SU1163472A1 - Switching device - Google Patents

Abstract

Switching device containing two-winding polarized relay, pulse amplifier, capacitor, input terminal, first and second power supply busses, while the capacitor is connected between the output of the pulse amplifier and the first output of the first winding of the relay connected to the first power supply bus, which is characterized by the fact that, in order to reduce power consumption and simplify, a diode is inserted into it, which bypasses the first relay winding in reverse to systematic way, the second bus of the power supply is connected to the second terminal of the first relay coil and the relay coil through vtrruyu - a pulsed power input terminal of the amplifier slab.

Description

Od 00 4; ai

TH 1 The invention relates to automation and can be used in control apparatus. production process management. The purpose of the invention is to reduce power consumption and simplify the device. The drawing shows the electrical circuit of the switching device. The device contains windings 1 and 2 of a two-winding polarized relay, a pulse amplifier 3, made according to a half-bridge circuit on MOS transistors 4 and 5 of different conductivity, a capacitor 6, which is connected between the output of pulse amplifier 3 and one of the output winding of the I relay. Input terminal 7 is connected to the input of pulse amplifier 3, the common bus of which is connected to one of the power supply busbars. The second bus bar 8 of the source is connected to the output of the winding 1 of the relay and through the winding 2 of the relay to the power supply terminal 9 of the pulse amplifier 3. A diode 10 shunts the winding of the 1 relay in the opposite direction. The switching device operation em as follows. When there is no signal on the input terminal (Log. O), transistor 4 of pulse amplifier 3 is open, transistor 5 is locked, capacitor 6 is discharged. Energy from the source of food is practically not consumed. When a pulse signal (Log. 1) is applied to the input terminal, transistor 4 locks up, transistor 5 opens, capacitor 6 is charged along the power supply bus 8 circuit 8 - winding 1 relay - condensate 6 - transistor 5 - common bus. The polarization polarized relay is set to the position determined by the presence of the control current in the first winding 1. After charging the capacitor 6 to the supply voltage, the current through the winding I of the relay and the power consumption from the power source cease. At the end of the input pulse signal, transistor 4 is unlocked, transistor 5 is closed. The capacitor 6 is discharged through the transistor 4, the winding 2 of the relay and the diode 10, which eliminates unacceptable reverse current through the winding 1. Energy from the power source is not consumed. The two-winding polarized relay enters a state determined by the presence of a control current in the second winding 2. In the proposed device, KP304A and KP305A transistors with a permissible current of more than 1.5 mA can be used as field transistors relays - polarized relays of type РПС 18/4 with low operating currents. When using a pulse amplifier on I bipolar transistors, the output power range for controlling high-power relays is expanded. The use of the invention in comparison with the known device allows to reduce the power consumption from the power source by using the energy of the charged capacitor when the relay is disconnected and to simplify the device by eliminating the additional impulse amplifier. At the same time, the use of field-effect transistors makes it possible to reduce the input power consumption and to ensure the possibility of matching the relay control circuit with low-power logic elements.

Claims (1)

A switching device comprising a double-wound polarized relay, a pulse amplifier, a capacitor, an input terminal, a first and second bus of a power source, the capacitor being connected between the output of the pulse amplifier and the first output of the first relay winding, the input terminal is connected to the input of the pulse amplifier, the common bus of which is connected with the first power supply bus, which is distinguished by the fact that, in order to reduce power consumption and simplify, a diode is inserted into it, which shunts the first relay winding in the opposite direction In this case, the second bus of the power source is connected to the second terminal of the first relay winding and through the second relay winding to the power terminal of the pulse amplifier. ABOUT