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Laser displacement sensor with triangulation principle


Senyd laser displacement sensor with the principle of triangulation use a laser beam to illuminate a target object and a sensor to detect the reflected light. The sensor measures the position of the reflected laser beam on a detector, and based on this information, calculates the distance between the sensor and the target object.

triangulation principle laser displacement sensor allows for highly accurate and precise distance measurements, making it a popular choice for applications where precise positioning and measurement are required.

Incremental Rotary Encoder

An incremental encoder produces a series of square waves as it rotates. The number of square wave cycles produced per one turn of the shaft is called the encoder resolution. Generally, incremental encoders provide more resolution at a lower cost than their absolute cousins. They also have a simpler interface because they have fewer output lines.

These encoders are ideal for applications where relative movement is desired. They are available as shafted or hollow shaft (blind and through) in housing sizes from 30mm  to 130mm;

Body Styles:  Shafted |  Through Shaft |  Blind Shaft