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dz32.inc
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dz32.inc
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;*******************************************************************************
;* MC9S08DZ32 FRAMEWORK INCLUDE FILE FOR ASM8 ASSEMBLER *
;*******************************************************************************
; FREEWARE, Copyright (c) Tony G. Papadimitriou <tonyp@acm.org>
;*******************************************************************************
#Uses macros.inc
#Message **********************
#Message * Target: MC9S08DZ32 *
#Message **********************
#HcsOn
#NoMMU ;MMU not available
#ifdef BOOT
#Message TBoot pre-loaded
#ifexists tboot_dz32.exp
#Uses tboot_dz32.exp
#else ifexists tboot.exp
#Uses tboot.exp
#else
#Uses tboot/tboot_dz32.exp
#endif
#endif
_DZ_ def 32
_DZ32_ def *
;*******************************************************************************
;* Author: Tony Papadimitriou - <tonyp@acm.org>
;* Freescale (Original version)
;*
;* Description: Register and bit name definitions for 9S08DZ32
;*
;* Documentation: 9S08DZ32 family Data Sheet for register and bit explanations
;* HCS08 Family Reference Manual (HCS08RM1/D) appendix B for explanation of
;* equate files
;*
;* Modified by <tonyp@acm.org> as follows:
;*
;* 1. All bit names for use with BSET/BCLR/BRSET/BRCLR end with a dot (.)
;* 2. All bit names for use as masks end with an underscore (_)
;* 3. ASM8's segments RAM, ROM, XROM, SEG9 (OS8), EEPROM and VECTORS
;* initialized with appropriate values for immediate use.
;* 4. The assembly-time symbol FLASH_DATA_SIZE optionally defines the protected Flash
;* as the difference between total flash and FLASH_DATA_SIZE
;* Based on MC9S08DZ32's architecture, FLASH_DATA_SIZE can only take specific
;* values. An invalid value will cause an informative assembler error message.
;* 5. ASM8's #MEMORY directive used to define actual Flash space for user code/data
;*
;* Include Files: COMMON.INC
;*
;* Assembler: ASM8 by Tony G. Papadimitriou <tonyp@acm.org>
;*
;* Revision History: not yet released
;* Rev # Date Who Comments
;* ----- ----------- ------------- ------------------------------------------
;* 1.1 07-Jun-11 tonyp@acm.org Adapted to ASM8 by <tonyp@acm.org>
;* 1.0 31-Mar-08 Freescale Release version for 9S08DZ32
;*******************************************************************************
; Based on CPU DB MC9S08DZ60_64, version 3.00.001 (RegistersPrg V2.23)
; This header implements the mapping of I/O devices.
; (c) Copyright UNIS, spol. s r.o. 1997-2008
; UNIS, spol. s r.o.
; Jundrovska 33
; 624 00 Brno
; Czech Republic
; CPU Registers Revisions
; - 21.04.2006, V2.87.015
; - Removed bits MCGSC_IREFST, MCGSC_PLLST, FCNFG_ECCDIS, SDIDH_REV0..SDIDH_REV3.
; - Added registers NVFTRIM, NVMCGTRM. Removed register NVECC.
; - Renamed registers ADx ==> ADCx.
; - REASON Changes in the data sheet (from rev 0.05 8/5/2005 to rev 1.0 Draft A 04/2006)
; - 16.05.2006, V2.87.023
; - Renamed registers ADCVH ==> ADCCVH, ADCVL ==> ADCCVL, ADCV ==> ADCCV, ADCFG ==> ADCCFG,
; - IICC1 ==> IICC, Added bit CANCTL1_BORM.
; - REASON Changes in the data sheet (from rev 1.0 Draft A to rev 1.0 Draft B)
; - 08.09.2006, V2.87.027
; - Added registers CANxIDR2, CANxIDR3, corrected CANxIDR0, CANxIDR1 bits (Standard ID ==> Extended ID).
; - REASON Bug-fix (#3723 from the UNIS Issue Manager)
; - 28.06.2007, V2.87.128
; - Removed register FTSTMOD.
; - REASON Bug-fix (#4466 from the UNIS Issue Manager)
; - 20.12.2007, V2.87.141
; - Added bits to the ADC registers to use the ADC 12-bit module.
; - REASON Changes in the data sheet (from rev 1 6/2006 to rev 3 10/2007).
; - 28.03.2008, V3.00.0
; - Added registers IICC, DBGCA, DBGCB.
; - REASON Bug-fix (#5795 from the UNIS Issue Manager)
; File-Format-Revisions
; - 08.03.2006, V2.04
; - Support for bit(s) names duplicated with any register name in .h header files
; - 24.03.2006, V2.05
; - Changes have not affected this file (because they are related to another family)
; - 26.04.2006, V2.06
; - Absolute assembly supported (depreciated symbols are not defined)
; - 27.04.2006, V2.07
; - Fixed macro __RESET_WATCHDOG for HCS12, HCS12X ,HCS08 DZ and HCS08 EN derivatives (write 0x55,0xAA).
; - 07.06.2006, V2.08
; - For .inc files added constants "RAMStart" and "RAMEnd" even there is only Z_RAM.
; - 03.07.2006, V2.09
; - Flash commands constants supported
; - 27.10.2006, V2.10
; - __RESET_WATCHDOG improved formating and re-definition
; - 23.11.2006, V2.11
; - Changes have not affected this file (because they are related to another family)
; - 22.01.2007, V2.12
; - Changes have not affected this file (because they are related to another family)
; - 01.03.2007, V2.13
; - Flash commands constants values converted to HEX format
; - 02.03.2007, V2.14
; - Interrupt vector numbers added into .H, see VectorNumber_*
; - 26.03.2007, V2.15
; - Changes have not affected this file (because they are related to another family)
; - 10.05.2007, V2.16
; - Fixed flash commands definition for ColdFireV1 assembler (equ -> .equ)
; - 05.06.2007, V2.17
; - Changes have not affected this file (because they are related to another family)
; - 19.07.2007, V2.18
; - Improved number of blanked lines inside register structures
; - 06.08.2007, V2.19
; - CPUDB revisions generated ahead of the file-format revisions.
; - 11.09.2007, V2.20
; - Added comment about initialization of unbonded pins.
; - 02.01.2008, V2.21
; - Changes have not affected this file (because they are related to another family)
; - 13.02.2008, V2.22
; - Changes have not affected this file (because they are related to another family)
; - 20.02.2008, V2.23
; - Changes have not affected this file (because they are related to another family)
; Not all general-purpose I/O pins are available on all packages or on all mask sets of a specific
; derivative device. To avoid extra current drain from floating input pins, the user’s reset
; initialization routine in the application program must either enable on-chip pull-up devices
; or change the direction of unconnected pins to outputs so the pins do not float.
; ###################################################################
; **** Memory Map and Interrupt Vectors ****************************************
HighRegs equ $1800 ;start of high page registers
HighRegs_End equ $18FF ;end of high page registers
; **** Input/Output (I/O) Ports ************************************************
PORTA equ $00,1 ;Port A Data Register
DDRA equ $01,1 ;Port A Data Direction Register
PORTB equ $02,1 ;Port B Data Register
DDRB equ $03,1 ;Port B Data Direction Register
PORTC equ $04,1 ;Port C Data Register
DDRC equ $05,1 ;Port C Data Direction Register
PORTD equ $06,1 ;Port D Data Register
DDRD equ $07,1 ;Port D Data Direction Register
PORTE equ $08,1 ;Port E Data Register
DDRE equ $09,1 ;Port E Data Direction Register
PORTF equ $0A,1 ;Port F Data Register
DDRF equ $0B,1 ;Port F Data Direction Register
PORTG equ $0C,1 ;Port G Data Register
DDRG equ $0D,1 ;Port G Data Direction Register
ACMP1SC equ $0E,1 ;ACMP1 Status and Control Register
ACMP2SC equ $0F,1 ;ACMP2 Status and Control Register
@bitnum ACMOD0,0 ;Analog Comparator Mode Bit 0
@bitnum ACMOD1,1 ;Analog Comparator Mode Bit 1
@bitnum ACOPE,2 ;Analog Comparator Output Pin Enable
@bitnum ACO,3 ;Analog Comparator Output
@bitnum ACIE,4 ;Analog Comparator Interrupt Enable
@bitnum ACF,5 ;Analog Comparator Flag
@bitnum ACBGS,6 ;Analog Comparator Bandgap Select
@bitnum ACME,7 ;Analog Comparator Module Enable
ADCSC1 equ $10,1 ;Status and Control Register 1
@bitnum ADCO,5 ;Continuous Conversion Enable - ADCO is used to enable continuous conversions
@bitnum AIEN,6 ;Interrupt Enable - AIEN is used to enable conversion complete interrupts. When COCO becomes set while AIEN is high, an interrupt is asserted
@bitnum COCO,7 ;Conversion Complete Flag
ADCSC2 equ $11,1 ;Status and Control Register 2
@bitnum ACFGT,4 ;Compare Function Greater Than Enable
@bitnum ACFE,5 ;Compare Function Enable - ACFE is used to enable the compare function
@bitnum ADTRG,6 ;Conversion Trigger Select-ADTRG is used to select the type of trigger to be used for initiating a conversion
@bitnum ADACT,7 ;Conversion Active - ADACT indicates that a conversion is in progress. ADACT is set when a conversion is initiated and cleared when a conversion is completed or aborted
ADCR equ $12,2 ;Data Result Register
ADCRH equ $12,1 ;Data Result High Register
ADCRL equ $13,1 ;Data Result Low Register
ADCCV equ $14,2 ;Compare Value Register
ADCCVH equ $14,1 ;Compare Value High Register
ADCCVL equ $15,1 ;Compare Value Low Register
ADCCFG equ $16,1 ;Configuration Register
@bitnum ADICLK0,0 ;Input Clock Select Bit 0
@bitnum ADICLK1,1 ;Input Clock Select Bit 1
@bitnum MODE0,2 ;Conversion Mode Selection Bit 0
@bitnum MODE1,3 ;Conversion Mode Selection Bit 1
@bitnum ADLSMP,4 ;Long Sample Time Configuration
@bitnum ADIV0,5 ;Clock Divide Select Bit 0
@bitnum ADIV1,6 ;Clock Divide Select Bit 1
@bitnum ADLPC,7 ;Low Power Configuration
APCTL1 equ $17,1 ;Pin Control 1 Register
APCTL2 equ $18,1 ;Pin Control 2 Register
APCTL3 equ $19,1 ;Pin Control 3 Register
IRQSC equ $1C,1 ;Interrupt request status and control register
@bitnum IRQMOD,0 ;IRQ Detection Mode
@bitnum IRQIE,1 ;IRQ Interrupt Enable
@bitnum IRQACK,2 ;IRQ Acknowledge
@bitnum IRQF,3 ;IRQ Flag
@bitnum IRQPE,4 ;IRQ Pin Enable
@bitnum IRQEDG,5 ;IRQ Edge Select
@bitnum IRQPDD,6 ;IRQ Pull Device Disable
TPM1SC equ $20,1 ;TPM1 Status and Control Register
@bitnum PS0,0 ;Prescale Divisor Select Bit 0
@bitnum PS1,1 ;Prescale Divisor Select Bit 1
@bitnum PS2,2 ;Prescale Divisor Select Bit 2
@bitnum CLKSA,3 ;Clock Source Select A
@bitnum CLKSB,4 ;Clock Source Select B
@bitnum CPWMS,5 ;Center-Aligned PWM Select
@bitnum TOIE,6 ;Timer Overflow Interrupt Enable
@bitnum TOF,7 ;Timer Overflow Flag
TPM1CNT equ $21,2 ;TPM1 Timer Counter Register
TPM1CNTH equ $21,1 ;TPM1 Timer Counter Register High
TPM1CNTL equ $22,1 ;TPM1 Timer Counter Register Low
TPM1MOD equ $23,2 ;TPM1 Timer Counter Modulo Register
TPM1MODH equ $23,1 ;TPM1 Timer Counter Modulo Register High
TPM1MODL equ $24,1 ;TPM1 Timer Counter Modulo Register Low
TPM1C0SC equ $25,1 ;TPM1 Timer Channel 0 Status and Control Register
TPM1C0V equ $26,2 ;TPM1 Timer Channel 0 Value Register
TPM1C0VH equ $26,1 ;TPM1 Timer Channel 0 Value Register High
TPM1C0VL equ $27,1 ;TPM1 Timer Channel 0 Value Register Low
TPM1C1SC equ $28,1 ;TPM1 Timer Channel 1 Status and Control Register
TPM1C1V equ $29,2 ;TPM1 Timer Channel 1 Value Register
TPM1C1VH equ $29,1 ;TPM1 Timer Channel 1 Value Register High
TPM1C1VL equ $2A,1 ;TPM1 Timer Channel 1 Value Register Low
TPM1C2SC equ $2B,1 ;TPM1 Timer Channel 2 Status and Control Register
TPM1C2V equ $2C,2 ;TPM1 Timer Channel 2 Value Register
TPM1C2VH equ $2C,1 ;TPM1 Timer Channel 2 Value Register High
TPM1C2VL equ $2D,1 ;TPM1 Timer Channel 2 Value Register Low
TPM1C3SC equ $2E,1 ;TPM1 Timer Channel 3 Status and Control Register
TPM1C3V equ $2F,2 ;TPM1 Timer Channel 3 Value Register
TPM1C3VH equ $2F,1 ;TPM1 Timer Channel 3 Value Register High
TPM1C3VL equ $30,1 ;TPM1 Timer Channel 3 Value Register Low
TPM1C4SC equ $31,1 ;TPM1 Timer Channel 4 Status and Control Register
TPM1C4V equ $32,2 ;TPM1 Timer Channel 4 Value Register
TPM1C4VH equ $32,1 ;TPM1 Timer Channel 4 Value Register High
TPM1C4VL equ $33,1 ;TPM1 Timer Channel 4 Value Register Low
TPM1C5SC equ $34,1 ;TPM1 Timer Channel 5 Status and Control Register
TPM1C5V equ $35,2 ;TPM1 Timer Channel 5 Value Register
TPM1C5VH equ $35,1 ;TPM1 Timer Channel 5 Value Register High
TPM1C5VL equ $36,1 ;TPM1 Timer Channel 5 Value Register Low
@bitnum ELSxA,2 ;Edge/Level Select Bit A
@bitnum ELSxB,3 ;Edge/Level Select Bit B
@bitnum MSxA,4 ;Mode Select A for TPM Channel 0
@bitnum MSxB,5 ;Mode Select B for TPM Channel 0
@bitnum CHxIE,6 ;Channel 0 Interrupt Enable
@bitnum CHxF,7 ;Channel 0 Flag
SCI1BD equ $38,2 ;SCI1 Baud Rate Register
SCI1BDH equ $38,1 ;SCI1 Baud Rate Register High
@bitnum RXEDGIE,6 ;RxD Input Active Edge Interrupt Enable (for RXEDGIF)
@bitnum LBKDIE,7 ;LIN Break Detect Interrupt Enable (for LBKDIF)
SCI1BDL equ $39,1 ;SCI1 Baud Rate Register Low
SCI1C1 equ $3A,1 ;SCI1 Control Register 1
@bitnum PT,0 ;Parity Type
@bitnum PE,1 ;Parity Enable
@bitnum ILT,2 ;Idle Line Type Select
@bitnum WAKE,3 ;Receiver Wakeup Method Select
@bitnum M,4 ;9-Bit or 8-Bit Mode Select
@bitnum RSRC,5 ;Receiver Source Select
@bitnum SCISWAI,6 ;SCI Stops in Wait Mode
@bitnum LOOPS,7 ;Loop Mode Select
SCI1C2 equ $3B,1 ;SCI1 Control Register 2
@bitnum SBK,0 ;Send Break
@bitnum RWU,1 ;Receiver Wakeup Control
@bitnum RE,2 ;Receiver Enable
@bitnum TE,3 ;Transmitter Enable
@bitnum ILIE,4 ;Idle Line Interrupt Enable (for IDLE)
@bitnum RIE,5 ;Receiver Interrupt Enable (for RDRF)
@bitnum TCIE,6 ;Transmission Complete Interrupt Enable (for TC)
@bitnum TIE,7 ;Transmit Interrupt Enable (for TDRE)
SCI1S1 equ $3C,1 ;SCI1 Status Register 1
@bitnum PF,0 ;Parity Error Flag
@bitnum FE,1 ;Framing Error Flag
@bitnum NF,2 ;Noise Flag
@bitnum OR,3 ;Receiver Overrun Flag
@bitnum IDLE,4 ;Idle Line Flag
@bitnum RDRF,5 ;Receive Data Register Full Flag
@bitnum TC,6 ;Transmission Complete Flag
@bitnum TDRE,7 ;Transmit Data Register Empty Flag
SCI1S2 equ $3D,1 ;SCI1 Status Register 2
@bitnum RAF,0 ;Receiver Active Flag
@bitnum LBKDE,1 ;LIN Break Detection Enable
@bitnum BRK13,2 ;Break Character Generation Length
@bitnum RWUID,3 ;Receive Wake Up Idle Detect
@bitnum RXINV,4 ;Receive Data Inversion
@bitnum RXEDGIF,6 ;RxD Pin Active Edge Interrupt Flag
@bitnum LBKDIF,7 ;LIN Break Detect Interrupt Flag
SCI1C3 equ $3E,1 ;SCI1 Control Register 3
@bitnum PEIE,0 ;Parity Error Interrupt Enable
@bitnum FEIE,1 ;Framing Error Interrupt Enable
@bitnum NEIE,2 ;Noise Error Interrupt Enable
@bitnum ORIE,3 ;Overrun Interrupt Enable
@bitnum TXINV,4 ;Transmit Data Inversion
@bitnum TXDIR,5 ;TxD Pin Direction in Single-Wire Mode
@bitnum T8,6 ;Ninth Data Bit for Transmitter
@bitnum R8,7 ;Ninth Data Bit for Receiver
SCI1D equ $3F,1 ;SCI1 Data Register
SCI2BD equ $40,2 ;SCI2 Baud Rate Register
SCI2BDH equ $40,1 ;SCI2 Baud Rate Register High
SCI2BDL equ $41,1 ;SCI2 Baud Rate Register Low
SCI2C1 equ $42,1 ;SCI2 Control Register 1
SCI2C2 equ $43,1 ;SCI2 Control Register 2
SCI2S1 equ $44,1 ;SCI2 Status Register 1
SCI2S2 equ $45,1 ;SCI2 Status Register 2
SCI2C3 equ $46,1 ;SCI2 Control Register 3
SCI2D equ $47,1 ;SCI2 Data Register
MCGC1 equ $48,1 ;MCG Control Register 1
ICSC1 def MCGC1,1 ;functionally equivalent to the ICSC1 of other MCUs
@bitnum IREFSTEN,0 ;Internal Reference Stop Enable
@bitnum IRCLKEN,1 ;Internal Reference Clock Enable
@bitnum IREFS,2 ;Internal Reference Select
@bitnum RDIV0,3 ;Reference Divider, bit 0
@bitnum RDIV1,4 ;Reference Divider, bit 1
@bitnum RDIV2,5 ;Reference Divider, bit 2
@bitnum CLKS0,6 ;Clock Source Select, bit 0
@bitnum CLKS1,7 ;Clock Source Select, bit 1
MCGC2 equ $49,1 ;MCG Control Register 2
ICSC2 def MCGC2,1 ;functionally equivalent to the ICSC2 of other MCUs
@bitnum EREFSTEN,0 ;External Reference Stop Enable
@bitnum ERCLKEN,1 ;External Reference Enable
@bitnum EREFS,2 ;External Reference Select
@bitnum LP,3 ;Low Power Select
@bitnum HGO,4 ;High Gain Oscillator Select
@bitnum RANGE_SEL,5 ;Frequency Range Select
@bitnum BDIV0,6 ;Bus Frequency Divider, bit 0
@bitnum BDIV1,7 ;Bus Frequency Divider, bit 1
MCGTRM equ $4A,1 ;MCG Trim Register
ICSTRM def MCGTRM,1 ;functionally equivalent to the ICSTRM of other MCUs
MCGSC equ $4B,1 ;MCG Status and Control Register
ICSSC def MCGSC,1 ;functionally equivalent to the ICSSC of other MCUs
@bitnum FTRIM,0 ;MCG Fine Trim
@bitnum OSCINIT,1 ;OSC Initialization
@bitnum CLKST0,2 ;Clock Mode Status, bit 0
@bitnum CLKST1,3 ;Clock Mode Status, bit 1
@bitnum IREFST,4 ;Internal Reference Status
@bitnum PLLST,5 ;PLL Select Status
@bitnum LOCK,6 ;Lock Status
@bitnum LOLS,7 ;Loss of Lock Status
MCGC3 equ $4C,1 ;MCG Control Register 3
@bitnum CME,5 ;Clock Monitor Enable
@bitnum PLLS,6 ;PLL Select
@bitnum LOLIE,7 ;Loss of Lock Interrupt Enable
SPIC1 equ $50,1 ;SPI Control Register 1
@bitnum LSBFE,0 ;LSB First (Shifter Direction)
@bitnum SSOE,1 ;Slave Select Output Enable
@bitnum CPHA,2 ;Clock Phase
@bitnum CPOL,3 ;Clock Polarity
@bitnum MSTR,4 ;Master/Slave Mode Select
@bitnum SPTIE,5 ;SPI Transmit Interrupt Enable
@bitnum SPE,6 ;SPI System Enable
@bitnum SPIE,7 ;SPI Interrupt Enable (for SPRF and MODF)
SPIC2 equ $51,1 ;SPI Control Register 2
@bitnum SPC0,0 ;SPI Pin Control 0
@bitnum SPISWAI,1 ;SPI Stop in Wait Mode
@bitnum BIDIROE,3 ;Bidirectional Mode Output Enable
@bitnum MODFEN,4 ;Master Mode-Fault Function Enable
SPIBR equ $52,1 ;SPI Baud Rate Register
SPIS equ $53,1 ;SPI Status Register
@bitnum MODF,4 ;Master Mode Fault Flag
@bitnum SPTEF,5 ;SPI Transmit Buffer Empty Flag
@bitnum SPRF,7 ;SPI Read Buffer Full Flag
SPID equ $55,1 ;SPI Data Register
IICA equ $58 ;IIC Address Register
IICF equ $59 ;IIC Frequency Divider Register
@bitnum MULT0,6 ;Multiplier Factor Bit 0
@bitnum MULT1,7 ;Multiplier Factor Bit 1
IICC1 equ $5A,1 ;IIC Control Register 1
IICC equ $5A,1 ;IIC Control Register
@bitnum RSTA,2 ;Repeat START
@bitnum TXAK,3 ;Transmit Acknowledge Enable
@bitnum TX,4 ;Transmit Mode Select
@bitnum MST,5 ;Master Mode Select
@bitnum IICIE,6 ;IIC Interrupt Enable
@bitnum IICEN,7 ;IIC Enable
IICS equ $5B,1 ;IIC Status Register
@bitnum RXAK,0 ;Receive Acknowledge
@bitnum IICIF,1 ;IIC Interrupt Flag
@bitnum SRW,2 ;Slave Read/Write
@bitnum ARBL,4 ;Arbitration Lost
@bitnum BUSY,5 ;Bus Busy
@bitnum IAAS,6 ;Addressed as a Slave
@bitnum TCF,7 ;Transfer Complete Flag
IICD equ $5C,1 ;IIC Data I/O Register
IICC2 equ $5D,1 ;IIC Control Register 2
@bitnum ADEXT,6 ;Address Extension
@bitnum GCAEN,7 ;General Call Address Enable
TPM2SC equ $60,1 ;TPM2 Status and Control Register
TPM2CNT equ $61,2 ;TPM2 Timer Counter Register
TPM2CNTH equ $61,1 ;TPM2 Timer Counter Register High
TPM2CNTL equ $62,1 ;TPM2 Timer Counter Register Low
TPM2MOD equ $63,2 ;TPM2 Timer Counter Modulo Register
TPM2MODH equ $63,1 ;TPM2 Timer Counter Modulo Register High
TPM2MODL equ $64,1 ;TPM2 Timer Counter Modulo Register Low
TPM2C0SC equ $65,1 ;TPM2 Timer Channel 0 Status and Control Register
TPM2C0V equ $66,2 ;TPM2 Timer Channel 0 Value Register
TPM2C0VH equ $66,1 ;TPM2 Timer Channel 0 Value Register High
TPM2C0VL equ $67,1 ;TPM2 Timer Channel 0 Value Register Low
TPM2C1SC equ $68,1 ;TPM2 Timer Channel 1 Status and Control Register
TPM2C1V equ $69,2 ;TPM2 Timer Channel 1 Value Register
TPM2C1VH equ $69,1 ;TPM2 Timer Channel 1 Value Register High
TPM2C1VL equ $6A,1 ;TPM2 Timer Channel 1 Value Register Low
RTCSC equ $6C,1 ;RTC Status and Control Register
@bitnum RTIE,4 ;Real-Time Interrupt Enable
@bitnum RTCLKS0,5 ;Real-Time Clock Source Select, bit 0
@bitnum RTCLKS1,6 ;Real-Time Clock Source Select, bit 1
@bitnum RTIF,7 ;Real-Time Interrupt Flag
RTCCNT equ $6D,1 ;RTC Counter Register
RTCMOD equ $6E,1 ;RTC Modulo Register
SRS equ $1800,1 ;System Reset Status Register
COP equ SRS,1 ;for "STA COP"
@bitnum LVD,1 ;Low Voltage Detect
@bitnum LOC,2 ;Loss-of-Clock Reset
@bitnum ILAD,3 ;Illegal Address
@bitnum ILOP,4 ;Illegal Opcode
@bitnum COP,5 ;Computer Operating Properly (COP) Watchdog
@bitnum PIN,6 ;External Reset Pin
@bitnum POR,7 ;Power-On Reset
SBDFR equ $1801,1 ;System Background Debug Force Reset Register
@bitnum BDFR,0 ;Background Debug Force Reset
SOPT1 equ $1802,1 ;System Options Register 1
SOPT equ SOPT1,1
@bitnum IICPS,3 ;IIC Pin Select
@bitnum SCI2PS,4 ;SCI2 Pin Select
@bitnum STOPE,5 ;Stop Mode Enable
@bitnum COPT0,6 ;COP Watchdog Timeout, bit 0
@bitnum COPT1,7 ;COP Watchdog Timeout, bit 1
SOPT2 equ $1803,1 ;System Options Register 2
@bitnum MCSEL0,0 ;MCLK Divide Select, bit 0
@bitnum MCSEL1,1 ;MCLK Divide Select, bit 1
@bitnum MCSEL2,2 ;MCLK Divide Select, bit 2
@bitnum ADHTS,4 ;ADC Hardware Trigger Select
@bitnum COPW,6 ;COP Window
@bitnum COPCLKS,7 ;COP Watchdog Clock Select
SDID equ $1806,2 ;System Device Identification Register
SDIDH equ $1806,1 ;System Device Identification Register High
SDIDL equ $1807,1 ;System Device Identification Register Low
SPMSC1 equ $1809,1 ;System Power Management Status and Control 1 Register
@bitnum BGBE,0 ;Bandgap Buffer Enable
@bitnum LVDE,2 ;Low-Voltage Detect Enable
@bitnum LVDSE,3 ;Low-Voltage Detect Stop Enable
@bitnum LVDRE,4 ;Low-Voltage Detect Reset Enable
@bitnum LVWIE,5 ;Low-Voltage Warning Interrupt Enable
@bitnum LVWACK,6 ;Low-Voltage Warning Acknowledge
@bitnum LVWF,7 ;Low-Voltage Warning status
SPMSC2 equ $180A,1 ;System Power Management Status and Control 2 Register
@bitnum PPDC,0 ;Partial Power Down Control
@bitnum PPDACK,2 ;Partial Power Down Acknowledge
@bitnum PPDF,3 ;Partial Power Down Flag
@bitnum LVWV,4 ;Low-Voltage Warning Voltage Select
@bitnum LVDV,5 ;Low-Voltage Detect Voltage Select
DBGCA equ $1810,2 ;Debug Comparator A Register
DBGCAH equ $1810,1 ;Debug Comparator A High Register
DBGCAL equ $1811,1 ;Debug Comparator A Low Register
DBGCB equ $1812,2 ;Debug Comparator B Register
DBGCBH equ $1812,1 ;Debug Comparator B High Register
DBGCBL equ $1813,1 ;Debug Comparator B Low Register
DBGF equ $1814,2 ;Debug FIFO Register
DBGFH equ $1814,1 ;Debug FIFO High Register
DBGFL equ $1815,1 ;Debug FIFO Low Register
DBGC equ $1816,1 ;Debug Control Register
@bitnum RWBEN,0 ;Enable R/W for Comparator B
@bitnum RWB,1 ;R/W Comparison Value for Comparator B
@bitnum RWAEN,2 ;Enable R/W for Comparator A
@bitnum RWA,3 ;R/W Comparison Value for Comparator A
@bitnum BRKEN,4 ;Break Enable
@bitnum TAG,5 ;Tag/Force Select
@bitnum ARM,6 ;Arm Control
@bitnum DBGEN,7 ;Debug Module Enable
DBGT equ $1817,1 ;Debug Trigger Register
@bitnum BEGIN,6 ;Begin/End Trigger Select
@bitnum TRGSEL,7 ;Trigger Type
DBGS equ $1818,1 ;Debug Status Register
@bitnum ARMF,5 ;Arm Flag
@bitnum BF,6 ;Trigger Match B Flag
@bitnum AF,7 ;Trigger Match A Flag
FCDIV equ $1820,1 ;EEPROM and FLASH Clock Divider Register
@bitnum PRDIV8,6 ;Enable Prescaler by 8
@bitnum DIVLD,7 ;Clock Divider Load Control
FOPT equ $1821,1 ;EEPROM and FLASH Options Register
@bitnum SEC0,0 ;Flash Security Bit 0
@bitnum SEC1,1 ;Flash Security Bit 1
@bitnum EPGMOD,5 ;EEPROM Sector Mode Bit
@bitnum FNORED,6 ;Vector Redirection Disable Bit
@bitnum KEYEN,7 ;Backdoor Key Security Enable Bit
FCNFG equ $1823,1 ;EEPROM and FLASH Configuration Register
@bitnum KEYACC,5 ;Enable Security Key Writing
@bitnum EPGSEL,6 ;EEPROM Page Select Bit
FPROT equ $1824,1 ;EEPROM and FLASH Protection Register
FSTAT equ $1825,1 ;EEPROM and FLASH Status Register
@bitnum FBLANK,2 ;FLASH Flag Indicating the Erase Verify Operation Status
@bitnum FACCERR,4 ;FLASH Access Error Flag
@bitnum FPVIOL,5 ;FLASH Protection Violation Flag
@bitnum FCCF,6 ;FLASH Command Complete Interrupt Flag
@bitnum FCBEF,7 ;FLASH Command Buffer Empty Flag
FCMD equ $1826,1 ;EEPROM and FLASH Command Register
PTAPE equ $1840,1 ;Port A Pull Enable Register
PTAPUE equ PTAPE,1
PTASE equ $1841,1 ;Port A Slew Rate Enable Register
PTADS equ $1842,1 ;Port A Drive Strength Selection Register
PTASC equ $1844,1 ;Port A Interrupt Status and Control Register
@bitnum PTAMOD,0 ;Port A Detection Mode
@bitnum PTAIE,1 ;Port A Interrupt Enable
@bitnum PTAACK,2 ;Port A Interrupt Acknowledge
@bitnum PTAIF,3 ;Port A Interrupt Flag
PTAPS equ $1845,1 ;Port A Interrupt Pin Select Register
PTAES equ $1846,1 ;Port A Interrupt Edge Select Register
PTBPE equ $1848,1 ;Port B Pull Enable Register
PTBPUE equ PTBPE,1
PTBSE equ $1849,1 ;Port B Slew Rate Enable Register
PTBDS equ $184A,1 ;Port B Drive Strength Selection Register
PTBSC equ $184C,1 ;Port B Interrupt Status and Control Register
@bitnum PTBMOD,0 ;Port B Detection Mode
@bitnum PTBIE,1 ;Port B Interrupt Enable
@bitnum PTBACK,2 ;Port B Interrupt Acknowledge
@bitnum PTBIF,3 ;Port B Interrupt Flag
PTBPS equ $184D,1 ;Port B Interrupt Pin Select Register
PTBES equ $184E,1 ;Port B Interrupt Edge Select Register
PTCPE equ $1850,1 ;Port C Pull Enable Register
PTCPUE equ PTCPE,1
PTCSE equ $1851,1 ;Port C Slew Rate Enable Register
PTCDS equ $1852,1 ;Port C Drive Strength Selection Register
PTDPE equ $1858,1 ;Port D Pull Enable Register
PTDPUE equ PTDPE,1
PTDSE equ $1859,1 ;Port D Slew Rate Enable Register
PTDDS equ $185A,1 ;Port D Drive Strength Selection Register
PTDSC equ $185C,1 ;Port D Interrupt Status and Control Register
@bitnum PTDMOD,0 ;Port D Detection Mode
@bitnum PTDIE,1 ;Port D Interrupt Enable
@bitnum PTDACK,2 ;Port D Interrupt Acknowledge
@bitnum PTDIF,3 ;Port D Interrupt Flag
PTDPS equ $185D,1 ;Port D Interrupt Pin Select Register
PTDES equ $185E,1 ;Port D Interrupt Edge Select Register
PTEPE equ $1860,1 ;Port E Pull Enable Register
PTEPUE equ PTEPE,1
PTESE equ $1861,1 ;Port E Slew Rate Enable Register
PTEDS equ $1862,1 ;Port E Drive Strength Selection Register
PTFPE equ $1868,1 ;Port F Pull Enable Register
PTFPUE equ PTFPE,1
PTFSE equ $1869,1 ;Port F Slew Rate Enable Register
PTFDS equ $186A,1 ;Port F Drive Strength Selection Register
PTGPE equ $1870,1 ;Port G Pull Enable Register
PTGPUE equ PTGPE,1
PTGSE equ $1871,1 ;Port G Slew Rate Enable Register
PTGDS equ $1872,1 ;Port G Drive Strength Selection Register
;*******************************************************************************
; MSCAN CAN
;*******************************************************************************
CAN_BASE def $1880
CANCTL0 equ CAN_BASE,1 ;MSCAN Control 0 Register
CAN_INITRQ @pin CANCTL0 ;Initialization Mode Request
CAN_SLPRQ @pin ;Sleep Mode Request
CAN_WUPE @pin ;Wake-Up Enable
CAN_TIME @pin ;Timer Enable
CAN_SYNCH @pin ;Synchronized Status
CAN_CSWAI @pin ;CAN Stops in Wait Mode
CAN_RXACT @pin ;Receiver Active Status
CAN_RXFRM @pin ;Received Frame Flag
CANCTL1 equ CAN_BASE+$01,1 ;MSCAN Control 1 Register
CAN_INITAK @pin CANCTL1 ;Initialization Mode Acknowledge
CAN_SLPAK @pin ;Sleep Mode Acknowledge
CAN_WUPM @pin ;Wake-Up Mode
CAN_BORM @pin ;Bus-Off Recovery Mode
CAN_LISTEN @pin ;Listen Only Mode
CAN_LOOPB @pin ;Loop Back Self Test Mode
CAN_CLKSRC @pin ;MSCAN Clock Source
CAN_CANE @pin ;MSCAN Enable
CANBTR0 equ CAN_BASE+$02,1 ;MSCAN Bus Timing Register 0
CAN_SJW0 @pin CANBTR0,6 ;Synchronization Jump Width 0
CAN_SJW1 @pin CANBTR0,7 ;Synchronization Jump Width 1
CANBTR1 equ CAN_BASE+$03,1 ;MSCAN Bus Timing Register 1
CAN_SAMP @pin CANBTR1,7 ;Sampling
CANRFLG equ CAN_BASE+$04,1 ;MSCAN Receiver Flag Register
CAN_RXF @pin CANRFLG ;Receive Buffer Full
CAN_OVRIF @pin ;Overrun Interrupt Flag
CAN_TSTAT0 @pin ;Transmitter Status Bit 0
CAN_TSTAT1 @pin ;Transmitter Status Bit 1
CAN_RSTAT0 @pin ;Receiver Status Bit 0
CAN_RSTAT1 @pin ;Receiver Status Bit 1
CAN_CSCIF @pin ;CAN Status Change Interrupt Flag
CAN_WUPIF @pin ;Wake-up Interrupt Flag
CANRIER equ CAN_BASE+$05,1 ;MSCAN Receiver Interrupt Enable Register
CAN_RXFIE @pin CANRIER ;Receiver Full Interrupt Enable
CAN_OVRIE @pin ;Overrun Interrupt Enable
CAN_TSTATE0 @pin ;Transmitter Status Change Enable 0
CAN_TSTATE1 @pin ;Transmitter Status Change Enable 1
CAN_RSTATE0 @pin ;Receiver Status Change Enable 0
CAN_RSTATE1 @pin ;Receiver Status Change Enable 1
CAN_CSCIE @pin ;CAN Status Change Interrupt Enable
CAN_WUPIE @pin ;Wake-up Interrupt Enable
CANTFLG equ CAN_BASE+$06,1 ;MSCAN Transmitter Flag Register
CAN_TXE0 @pin CANTFLG ;Transmitter Buffer Empty 0
CAN_TXE1 @pin ;Transmitter Buffer Empty 1
CAN_TXE2 @pin ;Transmitter Buffer Empty 2
CANTIER equ CAN_BASE+$07,1 ;MSCAN Transmitter Interrupt Enable Register
CAN_TXEIE0 @pin CANTIER ;Transmitter Empty Interrupt Enable 0
CAN_TXEIE1 @pin ;Transmitter Empty Interrupt Enable 1
CAN_TXEIE2 @pin ;Transmitter Empty Interrupt Enable 2
CANTARQ equ CAN_BASE+$08,1 ;MSCAN Transmitter Message Abort Request
CAN_ABTRQ0 @pin CANTARQ ;Abort Request 0
CAN_ABTRQ1 @pin ;Abort Request 1
CAN_ABTRQ2 @pin ;Abort Request 2
CANTAAK equ CAN_BASE+$09,1 ;MSCAN Transmitter Message Abort Control
CAN_ABTAK0 @pin CANTAAK ;Abort Acknowledge 0
CAN_ABTAK1 @pin ;Abort Acknowledge 1
CAN_ABTAK2 @pin ;Abort Acknowledge 2
CANTBSEL equ CAN_BASE+$0A,1 ;MSCAN Transmit Buffer Selection
CAN_TX0 @pin CANTBSEL ;Transmit Buffer Select 0
CAN_TX1 @pin ;Transmit Buffer Select 1
CAN_TX2 @pin ;Transmit Buffer Select 2
CANIDAC equ CAN_BASE+$0B,1 ;MSCAN Identifier Acceptance Control Register
CAN_IDHIT0 @pin CANIDAC ;Identifier Acceptance Hit Indicator 0
CAN_IDHIT1 @pin ;Identifier Acceptance Hit Indicator 1
CAN_IDHIT2 @pin ;Identifier Acceptance Hit Indicator 2
CAN_IDAM0 @pin CANIDAC,4 ;Identifier Acceptance Mode 0
CAN_IDAM1 @pin ;Identifier Acceptance Mode 1
CANMISC equ CAN_BASE+$0D,1 ;MSCAN Miscellaneous Register
CAN_BOHOLD @pin CANMISC ;Bus-off State Hold Until User Request - If BORM is set
CANRXERR equ CAN_BASE+$0E,1 ;MSCAN Receive Error Counter Register
CANTXERR equ CAN_BASE+$0F,1 ;MSCAN Transmit Error Counter Register
CANIDAR0 equ CAN_BASE+$10,1 ;MSCAN Identifier Acceptance Register 0
CANIDAR1 equ CAN_BASE+$11,1 ;MSCAN Identifier Acceptance Register 1
CANIDAR2 equ CAN_BASE+$12,1 ;MSCAN Identifier Acceptance Register 2
CANIDAR3 equ CAN_BASE+$13,1 ;MSCAN Identifier Acceptance Register 3
CANIDMR0 equ CAN_BASE+$14,1 ;MSCAN Identifier Mask Register 0
CANIDMR1 equ CAN_BASE+$15,1 ;MSCAN Identifier Mask Register 1
CANIDMR2 equ CAN_BASE+$16,1 ;MSCAN Identifier Mask Register 2
CANIDMR3 equ CAN_BASE+$17,1 ;MSCAN Identifier Mask Register 3
CANIDAR4 equ CAN_BASE+$18,1 ;MSCAN Identifier Acceptance Register 4
CANIDAR5 equ CAN_BASE+$19,1 ;MSCAN Identifier Acceptance Register 5
CANIDAR6 equ CAN_BASE+$1A,1 ;MSCAN Identifier Acceptance Register 6
CANIDAR7 equ CAN_BASE+$1B,1 ;MSCAN Identifier Acceptance Register 7
CANIDMR4 equ CAN_BASE+$1C,1 ;MSCAN Identifier Mask Register 4
CANIDMR5 equ CAN_BASE+$1D,1 ;MSCAN Identifier Mask Register 5
CANIDMR6 equ CAN_BASE+$1E,1 ;MSCAN Identifier Mask Register 6
CANIDMR7 equ CAN_BASE+$1F,1 ;MSCAN Identifier Mask Register 7
CANRIDR0 equ CAN_BASE+$20,1 ;MSCAN 0 Receive Identifier Register 0
CANRIDR1 equ CAN_BASE+$21,1 ;MSCAN 0 Receive Identifier Register 1
CANR_IDE @pin CANRIDR1,3 ;ID Extended
CANR_SRR @pin CANRIDR1,4 ;Substitute Remote Request
CANRIDR2 equ CAN_BASE+$22,1 ;MSCAN 0 Receive Identifier Register 2
CANRIDR3 equ CAN_BASE+$23,1 ;MSCAN 0 Receive Identifier Register 3
CANR_RTR @pin CANRIDR3 ;Remote Transmission Request
CANRDSR equ CAN_BASE+$24,8 ;MSCAN Receive Data Segment Registers
CANRDSR0 equ CAN_BASE+$24,1 ;MSCAN Receive Data Segment Register 0
CANRDSR1 equ CAN_BASE+$25,1 ;MSCAN Receive Data Segment Register 1
CANRDSR2 equ CAN_BASE+$26,1 ;MSCAN Receive Data Segment Register 2
CANRDSR3 equ CAN_BASE+$27,1 ;MSCAN Receive Data Segment Register 3
CANRDSR4 equ CAN_BASE+$28,1 ;MSCAN Receive Data Segment Register 4
CANRDSR5 equ CAN_BASE+$29,1 ;MSCAN Receive Data Segment Register 5
CANRDSR6 equ CAN_BASE+$2A,1 ;MSCAN Receive Data Segment Register 6
CANRDSR7 equ CAN_BASE+$2B,1 ;MSCAN Receive Data Segment Register 7
CANRDLR equ CAN_BASE+$2C,1 ;MSCAN Receive Data Length Register
CANR_DLC0 @pin CANRDLR ;Data Length Code Bit 0
CANR_DLC1 @pin ;Data Length Code Bit 1
CANR_DLC2 @pin ;Data Length Code Bit 2
CANR_DLC3 @pin ;Data Length Code Bit 3
CANRTSR equ CAN_BASE+$2E,2 ;MSCAN Receive Time Stamp Register
CANRTSRH equ CAN_BASE+$2E,1 ;MSCAN Receive Time Stamp Register High
CANRTSRL equ CAN_BASE+$2F,1 ;MSCAN Receive Time Stamp Register Low
CANTIDR0 equ CAN_BASE+$30,1 ;MSCAN 0 Transmit Identifier Register 0
CANTIDR1 equ CAN_BASE+$31,1 ;MSCAN 0 Transmit Identifier Register 1
CANT_IDE @pin CANTIDR1,3 ;ID Extended
CANT_SRR @pin CANTIDR1,4 ;Substitute Remote Request
CANTIDR2 equ CAN_BASE+$32,1 ;MSCAN 0 Transmit Identifier Register 2
CANTIDR3 equ CAN_BASE+$33,1 ;MSCAN 0 Transmit Identifier Register 3
CANT_RTR @pin CANTIDR3 ;Remote Transmission Request
CANTDSR equ CAN_BASE+$34,8 ;MSCAN Transmit Data Segment Registers
CANTDSR0 equ CAN_BASE+$34,1 ;MSCAN Transmit Data Segment Register 0
CANTDSR1 equ CAN_BASE+$35,1 ;MSCAN Transmit Data Segment Register 1
CANTDSR2 equ CAN_BASE+$36,1 ;MSCAN Transmit Data Segment Register 2
CANTDSR3 equ CAN_BASE+$37,1 ;MSCAN Transmit Data Segment Register 3
CANTDSR4 equ CAN_BASE+$38,1 ;MSCAN Transmit Data Segment Register 4
CANTDSR5 equ CAN_BASE+$39,1 ;MSCAN Transmit Data Segment Register 5
CANTDSR6 equ CAN_BASE+$3A,1 ;MSCAN Transmit Data Segment Register 6
CANTDSR7 equ CAN_BASE+$3B,1 ;MSCAN Transmit Data Segment Register 7
CANTDLR equ CAN_BASE+$3C,1 ;MSCAN Transmit Data Length Register
CANT_DLC0 @pin CANTDLR ;Data Length Code Bit 0
CANT_DLC1 @pin ;Data Length Code Bit 1
CANT_DLC2 @pin ;Data Length Code Bit 2
CANT_DLC3 @pin ;Data Length Code Bit 3
CANTTBPR equ CAN_BASE+$3D,1 ;MSCAN Transmit Buffer Priority
CANTTSR equ CAN_BASE+$3E,2 ;MSCAN Transmit Time Stamp Register
CANTTSRH equ CAN_BASE+$3E,1 ;MSCAN Transmit Time Stamp Register High
CANTTSRL equ CAN_BASE+$3F,1 ;MSCAN Transmit Time Stamp Register Low
;*******************************************************************************
NVFTRIM equ $FFAE,1 ;Non-volatile MCG Fine Trim
NVMCGTRM equ $FFAF,1 ;Non-volatile MCG Trim Register
NVICSTRM def NVMCGTRM,1 ;functionally equivalent to the NVICSTRM of other MCUs
NVPROT equ $FFBD,1 ;Non-volatile FLASH Protection Register
NVOPT equ $FFBF,1 ;Non-volatile FLASH Options Register
NVOPT_EPGMOD @pin NVOPT,5 ;EEPROM Sector Mode Bit
NVOPT_FNORED @pin NVOPT,6 ;Vector Redirection Disable Bit
NVOPT_KEYEN @pin NVOPT,7 ;Backdoor Key Security Enable Bit
; Flash commands
Blank_ equ $05 ;Blank Check command
ByteProg_ equ $20 ;Byte Program command
BurstProg_ equ $25 ;Burst Program command
PageErase_ equ $40 ;Page Erase command
MassErase_ equ $41 ;Mass Erase command
EraseAbort_ equ $47
; **** END OF ORIGINAL DEFINITIONS *********************************************
TEMPERATURE_CHANNEL equ 26 ;Channel for internal temperature
BANDGAP_CHANNEL equ 27 ;Channel for internal bandgap
BANDGAP_VOLTAGE def 1200 ;typical bandgap voltage in mV
NVBACKKEY equ $FFB0,8 ;8-byte backdoor comparison key ($FFB0..$FFB7)
FLASH_PAGE_SIZE equ 768 ;minimum that must be erased at once
#if FLASH_PAGE_SIZE <> 768
#Error FLASH_PAGE_SIZE should be fixed at 768
#endif
FLASH_DATA_SIZE def 0 ;default: no runtime flash storage
VECTORS equ $FFC0 ;start of fixed vectors
#ifdef RVECTORS
VECTORS set RVECTORS
#endif
; Vectors
#temp VECTORS
Vacmp2 next :temp,2 ;ACMP2 vector
Vacmp1 next :temp,2 ;ACMP1 vector
Vcantx next :temp,2
Vcanrx next :temp,2
Vcanerr next :temp,2
Vcanwu next :temp,2
Vrtc next :temp,2 ;Real-Time Clock
Viic next :temp,2 ;IIC vector
Vadc next :temp,2 ;A/D vector
Vport next :temp,2 ;Pin-interrupt
Vsci2tx next :temp,2 ;SCI2 transmit vector
Vsci2rx next :temp,2 ;SCI2 receive vector
Vsci2err next :temp,2 ;SCI2 error vector
Vsci1tx next :temp,2 ;SCI1 transmit vector
Vsci1rx next :temp,2 ;SCI1 receive vector
Vsci1err next :temp,2 ;SCI1 error vector
Vspi next :temp,2 ;SPI vector
Vtpm2ovf next :temp,2 ;TPM2 overflow
Vtpm2ch1 next :temp,2 ;TPM1 Channel 1
Vtpm2ch0 next :temp,2 ;TPM1 Channel 0
Vtpm1ovf next :temp,2 ;TPM1 overflow
Vtpm1ch5 next :temp,2 ;TPM1 Channel 5
Vtpm1ch4 next :temp,2 ;TPM1 Channel 4
Vtpm1ch3 next :temp,2 ;TPM1 Channel 3
Vtpm1ch2 next :temp,2 ;TPM1 Channel 2
Vtpm1ch1 next :temp,2 ;TPM1 Channel 1
Vtpm1ch0 next :temp,2 ;TPM1 Channel 0
Vlol next :temp,2
Vlvd next :temp,2 ;Low voltage detect
Virq next :temp,2 ;IRQ vector
Vswi next :temp,2 ;SWI vector
Vreset next :temp,2 ;Reset vector
Vtpmovf equ Vtpm1ovf,2
Vtpmch2 equ Vtpm1ch2,2
Vtpmch1 equ Vtpm1ch1,2
Vtpmch0 equ Vtpm1ch0,2
FLASH_DATA_SIZE align FLASH_PAGE_SIZE*2 ;round up to double block
TRUE_ROM equ $7C00 ;start of 33K Flash
EEPROM def $1600 ;only half of the EEPROM is
EEPROM_END def $17FF ;visible through this window
#ifdef BOOTROM
#if EEPROM_END >= BOOTROM
#Error FLASH_DATA_SIZE is too large
#endif
#endif
ROM def TRUE_ROM
ROM_END def $FF9F ;end of all flash (before NV registers and fixed vectors)
? macro
#temp $10000 ;;count down from 64K
mdo
#if ROM < :temp
#temp :temp-{FLASH_PAGE_SIZE*2} ;;back-up 1.5KB
mloop 64/2
#endif
?NVPROT_MASK def $3F-{:mloop*2-2/2}|%11000000 ;EEPROM always unprotected
endm
@? ;calculate NVPROT_MASK value
RAM def $80 ;start of 2KB RAM
RAM_END equ $FF ;last zero-page RAM location
XRAM equ $0100
XRAM_END equ $087F ;last RAM location
#ifdef BOOTRAM_END
RAM set BOOTRAM_END ;start of 8KB fragmented RAM
#endif
FLASH_START equ TRUE_ROM
FLASH_END equ ROM_END
#ifdef BOOT&BOOTROM
FLASH_END set BOOTROM-1
#endif
SERIAL_NUMBER equ $FFA0 ;start of optional S/N (FFA0-FFAD)
#ifndef MHZ||KHZ
HZ def 32000000 ;Cyclone 31250*1024
#endif
;-------------------------------------------------------------------------------
#Uses common.inc
;-------------------------------------------------------------------------------
#EEPROM EEPROM
#DATA
#ifndef BOOT||NO_CODE
org NVPROT ;NV flash protection byte
fcb ?NVPROT_MASK ;NVPROT transfers to FPROT on reset
#ifndef NVOPT_VALUE
#Message Using default NVOPT_VALUE (no vector redirection)
#endif
#ifdef DEBUG
NVOPT_VALUE def %11100010 ;NVFEOPT transfers to FOPT on reset