All payment methods are secure and covered by SeekIC Buyer Protection PLUS.
Notice: When you place an order, your payment is made to SeekIC and not to your seller. SeekIC only pays the seller after confirming you have received your order. We will also never share your payment details with your seller.
Product
: Pulses per Revolution
: Number of Detents
: Number of Channels
: Termination Style
: Output
: Shaft Type
: With Switch
: Supply Voltage
: Operating Temperature Range
: Mounting Style
: SMD/SMT Packaging
: Reel
Specifications
The AEDR-8320 is the first reflective analog miniature encoder from Avago's family of miniature reflective encoders. This encoder comes in an ultra-small package size measuring 6.50mm (L) x 4.20mm (W) x 1.69mm (H) which makes it easily designed-in into applications with space constraint.
With a 2-channel analog output and resolution of 180LPI, the encoder can achieve a resolution of up to 7840CPR through interpolation with a 11.0mm optical radius codewheel. Hence, meeting a wider range of motor speed and providing greater motor control.
Couple with its leadless surface mount package, the AEDR-8320 can easily be mounted into various tyes of applications. In addition, the AEDR-8320's low cost price structure enables manufacturers the advantage of cost savings and maintaining competitive pricing of their products.
Description
The AEDR-8320 series is one of the smallest optical encoder employing reflective technology for motion control purposes. The encoder combines an emitter and a detector in a single surface mount leadless package. When used with a codewheel or linear codestrip, the encoder translates rotary or linear motion into analog output.
The AEDR-8320 series provides motion sensing which is ideal for high volume applications, Its small size and surface mount package make it ideal for printers, copiers, card readers and many consumer products, particularly where space and weight are design constraint.
Additionally, the AEDR-8320 provides an analog output which can be interpolated to achieve higher resolution, thereby meeting the varied resolution needs of different applications.