Isochronous endpoint,1: Isochronous endpoint"
newline
bitfld.long 0x00 0.--3. "EPNUM,Endpoint Number\nThese bits are used to define the endpoint number of the current endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x58C++0x03
line.long 0x00 "USBD_CFGP8,Endpoint 8 Set Stall and Clear In/Out Ready Control Register"
bitfld.long 0x00 1. "SSTALL,Set STALL" "0: Disable the device to response STALL,1: Set the device to respond STALL automatically"
bitfld.long 0x00 0. "CLRRDY,Clear Ready\nWhen the USBD_MXPLDx register is set by user it means that the endpoint is ready to transmit or receive data" "0,1"
group.long 0x590++0x03
line.long 0x00 "USBD_BUFSEG9,Endpoint 9 Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "BUFSEG,Endpoint Buffer Segmentation\nIt is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is\nUSBD_SRAM address + { BUFSEG 3'b000}\nRefer to the section 6.31.6.7.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x594++0x03
line.long 0x00 "USBD_MXPLD9,Endpoint 9 Maximal Payload Register"
hexmask.long.word 0x00 0.--8. 1. "MXPLD,Maximal Payload\nDefine the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)"
group.long 0x598++0x03
line.long 0x00 "USBD_CFG9,Endpoint 9 Configuration Register"
bitfld.long 0x00 9. "CSTALL,Clear STALL Response" "0: Disable the device to clear the STALL..,1: Clear the device to response STALL handshake.."
bitfld.long 0x00 7. "DSQSYNC,Data Sequence Synchronization\nNote: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction" "0: DATA0 PID,1: DATA1 PID"
newline
bitfld.long 0x00 5.--6. "STATE,Endpoint STATE" "0: Endpoint is Disabled,1: Out endpoint,2: IN endpoint,3: Undefined"
bitfld.long 0x00 4. "ISOCH,Isochronous Endpoint\nThis bit is used to set the endpoint as Isochronous endpoint no handshake" "0: No Isochronous endpoint,1: Isochronous endpoint"
newline
bitfld.long 0x00 0.--3. "EPNUM,Endpoint Number\nThese bits are used to define the endpoint number of the current endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x59C++0x03
line.long 0x00 "USBD_CFGP9,Endpoint 9 Set Stall and Clear In/Out Ready Control Register"
bitfld.long 0x00 1. "SSTALL,Set STALL" "0: Disable the device to response STALL,1: Set the device to respond STALL automatically"
bitfld.long 0x00 0. "CLRRDY,Clear Ready\nWhen the USBD_MXPLDx register is set by user it means that the endpoint is ready to transmit or receive data" "0,1"
group.long 0x5A0++0x03
line.long 0x00 "USBD_BUFSEG10,Endpoint 10 Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "BUFSEG,Endpoint Buffer Segmentation\nIt is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is\nUSBD_SRAM address + { BUFSEG 3'b000}\nRefer to the section 6.31.6.7.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x5A4++0x03
line.long 0x00 "USBD_MXPLD10,Endpoint 10 Maximal Payload Register"
hexmask.long.word 0x00 0.--8. 1. "MXPLD,Maximal Payload\nDefine the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)"
group.long 0x5A8++0x03
line.long 0x00 "USBD_CFG10,Endpoint 10 Configuration Register"
bitfld.long 0x00 9. "CSTALL,Clear STALL Response" "0: Disable the device to clear the STALL..,1: Clear the device to response STALL handshake.."
bitfld.long 0x00 7. "DSQSYNC,Data Sequence Synchronization\nNote: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction" "0: DATA0 PID,1: DATA1 PID"
newline
bitfld.long 0x00 5.--6. "STATE,Endpoint STATE" "0: Endpoint is Disabled,1: Out endpoint,2: IN endpoint,3: Undefined"
bitfld.long 0x00 4. "ISOCH,Isochronous Endpoint\nThis bit is used to set the endpoint as Isochronous endpoint no handshake" "0: No Isochronous endpoint,1: Isochronous endpoint"
newline
bitfld.long 0x00 0.--3. "EPNUM,Endpoint Number\nThese bits are used to define the endpoint number of the current endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5AC++0x03
line.long 0x00 "USBD_CFGP10,Endpoint 10 Set Stall and Clear In/Out Ready Control Register"
bitfld.long 0x00 1. "SSTALL,Set STALL" "0: Disable the device to response STALL,1: Set the device to respond STALL automatically"
bitfld.long 0x00 0. "CLRRDY,Clear Ready\nWhen the USBD_MXPLDx register is set by user it means that the endpoint is ready to transmit or receive data" "0,1"
group.long 0x5B0++0x03
line.long 0x00 "USBD_BUFSEG11,Endpoint 11 Buffer Segmentation Register"
bitfld.long 0x00 3.--8. "BUFSEG,Endpoint Buffer Segmentation\nIt is used to indicate the offset address for each endpoint with the USB SRAM starting address The effective starting address of the endpoint is\nUSBD_SRAM address + { BUFSEG 3'b000}\nRefer to the section 6.31.6.7.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
group.long 0x5B4++0x03
line.long 0x00 "USBD_MXPLD11,Endpoint 11 Maximal Payload Register"
hexmask.long.word 0x00 0.--8. 1. "MXPLD,Maximal Payload\nDefine the data length which is transmitted to host (IN token) or the actual data length which is received from the host (OUT token)"
group.long 0x5B8++0x03
line.long 0x00 "USBD_CFG11,Endpoint 11 Configuration Register"
bitfld.long 0x00 9. "CSTALL,Clear STALL Response" "0: Disable the device to clear the STALL..,1: Clear the device to response STALL handshake.."
bitfld.long 0x00 7. "DSQSYNC,Data Sequence Synchronization\nNote: It is used to specify the DATA0 or DATA1 PID in the following IN token transaction" "0: DATA0 PID,1: DATA1 PID"
newline
bitfld.long 0x00 5.--6. "STATE,Endpoint STATE" "0: Endpoint is Disabled,1: Out endpoint,2: IN endpoint,3: Undefined"
bitfld.long 0x00 4. "ISOCH,Isochronous Endpoint\nThis bit is used to set the endpoint as Isochronous endpoint no handshake" "0: No Isochronous endpoint,1: Isochronous endpoint"
newline
bitfld.long 0x00 0.--3. "EPNUM,Endpoint Number\nThese bits are used to define the endpoint number of the current endpoint" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
group.long 0x5BC++0x03
line.long 0x00 "USBD_CFGP11,Endpoint 11 Set Stall and Clear In/Out Ready Control Register"
bitfld.long 0x00 1. "SSTALL,Set STALL" "0: Disable the device to response STALL,1: Set the device to respond STALL automatically"
bitfld.long 0x00 0. "CLRRDY,Clear Ready\nWhen the USBD_MXPLDx register is set by user it means that the endpoint is ready to transmit or receive data" "0,1"
tree.end
tree.end
tree "USBH"
tree "HSUSBH"
base ad:0x4001A000
rgroup.long 0x00++0x03
line.long 0x00 "EHCVNR,EHCI Version Number Register"
hexmask.long.word 0x00 16.--31. 1. "VERSION,Host Controller Interface Version Number\nThis is a two-byte register containing a BCD encoding of the EHCI revision number supported by this host controller"
hexmask.long.byte 0x00 0.--7. 1. "CRLEN,Capability Registers Length\nThis register is used as an offset to add to register base to find the beginning of the Operational Register Space"
rgroup.long 0x04++0x03
line.long 0x00 "EHCSPR,EHCI Structural Parameters Register"
bitfld.long 0x00 12.--15. "N_CC,Number of Companion Controller\nThis field indicates the number of companion controllers associated with this USB 2.0 host controller.\nA zero in this field indicates there are no companion host controllers" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 8.--11. "N_PCC,Number of Ports Per Companion Controller\nThis field indicates the number of ports supported per companion host controller" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 4. "PPC,Port Power Control\nThis field indicates whether the host controller implementation includes port power control" "0,1"
bitfld.long 0x00 0.--3. "N_PORTS,Number of Physical Downstream Ports\nThis field specifies the number of physical downstream ports implemented on this host controller" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
rgroup.long 0x08++0x03
line.long 0x00 "EHCCPR,EHCI Capability Parameters Register"
hexmask.long.byte 0x00 8.--15. 1. "EECP,EHCI Extended Capabilities Pointer (EECP)"
bitfld.long 0x00 4.--7. "IST,Isochronous Scheduling Threshold\nThis field indicates relative to the current position of the executing host controller where software can reliably update the isochronous schedule.\nWhen bit [7] is zero the value of the least significant 3 bits.." "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
newline
bitfld.long 0x00 2. "ASPC,Asynchronous Schedule Park Capability" "0: This EHCI host controller doesn't support..,?..."
bitfld.long 0x00 1. "PFLF,Programmable Frame List Flag" "0: System software must use a frame list length..,?..."
newline
bitfld.long 0x00 0. "AC64,64-bit Addressing Capability" "0: Data structure using 32-bit address memory..,?..."
group.long 0x20++0x03
line.long 0x00 "UCMDR,USB Command Register"
hexmask.long.byte 0x00 16.--23. 1. "ITC,Interrupt Threshold Control (R/W)\nThis field is used by system software to select the maximum rate at which the host controller will issue interrupts"
bitfld.long 0x00 6. "IAAD,Interrupt on Asynchronous Advance Doorbell (R/W)\nThis bit is used as a doorbell by software to tell the host controller to issue an interrupt the next time it advances asynchronous schedule" "0,1"
newline
bitfld.long 0x00 5. "ASEN,Asynchronous Schedule Enable (R/W)\nThis bit controls whether the host controller skips processing the Asynchronous Schedule" "0: Do not process the Asynchronous Schedule,1: Use the ASYNCLISTADDR register to access the.."
bitfld.long 0x00 4. "PSEN,Periodic Schedule Enable (R/W)\nThis bit controls whether the host controller skips processing the Periodic Schedule" "0: Do not process the Periodic Schedule,1: Use the PERIODICLISTBASE register to access.."
newline
bitfld.long 0x00 2.--3. "FLSZ,Frame List Size (R/W or RO)\nThis field is R/W only if Programmable Frame List Flag in the HCCPARAMS registers is set to a one" "0: 1024 elements (4096 bytes) Default value,1: 512 elements (2048 bytes),2: 256 elements (1024 bytes) - for..,3: Reserved"
bitfld.long 0x00 1. "HCRST,Host Controller Reset (HCRESET) (R/W)\nThis control bit is used by software to reset the host controller" "0,1"
newline
bitfld.long 0x00 0. "RUN,Run/Stop (R/W)\nWhen set to a 1 the Host Controller proceeds with execution of the schedule" "0: Stop,1: Run"
group.long 0x24++0x03
line.long 0x00 "USTSR,USB Status Register"
rbitfld.long 0x00 15. "ASS,Asynchronous Schedule Status (Read Only)\nThe bit reports the current real status of the Asynchronous Schedule" "0,1"
rbitfld.long 0x00 14. "PSS,Periodic Schedule Status (Read Only)\nThe bit reports the current real status of the Periodic Schedule" "0,1"
newline
rbitfld.long 0x00 13. "RECLA,Reclamation (Read Only)\nThis is a read-only status bit which is used to detect an empty asynchronous schedule" "0,1"
rbitfld.long 0x00 12. "HCHalted,HCHalted (Read Only)\nThis bit is a zero whenever the Run/Stop bit is a one" "0,1"
newline
bitfld.long 0x00 5. "IAA,Interrupt on Asynchronous Advance (R/WC)\nSystem software can force the host controller to issue an interrupt the next time the host controller advances the asynchronous schedule by writing a one to the Interrupt on Asynchronous Advance Doorbell bit.." "0,1"
bitfld.long 0x00 4. "HSERR,Host System Error (R/WC)\nThe Host Controller sets this bit to 1 when a serious error occurs during a host system access involving the Host Controller module" "0,1"
newline
bitfld.long 0x00 3. "FLR,Frame List Rollover (R/WC)\nThe Host Controller sets this bit to a one when the Frame List Index rolls over from its maximum value to zero" "0,1"
bitfld.long 0x00 2. "PCD,Port Change Detect (R/WC)\nThe Host Controller sets this bit to a one when any port for which the Port Owner bit is set to zero has a change bit transition from a zero to a one or a Force Port Resume bit transition from a zero to a one as a result.." "0,1"
newline
bitfld.long 0x00 1. "UERRINT,USB Error Interrupt (USBERRINT) (R/WC)\nThe Host Controller sets this bit to 1 when completion of a USB transaction results in an error condition (e.g. error counter underflow)" "0,1"
bitfld.long 0x00 0. "USBINT,USB Interrupt (USBINT) (R/WC)\nThe Host Controller sets this bit to 1 on the completion of a USB transaction which results in the retirement of a Transfer Descriptor that had its IOC bit set.\nThe Host Controller also sets this bit to 1 when a.." "0,1"
group.long 0x28++0x03
line.long 0x00 "UIENR,USB Interrupt Enable Register"
bitfld.long 0x00 5. "IAAEN,Interrupt on Asynchronous Advance Enable or Disable Bit\nWhen this bit is a one and the Interrupt on Asynchronous Advance bit in the USBSTS register is a one the host controller will issue an interrupt at the next interrupt threshold" "0: Interrupt on Asynchronous Advance Disabled,1: Interrupt on Asynchronous Advance Enabled"
bitfld.long 0x00 4. "HSERREN,Host System Error Enable or Disable Bit\nWhen this bit is a one and the Host System Error Status bit in the USBSTS register is a one the host controller will issue an interrupt" "0: Host System Error interrupt Disabled,1: Host System Error interrupt Enabled"
newline
bitfld.long 0x00 3. "FLREN,Frame List Rollover Enable or Disable Bit\nWhen this bit is a one and the Frame List Rollover bit in the USBSTS register is a one the host controller will issue an interrupt" "0: Frame List Rollover interrupt Disabled,1: Frame List Rollover interrupt Enabled"
bitfld.long 0x00 2. "PCIEN,Port Change Interrupt Enable or Disable Bit\nWhen this bit is a one and the Port Change Detect bit in the USBSTS register is a one the host controller will issue an interrupt" "0: Port Change interrupt Disabled,1: Port Change interrupt Enabled"
newline
bitfld.long 0x00 1. "UERRIEN,USB Error Interrupt Enable or Disable Bit\nWhen this bit is a one and the USBERRINT bit in the USBSTS register is a one the host t controller will issue an interrupt at the next interrupt threshold" "0: USB Error interrupt Disabled,1: USB Error interrupt Enabled"
bitfld.long 0x00 0. "USBIEN,USB Interrupt Enable or Disable Bit\nWhen this bit is a one and the USBINT bit in the USBSTS register is a one the host controller will issue an interrupt at the next interrupt threshold" "0: USB interrupt Disabled,1: USB interrupt Enabled"
group.long 0x2C++0x03
line.long 0x00 "UFINDR,USB Frame Index Register"
hexmask.long.word 0x00 0.--13. 1. "FI,Frame Index\nThe value in this register increment at the end of each time frame (e.g. micro-frame)"
group.long 0x34++0x03
line.long 0x00 "UPFLBAR,USB Periodic Frame List Base Address Register"
hexmask.long.tbyte 0x00 12.--31. 1. "BADDR,Base Address\nThese bits correspond to memory address signals [31:12] respectively"
group.long 0x38++0x03
line.long 0x00 "UCALAR,USB Current Asynchronous List Address Register"
hexmask.long 0x00 5.--31. 1. "LPL,Link Pointer Low (LPL)\nThese bits correspond to memory address signals [31:5] respectively"
group.long 0x3C++0x03
line.long 0x00 "UASSTR,USB Asynchronous Schedule Sleep Timer Register"
hexmask.long.word 0x00 0.--11. 1. "ASSTMR,Asynchronous Schedule Sleep Timer\nThis field defines the AsyncSchedSleepTime of EHCI spec.\nThe asynchronous schedule sleep timer is used to control how often the host controller fetches asynchronous schedule list from system memory while the.."
group.long 0x60++0x03
line.long 0x00 "UCFGR,USB Configure Flag Register"
bitfld.long 0x00 0. "CF,Configure Flag (CF)\nHost software sets this bit as the last action in its process of configuring the Host Controller" "0: Port routing control logic default-routes..,1: Port routing control logic default-routes all.."
group.long 0x64++0x03
line.long 0x00 "UPSCR0,USB Port 0 Status and Control Register"
bitfld.long 0x00 16.--19. "PTC,Port Test Control (R/W)\nWhen this field is zero the port is NOT operating in a test mode" "0: Test mode not enabled,1: Test J_STATE,2: Test K_STATE,3: Test SE0_NAK,4: Test Packet,5: Test FORCE_ENABLE,?..."
bitfld.long 0x00 13. "PO,Port Owner (R/W)\nThis bit unconditionally goes to a 0b when the Configured bit in the CONFIGFLAG register makes a 0 to 1 transition" "0,1"
newline
bitfld.long 0x00 12. "PP,Port Power (PP)\nWhen an over-current condition is detected on a powered port and PPC is a one the PP bit in each affected port may be transitioned by the host controller from a 1 to 0 (removing power from the port)" "0,1"
rbitfld.long 0x00 10.--11. "LSTS,Line Status (Read Only)\nThese bits reflect the current logical levels of the D+ (bit 11) and D- (bit 10) signal lines" "0: SE0 Not Low-speed device perform EHCI reset,1: K-state Low-speed device release ownership of..,2: J-state Not Low-speed device perform EHCI reset,3: Undefined Not Low-speed device perform EHCI.."
newline
bitfld.long 0x00 8. "PRST,Port Reset (R/W)\nWhen software writes a one to this bit (from a zero) the bus reset sequence as defined in the USB Specification Revision 2.0 is started" "0: Port is not in Reset,1: Port is in Reset"
bitfld.long 0x00 7. "SUSPEND,Suspend (R/W)\nPort Enabled Bit and Suspend bit of this register define the port states as follows" "0: Port Disable.\nPort not in suspend state,1: Port Disable.\nPort in suspend state"
newline
bitfld.long 0x00 6. "FPR,Force Port Resume (R/W)\nThis functionality defined for manipulating this bit depends on the value of the Suspend bit" "0: No resume (K-state) detected/driven on port,1: Resume detected/driven on port"
bitfld.long 0x00 5. "OCC,Over-current Change (R/WC)" "?,1: This bit gets set to a one when there is a.."
newline
rbitfld.long 0x00 4. "OCA,Over-current Active (Read Only)\nThis bit will automatically transition from a one to a zero when the over current condition is removed" "0: This port does not have an over-current..,1: This port currently has an over-current.."
bitfld.long 0x00 3. "PEC,Port Enable/Disable Change (R/WC)\nFor the root hub this bit gets set to a one only when a port is disabled due to the appropriate conditions existing at the EOF2 point (See Chapter 11 of the USB Specification for the definition of a Port Error)" "0: No change,1: Port enabled/disabled status has changed"
newline
bitfld.long 0x00 2. "PE,Port Enabled/Disabled (R/W)\nPorts can only be enabled by the host controller as a part of the reset and enable" "0: Port Disabled,1: Port Enabled"
bitfld.long 0x00 1. "CSC,Connect Status Change (R/W)\nIndicates a change has occurred in the port's Current Connect Status" "0: No change,1: Change in Current Connect Status"
newline
bitfld.long 0x00 0. "CCS,Current Connect Status (Ready Only)\nThis value reflects the current state of the port and may not correspond directly to the event that caused the Connect Status Change bit (Bit 1) to be set.\nThis field is zero if Port Power is zero" "0: No device is present,1: Device is present on port"
group.long 0x68++0x03
line.long 0x00 "UPSCR1,USB Port 1 Status and Control Register"
bitfld.long 0x00 16.--19. "PTC,Port Test Control (R/W)\nWhen this field is zero the port is NOT operating in a test mode" "0: Test mode not enabled,1: Test J_STATE,2: Test K_STATE,3: Test SE0_NAK,4: Test Packet,5: Test FORCE_ENABLE,?..."
bitfld.long 0x00 13. "PO,Port Owner (R/W)\nThis bit unconditionally goes to a 0b when the Configured bit in the CONFIGFLAG register makes a 0 to 1 transition" "0,1"
newline
bitfld.long 0x00 12. "PP,Port Power (PP)\nWhen an over-current condition is detected on a powered port and PPC is a one the PP bit in each affected port may be transitioned by the host controller from a 1 to 0 (removing power from the port)" "0,1"
rbitfld.long 0x00 10.--11. "LSTS,Line Status (Read Only)\nThese bits reflect the current logical levels of the D+ (bit 11) and D- (bit 10) signal lines" "0: SE0 Not Low-speed device perform EHCI reset,1: K-state Low-speed device release ownership of..,2: J-state Not Low-speed device perform EHCI reset,3: Undefined Not Low-speed device perform EHCI.."
newline
bitfld.long 0x00 8. "PRST,Port Reset (R/W)\nWhen software writes a one to this bit (from a zero) the bus reset sequence as defined in the USB Specification Revision 2.0 is started" "0: Port is not in Reset,1: Port is in Reset"
bitfld.long 0x00 7. "SUSPEND,Suspend (R/W)\nPort Enabled Bit and Suspend bit of this register define the port states as follows" "0: Port Disable.\nPort not in suspend state,1: Port Disable.\nPort in suspend state"
newline
bitfld.long 0x00 6. "FPR,Force Port Resume (R/W)\nThis functionality defined for manipulating this bit depends on the value of the Suspend bit" "0: No resume (K-state) detected/driven on port,1: Resume detected/driven on port"
bitfld.long 0x00 5. "OCC,Over-current Change (R/WC)" "?,1: This bit gets set to a one when there is a.."
newline
rbitfld.long 0x00 4. "OCA,Over-current Active (Read Only)\nThis bit will automatically transition from a one to a zero when the over current condition is removed" "0: This port does not have an over-current..,1: This port currently has an over-current.."
bitfld.long 0x00 3. "PEC,Port Enable/Disable Change (R/WC)\nFor the root hub this bit gets set to a one only when a port is disabled due to the appropriate conditions existing at the EOF2 point (See Chapter 11 of the USB Specification for the definition of a Port Error)" "0: No change,1: Port enabled/disabled status has changed"
newline
bitfld.long 0x00 2. "PE,Port Enabled/Disabled (R/W)\nPorts can only be enabled by the host controller as a part of the reset and enable" "0: Port Disabled,1: Port Enabled"
bitfld.long 0x00 1. "CSC,Connect Status Change (R/W)\nIndicates a change has occurred in the port's Current Connect Status" "0: No change,1: Change in Current Connect Status"
newline
bitfld.long 0x00 0. "CCS,Current Connect Status (Ready Only)\nThis value reflects the current state of the port and may not correspond directly to the event that caused the Connect Status Change bit (Bit 1) to be set.\nThis field is zero if Port Power is zero" "0: No device is present,1: Device is present on port"
group.long 0xC4++0x03
line.long 0x00 "USBPCR0,USB PHY 0 Control Register"
bitfld.long 0x00 13. "FDISCEN,Force Disconnection Function Enable Bit\nThis bit is used to enable Force Disconnection Function (FDISC)" "0: Force Disconnection Function Disabled,1: Force Disconnection Function Enabled"
bitfld.long 0x00 12. "FDISC,Force Disconnection Function\nThis bit is used to force the device to disconnect without really removing the device from the port" "0: The device is not forced to be disconnected,1: The device is forced to disconnected"
newline
bitfld.long 0x00 11. "CLKVALID,UTMI Clock Valid\nThis bit is a flag to indicate if the UTMI clock from USB 2.0 PHY is ready" "0: UTMI clock is not valid,1: UTMI clock is valid"
bitfld.long 0x00 8. "SUSPEND,Suspend Assertion\nThis bit controls the suspend mode of USB PHY 0.\nWhile PHY was suspended all circuits of PHY were powered down and outputs are tri-state.\nThis bit is 1'b0 in default" "0: USB PHY 0 was suspended,1: USB PHY 0 was not suspended"
group.long 0xC8++0x03
line.long 0x00 "USBPCR1,USB PHY 1 Control Register"
bitfld.long 0x00 13. "FDISCEN,Force Disconnection Function Enable\nThis bit is used to enable Force Disconnection Function (FDISC)" "0: Force Disconnection Function Disable,1: Force Disconnection Function Enable"
bitfld.long 0x00 12. "FDISC,Force Disconnection Function\nThis bit is used to force the device to disconnect without really removing the device from the port" "0: The device is not forced to disconnect,1: The device is forced to disconnect"
newline
bitfld.long 0x00 8. "SUSPEND,Suspend Assertion\nThis bit controls the suspend mode of USB PHY 1.\nWhile PHY was suspended all circuits of PHY were powered down and outputs are tri-state.\nThis bit is 1'b0 in default" "0: USB PHY 1 was suspended,1: USB PHY 1 was not suspended"
tree.end
tree "USBH"
base ad:0x40009000
rgroup.long 0x00++0x03
line.long 0x00 "HcRevision,Host Controller Revision Register"
hexmask.long.byte 0x00 0.--7. 1. "REV,Revision Number\nIndicates the Open HCI Specification revision number implemented by the Hardware"
group.long 0x04++0x03
line.long 0x00 "HcControl,Host Controller Control Register"
bitfld.long 0x00 6.--7. "HCFS,Host Controller Functional State\nThis field sets the Host Controller state" "0: USBRESET,1: USBRESUME,2: USBOPERATIONAL,3: USBSUSPEND"
bitfld.long 0x00 5. "BLE,Bulk List Enable Bit" "0: Processing of the Bulk list after next SOF..,1: Processing of the Bulk list in the next frame.."
newline
bitfld.long 0x00 4. "CLE,Control List Enable Bit" "0: Processing of the Control list after next SOF..,1: Processing of the Control list in the next.."
bitfld.long 0x00 3. "IE,Isochronous List Enable Bit\nBoth ISOEn and PLE (HcControl[2]) high enables Host Controller to process the Isochronous list" "0: Processing of the Isochronous list after next..,1: Processing of the Isochronous list in the.."
newline
bitfld.long 0x00 2. "PLE,Periodic List Enable Bit\nWhen set this bit enables processing of the Periodic (interrupt and isochronous) list" "0: Processing of the Periodic (Interrupt and..,1: Processing of the Periodic (Interrupt and.."
bitfld.long 0x00 0.--1. "CBSR,Control Bulk Service Ratio\nThis specifies the service ratio between Control and Bulk EDs" "0: Number of Control EDs over Bulk EDs served is..,1: Number of Control EDs over Bulk EDs served is..,2: Number of Control EDs over Bulk EDs served is..,3: Number of Control EDs over Bulk EDs served is.."
group.long 0x08++0x03
line.long 0x00 "HcCommandStatus,Host Controller Command Status Register"
bitfld.long 0x00 16.--17. "SOC,Schedule Overrun Count\nThese bits are incremented on each scheduling overrun error" "0,1,2,3"
bitfld.long 0x00 2. "BLF,Bulk List Filled\nSet high to indicate there is an active TD on the Bulk list" "0: No active TD found or Host Controller begins..,1: An active TD added or found on the Bulk list"
newline
bitfld.long 0x00 1. "CLF,Control List Filled\nSet high to indicate there is an active TD on the Control List" "0: No active TD found or Host Controller begins..,1: An active TD added or found on the Control list"
bitfld.long 0x00 0. "HCR,Host Controller Reset\nThis bit is set to initiate the software reset of Host Controller" "0: Host Controller is not in software reset state,1: Host Controller is in software reset state"
group.long 0x0C++0x03
line.long 0x00 "HcInterruptStatus,Host Controller Interrupt Status Register"
bitfld.long 0x00 6. "RHSC,Root Hub Status Change\nThis bit is set when the content of HcRhStatus or the content of HcRhPortStatus1 register has changed" "0: The content of HcRhStatus and the content of..,1: The content of HcRhStatus or the content of.."
bitfld.long 0x00 5. "FNO,Frame Number Overflow\nThis bit is set when bit 15 of Frame Number changes from 1 to 0 or from 0 to 1" "0: The bit 15 of Frame Number didn't change,1: The bit 15 of Frame Number changes from 1 to.."
newline
bitfld.long 0x00 3. "RD,Resume Detected\nSet when Host Controller detects resume signaling on a downstream port" "0: No resume signaling detected on a downstream..,1: Resume signaling detected on a downstream port"
bitfld.long 0x00 2. "SF,Start of Frame\nSet when the Frame Management functional block signals a 'Start of Frame' event" "0: Not the start of a frame,1: Indicate the start of a frame and Host.."
newline
bitfld.long 0x00 1. "WDH,Write Back Done Head\nSet after the Host Controller has written HcDoneHead to HccaDoneHead" "0: Host Controller didn't update HccaDoneHead,1: Host Controller has written HcDoneHead to.."
bitfld.long 0x00 0. "SO,Scheduling Overrun\nSet when the List Processor determines a Schedule Overrun has occurred" "0: Schedule Overrun didn't occur,1: Schedule Overrun has occurred"
group.long 0x10++0x03
line.long 0x00 "HcInterruptEnable,Host Controller Interrupt Enable Register"
bitfld.long 0x00 31. "MIE,Master Interrupt Enable Bit\nThis bit is a global interrupt enable" "0: No effect.\nInterrupt generation due to RHSC..,1: Interrupt generation due to RHSC.."
bitfld.long 0x00 6. "RHSC,Root Hub Status Change Enable Bit\nWrite Operation" "0: No effect.\nInterrupt generation due to RHSC..,1: Interrupt generation due to RHSC.."
newline
bitfld.long 0x00 5. "FNO,Frame Number Overflow Enable Bit\nWrite Operation" "0: No effect.\nInterrupt generation due to FNO..,1: Interrupt generation due to FNO.."
bitfld.long 0x00 3. "RD,Resume Detected Enable Bit\nWrite Operation" "0: No effect.\nInterrupt generation due to RD..,1: Interrupt generation due to RD.."
newline
bitfld.long 0x00 2. "SF,Start of Frame Enable Bit\nWrite Operation" "0: No effect.\nInterrupt generation due to SF..,1: Interrupt generation due to SF.."
bitfld.long 0x00 1. "WDH,Write Back Done Head Enable Bit\nWrite Operation" "0: No effect.\nInterrupt generation due to WDH..,1: Interrupt generation due to WDH.."
newline
bitfld.long 0x00 0. "SO,Scheduling Overrun Enable Bit\nWrite Operation" "0: No effect.\nInterrupt generation due to SO..,1: Interrupt generation due to SO.."
group.long 0x14++0x03
line.long 0x00 "HcInterruptDisable,Host Controller Interrupt Disable Register"
bitfld.long 0x00 31. "MIE,Master Interrupt Disable Bit\nGlobal interrupt disable" "0: No effect.\nInterrupt generation due to RHSC..,1: Interrupt generation due to RHSC.."
bitfld.long 0x00 6. "RHSC,Root Hub Status Change Disable Bit\nWrite Operation" "0: No effect.\nInterrupt generation due to RHSC..,1: Interrupt generation due to RHSC.."
newline
bitfld.long 0x00 5. "FNO,Frame Number Overflow Disable Bit\nWrite Operation" "0: No effect.\nInterrupt generation due to FNO..,1: Interrupt generation due to FNO.."
bitfld.long 0x00 3. "RD,Resume Detected Disable Bit\nWrite Operation" "0: No effect.\nInterrupt generation due to RD..,1: Interrupt generation due to RD.."
newline
bitfld.long 0x00 2. "SF,Start of Frame Disable Bit\nWrite Operation" "0: No effect.\nInterrupt generation due to SF..,1: Interrupt generation due to SF.."
bitfld.long 0x00 1. "WDH,Write Back Done Head Disable Bit\nWrite Operation" "0: No effect.\nInterrupt generation due to WDH..,1: Interrupt generation due to WDH.."
newline
bitfld.long 0x00 0. "SO,Scheduling Overrun Disable Bit\nWrite Operation" "0: No effect.\nInterrupt generation due to SO..,1: Interrupt generation due to SO.."
group.long 0x18++0x03
line.long 0x00 "HcHCCA,Host Controller Communication Area Register"
hexmask.long.tbyte 0x00 8.--31. 1. "HCCA,Host Controller Communication Area\nPointer to indicate base address of the Host Controller Communication Area (HCCA)"
group.long 0x1C++0x03
line.long 0x00 "HcPeriodCurrentED,Host Controller Period Current ED Register"
hexmask.long 0x00 4.--31. 1. "PCED,Periodic Current ED\nPointer to indicate physical address of the current Isochronous or Interrupt Endpoint Descriptor"
group.long 0x20++0x03
line.long 0x00 "HcControlHeadED,Host Controller Control Head ED Register"
hexmask.long 0x00 4.--31. 1. "CHED,Control Head ED\nPointer to indicate physical address of the first Endpoint Descriptor of the Control list"
group.long 0x24++0x03
line.long 0x00 "HcControlCurrentED,Host Controller Control Current ED Register"
hexmask.long 0x00 4.--31. 1. "CCED,Control Current Head ED\nPointer to indicate the physical address of the current Endpoint Descriptor of the Control list"
group.long 0x28++0x03
line.long 0x00 "HcBulkHeadED,Host Controller Bulk Head ED Register"
hexmask.long 0x00 4.--31. 1. "BHED,Bulk Head ED\nPointer to indicate the physical address of the first Endpoint Descriptor of the Bulk list"
group.long 0x2C++0x03
line.long 0x00 "HcBulkCurrentED,Host Controller Bulk Current ED Register"
hexmask.long 0x00 4.--31. 1. "BCED,Bulk Current Head ED\nPointer to indicate the physical address of the current endpoint of the Bulk list"
group.long 0x30++0x03
line.long 0x00 "HcDoneHead,Host Controller Done Head Register"
hexmask.long 0x00 4.--31. 1. "DH,Done Head\nPointer to indicate the physical address of the last completed Transfer Descriptor that was added to the Done queue"
group.long 0x34++0x03
line.long 0x00 "HcFmInterval,Host Controller Frame Interval Register"
bitfld.long 0x00 31. "FIT,Frame Interval Toggle\nThis bit is toggled by Host Controller Driver when it loads a new value into FI (HcFmInterval[13:0])" "0: Host Controller Driver didn't load new value..,1: Host Controller Driver loads a new value into.."
hexmask.long.word 0x00 16.--30. 1. "FSMPS,FS Largest Data Packet\nThis field specifies a value that is loaded into the Largest Data Packet Counter at the beginning of each frame"
newline
hexmask.long.word 0x00 0.--13. 1. "FI,Frame Interval\nThis field specifies the length of a frame as (bit times - 1)"
rgroup.long 0x38++0x03
line.long 0x00 "HcFmRemaining,Host Controller Frame Remaining Register"
bitfld.long 0x00 31. "FRT,Frame Remaining Toggle\nThis bit is loaded from the FIT (HcFmInterval[31]) whenever FR (HcFmRemaining[13:0]) reaches 0" "0,1"
hexmask.long.word 0x00 0.--13. 1. "FR,Frame Remaining\nWhen the Host Controller is in the USBOPERATIONAL state this 14-bit field decrements each 12 MHz clock period"
rgroup.long 0x3C++0x03
line.long 0x00 "HcFmNumber,Host Controller Frame Number Register"
hexmask.long.word 0x00 0.--15. 1. "FN,Frame Number\nThis 16-bit incrementing counter field is incremented coincident with the re-load of FR (HcFmRemaining[13:0])"
group.long 0x40++0x03
line.long 0x00 "HcPeriodicStart,Host Controller Periodic Start Register"
hexmask.long.word 0x00 0.--13. 1. "PS,Periodic Start\nThis field contains a value used by the List Processor to determine where in a frame the Periodic List processing must begin"
group.long 0x44++0x03
line.long 0x00 "HcLSThreshold,Host Controller Low-speed Threshold Register"
hexmask.long.word 0x00 0.--11. 1. "LST,Low-speed Threshold"
group.long 0x48++0x03
line.long 0x00 "HcRhDescriptorA,Host Controller Root Hub Descriptor A Register"
bitfld.long 0x00 12. "NOCP,No over Current Protection\nThis bit describes how the over current status for the Root Hub ports reported" "0: Over current status is reported,1: Over current status is not reported"
bitfld.long 0x00 11. "OCPM,over Current Protection Mode\nThis bit describes how the over current status for the Root Hub ports reported" "0: Global Over current,1: Individual Over current"
newline
bitfld.long 0x00 8. "PSM,Power Switching Mode\nThis bit is used to specify how the power switching of the Root Hub ports is controlled" "0: Global Switching,1: Individual Switching"
hexmask.long.byte 0x00 0.--7. 1. "NDP,Number Downstream Ports\nUSB host control supports two downstream ports and only one port is available in this series of chip"
group.long 0x4C++0x03
line.long 0x00 "HcRhDescriptorB,Host Controller Root Hub Descriptor B Register"
hexmask.long.word 0x00 16.--31. 1. "PPCM,Port Power Control Mask\nGlobal power switching"
group.long 0x50++0x03
line.long 0x00 "HcRhStatus,Host Controller Root Hub Status Register"
bitfld.long 0x00 31. "CRWE,Clear Remote Wake-up Enable Bit\nThis bit is use to clear DRWE (HcRhStatus[15]).\nThis bit always read as zero.\nWrite Operation" "0: No effect,1: Clear DRWE (HcRhStatus[15])"
bitfld.long 0x00 17. "OCIC,over Current Indicator Change\nThis bit is set by hardware when a change has occurred in OCI (HcRhStatus[1]).\nWrite 1 to clear this bit to zero" "0: OCI (HcRhStatus[1]) didn't change,1: OCI (HcRhStatus[1]) change"
newline
bitfld.long 0x00 16. "LPSC,Set Global Power" "0: No effect,1: Set global power"
bitfld.long 0x00 15. "DRWE,Device Remote Wakeup Enable Bit\nThis bit controls if port's Connect Status Change as a remote wake-up event.\nWrite Operation" "0: No effect.\nConnect Status Change as a remote..,1: Connect Status Change as a remote wake-up.."
newline
bitfld.long 0x00 1. "OCI,over Current Indicator\nThis bit reflects the state of the over current status pin" "0: No over current condition,1: Over current condition"
bitfld.long 0x00 0. "LPS,Clear Global Power" "0: No effect,1: Clear global power"
group.long 0x58++0x03
line.long 0x00 "HcRhPortStatus1,Host Controller Root Hub Port Status [1]"
bitfld.long 0x00 20. "PRSC,Port Reset Status Change\nThis bit indicates that the port reset signal has completed.\nWrite 1 to clear this bit to zero" "0: Port reset is not complete,1: Port reset is complete"
bitfld.long 0x00 19. "OCIC,Port over Current Indicator Change\nThis bit is set when POCI (HcRhPortStatus1[3]) changes.\nWrite 1 to clear this bit to zero" "0: POCI (HcRhPortStatus1[3]) didn't change,1: POCI (HcRhPortStatus1[3]) changes"
newline
bitfld.long 0x00 18. "PSSC,Port Suspend Status Change\nThis bit indicates the completion of the selective resume sequence for the port.\nWrite 1 to clear this bit to zero" "0: Port resume is not completed,1: Port resume completed"
bitfld.long 0x00 17. "PESC,Port Enable Status Change\nThis bit indicates that the port has been disabled (PES (HcRhPortStatus1[1]) cleared) due to a hardware event.\nWrite 1 to clear this bit to zero" "0: PES (HcRhPortStatus1[1]) didn't change,1: PES (HcRhPortStatus1[1]) changed"
newline
bitfld.long 0x00 16. "CSC,Connect Status Change\nThis bit indicates connect or disconnect event has been detected (CCS (HcRhPortStatus1[0]) changed).\nWrite 1 to clear this bit to zero" "0: No connect/disconnect event (CCS..,1: Hardware detection of connect/disconnect.."
bitfld.long 0x00 9. "LSDA,Low Speed Device Attached (Read) or Clear Port Power (Write)\nThis bit defines the speed (and bud idle) of the attached device" "0: No effect.\nFull Speed device,1: Clear PPS (HcRhPortStatus1[8]).\nLow-speed.."
newline
bitfld.long 0x00 8. "PPS,Port Power Status\nThis bit reflects the power state of the port regardless of the power switching mode.\nWrite Operation" "0: No effect.\nPort power is Disabled,1: Port Power Enabled.\nPort power is Enabled"
bitfld.long 0x00 4. "PRS,Port Reset Status\nThis bit reflects the reset state of the port.\nWrite Operation" "0: No effect.\nPort reset signal is not active,1: Set port reset.\nPort reset signal is active"
newline
bitfld.long 0x00 3. "POCI,Port over Current Indicator (Read) or Clear Port Suspend (Write)\nThis bit reflects the state of the over current status pin dedicated to this port" "0: No effect.\nNo over current condition,1: Clear port suspend.\nOver current condition"
bitfld.long 0x00 2. "PSS,Port Suspend Status\nThis bit indicates the port is suspended\nWrite Operation" "0: No effect.\nPort is not suspended,1: Set port suspend.\nPort is selectively.."
newline
bitfld.long 0x00 1. "PES,Port Enable Status\nWrite Operation" "0: No effect.\nPort Disabled,1: Set port enable.\nPort Enabled"
bitfld.long 0x00 0. "CCS,CurrentConnectStatus (Read) or ClearPortEnable Bit (Write)\nWrite Operation" "0: No effect.\nNo device connected,1: Clear port enable.\nDevice connected"
group.long 0x200++0x03
line.long 0x00 "HcPhyControl,Host Controller PHY Control Register"
bitfld.long 0x00 27. "STBYEN,USB Transceiver Standby Enable Bit\nThis bit controls if USB transceiver could enter the standby mode to reduce power consumption" "0: The USB transceiver would never enter the..,1: The USB transceiver will enter standby mode.."
group.long 0x204++0x03
line.long 0x00 "HcMiscControl,Host Controller Miscellaneous Control Register"
bitfld.long 0x00 16. "DPRT1,Disable Port 1\nThis bit controls if the connection between USB host controller and transceiver of port 1 is disabled" "0: The connection between USB host controller..,1: The connection between USB host controller.."
bitfld.long 0x00 4. "PPCAL,Port Power Control Active Low\nThis bit controls the polarity of port power control to external power IC" "0: Port power control is high active,1: Port power control is low active"
newline
bitfld.long 0x00 3. "OCAL,Over Current Active Low\nThis bit controls the polarity of over current flag from external power IC" "0: Over current flag is high active,1: Over current flag is low active"
bitfld.long 0x00 1. "ABORT,AHB Bus ERROR Response\nThis bit indicates there is an ERROR response received in AHB bus" "0: No ERROR response received,1: ERROR response received"
tree.end
tree.end
tree "USCII2C"
repeat 2. (list 0. 1.) (list ad:0x400D0000 ad:0x400D1000)
tree "UI2C$1"
base $2
group.long 0x00++0x03
line.long 0x00 "UI2C_CTL,USCI Control Register"
bitfld.long 0x00 0.--2. "FUNMODE,Function Mode\nThis bit field selects the protocol for this USCI controller" "0: The USCI is disabled,1: The SPI protocol is selected,2: The UART protocol is selected,?,4: The I2C protocol is selected,?..."
group.long 0x08++0x03
line.long 0x00 "UI2C_BRGEN,USCI Baud Rate Generator Register"
hexmask.long.word 0x00 16.--25. 1. "CLKDIV,Clock Divider"
bitfld.long 0x00 10.--14. "DSCNT,Denominator for Sample Counter\nThis bit field defines the divide ratio of the sample clock fSAMP_CLK.\nNote: The maximum value of DSCNT is 0xF on UART mode and suggest to set over 4 to confirm the receiver data is sampled in right value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
bitfld.long 0x00 8.--9. "PDSCNT,Pre-divider for Sample Counter" "0,1,2,3"
bitfld.long 0x00 5. "TMCNTSRC,Time Measurement Counter Clock Source Selection" "0: Time measurement counter with fPROT_CLK,1: Time measurement counter with fDIV_CLK"
newline
bitfld.long 0x00 4. "TMCNTEN,Time Measurement Counter Enable Bit\nThis bit enables the 10-bit timing measurement counter" "0: Time measurement counter is Disabled,1: Time measurement counter is Enabled"
bitfld.long 0x00 2.--3. "SPCLKSEL,Sample Clock Source Selection\nThis bit field used for the clock source selection of a sample clock (fSAMP_CLK) for the protocol processor" "0: fSAMP_CLK = fDIV_CLK,1: fSAMP_CLK = fPROT_CLK,2: fSAMP_CLK = fSCLK,3: fSAMP_CLK = fREF_CLK"
newline
bitfld.long 0x00 1. "PTCLKSEL,Protocol Clock Source Selection\nThis bit selects the source signal of protocol clock (fPROT_CLK)" "0: Reference clock fREF_CLK,1: fREF_CLK2 (its frequency is half of fREF_CLK)"
bitfld.long 0x00 0. "RCLKSEL,Reference Clock Source Selection\nThis bit selects the source signal of reference clock (fREF_CLK)" "0: Peripheral device clock fPCLK,1: Reserved"
group.long 0x2C++0x03
line.long 0x00 "UI2C_LINECTL,USCI Line Control Register"
bitfld.long 0x00 8.--11. "DWIDTH,Word Length of Transmission\nThis bit field defines the data word length (amount of bits) for reception and transmission" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 0. "LSB,LSB First Transmission Selection" "0: The MSB which bit of transmit/receive data..,1: The LSB the bit 0 of data buffer will be.."
wgroup.long 0x30++0x03
line.long 0x00 "UI2C_TXDAT,USCI Transmit Data Register"
hexmask.long.word 0x00 0.--15. 1. "TXDAT,Transmit Data\nSoftware can use this bit field to write 16-bit transmit data for transmission"
rgroup.long 0x34++0x03
line.long 0x00 "UI2C_RXDAT,USCI Receive Data Register"
hexmask.long.word 0x00 0.--15. 1. "RXDAT,Received Data\nThis bit field monitors the received data which stored in receive data buffer.\nNote: In I2C protocol RXDAT[12:8] indicate the different transmission conditions which defined in I2C"
repeat 2. (strings "0" "1" )(list 0x0 0x4 )
group.long ($2+0x44)++0x03
line.long 0x00 "UI2C_DEVADDR$1,USCI Device Address Register $1"
abitfld.long 0x00 0.--9. "DEVADDR,Device Address\nIn I2C protocol this bit field contains the programmed slave address" "0x001=1: The DEVADDR [9:7] must be set 3'b000..,0x002=2: When software set 10'h000 the address.."
repeat.end
repeat 2. (strings "0" "1" )(list 0x0 0x4 )
group.long ($2+0x4C)++0x03
line.long 0x00 "UI2C_ADDRMSK$1,USCI Device Address Mask Register $1"
hexmask.long.word 0x00 0.--9. 1. "ADDRMSK,USCI Device Address Mask\nUSCI support multiple address recognition with two address mask register"
repeat.end
group.long 0x54++0x03
line.long 0x00 "UI2C_WKCTL,USCI Wake-up Control Register"
bitfld.long 0x00 1. "WKADDREN,Wake-up Address Match Enable Bit" "0: The chip is woken up according to START signal,1: The chip is woken up according to address match"
bitfld.long 0x00 0. "WKEN,Wake-up Enable Bit" "0: Wake-up function Disabled,1: Wake-up function Enabled"
group.long 0x58++0x03
line.long 0x00 "UI2C_WKSTS,USCI Wake-up Status Register"
bitfld.long 0x00 0. "WKF,Wake-up Flag\nWhen chip is woken up from Power-down mode this bit is set to 1" "0,1"
group.long 0x5C++0x03
line.long 0x00 "UI2C_PROTCTL,USCI Protocol Control Register"
bitfld.long 0x00 31. "PROTEN,I2C Protocol Enable Bit" "0: I2C Protocol Disabled,1: I2C Protocol Enabled"
hexmask.long.word 0x00 16.--25. 1. "TOCNT,Time-out Clock Cycle\nThis bit field indicates how many clock cycle selected by TMCNTSRC (UI2C_BRGEN [5]) when each interrupt flags are clear"
newline
bitfld.long 0x00 9. "MONEN,Monitor Mode Enable Bit\nThis bit enables monitor mode" "0: The monitor mode Disabled,1: The monitor mode Enabled"
bitfld.long 0x00 8. "SCLOUTEN,SCL Output Enable Bit\nThis bit enables monitor pulling SCL to low" "0: SCL output will be forced high due to open..,1: I2C module may act as a slave peripheral just.."
newline
bitfld.long 0x00 5. "PTRG,I2C Protocol Trigger (Write Only)\nWhen a new state is present in the UI2C_PROTSTS register if the related interrupt enable bits are set the I2C interrupt is requested" "0: I2C's stretch disabled and the I2C protocol..,1: I2C's stretch is active"
bitfld.long 0x00 4. "ADDR10EN,Address 10-bit Function Enable Bit" "0: Address match 10 bit function Disabled,1: Address match 10 bit function Enabled"
newline
bitfld.long 0x00 3. "STA,I2C START Control\nSetting STA to logic 1 to enter Master mode the I2C hardware sends a START or repeat START condition to bus when the bus is free" "0,1"
bitfld.long 0x00 2. "STO,I2C STOP Control" "0,1"
newline
bitfld.long 0x00 1. "AA,Assert Acknowledge Control" "0,1"
bitfld.long 0x00 0. "GCFUNC,General Call Function\nNote: When ADDR10EN (UI2C_PROTCTL [4]) is set don't set this bit" "0: General Call Function Disabled,1: General Call Function Enabled"
group.long 0x60++0x03
line.long 0x00 "UI2C_PROTIEN,USCI Protocol Interrupt Enable Register"
bitfld.long 0x00 6. "ACKIEN,Acknowledge Interrupt Enable Bit\nThis bit enables the generation of a protocol interrupt if an acknowledge is detected by a master" "0: The acknowledge interrupt Disabled,1: The acknowledge interrupt Enabled"
bitfld.long 0x00 5. "ERRIEN,Error Interrupt Enable Bit\nThis bit enables the generation of a protocol interrupt if an I2C error condition is detected (indicated by ERR (UI2C_PROTSTS [16]))" "0: The error interrupt Disabled,1: The error interrupt Enabled"
newline
bitfld.long 0x00 4. "ARBLOIEN,Arbitration Lost Interrupt Enable Bit\nThis bit enables the generation of a protocol interrupt if an arbitration lost event is detected" "0: The arbitration lost interrupt Disabled,1: The arbitration lost interrupt Enabled"
bitfld.long 0x00 3. "NACKIEN,Non - Acknowledge Interrupt Enable Bit\nThis bit enables the generation of a protocol interrupt if a Non - acknowledge is detected by a master" "0: The non - acknowledge interrupt Disabled,1: The non - acknowledge interrupt Enabled"
newline
bitfld.long 0x00 2. "STORIEN,STOP Condition Received Interrupt Enable Bit\nThis bit enables the generation of a protocol interrupt if a STOP condition is detected" "0: The stop condition interrupt Disabled,1: The stop condition interrupt Enabled"
bitfld.long 0x00 1. "STARIEN,START Condition Received Interrupt Enable Bit\nThis bit enables the generation of a protocol interrupt if a START condition is detected" "0: The start condition interrupt Disabled,1: The start condition interrupt Enabled"
newline
bitfld.long 0x00 0. "TOIEN,Time-out Interrupt Enable Bit\nIn I2C protocol this bit enables the interrupt generation in case of a time-out event" "0: The time-out interrupt Disabled,1: The time-out interrupt Enabled"
group.long 0x64++0x03
line.long 0x00 "UI2C_PROTSTS,USCI Protocol Status Register"
bitfld.long 0x00 19. "ERRARBLO,Error Arbitration Lost\nThis bit indicates bus arbitration lost due to bigger noise which is can't be filtered by input processor" "0: The bus is normal status for transmission,1: The bus is error arbitration lost status for.."
bitfld.long 0x00 18. "BUSHANG,Bus Hang-up\nThis bit indicates bus hang-up status" "0: The bus is normal status for transmission,1: The bus is hang-up status for transmission"
newline
bitfld.long 0x00 17. "WRSTSWK,Read/Write Status Bit in Address Wake-up Frame" "0: Write command be record on the address match..,1: Read command be record on the address match.."
bitfld.long 0x00 16. "WKAKDONE,Wake-up Address Frame Acknowledge Bit Done\nNote: This bit can't release when WKUPIF is set" "0: The ACK bit cycle of address match frame..,1: The ACK bit cycle of address match frame is.."
newline
bitfld.long 0x00 15. "SLAREAD,Slave Read Request Status\nThis bit indicates that a slave read request has been detected.\nNote: This bit has no interrupt signal and it will be cleared automatically by hardware" "0: A slave R/W bit is 1 has not been detected,1: A slave R/W bit is 1 has been detected"
bitfld.long 0x00 14. "SLASEL,Slave Select Status\nThis bit indicates that this device has been selected as slave.\nNote: This bit has no interrupt signal and it will be cleared automatically by hardware" "0: The device is not selected as slave,1: The device is selected as slave"
newline
bitfld.long 0x00 13. "ACKIF,Acknowledge Received Interrupt Flag\nNote: This bit is cleared by software writing 1 into this bit" "0: An acknowledge has not been received,1: An acknowledge has been received"
bitfld.long 0x00 12. "ERRIF,Error Interrupt Flag\n" "0: An I2C error has not been detected,1: An I2C error has been detected"
newline
bitfld.long 0x00 11. "ARBLOIF,Arbitration Lost Interrupt Flag\nNote: This bit is cleared by software writing 1 into this bit" "0: An arbitration has not been lost,1: An arbitration has been lost"
bitfld.long 0x00 10. "NACKIF,Non - Acknowledge Received Interrupt Flag\nNote: This bit is cleared by software writing 1 into this bit" "0: A non - acknowledge has not been received,1: A non - acknowledge has been received"
newline
bitfld.long 0x00 9. "STORIF,Stop Condition Received Interrupt Flag\nNote: This bit is cleared by software writing 1 into this bit" "0: A stop condition has not yet been detected,1: A stop condition has been detected"
bitfld.long 0x00 8. "STARIF,Start Condition Received Interrupt Flag\nThis bit indicates that a start condition or repeated start condition has been detected on master mode" "0: A start condition has not yet been detected,1: A start condition has been detected"
newline
bitfld.long 0x00 6. "ONBUSY,On Bus Busy\nIndicates that a communication is in progress on the bus" "0: The bus is IDLE (both SCLK and SDA High),1: The bus is busy"
bitfld.long 0x00 5. "TOIF,Time-out Interrupt Flag\nNote: This bit is cleared by software writing 1 into this bit" "0: A time-out interrupt status has not occurred,1: A time-out interrupt status has occurred"
group.long 0x8C++0x03
line.long 0x00 "UI2C_TMCTL,I2C Timing Configure Control Register"
hexmask.long.word 0x00 16.--24. 1. "HTCTL,Hold Time Configure Control \nThis field is used to generate the delay timing between SCL falling edge SDA edge in\ntransmission mode"
hexmask.long.word 0x00 0.--8. 1. "STCTL,Setup Time Configure Control \nThis field is used to generate a delay timing between SDA edge and SCL rising edge in transmission mode"
tree.end
repeat.end
tree.end
tree "USCISPI"
repeat 2. (list 0. 1.) (list ad:0x400D0000 ad:0x400D1000)
tree "USPI$1"
base $2
group.long 0x00++0x03
line.long 0x00 "USPI_CTL,USCI Control Register"
bitfld.long 0x00 0.--2. "FUNMODE,Function Mode\nThis bit field selects the protocol for this USCI controller" "0: The USCI is disabled,1: The SPI protocol is selected,2: The UART protocol is selected,?,4: The I2C protocol is selected,?..."
group.long 0x04++0x03
line.long 0x00 "USPI_INTEN,USCI Interrupt Enable Register"
bitfld.long 0x00 4. "RXENDIEN,Receive End Interrupt Enable Bit\nThis bit enables the interrupt generation in case of a receive finish event" "0: The receive end interrupt Disabled,1: The receive end interrupt Enabled"
bitfld.long 0x00 3. "RXSTIEN,Receive Start Interrupt Enable Bit\nThis bit enables the interrupt generation in case of a receive start event" "0: The receive start interrupt Disabled,1: The receive start interrupt Enabled"
newline
bitfld.long 0x00 2. "TXENDIEN,Transmit End Interrupt Enable Bit\nThis bit enables the interrupt generation in case of a transmit finish event" "0: The transmit finish interrupt Disabled,1: The transmit finish interrupt Enabled"
bitfld.long 0x00 1. "TXSTIEN,Transmit Start Interrupt Enable Bit\nThis bit enables the interrupt generation in case of a transmit start event" "0: The transmit start interrupt Disabled,1: The transmit start interrupt Enabled"
group.long 0x08++0x03
line.long 0x00 "USPI_BRGEN,USCI Baud Rate Generator Register"
hexmask.long.word 0x00 16.--25. 1. "CLKDIV,Clock Divider"
bitfld.long 0x00 5. "TMCNTSRC,Time Measurement Counter Clock Source Selection" "0: Time measurement counter with fPROT_CLK,1: Time measurement counter with fDIV_CLK"
newline
bitfld.long 0x00 4. "TMCNTEN,Time Measurement Counter Enable Bit\nThis bit enables the 10-bit timing measurement counter" "0: Time measurement counter Disabled,1: Time measurement counter Enabled"
bitfld.long 0x00 2.--3. "SPCLKSEL,Sample Clock Source Selection\nThis bit field used for the clock source selection of sample clock (fSAMP_CLK) for the protocol processor" "0: fDIV_CLK,1: fPROT_CLK,2: fSCLK,3: fREF_CLK"
newline
bitfld.long 0x00 1. "PTCLKSEL,Protocol Clock Source Selection\nThis bit selects the source of protocol clock (fPROT_CLK)" "0: Reference clock fREF_CLK,1: fREF_CLK2 (its frequency is half of fREF_CLK)"
bitfld.long 0x00 0. "RCLKSEL,Reference Clock Source Selection\nThis bit selects the source of reference clock (fREF_CLK)" "0: Peripheral device clock fPCLK,1: Reserved"
group.long 0x10++0x03
line.long 0x00 "USPI_DATIN0,USCI Input Data Signal Configuration Register 0"
bitfld.long 0x00 2. "ININV,Input Signal Inverse Selection\nThis bit defines the inverter enable of the input asynchronous signal.\nNote: In SPI protocol it is suggested this bit should be set as 0" "0: The un-synchronized input signal will not be..,1: The un-synchronized input signal will be.."
bitfld.long 0x00 0. "SYNCSEL,Input Signal Synchronization Selection\nThis bit selects if the un-synchronized input signal (with optionally inverted) or the synchronized (and optionally filtered) signal can be used as input for the data shift unit.\nNote: In SPI protocol it.." "0: The un-synchronized signal can be taken as..,1: The synchronized signal can be taken as input.."
group.long 0x20++0x03
line.long 0x00 "USPI_CTLIN0,USCI Input Control Signal Configuration Register 0"
bitfld.long 0x00 2. "ININV,Input Signal Inverse Selection\nThis bit defines the inverter enable of the input asynchronous signal" "0: The un-synchronized input signal will not be..,1: The un-synchronized input signal will be.."
bitfld.long 0x00 0. "SYNCSEL,Input Synchronization Signal Selection\nThis bit selects if the un-synchronized input signal (with optionally inverted) or the synchronized (and optionally filtered) signal can be used as input for the data shift unit.\nNote: In SPI protocol it.." "0: The un-synchronized signal can be taken as..,1: The synchronized signal can be taken as input.."
group.long 0x28++0x03
line.long 0x00 "USPI_CLKIN,USCI Input Clock Signal Configuration Register"
bitfld.long 0x00 0. "SYNCSEL,Input Synchronization Signal Selection\nThis bit selects if the un-synchronized input signal or the synchronized (and optionally filtered) signal can be used as input for the data shift unit.\nNote: In SPI protocol it is suggested this bit.." "0: The un-synchronized signal can be taken as..,1: The synchronized signal can be taken as input.."
group.long 0x2C++0x03
line.long 0x00 "USPI_LINECTL,USCI Line Control Register"
bitfld.long 0x00 8.--11. "DWIDTH,Word Length of Transmission\nThis bit field defines the data word length (amount of bits) for reception and transmission" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 7. "CTLOINV,Control Signal Output Inverse Selection\nThis bit defines the relation between the internal control signal and the output control signal.\nNote: The control signal has different definitions in different protocol" "0: No effect,1: The control signal will be inverted before.."
newline
bitfld.long 0x00 5. "DATOINV,Data Output Inverse Selection\nThis bit defines the relation between the internal shift data value and the output data signal of USCIx_DAT0/1 pin" "0: Data output level is not inverted,1: Data output level is inverted"
bitfld.long 0x00 0. "LSB,LSB First Transmission Selection" "0: The MSB which bit of transmit/receive data..,1: The LSB the bit 0 of data buffer will be.."
wgroup.long 0x30++0x03
line.long 0x00 "USPI_TXDAT,USCI Transmit Data Register"
bitfld.long 0x00 16. "PORTDIR,Port Direction Control" "0: The data pin is configured as output mode,1: The data pin is configured as input mode"
hexmask.long.word 0x00 0.--15. 1. "TXDAT,Transmit Data\nSoftware can use this bit field to write 16-bit transmit data for transmission"
rgroup.long 0x34++0x03
line.long 0x00 "USPI_RXDAT,USCI Receive Data Register"
hexmask.long.word 0x00 0.--15. 1. "RXDAT,Received Data\nThis bit field monitors the received data which stored in receive data buffer"
group.long 0x38++0x03
line.long 0x00 "USPI_BUFCTL,USCI Transmit/Receive Buffer Control Register"
bitfld.long 0x00 17. "RXRST,Receive Reset\nNote: It is cleared automatically after one PCLK cycle" "0: No effect,1: Reset the receive-related counters state.."
bitfld.long 0x00 16. "TXRST,Transmit Reset" "0: No effect,1: Reset the transmit-related counters state.."
newline
bitfld.long 0x00 15. "RXCLR,Clear Receive Buffer\nNote: It is cleared automatically after one PCLK cycle" "0: No effect,1: The receive buffer is cleared"
bitfld.long 0x00 14. "RXOVIEN,Receive Buffer Overrun Interrupt Enable Bit" "0: Receive overrun interrupt Disabled,1: Receive overrun interrupt Enabled"
newline
bitfld.long 0x00 7. "TXCLR,Clear Transmit Buffer \nNote: It is cleared automatically after one PCLK cycle" "0: No effect,1: The transmit buffer is cleared"
bitfld.long 0x00 6. "TXUDRIEN,Slave Transmit Under Run Interrupt Enable Bit" "0: Transmit under-run interrupt Disabled,1: Transmit under-run interrupt Enabled"
rgroup.long 0x3C++0x03
line.long 0x00 "USPI_BUFSTS,USCI Transmit/Receive Buffer Status Register"
bitfld.long 0x00 11. "TXUDRIF,Transmit Buffer Under-run Interrupt Status\nThis bit indicates that a transmit buffer under-run event has been detected" "0: A transmit buffer under-run event has not..,1: A transmit buffer under-run event has been.."
bitfld.long 0x00 9. "TXFULL,Transmit Buffer Full Indicator" "0: Transmit buffer is not full,1: Transmit buffer is full"
newline
bitfld.long 0x00 8. "TXEMPTY,Transmit Buffer Empty Indicator" "0: Transmit buffer is not empty,1: Transmit buffer is empty and available for.."
bitfld.long 0x00 3. "RXOVIF,Receive Buffer Over-run Interrupt Status\nThis bit indicates that a receive buffer overrun event has been detected" "0: A receive buffer overrun event has not been..,1: A receive buffer overrun event has been.."
newline
bitfld.long 0x00 1. "RXFULL,Receive Buffer Full Indicator" "0: Receive buffer is not full,1: Receive buffer is full"
bitfld.long 0x00 0. "RXEMPTY,Receive Buffer Empty Indicator" "0: Receive buffer is not empty,1: Receive buffer is empty"
group.long 0x40++0x03
line.long 0x00 "USPI_PDMACTL,USCI PDMA Control Register"
bitfld.long 0x00 3. "PDMAEN,PDMA Mode Enable Bit" "0: PDMA function Disabled,1: PDMA function Enabled"
bitfld.long 0x00 2. "RXPDMAEN,PDMA Receive Channel Available" "0: Receive PDMA function Disabled,1: Receive PDMA function Enabled"
newline
bitfld.long 0x00 1. "TXPDMAEN,PDMA Transmit Channel Available" "0: Transmit PDMA function Disabled,1: Transmit PDMA function Enabled"
bitfld.long 0x00 0. "PDMARST,PDMA Reset" "0: No effect,1: Reset the USCI's PDMA control logic"
group.long 0x54++0x03
line.long 0x00 "USPI_WKCTL,USCI Wake-up Control Register"
bitfld.long 0x00 2. "PDBOPT,Power Down Blocking Option" "0: If user attempts to enter Power-down mode by..,1: If user attempts to enter Power-down mode by.."
bitfld.long 0x00 0. "WKEN,Wake-up Enable Bit" "0: Wake-up function Disabled,1: Wake-up function Enabled"
group.long 0x58++0x03
line.long 0x00 "USPI_WKSTS,USCI Wake-up Status Register"
bitfld.long 0x00 0. "WKF,Wake-up Flag\nWhen chip is woken up from Power-down mode this bit is set to 1" "0,1"
group.long 0x5C++0x03
line.long 0x00 "USPI_PROTCTL,USCI Protocol Control Register"
bitfld.long 0x00 31. "PROTEN,SPI Protocol Enable Bit" "0: SPI Protocol Disabled,1: SPI Protocol Enabled"
bitfld.long 0x00 28. "TXUDRPOL,Transmit Under-run Data Polarity (for Slave)\nThis bit defines the transmitting data level when no data is available for transferring" "0: The output data level is 0 if TX under run..,1: The output data level is 1 if TX under run.."
newline
hexmask.long.word 0x00 16.--25. 1. "SLVTOCNT,Slave Mode Time-out Period (Slave Only)\nIn Slave mode this bit field is used for Slave time-out period"
bitfld.long 0x00 12.--14. "TSMSEL,Transmit Data Mode Selection\nThis bit field describes how receive and transmit data is shifted in and out.\nOther values are reserved.\nNote: Changing the value of this bit field will produce the TXRST and RXRST to clear the TX/RX data buffer.." "0,1,2,3,4,5,6,7"
newline
bitfld.long 0x00 8.--11. "SUSPITV,Suspend Interval (Master Only)\nThis bit field provides the configurable suspend interval between two successive transmit/receive transaction in a transfer" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 6.--7. "SCLKMODE,Serial Bus Clock Mode\nThis bit field defines the SCLK idle status data transmit and data receive edge" "0,1,2,3"
newline
bitfld.long 0x00 3. "AUTOSS,Automatic Slave Select Function Enable (Master Only)" "0: Slave select signal will be controlled by the..,1: Slave select signal will be generated.."
bitfld.long 0x00 2. "SS,Slave Select Control (Master Only)\nIf AUTOSS bit is cleared setting this bit to 1 will set the slave select signal to active state and setting this bit to 0 will set the slave select back to inactive state.\nNote: In SPI protocol the internal slave.." "0,1"
newline
bitfld.long 0x00 1. "SLV3WIRE,Slave 3-wire Mode Selection (Slave Only)\nThe SPI protocol can work with 3-wire interface (without slave select signal) in Slave mode" "0: 4-wire bi-direction interface,1: 3-wire bi-direction interface"
bitfld.long 0x00 0. "SLAVE,Slave Mode Selection" "0: Master mode,1: Slave mode"
group.long 0x60++0x03
line.long 0x00 "USPI_PROTIEN,USCI Protocol Interrupt Enable Register"
bitfld.long 0x00 3. "SLVBEIEN,Slave Mode Bit Count Error Interrupt Enable Bit\nIf data transfer is terminated by slave time-out or slave select inactive event in Slave mode so that the transmit/receive data bit count does not match the setting of DWIDTH (USPI_LINECTL[11:8])" "0: The Slave mode bit count error interrupt..,1: The Slave mode bit count error interrupt.."
bitfld.long 0x00 2. "SLVTOIEN,Slave Time-out Interrupt Enable Bit\nIn SPI protocol this bit enables the interrupt generation in case of a Slave time-out event" "0: The Slave time-out interrupt Disabled,1: The Slave time-out interrupt Enabled"
newline
bitfld.long 0x00 1. "SSACTIEN,Slave Select Active Interrupt Enable Bit\nThis bit enables/disables the generation of a slave select interrupt if the slave select changes to active" "0: Slave select active interrupt generation..,1: Slave select active interrupt generation.."
bitfld.long 0x00 0. "SSINAIEN,Slave Select Inactive Interrupt Enable Bit\nThis bit enables/disables the generation of a slave select interrupt if the slave select changes to inactive" "0: Slave select inactive interrupt generation..,1: Slave select inactive interrupt generation.."
group.long 0x64++0x03
line.long 0x00 "USPI_PROTSTS,USCI Protocol Status Register"
rbitfld.long 0x00 18. "SLVUDR,Slave Mode Transmit Under-run Status (Read Only)\nIn Slave mode if there is no available transmit data in buffer while transmit data shift out caused by input serial bus clock this status flag will be set to 1" "0: Slave transmit under run event does not occur,1: Slave transmit under run event occurs"
rbitfld.long 0x00 17. "BUSY,Busy Status (Read Only)" "0: SPI is in idle state,1: SPI is in busy state"
newline
rbitfld.long 0x00 16. "SSLINE,Slave Select Line Bus Status (Read Only)\nThis bit is only available in Slave mode" "0: The slave select line status is 0,1: The slave select line status is 1"
bitfld.long 0x00 9. "SSACTIF,Slave Select Active Interrupt Flag (for Slave Only)\nThis bit indicates that the internal slave select signal has changed to active" "0: The slave select signal has not changed to..,1: The slave select signal has changed to active"
newline
bitfld.long 0x00 8. "SSINAIF,Slave Select Inactive Interrupt Flag (for Slave Only)\nThis bit indicates that the internal slave select signal has changed to inactive" "0: The slave select signal has not changed to..,1: The slave select signal has changed to inactive"
bitfld.long 0x00 6. "SLVBEIF,Slave Bit Count Error Interrupt Flag (for Slave Only)\nNote: It is cleared by software write 1 to this bit" "0: Slave bit count error event did not occur,1: Slave bit count error event occurred"
newline
bitfld.long 0x00 5. "SLVTOIF,Slave Time-out Interrupt Flag (for Slave Only)\nNote: It is cleared by software write 1 to this bit" "0: Slave time-out event did not occur,1: Slave time-out event occurred"
bitfld.long 0x00 4. "RXENDIF,Receive End Interrupt Flag\nNote: It is cleared by software write 1 to this bit" "0: Receive end event did not occur,1: Receive end event occurred"
newline
bitfld.long 0x00 3. "RXSTIF,Receive Start Interrupt Flag\nNote: It is cleared by software write 1 to this bit" "0: Receive start event did not occur,1: Receive start event occurred"
bitfld.long 0x00 2. "TXENDIF,Transmit End Interrupt Flag\nNote: It is cleared by software write 1 to this bit" "0: Transmit end event did not occur,1: Transmit end event occurred"
newline
bitfld.long 0x00 1. "TXSTIF,Transmit Start Interrupt Flag\nNote: It is cleared by software write 1 to this bit" "0: Transmit start event did not occur,1: Transmit start event occurred"
tree.end
repeat.end
tree.end
tree "USCIUART"
repeat 2. (list 0. 1.) (list ad:0x400D0000 ad:0x400D1000)
tree "UUART$1"
base $2
group.long 0x00++0x03
line.long 0x00 "UUART_CTL,USCI Control Register"
bitfld.long 0x00 0.--2. "FUNMODE,Function Mode\nThis bit field selects the protocol for this USCI controller" "0: The USCI is disabled,1: The SPI protocol is selected,2: The UART protocol is selected,?,4: The I2C protocol is selected,?..."
group.long 0x04++0x03
line.long 0x00 "UUART_INTEN,USCI Interrupt Enable Register"
bitfld.long 0x00 4. "RXENDIEN,Receive End Interrupt Enable Bit\nThis bit enables the interrupt generation in case of a receive finish event" "0: The receive end interrupt Disabled,1: The receive end interrupt Enabled"
bitfld.long 0x00 3. "RXSTIEN,Receive Start Interrupt Enable BIt\nThis bit enables the interrupt generation in case of a receive start event" "0: The receive start interrupt Disabled,1: The receive start interrupt Enabled"
newline
bitfld.long 0x00 2. "TXENDIEN,Transmit End Interrupt Enable Bit\nThis bit enables the interrupt generation in case of a transmit finish event" "0: The transmit finish interrupt Disabled,1: The transmit finish interrupt Enabled"
bitfld.long 0x00 1. "TXSTIEN,Transmit Start Interrupt Enable Bit\nThis bit enables the interrupt generation in case of a transmit start event" "0: The transmit start interrupt Disabled,1: The transmit start interrupt Enabled"
group.long 0x08++0x03
line.long 0x00 "UUART_BRGEN,USCI Baud Rate Generator Register"
hexmask.long.word 0x00 16.--25. 1. "CLKDIV,Clock Divider\nNote: In UART function it can be updated by hardware in the 4th falling edge of the input data 0x55 when the auto baud rate function (ABREN(UUART_PROTCTL[6])) is enabled"
bitfld.long 0x00 10.--14. "DSCNT,Denominator for Sample Counter\nThis bit field defines the divide ratio of the sample clock fSAMP_CLK.\nNote: The maximum value of DSCNT is 0xF on UART mode and suggest to set over 4 to confirm the receiver data is sampled in right value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31"
newline
bitfld.long 0x00 8.--9. "PDSCNT,Pre-divider for Sample Counter" "0,1,2,3"
bitfld.long 0x00 5. "TMCNTSRC,Timing Measurement Counter Clock Source Selection" "0: Timing measurement counter with fPROT_CLK,1: Timing measurement counter with fDIV_CLK"
newline
bitfld.long 0x00 4. "TMCNTEN,Timing Measurement Counter Enable Bit\nThis bit enables the 10-bit timing measurement counter" "0: Timing measurement counter is Disabled,1: Timing measurement counter is Enabled"
bitfld.long 0x00 2.--3. "SPCLKSEL,Sample Clock Source Selection\nThis bit field used for the clock source selection of a sample clock (fSAMP_CLK) for the protocol processor" "0: fSAMP_CLK = fDIV_CLK,1: fSAMP_CLK = fPROT_CLK,2: fSAMP_CLK = fSCLK,3: fSAMP_CLK = fREF_CLK"
newline
bitfld.long 0x00 1. "PTCLKSEL,Protocol Clock Source Selection\nThis bit selects the source signal of protocol clock (fPROT_CLK)" "0: Reference clock fREF_CLK,1: fREF_CLK2 (its frequency is half of fREF_CLK)"
bitfld.long 0x00 0. "RCLKSEL,Reference Clock Source Selection\nThis bit selects the source signal of reference clock (fREF_CLK)" "0: Peripheral device clock fPCLK,1: Reserved"
group.long 0x10++0x03
line.long 0x00 "UUART_DATIN0,USCI Input Data Signal Configuration Register 0"
bitfld.long 0x00 3.--4. "EDGEDET,Input Signal Edge Detection Mode\nThis bit field selects which edge actives the trigger event of input data signal.\nNote: In UART function mode it is suggested to set this bit field as 10" "0: The trigger event activation is disabled,1: A rising edge activates the trigger event of..,2: A falling edge activates the trigger event of..,3: Both edges activate the trigger event of.."
bitfld.long 0x00 2. "ININV,Input Signal Inverse Selection\nThis bit defines the inverter enable of the input asynchronous signal" "0: The un-synchronized input signal will not be..,1: The un-synchronized input signal will be.."
newline
bitfld.long 0x00 0. "SYNCSEL,Input Signal Synchronization Selection\nThis bit selects if the un-synchronized input signal (with optionally inverted) or the synchronized (and optionally filtered) signal can be used as input for the data shift unit" "0: The un-synchronized signal can be taken as..,1: The synchronized signal can be taken as input.."
group.long 0x20++0x03
line.long 0x00 "UUART_CTLIN0,USCI Input Control Signal Configuration Register 0"
bitfld.long 0x00 2. "ININV,Input Signal Inverse Selection\nThis bit defines the inverter enable of the input asynchronous signal" "0: The un-synchronized input signal will not be..,1: The un-synchronized input signal will be.."
bitfld.long 0x00 0. "SYNCSEL,Input Synchronization Signal Selection\nThis bit selects if the un-synchronized input signal (with optionally inverted) or the synchronized (and optionally filtered) signal can be used as input for the data shift unit" "0: The un-synchronized signal can be taken as..,1: The synchronized signal can be taken as input.."
group.long 0x28++0x03
line.long 0x00 "UUART_CLKIN,USCI Input Clock Signal Configuration Register"
bitfld.long 0x00 0. "SYNCSEL,Input Synchronization Signal Selection\nThis bit selects if the un-synchronized input signal or the synchronized (and optionally filtered) signal can be used as input for the data shift unit" "0: The un-synchronized signal can be taken as..,1: The synchronized signal can be taken as input.."
group.long 0x2C++0x03
line.long 0x00 "UUART_LINECTL,USCI Line Control Register"
bitfld.long 0x00 8.--11. "DWIDTH,Word Length of Transmission\nThis bit field defines the data word length (amount of bits) for reception and transmission" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 7. "CTLOINV,Control Signal Output Inverse Selection\nThis bit defines the relation between the internal control signal and the output control signal.\nNote: In UART protocol the control signal means nRTS signal" "0: No effect,1: The control signal will be inverted before.."
newline
bitfld.long 0x00 5. "DATOINV,Data Output Inverse Selection\nThis bit defines the relation between the internal shift data value and the output data signal of USCIx_DAT1 pin" "0: The value of USCIx_DAT1 is equal to the data..,1: The value of USCIx_DAT1 is the inversion of.."
bitfld.long 0x00 0. "LSB,LSB First Transmission Selection" "0: The MSB which bit of transmit/receive data..,1: The LSB the bit 0 of data buffer will be.."
wgroup.long 0x30++0x03
line.long 0x00 "UUART_TXDAT,USCI Transmit Data Register"
hexmask.long.word 0x00 0.--15. 1. "TXDAT,Transmit Data\nSoftware can use this bit field to write 16-bit transmit data for transmission"
rgroup.long 0x34++0x03
line.long 0x00 "UUART_RXDAT,USCI Receive Data Register"
hexmask.long.word 0x00 0.--15. 1. "RXDAT,Received Data\nThis bit field monitors the received data which stored in receive data buffer.\nNote: RXDAT[15:13] indicate the same frame status of BREAK FRMERR and PARITYERR (UUART_PROTSTS[7:5])"
group.long 0x38++0x03
line.long 0x00 "UUART_BUFCTL,USCI Transmit/Receive Buffer Control Register"
bitfld.long 0x00 17. "RXRST,Receive Reset\n" "0: No effect,1: Reset the receive-related counters state.."
bitfld.long 0x00 16. "TXRST,Transmit Reset\nNote: It is cleared automatically after one PCLK cycle" "0: No effect,1: Reset the transmit-related counters state.."
newline
bitfld.long 0x00 15. "RXCLR,Clear Receive Buffer\nNote: It is cleared automatically after one PCLK cycle" "0: No effect,1: The receive buffer is cleared (filling level.."
bitfld.long 0x00 14. "RXOVIEN,Receive Buffer Overrun Error Interrupt Enable Bit" "0: Receive overrun interrupt Disabled,1: Receive overrun interrupt Enabled"
newline
bitfld.long 0x00 7. "TXCLR,Clear Transmit Buffer \nNote: It is cleared automatically after one PCLK cycle" "0: No effect,1: The transmit buffer is cleared (filling level.."
rgroup.long 0x3C++0x03
line.long 0x00 "UUART_BUFSTS,USCI Transmit/Receive Buffer Status Register"
bitfld.long 0x00 9. "TXFULL,Transmit Buffer Full Indicator" "0: Transmit buffer is not full,1: Transmit buffer is full"
bitfld.long 0x00 8. "TXEMPTY,Transmit Buffer Empty Indicator" "0: Transmit buffer is not empty,1: Transmit buffer is empty"
newline
bitfld.long 0x00 3. "RXOVIF,Receive Buffer Over-run Error Interrupt Status\nThis bit indicates that a receive buffer overrun error event has been detected" "0: A receive buffer overrun error event has not..,1: A receive buffer overrun error event has been.."
bitfld.long 0x00 1. "RXFULL,Receive Buffer Full Indicator" "0: Receive buffer is not full,1: Receive buffer is full"
newline
bitfld.long 0x00 0. "RXEMPTY,Receive Buffer Empty Indicator" "0: Receive buffer is not empty,1: Receive buffer is empty"
group.long 0x40++0x03
line.long 0x00 "UUART_PDMACTL,USCI PDMA Control Register"
bitfld.long 0x00 3. "PDMAEN,PDMA Mode Enable Bit" "0: PDMA function Disabled,1: PDMA function Enabled"
bitfld.long 0x00 2. "RXPDMAEN,PDMA Receive Channel Available" "0: Receive PDMA function Disabled,1: Receive PDMA function Enabled"
newline
bitfld.long 0x00 1. "TXPDMAEN,PDMA Transmit Channel Available" "0: Transmit PDMA function Disabled,1: Transmit PDMA function Enabled"
bitfld.long 0x00 0. "PDMARST,PDMA Reset" "0: No effect,1: Reset the USCI's PDMA control logic"
group.long 0x54++0x03
line.long 0x00 "UUART_WKCTL,USCI Wake-up Control Register"
bitfld.long 0x00 2. "PDBOPT,Power Down Blocking Option" "0: If user attempts to enter Power-down mode by..,1: If user attempts to enter Power-down mode by.."
bitfld.long 0x00 0. "WKEN,Wake-up Enable Bit" "0: Wake-up function Disabled,1: Wake-up function Enabled"
group.long 0x58++0x03
line.long 0x00 "UUART_WKSTS,USCI Wake-up Status Register"
bitfld.long 0x00 0. "WKF,Wake-up Flag\nWhen chip is woken up from Power-down mode this bit is set to 1" "0,1"
group.long 0x5C++0x03
line.long 0x00 "UUART_PROTCTL,USCI Protocol Control Register"
bitfld.long 0x00 31. "PROTEN,UART Protocol Enable Bit" "0: UART Protocol Disabled,1: UART Protocol Enabled"
bitfld.long 0x00 29. "BCEN,Transmit Break Control Enable Bit\nNote: When this bit is set to logic 1 the serial data output (TX) is forced to the Spacing State (logic 0)" "0: Transmit Break Control Disabled,1: Transmit Break Control Enabled"
newline
bitfld.long 0x00 26. "STICKEN,Stick Parity Enable Bit\nNote: Refer to RS-485 Support section for detailed information" "0: Stick parity Disabled,1: Stick parity Enabled"
hexmask.long.word 0x00 16.--24. 1. "BRDETITV,Baud Rate Detection Interval \nThis bit fields indicate how many clock cycle selected by TMCNTSRC (UUART_BRGEN [5]) does the slave calculates the baud rate in one bits"
newline
bitfld.long 0x00 11.--14. "WAKECNT,Wake-up Counter\nThese bits field indicate how many clock cycle selected by fPDS_CNT do the slave can get the 1st bit (START bit) when the device is wake-up from Power-down mode" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15"
bitfld.long 0x00 10. "CTSWKEN,nCTS Wake-up Mode Enable Bit" "0: nCTS wake-up mode Disabled,1: nCTS wake-up mode Enabled"
newline
bitfld.long 0x00 9. "DATWKEN,Data Wake-up Mode Enable Bit" "0: Data wake-up mode Disabled,1: Data wake-up mode Enabled"
bitfld.long 0x00 6. "ABREN,Auto-baud Rate Detect Enable Bit\nNote: When the auto - baud rate detect operation finishes hardware will clear this bit" "0: Auto-baud rate detect function Disabled,1: Auto-baud rate detect function Enabled"
newline
bitfld.long 0x00 5. "RTSAUDIREN,nRTS Auto Direction Enable Bit\nWhen nRTS auto direction is enabled if the transmitted bytes in the TX buffer is empty the UART asserted nRTS signal automatically.\n" "0: nRTS auto direction control Disabled,1: nRTS auto direction control Enabled"
bitfld.long 0x00 4. "CTSAUTOEN,nCTS Auto-flow Control Enable Bit\nWhen nCTS auto-flow is enabled the UART will send data to external device when nCTS input assert (UART will not send data to device if nCTS input is dis-asserted)" "0: nCTS auto-flow control Disabled,1: nCTS auto-flow control Enabled"
newline
bitfld.long 0x00 3. "RTSAUTOEN,nRTS Auto-flow Control Enable Bit\nNote: This bit has effect only when the RTSAUDIREN is not set" "0: nRTS auto-flow control Disabled,1: nRTS auto-flow control Enabled"
bitfld.long 0x00 2. "EVENPARITY,Even Parity Enable Bit\nNote: This bit has effect only when PARITYEN is set" "0: Odd number of logic 1's is transmitted and..,1: Even number of logic 1's is transmitted and.."
newline
bitfld.long 0x00 1. "PARITYEN,Parity Enable Bit\nThis bit defines the PARITY bit is enabled in an UART frame" "0: The PARITY bit Disabled,1: The PARITY bit Enabled"
bitfld.long 0x00 0. "STOPB,STOP Bits\nThis bit defines the number of STOP bits in an UART frame" "0: The number of STOP bits is 1,1: The number of STOP bits is 2"
group.long 0x60++0x03
line.long 0x00 "UUART_PROTIEN,USCI Protocol Interrupt Enable Register"
bitfld.long 0x00 2. "RLSIEN,Receive Line Status Interrupt Enable Bit\nNote: UUART_PROTSTS[7:5] indicates the current interrupt event for receive line status interrupt" "0: Receive line status interrupt Disabled,1: Receive line status interrupt Enabled"
bitfld.long 0x00 1. "ABRIEN,Auto-baud Rate Interrupt Enable Bit" "0: Auto-baud rate interrupt Disabled,1: Auto-baud rate interrupt Enabled"
group.long 0x64++0x03
line.long 0x00 "UUART_PROTSTS,USCI Protocol Status Register"
rbitfld.long 0x00 17. "CTSLV,nCTS Pin Status (Read Only)\nThis bit used to monitor the current status of nCTS pin input" "0: nCTS pin input is low level voltage logic state,1: nCTS pin input is high level voltage logic.."
rbitfld.long 0x00 16. "CTSSYNCLV,nCTS Synchronized Level Status (Read Only)\nThis bit used to indicate the current status of the internal synchronized nCTS signal" "0: The internal synchronized nCTS is low,1: The internal synchronized nCTS is high"
newline
bitfld.long 0x00 11. "ABERRSTS,Auto-baud Rate Error Status \nThis bit is set when auto-baud rate detection counter overrun" "0: Auto-baud rate detect counter is not overrun,1: Auto-baud rate detect counter is overrun"
rbitfld.long 0x00 10. "RXBUSY,RX Bus Status Flag (Read Only) \nThis bit indicates the busy status of the receiver" "0: The receiver is Idle,1: The receiver is BUSY"
newline
bitfld.long 0x00 9. "ABRDETIF,Auto-baud Rate Interrupt Flag \nThis bit is set when auto-baud rate detection is done among the falling edge of the input data" "0: Auto-baud rate detect function is not done,1: One Bit auto-baud rate detect function is done"
bitfld.long 0x00 7. "BREAK,Break Flag\nThis bit is set to logic 1 whenever the received data input (RX) is held in the 'spacing state' (logic 0) for longer than a full word transmission time (that is the total time of 'START bit' + data bits + parity + STOP bits).\nNote:.." "0: No Break is generated,1: Break is generated in the receiver bus"
newline
bitfld.long 0x00 6. "FRMERR,Framing Error Flag\nThis bit is set to logic 1 whenever the received character does not have a valid 'STOP bit' (that is the STOP bit following the last data bit or PARITY bit is detected as logic 0).\nNote: This bit can be cleared by writing '1'.." "0: No framing error is generated,1: Framing error is generated"
bitfld.long 0x00 5. "PARITYERR,Parity Error Flag\nThis bit is set to logic 1 whenever the received character does not have a valid 'PARITY bit'.\nNote: This bit can be cleared by writing '1' among the BREAK FRMERR and PARITYERR bits" "0: No parity error is generated,1: Parity error is generated"
newline
bitfld.long 0x00 4. "RXENDIF,Receive End Interrupt Flag\nNote: It is cleared by software writing 1 into this bit" "0: A receive finish interrupt status has not..,1: A receive finish interrupt status has occurred"
bitfld.long 0x00 3. "RXSTIF,Receive Start Interrupt Flag\nNote: It is cleared by software writing 1 into this bit" "0: A receive start interrupt status has not..,1: A receive start interrupt status has occurred"
newline
bitfld.long 0x00 2. "TXENDIF,Transmit End Interrupt Flag\nNote: It is cleared by software writing 1 into this bit" "0: A transmit end interrupt status has not..,1: A transmit end interrupt status has occurred"
bitfld.long 0x00 1. "TXSTIF,Transmit Start Interrupt Flag\n" "0: A transmit start interrupt status has not..,1: A transmit start interrupt status has occurred"
tree.end
repeat.end
tree.end
tree "WDT"
base ad:0x40040000
group.long 0x00++0x03
line.long 0x00 "WDT_CTL,WDT Control Register"
bitfld.long 0x00 31. "ICEDEBUG,ICE Debug Mode Acknowledge Disable Bit (Write Protect)\nWDT up counter will keep going no matter CPU is held by ICE or not.\nNote: This bit is write protected" "0: ICE debug mode acknowledgement affects WDT..,1: ICE debug mode acknowledgement Disabled"
rbitfld.long 0x00 30. "SYNC,WDT Enable Control SYNC Flag Indicator (Read Only)\nIf user executes enable/disable WDTEN (WDT_CTL[7]) this flag can be indicated enable/disable WDTEN function is completed or not.\nNote: Performing enable or disable WDTEN bit needs 2 * WDT_CLK.." "0: Set WDTEN bit is completed,1: Set WDTEN bit is synchronizing and not become.."
newline
bitfld.long 0x00 8.--10. "TOUTSEL,WDT Time-out Interval Selection (Write Protect)\nThese three bits select the time-out interval period for the WDT.\nNote: This bit is write protected" "0: 24 * WDT_CLK,1: 26 * WDT_CLK,2: 28 * WDT_CLK,3: 210 * WDT_CLK,4: 212 * WDT_CLK,5: 214 * WDT_CLK,6: 216 * WDT_CLK,7: 218 * WDT_CLK"
bitfld.long 0x00 7. "WDTEN,WDT Enable Bit (Write Protect)\n" "0: WDT Disabled (This action will reset the..,1: WDT Enabled"
newline
bitfld.long 0x00 6. "INTEN,WDT Time-out Interrupt Enable Bit (Write Protect)\nIf this bit is enabled the WDT time-out interrupt signal is generated and inform to CPU" "0: WDT time-out interrupt Disabled,1: WDT time-out interrupt Enabled"
bitfld.long 0x00 5. "WKF,WDT Time-out Wake-up Flag (Write Protect)\nThis bit indicates the interrupt wake-up flag status of WDT\n" "0: WDT does not cause chip wake-up,1: Chip wake-up from Idle or Power-down mode if.."
newline
bitfld.long 0x00 4. "WKEN,WDT Time-out Wake-up Function Control (Write Protect)\nIf this bit is set to 1 while WDT time-out interrupt flag IF (WDT_CTL[3]) is generated to 1 and interrupt enable bit INTEN (WDT_CTL[6]) is enabled the WDT time-out interrupt signal will.." "0: Wake-up trigger event Disabled if WDT..,1: Wake-up trigger event Enabled if WDT time-out.."
bitfld.long 0x00 3. "IF,WDT Time-out Interrupt Flag\nThis bit will set to 1 while WDT up counter value reaches the selected WDT time-out interval\nNote: This bit is cleared by writing 1 to it" "0: WDT time-out interrupt did not occur,1: WDT time-out interrupt occurred"
newline
bitfld.long 0x00 2. "RSTF,WDT Time-out Reset Flag\nThis bit indicates the system has been reset by WDT time-out reset or not.\nNote: This bit is cleared by writing 1 to it" "0: WDT time-out reset did not occur,1: WDT time-out reset occurred"
bitfld.long 0x00 1. "RSTEN,WDT Time-out Reset Enable Bit (Write Protect)\nSetting this bit will enable the WDT time-out reset function If the WDT up counter value has not been cleared after the specific WDT reset delay period expires.\nNote: This bit is write protected" "0: WDT time-out reset function Disabled,1: WDT time-out reset function Enabled"
newline
bitfld.long 0x00 0. "RSTCNT,Reset WDT Up Counter (Write Protect)\n" "0: No effect,1: Reset the internal 18-bit WDT up counter value"
group.long 0x04++0x03
line.long 0x00 "WDT_ALTCTL,WDT Alternative Control Register"
bitfld.long 0x00 0.--1. "RSTDSEL,WDT Reset Delay Selection (Write Protect)\nWhen WDT time-out happened user has a time named WDT Reset Delay Period to clear WDT counter by setting RSTCNT (WDT_CTL[0]) to prevent WDT time-out reset happened" "0: WDT Reset Delay Period is 1026 * WDT_CLK,1: WDT Reset Delay Period is 130 * WDT_CLK,2: WDT Reset Delay Period is 18 * WDT_CLK,3: WDT Reset Delay Period is 3 * WDT_CLK"
wgroup.long 0x08++0x03
line.long 0x00 "WDT_RSTCNT,WDT Reset Counter Register"
abitfld.long 0x00 0.--31. "RSTCNT,WDT Reset Counter Register\nWriting 0x00005AA5 to this field will reset the internal 18-bit WDT up counter value to 0.\n" "0x00000001=1: Performing RSTCNT to reset counter..,0x00000002=2: RSTCNT (WDT_CTL[0]) bit is a write.."
tree.end
tree "WWDT"
base ad:0x40040100
wgroup.long 0x00++0x03
line.long 0x00 "WWDT_RLDCNT,WWDT Reload Counter Register"
hexmask.long 0x00 0.--31. 1. "RLDCNT,WWDT Reload Counter Register\nWriting 0x00005AA5 to this register will reload the WWDT counter value to 0x3F.\nNote: User can only write WWDT_RLDCNT register to reload WWDT counter value when current WWDT counter value between 0 and CMPDAT.."
group.long 0x04++0x03
line.long 0x00 "WWDT_CTL,WWDT Control Register"
bitfld.long 0x00 31. "ICEDEBUG,ICE Debug Mode Acknowledge Disable Bit\nNote: WWDT down counter will keep going no matter CPU is held by ICE or not" "0: ICE debug mode acknowledgement effects WWDT..,1: ICE debug mode acknowledgement Disabled"
bitfld.long 0x00 16.--21. "CMPDAT,WWDT Window Compare\nSet this register to adjust the valid reload window" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
newline
bitfld.long 0x00 8.--11. "PSCSEL,WWDT Counter Prescale Period Selection" "0: Pre-scale is 1 Max time-out period is 1 * 64..,1: Pre-scale is 2 Max time-out period is 2 * 64..,2: Pre-scale is 4 Max time-out period is 4 * 64..,3: Pre-scale is 8 Max time-out period is 8 * 64..,4: Pre-scale is 16 Max time-out period is 16 *..,5: Pre-scale is 32 Max time-out period is 32 *..,6: Pre-scale is 64 Max time-out period is 64 *..,7: Pre-scale is 128 Max time-out period is 128 *..,8: Pre-scale is 192 Max time-out period is 192 *..,9: Pre-scale is 256 Max time-out period is 256 *..,10: Pre-scale is 384 Max time-out period is 384..,11: Pre-scale is 512 Max time-out period is 512..,12: Pre-scale is 768 Max time-out period is 768..,13: Pre-scale is 1024 Max time-out period is..,14: Pre-scale is 1536 Max time-out period is..,15: Pre-scale is 2048 Max time-out period is.."
bitfld.long 0x00 1. "INTEN,WWDT Interrupt Enable Bit\nIf this bit is enabled the WWDT counter compare match interrupt signal is generated and inform to CPU" "0: WWDT counter compare match interrupt Disabled,1: WWDT counter compare match interrupt Enabled"
newline
bitfld.long 0x00 0. "WWDTEN,WWDT Enable Bit" "0: WWDT counter is stopped,1: WWDT counter starts counting"
group.long 0x08++0x03
line.long 0x00 "WWDT_STATUS,WWDT Status Register"
bitfld.long 0x00 1. "WWDTRF,WWDT Timer-out Reset Flag\nThis bit indicates the system has been reset by WWDT time-out reset or not.\nNote: This bit is cleared by writing 1 to it" "0: WWDT time-out reset did not occur,1: WWDT time-out reset occurred"
bitfld.long 0x00 0. "WWDTIF,WWDT Compare Match Interrupt Flag\nThis bit indicates the interrupt flag status of WWDT while WWDT counter value matches CMPDAT (WWDT_CTL[21:16]).\nNote: This bit is cleared by writing 1 to it" "0: No effect,1: WWDT counter value matches CMPDAT"
rgroup.long 0x0C++0x03
line.long 0x00 "WWDT_CNT,WWDT Counter Value Register"
bitfld.long 0x00 0.--5. "CNTDAT,WWDT Counter Value\nCNTDAT will be updated continuously to monitor 6-bit WWDT down counter value" "0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44,45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,60,61,62,63"
tree.end
autoindent.off
newline
Reference in New Issue View Git Blame Copy Permalink