LIST
; MCP250XX.INC Standard Header File, Version 2.00 Microchip Technology, Inc.
NOLIST
; This header file is used to define the configuration for MCP250XX devices.
; To use this header file, include it in the beginning of a source file. Use
; the various macros below to select the configuration options. Then at the end
; of the source file, invoke the macro GENERATE.
;*******************************************************************************
;CHANGE HISTORY
;9/13/01 PKR Version 0.20
;- Added a "DEVICE" macro to select between mixed signal (MCP2505x) and digital
; only (MCP2502x) devices.
;- Fixed "RECEIVE_BUFFERS" and "TRANSMIT_BUFFERS" macro. Extended IDs were not
; being configured correctly.
;
;10/29/01 PKR Version 0.30
;- Corrected the DATA directives in the "GENERATE" macro to place bytes in the
; proper order. Bytes were incorrectly swapped in the resulting HEX file.
;
;11/14/01 PKR Version 1.00
;- Initial release
;
;06/25/02 PKR Version 2.00
;- Added the ability to configure the Configuration Word
;*******************************************************************************
; Quick Reference
;
; CAN Configuration Macros
; DEVICE SET_DEVICE
; RECEIVE_BUFFERS MASK, MID, FILTER0, F0ID, FILTER1, F1ID
; TRANSMIT_BUFFERS TXB0, TXB0ID, TXB1, TXB1ID, TXB2, TXB2ID
; CAN_BIT_TIMING BRP, SJW, PS1, PS2, PROP, SP, P2S, WF
; CAN_MODE MACRO MODE, PUMODE, TXID1MSG, ERROR_RECOVERY, TX_ON_ERROR, SLEEPMODE, MSGTYPE, PWM_POR, LOTOSLEEP
; SCHEDULED_TRANSMISSION MODE, INFO, MULTIPLIER, FREQUENCY
;
; Peripheral Configuration Macros
; CLOCK_OUT MODE, PRESCALER
; IO_DIRECTION B6, B5, B4, B3, B2, B1, B0
; IO_LATCH B6, B5, B4, B3, B2, B1, B0
; IO_FUNCTION B3, B2, B1, B0
; IO_XMIT_ON_CHANGE B7, B6, B5, B4, B3, B2, B1, B0
; IO_WEAK_PULLUPS MODE
; PWM1 TMRON, PRESCALER, PERIOD, DUTY_CYCLE
; PWM2 TMRON, PRESCALER, PERIOD, DUTY_CYCLE
; ADC_SETUP MODE, SEQ_DELAY, CLOCK_SOURCE, VREF_POS, VREF_NEG, TIME
; ADC_COMPARES CHANNEL0, CHANNEL1, CHANNEL2, CHANNEL3
;
; User Defined Configuration Macros
; SET_USER# VALUE
;
; Generate Configuration Information - REQUIRED!
; GENERATE
LIST P=EEPROM16, M=0x100
NOEXPAND
;*******************************************************************************
; __config
;
; Configuration bits
;
; Reset Setting & Osc Setting
; Example: __config _RST_ON & _HS_OSC
;
_RST_ON EQU H'3FFF'
_RST_OFF EQU H'3FFB'
_LP_OSC EQU H'3FFC'
_XT_OSC EQU H'3FFD'
_HS_OSC EQU H'3FFF'
;*******************************************************************************
;*******************************************************************************
; Initialize configuration words
;*******************************************************************************
;*******************************************************************************
IOINTEN SET H'FF'
IOINTPO SET H'FF'
GPLAT SET H'FF'
RES_03 SET H'FF'
OPTREG1 SET H'FF'
T1CON SET H'FF'
T2CON SET H'FF'
PR1 SET H'FF'
PR2 SET H'FF'
PWM1DCH SET H'FF'
PWM2DCH SET H'FF'
CNF1 SET H'FF'
CNF2 SET H'FF'
CNF3 SET H'FF'
ADCON0 SET H'FF'
ADCON1 SET H'FF'
STCON SET H'FF'
OPTREG2 SET H'FF'
RES_12 SET H'FF'
RES_13 SET H'FF'
RXMSIDH SET H'FF'
RXMSIDL SET H'FF'
RXMEID8 SET H'FF'
RXMEID0 SET H'FF'
RXF0SIDH SET H'FF'
RXF0SIDL SET H'FF'
RXF0EID8 SET H'FF'
RXF0EID0 SET H'FF'
RXF1SIDH SET H'FF'
RXF1SIDL SET H'FF'
RXF1EID8 SET H'FF'
RXF1EID0 SET H'FF'
TXID0SIDH SET H'FF'
TXID0SIDL SET H'FF'
TXID0EID8 SET H'FF'
TXID0EID0 SET H'FF'
TXID1SIDH SET H'FF'
TXID1SIDL SET H'FF'
TXID1EID8 SET H'FF'
TXID1EID0 SET H'FF'
TXID2SIDH SET H'FF'
TXID2SIDL SET H'FF'
TXID2EID8 SET H'FF'
TXID2EID0 SET H'FF'
ADCMP3H SET H'FF'
ADCMP3L SET H'FF'
ADCMP2H SET H'FF'
ADCMP2L SET H'FF'
ADCMP1H SET H'FF'
ADCMP1L SET H'FF'
ADCMP0H SET H'FF'
ADCMP0L SET H'FF'
GPDDR SET H'FF'
USER0 SET H'FF'
USER1 SET H'FF'
USER2 SET H'FF'
USER3 SET H'FF'
USER4 SET H'FF'
USER5 SET H'FF'
USER6 SET H'FF'
USER7 SET H'FF'
USER8 SET H'FF'
USER9 SET H'FF'
USERA SET H'FF'
USERB SET H'FF'
USERC SET H'FF'
USERD SET H'FF'
USERE SET H'FF'
USERF SET H'FF'
CRCSUM SET H'FF'
;*******************************************************************************
;*******************************************************************************
; Internal values
;*******************************************************************************
;*******************************************************************************
ADC_FOSC_2 EQU 0x00
ADC_FOSC_8 EQU 0x40
ADC_FOSC_32 EQU 0x80
ADC_FRC EQU 0xC0
ADC_RESULT EQU 0x40
ANALOG EQU 0
CLK_FOSC EQU 0x00
CLK_FOSC_2 EQU 0x10
CLK_FOSC_4 EQU 0x20
CLK_FOSC_8 EQU 0x30
CMD_ACK EQU 0x80
DIGITAL EQU 1
DISABLED EQU 0
ENABLED EQU 1
ERR_RECVRY_LO EQU 0x40
ERR_RECVRY_NORM EQU 0
EXTENDED EQU 1
EXTERNAL EQU 1
INPUT EQU 1
IO_FALL EQU 1
IO_RISE EQU 3
LISTEN_ONLY EQU 0x04
LO_TO_SLEEP_EN EQU 0x02
LO_TO_SLEEP_DIS EQU 0
MCP2502X EQU 0
MCP2505X EQU 1
MSG_TYPE_DATA EQU 0x08
MSG_TYPE_RTR EQU 0
NO_TX_ON_ERR EQU 0
NONE EQU 0x00
NORMAL EQU 0x00
OUTPUT EQU 0
PHASE1_AND_IPT EQU 0x00
PHASE2 EQU 0x80
PWRUP_LO EQU 0
PWRUP_NORM EQU 0x01
PWM_POR_DEF EQU 0x04
PWM_POR_UNCH EQU 0
RX_OVRFLW EQU 0
SLEEP_DIS EQU 0
SLEEP_EN EQU 0x10
STANDARD EQU 0
TIMES_1 EQU 0x00
TIMES_3 EQU 0x40
TOSC32 EQU 0x00
TOSC64 EQU 0x10
TOSC128 EQU 0x20
TOSC256 EQU 0x30
TOSC512 EQU 0x40
TOSC1024 EQU 0x50
TOSC2048 EQU 0x60
TOSC4096 EQU 0x70
TX_ON_ERR EQU 0x20
VDD EQU 0
VSS EQU 0
X1_64TOSC EQU 0x00
X2_64TOSC EQU 0x01
X4_64TOSC EQU 0x02
X8_64TOSC EQU 0x03
X1_4096TOSC EQU 0x00
X16_4096TOSC EQU 0x10
X256_4096TOSC EQU 0x20
X4096_4096TOSC EQU 0x30
DEVICE_NUM SET 0
;*******************************************************************************
;*******************************************************************************
; Configuration Macros
;*******************************************************************************
;*******************************************************************************
;*******************************************************************************
; DEVICE
;
; Call this macro to set the device for mixed signal (MCP2505X)
; or digital only (MCP2502X).
;
; SET_DEVICE enter MCP2505X or MCP2502X
DEVICE MACRO SET_DEVICE
DEVICE_NUM SET SET_DEVICE
ENDM
;*******************************************************************************
; RECEIVE_BUFFERS
;
; Call this macro to set up the receive buffers. Macro paramaters are:
;
; MASK message identifier [eleven (max 7FFh) or twenty nine bits (max 1FFFFFFF)]
; MID enter STANDARD or EXTENDED
; FILTER0 message identifier [eleven (max 7FFh) or twenty nine bits (max 1FFFFFFF)]
; F0ID enter STANDARD or EXTENDED
; FILTER1 message identifier [eleven (max 7FFh) or twenty nine bits (max 1FFFFFFF)]
; F1ID enter STANDARD or EXTENDED
RECEIVE_BUFFERS MACRO MASK, MID, FILTER0, F0ID, FILTER1, F1ID
IF MID == STANDARD
RXMSIDH SET MASK >> 3
RXMSIDL SET ((MASK & 0x07) << 5) + 3
ELSE
RXMSIDH SET (MASK >> 0x15) & 0xFF
RXMSIDL SET 0x08 + (((MASK >> 0x0D) & 0xE0) | ((MASK >> 0x10) & 0x03))
RXMEID8 SET (MASK >> 8) & 0xFF
RXMEID0 SET MASK & 0xFF
ENDIF
IF F0ID == STANDARD
RXF0SIDH SET FILTER0 >> 3
RXF0SIDL SET ((FILTER0 & 0x07) << 5) + 3
ELSE
RXF0SIDH SET (FILTER0 >> 0x15) & 0xFF
RXF0SIDL SET 0x08 + (((FILTER0 >> 0x0D) & 0xE0) | ((FILTER0 >> 0x10) & 0x03))
RXF0EID8 SET (FILTER0 >> 8) & 0xFF
RXF0EID0 SET FILTER0 & 0xFF
ENDIF
IF F1ID == STANDARD
RXF1SIDH SET FILTER1 >> 3
RXF1SIDL SET ((FILTER1 & 0x07) << 5) + 3
ELSE
RXF1SIDH SET (FILTER1 >> 0x15) & 0xFF
RXF1SIDL SET 0x08 + (((FILTER1 >> 0x0D) & 0xE0) | ((FILTER1 >> 0x10) & 0x03))
RXF1EID8 SET (FILTER1 >> 8) & 0xFF
RXF1EID0 SET FILTER1 & 0xFF
ENDIF
ENDM
;*******************************************************************************
; TRANSMIT_BUFFERS
;
; Call this macro to set up the transmit buffers. Macro parameters are:
;
; TXB0 message identifier [eleven (max 7FFh) or twenty nine bits (max 1FFFFFFF)]
; TXB0ID enter STANDARD or EXTENDED
; TXB1 message identifier [eleven (max 7FFh) or twenty nine bits (max 1FFFFFFF)]
; TXB1ID enter STANDARD or EXTENDED
; TXB2 message identifier [eleven (max 7FFh) or twenty nine bits (max 1FFFFFFF)]
; TXB2ID enter STANDARD or EXTENDED
TRANSMIT_BUFFERS MACRO TXB0, TXB0ID, TXB1, TXB1ID, TXB2, TXB2ID
IF TXB0ID == STANDARD
TXID0SIDH SET TXB0 >> 3
TXID0SIDL SET ((TXB0 & 0x07) << 5) + 3
ELSE
TXID0SIDH SET (TXB0 >> 0x15) & 0xFF
TXID0SIDL SET 0x08 + (((TXB0 >> 0x0D) & 0xE0) | ((TXB0 >> 0x10) & 0x03))
TXID0EID8 SET (TXB0 >> 8) & 0xFF
TXID0EID0 SET TXB0 & 0xFF
ENDIF
IF TXB1ID == STANDARD
TXID1SIDH SET TXB1 >> 3
TXID1SIDL SET ((TXB1 & 0x07) << 5) + 3
ELSE
TXID1SIDH SET (TXB1 >> 0x15) & 0xFF
TXID1SIDL SET 0x08 + (((TXB1 >> 0x0D) & 0xE0) | ((TXB1 >> 0x10) & 0x03))
TXID1EID8 SET (TXB1 >> 8) & 0xFF
TXID1EID0 SET TXB1 & 0xFF
ENDIF
IF TXB2ID == STANDARD
TXID2SIDH SET TXB2 >> 3
TXID2SIDL SET ((TXB2 & 0x07) << 5) + 3
ELSE
TXID2SIDH SET (TXB2 >> 0x15) & 0xFF
TXID2SIDL SET 0x08 + (((TXB2 >> 0x0D) & 0xE0) | ((TXB2 >> 0x10) & 0x03))
TXID2EID8 SET (TXB2 >> 8) & 0xFF
TXID2EID0 SET TXB2 & 0xFF
ENDIF
ENDM
;*******************************************************************************
; CAN_BIT_TIMING
;
; Call this macro to set up the CAN bit timing. Macro parameters are:
;
; BRP Baud Rate Prescaler enter a value from 0 to 0x3F
; SJW Synchronized Jump Width enter a value from 1 to 4
; PS1 Phase 1 Segment Width enter a value from 1 to 8
; PS2 Phase 2 Segment Width enter a value from 2 to 8
; PROP Propagation Width enter a value from 1 to 8
; SP Sample Point enter TIMES_3 or TIMES_1
; P2S Phase 2 Source enter PHASE2 or PHASE1_IPT
; WF Wake-up Filter enter ENABLED or DISABLED
CAN_BIT_TIMING MACRO BRP, SJW, PS1, PS2, PROP, SP, P2S, WF
CNF1 SET ((SJW-1) << 6) + BRP
CNF2 SET P2S + (SP << 6) + ((PS1-1) << 3) + (PROP-1)
CNF3 SET (WF << 6) + (PS2-1)
ENDM
;*******************************************************************************
; CAN_MODE
;
; Call this macro to set up the initial CAN mode. Macro parameters are:
;
; MODE enter NORMAL or LISTEN_ONLY
; PUMODE enter PWRUP_NORM or PWRUP_LO
; TXID1MSG enter CMD_ACK or RX_OVRFLW
; ERROR_RECOVERY enter ERR_RECVRY_LO or ERR_RECVRY_NORM
; TX_ON_ERROR enter TX_ON_ERR or NO_TX_ON_ERR
; SLEEPMODE enter SLEEP_EN or SLEEP_DIS
; MSGTYPE enter MSG_TYPE_DATA or MSG_TYPE_RTR
; PWM_POR enter PWM_POR_DEF OR PWM_POR_UNCH
; LOTOSLEEP enter LO_TO_SLEEP_EN OR LO_TO_SLEEP_DIS
CAN_MODE MACRO MODE, PUMODE, TXID1MSG, ERROR_RECOVERY, TX_ON_ERROR, SLEEPMODE, MSGTYPE, PWM_POR, LOTOSLEEP
TEMP SET PUMODE | TXID1MSG | ERROR_RECOVERY | TX_ON_ERROR
OPTREG2 SET TEMP | SLEEPMODE | MSGTYPE | PWM_POR | LOTOSLEEP
OPTREG1 SET (OPTREG1 & 0xF3) | MODE
ENDM
;*******************************************************************************
; SCHEDULED_TRANSMISSION
;
; Call this macro to set up scheduled transmission. Macro parameters are:
;
; MODE enter ENABLED or DISABLED
; INFO enter NONE or ADC_RESULT
; MULTIPLIER enter a value from 1 to 0x10
; FREQUENCY enter X1_4096TOSC, X16_4096TOSC, X256_4096TOSC, or
; X4096_4096TOSC
SCHEDULED_TRANSMISSION MACRO MODE, INFO, MULTIPLIER, FREQUENCY
STCON SET (MODE << 7) + INFO + FREQUENCY + (MULTIPLIER-1)
ENDM
;*******************************************************************************
; CLOCK_OUT
;
; Call this macro to configure the Clock Out Function. Macro parameters are:
;
; MODE enter ENABLED or DISABLED
; PRESCALER enter CLK_FOSC, CLK_FOSC_2, CLK_FOSC_4, or CLK_FOSC_8
CLOCK_OUT MACRO MODE, PRESCALER
IF MODE == 0
OPTREG1 SET (OPTREG1 & 0x8F) | (0x40 + PRESCALER)
ELSE
OPTREG1 SET (OPTREG1 & 0x8F) | PRESCALER
ENDIF
ENDM
;*******************************************************************************
; IO_DIRECTION
;
; Call this macro to set up the I/O direction for the digital I/O's.
; Macro parameters are:
;
; B6 enter INPUT or OUTPUT for pin GP6
; B5 enter INPUT or OUTPUT for pin GP5
; B4 enter INPUT or OUTPUT for pin GP4
; B3 enter INPUT or OUTPUT for pin GP3
; B2 enter INPUT or OUTPUT for pin GP2
; B1 enter INPUT or OUTPUT for pin GP1
; B0 enter INPUT or OUTPUT for pin GP0
IO_DIRECTION MACRO B6, B5, B4, B3, B2, B1, B0
TEMP SET (((((B6 << 1) + B5) << 1) + B4) << 1) + B3
GPDDR SET (((((TEMP << 1) + B2) << 1) + B1) << 1) + B0
ENDM
;*******************************************************************************
; IO_LATCH
;
; Call this macro to set the latch values for the digital I/O's. Macro
; parameters are:
;
; B6 enter 0 or 1 for pin GP6
; B5 enter 0 or 1 for pin GP5
; B4 enter 0 or 1 for pin GP4
; B3 enter 0 or 1 for pin GP3
; B2 enter 0 or 1 for pin GP2
; B1 enter 0 or 1 for pin GP1
; B0 enter 0 or 1 for pin GP0
IO_LATCH MACRO B6, B5, B4, B3, B2, B1, B0
TEMP SET (((((B6 << 1) + B5) << 1) + B4) << 1) + B3
GPLAT SET (((((TEMP << 1) + B2) << 1) + B1) << 1) + B0
ENDM
;*******************************************************************************
; IO_FUNCTION
;
; Call this macro to set the pin function to analog or digital. Macro
; parameters are:
;
; B3 enter ANALOG or DIGITAL for pin AN3
; B2 enter ANALOG or DIGITAL for pin AN2
; B1 enter ANALOG or DIGITAL for pin AN1
; B0 enter ANALOG or DIGITAL for pin AN0
IO_FUNCTION MACRO B3, B2, B1, B0
IF DEVICE_NUM == MCP2502X
ADCON1 SET 0x0F
ELSE
ADCON1 SET (ADCON1 & 0xF0) | (((((B3 << 1) + B2) << 1) + B1) << 1) + B0
ENDIF
ENDM
;*******************************************************************************
; IO_XMIT_ON_CHANGE
;
; Call this macro to set the Transmit on Change for each pin. Macro parameters
; are:
;
; B7 enter DISABLE, IO_RISE, or IO_FALL for pin GP7
; B6 enter DISABLE, IO_RISE, or IO_FALL for pin GP6
; B5 enter DISABLE, IO_RISE, or IO_FALL for pin GP5
; B4 enter DISABLE, IO_RISE, or IO_FALL for pin GP4
; B3 enter DISABLE, IO_RISE, or IO_FALL for pin GP3
; B2 enter DISABLE, IO_RISE, or IO_FALL for pin GP2
; B1 enter DISABLE, IO_RISE, or IO_FALL for pin GP1
; B0 enter DISABLE, IO_RISE, or IO_FALL for pin GP0
IO_XMIT_ON_CHANGE MACRO B7, B6, B5, B4, B3, B2, B1, B0
TEMP SET ((((((B7&1) << 1) + (B6&1)) << 1) + (B5&1)) << 1) + (B4&1)
IOINTEN SET (((((((TEMP << 1) + (B3&1)) << 1) + (B2&1)) << 1) + (B1&1)) << 1) + (B0&1)
TEMP SET ((((((B7&2) <<1) + (B6&2)) << 1) + (B5&2)) << 1) + (B4&2)
IOINTPO SET (((((((TEMP << 1) + (B3&2)) << 1) + (B2&2)) << 1) + (B1&2)) << 1) + (B0&2)
ENDM
;*******************************************************************************
; IO_WEAK_PULLUPS
;
; Call this macro to configure weak pull-ups. Macro parameters are:
;
; MODE enter ENABLED or DISABLED
IO_WEAK_PULLUPS MACRO MODE
IF MODE == 0
OPTREG1 SET (OPTREG1 & 0x7F) | 0x80
ELSE
OPTREG1 SET (OPTREG1 & 0x7F)
ENDIF
ENDM
;*******************************************************************************
; PWM1
;
; Call this macro to configure PWM1. Macro parameters are:
;
; TMRON enter ENABLED or DISABLED
; PRESCALER Timer Prescaler; enter 1, 4, or 0x10
; PERIOD PWM Period; enter a value from 0 to 0xFF
; DUTY_CYCLE PWM Duty Cycle; enter a value from 0 to 0x3FF
PWM1 MACRO TMRON, PRESCALER, PERIOD, DUTY_CYCLE
IF PRESCALER == 0x10
TEMP SET 0x20
ELSE
IF PRESCALER == 4
TEMP SET 0x10
ELSE
TEMP SET 0x00
ENDIF
ENDIF
T1CON SET (TMRON << 7) | TEMP | (DUTY_CYCLE & 0x03)
PR1 SET PERIOD
PWM1DCH SET DUTY_CYCLE >> 2
ENDM
;*******************************************************************************
; PWM2
;
; Call this macro to configure PWM2. Macro parameters are:
;
; TMRON enter ENABLED or DISABLED
; PRESCALER Timer Prescaler; enter 1, 4, or 0x10
; PERIOD PWM Period; enter a value from 0 to 0xFF
; DUTY_CYCLE PWM Duty Cycle; enter a value from 0 to 0x3FF
PWM2 MACRO TMRON, PRESCALER, PERIOD, DUTY_CYCLE
IF PRESCALER == 0x10
TEMP SET 0x20
ELSE
IF PRESCALER == 4
TEMP SET 0x10
ELSE
TEMP SET 0x00
ENDIF
ENDIF
T2CON SET (TMRON << 7) | TEMP | (DUTY_CYCLE & 0x03)
PR2 SET PERIOD
PWM2DCH SET DUTY_CYCLE >> 2
ENDM
;*******************************************************************************
; ADC_SETUP
;
; Call this macro to set up the ADC. Macro parameters are:
;
; MODE enter ENABLED or DISABLED
; SEQ_DELAY Minimum Sequence Delay; enter TOSC32, TOSC64, TOSC128,
; TOSC256, TOSC512, TOSC1024, TOSC2048, or TOSC4096
; CLOCK_SOURCE Clock Source; enter ADC_FOSC_2, ADC_FOSC_8, ADC_FOSC_32,
; or ADC_FRC
; VREF_POS Vref+ Source; enter VDD or EXTERNAL
; VREF_NEG Vref- Source; enter VSS or EXTERNAL
; TIME Acquisition Time; enter X1_64TOSC, X2_64TOSC, X4_64TOSC,
; or X8_64TOSC
;
; Note: Be sure to call the macro IO_FUNCTION to configure the pins as
; analog or digital.
ADC_SETUP MACRO MODE, SEQ_DELAY, CLOCK_SOURCE, VREF_POS, VREF_NEG, TIME
IF DEVICE_NUM == MCP2502X
ADCON0 SET 0x00
ADCON1 SET 0x0F
OPTREG1 SET (OPTREG1 & 0xFC)
ELSE
ADCON0 SET (MODE << 7) + SEQ_DELAY
TEMP SET CLOCK_SOURCE + (VREF_NEG << 5) + (VREF_POS << 4)
ADCON1 SET (ADCON1 & 0x0F) | TEMP
OPTREG1 SET (OPTREG1 & 0xFC) | TIME
ENDIF
ENDM
;*******************************************************************************
; ADC_COMPARES
;
; Call this macro to set up the ADC compare values. Macro parameters are:
;
; CHANNEL0 enter a value from 0 to 0x3FF
; CHANNEL1 enter a value from 0 to 0x3FF
; CHANNEL2 enter a value from 0 to 0x3FF
; CHANNEL3 enter a value from 0 to 0x3FF
ADC_COMPARES MACRO CHANNEL0, CHANNEL1, CHANNEL2, CHANNEL3
IF DEVICE_NUM == MCP2502X
ADCMP0L SET 0x00
ADCMP0H SET 0x00
ADCMP1L SET 0x00
ADCMP1H SET 0x00
ADCMP2L SET 0x00
ADCMP2H SET 0x00
ADCMP3L SET 0x00
ADCMP3H SET 0x00
ELSE ;IF DEVICE_NUM == MCP2505X
ADCMP0L SET (CHANNEL0 & 0x003) << 6
ADCMP0H SET (CHANNEL0 & 0x3FC) >> 2
ADCMP1L SET (CHANNEL1 & 0x003) << 6
ADCMP1H SET (CHANNEL1 & 0x3FC) >> 2
ADCMP2L SET (CHANNEL2 & 0x003) << 6
ADCMP2H SET (CHANNEL2 & 0x3FC) >> 2
ADCMP3L SET (CHANNEL3 & 0x003) << 6
ADCMP3H SET (CHANNEL3 & 0x3FC) >> 2
ENDIF
ENDM
;*******************************************************************************
; SET_USER#
;
; Call these macros to set the user data values. Macro parameters are:
;
; VALUE enter a value from 0 to 0xFF
SET_USER0 MACRO VALUE
USER0 SET VALUE
ENDM
SET_USER1 MACRO VALUE
USER1 SET VALUE
ENDM
SET_USER2 MACRO VALUE
USER2 SET VALUE
ENDM
SET_USER3 MACRO VALUE
USER3 SET VALUE
ENDM
SET_USER4 MACRO VALUE
USER4 SET VALUE
ENDM
SET_USER5 MACRO VALUE
USER5 SET VALUE
ENDM
SET_USER6 MACRO VALUE
USER6 SET VALUE
ENDM
SET_USER7 MACRO VALUE
USER7 SET VALUE
ENDM
SET_USER8 MACRO VALUE
USER8 SET VALUE
ENDM
SET_USER9 MACRO VALUE
USER9 SET VALUE
ENDM
SET_USERA MACRO VALUE
USERA SET VALUE
ENDM
SET_USERB MACRO VALUE
USERB SET VALUE
ENDM
SET_USERC MACRO VALUE
USERC SET VALUE
ENDM
SET_USERD MACRO VALUE
USERD SET VALUE
ENDM
SET_USERE MACRO VALUE
USERE SET VALUE
ENDM
SET_USERF MACRO VALUE
USERF SET VALUE
ENDM
;*******************************************************************************
; GENERATE
;
; Call this macro after using all of the other macros to configure the device.
; This macro will actually generate the hex file output to configure the
; device using a Device Programmer. This macro has no parameters.
GENERATE MACRO
TEMP SET IOINTEN + IOINTPO + GPLAT + RES_03 + OPTREG1 + T1CON
TEMP SET TEMP + T2CON + PR1 + PR2 + PWM1DCH + PWM2DCH + CNF1
TEMP SET TEMP + CNF2 + CNF3 + ADCON0 + ADCON1 + STCON + OPTREG2
TEMP SET TEMP + RES_12 + RES_13 + RXMSIDH + RXMSIDL + RXMEID8
TEMP SET TEMP + RXMEID0 + RXF0SIDH + RXF0SIDL + RXF0EID8 + RXF0EID0
TEMP SET TEMP + RXF1SIDH + RXF1SIDL + RXF1EID8 + RXF1EID0 + TXID0SIDH
TEMP SET TEMP + TXID0SIDL + TXID0EID8 + TXID0EID0 + TXID1SIDH
TEMP SET TEMP + TXID1SIDL + TXID1EID8 + TXID1EID0 + TXID2SIDH
TEMP SET TEMP + TXID2SIDL + TXID2EID8 + TXID2EID0 + ADCMP3H + ADCMP3L
TEMP SET TEMP + ADCMP2H + ADCMP2L + ADCMP1H + ADCMP1L + ADCMP0H + ADCMP0L
TEMP SET TEMP + GPDDR + USER0 + USER1 + USER2 + USER3 + USER4 + USER5
TEMP SET TEMP + USER6 + USER7 + USER8 + USER9 + USERA + USERB + USERC
TEMP SET TEMP + USERD + USERE + USERF
CRCSUM SET (-TEMP) & 0xFF
; EXPAND
DATA 0x34 | ((IOINTEN & 0xFF) << 8)
DATA 0x34 | ((IOINTPO & 0xFF) << 8)
DATA 0x34 | ((GPLAT & 0xFF) << 8)
DATA 0x34 | ((RES_03 & 0xFF) << 8)
DATA 0x34 | ((OPTREG1 & 0xFF) << 8)
DATA 0x34 | ((T1CON & 0xFF) << 8)
DATA 0x34 | ((T2CON & 0xFF) << 8)
DATA 0x34 | ((PR1 & 0xFF) << 8)
DATA 0x34 | ((PR2 & 0xFF) << 8)
DATA 0x34 | ((PWM1DCH & 0xFF) << 8)
DATA 0x34 | ((PWM2DCH & 0xFF) << 8)
DATA 0x34 | ((CNF1 & 0xFF) << 8)
DATA 0x34 | ((CNF2 & 0xFF) << 8)
DATA 0x34 | ((CNF3 & 0xFF) << 8)
DATA 0x34 | ((ADCON0 & 0xFF) << 8)
DATA 0x34 | ((ADCON1 & 0xFF) << 8)
DATA 0x34 | ((STCON & 0xFF) << 8)
DATA 0x34 | ((OPTREG2 & 0xFF) << 8)
DATA 0x34 | ((RES_12 & 0xFF) << 8)
DATA 0x34 | ((RES_13 & 0xFF) << 8)
DATA 0x34 | ((RXMSIDH & 0xFF) << 8)
DATA 0x34 | ((RXMSIDL & 0xFF) << 8)
DATA 0x34 | ((RXMEID8 & 0xFF) << 8)
DATA 0x34 | ((RXMEID0 & 0xFF) << 8)
DATA 0x34 | ((RXF0SIDH & 0xFF) << 8)
DATA 0x34 | ((RXF0SIDL & 0xFF) << 8)
DATA 0x34 | ((RXF0EID8 & 0xFF) << 8)
DATA 0x34 | ((RXF0EID0 & 0xFF) << 8)
DATA 0x34 | ((RXF1SIDH & 0xFF) << 8)
DATA 0x34 | ((RXF1SIDL & 0xFF) << 8)
DATA 0x34 | ((RXF1EID8 & 0xFF) << 8)
DATA 0x34 | ((RXF1EID0 & 0xFF) << 8)
DATA 0x34 | ((TXID0SIDH & 0xFF) << 8)
DATA 0x34 | ((TXID0SIDL & 0xFF) << 8)
DATA 0x34 | ((TXID0EID8 & 0xFF) << 8)
DATA 0x34 | ((TXID0EID0 & 0xFF) << 8)
DATA 0x34 | ((TXID1SIDH & 0xFF) << 8)
DATA 0x34 | ((TXID1SIDL & 0xFF) << 8)
DATA 0x34 | ((TXID1EID8 & 0xFF) << 8)
DATA 0x34 | ((TXID1EID0 & 0xFF) << 8)
DATA 0x34 | ((TXID2SIDH & 0xFF) << 8)
DATA 0x34 | ((TXID2SIDL & 0xFF) << 8)
DATA 0x34 | ((TXID2EID8 & 0xFF) << 8)
DATA 0x34 | ((TXID2EID0 & 0xFF) << 8)
DATA 0x34 | ((ADCMP3H & 0xFF) << 8)
DATA 0x34 | ((ADCMP3L & 0xFF) << 8)
DATA 0x34 | ((ADCMP2H & 0xFF) << 8)
DATA 0x34 | ((ADCMP2L & 0xFF) << 8)
DATA 0x34 | ((ADCMP1H & 0xFF) << 8)
DATA 0x34 | ((ADCMP1L & 0xFF) << 8)
DATA 0x34 | ((ADCMP0H & 0xFF) << 8)
DATA 0x34 | ((ADCMP0L & 0xFF) << 8)
DATA 0x34 | ((GPDDR & 0xFF) << 8)
DATA 0x34 | ((USER0 & 0xFF) << 8)
DATA 0x34 | ((USER1 & 0xFF) << 8)
DATA 0x34 | ((USER2 & 0xFF) << 8)
DATA 0x34 | ((USER3 & 0xFF) << 8)
DATA 0x34 | ((USER4 & 0xFF) << 8)
DATA 0x34 | ((USER5 & 0xFF) << 8)
DATA 0x34 | ((USER6 & 0xFF) << 8)
DATA 0x34 | ((USER7 & 0xFF) << 8)
DATA 0x34 | ((USER8 & 0xFF) << 8)
DATA 0x34 | ((USER9 & 0xFF) << 8)
DATA 0x34 | ((USERA & 0xFF) << 8)
DATA 0x34 | ((USERB & 0xFF) << 8)
DATA 0x34 | ((USERC & 0xFF) << 8)
DATA 0x34 | ((USERD & 0xFF) << 8)
DATA 0x34 | ((USERE & 0xFF) << 8)
DATA 0x34 | ((USERF & 0xFF) << 8)
DATA 0x34 | ((CRCSUM & 0xFF) << 8)
ENDM
LIST
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