Incremental Rotary Encoder, Shaft, 1600 ppr

Incremental optical rotary encoders with 1600 ppr can be used for robots, workbenches, injection molding machines, electronic equipment, printing and packaging machinery, non-standard equipment and CNC machine, a variety of office automation systems, industrial automation control and measurement fields.

Specification

Model Selection

Note: * denotes optional parameters, you can select parameters in drop-down lists to finish your order. Some customizable parameters can't be selected from the lists directly, please contact customer service staff for further communication.

Features

1. The encoder adopts a special ASIC chip inside, which is stable and reliable in signal processing and ensures accurate output pulse.
2. The overall structure is durable, long life, suitable for long time high frequency operation of industrial occasions.
3. Incremental encoder has excellent anti-interference performance, can work stably in complex electromagnetic environment.
4. Compact and lightweight, suitable for automation equipment with limited installation space.
5. Modular design, easy installation, fast and efficient commissioning.

Dimension (unit: mm)

Application

Tips: How to choose pulse per revolution (PPR)?

When choosing the encoder's PPR value, keep in mind a few simple rules. Make sure that the selected PPR value does not exceed the maximum frequency of the controller or encoder. Try to select PPR approached to the value displayed, thus eliminating or reducing the necessity for calibration constants. For example, if you want to display 12 inch per circle, select PPR 12. Select 1200 PPR if you want to display 12.00 inches. However, do not mistakenly forget the input multiplier of controller. Most controllers have X2 or X4 logic. If it is X2 logic, it will change to PPR 600 when displaying 12.00; when X4 logic becomes PPR 300. Remember when creating a PPR, be sure to remember the frequency. When selecting PPR, the maximum speed cannot exceed the frequency that the encoder can handle. The opposite situation is the same, please don't choose too low PPR, otherwise the controller can't identify the signal. Try to select a PPR that let the calibration constant is between 0.5 and 1.