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teensy-audio/examples/CalcBiquadToneControl/CalcBiquadToneControl.ino

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Neapstrādāts Vainot Vēsture 

  1. // Tone example using AudioFilterBiquad object and calcBiquad filter calculator routine.

  2. 

  3. #include <Audio.h>

  4. #include <Wire.h>

  5. #include <SD.h>

  6. 

  7. const int myInput = AUDIO_INPUT_LINEIN;

  8. // const int myInput = AUDIO_INPUT_MIC;

  9. 

  10. int BassFilter_L[]={0,0,0,0,0,0,0,0};

  11. int BassFilter_R[]={0,0,0,0,0,0,0,0};

  12. int TrebFilter_L[]={0,0,0,0,0,0,0,0};

  13. int TrebFilter_R[]={0,0,0,0,0,0,0,0};

  14. 

  15. int updateFilter[5];

  16.  

  17. AudioInputI2S        audioInput;         // audio shield: mic or line-in

  18. AudioFilterBiquad    filterBass_L(BassFilter_L);

  19. AudioFilterBiquad    filterBass_R(BassFilter_R);

  20. AudioFilterBiquad    filterTreb_L(TrebFilter_L);

  21. AudioFilterBiquad    filterTreb_R(TrebFilter_R);

  22. AudioOutputI2S       audioOutput;        // audio shield: headphones & line-out

  23. 

  24. // Create Audio connections between the components

  25. //

  26. AudioConnection c1(audioInput,0,filterBass_L,0);

  27. AudioConnection c2(audioInput,1,filterBass_R,0);

  28. AudioConnection c3(filterBass_L,0,filterTreb_L,0);

  29. AudioConnection c4(filterBass_R,0,filterTreb_R,0);

  30. AudioConnection c5(filterTreb_L,0,audioOutput,0);

  31. AudioConnection c6(filterTreb_R,0,audioOutput,1);

  32. 

  33. // Create an object to control the audio shield.

  34. // 

  35. AudioControlSGTL5000 audioShield;

  36. 

  37. void setup() {

  38.   // Audio connections require memory to work.  For more

  39.   // detailed information, see the MemoryAndCpuUsage example

  40.   AudioMemory(12);

  41.   // Enable the audio shield, select the input and set the output volume.

  42.   audioShield.enable();

  43.   audioShield.inputSelect(myInput);

  44.   audioShield.volume(75);

  45.   audioShield.unmuteLineout();

  46. 

  47.   calcBiquad(FILTER_PARAEQ,110,0,0.2,2147483648,44100,updateFilter);

  48.   filterBass_L.updateCoefs(updateFilter);

  49.   filterBass_R.updateCoefs(updateFilter);

  50.   calcBiquad(FILTER_PARAEQ,4400,0,0.167,2147483648,44100,updateFilter);

  51.   filterTreb_L.updateCoefs(updateFilter);

  52.   filterTreb_R.updateCoefs(updateFilter);

  53. }

  54. 

  55. elapsedMillis chgMsec=0;

  56. float tone1=0;

  57. 

  58. void loop() {

  59.   // every 10 ms, check for adjustment the tone & vol

  60.   if (chgMsec > 10) { // more regular updates for actual changes seems better.

  61.     

  62.     float tone2=analogRead(15);

  63.     tone2=floor(((tone2-512)/512)*70)/10;

  64.     if(tone2!=tone1)

  65.     {

  66.       // calcBiquad(FilterType,FrequencyC,dBgain,Q,QuantizationUnit,SampleRate,int*);

  67.       calcBiquad(FILTER_PARAEQ,110,-tone2,0.2,2147483648,44100,updateFilter);

  68.       filterBass_L.updateCoefs(updateFilter);

  69.       filterBass_R.updateCoefs(updateFilter);

  70.       calcBiquad(FILTER_PARAEQ,4400,tone2,0.167,2147483648,44100,updateFilter);

  71.       filterTreb_L.updateCoefs(updateFilter);

  72.       filterTreb_R.updateCoefs(updateFilter);

  73.       tone1=tone2;

  74.     }

  75.     chgMsec = 0;

  76.   }

  77. }