SMAH Screw Servo Motors – Video Introduction

SMAH Screw Servo Motors are integrated linear drive units developed for precision linear motion applications where accurate positioning, system consistency, and compact mechanical design are critical.

The control architecture incorporates a high-precision position control algorithm combined with a 21-bit encoder, enabling high-resolution position feedback and closed-loop control. This configuration supports stable operation at fine displacement resolutions and is well suited for linear motion systems with stringent requirements for repeatable positioning accuracy and smooth motion performance.

From a mechanical transmission perspective, SMAH Screw Servo Motors are equipped as standard with C5-class precision ball screws, with C3 or C7 accuracy classes available as options to suit specific application requirements. The ball screw is directly coupled to the servo motor, reducing assembly tolerances and backlash accumulation associated with intermediate transmission components. This design contributes to improved system rigidity and consistent motion performance.

The product adopts a highly integrated structural design that eliminates conventional coupling assemblies, thereby simplifying the mechanical design and assembly process of the linear motion system. While maintaining full functional capability, the overall form factor has been optimized, resulting in an approximate 9% reduction in width and 7% reduction in length. This optimization supports higher system integration in space-constrained equipment designs.

Based on the design characteristics described above, SMAH Screw Servo Motors are suitable for applications including 3C electronics manufacturing, semiconductor equipment, lithium battery production lines, industrial automation systems, and medical devices. Detailed information regarding structural configuration, motion behavior, and system integration can be further illustrated through the accompanying video content.