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@ -15,22 +15,28 @@
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#include <avr/interrupt.h>
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#include <avr/interrupt.h>
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#include <stdint.h>
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#include <stdint.h>
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// Global variable declaration
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/*
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uint16_t boost_frequency = 2000; // 2kHz frequency
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* Global variable declaration
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uint16_t signalOutput_time = 200; // 200ms
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*/
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// Set frequencys and general stuff
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uint8_t boost_highVoltage_nextHigh = 1;
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uint16_t boost_frequency = 2000; // 2kHz frequency
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uint16_t boost_highVoltage_nextTick = 1;
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uint16_t signalOutput_piezo_time = 200; // 200ms
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uint16_t signalOutput_led_time = 200; // 200ms
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uint8_t signalOutput_nextHigh = 1;
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uint16_t signalOutput_nextTick = 0;
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uint8_t timer1_prescaler = 1;
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// Used for execution-timing (with timer) [0 = disabled, >0 = nextTimerTick] (1 is next avaible execution)
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uint16_t boost_highVoltage_nextTick = 1; // Execute at start
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uint16_t signalOutput_piezo_nextTick = 0;
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uint16_t signalOutput_led_nextTick = 0;
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uint16_t test = 0;
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// Prescaling of timer [timer-speed: cpu-clock / prescaler]
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// Modes: [1, 8, 64, 256, 1024]
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uint8_t timer1_prescaler = 256;
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int main()
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int main()
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{
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{
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/*
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* Init
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*/
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// Inputs
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// Inputs
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DDRD &= (0 << PORTD2); // Activate input PD2
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DDRD &= (0 << PORTD2); // Activate input PD2
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DDRD &= (0 << PORTD3); // Activate input PD3
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DDRD &= (0 << PORTD3); // Activate input PD3
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@ -44,40 +50,29 @@ int main()
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DDRD |= (1 << PORTD6);
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DDRD |= (1 << PORTD6);
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DDRB |= (1 << PORTB5); // Onboard-Led
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DDRB |= (1 << PORTB5); // Onboard-Led
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// Interrupt for INT0 Pin-D2 High-voltage check
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// Interrupts
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// for INT0 Pin-D2 High-voltage check
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EICRA |= (0 << ISC01)|(1 << ISC00); // On at any edge [Code: 01]
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EICRA |= (0 << ISC01)|(1 << ISC00); // On at any edge [Code: 01]
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EIMSK |= (1 << INT0); // Activate Interrupt INT0
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EIMSK |= (1 << INT0); // Activate Interrupt INT0
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// for INT1 Pin-D3 Counter-click
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// Interrupt for INT1 Pin-D3 Counter-click
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EICRA |= (1 << ISC11)|(1 << ISC10); // On rising edge [Code: 11]
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EICRA |= (1 << ISC11)|(1 << ISC10); // On rising edge [Code: 11]
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EIMSK |= (1 <<INT1); // Activate Interrupt INT1
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EIMSK |= (1 <<INT1); // Activate Interrupt INT1
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// Init timer1
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// Init timer1
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timer1_init();
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timer1_init();
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sei(); // Activate global interrupts
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// Endless loop
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// Endless loop
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while (1)
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while (1)
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{
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{
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cli(); // Deactivate global interrupts (before checks)
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/*
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/*
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* HighVoltage boosting
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* HighVoltage boosting
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*/
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*/
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if(boost_highVoltage_nextTick > 0 && (uint16_t)TCNT1 >= boost_highVoltage_nextTick) // If we are on or after the tick it should be executed
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if(boost_highVoltage_nextTick > 0 && (uint16_t)TCNT1 >= boost_highVoltage_nextTick) // If we are on or after the tick it should be executed
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{
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{
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// Set pin according to next exec
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// Flip pin state
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if(boost_highVoltage_nextHigh == 1)
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PORTD ^= (1 << PORTD4);
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{
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// Set it high
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PORTD |= (1 << PORTD4);
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boost_highVoltage_nextHigh = 0; // Next is low
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}
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else
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{
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// Set it low
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PORTD |= (0 << PORTD4);
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boost_highVoltage_nextHigh = 1; // Next is high
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}
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// Calculate when next high/low should be set
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// Calculate when next high/low should be set
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boost_highVoltage_nextTick = (uint16_t)TCNT1 + F_CPU/timer1_prescaler * 1/(boost_frequency/2); // Half of time it should be high/low
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boost_highVoltage_nextTick = (uint16_t)TCNT1 + F_CPU/timer1_prescaler * 1/(boost_frequency/2); // Half of time it should be high/low
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@ -87,29 +82,41 @@ int main()
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/*
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/*
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* Signal output
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* Signal output
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*/
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*/
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if(signalOutput_nextTick > 0 && (uint16_t)TCNT1 >= signalOutput_nextTick) // If we are on or after the tick it should be executed
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// Piezo
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if(signalOutput_piezo_nextTick > 0 && (uint16_t)TCNT1 >= signalOutput_piezo_nextTick) // If we are on or after the tick it should be executed
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{
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{
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// Set pin according to next exec
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// Flip pin state
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if(signalOutput_nextHigh == 1) // Set it high
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PORTD ^= (1 << PORTD5);
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if(!(PIND & (1 << PORTD5)))
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{
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{
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PORTD |= (1 << PORTD5);
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// We are on low (again), disable further execution
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PORTD |= (1 << PORTD6);
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signalOutput_piezo_nextTick = 0;
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signalOutput_nextHigh = 0; // Next is low
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// When the signal should stop
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signalOutput_nextTick = (uint16_t)TCNT1 + F_CPU/timer1_prescaler * signalOutput_time/1000; // nextTick is in signalOutput_time in ms
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if(signalOutput_nextTick == 0) signalOutput_nextTick++; // If its 0, it stops, we dont want that
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}
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}
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else // Set it low
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// When the signal should next flip
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signalOutput_piezo_nextTick = (uint16_t)TCNT1 + F_CPU/timer1_prescaler * signalOutput_piezo_time/1000; // Calculate nextTick based on time in ms
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if(signalOutput_piezo_nextTick == 0) signalOutput_piezo_nextTick++; // If its 0, it stops, we dont want that
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}
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// LED
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if(signalOutput_led_nextTick > 0 && (uint16_t)TCNT1 >= signalOutput_led_nextTick) // If we are on or after the tick it should be executed
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{
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// Flip pin state
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PORTD ^= (1 << PORTD6);
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if(!(PIND & (1 << PORTD6)))
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{
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{
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PORTD |= (0 << PORTD5);
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// We are on low (again), disable further execution
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PORTD |= (0 << PORTD6);
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signalOutput_led_nextTick = 0;
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signalOutput_nextHigh = 1; // Next is high
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signalOutput_nextTick = 0; // Disable signalOutput
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}
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}
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// When the signal should next flip
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signalOutput_led_nextTick = (uint16_t)TCNT1 + F_CPU/timer1_prescaler * signalOutput_led_time/1000; // Calculate nextTick based on time in ms
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if(signalOutput_led_nextTick == 0) signalOutput_led_nextTick++; // If its 0, it stops, we dont want that
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}
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}
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}
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}
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sei(); // Activate global interrupts (after checks) [when an interrupt was fired, it will now be executed]
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}
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}
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/*
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/*
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@ -149,7 +156,6 @@ void timer1_init()
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/*
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/*
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* Interrupt-handler
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* ISR - Interrupt service routine
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* ISR - Interrupt service routine
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*/
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*/
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// Address: 0x001 INT0 - On any edge [Code: 01]
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// Address: 0x001 INT0 - On any edge [Code: 01]
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