Place of Origin: | China |
---|---|
Brand Name: | prostepper |
Certification: | CE/ISO/ROHS |
Model Number: | PST57H251-4P10 |
Minimum Order Quantity: | 10pcs |
Price: | USD8.8-USD13.8/pcs |
Packaging Details: | 38.5*24*23 cm |
Delivery Time: | 5-8 working days |
Payment Terms: | T/T, Western Union, L/C, MoneyGram |
Supply Ability: | 250000pcs per month |
Name: | Nema23 Hybrid Stepper Motor | Holding Torque: | 1 N.m |
---|---|---|---|
Weight: | 0.64kg | Length: | 51.5mm |
Connection: | P Connector (Rated Current Less Than 3Amp) | Application: | Automative Machine |
High Light: | Robot NEMA Stepper Motor,ROHS NEMA Stepper Motor,57mm nema 23 stepper motor |
2 phase Nema23 stepper motor Bi-polar black 57mm PST57H251-4P10 hybrid stepper motor for CNC machine
Stepper motors play an important role in the manufacturing industry world. Their use prevailigly depends on expectations and applications. If we aim at high precisions, mechanical and electric sturdiness, user friendliness, control and maintenance of the rotor’s position also without power supply, then this motor typology is ideal.
In the present article, we are treating the main typologies of available stepper motors on the market, the essential structural aspects and their operation characteristics in static and dynamic conditions.
Motor specification for 2 phase 57mm hybrid stepper motor
Mode No | PST57H242-4P10 |
PST57H242-4P20
|
PST57H242-4P30 |
Holding Torque | 0.6N.m | ||
Related Current | 1A/Phase | 2A/Phase | 3A/Phase |
Resistance | 4.2 Ω/Phase | 1.2Ω /Phase | 0.51Ω/Phase |
Inductance | 8.9MH/Phase | 2.1MH/Phase | 1MH/Phase |
Inertia | 140g.cm2 | ||
Weight | 0.46kgs | ||
Length | 42.5mm | ||
Connection | P |
Mode No | PST57H245-4P10 |
PST57H245-4P20
|
PST57H245-4P30 |
Holding Torque | 0.8N.m | ||
Related Current | 1A/Phase | 2A/Phase | 3A/Phase |
Resistance | 4.7 Ω/Phase | 1.25Ω /Phase | 0.57Ω/Phase |
Inductance | 10.8MH/Phase | 2.7MH/Phase | 1.2MH/Phase |
Inertia | 180g.cm2 | ||
Weight | 0.52kgs | ||
Length | 45.5mm | ||
Connection | P |
Mode No | PST57H251-4P10 |
PST57H251-4P20
|
PST57H251-4P30 |
Holding Torque | 0.8N.m | ||
Related Current | 1A/Phase | 2A/Phase | 3A/Phase |
Resistance | 4.7 Ω/Phase | 1.25Ω /Phase | 0.57Ω/Phase |
Inductance | 10.8MH/Phase | 2.7MH/Phase | 1.2MH/Phase |
Inertia | 180g.cm2 | ||
Weight | 0.52kgs | ||
Length | 45.5mm | ||
Connection | P |
Mode No | PST57H255-4P20 |
PST57H255-4P30
|
PST57H255-4L40 |
Holding Torque | 1.2N.m | ||
Related Current | 2A/Phase | 3A/Phase | 4A/Phase |
Resistance | 1.6 Ω/Phase | 0.7Ω /Phase | 0.45Ω/Phase |
Inductance | 5.2MH/Phase | 2.4MH/Phase | 1.4MH/Phase |
Inertia | 280g.cm2 | ||
Weight | 0.72kgs | ||
Length | 55.5mm | ||
Connection | P |
Mode No | PST57H265-4P20 |
PST57H265-4P30
|
PST57H265-4L40 |
Holding Torque | 1.7N.m | ||
Related Current | 2A/Phase | 3A/Phase | 4A/Phase |
Resistance | 2 Ω/Phase | 0.9Ω /Phase | 0.5Ω/Phase |
Inductance | 6MH/Phase | 2.7MH/Phase | 1.6MH/Phase |
Inertia | 280g.cm2 | ||
Weight | 0.72kgs | ||
Length | 55.5mm | ||
Connection | P |
Mode No | PST57H276-4P30 |
PST57H276-4L40
|
PST57H276-4L50 | |
Holding Torque | 2N.m | |||
Related Current | 3A/Phase | 4A/Phase | 5A/Phase | |
Resistance | 1.1Ω/Phase | 0.65Ω /Phase | 0.37Ω/Phase | |
Inductance | 4.2MH/Phase | 2.35MH/Phase | 1.8MH/Phase | |
Inertia | 480g.cm2 | |||
Weight | 1.1kgs | |||
Length | 76.5mm | |||
Connection | P | L |
Mode No | PST57H280-4P30 |
PST57H280-4L40
|
PST57H280-4L50 | |
Holding Torque | 2.2N.m | |||
Related Current | 3A/Phase | 4A/Phase | 5A/Phase | |
Resistance | 1.2Ω/Phase | 0.65Ω /Phase | 0.36Ω/Phase | |
Inductance | 4.5MH/Phase | 2.5MH/Phase | 1.76MH/Phase | |
Inertia | 520g.cm2 | |||
Weight | 1.2kgs | |||
Length | 80.5mm | |||
Connection | P | L |
Mode No | PST57H2100-4L40 |
PST57H2100-4L50
|
Holding Torque | 3N.m | |
Related Current | A/Phase | 5A/Phase |
Resistance | 0.88Ω/Phase | 0.5Ω /Phase |
Inductance | 3.2MH/Phase | 2.MH/Phase |
Inertia | 720 | |
Weight | 1.5 | |
Length | 101 | |
Connection | L |
This out line shows a dual-shaft motor. The single-shaft motor does not have the blue part shaft and the * mark hole demensions.
Model | L |
PST57H242 | 42.5mm |
PST57H245 | 45.5mm |
PST57H251 | 51.5mm |
PST57H255 | 55.5mm |
PST57H265 | 64.5mm |
PST57H276 | 76.5mm |
PST57H280 | 80.5mm |
PST57H2100 | 101mm |
Speed/Torque Characteristics (Reference Value)
Our specification of motor and characterics:
NEMA 8, 10, 11, 14, 16, 17, 23, 24, 34,
2 Phase, Step Angle 1.8° 0.9°
3 Phase, Step Angle 1.2°
5 Phase, Step Angle 0.36° 0.72°
High Reliability, High Accuracy, High Torque
Smooth Movement, Low Noise & Vibration & Heating
Changzhou Prostepper Co. Ltd is a manufacturer and exporter of various of stepper motors with 20 years experience, so you choose Prostepper brand is always best choice.we are committed to creating the smoothest, most accurate and most innovative stepper motors that can be used anywhere. Today, we have a wide range of standard and custom stepper motors, Brushless motor.
57mm series stepper motor is our company best selling products, we have big output, so low costs and always in stocks ,the performance of motors are stable , and widely used in many fields, PROSTEPPER BRAND precise hybrid stepper motors, fit with suitable drivers, be widely used in garment machinery, CNC, textile machinery, packaging machinery, medical equipment, wiring harness processing and other industries.Most customer like to choose this model of hybrid stepper motor. Prostepper has a large customers group across over the world, with products being exporting to over 10 countries, including the United States; Germany, Switzerland; Italy Korea and Japan, etc.
Generally packing size: 38.5cmx24cmx23cm inner packing : EPE foam, the outer packing is carton with PE film.
If you have special packing requirements, please inform us, we can help you add the marks on the package.
And also have business machines applications, computer peripherals applications.
Stepper motors operate differently from DC brush motors, which rotate when voltage is applied to their terminals. Stepper motors, on the other hand, effectively have multiple toothed electromagnets arranged around a central gear-shaped piece of iron. The electromagnets are energized by an external control circuit, for example, a microcontroller.