![]() A key feature of this module is that you can change the microstep settings by the built-in switches on the driver. This module could control a two-phase stepping motor. ![]() Now you are ready to embark on an exciting journey of controlling stepper motors using the powerful TB6600 driver in conjunction with your Arduino. How It Works When you buy a DC motor, you need to know what voltage DC motor work. Example codes for 28BYJ-48 stepper motor with Arduino and AccelStepper library. Step 1: Circuit Step 2: Code TB6600 Stepper Motor Driver Features The TB6600 is an easy-to-use professional stepper motor driver that you can adjust its microsteps. In the 4.5A type, the driver step first becomes 1/8 and then stops because it doesn’t have a 1/32 step.īy following these steps and understanding the code, you’ll be able to effectively interface the TB6600 stepper motor driver with your Arduino and harness its full potential. Finally, by increasing the step, the motor speed decreases and its resolution increases. Here we will use the accelstepper library to demonstrate stepper motor acceleration rate control. By doing this, the driver step in 4A type, first becomes 1/8 and then 1/32. Nema 17 is used as the stepper motor and L298N IC is used as a stepper motor controller. For example, first we set pin S1 and then S2 to off. Next, we want to change the step manually by the driver switches. The motor then rotates by creating a square pulse with the step pin. The rotation direction of the stepper motor is clockwise in 4A type and counter-clockwise in 4.5A type. Connect pin 8 to DIR (CW) and pin 9 to PUL (CLK).
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