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olympus_trigger
time_trigger
firmware
m8def.inc
initial checkin of Olympus trigger tools
Stefan Schuermans
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a149600
at 2013-10-26 20:14:19
m8def.inc
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;*************************************************************************** ;* A P P L I C A T I O N N O T E F O R T H E A V R F A M I L Y ;* ;* Number :AVR000 ;* File Name :"m8def.inc" ;* Title :Register/Bit Definitions for the ATmega8 ;* Date :07.09.2001 ;* Version :1.00 ;* Support telephone :+47 72 88 43 88 (ATMEL Norway) ;* Support fax :+47 72 88 43 99 (ATMEL Norway) ;* Support E-mail :avr@atmel.no ;* Target MCU :ATmega8 ;* ;* DESCRIPTION ;* When including this file in the assembly program file, all I/O register ;* names and I/O register bit names appearing in the data book can be used. ;* In addition, the six registers forming the three data pointers X, Y and ;* Z have been assigned names XL - ZH. Highest RAM address for Internal ;* SRAM is also defined ;* ;* The Register names are represented by their hexadecimal address. ;* ;* The Register Bit names are represented by their bit number (0-7). ;* ;* Please observe the difference in using the bit names with instructions ;* such as "sbr"/"cbr" (set/clear bit in register) and "sbrs"/"sbrc" ;* (skip if bit in register set/cleared). The following example illustrates ;* this: ;* ;* in r16,PORTB ;read PORTB latch ;* sbr r16,(1<<PB6)+(1<<PB5) ;set PB6 and PB5 (use masks, not bit#) ;* out PORTB,r16 ;output to PORTB ;* ;* in r16,TIFR ;read the Timer Interrupt Flag Register ;* sbrc r16,TOV0 ;test the overflow flag (use bit#) ;* rjmp TOV0_is_set ;jump if set ;* ... ;otherwise do something else ;*************************************************************************** ;***** Specify Device .device ATmega8 ;***** I/O Register Definitions .equ SREG =$3f .equ SPH =$3e .equ SPL =$3d .equ GIMSK =$3b .equ GICR =$3b ; new name for GIMSK .equ GIFR =$3a .equ TIMSK =$39 .equ TIFR =$38 .equ SPMCR =$37 .equ I2CR =$36 .equ TWCR =$36 .equ MCUCR =$35 .equ MCUSR =$34 ; For compatibility, .equ MCUCSR =$34 ; keep both names until further .equ TCCR0 =$33 .equ TCNT0 =$32 .equ OSCCAL =$31 .equ SFIOR =$30 .equ TCCR1A =$2f .equ TCCR1B =$2e .equ TCNT1H =$2d .equ TCNT1L =$2c .equ OCR1AH =$2b .equ OCR1AL =$2a .equ OCR1BH =$29 .equ OCR1BL =$28 .equ ICR1H =$27 .equ ICR1L =$26 .equ TCCR2 =$25 .equ TCNT2 =$24 .equ OCR2 =$23 .equ ASSR =$22 .equ WDTCR =$21 .equ UBRRH =$20 ; Note! UCSRC equals UBRRH .equ EEARH =$1f .equ EEARL =$1e .equ EEDR =$1d .equ EECR =$1c .equ PORTB =$18 .equ DDRB =$17 .equ PINB =$16 .equ PORTC =$15 .equ DDRC =$14 .equ PINC =$13 .equ PORTD =$12 .equ DDRD =$11 .equ PIND =$10 .equ SPDR =$0f .equ SPSR =$0e .equ SPCR =$0d .equ UDR =$0c .equ UCSRA =$0b .equ UCSRB =$0a .equ UCSRC =$20 ; Note! UCSRC equals UBRRH .equ UBRRL =$09 .equ ACSR =$08 .equ ADMUX =$07 .equ ADCSRA =$06 .equ ADCH =$05 .equ ADCL =$04 .equ I2DR =$03 .equ I2AR =$02 .equ I2SR =$01 .equ I2BR =$00 .equ TWDR =$03 .equ TWAR =$02 .equ TWSR =$01 .equ TWBR =$00 ;***** Bit Definitions ;GICR (former GIMSK) .equ INT1 =7 .equ INT0 =6 .equ IVSEL =1 ; interrupt vector select .equ IVCE =0 ; interrupt vector change enable ;GIFR .equ INTF1 =7 .equ INTF0 =6 ;TIMSK .equ TOIE0 =0 .equ TOIE1 =2 .equ OCIE1B =3 .equ OCIE1A =4 .equ TICIE1 =5 .equ TOIE2 =6 .equ OCIE2 =7 ;TIFR .equ TOV0 =0 .equ TOV1 =2 .equ OCF1B =3 .equ OCF1A =4 .equ ICF1 =5 .equ TOV2 =6 .equ OCF2 =7 ;SPMCR .equ SPMIE =7 .equ RWWSB =6 .equ RWWSRE =4 .equ BLBSET =3 .equ PGWRT =2 .equ PGERS =1 .equ SPMEN =0 ;MCUCR .equ SE =7 .equ SM2 =6 .equ SM1 =5 .equ SM0 =4 .equ ISC11 =3 .equ ISC10 =2 .equ ISC01 =1 .equ ISC00 =0 ;MCUCSR .equ WDRF =3 .equ BORF =2 .equ EXTRF =1 .equ PORF =0 ;TCCR0 .equ CS02 =2 .equ CS01 =1 .equ CS00 =0 ;TCCR1A .equ COM1A1 =7 .equ COM1A0 =6 .equ COM1B1 =5 .equ COM1B0 =4 .equ FOC1A =3 .equ FOC1B =2 .equ PWM11 =1 ; OBSOLETE! Use WGM11 .equ PWM10 =0 ; OBSOLETE! Use WGM10 .equ WGM11 =1 .equ WGM10 =0 ;TCCR1B .equ ICNC1 =7 .equ ICES1 =6 .equ CTC11 =4 ; OBSOLETE! Use WGM13 .equ CTC10 =3 ; OBSOLETE! Use WGM12 .equ WGM13 =4 .equ WGM12 =3 .equ CTC1 =3 ; Obsolete - Included for backward compatibility .equ CS12 =2 .equ CS11 =1 .equ CS10 =0 ;TCCR2 .equ FOC2 =7 .equ PWM2 =6 ; OBSOLETE! Use WGM20 .equ WGM20 =6 .equ COM21 =5 .equ COM20 =4 .equ CTC2 =3 ; OBSOLETE! Use WGM21 .equ WGM21 =3 .equ CS22 =2 .equ CS21 =1 .equ CS20 =0 ;SFIOR .equ ADHSM =4 .equ ACME =3 .equ PUD =2 .equ PSR2 =1 .equ PSR10 =0 ;WDTCR .equ WDCE =4 .equ WDTOE =4 .equ WDE =3 .equ WDP2 =2 .equ WDP1 =1 .equ WDP0 =0 ;EECR .equ EERIE =3 .equ EEMWE =2 .equ EEWE =1 .equ EERE =0 ;PORTB .equ PB7 =7 .equ PB6 =6 .equ PB5 =5 .equ PB4 =4 .equ PB3 =3 .equ PB2 =2 .equ PB1 =1 .equ PB0 =0 ;DDRB .equ DDB7 =7 .equ DDB6 =6 .equ DDB5 =5 .equ DDB4 =4 .equ DDB3 =3 .equ DDB2 =2 .equ DDB1 =1 .equ DDB0 =0 ;PINB .equ PINB7 =7 .equ PINB6 =6 .equ PINB5 =5 .equ PINB4 =4 .equ PINB3 =3 .equ PINB2 =2 .equ PINB1 =1 .equ PINB0 =0 ;PORTC .equ PC6 =6 .equ PC5 =5 .equ PC4 =4 .equ PC3 =3 .equ PC2 =2 .equ PC1 =1 .equ PC0 =0 ;DDRC .equ DDC6 =6 .equ DDC5 =5 .equ DDC4 =4 .equ DDC3 =3 .equ DDC2 =2 .equ DDC1 =1 .equ DDC0 =0 ;PINC .equ PINC6 =6 .equ PINC5 =5 .equ PINC4 =4 .equ PINC3 =3 .equ PINC2 =2 .equ PINC1 =1 .equ PINC0 =0 ;PORTD .equ PD7 =7 .equ PD6 =6 .equ PD5 =5 .equ PD4 =4 .equ PD3 =3 .equ PD2 =2 .equ PD1 =1 .equ PD0 =0 ;DDRD .equ DDD7 =7 .equ DDD6 =6 .equ DDD5 =5 .equ DDD4 =4 .equ DDD3 =3 .equ DDD2 =2 .equ DDD1 =1 .equ DDD0 =0 ;PIND .equ PIND7 =7 .equ PIND6 =6 .equ PIND5 =5 .equ PIND4 =4 .equ PIND3 =3 .equ PIND2 =2 .equ PIND1 =1 .equ PIND0 =0 ;UCSRA .equ RXC =7 .equ TXC =6 .equ UDRE =5 .equ FE =4 ;.equ OR =3 ; old name kept for compatibilty .equ DOR =3 .equ UPE =2 .equ PE =2 .equ U2X =1 .equ MPCM =0 ;UCSRB .equ RXCIE =7 .equ TXCIE =6 .equ UDRIE =5 .equ RXEN =4 .equ TXEN =3 .equ CHR9 =2 ; old name kept for compatibilty .equ UCSZ2 =2 .equ RXB8 =1 .equ TXB8 =0 ;UCSRC .equ URSEL =7 .equ UMSEL =6 .equ UPM1 =5 .equ UPM0 =4 .equ USBS =3 .equ UCSZ1 =2 .equ UCSZ0 =1 .equ UCPOL =0 ;SPCR .equ SPIE =7 .equ SPE =6 .equ DORD =5 .equ MSTR =4 .equ CPOL =3 .equ CPHA =2 .equ SPR1 =1 .equ SPR0 =0 ;SPSR .equ SPIF =7 .equ WCOL =6 .equ SPI2X =0 ;ACSR .equ ACD =7 .equ ACBG =6 .equ ACO =5 .equ ACI =4 .equ ACIE =3 .equ ACIC =2 .equ ACIS1 =1 .equ ACIS0 =0 ;ADMUX .equ REFS1 =7 .equ REFS0 =6 .equ ADLAR =5 .equ MUX3 =3 .equ MUX2 =2 .equ MUX1 =1 .equ MUX0 =0 ;ADCSR .equ ADEN =7 .equ ADSC =6 .equ ADFR =5 .equ ADIF =4 .equ ADIE =3 .equ ADPS2 =2 .equ ADPS1 =1 .equ ADPS0 =0 ; TWCR .equ TWINT =7 .equ TWEA =6 .equ TWSTA =5 .equ TWSTO =4 .equ TWWC =3 .equ TWEN =2 .equ TWIE =0 ; TWAR .equ TWA6 =7 .equ TWA5 =6 .equ TWA4 =5 .equ TWA3 =4 .equ TWA2 =3 .equ TWA1 =2 .equ TWA0 =1 .equ TWGCE =0 ; TWSR .equ TWS7 =7 .equ TWS6 =6 .equ TWS5 =5 .equ TWS4 =4 .equ TWS3 =3 .equ TWPS1 =1 .equ TWPS0 =0 ;ASSR .equ AS2 =3 .equ TCN2UB =2 .equ OCR2UB =1 .equ TCR2UB =0 .def XL =r26 .def XH =r27 .def YL =r28 .def YH =r29 .def ZL =r30 .def ZH =r31 .equ RAMEND =$45F .equ FLASHEND =$FFF ; byte groups ; /\/--\/--\/--\ .equ SMALLBOOTSTART =0b00111110000000 ;($0F80) smallest boot block is 256 .equ SECONDBOOTSTART =0b00111100000000 ;($0F00) 2'nd boot block size is 512 .equ THIRDBOOTSTART =0b00111000000000 ;($0E00) third boot block size is 1K .equ LARGEBOOTSTART =0b00110000000000 ;($0C00) largest boot block is 2K .equ BOOTSTART =THIRDBOOTSTART ;OBSOLETE!!! kept for compatibility .equ PAGESIZE =32 ;number of WORDS in a page .equ INT0addr=$001 ; External Interrupt0 Vector Address .equ INT1addr=$002 ; External Interrupt1 Vector Address .equ OC2addr =$003 ; Output Compare2 Interrupt Vector Address .equ OVF2addr=$004 ; Overflow2 Interrupt Vector Address .equ ICP1addr=$005 ; Input Capture1 Interrupt Vector Address .equ OC1Aaddr=$006 ; Output Compare1A Interrupt Vector Address .equ OC1Baddr=$007 ; Output Compare1B Interrupt Vector Address .equ OVF1addr=$008 ; Overflow1 Interrupt Vector Address .equ OVF0addr=$009 ; Overflow0 Interrupt Vector Address .equ SPIaddr =$00a ; SPI Interrupt Vector Address .equ URXCaddr=$00b ; USART Receive Complete Interrupt Vector Address .equ UDREaddr=$00c ; USART Data Register Empty Interrupt Vector Address .equ UTXCaddr=$00d ; USART Transmit Complete Interrupt Vector Address .equ ADCCaddr=$00e ; ADC Interrupt Vector Address .equ ERDYaddr=$00f ; EEPROM Interrupt Vector Address .equ ACIaddr =$010 ; Analog Comparator Interrupt Vector Address .equ TWIaddr =$011 ; Irq. vector address for Two-Wire Interface .equ SPMaddr =$012 ; SPM complete Interrupt Vector Address .equ SPMRaddr =$012 ; SPM complete Interrupt Vector Address ; constants for TWSR status .equ TW_STATUS_MASK = 0xF8 .equ TW_START = 0x08 ; start condition transmitted .equ TW_REP_START = 0x10 ; repeated start condition transmitted .equ TW_MT_SLA_ACK = 0x18 ; SLA+W transmitted, ACK received .equ TW_MT_SLA_NACK = 0x20 ; SLA+W transmitted, NACK received .equ TW_MT_DATA_ACK = 0x28 ; data transmitted, ACK received .equ TW_MT_DATA_NACK = 0x30 ; data transmitted, NACK received .equ TW_MT_ARB_LOST = 0x38 ; arbitration lost in SLA+W or data .equ TW_MR_ARB_LOST = 0x38 ; arbitration lost in SLA+R or NACK .equ TW_MR_SLA_ACK = 0x40 ; SLA+R transmitted, ACK received .equ TW_MR_SLA_NACK = 0x48 ; SLA+R transmitted, NACK received .equ TW_MR_DATA_ACK = 0x50 ; data received, ACK returned .equ TW_MR_DATA_NACK = 0x58 ; data received, NACK returned .equ TW_ST_SLA_ACK = 0xA8 ; SLA+R received, ACK returned .equ TW_ST_ARB_LOST_SLA_ACK = 0xB0 ; arbitration lost in SLA+RW, SLA+R received, ACK returned .equ TW_ST_DATA_ACK = 0xB8 ; data transmitted, ACK received .equ TW_ST_DATA_NACK = 0xC0 ; data transmitted, NACK received .equ TW_ST_LAST_DATA = 0xC8 ; last data byte transmitted, ACK received .equ TW_SR_SLA_ACK = 0x60 ; SLA+W received, ACK returned .equ TW_SR_ARB_LOST_SLA_ACK = 0x68 ; arbitration lost in SLA+RW, SLA+W received, ACK returned .equ TW_SR_GCALL_ACK = 0x70 ; general call received, ACK returned .equ TW_SR_ARB_LOST_GCALL_ACK = 0x78 ; arbitration lost in SLA+RW, general call received, ACK returned .equ TW_SR_DATA_ACK = 0x80 ; data received, ACK returned .equ TW_SR_DATA_NACK = 0x88 ; data received, NACK returned .equ TW_SR_GCALL_DATA_ACK = 0x90 ; general call data received, ACK returned .equ TW_SR_GCALL_DATA_NACK = 0x98 ; general call data received, NACK returned .equ TW_SR_STOP = 0xA0 ; stop or repeated start condition received while selected .equ TW_NO_INFO = 0xF8 ; no state information available .equ TW_BUS_ERROR = 0x00 ; illegal start or stop condition