Working Principle and Classification of Solid Shaft Encoder

The working principle of a solid shaft encoder is to connect the solid shaft of the encoder to the equipment shaft through a coupling. When the equipment shaft rotates, the encoder shaft rotates synchronously, and the encoder converts the rotational motion into digital pulse signals through optical or magnetic sensing technology, thereby realizing the detection of speed and position. Solid shaft encoders are mainly divided into incremental and absolute types according to their working methods, each with unique characteristics and application scenarios, meeting the diverse needs of industrial motion control.

Sensyor Electric provides both incremental and absolute solid shaft encoders to meet market demands. Sensyor Electric solid shaft encoder adopts advanced optomechanical or magnetic sensing technology and optimized signal processing circuit, ensuring stable pulse output and accurate signal transmission. Our incremental solid shaft encoders are cost-effective, suitable for conventional speed and relative position feedback scenarios, while absolute solid shaft encoders can record absolute angle data even after power failure, suitable for high-precision positioning scenarios.

We also optimize the structure design of solid shaft encoders. Sensyor Electric solid shaft encoder has a sturdy structure, with a high-strength aluminum alloy shell that provides excellent protection performance. The solid shaft is made of high-quality stainless steel, with high wear resistance and strong load-bearing capacity. The installation is simple and convenient, and the coupling connection ensures stable transmission, reducing vibration and signal interference. With rich product categories and complete specifications, we can provide targeted solutions for different application scenarios.