Home > Feedback > Optical 1Vpp Encoder > Optical 1Vpp Incremental Sealed Rotary Encoder > Avago
Sort By:
Page of 1
Avago: 3-Channel Reflective Incremental Encoder (AEDR-872x Series) Avago: 3-Channel Reflective Incremental Encoder (AEDR-872x Series)

3-Channel Reflective Incremental Encoder (Analog Outputs)

The Avago AEDR-872x is a 3-channel reflective optical encoder device providing dual channel analog outputs and an index channel digital output. The differential analog outputs (Sin, /Sin, Cos, /Cos) can interface directly with most commercially available interpolator devices for high precision motion control measurements. As such, the device provides great design-in flexibility and can enhance the performance of existing motion control system.

The AEDR-872x houses an LED light source and a photo-detecting circuitry in a compact package. The miniature package coupled with low operating 5.0V option allows the device to be used in a wide range of space-constrained, low-power applications like portable devices in which space and power dissipation are primary concern. The device is designed to operate over -20 to +85 °C temperature range suitable for both commercial and industrial end applications.

Available Product Options:


  • 3 Channel Outputs

  • Dual Channel Analog Outputs

  • Index Channel Digital Ouput

  • Built-in Automatic LED Current Regulation

  • Encoding Resolution: 318 LPI

  • Power Supply Voltage: 5 V

  • Operating Temperature Range: -20 to +85 °C

  • Surface Mount Leadless Package: 3.95 mm (L) x 3.4 mm (W) x 0.956 mm (H)


  • Closed-loop Stepper Motors

  • Miniature Motors

  • Printers and Copiers

  • Card Readers

  • Scanners

  • Projectors

  • Portable Medical Equipment

  • Optometric Equipment

  • Consumer and Industrial Product Applications


  • High Resolution

  • Compact Size

  • 3 Channel in 1 Solution

  • Sine/Cosine Analog Output

  • Flexibility in Radius

  • Low Power Consumption

  • SMT Reflowable Mount

  • Mounting Compatibility to AEDR-85XX

  • Cost Effectiveness