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Merge branch 'master' of ichibi:/home/git/Repositories/pato-z80-home-computer

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Daniele Verducci (ZenPenguin) 2021-01-19 07:40:38 +01:00
commit 03e549a69c
3 changed files with 1299 additions and 337 deletions
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284
pat80-io-devices/composite-pal-adapter/software/avr-assembly/atmega1284definition.asm
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@ -1,284 +0,0 @@
; ***** CPU REGISTER DEFINITIONS *****************************************
.def XH = r27
.def XL = r26
.def YH = r29
.def YL = r28
.def ZH = r31
.def ZL = r30
; ***** I/O REGISTER DEFINITIONS *****************************************
; NOTE:
; Definitions marked "MEMORY MAPPED"are extended I/O ports
; and cannot be used with IN/OUT instructions
.equ UDR1 = 0xce ; MEMORY MAPPED
.equ UBRR1L = 0xcc ; MEMORY MAPPED
.equ UBRR1H = 0xcd ; MEMORY MAPPED
.equ UCSR1C = 0xca ; MEMORY MAPPED
.equ UCSR1B = 0xc9 ; MEMORY MAPPED
.equ UCSR1A = 0xc8 ; MEMORY MAPPED
.equ UDR0 = 0xc6 ; MEMORY MAPPED
.equ UBRR0L = 0xc4 ; MEMORY MAPPED
.equ UBRR0H = 0xc5 ; MEMORY MAPPED
.equ UCSR0C = 0xc2 ; MEMORY MAPPED
.equ UCSR0B = 0xc1 ; MEMORY MAPPED
.equ UCSR0A = 0xc0 ; MEMORY MAPPED
.equ TWAMR = 0xbd ; MEMORY MAPPED
.equ TWCR = 0xbc ; MEMORY MAPPED
.equ TWDR = 0xbb ; MEMORY MAPPED
.equ TWAR = 0xba ; MEMORY MAPPED
.equ TWSR = 0xb9 ; MEMORY MAPPED
.equ TWBR = 0xb8 ; MEMORY MAPPED
.equ ASSR = 0xb6 ; MEMORY MAPPED
.equ OCR2B = 0xb4 ; MEMORY MAPPED
.equ OCR2A = 0xb3 ; MEMORY MAPPED
.equ TCNT2 = 0xb2 ; MEMORY MAPPED
.equ TCCR2B = 0xb1 ; MEMORY MAPPED
.equ TCCR2A = 0xb0 ; MEMORY MAPPED
.equ OCR3BL = 0x9a ; MEMORY MAPPED
.equ OCR3BH = 0x9b ; MEMORY MAPPED
.equ OCR3AL = 0x98 ; MEMORY MAPPED
.equ OCR3AH = 0x99 ; MEMORY MAPPED
.equ ICR3L = 0x96 ; MEMORY MAPPED
.equ ICR3H = 0x97 ; MEMORY MAPPED
.equ TCNT3L = 0x94 ; MEMORY MAPPED
.equ TCNT3H = 0x95 ; MEMORY MAPPED
.equ TCCR3C = 0x92 ; MEMORY MAPPED
.equ TCCR3B = 0x91 ; MEMORY MAPPED
.equ TCCR3A = 0x90 ; MEMORY MAPPED
.equ OCR1BL = 0x8a ; MEMORY MAPPED
.equ OCR1BH = 0x8b ; MEMORY MAPPED
.equ OCR1AL = 0x88 ; MEMORY MAPPED
.equ OCR1AH = 0x89 ; MEMORY MAPPED
.equ ICR1L = 0x86 ; MEMORY MAPPED
.equ ICR1H = 0x87 ; MEMORY MAPPED
.equ TCNT1L = 0x84 ; MEMORY MAPPED
.equ TCNT1H = 0x85 ; MEMORY MAPPED
.equ TCCR1C = 0x82 ; MEMORY MAPPED
.equ TCCR1B = 0x81 ; MEMORY MAPPED
.equ TCCR1A = 0x80 ; MEMORY MAPPED
.equ DIDR1 = 0x7f ; MEMORY MAPPED
.equ DIDR0 = 0x7e ; MEMORY MAPPED
.equ ADMUX = 0x7c ; MEMORY MAPPED
.equ ADCSRB = 0x7b ; MEMORY MAPPED
.equ ADCSRA = 0x7a ; MEMORY MAPPED
.equ ADCH = 0x79 ; MEMORY MAPPED
.equ ADCL = 0x78 ; MEMORY MAPPED
.equ PCMSK3 = 0x73 ; MEMORY MAPPED
.equ TIMSK3 = 0x71 ; MEMORY MAPPED
.equ TIMSK2 = 0x70 ; MEMORY MAPPED
.equ TIMSK1 = 0x6f ; MEMORY MAPPED
.equ TIMSK0 = 0x6e ; MEMORY MAPPED
.equ PCMSK2 = 0x6d ; MEMORY MAPPED
.equ PCMSK1 = 0x6c ; MEMORY MAPPED
.equ PCMSK0 = 0x6b ; MEMORY MAPPED
.equ EICRA = 0x69 ; MEMORY MAPPED
.equ PCICR = 0x68 ; MEMORY MAPPED
.equ OSCCAL = 0x66 ; MEMORY MAPPED
.equ PRR1 = 0x65 ; MEMORY MAPPED
.equ PRR0 = 0x64 ; MEMORY MAPPED
.equ CLKPR = 0x61 ; MEMORY MAPPED
.equ WDTCSR = 0x60 ; MEMORY MAPPED
.equ SREG = 0x3f
.equ SPL = 0x3d
.equ SPH = 0x3e
.equ RAMPZ = 0x3b
.equ SPMCSR = 0x37
.equ MCUCR = 0x35
.equ MCUSR = 0x34
.equ SMCR = 0x33
.equ OCDR = 0x31
.equ ACSR = 0x30
.equ SPDR = 0x2e
.equ SPSR = 0x2d
.equ SPCR = 0x2c
.equ GPIOR2 = 0x2b
.equ GPIOR1 = 0x2a
.equ OCR0B = 0x28
.equ OCR0A = 0x27
.equ TCNT0 = 0x26
.equ TCCR0B = 0x25
.equ TCCR0A = 0x24
.equ GTCCR = 0x23
.equ EEARH = 0x22
.equ EEARL = 0x21
.equ EEDR = 0x20
.equ EECR = 0x1f
.equ GPIOR0 = 0x1e
.equ EIMSK = 0x1d
.equ EIFR = 0x1c
.equ PCIFR = 0x1b
.equ TIFR3 = 0x18
.equ TIFR2 = 0x17
.equ TIFR1 = 0x16
.equ TIFR0 = 0x15
.equ PORTD = 0x0b
.equ DDRD = 0x0a
.equ PIND = 0x09
.equ PORTC = 0x08
.equ DDRC = 0x07
.equ PINC = 0x06
.equ PORTB = 0x05
.equ DDRB = 0x04
.equ PINB = 0x03
.equ PORTA = 0x02
.equ DDRA = 0x01
.equ PINA = 0x00
; ***** PORTA ************************
; PORTA - Port A Data Register
.equ PORTA0 = 0 ; Port A Data Register bit 0
.equ PA0 = 0 ; For compatibility
.equ PORTA1 = 1 ; Port A Data Register bit 1
.equ PA1 = 1 ; For compatibility
.equ PORTA2 = 2 ; Port A Data Register bit 2
.equ PA2 = 2 ; For compatibility
.equ PORTA3 = 3 ; Port A Data Register bit 3
.equ PA3 = 3 ; For compatibility
.equ PORTA4 = 4 ; Port A Data Register bit 4
.equ PA4 = 4 ; For compatibility
.equ PORTA5 = 5 ; Port A Data Register bit 5
.equ PA5 = 5 ; For compatibility
.equ PORTA6 = 6 ; Port A Data Register bit 6
.equ PA6 = 6 ; For compatibility
.equ PORTA7 = 7 ; Port A Data Register bit 7
.equ PA7 = 7 ; For compatibility
; DDRA - Port A Data Direction Register
.equ DDA0 = 0 ; Data Direction Register, Port A, bit 0
.equ DDA1 = 1 ; Data Direction Register, Port A, bit 1
.equ DDA2 = 2 ; Data Direction Register, Port A, bit 2
.equ DDA3 = 3 ; Data Direction Register, Port A, bit 3
.equ DDA4 = 4 ; Data Direction Register, Port A, bit 4
.equ DDA5 = 5 ; Data Direction Register, Port A, bit 5
.equ DDA6 = 6 ; Data Direction Register, Port A, bit 6
.equ DDA7 = 7 ; Data Direction Register, Port A, bit 7
; PINA - Port A Input Pins
.equ PINA0 = 0 ; Input Pins, Port A bit 0
.equ PINA1 = 1 ; Input Pins, Port A bit 1
.equ PINA2 = 2 ; Input Pins, Port A bit 2
.equ PINA3 = 3 ; Input Pins, Port A bit 3
.equ PINA4 = 4 ; Input Pins, Port A bit 4
.equ PINA5 = 5 ; Input Pins, Port A bit 5
.equ PINA6 = 6 ; Input Pins, Port A bit 6
.equ PINA7 = 7 ; Input Pins, Port A bit 7
; ***** PORTB ************************
; PORTB - Port B Data Register
.equ PORTB0 = 0 ; Port B Data Register bit 0
.equ PB0 = 0 ; For compatibility
.equ PORTB1 = 1 ; Port B Data Register bit 1
.equ PB1 = 1 ; For compatibility
.equ PORTB2 = 2 ; Port B Data Register bit 2
.equ PB2 = 2 ; For compatibility
.equ PORTB3 = 3 ; Port B Data Register bit 3
.equ PB3 = 3 ; For compatibility
.equ PORTB4 = 4 ; Port B Data Register bit 4
.equ PB4 = 4 ; For compatibility
.equ PORTB5 = 5 ; Port B Data Register bit 5
.equ PB5 = 5 ; For compatibility
.equ PORTB6 = 6 ; Port B Data Register bit 6
.equ PB6 = 6 ; For compatibility
.equ PORTB7 = 7 ; Port B Data Register bit 7
.equ PB7 = 7 ; For compatibility
; DDRB - Port B Data Direction Register
.equ DDB0 = 0 ; Port B Data Direction Register bit 0
.equ DDB1 = 1 ; Port B Data Direction Register bit 1
.equ DDB2 = 2 ; Port B Data Direction Register bit 2
.equ DDB3 = 3 ; Port B Data Direction Register bit 3
.equ DDB4 = 4 ; Port B Data Direction Register bit 4
.equ DDB5 = 5 ; Port B Data Direction Register bit 5
.equ DDB6 = 6 ; Port B Data Direction Register bit 6
.equ DDB7 = 7 ; Port B Data Direction Register bit 7
; PINB - Port B Input Pins
.equ PINB0 = 0 ; Port B Input Pins bit 0
.equ PINB1 = 1 ; Port B Input Pins bit 1
.equ PINB2 = 2 ; Port B Input Pins bit 2
.equ PINB3 = 3 ; Port B Input Pins bit 3
.equ PINB4 = 4 ; Port B Input Pins bit 4
.equ PINB5 = 5 ; Port B Input Pins bit 5
.equ PINB6 = 6 ; Port B Input Pins bit 6
.equ PINB7 = 7 ; Port B Input Pins bit 7
; ***** PORTC ************************
; PORTC - Port C Data Register
.equ PORTC0 = 0 ; Port C Data Register bit 0
.equ PC0 = 0 ; For compatibility
.equ PORTC1 = 1 ; Port C Data Register bit 1
.equ PC1 = 1 ; For compatibility
.equ PORTC2 = 2 ; Port C Data Register bit 2
.equ PC2 = 2 ; For compatibility
.equ PORTC3 = 3 ; Port C Data Register bit 3
.equ PC3 = 3 ; For compatibility
.equ PORTC4 = 4 ; Port C Data Register bit 4
.equ PC4 = 4 ; For compatibility
.equ PORTC5 = 5 ; Port C Data Register bit 5
.equ PC5 = 5 ; For compatibility
.equ PORTC6 = 6 ; Port C Data Register bit 6
.equ PC6 = 6 ; For compatibility
.equ PORTC7 = 7 ; Port C Data Register bit 7
.equ PC7 = 7 ; For compatibility
; DDRC - Port C Data Direction Register
.equ DDC0 = 0 ; Port C Data Direction Register bit 0
.equ DDC1 = 1 ; Port C Data Direction Register bit 1
.equ DDC2 = 2 ; Port C Data Direction Register bit 2
.equ DDC3 = 3 ; Port C Data Direction Register bit 3
.equ DDC4 = 4 ; Port C Data Direction Register bit 4
.equ DDC5 = 5 ; Port C Data Direction Register bit 5
.equ DDC6 = 6 ; Port C Data Direction Register bit 6
.equ DDC7 = 7 ; Port C Data Direction Register bit 7
; PINC - Port C Input Pins
.equ PINC0 = 0 ; Port C Input Pins bit 0
.equ PINC1 = 1 ; Port C Input Pins bit 1
.equ PINC2 = 2 ; Port C Input Pins bit 2
.equ PINC3 = 3 ; Port C Input Pins bit 3
.equ PINC4 = 4 ; Port C Input Pins bit 4
.equ PINC5 = 5 ; Port C Input Pins bit 5
.equ PINC6 = 6 ; Port C Input Pins bit 6
.equ PINC7 = 7 ; Port C Input Pins bit 7
; ***** PORTD ************************
; PORTD - Port D Data Register
.equ PORTD0 = 0 ; Port D Data Register bit 0
.equ PD0 = 0 ; For compatibility
.equ PORTD1 = 1 ; Port D Data Register bit 1
.equ PD1 = 1 ; For compatibility
.equ PORTD2 = 2 ; Port D Data Register bit 2
.equ PD2 = 2 ; For compatibility
.equ PORTD3 = 3 ; Port D Data Register bit 3
.equ PD3 = 3 ; For compatibility
.equ PORTD4 = 4 ; Port D Data Register bit 4
.equ PD4 = 4 ; For compatibility
.equ PORTD5 = 5 ; Port D Data Register bit 5
.equ PD5 = 5 ; For compatibility
.equ PORTD6 = 6 ; Port D Data Register bit 6
.equ PD6 = 6 ; For compatibility
.equ PORTD7 = 7 ; Port D Data Register bit 7
.equ PD7 = 7 ; For compatibility
; DDRD - Port D Data Direction Register
.equ DDD0 = 0 ; Port D Data Direction Register bit 0
.equ DDD1 = 1 ; Port D Data Direction Register bit 1
.equ DDD2 = 2 ; Port D Data Direction Register bit 2
.equ DDD3 = 3 ; Port D Data Direction Register bit 3
.equ DDD4 = 4 ; Port D Data Direction Register bit 4
.equ DDD5 = 5 ; Port D Data Direction Register bit 5
.equ DDD6 = 6 ; Port D Data Direction Register bit 6
.equ DDD7 = 7 ; Port D Data Direction Register bit 7
; PIND - Port D Input Pins
.equ PIND0 = 0 ; Port D Input Pins bit 0
.equ PIND1 = 1 ; Port D Input Pins bit 1
.equ PIND2 = 2 ; Port D Input Pins bit 2
.equ PIND3 = 3 ; Port D Input Pins bit 3
.equ PIND4 = 4 ; Port D Input Pins bit 4
.equ PIND5 = 5 ; Port D Input Pins bit 5
.equ PIND6 = 6 ; Port D Input Pins bit 6
.equ PIND7 = 7 ; Port D Input Pins bit 7

1222
pat80-io-devices/composite-pal-adapter/software/avr-assembly/m1284def.inc Executable file
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118
pat80-io-devices/composite-pal-adapter/software/avr-assembly/main.asm
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@ -17,32 +17,37 @@
; Sync pin: PC0 (pin 22) ; Sync pin: PC0 (pin 22)
; Debug hsync pin: PC1 (pin 23) ; Debug hsync pin: PC1 (pin 23)
; ;
; RESERVED REGISTERS: ; STATUS TABLE:
; R25: Current status (what the interrupt should do when fired): ; R25 (STATUS): Current status (what the interrupt should do when fired):
; 0, 1, 2, 3, 4 = long sync ; 0-9 = long sync
; 5, 6, 7, 8, 9 = short sync ; 10-19 = short sync
; 10 = draw lines (draw 304 lines complete with line sync and back porch, then start short ; 20 = draw lines (draw 304 lines complete with line sync and back porch, then start short
; sync: sync pin low and next interrupt after 2uS) ; sync: sync pin low and next interrupt after 2uS)
; 11, 12, 13, 14, 15, 16 = short sync ; 21-32 = short sync
; 17-255 = invalid state or screen draw finished: set to 0 and restart from first long sync start ; 33-255 = invalid state or screen draw finished: set to 0 and restart from first long sync start
.include "atmega1284definition.asm" .include "m1284def.inc"
; registers
.def A = r0 ; accumulator
.def STATUS = r25 ; signal status (see STATUS TABLE)
; define constant ; define constant
.equ SYNC_PIN = PC0 ; Sync pin (pin 22) .equ SYNC_PIN = PC0 ; Sync pin (pin 22)
.equ DEBUG_PIN = PC1 ; DEBUG: Single vertical sync pulse to trigger oscilloscope (pin 23) .equ DEBUG_PIN = PC1 ; DEBUG: Single vertical sync pulse to trigger oscilloscope (pin 23)
.equ TIMER_DELAY_30US = 65536 - 719 ; 719 cycles @ 24Mhz .equ TIMER_DELAY_30US = 65535 - 690 ; 719 cycles @ 24Mhz (minus overhead)
.equ TIMER_DELAY_2US = 65536 - 48 ; 48 cycles @ 24Mhz .equ TIMER_DELAY_2US = 65535 - 17 ; 48 cycles @ 24Mhz (minus overhead)
; memory ; memory
.equ FRAMEBUFFER = 0x100 .equ FRAMEBUFFER = 0x100
; start vector ; start vector
.org 0x0000 .org 0x0000
rjmp main ; jump to main label rjmp main ; reset vector: jump to main label
.org 0x0012 .org 0x001E
rjmp on_int1 ; interrupt for timer 1 overflow rjmp on_tim1_ovf ; interrupt for timer 1 overflow
.org 0x40
; main program ; main program
main: main:
; pins setup ; pins setup
@ -70,11 +75,12 @@ main:
cpi r26, 0b11000000 cpi r26, 0b11000000
brne load_mem_loop ; if not 0, repeat h_picture_loop brne load_mem_loop ; if not 0, repeat h_picture_loop
; timer setup (use 16-bit counter TC1) ; *** timer setup (use 16-bit counter TC1) ***
; The Power Reduction TC1 and TC3 bits in the Power Reduction Registers (PRR0.PRTIM1 and ; The Power Reduction TC1 and TC3 bits in the Power Reduction Registers (PRR0.PRTIM1 and
; PRR1.PRTIM3) must be written to zero to enable the TC1 and TC3 module. ; PRR1.PRTIM3) must be written to zero to enable the TC1 and TC3 module.
ldi r16, 0b00001000 ldi r16, 0b00000000
sts PRR0, r16 sts PRR0, r16
<<<<<<< HEAD
ldi r16, 0b00000001 ldi r16, 0b00000001
sts PRR1, r16 sts PRR1, r16
; Set TCNT1 (timer counter) to 0xFF00 (the timer will trigger soon) ; Set TCNT1 (timer counter) to 0xFF00 (the timer will trigger soon)
@ -94,6 +100,17 @@ main:
; The Global Interrupt Enable bit must be set for the interrupts to be enabled. ; The Global Interrupt Enable bit must be set for the interrupts to be enabled.
ldi r16, 0b10000000 ldi r16, 0b10000000
sts SREG, r16 sts SREG, r16
=======
; Set timer prescaler to 1:1
LDI r16,0b00000001
sts TCCR1B,r16
; Enambe timer1 overflow interrupt
LDI r16,0b00000001
STS TIMSK1,r16
; Enable interrupts globally
SEI
; Timer setup completed.
>>>>>>> 901fe50fee42333cc45884e4d9913128272ce175
; loop forever ; loop forever
forever: forever:
@ -101,24 +118,38 @@ main:
; ********* FUNCTIONS CALLED BY INTERRUPT *********** ; ********* FUNCTIONS CALLED BY INTERRUPT ***********
on_int1: on_tim1_ovf:
; called by timer 1 two times per line (every 32 uS) during hsync. Disabled while drawing picture. ; debug
; sbi PORTC, DEBUG_PIN ; high
; cbi PORTC, DEBUG_PIN ; low
; ; set timer in 30uS (reset timer counter)
; ldi r27, high(TIMER_DELAY_30US)
; ldi r26, low(TIMER_DELAY_30US)
; sts TCNT1H,r27
; sts TCNT1L,r26
; reti
; debug
; if r25 >= 32 then r25=0
cpi r25, 32
brlt switch_status
clr r25
; called by timer 1 two times per line (every 32 uS) during hsync, unless drawing picture.
inc STATUS
; if STATUS >= 33 then STATUS=0
cpi STATUS, 35 ; TODO: Added a seventh sync pulse at end of screen because at the first short sync after the image, the timer doesn't tick at the right time
brlo switch_status
clr STATUS
; check status and decide what to do ; check status and decide what to do
switch_status: switch_status:
cpi r25, 5 cpi STATUS, 10
brlt long_sync ; 0-4: long sync brlo long_sync ; 0-9: long sync
cpi r25, 10 ; 5-9: short sync cpi STATUS, 20
breq draw_picture ; 10: draw picture breq draw_picture ; 20: draw picture
jmp short_sync ; 11-16: short_sync jmp short_sync ; 10-19 or 21-32: short_sync
; reti is at end of all previous jumps
draw_picture: draw_picture:
; increment status
inc r25
; set X register to framebuffer start 0x0100 ; set X register to framebuffer start 0x0100
; (set it a byte before, because it will be incremented at first) ; (set it a byte before, because it will be incremented at first)
clr r27 clr r27
@ -208,28 +239,22 @@ draw_picture:
; debug ; debug
; immediately start first end-screen short sync ; immediately start first end-screen short sync:
cbi PORTC, SYNC_PIN ; sync goes low (0v) ; 2 cycle inc STATUS
; set timer in 2uS: jmp short_sync
ldi r27, high(TIMER_DELAY_2US<<1) ; reti is in short_sync
ldi r26, low(TIMER_DELAY_2US<<1)
sts TCNT1H,r27
sts TCNT1L,r26
reti
; end draw_picture ; end draw_picture
long_sync: long_sync:
; long sync: 30uS low (719 cycles @ 24Mhz), 2uS high (48 cycles @ 24Mhz) ; long sync: 30uS low (719 cycles @ 24Mhz), 2uS high (48 cycles @ 24Mhz)
inc r25 ; increment status counter
sbis PORTC, SYNC_PIN ; if sync is high (sync is not occuring) skip next line sbis PORTC, SYNC_PIN ; if sync is high (sync is not occuring) skip next line
jmp long_sync_end jmp long_sync_end
; sync pin is high (sync is not occuring) ; sync pin is high (sync is not occuring)
cbi PORTC, SYNC_PIN ; sync goes low (0v) ; 2 cycle cbi PORTC, SYNC_PIN ; sync goes low (0v) ; 2 cycle
; set timer in 30uS (reset timer counter) ; set timer in 30uS (reset timer counter)
ldi r27, high(TIMER_DELAY_30US<<1) ldi r27, high(TIMER_DELAY_30US)
ldi r26, low(TIMER_DELAY_30US<<1) ldi r26, low(TIMER_DELAY_30US)
sts TCNT1H,r27 sts TCNT1H,r27
sts TCNT1L,r26 sts TCNT1L,r26
reti reti
@ -238,8 +263,8 @@ long_sync:
; sync pin is low (sync is occuring) ; sync pin is low (sync is occuring)
sbi PORTC, SYNC_PIN ; sync goes high (0.3v) sbi PORTC, SYNC_PIN ; sync goes high (0.3v)
; set timer in 2uS: ; set timer in 2uS:
ldi r27, high(TIMER_DELAY_2US<<1) ldi r27, high(TIMER_DELAY_2US)
ldi r26, low(TIMER_DELAY_2US<<1) ldi r26, low(TIMER_DELAY_2US)
sts TCNT1H,r27 sts TCNT1H,r27
sts TCNT1L,r26 sts TCNT1L,r26
reti reti
@ -247,15 +272,14 @@ long_sync:
short_sync: short_sync:
; short sync: 2uS low (48 cycles @ 24Mhz), 30uS high (720 cycles @ 24Mhz) ; short sync: 2uS low (48 cycles @ 24Mhz), 30uS high (720 cycles @ 24Mhz)
inc r25 ; increment status counter
sbis PORTC, SYNC_PIN ; if sync is high (sync is not occuring) skip next line sbis PORTC, SYNC_PIN ; if sync is high (sync is not occuring) skip next line
jmp short_sync_end jmp short_sync_end
; sync pin is high (sync is not occuring) ; sync pin is high (sync is not occuring)
cbi PORTC, SYNC_PIN ; sync goes low (0v) ; 2 cycle cbi PORTC, SYNC_PIN ; sync goes low (0v) ; 2 cycle
; set timer in 2uS (reset timer counter) ; set timer in 2uS (reset timer counter)
ldi r27, high(TIMER_DELAY_2US<<1) ldi r27, high(TIMER_DELAY_2US)
ldi r26, low(TIMER_DELAY_2US<<1) ldi r26, low(TIMER_DELAY_2US)
sts TCNT1H,r27 sts TCNT1H,r27
sts TCNT1L,r26 sts TCNT1L,r26
reti reti
@ -264,8 +288,8 @@ short_sync:
; sync pin is low (sync is occuring) ; sync pin is low (sync is occuring)
sbi PORTC, SYNC_PIN ; sync goes high (0.3v) sbi PORTC, SYNC_PIN ; sync goes high (0.3v)
; set timer in 30uS: ; set timer in 30uS:
ldi r27, high(TIMER_DELAY_30US<<1) ldi r27, high(TIMER_DELAY_30US)
ldi r26, low(TIMER_DELAY_30US<<1) ldi r26, low(TIMER_DELAY_30US)
sts TCNT1H,r27 sts TCNT1H,r27
sts TCNT1L,r26 sts TCNT1L,r26
reti reti