SU769655A1 - Relay switch - Google Patents

Description

one

The invention relates to switching technology, can find application in multi-channel relay switches of information collection systems.

Relay switches 1 are known, which contain key elements on transistors, the collectors of which are connected to the windings of electromagnetic relays, and a current-limiting resistor included in the power supply circuit of the relay coils, a bouncing emitter and collector of the boost transistor, the base of which is connected to the collectors of transistors through the resistor and isolation diodes.

The disadvantages of the known device are low reliability of operation.

Closest to the proposed relay switch 2, which contains a matrix, the horizontal and vertical buses of which are connected by some outputs through key elements on transistors, respectively, to a common bus and through a first resistor, a forcing transistor shunted by a junction collector-emitter; the other terminals of the horizontal matrix cells are interconnected through the first group of diodes, and the other terminals of the vertical busbars through the second group of diodes; at

between the common current of the first TI of the second group of diodes, the Zener diode is switched on, the maladou of horizontal and vertical busbars of the matrix includes the windings of the electromagnetic relays, in series with which the sample diodes are connected, and the inputs of the key elements are connected respectively to the outputs of the first and second address decoders, the input is

10 of which are connected to the corresponding input bus; while parallel to the Zener diode are connected in series the LED of the optocoupler and the second resistor.

15 A disadvantage of the known device is the low functional endowment.

The aim of the invention is to increase the reliability of the relay switch.

20 This goal is achieved due to the fact that in a relay switch containing a matrix, the horizontal and vertical buses of which are connected by one pins through key elements on transistors, respectively, to a common box and through the first resistor, which is bridged by a junction collector-emitter of the forcing transistor, with the source bus power, other pins of horizontal tires

30 matrices are connected by themselves through

The first group of diodes and the other terminals of the vertical busbars through the second group of diodes, with a zener diode between the common points of the first and second groups of diodes, between each of the horizontal and vertical busbars of the matrix are connected the windings of the electromagnetic relays, in series with which the sample diodes are connected, and the inputs the key elements are connected respectively to the outputs of the first and second address decoders, the input of each of which is connected to the corresponding w, e and input bus, while in series with the zener diode Tel'nykh connected optocoupler LED and a second resistor inserted monostable multivibrator, whose output is connected to the base forsiruyush its transistor, and an input - through the photodiode of the optocoupler to the bus power source.

A schematic diagram of a relay switch is shown in the drawing.

The switchboard contains the key elements on transistors 1-4, through which the horizontal and vertical buses of the matrix are connected by one pins respectively to the busbar, bus 5 and via the first resistor 6, the collector-emitter of the forced transistor 7 passing by junction, to bus 8 of the power supply; the other terminals of the horizontal busbars of the matrix are interconnected through the first group of diodes 9 and 10, and the other terminals of the vertical busbars through the second group of diodes 11 and 12; between the common points of the first and second groups of diodes 9-12 included Zener diode 13; windings of electromagnetic relays 14-17 are connected in series with each of the horizontal and vertical busbars of the array; sample diodes 18-21 are connected in series with them, and the inputs of key elements are connected respectively to the outputs of the first 22 and second 23 address decoders, the input of each of which is connected to the corresponding input tire 24 and 25; parallel to the Zener diode 13 are connected in series the LED of the optocoupler 26 and the second resistor 27; the one-shot 28, the output of which is connected to the base of the forcing resistor /, and the input through the photodiode of the optocoupler 26 to the bus 8 of the power supply. The single-oscillator 28 is built on resistors 29-33, transistors 34, 35, and a driver circuit time consisting of a capacitor 36 and a resistor 37.

Relay switch works as follows.

In the state when the key elements of transistors 1 and 3 are open, a control voltage is present on the winding of relay 14, and its contacts are closed. The windings of the remaining relays 15, 16 and G / are de-energized. The amount of current through the control winding of the selected relay is set

a resistor 6 and is maintained at a level that maintains the contacts of the relay 14 in a closed state. The transistor 34 of the one-shot 28 is closed while

the transistor 35 is open, causing the potential of the transistor base to be fixed at a level slightly higher than the one-shot tripping threshold 28. The capacitor 36 is charged at this voltage until the voltage equal to the power supply voltage difference and the one-shot tripping voltage 28. The voltage of the single-shot 28 is chosen to be or slightly lower than the control voltage level on the relay windings in static mode. The time of the driver circuit on the capacitor 36 and the resistor 37 is calculated in such a way that the duration of the control pulse at the output of the one-oscillator 28 is slightly longer than the response time of the contacts used by the relays. When the level of the control signal on the input busbar 25 changes, transistor 3 will close and transistor 4 will open. With

In this case, the reverse current inductance of the tripping relay 14 flows for some time in a closed circuit passing through diode 9, Zener diode 13 and diode I. Part of the current flowing through Zener diode 13 branches into the control circuit of the optocoupler 26 through resistor 27. This opens the optocoupler 26 and the input of the one-shot 28 receives a signal that opens the transistor 34. At the same time, the transistor 35 closes, which leads to the opening of the transistor 7, and consequently, the full voltage of the opening relay 15 is applied to the winding. Granisistor 7 is in the open state for a time equal to the response time of the relay contacts.

Claims (2)

Invention Formula A relay switch containing a matrix, the horizontal and vertical buses of which are connected by one pins through key elements made on transistors, respectively, with a common bus and through the first resistor, a collector-emitter of a forcing transistor, which was shipped with a junction, with the bus of the supply source, other terminals of the horizontal matrix lines are connected to each other through the first group of diodes, and other terminals of the vertical bus bars are connected to each other through the second group of diodes In this case, between the common points of the nerve and the second group of diodes, a stabilizer tube is connected, windings of electromagnetic relays are connected between each of the horizontal and vertical busbars of the matrix, with which the sampling diodes are included, and the inputs of the key elements are connected respectively to the outputs of the first and second address decoders, the input of each of which is connected to the corresponding input bus, while in parallel the zener diode is connected in series with an optocoupler LED and the second resistor, characterized in that in order to increase reliability, a one-shot is introduced into it, the output of which is connected to the base of the forcing transistor, and the input is through the photodiode of the optocoupler to the power supply bus. Sources of information taken into account in the examination 1. Dolgov V. A. and others. Switching devices of automatic control systems, “Energia, Moscow, 1969, p. 55, fig. thirty. 2. USSR author's certificate number 617792, cl. H 01H 47/00, 01.27.77 (prototype).