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@ -8,25 +8,46 @@ |
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*
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* Change the value of sine1.frequency to see the DC output change. |
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* See FMReceiver2.ino for testing with real AC modulation. |
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*
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* As an alternative the input can come from the ADC for "SINE_ADC 0" |
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*
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* Output is sent to left channel SGTL5000 DAC. |
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*/ |
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#include "Audio.h" |
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#include <OpenAudio_ArduinoLibrary.h> |
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// Uncomment the lines "SINE" for internally generated sine wave.
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// Uncomment the lines "ADC" to use the SGTL5000 Teensy audio adaptor
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// AudioInputI2S_F32 i2sIn; // ADC
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AudioSynthWaveformSine_F32 sine1; // SINE
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// SINE_ADC 1 for internally generated sine wave.
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// SINE_ADC 0 to use the SGTL5000 Teensy audio adaptor ADC/DAC
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#define SINE_ADC 0 |
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#if SINE_ADC |
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AudioSynthWaveformSine_F32 sine1; |
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RadioFMDetector_F32 fmDet1; |
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AudioRecordQueue_F32 queue1; |
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AudioOutputI2S_F32 i2sOut; // Leave in for timing
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// AudioControlSGTL5000 sgtl5000_1; // ADC
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// AudioConnection_F32 connect0(i2sIn, 0, fmDet1, 0); // ADC
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AudioConnection_F32 connect0(sine1, 0, fmDet1, 0); // SINE
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// AudioConnection_F32 connect1(sine1, 0, queue1, 0);
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AudioConnection_F32 connect3(fmDet1, 0, i2sOut, 0); |
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AudioConnection_F32 connect5(fmDet1, 0, queue1, 0); |
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AudioConvert_F32toI16 cnvrtOut; |
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AudioOutputI2S i2sOut; |
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AudioControlSGTL5000 sgtl5000_1; |
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AudioConnection_F32 connect1(sine1, 0, fmDet1, 0); |
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AudioConnection_F32 connect3(fmDet1, 0, cnvrtOut, 0); |
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AudioConnection connect4(cnvrtOut, 0, i2sOut, 0); // left
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AudioConnection_F32 connect5(fmDet1, 0, queue1, 0); |
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#else // Input from Teensy Audio Adaptor SGTL5000
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// Note - With no input, the FM detector output is all noise. This
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// can be loud, so one can add a gain block at the fmDet1 output (like 0.05 gain).
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AudioInputI2S i2sIn; |
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AudioConvert_I16toF32 cnvrtIn; |
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RadioFMDetector_F32 fmDet1; |
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AudioRecordQueue_F32 queue1;
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AudioConvert_F32toI16 cnvrtOut; |
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AudioOutputI2S i2sOut; |
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AudioControlSGTL5000 sgtl5000_1; |
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AudioConnection connect1(i2sIn, 0, cnvrtIn, 0); // left
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AudioConnection_F32 connect2(cnvrtIn, 0, fmDet1, 0); |
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AudioConnection_F32 connect3(fmDet1, 0, cnvrtOut, 0); |
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AudioConnection_F32 connect5(fmDet1, 0, queue1, 0); |
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AudioConnection connect7(cnvrtOut, 0, i2sOut, 0); |
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#endif |
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float dt1[512]; // Place to save output
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float *pq1, *pd1; |
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@ -39,10 +60,12 @@ void setup(void) { |
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Serial.begin(300); delay(1000); // Any rate is OK
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Serial.println("Serial Started"); |
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// sgtl5000_1.enable(); // ADC
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// sgtl5000_1.inputSelect(AUDIO_INPUT_LINEIN); //ADC
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sgtl5000_1.enable(); |
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sgtl5000_1.inputSelect(AUDIO_INPUT_LINEIN);
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sine1.frequency(14000.0); // SINE
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#if SINE_ADC |
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sine1.frequency(14000.0); |
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#endif |
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// The FM detector has error checking during object construction
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// when Serial.print is not available. See RadioFMDetector_F32.h:
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@ -79,10 +102,15 @@ void loop(void) { |
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} |
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// We have 512 data samples. Serial.print them
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if(i == 4) { |
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Serial.println("512 Time in seconds and FM Output samples:"); |
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#if SINE_ADC |
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Serial.println("For 14,000 Hz sine wave input:"); |
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#endif |
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Serial.println("512 samples of FM Det output, starting t=0"); |
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Serial.println("Time in sec, FM Output, Dev from 15,000 Hz:"); |
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for (k=0; k<512; k++) { |
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Serial.print (0.000022667*(float32_t)k, 6); Serial.print (","); |
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Serial.println (dt1[k],7); |
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Serial.print (0.000022667*(float32_t)k, 6); Serial.print (", "); |
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Serial.print (dt1[k],7); Serial.print (", "); |
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Serial.println (dt1[k]/0.000142421, 2); // Convert to Hz
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} |
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i = 5; |
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} |
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