5v Stepper Motor 4 Phase

Suits Arduino or Picaxe

Product Code: MOT0380

$4.80

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5v Stepper

Can be controlled with MOD0160 stepper controller


64 step with a 1/64 reduction giving 4096 steps per revolution.

Ideal for interfacing with Arduino PIC, AVR or any other microcontroller projects using our MOD0160 board.

Resolution of 4096 steps ideal for high accuracy

  • Rated voltage 5VDC
  • Number of Phase 4
  • Speed Variation Ratio 1/64
  • Stride Angle  5.625° /64
  • Frequency : 100Hz
  • DC resistance  200Ω±7%(25???)
  • Idle In-traction Frequency : > 600Hz
  • Idle Out-traction Frequency : > 1000Hz
  • In-traction Torque >34.3mN.m(120Hz)
  • Self-positioning Torque >34.3mN.m
  • Friction torque : 600-1200 gf.cm
  • Pull in torque : 300 gf.cm
  • Insulated resistance >10MΩ(500V)
  • Insulated electricity power 600VAC/1mA/1s
  • Insulation grade A
  • Rise in Temperature <40K(120Hz)
  • Noise <35dB(120Hz,No load,10cm)

The bipolar stepper motor usually has four wires coming out of it. Unlike unipolar steppers, bipolar steppers have no common center connection. They have two independent sets of coils instead. You can distinguish them from unipolar steppers by measuring the resistance between the wires. You should find two pairs of wires with equal resistance. If you’ve got the leads of your meter connected to two wires that are not connected (i.e. not attached to the same coil), you should see infinite resistance (or no continuity).