General Specification
- Step Angle Accuracy: ±5%(full step, no load)
- Resistance Accuracy: ±10%
- Inductance Accuracy: ±20%
- Temperature Rise: 80℃ max (rated current, 2 phase on)
- Ambient Temperature: -20℃~+50℃
- Insulation Resistance: 100MΩ min,500VDC
- Dielectric Strength: 500VAC for one minute
- Rotation: CCW
- Insulation Class: B(130℃)
Defination of Part number
57 | HSL | 41 | D | F | 12 | TRX |
Frame size | Liner hybrid stepper motor | Length | Step angle* | Lead wire** | Winding Type | Screw Type |
*: This code shows the stepper angle of the motor. M = 0.9°; D =1.8°.
**: This code shows the lead wire number of the motor, the detail code defination is: F = 4; V = 5; S = 6; E = 8.
Specifications
| Model | Length (mm) | Current (A) | Resistance (Ω) | Inductance (mH) | Holding Torque (N.m) | Rotor Inertia (g.cm²) | Lead wires/pins | Weight (g) |
| 57HSL41DF12 | 41 | 1.5 | 1.2 | 2.5 | 0.55 | 150 | 4 | 470 |
| 57HSL56DF11 | 56 | 3 | 1.1 | 3 | 1 | 280 | 4 | 750 |
| 57HSL76DF06 | 76 | 3 | 0.6 | 2.2 | 1.6 | 440 | 4 | 1050 |
| 57HSL84DF057 | 84 | 3 | 0.57 | 2.5 | 2 | 530 | 4 | 1150 |
| Screw Diameter(mm) | Lead(mm) | Step Length(mm) | L2 |
| Tr6.35 | 3.175 | 0.015875 | Customizable |
| Tr6.35 | 2 | 0.01 | Customizable |
| Tr6.5 | 1 | 0.005 | Customizable |
| Tr8 | 2 | 0.01 | Customizable |
| Tr8 | 4 | 0.02 | Customizable |
| Tr8 | 8 | 0.04 | Customizable |
In-Depth Applications for the NEMA 23 Linear Stepper Motor
Due to its larger frame size and superior magnetic capabilities, the 57HSL Series is the primary choice for applications requiring significant force and stability. Key sectors include:
- Industrial CNC Machinery: Serves as the drive axis for routers, plasma cutters, and laser engraving machines where the NEMA 23 linear stepper motor provides the necessary torque to move heavy gantries.
- Packaging Automation: Used in bottle filling, labeling, and sealing machines that require continuous, reliable linear motion under load.
- Factory Automation: Ideal for assembly line actuators, pick-and-place robots, and conveyor diverters where the robust nature of the NEMA 23 linear stepper motor ensures long operational life.
- Fluid Handling: Drives large-volume industrial metering pumps that require high thrust force to move viscous liquids.
Outline
Customization
 |  |  |  | |  |
| Shaft | Encoder | Brake | Connector | Pulley | Gearbox |
| Item | Description |
|---|---|
| Shaft Extensions | Motors can be configured with single or double-ended shafts, manufactured to your specific length. |
| Encoder Options | We offer integration with various encoders to meet specific resolution and application needs. |
| Brake Options | Motors can be equipped with an optional brake, available with or without a manual hand release. |
| Cable Harnesses | Custom cable harnesses, with or without connectors, are available upon request. |
| Pulleys & Pinion Gears | Pulleys or pinion gears can be supplied and mounted to your specifications. |
| Gearbox Integration | Most motors can be paired with various gearbox types, including planetary, worm wheel, and parallel shaft gearboxes. |
Frequently Asked Questions (FAQ)
Q: When should I choose a NEMA 23 linear stepper motor over a NEMA 17?
A: You should select the NEMA 23 linear stepper motor when your application requires higher torque (typically above 0.8 N.m) or needs to move heavier loads. The 57mm frame allows for larger internal components, resulting in greater thrust capabilities.
Q: Does this motor generate more heat?
A: Yes, due to higher power handling, a NEMA 23 linear stepper motor can generate more heat than smaller models. It is designed with a temperature rise rating of 80K. For continuous high-load operation, ensure the mounting surface provides adequate heat dissipation.
Q: What screw sizes are compatible?
A: The 57HSL series typically uses larger diameter screws, such as Tr6.35, Tr8, or even larger custom sizes, to transmit the higher torque of the NEMA 23 linear stepper motor effectively without buckling.
Q: Do I need a specific driver for this motor?
A: Yes. Since the NEMA 23 linear stepper motor draws higher phase current (up to 3.0A or more), you need a stepper driver capable of handling this current output to maximize the motor’s performance.