SU1442832A1 - Photosensor - Google Patents

Abstract

This invention relates to a measurement technique. The aim of the invention is to improve the reliability of the photosensor by eliminating false alarms. When the product appears in the control zone, the luminous flux between the first LED 2 and the first photodiode 3 is interrupted. As a result, the output of the first amplifier 4 has no signal with frequency f of generator 1 and the second LED 7 does not receive a signal with frequency fj of its frequency converter 5. To the input of frequency allocation unit 10 fj. no signal is received from the second photodiode 8 and there is no signal at the output of the output amplifier 11, which uniquely determines the location of the product in the control zone. 1 il.

Description

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The invention relates to a measuring technique and can be used as an automation tool in the rolling process control system, refractory production, in control systems of manipulators.

The purpose of the invention is to improve the reliability of the photo sensor by eliminating false alarms.

The drawing shows the block diagram of the device.

The photo sensor contains a frequency generator 1 - ;, optically coupled first emitting diode 2 and a photodiode 3, the first emitting diode connected to the output of the generator 1, the first amplifier 4 connected in series, the frequency converter 5 and the second amplifier 6, and to the input of the first amplifier 4 first photodiode 3, optically coupled second emitting diode 7 and second photodiode 8, a third amplifier 9 connected in series, a frequency selection unit 10 f and an output amplifier 11. W are connected to the input of the third amplifier 9 swarm photodiode 8, and to the output of the second amplifier b - second radiating LED 7.

The photo sensor works as follows.

The oscillator 1 of frequency fi excites the first radiating LED 2, which emits a luminous flux modulated by the frequency f, which the first photodiode 3 senses through the controlled space. From the first photodiode 3, the signal with the frequency t l reaches the input of the first amplifier 4 and amplifies in amplitude. The signal then arrives at the input of frequency converter 5, where it is converted into a signal of frequency fa ,, is fed to the input of the second amplifier 6, amplified and emitted through the second radiating LED 7 through the controlled space, and then sensed by the second photodiode 8. Through the third amplifier 9, the amplified signal c frequency fg. enters the input of frequency allocation unit 10 & tuned to the frequency fg. At the output of the block 10, the frequency allocation fji receives a signal with the frequency I a, which, at the input of the output amplifier 4, is converted into a constant voltage at its output. The presence of this voltage indicates that: i controlled zone between the first of; m; 1 LED1 and the first photo

diode 3, the second emitting diode 7 and the second photodiode 8 there is no controlled product.

If a product appears in the control zone, it interrupts the radiation flux between the first emitting diode 2 and the first photodiode 3 or between the second emitting diode 7 and the second photodiode 8 and the second photodiode 8 does not receive radiation. The input and output of the third amplifier 9 and the input and output of the allocation unit 10 of the frequency fg disappear voltage with frequency fg, the output amplifier 11 does not generate a voltage at the output, indicating the presence of a controlled product in the display zone.

The generator 1 generates the frequency f, and in the path of the photodiode 8 of the third amplifier 9, the frequency allocation unit fg 10 is turned on. with a resonant frequency that does not pass to the third amplifier 9 any signal with a frequency not equal to f. Therefore, the flow modulated by the frequency f does not switch the output amplifier 11. This means that the object being monitored can be anywhere in the control zone, including in the immediate vicinity of the first emitting LED 2 and photodiode 8.

Claims (1)

Invention Formula A photo sensor containing a frequency generator, a first emitting diode connected to the generator output, a first photodiode, a first amplifier and an output amplifier, the first photodiode connected to the input The first amplifier, characterized in that, in order to increase the reliability of the photosensor, it is provided with a second emitting diode, a second photodiode connected in series by a second amplifier, a frequency converter and a third amplifier, a frequency allocation unit fg., the second photodiode is optically coupled to the first emitting diode and connected to the input of the second amplifier, the second emitting LED is optically coupled to the first photodiode and connected to the output of the third amplifier; the output of the first amplifier is connected to the input of the frequency allocation unit f, the output of which is connected to the input of the output amplifier.  //; 7 4actnomHO dependent chain .