SU1723457A1 - Photoelectric sensor - Google Patents

Abstract

Use: agricultural mechanical engineering, in particular primary converters for control of seeding. The invention: a photoelectric sensor consisting of a pair of LED-photodetector with an amplifier, is additionally equipped with two amplitude detectors, a pulse shaper and a key transistor. With each interruption of the photodetector's light flux, a short pulse is generated at the output terminal of the sensor. 2 Il.

Description

The invention relates to primary converters used in agricultural engineering, and is intended, in particular, for use on sowing units to control seed seeding.

A photoelectric sensor is known, which contains a photodetector connected to the input of the amplifier, and a light emitting diode, the anode of which is connected to the first output of the resistor, and the cathode is connected to the zero potential bus.

A disadvantage of the known sensor is the complexity of the communication line, since three wires are required to connect the sensor to the device under test.

Also known is a photoelectric sensor containing a photodetector connected to the input of the amplifier and an LED, the anode of which is connected to the first output of the resistor, and the cathode is connected to the zero potential bus. This sensor is part of a seed alarm device.

The disadvantage of this sensor is the complexity of the communication line.

The purpose of the invention is to increase the reliability of the sensor by simplifying the communication line.

To achieve this goal, a photoelectric sensor containing a photodetector, the output of which is connected to the amplifier input, and an LED, the anode of which is connected to the first output of the resistor, and the cathode connected to the zero potential bus, is equipped with two amplitude detectors, a pulse shaper, and a key transistor, the base of which is through the driver the pulses are connected to the output of the amplifier, the collector is connected to the first inputs of the amplitude detectors and is the output terminal of the sensor, and its emitter is the second inputs of the amplitude the detectors and common points of the amplifier and the driver are connected to the zero potential bus, while the output of the first amplitude detector is connected to the pins

WITH

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tani amplifier and pulse generator.

Figure 1 shows the functional diagram of the photoelectric sensor; Fig. 2 shows voltage diagrams explaining the operation of the circuit.

The sensor contains a photodetector 1 connected to the input of amplifier 2, an LED 3, the cathode of which is connected to the zero potential bus 4, and the anode through a resistor 5 connected to the output of the first amplitude detector 6. The detector 6 is formed by a diode 7 and a capacitor 8. The outputs of the amplifier 2 through the driver 9 short pulses connected to the base of the key transistor 10, the emitter of which is connected to the bus 4, and the collector is connected to the input of the detector 6, the input of the second amplitude detector 11 and the input terminal 12. A load resistor 13 is located in the device, connected to the sensor (in Fig.1 this device is not shown). The sensor is powered from a DC source with a voltage E (not shown in Fig. 1).

The sensor works as follows.

When the power is turned on, a constant voltage Us is established on the capacitor 8, the LED 3 emits a light flux directed to the photodetector 1. At the output of the detector 11, a constant voltage is also established which feeds the amplifier 2 and the former 9. In the process of sowing, the seeds fall into the zone between the LED 3 and the photodetector 1 and interrupt the luminous flux acting on the photodetector. As a result, pulses Da are generated at the output of amplifier 2. Each output pulse triggers shaper 9, at the output of which short rectangular pulses Ug are formed, opening key 10. As a result, during each pulse Ug, the voltage on terminal 12 becomes close to zero (Uia), and the diodes of detectors 6 and 11 are closed.

The parameters of the circuit elements are selected so that during the pulse Ug time, the voltage at the outputs of the detectors 6 and 11 varies slightly (no more than 2-3%

from voltage E). In this case, when the diodes of the detectors 6 and 11 are closed, the power supply of the light emitting diode 3 is carried out due to the discharge of the capacitor 8, and the power supply of the amplifier 2. and the former 9 is maintained unchanged due to the action of the detector 11.

After the end of the pulse Ug, the key 10 is closed and the capacitors of the detectors 6 and 11 are charged to the original level. At the next pulse Ug key

10 reopens and the processes described are repeated.

Thus, with each interruption of the light flux of the photodetector 1, a short

pulse Ui2 of constant duration.

Claims (1)

Invention A photoelectric sensor containing a photodetector, the output of which is connected to the input of the amplifier, and an LED, the anode of which is connected to the first output of the resistor, and the cathode is connected to the zero potential bus, characterized in that equipped with two amplitude detectors, a pulse shaper and a key transistor, the base of which is connected to the amplifier output through a pulse shaper, the collector is connected to the first the amplitude detector inputs are the output terminal of the sensor, and its emitter, second amplitude detector inputs and common points of the amplifier and driver are connected to the zero potential bus, the output of the first amplitude detector is connected to the second terminal of the resistor, and the output of the second amplitude detector is connected to the power terminals of the amplifier and pulse generator. U,  eight  V