Stepper One Revolution

Stepper motors, due to their unique design, can be controlled to a high degree of accuracy without any feedback mechanisms. The shaft of a stepper, mounted with a series of magnets, is controlled by a series of electromagnetic coils that are charged positively and negatively in a specific sequence, precisely moving it forward or backward in small "steps".

There are two types of steppers, Unipolars and Bipolars, and it is very important to know which type you are working with. For each of the motors, there is a different circuit. The example code will control both kinds of motors. See the unipolar and bipolar motor schematics for information on how to wire up your motor.

In this example, the shaft does a full rotation clockwise, doing the number of stepper motor using the Arduino Stepper Library. The stepper is controlled by with digital pins 8, 9, 10, and 11 for either unipolar or bipolar motors.

The Arduino board will connect to a U2004 Darlington Array if you're using a unipolar stepper or a SN754410NE H-Bridge if you have a bipolar motor.

Hardware Required

• Arduino Board

• stepper motor

• U2004 Darlington Array (if using a unipolar stepper)

• SN754410ne H-Bridge (if using a bipolar stepper)

• power supply appropriate for your particular stepper

• hook-up wires

• breadboard

Circuits

Below you'll find circuits for both unipolar and bipolar steppers. In either case, it is best to power your stepper motors from an external supply, as they draw too much to be powered directly from your Arduino board.

Note: Both circuits below are four wire configurations. Two wire configurations will not work with the code provided.

Unipolar Stepper Circuit and schematic

Unipolar Motor Knob Circuit

image developed using Fritzing. For more circuit examples, see the Fritzing project page

Unipolar Motor Knob Schematic

Bipolar Stepper Circuit and schematic

Bipolar Motor Knob Circuit

image developed using Fritzing. For more circuit examples, see the Fritzing project page

Bipolar Motor Knob Schematic

Code

For both unipolar and bipolar steppers

See also

• Stepper myStepper = Stepper(steps, pin1, pin2, pin3, pin4)

• stepper.setSpeed()

• stepper.step()

• Stepper library reference

• MotorKnob - Moves the shaft according to the position of the knob of a potentiometer.

• StepperOneStepAtATime - Single stepping to check the proper wiring of the motor.

• StepperSpeedControl - The stepping speed is controlled by a potentiometer.

Last revision 2018/08/23 by SM