L298N H-Bridge Dual Motor Driver, Stepper Motor Driver
Product Description
L298N H-Bridge Dual Motor Driver, Stepper Motor Driver
Control Your Motors with Precision and Power
The L298N H-Bridge Dual Motor Driver module, available at Robogearbd.com, is a versatile and robust solution for controlling DC motors and stepper motors. Perfect for robotics and automation projects, this module allows you to independently control the speed and direction of two DC motors or one stepper motor. With its high power output and ease of use, the L298N is ideal for both beginners and experienced developers looking to power up their projects.
Why Choose L298N H-Bridge Dual Motor Driver?
- Dual Motor Control: Capable of controlling two DC motors independently or one stepper motor, making it versatile for various applications.
- High Power Output: Each motor channel supports up to 2A current, enabling the control of powerful motors.
- Direction and Speed Control: Allows precise control over the speed and direction of your motors.
- Built-In Heat Sink: Ensures efficient cooling and stable operation even under heavy loads.
- Easy Integration: Compatible with various microcontrollers, including Arduino, for straightforward implementation.
Product Specifications
| Specification | Details |
|---|---|
| Motor Driver IC | L298N Dual H-Bridge |
| Operating Voltage | 5V to 35V |
| Output Current | 2A per channel (Max 25W) |
| Peak Current | 3A per channel |
| Control Logic Voltage | 5V |
| Logic Current | 0mA-36mA |
| Heat Sink | Yes, integrated |
| Motor Channels | 2 (can control 2 DC motors or 1 stepper motor) |
| Dimensions | 60 x 54 x 30 mm |
| Weight | Approximately 30 grams |
How to Get Started?
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Power the Module: Connect a suitable power source (5V-35V) to the power input terminals of the L298N module. Ensure the power supply can provide enough current for your motors.
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Connect Your Motors: Attach the motor wires to the motor output terminals. You can connect two DC motors or one stepper motor to the module.
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Interface with a Microcontroller: Connect the IN1, IN2, IN3, and IN4 pins to your microcontroller's digital output pins to control motor direction. Use the ENA and ENB pins for speed control via PWM signals.
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Write Your Code: Use a microcontroller, like an Arduino, to send signals to the L298N. Write code to control the motor speed and direction based on your project requirements.
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Test and Adjust: Run your program and test the motor operation. Adjust the code or motor connections as needed to achieve the desired performance.
Take control of your robotics and automation projects with the L298N H-Bridge Dual Motor Driver. Visit Robogearbd.com to purchase and bring precision and power to your next project!
