kolibrios/contrib/toolchain/avra/examples/tn15def.inc
Serhii Sakhno 7c539d8e19 upload avra
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.NOLIST
;***************************************************************************
;* 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 :"tn15def.inc"
;* Title :Register/Bit Definitions for the ATtiny15
;* Date :99.07.05
;* Version :1.00
;* Support telephone :+47 72 88 87 20 (ATMEL Norway)
;* Support fax :+47 72 88 87 18 (ATMEL Norway)
;* Support E-mail :avr@atmel.com
;* Target MCU :ATtiny15
;*
;* 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 ATtiny15
;***** I/O Register Definitions
.equ SREG =$3f
.equ GIMSK =$3b
.equ GIFR =$3a
.equ TIMSK =$39
.equ TIFR =$38
.equ MCUCR =$35
.equ MCUSR =$34
.equ TCCR0 =$33
.equ TCNT0 =$32
.equ OSCCAL =$31
.equ TCCR1 =$30
.equ TCNT1 =$2f
.equ OCR1A =$2e
.equ OCR1B =$2d
.equ SFIOR =$2c
.equ WDTCR =$21
.equ EEAR =$1e
.equ EEDR =$1d
.equ EECR =$1c
.equ PORTB =$18
.equ DDRB =$17
.equ PINB =$16
.equ ACSR =$08
.equ ADMUX =$07
.equ ADCSR =$06
.equ ADCH =$05
.equ ADCL =$04
;***** Bit Definitions
.equ INT0 =6
.equ PCIE =5
.equ INTF0 =6
.equ PCIF =5
.equ OCIE1 =6
.equ TOIE1 =2
.equ TOIE0 =1
.equ OCF1A =6
.equ TOV1 =2
.equ TOV0 =1
.equ PUD =6
.equ SE =5
.equ SM =4
.equ SM1 =4
.equ SM0 =3
.equ ISC01 =1
.equ ISC00 =0
.equ WDRF =3
.equ BORF =2
.equ EXTRF =1
.equ PORF =0
.equ CS02 =2
.equ CS01 =1
.equ CS00 =0
.equ CAL7 =7
.equ CAL6 =6
.equ CAL5 =5
.equ CAL4 =4
.equ CAL3 =3
.equ CAL2 =2
.equ CAL1 =1
.equ CAL0 =0
.equ CTC1 =7
.equ PWM1 =6
.equ COM11 =5
.equ COM10 =4
.equ CS13 =3
.equ CS12 =2
.equ CS11 =1
.equ CS10 =0
.equ FOCM =2
.equ PSR1 =1
.equ PSR0 =0
.equ WDTOE =4
.equ WDE =3
.equ WDP2 =2
.equ WDP1 =1
.equ WDP0 =0
.equ EERIE =3
.equ EEMWE =2
.equ EEWE =1
.equ EERE =0
.equ PB4 =4
.equ PB3 =3
.equ PB2 =2
.equ PB1 =1
.equ PB0 =0
.equ DDB5 =5
.equ DDB4 =4
.equ DDB3 =3
.equ DDB2 =2
.equ DDB1 =1
.equ DDB0 =0
.equ PINB5 =5
.equ PINB4 =4
.equ PINB3 =3
.equ PINB2 =2
.equ PINB1 =1
.equ PINB0 =0
.equ ACD =7
.equ ACO =5
.equ ACI =4
.equ ACIE =3
.equ ACIS1 =1
.equ ACIS0 =0
.equ REFS1 =7
.equ REFS0 =6
.equ ADLAR =5
.equ MUX2 =2
.equ MUX1 =1
.equ MUX0 =0
.equ ADEN =7
.equ ADSC =6
.equ ADFR =5
.equ ADIF =4
.equ ADIE =3
.equ ADPS2 =2
.equ ADPS1 =1
.equ ADPS0 =0
.def ZL =r30
.def ZH =r31
.equ INT0addr=$001 ;External Interrupt0 Vector Address
.equ PCINTaddr=$002 ;Pin change Interrupt Vector Address
.equ T1COMPaddr=$003 ;Timer1 Compare match interrupt vector address
.equ OVF1addr=$004 ;Overflow 1 Interrupt Vector Address
.equ OVF0addr=$005 ;Overflow 1 Interrupt Vector Address
.equ EERDYaddr =$006 ;EEPROM Interrupt Vector Address
.equ ACIaddr =$007 ;Analog Comparator Interrupt Vector Address
.equ ADCCaddr =$008 ;ADC Interrupt Vector Address
.LIST