Motor Drivers

2A Dual L298N Motor Driver Module with PWM Control

Product ID: FAERI-04528

2A Dual L298N Motor Driver Module with PWM Control The L298N Motor Driver Module is a great choice for controlling motors! It contains a double H bridge L298N chip, which has a maximum voltage of 46V and a current of 2A. This L298N dual H bridge motor driver for Arduino works with a logic voltage…

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Motor Drivers

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2A Dual L298N Motor Driver Module with PWM Control

The L298N Motor Driver Module is a great choice for controlling motors! It contains a double H bridge L298N chip, which has a maximum voltage of 46V and a current of 2A. This L298N dual H bridge motor driver for Arduino works with a logic voltage of 5V and can drive motors with a voltage range of 5–35V, making it a reliable motor driver module for DC motor and robotics applications.

One cool feature of the L298N-based motor driver module is that it has current sensing for each motor, so you can easily check how they’re performing. It also features a heatsink to keep it cool while running, which increases efficiency. Also, there is a power-on LED indicator that indicates when it is active. The L298N Module is perfect for controlling DC and Stepper motors, switches, relays, robotic cars, arms, etc., making it the best motor driver module for Arduino projects for beginners and developers alike.

Why Choose This Motor Driver Module?

• Reliable L298N dual H bridge motor driver for Arduino projects

• Ideal motor driver module for DC motor and robotics applications

• Beginner-friendly and widely supported

• High voltage and current handling capability

• Proven performance in robotics and automation

• Considered the best motor driver module for Arduino projects

Features:

• Uses an L298N IC for effective motor control.

• Includes a 78M05 Voltage Regulator for internal circuitry power.

• Jumper enables the voltage regulator for power supplies ? 12V; requires separate 5V for supplies > 12V.

• ENA and ENB pins control motor speed; IN1 & IN2 and IN3 & IN4 control motor direction.

• Features a Power LED for status monitoring.

• Compact design with integrated resistors and capacitors for stability.

• Easy to use with popular microcontrollers like Arduino.

Pinout

Pin Name
Description

IN1 & IN2
Motor A input pins. Used to control the spinning direction of Motor A.

IN3 & IN4
Motor B input pins. Used to control the spinning direction of Motor B.

ENA
Enable pin for Motor A — allows PWM speed control of Motor A.

ENB
Enable pin for Motor B — allows PWM speed control of Motor B.

OUT1 & OUT2
Output pins to Motor A — these connect to the two leads of Motor A.

OUT3 & OUT4
Output pins to Motor B — these connect to the two leads of Motor B.

12V
12V (or motor supply) input from DC power source — supplies power to the motors.

5V
Logic supply pin (5 V) — supplies power for the internal switching logic circuitry in the L298N IC.

GND
Ground pin — common reference for the logic and motor power supply.

Comparison: L298N vs L293D vs BTS7960 Motor Driver Modules

Specification
L298N
L293D
BTS7960

Operating Voltage
5V – 35V
4.5V – 36V
6V – 27V

Output Current (per channel)
Up to 2A
Up to 600mA
Up to 43A

Number of Channels
2 (Dual H-Bridge)
2 (Dual H-Bridge)
1 (Single H-Bridge)

PWM Control
Yes (ENA/ENB Pins)
Yes (Enable Pins)
Yes (PWM Input Pins)

Logic Voltage
5V
5V
3.3V – 5V compatible

Heat Dissipation
Moderate (Built-in Heat Sink)
Low (Needs external cooling for high load)
High (Integrated powerful MOSFETs with heat sink)

Motor Type Supported
DC Motors, Stepper Motors
DC Motors, Small Steppers
High-Power DC Motors

Efficiency
Medium (BJT-based)
Low (BJT-based)
High (MOSFET-based)

Suitable For
Robotics, Medium DC Motors
Basic Projects, Low-Power Motors
High-Torque Motors, Electric Vehicles

Applications:

• Robotic Cars

• Robotic Arms

• Controlling the motor's speed and direction

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