Waveform generator added
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2964460a87
commit
56f8161e99
4 changed files with 43 additions and 22 deletions
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@ -228,7 +228,8 @@ void cc_startMeasurement()
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if (freq < 8000)
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{
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setWaveformFrequency((int)freq);
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setWaveformFrequency(freq);
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setWaveform(WAVEFORM_SINUS);
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enableWaveformOutput();
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si5351.output_enable(SI5351_CLK0, 0); // disable clock output 0
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} else {
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@ -305,7 +306,7 @@ void cc_enableClk(void)
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{
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if (start_freq < 8000)
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{
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setWaveformFrequency((int)start_freq);
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setWaveformFrequency(start_freq);
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enableWaveformOutput();
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si5351.output_enable(SI5351_CLK0, 0);
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} else {
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@ -13,6 +13,7 @@
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extern "C" {
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#include "globals.h"
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#include "waveforms.h"
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}
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/*****************************************************************************/
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@ -95,7 +96,8 @@ void loop()
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pollWaveformGenerator();
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//delay(100);
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delay(10);
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//delay(10);
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delayMicroseconds(MAIN_LOOP_DELAY_US);
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}
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/*****************************************************************************/
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@ -3,6 +3,8 @@
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#define MEAS_LOOP_CNT 20
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#define MAIN_LOOP_DELAY_US 63 // 1/63us = ~16kHz
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/*****************************************************************************/
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/* Message byte definitions: */
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@ -1,41 +1,46 @@
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#include "Waveforms.h"
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#define PWM_BIT_WIDTH 10
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#define PWM_PIN 5 // PWM-Pin für DAC0 auf dem Arduino Nano 328
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#define PWM_BIT_WIDTH 8
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#define PWM_PIN 5 // PWM-Pin für DAC0 auf dem Arduino Nano 328
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int wf_wave0 = 0;
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int wf_pos = 0;
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int wf_sample;
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uint8_t wf_wave0 = 0;
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uint8_t wf_pos = 0;
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uint16_t wf_freq = 0;
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unsigned long wf_sample_us = 0;
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unsigned long wf_prevMicros = 0;
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bool wf_outputEnabled = true; // Variable to control waveform output state
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void initWaveformGenerator()
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{
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pinMode(PWM_PIN, OUTPUT);
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setWaveform(WAVEFORM_SINUS);
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// Call the function to set default frequency, here you might want to specify a default frequency
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setWaveformFrequency(WAVEFORM_DEFAULT_FREQ_HZ);
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}
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void setWaveform(int waveform0)
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void setWaveform(uint8_t waveform0)
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{
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if (waveform0 >= 0 and waveform0 < WAVEFORM_MAXWAVEFORM_NUM)
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{
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// Set default waveforms
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wf_wave0 = waveform0;
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} else {
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wf_wave0 = WAVEFORM_SINUS;
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}
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}
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void setWaveformFrequency(int frequency)
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void setWaveformFrequency(uint16_t frequency)
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{
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if (frequency >= 1 and frequency < 8000)
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{
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wf_sample = map(frequency, 0, (2^PWM_BIT_WIDTH)-1, 0, WAVEFORM_ONE_HZ_SAMPLE);
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wf_sample = constrain(wf_sample, 0, WAVEFORM_ONE_HZ_SAMPLE);
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wf_freq = frequency;
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} else {
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wf_sample = map(WAVEFORM_DEFAULT_FREQ_HZ, 0, (2^PWM_BIT_WIDTH)-1, 0, WAVEFORM_ONE_HZ_SAMPLE);
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wf_sample = constrain(wf_sample, 0, WAVEFORM_ONE_HZ_SAMPLE);
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wf_freq = WAVEFORM_DEFAULT_FREQ_HZ;
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}
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wf_sample_us = 1000000UL / ((unsigned long)wf_freq * WAVEFORM_MAX_SAMPLES_NUM);
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}
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void enableWaveformOutput()
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@ -50,14 +55,25 @@ void disableWaveformOutput()
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void pollWaveformGenerator()
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{
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if (wf_outputEnabled)
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{
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analogWrite(PWM_PIN, waveformsTable[wf_wave0][wf_pos]); // write the selected waveform on DAC0
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unsigned long currentMicros = micros(); // Aktuelle Zeit abrufen
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if (currentMicros - wf_prevMicros >= wf_sample_us)
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{
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wf_prevMicros = currentMicros;
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wf_pos++;
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if (wf_pos == WAVEFORM_MAX_SAMPLES_NUM) // Reset the counter to repeat the wave
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wf_pos = 0;
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uint16_t sample = map(waveformsTable[wf_wave0][wf_pos], 0, 0xfff, 0, (1 << PWM_BIT_WIDTH)-1);
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sample = constrain(sample, 0, (1 << PWM_BIT_WIDTH)-1);
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analogWrite(PWM_PIN, sample); // write the selected waveform on DAC0
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// analogWrite(PWM_PIN, 128); // write the selected waveform on DAC0
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delayMicroseconds(wf_sample); // Hold the sample value for the sample time
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wf_pos++;
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if (wf_pos == WAVEFORM_MAX_SAMPLES_NUM) // Reset the counter to repeat the wave
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wf_pos = 0;
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}
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} else {
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analogWrite(PWM_PIN, 0);
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}
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}
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