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S5-1024-250-NE-S-D US Digital Optical shaft Rotary Encoder Brand New 1250CPR
$ 7.91
- Description
- Size Guide
Description
The S5 encoder is brand new, never used, out of the box. It is clean and in mint conditionAll of the specs and the configurations of this particular encoder will be listed below. With these configurations, it is originally sold for .00. If, by any reason, you are not satisfied with this information, then may I suggest that you visit the US Digital website, and look at all of the specs there.
Configuration #S5-1024-250-NE-S-D
Encoder type: S5
S5 Features
Small size
1024CPR
Optional differential / line-driver output
Positive latching connector
2-channel quadrature, TTL squarewave outputs
Wide operating temperature
Single +5VDC supply
The
S5
series optical shaft encoder is a non-contacting rotary to digital converter. Useful for position feedback or manual interface, the encoder converts real-time shaft angle, speed, and direction into TTL-compatible quadrature outputs with or without index. It operates from a single +5VDC supply.
Three shaft torque versions are available. The standard torque version has a sleeve bushing designed to provide torque and feel that is ideal for front panel human interface applications.
The no torque added option has a sleeve bushing that does not intentionally add torque for low RPM applications where a small amount of torque is acceptable.
The ball bearing version uses miniature precision ball bearings that are suitable for high speed and ultra low torque applications.
A secure connection to the
S5
series encoder is made through a 5-pin (single-ended version) or 10-pin (differential version) latching connector (sold separately). The mating connectors are available from US Digital with several cable options and lengths.
For differential versions, the internal differential line driver (26C31) can source and sink 20mA at TTL levels. The recommended receiver is the industry standard 26C32. Maximum noise immunity is achieved when the differential receiver is terminated with a 150 Ω resistor in series with a .0047 μF capacitor placed across each differential pair. The capacitor simply conserves power; otherwise power consumption would increase by approximately 20mA per pair, or 60mA for 3 pairs.
if you have any questions or concerns, always feel free to ask.