SU1310914A1 - Multiposition switching device - Google Patents

Abstract

The invention relates to electrical engineering, namely to contactless multi-position switches used to connect electrical loads to a DC source. The aim of the invention is to provide forced load switching. The switch operates on the principle of switching loads one by one. With the load on, for example 1.2, the capacitors 5.1 and 5.2 are charged up to the voltage of the power source. Switching on the next load, for example, 1.3, is carried out by applying a control pulse from the pulse generator 12 to the control electrodes of the power thyristor 3.3 and the auxiliary thyristor 8.3. In this case, the capacitor 5.2 is in series with the power supply, as a result of which a double voltage supply is applied to the load 1.3 at the initial moment. Simultaneously with the switching on of the power thyristor 3.3, the opposite voltage is applied to the thyristor 3.2 and it closes, disconnecting the previously switched on load. 2 Il. C (L co

Description

one

The invention relates to electrical engineering, and specifically to contactless multi-position switches used to connect electrical loads to a DC source,

The purpose of the invention is to provide forced load switching.

FIG. 1 is a circuit diagram of a switch for four load channels; Fig. 2 is a diagram of a forced load switching pulse.

The switch is designed to turn-off loads 1.1-1.4 to the source 2 current. The switch contains power thyristors 3.1-3.4, power diodes 4.1-4.4, capacitors 5.1-5.4, resistors 6.1-6.4 and 7.1-7.4, auxiliary thyristors 8.1-8.4, dividing diodes 9-. 1–9.4, bit diodes 10.1–10.4 and 11.1–11.4 and generator 12 pulses.

The switch works as follows.

Let all the thyristors be switched off at the initial moment, the capacitors are discharged, the loads are disconnected from the source 2. To switch on any of the loads, a control pulse from the generator 12 is fed to the corresponding thyristor 3.1- 3.4. For example, to turn on the load 1 ± 2 turn on the thyristor 3.2. As a result, capacitors 5.1 and 5.2. charged before the voltage U.

This switch operates according to the principle of alternately switching loads 1.1-1.4, while the previously switched on load is automatically switched off. Therefore, after load 1.2, it is possible to turn on, for example, 3, for which thyristors 8.3 and 3.3 are turned on. In this case, capacitor 5.2 is connected in series with the power source, as a result of which a double voltage 2U is applied to the load 1.3 at the initial moment, which ensures the forced inclusion of electromagnetic loads. At the same time, when the main thyristor 3.3 is turned on, the reverse voltage is applied to the thyristor 3.2 and it closes. After charging the capacitor 5.2, the auxiliary thyristor 8.3 is closed, and the end 42

rechargers are recharged. The switch is ready for subsequent switching. The technical and economic efficiency of the device is determined by the possibility of reducing the mass, power consumed from the network, and the response time of electromagnetic loads in comparison with the known contactless switches.

Claims (1)

Invention Formula Multipoint switch containing cells, each of which includes series-connected leads for connecting a load, a power diode and a power thyristor, capacitors by the number of cells, leads for connecting a source power supply and pulse generator, with the cathodes of the power thyristors of all cells connected to the output for connecting the negative pole of the power source, the anodes of the power diodes in each cell through the terminals for connecting the load - with a terminal for connecting the positive pole of the power supply source, controlling the electrode. thyristors are connected to the outputs pulse generator, which is also distinguished by the fact that, in order to ensure the forced switching on of the load, an auxiliary thyristor, two resistors, 35 two discharge diodes and two separation diodes, and in each cell one of the terminals of the first and second resistors and the cathodes of the first and second discharge diodes are combined between 40 by themselves and connected to the connection point of the power diode and the power thyristor, the other terminals of the first and second resistors are connected respectively to the anodes of the first and second discharge 45 diodes and cathodes of the first and second separation diodes, the anode of the auxiliary thyristor in each cell is connected to the anode of the power diode, the cathodes of all auxiliary thyristors 50 and the anodes of all separation diodes are interconnected, the capacitors are connected between the other terminals of the first and second resistors of neighboring cells, the control electrodes of the auxiliary thyristors are connected to the output of the pulse generator. Editor M.Petrova Compiled by A. Karetnikov Tehred M. Khodanych Proofreader A.T. Order 1898/50 Circulation 699 Subscription VNSHSHI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, st. Project, 4 FIG. g