MOT-28BYJ48 Stepper Motor w/ ULN2003 Driver

Price:
US$6.41
MOT-28BYJ48
In stock
+
Add to wish list

MOT-28BYJ48 Stepper Motor w/ ULN2003 Driver

This is a 28YBJ-48 DC 5V 4 phase 5 wire unipolar stepper motor with ULN2003 driver board. 

Rated Voltage: DC5V 4-phase
Step angle: 5.625 x 1/64
DC Resistance: 200Ω±7% (25C)
Insulation Resistance: >10MΩ (500V)
Dielectric Strength: 600V AC / 1mA / 1s
Insulation Grade: A
No-load Pull in Frequency: >600Hz
No-load Pull out Frequency: >1000Hz
Pull in Torque: >34.3mN.m(120Hz)
Detent Torque: >34.3mN.m
Temperature Rise: <40K(120Hz) ULN2003 Driver Board:

Package includes:

1 x ULN2003 driver board
1 x 28BYJ-48 stepper motor

Wiring the ULN2003 stepper motor driver to Arduino Uno

The ULN2003 stepper motor driver board allows you to easily control the 28BYJ-48 stepper motor from a microcontroller, like the Arduino Uno. One side of the board side has a 5 wire socket where the cable from the stepper motor hooks up and 4 LEDs to indicate which coil is currently powered. The motor cable only goes in one way, which always helps. On the side you have a motor on / off jumper (keep it on to enable power to the stepper). The two pins below the 4 resistors, is where you provide power to the stepper. Note that powering the stepper from the 5 V rail of the Arduino is not recommended. A separate 5-12 V 1 Amp power supply or battery pack should be used, as the motor may drain more current than the microcontroller can handle and could potentially damage it. In the middle of the board we have the ULN2003 chip. At the bottom are the 4 control inputs that should be connected to four Arduino digital pins.

Hooking it up to the Arduino

Connect the ULN2003 driver IN1, IN2, IN3 and IN4 to digital pin 3, 4, 5 and 6 respectively on the Arduino Uno. Connect the positive lead from a decent 5-12V battery pack to the “+” pin of the ULN2003 driver and the ground to the “-” pin. Make sure that the “on/off” jumper next to the “-” pin is on. If you power the Arduino from a different battery pack, connect the grounds together.

Check Arduino forums for code examples.