dc78bc7362
There are still some artefacts on the output pin - work in progress.
150 lines
3.6 KiB
C
150 lines
3.6 KiB
C
//timer02.c
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// use atmega timer2 as main system timer instead of timer0
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// timer0 is used for fast pwm (OC0B output)
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// original OVF handler is disabled
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#include "system_timer.h"
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#ifdef SYSTEM_TIMER_2
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#include <avr/io.h>
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#include <avr/interrupt.h>
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#include "io_atmega2560.h"
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#define BEEPER 84
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void timer0_init(void)
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{
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//save sreg
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uint8_t _sreg = SREG;
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//disable interrupts for sure
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cli();
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TCNT0 = 0;
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// Fast PWM duty (0-255).
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// Due to invert mode (following rows) the duty is set to 255, which means zero all the time (bed not heating)
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OCR0B = 255;
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// Set fast PWM mode and inverting mode.
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TCCR0A = (1 << WGM01) | (1 << WGM00) | (1 << COM0B1) | (1 << COM0B0);
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TCCR0B = (1 << CS01); // CLK/8 prescaling
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TIMSK0 |= (1 << TOIE0); // enable timer overflow interrupt
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// Everything, that used to be on timer0 was moved to timer2 (delay, beeping, millis etc.)
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//setup timer2
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TCCR2A = 0x00; //COM_A-B=00, WGM_0-1=00
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TCCR2B = (4 << CS20); //WGM_2=0, CS_0-2=011
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//mask timer2 interrupts - enable OVF, disable others
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TIMSK2 |= (1<<TOIE2);
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TIMSK2 &= ~(1<<OCIE2A);
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TIMSK2 &= ~(1<<OCIE2B);
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//set timer2 OCR registers (OCRB interrupt generated 0.5ms after OVF interrupt)
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OCR2A = 0;
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OCR2B = 128;
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//restore sreg (enable interrupts)
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SREG = _sreg;
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}
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// The following code is OVF handler for timer 2
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// it was copy-pasted from wiring.c and modified for timer2
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// variables timer0_overflow_count and timer0_millis are declared in wiring.c
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// the prescaler is set so that timer0 ticks every 64 clock cycles, and the
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// the overflow handler is called every 256 ticks.
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#define MICROSECONDS_PER_TIMER0_OVERFLOW (clockCyclesToMicroseconds(64 * 256))
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// the whole number of milliseconds per timer0 overflow
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#define MILLIS_INC (MICROSECONDS_PER_TIMER0_OVERFLOW / 1000)
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// the fractional number of milliseconds per timer0 overflow. we shift right
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// by three to fit these numbers into a byte. (for the clock speeds we care
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// about - 8 and 16 MHz - this doesn't lose precision.)
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#define FRACT_INC ((MICROSECONDS_PER_TIMER0_OVERFLOW % 1000) >> 3)
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#define FRACT_MAX (1000 >> 3)
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volatile unsigned long timer2_overflow_count;
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volatile unsigned long timer2_millis;
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unsigned char timer2_fract = 0;
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ISR(TIMER2_OVF_vect)
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{
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// copy these to local variables so they can be stored in registers
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// (volatile variables must be read from memory on every access)
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unsigned long m = timer2_millis;
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unsigned char f = timer2_fract;
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m += MILLIS_INC;
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f += FRACT_INC;
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if (f >= FRACT_MAX)
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{
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f -= FRACT_MAX;
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m += 1;
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}
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timer2_fract = f;
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timer2_millis = m;
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timer2_overflow_count++;
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}
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unsigned long millis2(void)
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{
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unsigned long m;
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uint8_t oldSREG = SREG;
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// disable interrupts while we read timer0_millis or we might get an
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// inconsistent value (e.g. in the middle of a write to timer0_millis)
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cli();
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m = timer2_millis;
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SREG = oldSREG;
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return m;
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}
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unsigned long micros2(void)
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{
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unsigned long m;
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uint8_t oldSREG = SREG, t;
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cli();
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m = timer2_overflow_count;
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#if defined(TCNT2)
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t = TCNT2;
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#elif defined(TCNT2L)
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t = TCNT2L;
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#else
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#error TIMER 2 not defined
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#endif
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#ifdef TIFR2
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if ((TIFR2 & _BV(TOV2)) && (t < 255))
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m++;
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#else
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if ((TIFR & _BV(TOV2)) && (t < 255))
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m++;
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#endif
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SREG = oldSREG;
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return ((m << 8) + t) * (64 / clockCyclesPerMicrosecond());
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}
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void delay2(unsigned long ms)
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{
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uint32_t start = micros2();
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while (ms > 0)
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{
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yield();
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while ( ms > 0 && (micros2() - start) >= 1000)
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{
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ms--;
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start += 1000;
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}
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}
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}
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void tone2(__attribute__((unused)) uint8_t _pin, __attribute__((unused)) unsigned int frequency/*, unsigned long duration*/)
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{
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PIN_SET(BEEPER);
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}
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void noTone2(__attribute__((unused)) uint8_t _pin)
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{
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PIN_CLR(BEEPER);
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}
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#endif //SYSTEM_TIMER_2
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