Rotary Encoders

An encoder works by changing a mechanical input, rotating the encoders actuator (clockwise or anticlockwise), into an electrical output which can be read by a computer or PLC. There are many different types of encoders, ie. Incremental, Absolute, Magnetic, Optical and Laser, however Live Electronics mainly sell Incremental and Absolute versions. An Incremental encoder reads the displacement between two output signals, this is called the square wave frequency. This works through the use of two output signal contacts which are spaced in a particular way. These then make contact with evenly spaced contacts attached to the actuator. By reading these on-off signals (in digital 0,1) the computer system knows the direction and speed of the rotation. An Absolute encoder has multiple detector contacts and disc contacts in unique tracks. This produces a Gray code output, this unique code can then be read by the computer system to determine the exact position of the actuator.

Rotary encoders are used in many applications for sensing the position of the actuator. This makes rotary encoders ideal for applications such as CNC machines, robotics, train automation, CT and MRI machines, commercial white goods, audio and video equipment, aviation and automotive.

An absolute rotary encoder is used to determine the exact position on its actuator, this means it can work up to 360° of rotation. In its most basic format this could be used as a simple on-off rotary switch, in a more advanced system it could be used to mark the exact position of a CNC machine bit.