Rotary Encoder Working Principle


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A digital optical encoder is a device that converts motion into a sequence of digital pulses.

Rotary Encoder Working Principle

By counting a single bit or by decoding a set of bits, the pulses can be converted to relative or absolute position measurements.

Encoders have both linear and rotary configurations, but the most common type is rotary. Rotary encoders are manufactured in two basic forms:

  1. the absolute encoder where a unique digital word corresponds to each rotational position of the shaft, and

  2. the incremental encoder, which produces digital pulses as the shaft rotates, allowing measurement of relative position of shaft. Most rotary encoders are composed of a glass or plastic slotted disk.

As radial lines in each track interrupt the beam between a photoemitter-detector pair, digital pulses are produced.

Below is a figure of an encoder with a spinning codewheel and a stationary mask. This stationary mask is usually not used.

Encoder diagram.png|539x293