SU1471304A1 - Switching device - Google Patents

Abstract

The invention can be used in systems for automatic control of continuous processes. The switching device contains the key elements 9, 10, 11 and optocoupler nodes 21, 22. The node 21 is made on thyristor optocouples 1,3,5,7, and resistors 12, 14, node 22 - on thyristor optocouplers 2, 4, 6, 8 and resistors 13, 15. Signals A, B, C are supplied to inputs 18, 19, 20. Each of the key elements 9, 10, 11 is equipped with two identical outputs, which can be connected to the emitters of optocouplers 1..8, allowing them to output 16 , 17 to implement the majority function AB + AC + BC. As a result, the failure of one of the nodes 21, 22 or one of the elements 9, 10, 11 does not disrupt the functioning of the device as a whole. 1 il.

Description

The invention relates to pulsed technology and can be used in automatic control systems of continuous processes.

The purpose of the invention is to increase the reliability by maintaining the operation in case of failure of one of the key elements and one of the optronic nodes.

The drawing shows a circuit diagram of a device.

The switching device contains thyristor optocouplers 1-8, the first, second and third key elements 9-11, each of which is equipped with two identical outputs, the first, second, third and fourth resistors 12-15. The output circuits of the optocouplers 1 and 2 are connected to the switched output buses 16 and 17 counter-parallel to the output circuits of the optocouplers 3 and 4, respectively. In this case, the outputs of the optocouplers 5-8 are connected in series and in accordance with the output circuits of the optocouplers 1-4, respectively. The emitter of the optocoupler 1 is connected in series and in accordance with the emitter of the optocoupler 3 and is connected to the first output of the key element 9 through the resistor 12. The emitter of the optocoupler 2 is connected in series and in accordance with the emitter of the optocoupler 4 and through the resistor 13 is connected to the first output of the key element 10 connected to the second the output of the key element 9. The emitter of the optocoupler 5 is connected in series and in accordance with the emitter of the optocoupler 7 and is connected through a resistor 14 to the combined second output of the key element 10 and the first output of the key element nta 11, and the emitter of the optocoupler 6 is connected in series and in accordance with the emitter of the optocoupler 8 and through a resistor 15 is connected to the second output of the key element 11. The inputs of the key elements 9-G1 are connected to the input buses 18-20, respectively.

Optocouplers 1,3,5 and 7 with resistors and 14 form the optocoupler assembly 21, and optocouplers 2, 4, 6 and 8 with resistors and 15 form the optocoupler assembly 22.

The device operates as follows.

In the initial state, signals a, b, and c are absent on the input buses 18–20, the transistors of the key elements 9–11 are closed, and the output buses 16 and 17 are open.

When signals a, b and c are input to the input buses 18-20, the transistors of the corresponding key elements 9-11 are opened. As a result, the optocoupler thyristors are turned on and the output buses 16 and 17 are closed.

Optocouplers 1, 5, 3, and 7, together with key elements 9-11, implement the function ab + ac '; optocouplers 2, 6, 4 and 8, together with the key elements 9-11 - the function ac + bc. At the output of the switching device, the majority function ab + ac + bc is realized.

The failure of one of the nodes 21 and 22 or one of the key elements 9-11 does not interfere with the functioning of the switching device as a whole. This allows you to replace failed nodes without turning off the device, which is necessary when managing continuous processes.

The serial connection of the outputs of the optocouplers 1 and 5, Zi7, 2i6, 4 and 8 improves protection against false alarms during voltage surges on switched buses 16 and 17.

Claims (1)

Claim A switching device containing four thyristor optocouplers, two key elements, four resistors, output circuits of the first and second thyristor optocouplers are connected to switched output buses opposite to the output circuits of the third and fourth thyristor optocouplers, respectively, the emitter of the first thyristor optocoupler is connected in series and in accordance with the emitter of the third thyristor optocoupler and through the first resistor is connected to the περί output of the first key element, and the emitter of the second thyristor opt it is connected in series with the radiator and according to a fourth photocoupler thyristor and through a second resistor connected to the first output of the second key member. characterized in that, in order to increase the reliability of operation, a third key element, fifth, sixth, seventh and eighth thyristor optocouplers are introduced, and each key element is equipped with two identical outputs, and the outputs of the fifth, sixth, seventh and eighth thyristor optocouplers are connected in series and according to the output circuits of the first, second, third and fourth thyristor optocouplers, respectively, the emitter of the fifth thyristor optocoupler is connected in series and according to the emitter of the seventh thyristor optocoupler and through t this resistor is connected to the combined second output of the second key element and the first output of the third key element, the emitter of the sixth thyristor optocoupler is connected in series and in accordance with the emitter of the eighth thyristor optocoupler and through the fourth resistor is connected to the second output of the third key element, the second output of the first key element is connected to the first the output of the second key element, and the inputs of the key elements are connected to the corresponding input buses of the device.