Place of Origin: | JIANGSU,CHINA |
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Brand Name: | Prostepper |
Certification: | CE.ISO.ROHS.SGS |
Model Number: | PST42H260-4L20M |
Minimum Order Quantity: | 1pcs |
Price: | Negotiable |
Packaging Details: | 38.5*24*23 |
Delivery Time: | 7-25 work days |
Payment Terms: | T/T, Western Union, L/C |
Supply Ability: | 250000pcs per/ month |
Brand: | Prostepper | Type: | Hybrid Stepper Motor |
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Current: | 2A | Holding Torque: | 0.72N.m |
Step Angle: | 1.8degree | Model: | PST42H260-4L20M |
Lenght: | 60mm | Weight: | 0.5kg |
High Light: | Nema 17 Hybrid Stepper Motor,0.72N.m Hybrid Stepper Motor,0.72N.m hybrid linear stepper motor |
42*60mm Brake Stepper Motor 1.8degree Nema 17 Hybrid Stepper Motor
Product description
1.Longer Life
Stepping motor is a mechanical structure,which does not need be changed by electric brush or Hall sensor,thus reducing the probability and increasing the motor life.Stepping motor life usually determined by the life of the bearing.
2.Strictly control the production of parts to improve the quality of parts.
4.Online testing of technical parameters to ensure the consistency of data product parameters
5.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.
Hybrid stepper motor's specifications
Holding Torque | 0.4N.m |
Related Current | 2 A/Phase |
Resistance | 1.05Ω/Phase |
Inductance | 2MH/Phase |
Inertia | 54 g.cm² |
Brake Torque | 0.5N.m |
Weight | 0.3 kg |
Holding Torque | 0.48N.m |
Related Current | 2 A/Phase |
Resistance | 1.35Ω/Phase |
Inductance | 2.9MH/Phase |
Inertia | 77g.cm² |
Brake Torque | 0.5N.m |
Weight | 0.35 kg |
Holding Torque | 0.72N.m |
Related Current | 2 A/Phase |
Resistance | 1.75Ω/Phase |
Inductance | 4MH/Phase |
Inertia | 100g.cm² |
Brake Torque | 0.5N.m |
Weight | 0.5 kg |
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.
Stepper motors are diverse in their uses, but some of the most common include: