/* SineCosOut.ino - Sine left, Cos right Selectable: Frequency, Hz Amplitude, 0.00 to 1.00 Bob Larkin 28 Dec 2020 Basic test of I2S input and output. Tested on T3.6 and T4.0 Public Domain */ #include "Audio.h" // Teensy I16 Audio Library #include "OpenAudio_ArduinoLibrary.h" // F32 library #include "AudioStream_F32.h" // T3.x supported sample rates: 2000, 8000, 11025, 16000, 22050, 24000, 32000, 44100, 44117, 48000, // 88200, 88235 (44117*2), 95680, 96000, 176400, 176470, 192000 // T4.x supports any sample rate the codec will hanedle. const float sample_rate_Hz = 24000.0f ; // 24000, 44117, or other frequencies listed above const int audio_block_samples = 128; // Always 128, which is AUDIO_BLOCK_SAMPLES from AudioStream.h AudioSettings_F32 audio_settings(sample_rate_Hz, audio_block_samples); AudioSynthSineCosine_F32 sineCos; AudioAnalyzePeak_F32 peakL; AudioAnalyzePeak_F32 peakR; AudioOutputI2S_F32 i2sOut(audio_settings); AudioConnection_F32 patchCord0(sineCos, 0, peakL, 0); AudioConnection_F32 patchCord1(sineCos, 1, peakR, 0); AudioConnection_F32 patchCord2(sineCos, 0, i2sOut, 0); // Sine AudioConnection_F32 patchCord3(sineCos, 1, i2sOut, 1); // Cosine AudioControlSGTL5000 codec1; void setup() { Serial.begin(9600); // (anything) delay(1000); Serial.println("OpenAudio_ArduinoLibrary - Sine-Cosine Stereo"); // Internally, I16 memory blocks are used. Needs modification, but // for now, supply 4 for F32 input and 4 for F32 output (shared). //AudioMemory(4); AudioMemory_F32(20); codec1.enable(); // MUST be before inputSelect() codec1.inputSelect(AUDIO_INPUT_LINEIN); float fr = 600.0f; // Sine wave frequency and correction for sample rate sineCos.amplitude(0.2); sineCos.frequency(fr*44117.647f/sample_rate_Hz); } void loop() { Serial.print("Max float memory = "); Serial.println(AudioStream_F32::f32_memory_used_max); if(peakL.available()) Serial.print(peakL.read(), 6); Serial.print(" <-L Peak level R-> "); if(peakR.available()) Serial.println(peakR.read(), 6); delay(500); }