SU1211872A1 - Optronic switch - Google Patents

Description

one

The invention relates to a pulse technique and can be used in automated control systems with galvanic isolation between electromagnetic devices and digital microcircuits.

The purpose of the invention is to eliminate the false triggering of the device due to the bounce of the contacts of the control element, for which a low-resistance discharge channel operates in the input circuit of the device.

The drawing shows a circuit diagram of the device.

The optoelectronic switch contains the first 1 and second 2 LEDs optically connected to the first 3 and second 4 photo thyristors, respectively, the first resistor 5, one output of which is connected to the negative pole 6 of the control, a diode 7, the cathode of which is connected to another terminal of the first resistor 5 and through the second resistor 8 - with the positive pole 9 of the control element and the anode - with the cathode of the first LED 1, the first capacitor 10 connected in series with the third resistor 11 between the anode of the first coupling diode 1 and the positive pole 9 el control terminal, the second capacitor 12, one output of which is connected to the anode of the first photo thyristor 3 and one output of load element 1, the fourth resistor 14 one output of which is connected to the anode of the second photo thyristor 4 and another output of the second capacitor 12 of the photothyristors 3 and 4 are connected to the negative pole 15 of the voltage source, and the other terminals of the load element 13 and the fourth resistor 14 are with the positive pole 16 of the voltage source. A thyristor 17 is inserted into the device, and the second LED 2 is turned on in parallel and counter to the first LED 1. If the control element produces relatively high voltage drops at poles 6 and 9 (more than 10V), then for protection against overvoltages in the circuit of LEDs 1 and 2 and

VNISHSh Order 650/60

Filkal PPP g, Uzhgorod y. Project, A

22

auxiliary diodes 18-20 are inserted into the control electrode of the thyristor 17.

The device works as follows.

in a way.

When the control contact closes between poles 6 and 9, a negative potential difference (control signal) arises. The input current flows through the resistor 5, diode 7, LED 1, capacitor 10, resistor 11. At this stage, LED 2 and thyristor 17 are turned off. The illuminated photo thyristor 1 is turned on and excites the load cell 13. Simultaneously along the circuit with the resistor 14 and the photo thyristor 3, the capacitor 12 is charged to the potential difference between the poles 16 and -15.

 When the contacts of the control are opened, the control signal is removed and LED 1 turns off.

A negative potential difference across the plates of the capacitor 10, previously charged (with a control signal), turns on the LED 2 and the thyristor 17. The illuminated photo thyristor 4 turns on and closes the charged capacitor 12

to the photothyristor Z. As a result, the photothyristor 3 is turned off and opens a circuit with a load element 5.

With bounce (residual vibration) of the control element contacts between the poles 6 and 9, a negative potential difference occurs again. However, the LED 1 is not turned on since an open thyristor 17 provides a low-impedance electrical channel for diverting input current. The thyristor protection of the key against false triggering is effective as long as the capacitor 10 maintains a current in the circuit with the thyristor 17 greater than the current for turning off this thyristor. When the contacts of the control element bounce, systematic charging of the capacitor 10 occurs and the thyristor 17 remains on. Only with the complete cessation of the chattering of the contacts of the control element, the capacitor 10 is aperiodically discharged and the thyristor 17 is turned off.

Circulation 318 Podpas

Claims (1)

OPTO-ELECTRON KEY, containing the first and second LEDs '', optically coupled respectively to the first and second photo thyristors, the first resistor, one terminal of which is connected to the negative pole of the control element, the diode, the cathode of which is connected to the other terminal of the first resistor and through the second resistor, the positive pole of the control, and the anode with the cathode of the first LED, the first! a capacitor connected in series with a third resistor between the anode of the first LED and the positive pole of the control element, a second capacitor, one terminal of which is connected to the anode of the first phototyristor and with one terminal of the load element, a fourth resistor, one terminal of which is connected to the anode of the second photothyristor and with another terminal the second capacitor, the cathodes of the photothyristors are connected to the negative pole of the voltage source, and the other terminals of the load element and the fourth resistor are connected to the positive pole a voltage source, characterized in that, in order to eliminate the false operation of the device due to the bounce of the control element contacts, a thyristor, a cathode, a control electrode and anode of which are connected respectively to the anode and cathode of the diode and the positive pole of the control element, are inserted into it, and the second LED It is connected in parallel and counter to the first LED. SU „„ 1211872>