1. Target Applications
The driving principle of the Hybrid Linear Stepper Motor is based on step technology. The motor controllers output precisely controlled current to drive the motor. The screw mechanism transforms the rotation movement into a linear movement to achieve high -precision position control. In the actual application process, the motor controller will operate in accordance with different control modes, such as the full step mode, the half -step mode, etc. The choice of these modes will affect the rotation speed and position control accuracy of the motor. Also there are various types of screw leads and stroke to meet the requirements of different applications.

Advantages:

The hybrid linear motors has multiple advantages compared to other linear transmission systems, including:

1. Precision control: It can achieve high -precision position and speed control.

2. High load capacity: can withstand large loads and suitable for various applications.

3. Reliability: It has long life and stability, and requires less maintenance.

4. Simple structure: The structure is relatively simple, easy to install and maintain.

5. Low noise: Usually, the noise is low at work, and it is suitable for the environment that requires quiet operation.

The hybrid linear motor has a wide range of application scenarios and has corresponding applications in the fields of automation, machinery, precision instruments. For example, in the manufacturing industries such as steel, automobiles, aerospace and aerospace, step -by -line motors are widely used in automatic control systems, positioning control on the production line, material transportation and sorting.

2. Hybrid Stepper Motor Naming Rules and General Technical Specifications

Linear stepper motor naming rules,

General Specifications,

3. 20LHS Series Hybrid Linear Stepper Motor Performance Datasheet

Note: Customization of motor specifications available.

Available leadscrew specifications,

4. Mechanical Dimensions (in mm)

Non-captive type mechanical drawings,

External Nut type mechanical drawings,

5. Force and Pulse Rate Curves


6. Wirings