new prescaler + debug outs

[my-code/atmel.git] / include / tn12def.inc

\r
;***************************************************************************\r
;* 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\r
;* \r
;* Number               :AVR000\r
;* File Name            :"tn12.inc"\r
;* Title                :Register/Bit Definitions for the ATtiny12\r
;* Date                 :99.01.28\r
;* Version              :1.30\r
;* Support telephone    :+47 72 88 43 88 (ATMEL Norway)\r
;* Support fax          :+47 72 88 43 99 (ATMEL Norway)\r
;* Support E-mail       :avr@atmel.com\r
;* Target MCU           :ATtiny12\r
;*\r
;* DESCRIPTION\r
;* When including this file in the assembly program file, all I/O register      \r
;* names and I/O register bit names appearing in the data book can be used.\r
;* In addition, the two registers forming the data pointer Z have been \r
;* assigned names ZL - ZH. \r
;*\r
;* The Register names are represented by their hexadecimal address.\r
;* \r
;* The Register Bit names are represented by their bit number (0-7).\r
;* \r
;* Please observe the difference in using the bit names with instructions\r
;* such as "sbr"/"cbr" (set/clear bit in register) and "sbrs"/"sbrc" \r
;* (skip if bit in register set/cleared). The following example illustrates\r
;* this:\r
;* \r
;* in   r16,PORTB               ;read PORTB latch\r
;* sbr  r16,(1<<PB6)+(1<<PB5)   ;set PB6 and PB5 (use masks, not bit#)\r
;* out  PORTB,r16               ;output to PORTB\r
;*\r
;* in   r16,TIFR                ;read the Timer Interrupt Flag Register\r
;* sbrc r16,TOV0                ;test the overflow flag (use bit#)\r
;* rjmp TOV0_is_set             ;jump if set\r
;* ...                          ;otherwise do something else\r
;***************************************************************************\r
\r
;***** Specify Device\r
.device ATtiny12\r
\r
;***** I/O Register Definitions\r
.equ    SREG    =$3f\r
.equ    GIMSK   =$3b\r
.equ    GIFR    =$3a\r
.equ    TIMSK   =$39\r
.equ    TIFR    =$38\r
.equ    MCUCR   =$35\r
.equ    MCUSR   =$34\r
.equ    TCCR0   =$33\r
.equ    TCNT0   =$32\r
.equ    OSCCAL  =$31\r
.equ    WDTCR   =$21\r
.equ    EEAR    =$1e\r
.equ    EEDR    =$1d\r
.equ    EECR    =$1c\r
.equ    PORTB   =$18\r
.equ    DDRB    =$17\r
.equ    PINB    =$16\r
.equ    ACSR    =$08\r
\r
;***** Bit Definitions\r
.equ    INT0    =6\r
.equ    PCIE    =5\r
\r
.equ    INTF0   =6\r
.equ    PCIF    =5\r
\r
.equ    TOIE0   =1\r
\r
.equ    TOV0    =1\r
\r
.equ    CS02    =2\r
.equ    CS01    =1\r
.equ    CS00    =0\r
\r
.equ    PUD     =6\r
.equ    SE      =5\r
.equ    SM      =4\r
.equ    ISC01   =1\r
.equ    ISC00   =0\r
\r
.equ    WDDE    =4\r
.equ    WDE     =3\r
.equ    WDP2    =2\r
.equ    WDP1    =1\r
.equ    WDP0    =0\r
\r
.equ    CAL7    =7\r
.equ    CAL6    =6\r
.equ    CAL5    =5\r
.equ    CAL4    =4\r
.equ    CAL3    =3\r
.equ    CAL2    =2\r
.equ    CAL1    =1\r
.equ    CAL0    =0\r
\r
.equ    EERIE   =3\r
.equ    EEMWE   =2\r
.equ    EEWE    =1\r
.equ    EERE    =0\r
\r
.equ    PB4     =4\r
.equ    PB3     =3\r
.equ    PB2     =2\r
.equ    PB1     =1\r
.equ    PB0     =0\r
\r
.equ    DDB5    =5\r
.equ    DDB4    =4\r
.equ    DDB3    =3\r
.equ    DDB2    =2\r
.equ    DDB1    =1\r
.equ    DDB0    =0\r
\r
.equ    PINB5   =5\r
.equ    PINB4   =4\r
.equ    PINB3   =3\r
.equ    PINB2   =2\r
.equ    PINB1   =1\r
.equ    PINB0   =0\r
\r
.equ    ACD     =7\r
.equ    AINBG   =6\r
.equ    ACO     =5\r
.equ    ACI     =4\r
.equ    ACIE    =3\r
.equ    ACIS1   =1\r
.equ    ACIS0   =0\r
\r
.equ    WDRF    =3\r
.equ    BORF    =2\r
.equ    EXTRF   =1\r
.equ    PORF    =0\r
\r
.def    ZL      =r30\r
.def    ZH      =r31\r
\r
.equ    FLASHEND=$1FF\r
.equ    E2END   =$3F\r
\r
.equ    INT0addr=$001   ;External Interrupt0 Vector Address\r
.equ    PCINTaddr=$002  ;Pin change Interrupt Vector Address\r
.equ    OVF0addr=$003   ;Overflow0 Interrupt Vector Address\r
.equ    ERDYaddr =$004  ;EEPROM Interrupt Vector Address\r
.equ    ACIaddr =$005   ;Analog Comparator Interrupt Vector Address\r
\r