arduino-modular/BeepBox/BeepBox.ino

//waveform generator

// hacked from https://www.instructables.com/Arduino-Waveform-Generator-1/

#include <Adafruit_MCP4728.h>
#include <Wire.h>

Adafruit_MCP4728 mcp;

#define nsamp 32
#define dacmax 256

const byte nclk = 200; // a guess
long int freq; //frequency in Hz
long unsigned int phase;
long unsigned int phase_inc;

int note = 0;
int gate;
int decay = 2;

float pattern[4];

long unsigned int pattern_inc[4];

void setup() {
  TIMSK0 &= ~_BV(TOIE0); // disable timer0 overflow interrupt

  cli();

//set timer1 interrupt at 1Hz
  TCCR1A = 0;// set entire TCCR1A register to 0
  TCCR1B = 0;// same for TCCR1B
  TCNT1  = 0;//initialize counter value to 0
  // set compare match register for 1hz increments
  OCR1A = 3905;// = (16*10^6) / (1*1024) - 1 (must be <65536)
  // turn on CTC mode
  TCCR1B |= (1 << WGM12);
  // Set CS10 and CS12 bits for 1024 prescaler
  TCCR1B |= (1 << CS12) | (1 << CS10);  
  // enable timer compare interrupt
  TIMSK1 |= (1 << OCIE1A);

  sei();


  Serial.begin(115200);

  if (!mcp.begin(0x64)) {
    while (1) {
      delay(100);
    }
  }

//  mcp.setSpeed(400000L);
//  mcp.setSpeed(800000L);
  mcp.setSpeed(800000L);

  freq=440;
  phase=0;
  pattern[0] = 110.0;
  pattern[1] = 82.40688922821751;
  pattern[2] = 97.99885899543737;
  pattern[3] = 82.40688922821751;

  for( int i = 0; i < 4; i++ ) {
    pattern_inc[i] = pattern[i] * 975592.231884058;
  }

  setwave();
}

const float pi=3.14159265;
byte waveform[nsamp];
byte phaseb = 0;
void setwave(){
  for (int isamp=0; isamp<nsamp; ++isamp){
    float phip=(isamp+0.5)/nsamp;
    float phi=2*pi*phip;
    int val=0;

    //saw
    val = dacmax * isamp / nsamp;
    //val = ( isamp < nsamp / 2 ) ? 0 : dacmax - 1;
        //sine
    //val=(sin(phi)+1.0)*dacmax/2;
    //val=((sin(phi)+0.333*sin(3*phi))/0.943+1)*dacmax/2;

    val=max(val,0);
    val=min(val,dacmax-1);
    waveform[isamp]=val;
  }
}


ISR(TIMER1_COMPA_vect){//timer1 interrupt 1Hz 
  note += 1;
  if( note > 3 ) {
    note = 0;
  }
  phase_inc = pattern_inc[note];
  gate = 4095;
}
 

void loop() {
  phase += phase_inc;
  int redphase = phase >> 27;
  mcp.fastWrite(waveform[redphase] << 4, gate, 0, 0);
  if( gate > 0 ) {
    gate -= decay;
  }
}
Two more experiments 2024-01-21 05:37:01 +00:00			`//waveform generator`

			`// hacked from https://www.instructables.com/Arduino-Waveform-Generator-1/`

			`#include <Adafruit_MCP4728.h>`
			`#include <Wire.h>`

			`Adafruit_MCP4728 mcp;`

			`#define nsamp 32`
			`#define dacmax 256`

			`const byte nclk = 200; // a guess`
			`long int freq; //frequency in Hz`
			`long unsigned int phase;`
			`long unsigned int phase_inc;`

			`int note = 0;`
			`int gate;`
			`int decay = 2;`

			`float pattern[4];`

			`long unsigned int pattern_inc[4];`

			`void setup() {`
			`TIMSK0 &= ~_BV(TOIE0); // disable timer0 overflow interrupt`

			`cli();`

			`//set timer1 interrupt at 1Hz`
			`TCCR1A = 0;// set entire TCCR1A register to 0`
			`TCCR1B = 0;// same for TCCR1B`
			`TCNT1 = 0;//initialize counter value to 0`
			`// set compare match register for 1hz increments`
			`OCR1A = 3905;// = (1610^6) / (11024) - 1 (must be <65536)`
			`// turn on CTC mode`
			`TCCR1B \|= (1 << WGM12);`
			`// Set CS10 and CS12 bits for 1024 prescaler`
			`TCCR1B \|= (1 << CS12) \| (1 << CS10);`
			`// enable timer compare interrupt`
			`TIMSK1 \|= (1 << OCIE1A);`

			`sei();`


			`Serial.begin(115200);`

			`if (!mcp.begin(0x64)) {`
			`while (1) {`
			`delay(100);`
			`}`
			`}`

			`// mcp.setSpeed(400000L);`
			`// mcp.setSpeed(800000L);`
			`mcp.setSpeed(800000L);`

			`freq=440;`
			`phase=0;`
			`pattern[0] = 110.0;`
			`pattern[1] = 82.40688922821751;`
			`pattern[2] = 97.99885899543737;`
			`pattern[3] = 82.40688922821751;`

			`for( int i = 0; i < 4; i++ ) {`
			`pattern_inc[i] = pattern[i] * 975592.231884058;`
			`}`

			`setwave();`
			`}`

			`const float pi=3.14159265;`
			`byte waveform[nsamp];`
			`byte phaseb = 0;`
			`void setwave(){`
			`for (int isamp=0; isamp<nsamp; ++isamp){`
			`float phip=(isamp+0.5)/nsamp;`
			`float phi=2piphip;`
			`int val=0;`

			`//saw`
			`val = dacmax * isamp / nsamp;`
			`//val = ( isamp < nsamp / 2 ) ? 0 : dacmax - 1;`
			`//sine`
			`//val=(sin(phi)+1.0)*dacmax/2;`
			`//val=((sin(phi)+0.333sin(3phi))/0.943+1)*dacmax/2;`

			`val=max(val,0);`
			`val=min(val,dacmax-1);`
			`waveform[isamp]=val;`
			`}`
			`}`



			`ISR(TIMER1_COMPA_vect){//timer1 interrupt 1Hz`
			`note += 1;`
			`if( note > 3 ) {`
			`note = 0;`
			`}`
			`phase_inc = pattern_inc[note];`
			`gate = 4095;`
			`}`



			`void loop() {`
			`phase += phase_inc;`
			`int redphase = phase >> 27;`
			`mcp.fastWrite(waveform[redphase] << 4, gate, 0, 0);`
			`if( gate > 0 ) {`
			`gate -= decay;`
			`}`
			`}`