k80-linux-cooling/Arduino/display_and_pwm_rx.ino

#include "SerialTransfer.h"

SerialTransfer myTransfer;

const byte OC1A_PIN = 9;
const byte OC1B_PIN = 10;

const word PWM_FREQ_HZ = 25000; //Adjust this value to adjust the frequency (Frequency in HZ!) (Default is 25kHZ)
const word TCNT1_TOP = 16000000/(2*PWM_FREQ_HZ);

int pin1=8;
int pin2=7;
int pin3=6;
int pin4=5;
int pin5=4;
int pin6=3;
int pin7=2;

struct STRUCT {
  char val;
} myStruct;

void setup() {
  // Setup Serial transfer with PC
  Serial.begin(115200);
  myTransfer.begin(Serial);

  pinMode(OC1A_PIN, OUTPUT);

  // Clear Timer1 control and count registers
  TCCR1A = 0;
  TCCR1B = 0;
  TCNT1  = 0;

  // Set Timer1 configuration
  // COM1A(1:0) = 0b10   (Output A clear rising/set falling)
  // COM1B(1:0) = 0b00   (Output B normal operation)
  // WGM(13:10) = 0b1010 (Phase correct PWM)
  // ICNC1      = 0b0    (Input capture noise canceler disabled)
  // ICES1      = 0b0    (Input capture edge select disabled)
  // CS(12:10)  = 0b001  (Input clock select = clock/1)

  TCCR1A |= (1 << COM1A1) | (1 << WGM11);
  TCCR1B |= (1 << WGM13) | (1 << CS10);
  ICR1 = TCNT1_TOP;
}

void loop() {

  if(myTransfer.available())
  {

    // send all received data back to Python
    for(uint16_t i=0; i < myTransfer.bytesRead; i++){
      myTransfer.packet.txBuff[i] = myTransfer.packet.rxBuff[i];
    }
    myTransfer.sendData(myTransfer.bytesRead);

    uint16_t recSize = 0;
    recSize = myTransfer.rxObj(myStruct, recSize);
    int x = myStruct.val * 2;  // For some reason the display needs it * 2; I prefer to keep my sanity so I won't question it

		if((x & 2) > 0) { digitalWrite(pin1, HIGH); } else { digitalWrite(pin1, LOW); }
    if((x & 4) > 1) { digitalWrite(pin2, HIGH); } else { digitalWrite(pin2, LOW); }
    if((x & 8) > 3) { digitalWrite(pin3, HIGH); } else { digitalWrite(pin3, LOW); }
    if((x & 16) > 7) { digitalWrite(pin4, HIGH); } else { digitalWrite(pin4, LOW); }
    if((x & 32) > 15) { digitalWrite(pin5, HIGH); } else { digitalWrite(pin5, LOW); }
    if((x & 64) > 31) { digitalWrite(pin6, HIGH); } else { digitalWrite(pin6, LOW); }
    if((x & 128) > 63) { digitalWrite(pin7, HIGH); } else { digitalWrite(pin7, LOW); }

    setPwmDuty(x / 2);
  }
}

void setPwmDuty(byte duty) {
  OCR1A = (word) (duty*TCNT1_TOP)/100;
}
Initial commit; completed 2022-10-24 21:52:54 -05:00			`#include "SerialTransfer.h"`

			`SerialTransfer myTransfer;`

			`const byte OC1A_PIN = 9;`
			`const byte OC1B_PIN = 10;`

Fix doubled PWM 2022-10-25 22:28:49 -05:00			`const word PWM_FREQ_HZ = 25000; //Adjust this value to adjust the frequency (Frequency in HZ!) (Default is 25kHZ)`
Initial commit; completed 2022-10-24 21:52:54 -05:00			`const word TCNT1_TOP = 16000000/(2*PWM_FREQ_HZ);`

			`int pin1=8;`
			`int pin2=7;`
			`int pin3=6;`
			`int pin4=5;`
			`int pin5=4;`
			`int pin6=3;`
			`int pin7=2;`

			`struct STRUCT {`
			`char val;`
			`} myStruct;`

			`void setup() {`
			`// Setup Serial transfer with PC`
			`Serial.begin(115200);`
			`myTransfer.begin(Serial);`

			`pinMode(OC1A_PIN, OUTPUT);`

			`// Clear Timer1 control and count registers`
			`TCCR1A = 0;`
			`TCCR1B = 0;`
			`TCNT1 = 0;`

			`// Set Timer1 configuration`
			`// COM1A(1:0) = 0b10 (Output A clear rising/set falling)`
			`// COM1B(1:0) = 0b00 (Output B normal operation)`
			`// WGM(13:10) = 0b1010 (Phase correct PWM)`
			`// ICNC1 = 0b0 (Input capture noise canceler disabled)`
			`// ICES1 = 0b0 (Input capture edge select disabled)`
			`// CS(12:10) = 0b001 (Input clock select = clock/1)`

			`TCCR1A \|= (1 << COM1A1) \| (1 << WGM11);`
			`TCCR1B \|= (1 << WGM13) \| (1 << CS10);`
			`ICR1 = TCNT1_TOP;`
			`}`

			`void loop() {`

			`if(myTransfer.available())`
			`{`

			`// send all received data back to Python`
			`for(uint16_t i=0; i < myTransfer.bytesRead; i++){`
			`myTransfer.packet.txBuff[i] = myTransfer.packet.rxBuff[i];`
			`}`
			`myTransfer.sendData(myTransfer.bytesRead);`

			`uint16_t recSize = 0;`
			`recSize = myTransfer.rxObj(myStruct, recSize);`
Fix doubled PWM 2022-10-25 22:28:49 -05:00			`int x = myStruct.val * 2; // For some reason the display needs it * 2; I prefer to keep my sanity so I won't question it`
Initial commit; completed 2022-10-24 21:52:54 -05:00
			`if((x & 2) > 0) { digitalWrite(pin1, HIGH); } else { digitalWrite(pin1, LOW); }`
			`if((x & 4) > 1) { digitalWrite(pin2, HIGH); } else { digitalWrite(pin2, LOW); }`
			`if((x & 8) > 3) { digitalWrite(pin3, HIGH); } else { digitalWrite(pin3, LOW); }`
			`if((x & 16) > 7) { digitalWrite(pin4, HIGH); } else { digitalWrite(pin4, LOW); }`
			`if((x & 32) > 15) { digitalWrite(pin5, HIGH); } else { digitalWrite(pin5, LOW); }`
			`if((x & 64) > 31) { digitalWrite(pin6, HIGH); } else { digitalWrite(pin6, LOW); }`
			`if((x & 128) > 63) { digitalWrite(pin7, HIGH); } else { digitalWrite(pin7, LOW); }`

Fix doubled PWM 2022-10-25 22:28:49 -05:00			`setPwmDuty(x / 2);`
Initial commit; completed 2022-10-24 21:52:54 -05:00			`}`
			`}`

			`void setPwmDuty(byte duty) {`
			`OCR1A = (word) (duty*TCNT1_TOP)/100;`
			`}`