switched to fast PWM, added workaround for UART transmission errors
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@ -8,57 +8,67 @@
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#include "main.h"
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#include "uart.h"
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#define POWER_MIN 0
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#define POWER_MAX 400
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#define SERVO_STEPS 125
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#define POWER_MIN 0
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#define POWER_MAX 400
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#define SERVO_STEPS 125
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#define BUFSIZE 10
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#define BUFSIZE 10
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/* ugly workaround for massive out of sequence power values,
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* USART code seems to forget characters from time to time */
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#define MAX_ALLOWED_DEVIATION 50
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#define MAX_FAILS 3
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#define DEBUG2
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volatile uint16_t syscounter = 0;
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volatile uint16_t power;
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uint8_t data_count = 0;
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char data_in[BUFSIZE];
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volatile uint16_t current_pulse_width = 250;
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void reset_input_buffer(void) {
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data_count = 0;
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memset(data_in, 0, BUFSIZE);
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data_count = 0;
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memset(data_in, 0, BUFSIZE);
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}
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static void timer_init(void) {
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// CTC Mode for Timer 1 (16Bit) with prescale of 64
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TCCR1B |= _BV(WGM12) | _BV(CS11) | _BV(CS10);
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OCR1A = 2250; // set Servo to max. position
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TIMSK |= _BV(OCIE1A); // enable timer interrupt
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TCCR1A |= _BV(COM1A0); // toggle OCR1A on overflow
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// set Timer 1 to fast PWM mode, with prescale of 64, clear OC1A as soon as
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// TCNT1 reaches OCR1A, set OC1A as soon as it reaches ICR1
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// NOTE: one tick is equivalent to 8 usecs
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TCCR1A = _BV(COM1A1) | _BV(WGM11);
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TCCR1B = _BV(WGM13) | _BV(WGM12) | _BV(CS11) | _BV(CS10);
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ICR1 = 2500; // period of 20 msecs
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OCR1A = 250; // inital pulse width of 2 msecs (10% duty cycle)
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TIMSK |= _BV(TOIE1); // enable overflow interrupt
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// CTC Mode for Timer 0 (8Bit) with prescale of 1024
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TCCR0B |= _BV(CS02) | _BV(CS00); // prescaler
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TCCR0A |= _BV(WGM01); // CTC mode
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TIMSK |= _BV(OCIE0A); // enable timer interrupt
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TCCR0B |= _BV(CS02) | _BV(CS00); // prescaler
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TCCR0A |= _BV(WGM01); // CTC mode
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TIMSK |= _BV(OCIE0A); // enable timer interrupt
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OCR0A = 78; // gives us ~100ms interval
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}
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static void ports_init(void) {
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DDRB |= _BV(PB3);
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DDRB |= _BV(PB3);
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}
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static void work_uart() {
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uint16_t c = uart_getc();
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static uint16_t power;
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static uint8_t fail_counter = 0;
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uint16_t new_power = 0, diff = 0;
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uint16_t c = uart_getc();
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if ( !(c & UART_NO_DATA) ) {
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if ( !(c & UART_NO_DATA) ) {
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char cur = c & 0xff;
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data_in[data_count] = cur;
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data_in[data_count] = cur;
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//uart_print_uint8(cur);
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data_count++;
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if(data_count >= BUFSIZE) { // buffer overflow
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reset_input_buffer();
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}
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if(data_count >= BUFSIZE) { // buffer overflow
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reset_input_buffer();
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}
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#ifdef DEBUG1
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for(uint8_t i=0;i<BUFSIZE;i++) {
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@ -69,107 +79,84 @@ static void work_uart() {
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uart_puts_P(" -- \r\n");
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#endif
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if (cur == 13 || cur == '\n') {
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if (cur == 13 || cur == '\n') {
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new_power = atoi(data_in);
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new_power = new_power <= POWER_MAX ? new_power : POWER_MAX;
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diff = new_power > power ? new_power - power : power - new_power;
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power = atol(data_in);
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if(power > POWER_MAX) power = POWER_MAX;
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#ifdef DEBUG
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uart_puts_P("power = ");
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uart_print_uint16(power);
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uart_puts_P("\r\n");
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if(diff < MAX_ALLOWED_DEVIATION || fail_counter > MAX_FAILS) {
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#ifdef UART_DEBUG
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uart_puts_P("Transmitted power = ");
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uart_print_uint16(power);
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uart_puts_P("\r\n");
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#endif
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if(power > 0) {
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power = new_power;
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fail_counter = 0;
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set_servo(power);
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}
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reset_input_buffer();
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}
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}
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else {
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#ifdef UART_DEBUG
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uart_puts_P("Oooooooops!!! Transmitted power = ");
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uart_print_uint16(new_power);
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uart_puts_P("\r\n");
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#endif
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fail_counter++;
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}
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reset_input_buffer();
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}
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}
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}
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/**
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* \brief set the servo to a position calculated to given power
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* \brief set the servo to a position calculated to given power
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*
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* \param display The power value from 0 to 400 (including bounds)
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* \param display The power value from 0 to 400 (including bounds)
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*/
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void set_servo(uint16_t display) {
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int diff;
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if( display > POWER_MAX ) display = POWER_MAX;
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display = POWER_MAX-display; // invert the value / servo
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display = display * 10; // *10 otherwise we need float
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display = display / ((POWER_MAX * 10) / SERVO_STEPS);
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display = display + SERVO_STEPS;
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// invert value and ensure that we don't exceed the limit
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display = POWER_MAX - (display < POWER_MAX ? display : POWER_MAX);
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// *10 otherwise we need float
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display = (display * 10u) / ((POWER_MAX * 10u) / SERVO_STEPS) + SERVO_STEPS;
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#ifdef DEBUG
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uart_puts_P("display = ");
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uart_print_uint16(display);
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uart_puts_P("\r\n");
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uart_puts_P("display = ");
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uart_print_uint16(display);
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uart_puts_P("\r\n");
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#endif
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if( display < 125 ) display = 125; // just make sure, the timer
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if( display > 250 ) display = 250; // is never out ouf 20ms grid
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// check if timer is currently in the small pulse, then sleep here 2ms
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// and do again
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if(OCR1A <= 2250) {
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_delay_ms(10);
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}
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//cli(); // read and write atomic
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TIMSK &= ~(_BV(OCIE1A));
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diff = OCR1A - (2500-display);
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if(diff <=20 && diff >= -20) {
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OCR1A = 2500-display;
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}
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else {
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if(diff <=20) {
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OCR1A = OCR1A+5;
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}
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else if ( diff >= -20 ) {
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OCR1A = OCR1A-5;
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}
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}
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//sei();
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TIMSK |= _BV(OCIE1A);
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cli();
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current_pulse_width = display;
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sei();
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}
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/**
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* \brief the method moves the servo one complete cycle
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* \brief the method moves the servo one complete cycle
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*/
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static void demo_display(void) {
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set_servo(0);
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wait(100);
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set_servo(400);
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wait(100);
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set_servo(0);
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wait(100);
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set_servo(0);
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wait(100);
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set_servo(400);
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wait(100);
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set_servo(0);
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wait(100);
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}
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int main(void) {
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sei();
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sei();
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ports_init();
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timer_init();
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uart_init(UART_BAUD_SELECT(38400,F_CPU));
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reset_input_buffer();
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//demo_display();
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ports_init();
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timer_init();
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uart_init(UART_BAUD_SELECT(38400,F_CPU));
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reset_input_buffer();
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// demo_display();
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while(1) {
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work_uart();
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while(1) {
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work_uart();
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if(syscounter >= 10) {
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reset_input_buffer();
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uart_putc('a'); // send a to receive values from master box
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if(syscounter >= 10) {
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reset_input_buffer();
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uart_putc('a'); // send a to receive values from master box
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syscounter = 0;
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#ifdef DEBUG
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@ -177,20 +164,14 @@ int main(void) {
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uart_print_uint16(OCR1A);
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uart_puts_P("\r\n");
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#endif
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}
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}
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}
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}
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return(0);
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return(0);
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}
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/**
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* \brief this is our timer for PWM generation and system clock
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* the system clock varies a bit, but this does not matter
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*/
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ISR(TIMER1_COMPA_vect) {
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OCR1A = 2500-OCR1A; // Das Servosignal wird aus der Differenz von
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// Periodenlänge (2500*0,008ms=20ms) und letztem
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// Vergleichswert (OCR1A) gebildet
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ISR(TIMER1_OVF_vect) {
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OCR1A = current_pulse_width;
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}
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ISR(TIMER0_COMPA_vect) {
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@ -13,7 +13,7 @@ while 1:
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tdata = ser.read()
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if tdata == 'a':
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print power
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print 'Local power = ' + str(power)
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ser.write(str(power) + '\x0d')
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#ser.write('100\n')
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ser.flush()
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if power < 0:
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power = 0
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incdec = 0
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#else:
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else:
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sys.stdout.write(tdata)
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sys.stdout.write(ser.readline())
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#data_left = ser.inWaiting()
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#tdata += ser.read(data_left)
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#print tdata
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