|Place of Origin:||JIANGSU,CHINA|
|Minimum Order Quantity:||10pcs|
|Delivery Time:||7-25 work days|
|Payment Terms:||T/T, Western Union, L/C|
|Supply Ability:||250000pcs per/ month|
|Type:||Hybrid Stepper Motor||Brand:||Prostepper|
57mm Hybrid Stepper Motor,
Nema 23 Hybrid Stepper Motor,
2N.M dc motor holding torque
NEMA23 2 phase stepping motor 57mm 1.8 degree hybrid stepper motor
|Resistance||2 Ω/Phase||0.9Ω /Phase||0.5Ω/Phase|
Stepper motor features
Hybrid stepper motor's specifications
Description of NEMA23 hybrid stepper motor
1. Accurate position Control
The angular displacement of the stepping motor can be precise controlled by the number of electrical pulses.Angle accuracy can be controlled within ±0.09°without any feedback devices.
2. Stepper motors are economical, accurate, and easy to control, and they can operate reliably in a variety of environments (depending on the level of protection IP chosen) preferably in machines with additional enclosures or in clean environments
4. Accurate Speed Control
The rotational speed of the stepping motor can be precisely controlled ,By controlling the frequency of the electric pulse.
5.The Fulling product line is sold to major manufacturing Companies for Industry of automation, medical andhealth care equipment, printer machine, packing device,Information Technology,household appliance,product,AGV and automobile.
Stepper motors are diverse in their uses, but some of the most common include:
0.9° and 1.8° Hybrid Stepper Motors
1.8° Step Angle,The motors are directly compatible with the stepper motor drive boards and also drive either motor (if required) in the half step mode i.e. 0.9° per step resulting in higher resolution, greater performance stability and faster stepping rates. Direction, velocity, acceleration/deceleration can be controlled by a stepper motor controller.,Applying the correct electrical pulse sequence to the windings of the stepper motor results in a 1.8° step angle rotation of the spindle (i.e. 200 steps per revolution). When correctly loaded and driven these motors will produce discrete output steps. The number of steps and speed of rotation are determined by the number of pulses and frequency of the input signal. This provides an ideal method for speed and position control. The motors are directly compatible with stepper motor drive boards.