![]() This terminal block will provide the output for Motor B. This terminal block will provide the output for Motor A. If we connect this pin to Ground the Motor B will be disabled. In that way, we can control the speed of Motor B. If we remove the jumper, we need to connect this pin to a PWM input of the microcontroller. If a jumper is present on this pin, so the pin connected to +5 V and the motor will be enabled, then the Motor B rotates maximum speed. If we connect this pin to Ground the Motor A will be disabled.ĮNB pin is used to control the speed of Motor B. In that way, we can control the speed of Motor A. If a jumper is present on this pin, so the pin connected to +5 V and the motor will be enabled, then the Motor A rotates maximum speed. If both the inputs are either HIGH or LOW the Motor A will stop.ĮNA pin is used to control the speed of Motor A. When one of them is HIGH and the other is LOW, Motor A will start rotating in a particular direction. These are used to control the rotating direction of Motor A. If both the inputs are either HIGH or LOW the Motor A will stop. If the 5V-EN jumper is removed, you need to connect it to the 5V power supply of the microcontroller. If the 5V-EN jumper is in place, this pin acts as output and can be used to power up a microcontroller or other circuitry (sensor). +5V pin supplies power for the switching logic circuitry inside the L298N IC. It needs to be connected to the power supply ground(negative). ![]() VCC pin is used to supply power to the motor. L298N Motor Driver Module Pin Diagram/Pinout/Pin configuration ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. Archives
February 2023
Categories |