MOONS' 14HK2404N

Smooth Hybrid Stepper Motors. Small torque fluctuations, smooth running, suitable for the pursuit of quiet and smooth running applications. At the same time, the outdoor environment tolerance of the encapsulated hybrid stepper motors will be better. 2 Phase - 0.9 degree step angle: Because each step moves only ½ the distance of 1.8 degree motors, these motors have higher accuracy and very smooth movement. The drive for this motor is exactly the same as the 2 phase, 1.8 degree motors. For the same speed, these motors must have a step rate that is 2 times that of a 1.8 degree motor. This higher step rate leads to less torque at high speeds. However, for many applications high speed is not needed, or higher voltage drives can be used to increase torque at high speeds. An example of a good application for 0.9 degree motors are security cameras. These motors allow the camera to be precisely moved without "camera shake" which causes the picture to vibrate. MOONS' offers small encapsulated sizes that reduce camera package size, and helps withstand the outdoor environment.

Technical data

  • NEMA 14 Smooth Hybrid Stepper Motors
  • Stepper motor, Smoother, High precision, Small size, High torque
  • Frame size: NEMA14(35mm)
  • Shaft: Single
  • Phase: 2
  • Steps/ Revolution: 400
  • Step Angle: 0.9°
  • Step Accuracy: ±5%
  • Insulation Class: B, 130℃
  • Insulation Resistance: 100 MegOhms
  • Axial Load (20,000 hours at 1000RPM ): 25 N (5.6 Lbs.) Push
  • 65 N (15 Lbs.) Pull
  • Radial Load (20,000 hours at 1000RPM ): 30 N (6.5 Lbs.)At Flat Center
  • Operating Temp.: -20℃~50℃
  • IP Rating: IP 40
  • Approvals: RoHS
  • Coil Type: Bi-Polar

Product specification

  • Frame Size: NEMA 14 Smooth
  • Rated current (A): 0.3
  • Holding Torque (Nm): 0.12
  • Winding Resistance (Ohm): 26
  • Winding Inductance (mH): 21
  • Detent Torque (mNm): 10
  • Rotor Intertia [gcm²]: 11
  • Length (mm): 20.2
  • Weight (g): 110
  • Connector: Leads
  • Motor: 14HK2404N
Maximilian Hausjell

Do you have questions?

Mr. Maximilian Hausjell
Phone: +49 80 92 81 89 21
E-mail: m.hausjell@ghv.de