Wave
Project #22: Synthesizer – Wave – Mk13
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DonLucElectronics #DonLuc #Synthesizer #Mozzi #Keyboard #ADSREnvelope #Oscillators #Arduino #SparkFunRedBoard #Project #Fritzing #Programming #Electronics #Microcontrollers #Consultant
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Sine Wave and Cosine Wave
A sine wave is a mathematical curve defined in terms of the sine trigonometric function. It is a type of continuous wave and also a smooth periodic function. It occurs often in mathematics, as well as in physics, engineering, signal processing and many other fields.
The term sinusoid describes any wave with characteristics of a sine wave. Thus, a cosine wave is also said to be sinusoidal, which is also a sine wave with a phase-shift. Because of this head start, it is often said that the cosine function leads the sine function or the sine lags the cosine. The term sinusoidal thereby collectively refers to both sine waves and cosine waves with any phase offset.
Sawtooth Wave
The sawtooth wave is a kind of non-sinusoidal waveform. It is so named based on its resemblance to the teeth of a plain toothed saw with a zero rake angle. A single sawtooth, or an intermittently triggered sawtooth, is called a ramp waveform.
Triangle Wave
A triangle wave is a non-sinusoidal waveform named for its triangular shape. It is a periodic, piecewise linear, continuous real function.
Square Wave
A square wave is a non-sinusoidal periodic waveform in which the amplitude alternates at a steady frequency between fixed minimum and maximum values, with the same duration at minimum and maximum. In an ideal square wave, the transitions between minimum and maximum are instantaneous.
DL2208Mk06
1 x SparkFun RedBoard
1 x 10k Ohm Rotary Potentiometer
1 x Potentiometer Knob – Blue
7 x Momentary Button – Panel Mount (Blue)
5 x Momentary Button – Panel Mount (Black)
12 x 10K Ohm Resistor
5 x 10k Ohm Slide Linear Taper Pot – X-Large
5 x Slide Potentiometer Knob – X-Large
1 x Perfboard 13.5 cm x 11 cm
1 x SparkFun Solderable Breadboard
1 x Audio Jack 3.5mm
1 x SparkFun Audio Jack Breakout
1 x SparkFun ProtoShield
1 x Insignia Speakers
1 x SparkFun Cerberus USB Cable
SparkFun RedBoard
LP0 – Analog A0 – Blue
LP1 – Analog A1 – Green
LP2 – Analog A2 – Grey
LP3 – Analog A3 – Yellow
LP4 – Analog A4 – Purple
PO5 – Analog A5
KY1 – 1
KY2 – 2
KY3 – 3
KY4 – 4
KY5 – 5
KY6 – 6
KY7 – 7
KY8 – 8
SPK – 9
KY10 – 10
KY11 – 11
KY12 – 12
KY13 – 13
VIN – +5V
GND – GND
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DL2208Mk06p.ino
/* ***** Don Luc Electronics © ***** Software Version Information Project #22: Synthesizer - Wave - Mk13 22-13 DL2208Mk06p.ino 1 x SparkFun RedBoard 1 x 10k Ohm Rotary Potentiometer 1 x Potentiometer Knob - Blue 7 x Momentary Button - Panel Mount (Blue) 5 x Momentary Button - Panel Mount (Black) 12 x 1K Ohm Resistor 5 x 10k Ohm Slide Linear Taper Pot - X-Large 5 x Slide Potentiometer Knob - X-Large 1 x Perfboard 13.5 cm x 11 cm 1 x SparkFun Solderable Breadboard 1 x Audio Jack 3.5mm 1 x SparkFun Audio Jack Breakout 1 x SparkFun ProtoShield 1 x Insignia Speakers 1 x SparkFun Cerberus USB Cable */ // Include the Library Code // Pitches #include "pitches.h" // Mozzi #include <MozziGuts.h> // Oscillator #include <Oscil.h> // Sine Wave Table For Oscillator #include <tables/sin2048_int8.h> // Cosine Wave Table For Oscillator #include <tables/cos2048_int8.h> // Sawtooth Wave Table For Oscillator #include <tables/saw2048_int8.h> // Triangle Wave Table For Oscillator #include <tables/triangle2048_int8.h> // Square Wave Table For Oscillator #include <tables/square_no_alias_2048_int8.h> // ADSR envelope generator #include <ADSR.h> // Simple Keyboard // Minimum reading of the button that generates a note const int iKeyboard1 = 1; const int iKeyboard2 = 2; const int iKeyboard3 = 3; const int iKeyboard4 = 4; const int iKeyboard5 = 5; const int iKeyboard6 = 6; const int iKeyboard7 = 7; const int iKeyboard8 = 8; const int iKeyboard10 = 10; const int iKeyboard11 = 11; const int iKeyboard12 = 12; const int iKeyboard13 = 13; // Button is pressed int iB1 = 1; int iB2 = 1; int iB3 = 1; int iB4 = 1; int iB5 = 1; int iB6 = 1; int iB7 = 1; int iB8 = 1; int iB10 = 1; int iB11 = 1; int iB12 = 1; int iB13 = 1; // Set the input for the potentiometer for Frequency to analog pin 2 const int potFreq = A2; int iFreg = 1; int iNoteA = 0; int iNoteAS = 0; int iNoteB = 0; int iNoteC = 0; int iNoteCS = 0; int iNoteD = 0; int iNoteDS = 0; int iNoteE = 0; int iNoteF = 0; int iNoteFS = 0; int iNoteG = 0; int iNoteGS = 0; // Potentiometer int iPot4 = A4; //Oscillator Functions declared for output envelope 1 // Carrier Oscil<COS2048_NUM_CELLS, AUDIO_RATE> aCarrier; // Set the input for the potentiometer for Oscillator to analog pin 4 const int potWave = A5; // Wave int iWave; int iWaveLevel; // ADSR declaration/definition // Comment out to use control rate of 128 #define CONTROL_RATE 128 ADSR <CONTROL_RATE, CONTROL_RATE> envelope1; // Set the input for the potentiometer Attack to analog pin 1 const int potAttack = A0; // Attack int attack_level = 0; int iAttack = 0; // Set the input for the potentiometer for Decay to analog pin 2 const int potDecay = A1; // Decay int decay_level = 0; int iDecay = 0; // Set the input for the potentiometer Attack Time to analog pin 3 const int potAttackTime = A3; // Attack Time int AttackTime_level = 0; int iAttackTime = 0; // Software Version Information String sver = "22-13"; void loop() { // Audio Hook audioHook(); }
getKeyboard.ino
// getKeyboard // setupKeyboard void setupKeyboard() { // Initialize the button pin as an input pinMode(iKeyboard1, INPUT_PULLUP); pinMode(iKeyboard2, INPUT_PULLUP); pinMode(iKeyboard3, INPUT_PULLUP); pinMode(iKeyboard4, INPUT_PULLUP); pinMode(iKeyboard5, INPUT_PULLUP); pinMode(iKeyboard6, INPUT_PULLUP); pinMode(iKeyboard7, INPUT_PULLUP); pinMode(iKeyboard8, INPUT_PULLUP); pinMode(iKeyboard10, INPUT_PULLUP); pinMode(iKeyboard11, INPUT_PULLUP); pinMode(iKeyboard12, INPUT_PULLUP); pinMode(iKeyboard13, INPUT_PULLUP); } // isKeyboard void isKeyboard() { // Oscillators isOscil(); // Choose envelope levels // attack_level iAttack = mozziAnalogRead( potAttack ); attack_level = map( iAttack, 0, 1023, 100, 400); // Attack Level envelope1.setAttackLevel( attack_level ); // decay_level iDecay = mozziAnalogRead( potDecay ); decay_level = map( iDecay, 0, 1023, 50, 255); // Decay Level envelope1.setDecayLevel( decay_level ); // AttackTime_level iAttackTime = mozziAnalogRead( potAttackTime ); AttackTime_level = map( iAttackTime, 0, 1023, 0, 900); // Attack Time Level envelope1.setAttackTime( AttackTime_level ); // Read the state of the button value 1 if ( digitalRead(iKeyboard1) == HIGH ) { // Button is pressed - pullup keeps pin high normally 1 iB1 = iB1 + 1; // ADSR declaration/definition envelope1.noteOn(); aCarrier.setFreq(iNoteA); } else { iB1 = iB1 - 1; } // Read the state of the button value 2 if ( digitalRead(iKeyboard2) == HIGH ) { // Button is pressed - pullup keeps pin high normally 2 iB2 = iB2 + 1; // ADSR declaration/definition envelope1.noteOn(); aCarrier.setFreq(iNoteAS); } else { iB2 = iB2 - 1; } // Read the state of the button value 3 if ( digitalRead(iKeyboard3) == HIGH ) { // Button is pressed - pullup keeps pin high normally 3 iB3 = iB3 + 1; // ADSR declaration/definition envelope1.noteOn(); aCarrier.setFreq(iNoteB); } else { iB3 = iB3 - 1; } // Read the state of the button value 4 if ( digitalRead(iKeyboard4) == HIGH ) { // Button is pressed - pullup keeps pin high normally 4 iB4 = iB4 + 1; // ADSR declaration/definition envelope1.noteOn(); aCarrier.setFreq(iNoteC); } else { iB4 = iB4 - 1; } // Read the state of the button value 5 if ( digitalRead(iKeyboard5) == HIGH ) { // Button is pressed - pullup keeps pin high normally 5 iB5 = iB5 + 1; // ADSR declaration/definition envelope1.noteOn(); aCarrier.setFreq(iNoteCS); } else { iB5 = iB5 - 1; } // Read the state of the button value 6 if ( digitalRead(iKeyboard6) == HIGH ) { // Button is pressed - pullup keeps pin high normally 6 iB6 = iB6 + 1; // ADSR declaration/definition envelope1.noteOn(); aCarrier.setFreq(iNoteD); } else { iB6 = iB6 - 1; } // Read the state of the button value 7 if ( digitalRead(iKeyboard7) == HIGH ) { // Button is pressed - pullup keeps pin high normally 7 iB7 = iB7 + 1; // ADSR declaration/definition envelope1.noteOn(); aCarrier.setFreq(iNoteDS); } else { iB7 = iB7 - 1; } // Read the state of the button value 8 if ( digitalRead(iKeyboard8) == HIGH ) { // Button is pressed - pullup keeps pin high normally 8 iB8 = iB8 + 1; // ADSR declaration/definition envelope1.noteOn(); aCarrier.setFreq(iNoteE); } else { iB8 = iB8 - 1; } // Read the state of the button value 10 if ( digitalRead(iKeyboard10) == HIGH ) { // Button is pressed - pullup keeps pin high normally 10 iB10 = iB10 + 1; // ADSR declaration/definition envelope1.noteOn(); aCarrier.setFreq(iNoteF); } else { iB10 = iB10 - 1; } // Read the state of the button value 11 if ( digitalRead(iKeyboard11) == HIGH ) { // Button is pressed - pullup keeps pin high normally 11 iB11 = iB11 + 1; // ADSR declaration/definition envelope1.noteOn(); aCarrier.setFreq(iNoteFS); } else { iB11 = iB11 - 1; } // Read the state of the button value 12 if ( digitalRead(iKeyboard12) == HIGH ) { // Button is pressed - pullup keeps pin high normally 12 iB12 = iB12 + 1; // ADSR declaration/definition envelope1.noteOn(); aCarrier.setFreq(iNoteG); } else { iB12 = iB12 - 1; } // Read the state of the button value 13 if ( digitalRead(iKeyboard13) == HIGH ) { // Button is pressed - pullup keeps pin high normally 13 iB13 = iB13 + 1; // ADSR declaration/definition envelope1.noteOn(); aCarrier.setFreq(iNoteGS); } else { iB13 = iB13 - 1; } }
getMozzi.ino
// Mozzi // Update Control void updateControl(){ // Frequency isPitches(); // Keyboard isKeyboard(); } // Update Audio int updateAudio() { // Update Audio // ADSR declaration/definition envelope1.update(); // >>8 for AUDIO_MODE STANDARD return (int) (envelope1.next() * aCarrier.next())>>8; }
getOscillators.ino
// Oscillators // isOscil void isOscil(){ // Oscillators // Value is 0-1023 iWave = mozziAnalogRead(potWave); iWaveLevel = map(iWave, 0, 1023, 1, 5); switch (iWaveLevel) { case 1: // Sine Wave aCarrier.setTable(SIN2048_DATA); break; case 2: // Cosine Wave aCarrier.setTable(COS2048_DATA); break; case 3: // Sawtooth Wave aCarrier.setTable(SAW2048_DATA); break; case 4: // Triangle Wave aCarrier.setTable(TRIANGLE2048_DATA); break; case 5: // Square Wave aCarrier.setTable(SQUARE_NO_ALIAS_2048_DATA); break; default: // Case 0 // Sine Wave aCarrier.setTable(SIN2048_DATA); break; } }
getPitches.ino
// Pitches // isPitches void isPitches(){ // Frequency // Value is 0-1023 iFreg = mozziAnalogRead(potFreq); iFreg = map(iFreg, 0, 1023, 2, 6); // Range Frequency Note Low => High switch ( iFreg ) { case 1: // NOTE A1 iNoteA = NOTE_A1; iNoteAS = NOTE_AS1; iNoteB = NOTE_B1; iNoteC = NOTE_C2; iNoteCS = NOTE_CS2; iNoteD = NOTE_D2; iNoteDS = NOTE_DS2; iNoteE = NOTE_E2; iNoteF = NOTE_F2; iNoteFS = NOTE_FS2; iNoteG = NOTE_G2; iNoteGS = NOTE_GS2; break; case 2: // NOTE A2 iNoteA = NOTE_A2; iNoteAS = NOTE_AS2; iNoteB = NOTE_B2; iNoteC = NOTE_C3; iNoteCS = NOTE_CS3; iNoteD = NOTE_D3; iNoteDS = NOTE_DS3; iNoteE = NOTE_E3; iNoteF = NOTE_F3; iNoteFS = NOTE_FS3; iNoteG = NOTE_G3; iNoteGS = NOTE_GS3; break; case 3: // NOTE A3 iNoteA = NOTE_A3; iNoteAS = NOTE_AS3; iNoteB = NOTE_B3; iNoteC = NOTE_C4; iNoteD = NOTE_D4; iNoteDS = NOTE_DS4; iNoteE = NOTE_E4; iNoteF = NOTE_F4; iNoteFS = NOTE_FS4; iNoteG = NOTE_G4; iNoteGS = NOTE_GS4; break; case 4: // NOTE A4 iNoteA = NOTE_A4; iNoteAS = NOTE_AS4; iNoteB = NOTE_B4; iNoteC = NOTE_C5; iNoteCS = NOTE_CS5; iNoteD = NOTE_D5; iNoteE = NOTE_E5; iNoteF = NOTE_F5; iNoteFS = NOTE_FS5; iNoteG = NOTE_G5; iNoteGS = NOTE_GS5; break; case 5: // NOTE A5 iNoteA = NOTE_A5; iNoteAS = NOTE_AS5; iNoteB = NOTE_B5; iNoteC = NOTE_C6; iNoteCS = NOTE_CS6; iNoteD = NOTE_D6; iNoteDS = NOTE_DS6; iNoteE = NOTE_E6; iNoteF = NOTE_F6; iNoteFS = NOTE_FS6; iNoteG = NOTE_G6; iNoteGS = NOTE_GS6; break; case 6: // NOTE A6 iNoteA = NOTE_A6; iNoteAS = NOTE_AS6; iNoteB = NOTE_B6; iNoteC = NOTE_C7; iNoteCS = NOTE_CS7; iNoteD = NOTE_D7; iNoteDS = NOTE_DS7; iNoteE = NOTE_E7; iNoteF = NOTE_F7; iNoteFS = NOTE_FS7; iNoteG = NOTE_G7; iNoteGS = NOTE_GS7; break; } }
pitches.h
/***************************************************************** * Pitches NOTE_B0 <=> NOTE_DS8 - NOTE_A4 is "A" measured at 440Hz *****************************************************************/ #define NOTE_B0 31 #define NOTE_C1 33 #define NOTE_CS1 35 #define NOTE_D1 37 #define NOTE_DS1 39 #define NOTE_E1 41 #define NOTE_F1 44 #define NOTE_FS1 46 #define NOTE_G1 49 #define NOTE_GS1 52 #define NOTE_A1 55 #define NOTE_AS1 58 #define NOTE_B1 62 #define NOTE_C2 65 #define NOTE_CS2 69 #define NOTE_D2 73 #define NOTE_DS2 78 #define NOTE_E2 82 #define NOTE_F2 87 #define NOTE_FS2 93 #define NOTE_G2 98 #define NOTE_GS2 104 #define NOTE_A2 110 #define NOTE_AS2 117 #define NOTE_B2 123 #define NOTE_C3 131 #define NOTE_CS3 139 #define NOTE_D3 147 #define NOTE_DS3 156 #define NOTE_E3 165 #define NOTE_F3 175 #define NOTE_FS3 185 #define NOTE_G3 196 #define NOTE_GS3 208 #define NOTE_A3 220 #define NOTE_AS3 233 #define NOTE_B3 247 #define NOTE_C4 262 #define NOTE_CS4 277 #define NOTE_D4 294 #define NOTE_DS4 311 #define NOTE_E4 330 #define NOTE_F4 349 #define NOTE_FS4 370 #define NOTE_G4 392 #define NOTE_GS4 415 #define NOTE_A4 440 #define NOTE_AS4 466 #define NOTE_B4 494 #define NOTE_C5 523 #define NOTE_CS5 554 #define NOTE_D5 587 #define NOTE_DS5 622 #define NOTE_E5 659 #define NOTE_F5 698 #define NOTE_FS5 740 #define NOTE_G5 784 #define NOTE_GS5 831 #define NOTE_A5 880 #define NOTE_AS5 932 #define NOTE_B5 988 #define NOTE_C6 1047 #define NOTE_CS6 1109 #define NOTE_D6 1175 #define NOTE_DS6 1245 #define NOTE_E6 1319 #define NOTE_F6 1397 #define NOTE_FS6 1480 #define NOTE_G6 1568 #define NOTE_GS6 1661 #define NOTE_A6 1760 #define NOTE_AS6 1865 #define NOTE_B6 1976 #define NOTE_C7 2093 #define NOTE_CS7 2217 #define NOTE_D7 2349 #define NOTE_DS7 2489 #define NOTE_E7 2637 #define NOTE_F7 2794 #define NOTE_FS7 2960 #define NOTE_G7 3136 #define NOTE_GS7 3322 #define NOTE_A7 3520 #define NOTE_AS7 3729 #define NOTE_B7 3951 #define NOTE_C8 4186 #define NOTE_CS8 4435 #define NOTE_D8 4699 #define NOTE_DS8 4978
setup.ino
// Setup void setup() { // Setup Keyboard setupKeyboard(); // Mozzi Start startMozzi( CONTROL_RATE ); // Sets Attack and Decay Levels; assumes Sustain, Decay, and Idle times envelope1.setADLevels(200,200); // Sets Decay time in milliseconds envelope1.setDecayTime(200); // Sustain Time setting for envelope1 envelope1.setSustainTime(52500); }
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