jeevan-git · August 5, 2021 03:02
diff --git a/one_channel_receiver.ino b/one_channel_receiver.ino
 /**
 * One Channel Receiver
 * Author: Shawn Hymel (SparkFun Electronics)
 * Date: Aug 17, 2017
 * 
 * Connect a TB6612FNG and RC (PWM) receiver to the Arduino.
 * Only works 1 channel for forward and back drive.
 * 
 * This code is beerware; if you see me (or any other SparkFun 
 * employee) at the local, and you've found our code helpful, 
 * please buy us a round! 
 * Distributed as-is; no warranty is given.
 */

 // Controller pins
 const int CH_2_PIN = 11;

 // Motor driver pins
 const int STBY_PIN = 9;
 const int AIN1_PIN = 2;
 const int AIN2_PIN = 4;
 const int APWM_PIN = 5;
 const int BIN1_PIN = 7;
 const int BIN2_PIN = 8;
 const int BPWM_PIN = 6;

 // Parameters
 const int deadzone = 20;  // Anything between -20 and 20 is stop

 void setup() {

  // Configure pins
  pinMode(STBY_PIN, OUTPUT);
  pinMode(AIN1_PIN, OUTPUT);
  pinMode(AIN2_PIN, OUTPUT);
  pinMode(APWM_PIN, OUTPUT);
  pinMode(BIN1_PIN, OUTPUT);
  pinMode(BIN2_PIN, OUTPUT);
  pinMode(BPWM_PIN, OUTPUT);

  // Enable motor driver
  digitalWrite(STBY_PIN, HIGH);
 }

 void loop() {

  // Read pulse width from receiver
  int ch_2 = pulseIn(CH_2_PIN, HIGH, 25000);

  // Convert to PWM value (-255 to 255)
  ch_2 = pulseToPWM(ch_2);

  // Drive motor
  drive(ch_2, ch_2);

  delay(5);
 }

 // Positive for forward, negative for reverse
 void drive(int speed_a, int speed_b) {

  // Limit speed between -255 and 255
  speed_a = constrain(speed_a, -255, 255);
  speed_b = constrain(speed_b, -255, 255);

  // Set direction for motor A
  if ( speed_a == 0 ) {
    digitalWrite(AIN1_PIN, LOW);
    digitalWrite(AIN2_PIN, LOW);
  } else if ( speed_a > 0 ) {
    digitalWrite(AIN1_PIN, HIGH);
    digitalWrite(AIN2_PIN, LOW);
  } else {
    digitalWrite(AIN1_PIN, LOW);
    digitalWrite(AIN2_PIN, HIGH);
  }

  // Set direction for motor B
  if ( speed_b == 0 ) {
    digitalWrite(BIN1_PIN, LOW);
    digitalWrite(BIN2_PIN, LOW);
  } else if ( speed_b > 0 ) {
    digitalWrite(BIN1_PIN, HIGH);
    digitalWrite(BIN2_PIN, LOW);
  } else {
    digitalWrite(BIN1_PIN, LOW);
    digitalWrite(BIN2_PIN, HIGH);
  }

  // Set speed
  analogWrite(APWM_PIN, abs(speed_a));
  analogWrite(BPWM_PIN, abs(speed_b));
 }

 // Convert RC pulse value to motor PWM value
 int pulseToPWM(int pulse) {
  
  // If we're receiving numbers, convert them to motor PWM
  if ( pulse > 1000 ) {
    pulse = map(pulse, 1000, 2000, -500, 500);
    pulse = constrain(pulse, -255, 255);
  } else {
    pulse = 0;
  }

  // Anything in deadzone should stop the motor
  if ( abs(pulse) <= deadzone ) {
    pulse = 0;
  }

  return pulse;
 }
	/**
	* One Channel Receiver
	* Author: Shawn Hymel (SparkFun Electronics)
	* Date: Aug 17, 2017
	*
	* Connect a TB6612FNG and RC (PWM) receiver to the Arduino.
	* Only works 1 channel for forward and back drive.
	*
	* This code is beerware; if you see me (or any other SparkFun
	* employee) at the local, and you've found our code helpful,
	* please buy us a round!
	* Distributed as-is; no warranty is given.
	*/

	// Controller pins
	const int CH_2_PIN = 11;

	// Motor driver pins
	const int STBY_PIN = 9;
	const int AIN1_PIN = 2;
	const int AIN2_PIN = 4;
	const int APWM_PIN = 5;
	const int BIN1_PIN = 7;
	const int BIN2_PIN = 8;
	const int BPWM_PIN = 6;

	// Parameters
	const int deadzone = 20; // Anything between -20 and 20 is stop

	void setup() {

	// Configure pins
	pinMode(STBY_PIN, OUTPUT);
	pinMode(AIN1_PIN, OUTPUT);
	pinMode(AIN2_PIN, OUTPUT);
	pinMode(APWM_PIN, OUTPUT);
	pinMode(BIN1_PIN, OUTPUT);
	pinMode(BIN2_PIN, OUTPUT);
	pinMode(BPWM_PIN, OUTPUT);

	// Enable motor driver
	digitalWrite(STBY_PIN, HIGH);
	}

	void loop() {

	// Read pulse width from receiver
	int ch_2 = pulseIn(CH_2_PIN, HIGH, 25000);

	// Convert to PWM value (-255 to 255)
	ch_2 = pulseToPWM(ch_2);

	// Drive motor
	drive(ch_2, ch_2);

	delay(5);
	}

	// Positive for forward, negative for reverse
	void drive(int speed_a, int speed_b) {

	// Limit speed between -255 and 255
	speed_a = constrain(speed_a, -255, 255);
	speed_b = constrain(speed_b, -255, 255);

	// Set direction for motor A
	if ( speed_a == 0 ) {
	digitalWrite(AIN1_PIN, LOW);
	digitalWrite(AIN2_PIN, LOW);
	} else if ( speed_a > 0 ) {
	digitalWrite(AIN1_PIN, HIGH);
	digitalWrite(AIN2_PIN, LOW);
	} else {
	digitalWrite(AIN1_PIN, LOW);
	digitalWrite(AIN2_PIN, HIGH);
	}

	// Set direction for motor B
	if ( speed_b == 0 ) {
	digitalWrite(BIN1_PIN, LOW);
	digitalWrite(BIN2_PIN, LOW);
	} else if ( speed_b > 0 ) {
	digitalWrite(BIN1_PIN, HIGH);
	digitalWrite(BIN2_PIN, LOW);
	} else {
	digitalWrite(BIN1_PIN, LOW);
	digitalWrite(BIN2_PIN, HIGH);
	}

	// Set speed
	analogWrite(APWM_PIN, abs(speed_a));
	analogWrite(BPWM_PIN, abs(speed_b));
	}

	// Convert RC pulse value to motor PWM value
	int pulseToPWM(int pulse) {

	// If we're receiving numbers, convert them to motor PWM
	if ( pulse > 1000 ) {
	pulse = map(pulse, 1000, 2000, -500, 500);
	pulse = constrain(pulse, -255, 255);
	} else {
	pulse = 0;
	}

	// Anything in deadzone should stop the motor
	if ( abs(pulse) <= deadzone ) {
	pulse = 0;
	}

	return pulse;
	}