Difference between revisions of "Using a relay for motor control"

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- Connect the pins called IN1, IN2 or SIG to digital pin D2 and D3.  
 
- Connect the pins called IN1, IN2 or SIG to digital pin D2 and D3.  
  
<b>Programming Arduino do switch direction</b>
+
<b>Programming</b>
  
To program your Arduino to switch direction, we'll follow and example code made by Robojax.  
+
To program your Arduino to switch direction, we'll follow and example code made by Robojax. You can change the pins to the other digital pins on the Arduino, but note that pin 0 and 1 are used for serial communication. Picking between the pins 2 till 13 is a safer option.  
  
  

Latest revision as of 12:49, 18 July 2024

Using a relay for motor control

Relays are versatile electronic switches that can power on and off many devices. Here we will discuss a simple circuit to turn on and off your DC motor. In this example, we will use a Arduino UNO, but any microcontroller that outputs 5V on its digital pins will work. What you will need is the following:

1 x Computer 1 x USB A to USB B cable 1 x Arduino UNO (or other microcontroller) 1 x 5V relay board 1 x A dc motor 3 x jumper cables M-F

Wiring your motor with a relay

Wiring your relay can be done like this:

How-To-Use-A-Relay-With-Arduino.jpg

There are three pins on the board that allow you to connect the relay board to your Arduino. These should be connected as follows:

Arduino -> Relay Board

5V -> VCC GND -> GND D2 -> SIG/IN

Relayterminalsandpint.png

Now let's connect the motor to the relay. First connect the ground (-) of the power supply directly to the motor. Then connect the VCC (+) of your power supply to the middle terminal of the relay marked (COM). Lastly connect the other wire of the motor to the right terminal marked NO.

A relay works as follows: When not receiving any power COM(common) is connected to NC (normally closed). When the signal pin received 5V, the relay switches and connects COM to NO, disconnecting COM and NC. Here is a picture of the inside:

Typical-electrical-relay-1930909437.png

You have a choice:

If you want the power to be cut off normally, but only turn on when you give it power, you connect COM and NO.

If you want your motor to be powered normally, but only be cut of when you give the relay power, connect COM and NC.

Programming your Arduino to control the relay

To program your Arduino, you will need a program called Arduino IDE. This can be downloaded here:

https://www.arduino.cc/en/software

One's Arduino IDE is installed, start it and connect the Arduino with your computer using a USB B cable. Check if Arduino UNO pops up. If not, go to Tool > Port and check if you can find your device. Select it and go to Tool > Boards > Arduino AVR Boards and Select Arduino UNO.

Now we can start writing a sketch for the Arduino. I will post a basic sketch for your relay circuit:

// Basic Relay Control Sketch
// This sketch demonstrates how to control a relay using an Arduino
// The relay will be turned on for 5 seconds, then off for 5 seconds in a loop

// Define the pin connected to the relay module
int relayPin = 2; // You can change this to any other digital pin

void setup() {
  // Initialize the relay pin as an output
  pinMode(relayPin, OUTPUT);
  
  // Initially turn the relay off
  digitalWrite(relayPin, LOW);
}

void loop() {
  // Turn the relay on
  digitalWrite(relayPin, HIGH); // HIGH turns the relay on
  delay(5000); // Wait for 5 seconds (5000 milliseconds)
  
  // Turn the relay off
  digitalWrite(relayPin, LOW); // LOW turns the relay off
  delay(5000); // Wait for 5 seconds (5000 milliseconds)
}

Upload this sketch to your Arduino Uno using the right arrow button on the top left. See what happens. How can you tweak it to behave like you would like it to?

Multiple Relays

The digital Pins of the Arduino UNO can control up to 13 relays. A bigger relay board allows you to make a sketch can controls multiple devices/motors whatever at once.

Bigrelayboard.jpg

Change direction with two relays

Using two relays, you can also reverse the polarity of your DC motor, effectively changing the direction of the rotation of the motor shaft.

Wiring

Scherm­afbeelding 2024-07-18 om 13.37.18.png

- Connect the motor to the COM terminals of both relays. - Connect the GND (-) to the NO terminals of both relays. - Connect the VCC (+) to the NC terminals of both relays.

- Connect the relay pins to the 5V and GND of the Arduino. - Connect the pins called IN1, IN2 or SIG to digital pin D2 and D3.

Programming

To program your Arduino to switch direction, we'll follow and example code made by Robojax. You can change the pins to the other digital pins on the Arduino, but note that pin 0 and 1 are used for serial communication. Picking between the pins 2 till 13 is a safer option.


  
/*
 * Arduino code change the direction of rotation 
 * of a DC motor with 2 relays.
 * 
 * This is basic code. I have advanced code which can be used in both 
 * for Low-level trigger and High-lever trigger relay with clean code
 * 
 * Written by Ahmad Shamshiri for Robojax.com on 
 * Sunday August 18, 2019 
 * at 20:22 in Ajax, Ontario, Canada
 * Watch video instruction for this code: https://youtu.be/JMBgGO07YLM
 * 
 * 
 * 
 Get this code and other Arduino codes from Robojax.com
Learn Arduino step by step in structured course with all material, wiring diagram and library
all in once place. Purchase My course on Udemy.com http://robojax.com/L/?id=62

If you found this tutorial helpful, please support me so I can continue creating 
content like this. You can support me on Patreon http://robojax.com/L/?id=63

or make donation using PayPal http://robojax.com/L/?id=64
* 
 * This code is "AS IS" without warranty or liability. Free to be used as long as you keep this note intact.* 
 * This code has been download from Robojax.com
    This program is free software: you can redistribute it and/or modify
    it under the terms of the GNU General Public License as published by
    the Free Software Foundation, either version 3 of the License, or
    (at your option) any later version.

    This program is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    GNU General Public License for more details.

    You should have received a copy of the GNU General Public License
    along with this program.  If not, see <https://www.gnu.org/licenses/>.
 */


int relay1 = 2;
int relay2 = 3;


void setup() {

    pinMode(relay1, OUTPUT);// set pin as output for relay 1
    pinMode(relay2, OUTPUT);// set pin as output for relay 2


    // keep the motor off by keeping both HIGH
    digitalWrite(relay1, HIGH); 
    digitalWrite(relay2, HIGH); 

 
  
  Serial.begin(9600);// initialize serial monitor with 9600 baud
  Serial.println("Robojax Motor Direction of Rotation");
  Serial.println("Using 2 Relays");  
  delay(2000);
}

void loop() {

 // Rotate in CCW direction
  digitalWrite(relay1, LOW);// turn relay 1 ON
  digitalWrite(relay2, HIGH);// turn relay 2 OFF  
  Serial.println("Rotating in CCW");  
  delay(3000);// wait for 3 seconds

 // stop the motor
  digitalWrite(relay1, HIGH);// turn relay 1 OFF
  digitalWrite(relay2, HIGH);// turn relay 2 OFF
  Serial.println("Stopped");  
  delay(2000);// stop for 2 seconds
  
 // Rotate in CW direction
  digitalWrite(relay1, HIGH);// turn relay 1 OFF
  digitalWrite(relay2, LOW);// turn relay 2 ON 
  Serial.println("Rotating in CW");  
  delay(3000);// wait for 3 seconds

 // stop the motor
  digitalWrite(relay1, HIGH);// turn relay 1 OFF
  digitalWrite(relay2, HIGH);// turn relay 2 OFF
  Serial.println("Stopped");  
  delay(2000);// stop for 2 seconds 
  
 Serial.println("===============");

          
}// loop end

Copy and paste this code into your Arduino IDE sketch and upload it.


For more information, watch this video by Robojax:

https://www.youtube.com/watch?v=JMBgGO07YLM&t=124s


Sensors

If you want your work to be interactive, you can connect the behavior of your relays to sensors. For more information about sensors, go to:

Sensors: Introduction and Types