Parameters |
Factory Lead Time |
1 Week |
Mount |
Through Hole |
Number of Pins |
5 |
Operating Temperature |
-40°C~85°C |
Packaging |
Bulk |
Published |
1997 |
Series |
Photologic® |
Part Status |
Obsolete |
Moisture Sensitivity Level (MSL) |
1 (Unlimited) |
Connector Type |
Wire |
Max Operating Temperature |
70°C |
Min Operating Temperature |
-40°C |
Voltage - Supply |
4.75V~5.25V |
Operating Supply Voltage |
10V |
Number of Elements |
1 |
Output Configuration |
NPN - Open Collector, Inverted |
Power Dissipation |
300mW |
Forward Current |
40mA |
Collector Emitter Voltage (VCEO) |
35V |
Sensing Distance |
0.080 ~ 0.220 (2.03mm ~ 5.58mm) ADJ |
Reverse Breakdown Voltage |
3V |
Wavelength |
890 nm |
Sensing Method |
Reflective |
High Level Output Current |
100μA |
Low Level Output Current |
12.8mA |
Connection Method |
Wire |
RoHS Status |
RoHS Compliant |
OPB763N Overview
To make sure the photoelectric sensor works, set its temperature to zero. For these electronic components to function, they require a voltage of 4.75V~5.25V to be applied to a circuit or system. In order to ensure reliability, the photoelectric sensor must operate at a minimum temperature of -40°C. It is possible to operate the system reliably at temperatures up to 70°C. 5 pins must be connected to the photoelectric sensor for it to function correctly. Photoelectric sensors should be set to 10V for best efficiency. The package contains a Bulk. When the specified thermal conditions are met, the photoelectric sensors can continuously dissipate 300mW.
OPB763N Features
Sensing Distance: 0.080 ~ 0.220 (2.03mm ~ 5.58mm) ADJ
5 pins
Operating Temperature: -40°C~85°C
Photologic? Series
OPB763N Applications
There are a lot of TT Electronics/Optek Technology OPB763N Photoelectric Sensors applications.
- Material handling
- Automotive industry
- Checking objects on production lines or conveyors
- Luminescence sensors
- Measuring distance
- Logistics and materials handling
- Passive infrared sensors
- Pharmaceutical industry
- Detecting colours
- Contrast sensors