SU991615A1 - Relay flip-flop - Google Patents

Description

(54) RELAY TRIGGER

The invention relates to a pulse technique and can be used, for example, to simulate some types of expensive remote switches. A relay trigger is known that contains a remote switch, a relay, diodes, RC circuits, a power source and input signals. The disadvantage of this trigger is low reliability due to the presence of an additional Power source or an increase in the number of connections. The closest technical solution to the invention is a 1-circuit trigger containing a remote switch, two relays, two RC circuits, two input buses and a power supply voltage 2. The disadvantages of the known relay trigger are low reliability due to the presence of the power supply, as well as It is impossible to obtain a low input resistance to simulate the operation of various types of remote switches. The goal of isoorestance is to increase the reliability and {enhancement of the functionality of the relay. The goal is achieved by the fact that the relay trigger. Contains a 1st remote switch, the first terminals of two windings of which are connected to a common cable, the first and second relays, the first winding terminals of which, respectively, are connected to a common bus through the closing and disconnecting contacts of the remote switch closing contacts, respectively, of the first and second relays, windings. Which are bridged by the first and second NS circuits, respectively; two resistors and two diodes are inserted; e pins of the first and second relays are connected to the anodes of the first and second diodes, respectively, whose cathodes are connected; respectively, to the first and second input terminals, to the second, terminals of the closing contacts of the first and second relays, respectively, and through the first to the second resistor respectively to the first windings of the first and second relays, respectively.

The drawing shows a circuit diagram of a relay trigger.

The relay trigger contains a remote switch with windings 1, 2 and switching contact 3, relay 4 with contacts 5 relays 6 with contacts 7, diodes 8 and 9, resistors 10 and 11, capacitors 12 and 13 of the RC circuit, resistors 14 and 15 of the HC- chains, common bus 16, input tires 17 and 18.

Relay trigger works as follows.

In the initial state, when the control signal of unlimited duration is applied to the input bus 17, the relay trigger is in one of two stable states, it does not consume energy, since windings 1 and 2 of the remote switch and relay 4 are disconnected from the input strip 17, and 6 no signal input.

When the signal is switched to the input bus 18, the relay 6 is triggered, and a capacitor 13 is charged through the resistor 15. The trigger input is loaded by the resistor I. Contact 7 connects the remote switch to the input bus 18 and flips to the opposite state, while relay 6 18 is disconnected from the switch, and the contacts 7 of this relay become weak only after the time required to discharge the capacitor b through the resistor 15 and the relay 6 winding, and the diode prevents the discharge current from flowing through the resistor 11.

In this steady state, the relay trigger also consumes no energy.

Thus, the proposed relay trigger in a stable, stateless state does not consume energy when controlling a non-limited duration signal, does not require a separate power source, consumes energy at the moment of switching from the control signal, and allows changing the trigger input resistance over a wide range, which gives ability to simulate various types of remote switches.

Claims (2)

1. Author's certificate of the USSR according to the application N 2736821/21, cl, H 03 K 23/03, 1979, 2. USSR author's certificate number 454700, cl. H 03 K 23/03, 1972 (prototype). Yu / J fS