SU1107186A1 - Switching device - Google Patents

Abstract

A SWITCHING DEVICE containing an electromagnetic relay with a closing contact, a key element, a resistor, terminals for connecting the power source, terminals for connecting the load and an input terminal, one of the terminals for connecting the power source connected to one of the terminals for connecting the load, another terminal for connecting load is connected to one of the conclusions of the closing contact and one of the power electrodes of the key element, the other output of the closing contact is connected to another power electrode of the key One other terminal for connecting a power source, one of the terminals of the electromagnetic relay coil is combined with an input terminal, characterized in that, in order to simplify it, improve the overall mass characteristics and improve speed, another terminal of the electromagnetic relay coil is connected to the control electrode of the key element, and a resistor is connected between the input terminal and the other power electrode of the key element.

Description

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The invention relates to a pulse technique and can be used in relay device circuits. Known switching device with protection of relay contacts, connected in series with the load, is a key transistor element, the base of which is connected to the emitter through a capacitor, and through a resistor to the power source. The disadvantage of this device is low reliability due to the fact that its destruction occurs due to the absence of iskrasashitz. and an increased voltage drop across a junction transistor. It is also known switching device containing an electromagnet. a relay relay whose contact is connected in series with the load through a key element made on a transistor whose base is connected to the control bus 21. The disadvantage of this device is low reliability due to the fact that when the relay contact closes, it is destroyed due to the absence of spark protection, an increased drop voltage on the transition of the transistor. The closest to the proposed technical essence and the achieved result is a switching device containing an electromagnetic relay with a closing contact, a key element, such as a transistor, leads for connecting the power source, leads for connecting the load and the input lead, one of the terminals of the relay winding connect to one of the terminals for connecting the power source and one of the terminals for connecting the load, another terminal for connecting which is connected to one of the terminals of the closing contact, the other in The relay coil water is connected to the input terminal, and one of the power electrodes of the key element is connected to another terminal for connecting the power source, one of the capacitor windings is connected to one of the terminals for connecting the power source, the other capacitor plate is connected through a diode to the input terminal and through one of the resistors with the control electrode of the key element, which through another resistor is connected to the other power electrode of the key element and to one output of the closing contact, the other output of which connected to another terminal to connect the power source of the Sz. A disadvantage of the known device is the structural complexity, due to the presence of a resistor capacitor, diodes, and, as a consequence, the deterioration of the overall mass characteristics of the device. In addition, the low speed is due to the large shutdown time due to the relatively large capacitor discharge, which must be chosen with a margin due to the variation in the parameters of both the capacitor and the electromagnetic relay. The purpose of the invention is to simplify the design, improve the overall mass characteristics of the device, increase the speed at shutdown. This goal is achieved by the fact that in a switching device containing an electromagnetic relay with a closing contact, a key element, a resistor, terminals for connecting a power source, terminals for connecting a load and an input terminal, one of the terminals for connecting a power source are connected to one of the terminals for connecting the load, another terminal for connecting the load is connected to one of the terminals of the closing contact and one of the power electrodes of the key element, the other terminal of the closing contact is connected to another One of the terminals of the electromagnetic relay coil is combined with the input terminal, another terminal of the electromagnetic relay coil is connected to the control electrode of the key element, and a resistor is connected between the input terminal and the other power terminal. electrode key element. The drawing shows a diagram of the proposed device. The switching device contains a winding 1 of an electromagnetic relay, a key element (transistor) 2, a resistor 3, a closing contact 4 of the electromagnetic relay, an input terminal 5, a terminal 6 for connecting a power source and a terminal 7 for connecting a load. The device works as follows. After a control pulse is applied to the input terminal 5 through the winding 1 of the electromagnetic relay and the base-emitter junction of transistor 2 a current flows, the resistance of the winding 1 of the electromagnetic relay also serves to limit the base current of transistor 2. When this happens, transistor 2 opens and connects the power supply turned on between pins b, to the load connected between pins 7, the electromagnetic relay is simultaneously triggered and the closing contact 4 is closed, since the response time of the electromagnetic relay is much longer Chez than the opening time of the transistor, the switching contact 4-circuiting occurs when transistor 2 is open. After the termination of the control pulse, the closing contact 4 of the electromagnetic relay opens and the current flows through the transistor 2, since the latter is kept in the open state by the current caused by the EMF of the winding of the electromagnetic relay that flows through the circuit: the winding 1 of the electromagnetic relay, base-emitter the transition of transistor 2, resistor 3. Resistor 3 also serves to set the locking bias to the base of transistor 2. Thus, the closure and opening of the closure contact 4 of the electro magnetic relay occurs Odita currentless state. As shown by the circuit technical analysis and tests carried out, the proposed device completely performs the functions of the known, while the absence of a capacitor, resistor and diodes simplifies the design of the device and improves the overall mass characteristics. Tests carried out on the layouts of the proposed device and known using the electronic relay RES49 (passport PC4, 569.423 Hi /, transistor assembly 1HT251, capacitor of 0.6 µF (supply voltage 30 V)) show that the time of existence, the current of self-induction EMF the winding of the electromagnetic relay, and, consequently, the off time, is less than the lifetime of the discharge current of the capacitor in the known device (1.2 ms and 6 ms, respectively /, which indicates an increase in the speed of the proposed device by comparing about 4 times known.

Claims (1)

SWITCHING DEVICE containing an electromagnetic relay with a make contact, a key element, a resistor, terminals for connecting a power source, terminals for connecting a load and an input terminal, and one of the terminals for connecting a power source is connected to one of the terminals for connecting a load, the other terminal for connecting load is connected to one of the terminals of the make contact and one of the power electrodes of the key element, the other output of the make contact is connected to another power electrode of the key element one and the other output for connecting the power source, one of the terminals of the coil of the electromagnetic relay is combined with the input terminal, characterized in that, in order to simplify it, improve overall dimensions and speed, the other terminal of the winding g of the electromagnetic relay is connected to the control electrode of the key element, and a resistor is connected between the input terminal and the other power electrode of the key element.