Motor driver 293D

 

int enA = 9;

int in1 = 8;

int in2 = 7;

int enB = 3;

int in3 = 5;

int in4 = 4;

void setup() {

pinMode(enA, OUTPUT);

pinMode(enB, OUTPUT);

pinMode(in1, OUTPUT);

pinMode(in2, OUTPUT);

pinMode(in3, OUTPUT);

pinMode(in4, OUTPUT);

digitalWrite(in1, LOW);

digitalWrite(in2, LOW);

digitalWrite(in3, LOW);

digitalWrite(in4, LOW);

}

void loop() {

analogWrite(enA, 255);

analogWrite(enB, 255);

digitalWrite(in1, HIGH);

digitalWrite(in2, LOW);

digitalWrite(in3, HIGH);

digitalWrite(in4, LOW);

}

1.Bluetooth ээр LED удирдах 

char value;

void setup() {

  Serial.begin(9600);//enable serial monitor

  pinMode(6, OUTPUT);//define led pin

}

 void loop() {

  if (Serial.available() > 0) {

    value = Serial.read();//read serial value

  }

   if (value == '1') {//check value

    digitalWrite(6, HIGH);//led on

    Serial.println("LED on");//print serial monitor "LED on"

  } else if (value == '0') {

    digitalWrite(6, LOW);//led off

    Serial.println("LED off");//print serial monitor "LED on"

  }

}

2.Bluetooth ээр Motor удирдах

код:

#include <AFMotor.h>

//initial motors pin

AF_DCMotor motor1(1); 

AF_DCMotor motor2(2); 

AF_DCMotor motor3(3);

AF_DCMotor motor4(4);

char command; 

void setup() 

{       

  Serial.begin(9600);  //Set the baud rate to your Bluetooth module.

}

void loop(){

  if(Serial.available() > 0){ 

    command = Serial.read(); 

    Stop(); //initialize with motors stoped

    //Change pin mode only if new command is different from previous.   

    //Serial.println(command);

    switch(command){

    case 'F':  

      forward();

      break;

    case 'B':  

       back();

      break;

    case 'L':  

      left();

      break;

    case 'R':

      right();

      break;

    }

  } 

}

void forward()

{

  motor1.setSpeed(255); //Define maximum velocity

  motor1.run(FORWARD); //rotate the motor clockwise

  motor2.setSpeed(255); //Define maximum velocity

  motor2.run(FORWARD); //rotate the motor clockwise

  motor3.setSpeed(255);//Define maximum velocity

  motor3.run(FORWARD); //rotate the motor clockwise

  motor4.setSpeed(255);//Define maximum velocity

  motor4.run(FORWARD); //rotate the motor clockwise

}

void back()

{

  motor1.setSpeed(255); //Define maximum velocity

  motor1.run(BACKWARD); //rotate the motor anti-clockwise

  motor2.setSpeed(255); //Define maximum velocity

  motor2.run(BACKWARD); //rotate the motor anti-clockwise

  motor3.setSpeed(255); //Define maximum velocity

  motor3.run(BACKWARD); //rotate the motor anti-clockwise

  motor4.setSpeed(255); //Define maximum velocity

  motor4.run(BACKWARD); //rotate the motor anti-clockwise

}

void left()

{

  motor1.setSpeed(255); //Define maximum velocity

  motor1.run(BACKWARD); //rotate the motor anti-clockwise

  motor2.setSpeed(255); //Define maximum velocity

  motor2.run(BACKWARD); //rotate the motor anti-clockwise

  motor3.setSpeed(255); //Define maximum velocity

  motor3.run(FORWARD);  //rotate the motor clockwise

  motor4.setSpeed(255); //Define maximum velocity

  motor4.run(FORWARD);  //rotate the motor clockwise

}

void right()

{

  motor1.setSpeed(255); //Define maximum velocity

  motor1.run(FORWARD); //rotate the motor clockwise

  motor2.setSpeed(255); //Define maximum velocity

  motor2.run(FORWARD); //rotate the motor clockwise

  motor3.setSpeed(255); //Define maximum velocity

  motor3.run(BACKWARD); //rotate the motor anti-clockwise

  motor4.setSpeed(255); //Define maximum velocity

  motor4.run(BACKWARD); //rotate the motor anti-clockwise

} 

void Stop()

{

  motor1.setSpeed(0); //Define minimum velocity

  motor1.run(RELEASE); //stop the motor when release the button

  motor2.setSpeed(0); //Define minimum velocity

  motor2.run(RELEASE); //rotate the motor clockwise

  motor3.setSpeed(0); //Define minimum velocity

  motor3.run(RELEASE); //stop the motor when release the button

  motor4.setSpeed(0); //Define minimum velocity

  motor4.run(RELEASE); //stop the motor when release the button

}