PhotoreflectorsPhotoreflectors (or sometimes called reflective interrupters)are composed of an infrared LED and a phototransistor in one housing, similar to the previously discussed transmissive photointerrupters. The main difference is, that the IR emitting LED and the phototransistor are not positioned face to face like in the transmissive interrupters, but the emission and detection direction of both devices are oriented parallel to each other in the same direction. If there is no reflecting surface positioned above the device, the IR radiation emitted by the IR-LED “disappears” in the space above the device and there is no photo current through the phototransistor. If there is a reflecting surface present within distances smaller than the detection range, the infrared radiation is reflected to the phototransistor and a photocurrent is generated. The magnitude of the photo current not only depends on the radiant intensity of the IR-LED, but also on the reflection properties of the reflecting surface and on the distance between the reflecting surface and the photoreflector. Approaching the reflecting surface to the photoreflector the photocurrent increases with decreasing distance. At a certain distance d* the photocurrent reaches a maximum value. If the distance of the reflecting surface is decreased below d* the photocurrent decreases with decreasing distance because the window of the IR-LED is shut more and more. At d=0 the IRPR- LED is shut completely and there is no photocurrent through the phototransistor. In sensor applications where photoreflectors are used, the engineer should very carefully consider the role of mechanical tolerances of the distance between the reflecting surface and the photoreflector and estimate the consequences of these tolerances on the photocurrent. This has to be compared with the tolerance of the device sensitivity. Last, but not least, the optical properties of material used for the reflecting surface play an important role. Polished metal surfaces usually are well reflecting materials, whereas most plastic materials were more or less transparent for infrared-radiation (even if appearing non-transparent for the human eye) and hence were not recommended as reflecting surfaces.
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