AEDS-9310
AEDS-9310 Datasheet
AEDS-9310 Transmissive Photointerrupter
| Part | Datasheet |
|---|---|
AEDS-9310 |
AEDS-9310 (pdf) |
| PDF Datasheet Preview |
|---|
| AEDS-9310 Transmissive Photointerrupter Data Sheet The photointerrupter consists of a Gallium Arsenide infrared light emitting diode and a NPN silicon phototransistor built in a black plastic housing. It is a transmissive subminiature photointerrupter. Input Output RL Figure 1 Illustrates Basic Configuration of Photointerrupter • Non-Contact Sensing • Infra-Red Wavelength • Fast Switching Speed • Mounting Guide Pins • Dual-in-line Socket Mounting • RoHS Compliant • Optical Switch • ATM Machines • Vending Machines • Edge, Position Detections • Office Automation Equipments Theory of Operation The photo-interrupter consists of an Infrared light source and a photo-diode in a single Dual-in-Line package. The photo-interrupter could be mounted onto a PC board with a current-limiting resistor in series externally with the Infrared Emitting Diode. With this, such input voltage for the emitting diode could share the same voltage level as VCC. Regarding the photo-interrupter output, there will always be current output measured but with the external resistor, RL connected as shown in Figure1, analog voltage output could then be obtained. With both the infrared light source and the photo diode in a single package, the photo-interrupter employs transmissive technology to sense obstacles existence, acts as on / off switchers or even to sense lowresolution rotary or linear motions. The photointerrupter is specified for operation over -25 °C to +85 °C temperature range. As a basic switcher, the photo-interrupter would have a position detecting characteristics as shown in Figure These characteristic diagrams give the relationship between Relative Light Current, IL and Distance of displacement, d. Note that the slot obstacle introduced in between the emitting diode and the photo-diode could applied in two directions. One is of X-axis and another would be of Y-axis. Therefore, with the presence of slot, the photointerrupter would actually give a low logic output. Vice versa, the photo-interrupter will provide a high logic output without the existence of the slot. Refer to Figure Typically, Rise Time, tr and Fall Time tf will have the same value, 20µs. With special design of the slots, periodic presence and absence could be generated. Such output signal is useful in determining low-resolution >0.5mm pitch motor rotation positioning and motor spinning speed. Relative Light Current IL % Sensing Position Characteristics Typical I F =20mA V CE =5V Ta=25 o C I F =20mA V CE =5V Ta=25 o C 0 -3 -2 -1 0 1 2 3 -3 -2 -1 0 1 2 3 Distance d mm X-Direction Y-Direction Figure 2 Illustrates Photo-Interrupter Positioning Sensing Characteristics. Obstacles Slots could interrupt along X-axis or Y-axis. Input Output 90 % 10 % Figure 3 Response Time Measurement of Output Signal. Output Figure 4 Periodical Output signal could be used to determine the Motor Spinning Speed and Rotation positioning. Absolute Maximum Ratings TA=25°C Maximum Rating 5 50 75 30 5 75 100 -25°C to 85°C -40°C to 85°C 260°C for 5 seconds Unit V mA mW V mW Optical-Electrical Characteristics TA=25°C Parameter Symbol Min. Typ. Max. Unit Test Conditions IF=20mA IR IC ICEO VCE SAT Tr A VR= 5V 10 mA IF=20mA, VCE=5V 100 nA VCE=10V |
| More datasheets: RBP12112B12NFG | RBP12112SNFG | RBP12 206B06 N F S | RBP12206B06NFG | RBP12 112S N F S | RBP12 403B03 N F S | RBP12304B04CFS | RBP12 304B04 N F S | VRM64-80-12-UY | CYTK58 |
Notice: we do not provide any warranties that information, datasheets, application notes, circuit diagrams, or software stored on this website are up-to-date or error free. The archived AEDS-9310 Datasheet file may be downloaded here without warranties.