L298N Dual H Bridge DC & Stepper Motor Driver Module V2

SKU: TH0618
₹218.40
₹168.00 In Stock
₹198.24 (Incl. GST)
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L298N Dual H Bridge DC & Stepper Motor Driver designed for controlling motors for robotics and automation. It integrates a dual full-bridge driver capable of driving inductive loads like relays, solenoids, DC, and stepper motors.

  • Input Voltage (VMS): 6 to 35V
  • Current (Per Channel): 2A
  • Logic Voltage: 5 to 7V (internal LDO outputs 5V when enabled)
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2-4 ₹164.64
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1.095Overview

The L298N Motor Driver is a high-performance module designed for controlling motors for robotics and automation. It integrates a dual full-bridge driver capable of driving inductive loads like relays, solenoids, DC, and stepper motors. This driver allows for standard TTL logic level inputs and provides two enable inputs for easy on/off control.

Specifications

Detailed Specifications:

  • Input Voltage (VMS): 6 to 35V
  • Current (Per Channel): 2A
  • Logic Voltage: 5 to 7V (internal LDO outputs 5V when enabled)
  • Maximum Driver Power: 20 to 25W
  • Sensing Voltage: -1 to 2.3V
  • Dimensions:  60 x 54 x 30mm 

Pinouts

VMS Motor Power Supply 6V to 35V
GND Ground
5V 5V is the logic voltage pin. It gives 5V output when the internal LDO is enabled using the 5V-EN jumper. We recommend keep the jumper connected.
MOTORA Outputs of the Bridge A
MOTORB Outputs of the Bridge B
ENA TTL Compatible Enable Input: the L state disables the bridge A. Use PWM signal on this pin to control the speed of the motor.
ENB TTL Compatible Enable Input: the L state disables the bridge B. Use PWM signal on this pin to control the speed of the motor.
IN1, IN2 TTL Compatible Inputs of the Bridge A (5V Logic)
IN3, IN4 TTL Compatible Inputs of the Bridge B (5V Logic)
CSA Current sensing pin of the Bridge A. (Connected with a jumper) 
CSB Current sensing pin of the Bridge B. (Connected with a jumper) 
U1, U2, U3, U4 Pull-up resistor pins. (Connected with a jumper) 
5V-EN Connected with a jumper, enables the internal LDO to output 5V.

Connections & Code

Power
  • VMS: Connect it to a 6V to 35V power supply w.r.t the voltage rating of the motor.
  • GND: Connect it to the power supply ground. Make sure you tie all the GND ground pins together.
  • 5V: 5V is the logic voltage pin. It gives 5V output when the internal LDO is enabled using the 5V-EN jumper. We recommend keep the jumper connected.

Signal

Connections for Arduino UNO

  • ENA: Connect it to Pin ~9
  • IN1: Connect it to Pin 8
  • IN2: Connect it to Pin 7
  • IN3: Connect it to Pin ~6
  • IN4: Connect it to Pin ~5
  • ENB: Connect it to Pin ~3

Code

/*
MOTORA    IN1   |   IN2   |   ENA
------------------------------------
Forward   HIGH  |   LOW   |   255
------------------------------------
Reverse   LOW   |   HIGH  |   255
------------------------------------
STOP      LOW   |   LOW   |   0
------------------------------------

MOTORB    IN3   |   IN4   |   ENB
------------------------------------
Forward   HIGH  |   LOW   |   255
------------------------------------
Reverse   LOW   |   HIGH  |   255
------------------------------------
STOP      LOW   |   LOW   |   0
------------------------------------
*/

// Motor A, Left Side  
const unit8_t ENA = 9
const unit8_t IN1 = 8
const unit8_t IN2 = 7
// Motor B, Right Side 
const unit8_t IN3 = 6
const unit8_t IN4 = 5
const unit8_t ENB = 3

void stop(){
  digitalWrite(IN1, LOW);
  digitalWrite(IN2, LOW);
  digitalWrite(IN3, LOW);
  digitalWrite(IN4, LOW);
  analogWrite(ENA, 0);
  analogWrite(ENB, 0);
}

void moveForward(){
  digitalWrite(IN1, HIGH);
  digitalWrite(IN2, LOW);
  digitalWrite(IN3, HIGH);
  digitalWrite(IN4, LOW);    
  analogWrite(ENA, 255);
  analogWrite(ENB, 255);
}

void moveReverse(){
  digitalWrite(IN1, LOW);
  digitalWrite(IN2, HIGH);
  digitalWrite(IN3, LOW);
  digitalWrite(IN4, HIGH);    
  analogWrite(ENA, 255);
  analogWrite(ENB, 255);
}

void increaseForward(){
  for (int i=0; i<256; i++){   
    digitalWrite(IN1, HIGH);
    digitalWrite(IN2, LOW);
    digitalWrite(IN3, HIGH);
    digitalWrite(IN4, LOW);    
    analogWrite(ENA, i);
    analogWrite(ENB, i);
    delay(20);      
  }
}

void setup() {
  pinMode(ENA, OUTPUT); //ENA Enable Pin
  pinMode(IN1, OUTPUT); //IN1
  pinMode(IN2, OUTPUT); //IN2
  pinMode(IN3, OUTPUT); //IN3
  pinMode(IN4, OUTPUT); //IN4
  pinMode(ENB, OUTPUT); //ENB Enable Pin
}

void loop(){
  stop(); // Stop DC Motors
  delay(3000);
  moveForward(); // Drive DC Motors Forward
  delay(3000);
  moveReverse(); // Drive DC Motors Reverse
  delay(3000);
  increaseForward(); // Drive DC Motors 0 to 100 Forward
  delay(3000);
}

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