SU788219A1 - Relay switching device - Google Patents

Description

(54) RELAY SWITCH The invention relates to the field of automation and can be used in multi-channel relay switches of information collection systems. Known relay switch containing transistor switches, electromagnetic turnips and current limiting transistor D. The disadvantage of such a relay switch is a significant energy consumption. The closest technical solution to the present invention is a relay switch containing Two key elements made on transistors, the collectors of which are connected to the KiH winding of electromagnetic relays, the base of one of the transistors is connected to the collector of the other, the current limiting resistor included in the power circuit of the windings of electromagnetic relays , and the additional transistor, the emitter and the collector of which are connected to the terminals of the current-limiting resistor, and the base is connected to the collector through a resistor and dividing diodes E transistors sjEtot switch has insufficient reliability, since when applying voltage pi takltsego relay operation is difficult because only the holding current to flow through its winding. In addition, when a short-term supply voltage failure occurs, the relay can be released without restoring the typed command. The purpose of the invention is to increase the reliability of the relay switch. The goal is achieved by the fact that a device containing two key elements made on transistors, the collectors of which are connected to the windings of electromagnetic relays, the base of one of the transistors is connected through a resistor to the collector of the other transistor, a limiting resistor included in the power circuit of the windings of the electromagnetic relays, and a transistor which is connected to the current-limiting resistor by an emitter

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rum and relay coils, base through resistor and isolating diodes - with collectors of transistors of key elements, and a collector connected to the positive power source equipped with a capacitor and three diodes, the anode of the first diode connected to the positive power source, and the cathode - with, output current-limiting resistor and one capacitor lead, another capacitor lead connected to the anode of the second and third cathode diodes power point.

The drawing shows a relay switch diagram.

The relay switch contains transistors 1 and 2, a resistor 3, electromagnetic relays 4 and 5, a current edge is a 1 resistor 6, a transistor 7, a resistor 8, a dividing diode 9 and 10, a diode 11, a capacitor 12 and a diode 13 and 14.

The base of transistor 2 through a resistor 3 is connected to the collector of transistor 1, and the base of transistor 1 is connected to the input of the device. The collector collectors 1 and 2 are connected to the windings of electromagnetic relays 4 and 5. The current limiting resistor 6 is connected to the emitter of transistor 7 and is connected to the supply circuit of the windings of electromagnetic relays 4 and 5. The base of transistor 7 is connected to the collectors of transistors 7 and 10 1 and 2, and its collector - with a positive power source. The anode of diode 11 is connected to the power supply plus, and the cathode is connected to the current limiting resistor 6 and the capacitor 12, the other lead of the capacitor 12 is connected to the anode of diode 13 and cathode of diode 14. The cathode of diode 13 is connected to cathodes of separation diodes 9 .and 10, and the anode of the diode 14 is connected to the minus of the power source,

The device works as follows.

If there is a voltage corresponding to zero on the base of transistor 1, this transistor is closed, and transistor 2 is open, and a control current flows through the winding of the electromagnetic relay 5. Since the transistor 7 is closed, the current value through the winding of the electromagnetic relay 5 is set by the current limiting resistor 6 and maintained at a level that keeps the relay contacts in a closed state. The level of this current is usually well below the order of

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rated current for relay. Therefore, the power supply consumed from the power source is minimal. This leads to much less heating of the relay contacts and, consequently, to a decrease in the thermopower of the contacts, i.e. to increase the accuracy of the switch. When the nose is blunt and to the base of the transistor 1 of the control voltage, this transistor opens and the transistor 2 closes, the current induced by the self-induced EMF of the inductance flowing through the diode 10, the resistor 8 and the base-emitter junction of the transistor 7 opens the last, resulting in The coil of the electromagnetic relay 4 through the open transistors 1 and 7 is supplied with the full supply voltage, which must be chosen higher than the nominal one to increase the speed. In this case, there is a forced acceleration of the moving parts of the relay, which ensures an increased rate of contact response. After the end of the transient process in the winding of the relay 5, the current in the diode 1O circuit, the resistor 8 and the base-emitter transition of the transistor 7 ceases, and the transistor closes. Through the winding of the relay 4, the current set by the current-limiting resistor 6 flows. When the supply voltage is briefly lost, the current in the winding of the relay 4 remains almost unchanged due to the energy stored in the capacitor 12, which will be discharged along the current-limiting resistor 6, the relay winding 4 is open transistor 1, diode 14.

In addition, capacitor 12 provides the operation of relay 4 when power is applied to the voltage. Similarly, the device operates when a command is issued that triggers relay 5. The capacitor 12 is charged along the circuit plus the power supply, diode 11, diode 13, resistor 8, junction base-emitter of transistor 7, relay coil 4 or 5, transistor 1 or 2, minus the power supply. The charge current of the capacitor 12 opens the transistor 7 And thus ensures reliable operation of the relay.

This relay switch ensures that the dialed command is executed both when the supply voltage is applied or when it is momentarily lost.

Claims (1)

1. USSR author's certificate NO 228107, cl. N OZ K 17 / OO, 1966. 2, USSR author's certificate No. 568978, Cl, H 01 K 47 / O2, 1975. -H