SU1709410A1 - Method process for phase-by-phase control over three-phase switch - Google Patents

Abstract

The invention relates to electrical engineering, in particular, to methods for controlling high-voltage three-phase current switches, and can be used in power stations and high-voltage electrical networks. The purpose of the invention is to increase the reliability of operation of the switches by increasing the sensitivity of determining the phases with the smallest and largest specific components. The method of phase control of a three-phase switch consists in controlling the absolute magnitude of the components of the second harmonic in the secondary currents of current transformers in three-phase switches that arise due to the saturation of the magnetic circuits of current transformers during a short circuit. 1 il.

Description

The invention relates to electrical engineering, in particular, to methods for controlling high-voltage three-phase current switches, and can be used in power stations and high-voltage electrical networks.

There is a method of disconnecting three-phase current switches in phases, in which, in order to increase the service life of the arcing contacts, one of the three phases of the switch is disconnected with a delay relative to the other two. Each of the three phases is alternately selected as this phase.

The disadvantage of this method is that the choice of this phase does not take into account the magnitude of the short-circuit currents flowing in each phase at a given moment. This, if there is an aperiodic component in the short-circuit current that is randomly distributed over the phases, may lead to the need to disconnect the invalid for the current switch and cause it to fail.

There is also known a method in which aperiodic components of short-circuit currents are controlled in all three phases of a switched circuit, compare them with each other and delay the disconnection of phases with the smallest and largest aperiodic component for a time longer than the spread time of the switch-off pole of the switch.

The disadvantage of this method is the difficulty of directly measuring the aperiodic component in the phase currents of the switched high voltage circuit.

The aim of the invention is to increase the reliability of operation of the switches by increasing the sensitivity of determining the phases with the smallest and largest aperiodic current components. At the same time, an increase in the service life of the circuit breakers and a reduction in operating costs are expected.

The goal is achieved by the method of controlling a three-phase switch, which controls the aperiodic components of the phase short circuit currents, compare them with each other and delay the switching off of the phases with the smallest and largest controlled values, the second harmonic components in the secondary currents of current transformers of all three phases, compare them to each other in absolute value, isolate the phases with the smallest and largest quantities, and then deactivate them.

The essence of the invention consists in isolating the secondary harmonic components from the secondary currents of the current transformers, which arise when the cores of these transformers are magnetized by the aperiodic components of the primary currents during the three-phase short-circuits in the controlled circuit, and compared by their absolute value.

The drawing shows a diagram of the device for implementing the method.

The device contains a power source 1, a switching circuit 2, a phase (pole) 3 switch, a current transformer 4, a second current harmonic separation device 5, an input information comparison unit 6 in absolute value and a minimum and maximum signal detection, a shutdown signal delay unit 7 each phase, block 8 relay protection switched circuit.

The outputs of the secondary windings of the current transformers 4 installed in the phases 2 of the switched circuit are connected to the inputs of the device for extracting the second harmonic components of the secondary current 5, for example, based on a resonant amplifier tuned to the frequency of the second harmonic. The outputs 5 are connected to the inputs of the block b comparing the input information by the absolute value and the detection of the minimum and maximum signals, the outputs of which are connected to the inputs of the delayed signal block 7, one of the inputs of which receives a signal from the relay protection unit 8, and the outputs of block 7 connected to the corresponding inputs

poles (phases) to turn off the switch 3.

The device works as follows.

When a three-phase short circuit occurs in the switched circuit 2, aperiodic components appear in the phase currents, the values of which are distributed randomly. The flow of aperiodic currents in the primary windings of current transformers 4 leads to saturation of their cores, with the result that even harmonics appear in the secondary currents, and the second harmonic has the greatest amplitude. The second harmonic component is performed in devices 5 so that the output signals of these devices are proportional to the absolute value of the component of this harmonic in each phase. These signals are sent to the unit for comparing and detecting the phases with the minimum and maximum components of the second harmonic, and hence with the minimum and maximum values of the aperiodic component in the primary current - 6, which generates signals to cause the switch-off delay 7 of these identified phases on command from block 8

0 protection. In this case, the phase with the average value of the aperiodic component is switched off first. In the phases with the minimum and maximum values of the aperiodic component, this averaging occurs.

Claims (1)

5 component, which provides less impact of the arcing arc on the erosion of the arcing contacts, Formula of the invention The method of phase control of a three-phase switch, consisting in the fact. that the aperiodic components of the phase short-circuit currents are controlled, they are compared with each other, and according to the comparison results they delay from 5 phases with the smallest and largest aperiodic components, characterized in that, in order to increase the reliability of operation of the switches by increasing the sensitivity of phase detection with the least and the greatest 0 aperiodic components, control the absolute magnitude of the components of the second harmonic in the secondary currents of current transformers of these three-phase switches. 6 i.L LU. four