Added DDS sample. Fixed pin 11 PWM output, now default (3 works better).
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41
DDS.cpp
41
DDS.cpp
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@ -13,19 +13,30 @@ void DDS::start() {
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#ifdef DDS_PWM_PIN_3
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#ifdef DDS_PWM_PIN_3
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TCCR2A = (TCCR2A | _BV(COM2B1)) & ~(_BV(COM2B0) | _BV(COM2A1) | _BV(COM2A0)) |
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TCCR2A = (TCCR2A | _BV(COM2B1)) & ~(_BV(COM2B0) | _BV(COM2A1) | _BV(COM2A0)) |
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_BV(WGM21) | _BV(WGM20);
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_BV(WGM21) | _BV(WGM20);
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TCCR2B = (TCCR2B & ~(_BV(CS22) | _BV(CS21))) | _BV(CS20) | _BV(WGM22);
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#else
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#else
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// Alternatively, use pin 11
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// Alternatively, use pin 11
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TCCR2A = (TCCR2A | _BV(COM2A1)) & ~(_BV(COM2A0) | _BV(COM2B1) | _BV(COM2B0)) |
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// Enable output compare on OC2A, toggle mode
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_BV(WGM21) | _BV(WGM20);
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TCCR2A = _BV(COM2A1) | _BV(WGM21) | _BV(WGM20);
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//TCCR2A = (TCCR2A | _BV(COM2A1)) & ~(_BV(COM2A0) | _BV(COM2B1) | _BV(COM2B0)) |
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// _BV(WGM21) | _BV(WGM20);
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TCCR2B = _BV(CS20);
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#endif
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#endif
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TCCR2B = (TCCR2B & ~(_BV(CS22) | _BV(CS21))) | _BV(CS20) | _BV(WGM22);
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// Set the top limit, which will be our duty cycle accuracy.
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// Set the top limit, which will be our duty cycle accuracy.
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// Setting Comparator Bits smaller will allow for higher frequency PWM,
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// Setting Comparator Bits smaller will allow for higher frequency PWM,
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// with the loss of resolution.
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// with the loss of resolution.
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#ifdef DDS_PWM_PIN_3
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OCR2A = pow(2,COMPARATOR_BITS)-1;
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OCR2A = pow(2,COMPARATOR_BITS)-1;
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OCR2B = 0;
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OCR2B = 0;
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#else
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OCR2A = 0;
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#endif
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#ifdef DDS_USE_ONLY_TIMER2
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TIMSK2 |= _BV(TOIE2);
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#endif
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// Second, setup Timer1 to trigger the ADC interrupt
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// Second, setup Timer1 to trigger the ADC interrupt
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// This lets us use decoding functions that run at the same reference
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// This lets us use decoding functions that run at the same reference
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// clock as the DDS.
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// clock as the DDS.
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@ -50,16 +61,18 @@ void DDS::stop() {
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void DDS::setFrequency(unsigned short freq) {
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void DDS::setFrequency(unsigned short freq) {
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// Fo = (M*Fc)/2^N
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// Fo = (M*Fc)/2^N
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// M = (Fo/Fc)*2^N
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// M = (Fo/Fc)*2^N
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if(refclk == DDS_REFCLK_DEAULT) {
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if(refclk == DDS_REFCLK_DEFAULT) {
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// Try to use precalculated values if possible
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// Try to use precalculated values if possible
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if(freq == 2200) {
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if(freq == 2200) {
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stepRate = (2200.0 / DDS_REFCLK_DEAULT) * pow(2,ACCUMULATOR_BITS);
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stepRate = (2200.0 / (DDS_REFCLK_DEFAULT+DDS_REFCLK_OFFSET)) * pow(2,ACCUMULATOR_BITS);
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} else if (freq == 1200) {
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} else if (freq == 1200) {
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stepRate = (1200.0 / DDS_REFCLK_DEAULT) * pow(2,ACCUMULATOR_BITS);
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stepRate = (1200.0 / (DDS_REFCLK_DEFAULT+DDS_REFCLK_OFFSET)) * pow(2,ACCUMULATOR_BITS);
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} else if (freq == 600) {
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stepRate = (600.0 / (DDS_REFCLK_DEFAULT+DDS_REFCLK_OFFSET)) * pow(2,ACCUMULATOR_BITS);
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}
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}
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} else {
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} else {
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// Do the actual math instead.
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// BUG: Step rate isn't properly calculated here, it gets the wrong frequency
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stepRate = (freq / refclk) * pow(2,ACCUMULATOR_BITS);
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stepRate = (freq/(refclk+DDS_REFCLK_OFFSET)) * pow(2,ACCUMULATOR_BITS);
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}
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}
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}
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}
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@ -68,28 +81,40 @@ void DDS::clockTick() {
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if(running) {
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if(running) {
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accumulator += stepRate;
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accumulator += stepRate;
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if(timeLimited && tickDuration == 0) {
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if(timeLimited && tickDuration == 0) {
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#ifndef DDS_PWM_PIN_3
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OCR2A = 0;
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#else
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#ifdef DDS_IDLE_HIGH
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#ifdef DDS_IDLE_HIGH
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// Set the duty cycle to 50%
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// Set the duty cycle to 50%
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OCR2B = pow(2,COMPARATOR_BITS)/2;
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OCR2B = pow(2,COMPARATOR_BITS)/2;
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#else
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#else
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// Set duty cycle to 0, effectively off
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// Set duty cycle to 0, effectively off
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OCR2B = 0;
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OCR2B = 0;
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#endif
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#endif
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#endif
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running = false;
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running = false;
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accumulator = 0;
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accumulator = 0;
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} else {
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} else {
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#ifdef DDS_PWM_PIN_3
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OCR2B = getDutyCycle();
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OCR2B = getDutyCycle();
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#else
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OCR2A = getDutyCycle();
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#endif
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}
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}
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// Reduce our playback duration by one tick
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// Reduce our playback duration by one tick
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tickDuration--;
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tickDuration--;
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} else {
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} else {
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// Hold it low
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// Hold it low
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#ifndef DDS_PWM_PIN_3
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OCR2A = 0;
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#else
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#ifdef DDS_IDLE_HIGH
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#ifdef DDS_IDLE_HIGH
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// Set the duty cycle to 50%
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// Set the duty cycle to 50%
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OCR2B = pow(2,COMPARATOR_BITS)/2;
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OCR2B = pow(2,COMPARATOR_BITS)/2;
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#else
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#else
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// Set duty cycle to 0, effectively off
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// Set duty cycle to 0, effectively off
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OCR2B = 0;
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OCR2B = 0;
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#endif
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#endif
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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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27
DDS.h
27
DDS.h
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@ -4,8 +4,14 @@
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#include <avr/pgmspace.h>
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#include <avr/pgmspace.h>
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// Use pin 3 for PWM? If not defined, use pin 11
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// Use pin 3 for PWM? If not defined, use pin 11
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// Quality on pin 3 is higher than on 11, as it can be clocked faster
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// when the COMPARATOR_BITS value is less than 8
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// #define DDS_PWM_PIN_3
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// #define DDS_PWM_PIN_3
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// Normally, we turn on timer2 and timer1, and have ADC sampling as our clock
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// Define this to only use Timer2, and not start the ADC clock
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// #define DDS_USE_ONLY_TIMER2
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// Use a short (16 bit) accumulator. Phase accuracy is reduced, but speed
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// Use a short (16 bit) accumulator. Phase accuracy is reduced, but speed
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// is increased, along with a reduction in memory use.
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// is increased, along with a reduction in memory use.
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#define SHORT_ACCUMULATOR
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#define SHORT_ACCUMULATOR
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@ -27,16 +33,29 @@
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// 8 = 62.5kHz PWM
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// 8 = 62.5kHz PWM
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// 7 = 125kHz PWM
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// 7 = 125kHz PWM
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// 6 = 250kHz PWM
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// 6 = 250kHz PWM
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#ifdef DDS_PWM_PIN_3
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#define COMPARATOR_BITS 6
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#define COMPARATOR_BITS 6
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#else // When using pin 11, we always want 8 bits
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#define COMPARATOR_BITS 8
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#endif
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// This is how often we'll perform a phase advance, as well as ADC sampling
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// This is how often we'll perform a phase advance, as well as ADC sampling
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// rate. The higher this value, the smoother the output wave will be, at the
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// rate. The higher this value, the smoother the output wave will be, at the
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// expense of CPU time. It maxes out around 62000 (TBD)
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// expense of CPU time. It maxes out around 62000 (TBD)
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#define DDS_REFCLK_DEAULT 38400
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#define DDS_REFCLK_DEFAULT 38400
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// As each Arduino crystal is a little different, this can be fine tuned to
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// provide more accurate frequencies. Adjustments in the range of hundreds
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// is a good start.
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#define DDS_REFCLK_OFFSET 0
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#ifdef DDS_USE_ONLY_TIMER2
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// TODO: Figure out where this clock value is generated from
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#define DDS_REFCLK_DEFAULT 48800
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#endif
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// When defined, use the 1024 element sine lookup table. This improves phase
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// When defined, use the 1024 element sine lookup table. This improves phase
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// accuracy, at the cost of more flash and CPU requirements.
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// accuracy, at the cost of more flash and CPU requirements.
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#define DDS_TABLE_LARGE
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// #define DDS_TABLE_LARGE
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#ifdef DDS_TABLE_LARGE
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#ifdef DDS_TABLE_LARGE
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// How many bits to keep from the accumulator to look up in this table
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// How many bits to keep from the accumulator to look up in this table
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@ -131,7 +150,9 @@ static const uint8_t ddsSineTable[256] PROGMEM = {
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class DDS {
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class DDS {
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public:
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public:
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DDS(): refclk(DDS_REFCLK_DEAULT), accumulator(0), running(false) {};
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DDS(): refclk(DDS_REFCLK_DEFAULT), accumulator(0), running(false),
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timeLimited(false), tickDuration(0), amplitude(0)
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{};
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// Start all of the timers needed
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// Start all of the timers needed
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void start();
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void start();
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@ -0,0 +1,32 @@
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#include <HamShield.h>
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#include <Wire.h>
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DDS dds;
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void setup() {
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pinMode(2, OUTPUT);
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pinMode(3, OUTPUT);
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pinMode(11, OUTPUT);
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dds.start();
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dds.setFrequency(440);
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dds.on();
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delay(5000);
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}
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void loop() {
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dds.setFrequency(2200);
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delay(5000);
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dds.setFrequency(1200);
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delay(5000);
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}
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#ifdef DDS_USE_ONLY_TIMER2
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ISR(TIMER2_OVF_vect) {
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dds.clockTick();
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}
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#else // Use the ADC timer instead
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ISR(ADC_vect) {
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TIFR1 = _BV(ICF1); // Clear the timer flag
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dds.clockTick();
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}
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#endif
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