![]() Step3: By connecting your power supply to the L298N's "12V" pin, you can power the device with up to 12V. I connected them to the Arduino's pins 2, 3, and here, pin 5. The direction of the motor coupled to OUT3 and OUT4 is managed by IN3 and IN4. The direction of the motor coupled to OUT1 and OUT2 is managed by IN1 and IN2. Step2: The L298N's row of pins on the bottom right corner regulates the motors' direction and speed. Connect the second motor to the OUT3 and OUT4 terminals. Connect one motor to the OUT1 and OUT2 terminals. Step1: The controller has a capacity of two motors. Supplies power for the switching logic circuitry inside L298N IC Used to control the spinning direction of Motor B Used to control the spinning direction of Motor A In this tutorial, we'll learn how to control two 6-volt DC motors with the L298N. The L298N can also be used to control a single stepper motor or two sets of LED lighting strips. Video Description: The L298N Dual H-Bridge Motor Controller is an inexpensive device that allows you to control two independent DC motors using 5-volt digital logic signals, such as the digital output pins of an Arduino. A second supply input allows the logic to run at a lower voltage. The bottom transistors of each bridge have connected emitters, and the proper wires can be used to connect an external sensing resistor to the correct external terminal. There are two enable inputs provided to enable or disable the device independently of the input signals. It can also handle ordinary TTL logic levels. It is a dual full-bridge driver with high voltage and current that is intended to drive inductive loads including relays, solenoids, DC motors, and stepping motors. The L298N integrated monolithic circuit is housed in the 15-lead Multiwatt and PowerSO20 packages. L293D VS L298N: The differences between them ![]()
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