SU1267300A1 - Device for checking voltages of negative phase-sequence of non-symmetric voltage system - Google Patents

Abstract

The invention relates to the field of quality control of electrical energy in power supply systems. The purpose of the invention is to increase the measurement accuracy. The device contains a converter for the number of phases, a multiphase rectifier 2, a controlled voltage divider 5, a double frequency selective filter 8 and a voltmeter 9. Introduction of the converter 3 phases, the converter 4 of the multiphase voltage system into a sequence of pulses at the points of voltage across zero value, low-pass filter 6, adder 7, controlled voltage divider 5 with the formation of new connections between the elements of the device compensates for the parasitic component, (L caused by the voltage Linear harmonics direct sequence at the device input. 1 Il.

Description

f The invention relates to devices for monitoring the quality of electrical energy in power supply systems. The purpose of the invention is to improve the measurement accuracy by compensating the parasitic component - :) caused by the third harmonic voltage of the direct sequence at the input of the device. The drawing shows the block diagram of the device. The device contains the first transformer 1 of the number of phases, to the output of which a multi-phase rectifier 2 is connected, in series with soy; A second converter 3 phase numbers 5 a converter 4 a multiphase voltage system into a pulse train at voltage transition points through a zero value and a control divider 5 voltage down the control input of which the output of the low frequency filter 6 is connected whose input is connected to the output of the multi-phase rectifier 2 and the non-inverting input of the adder 7, the inverting input of which is connected to the output of the controlled voltage divider 5, and the output through the selective filter 8 of the doubled frequency of the network to the voltmeter 9 The device operates as follows. The three-phase voltage system under investigation is supplied to the inputs of the inverters 1 and 3 of the number of phases and converted into multi-phase voltage systems. One of them is fed to the multiphase rectifier 2, and the other by the converter 4 is converted into a sequence of pulses. Analysis on the PC of a multiphase system: we have voltages (performed using the example of a four-phase) shows that with asymmetry and non-sinusoidal phase voltages the transition point of their curves through zero value get additional offset on the time axis. If at these points (V. these moments of time) to generate pulses with a constant amplitude and frequency, then the distribution density of the pulses on the time axis is uniform in the case of symmetry and sinusoidal voltage and non-uniform with non-symmetry and non-sinusoidal multiphase voltage systems, The latter leads to 002 change in time of the average value of the voltage of the resulting pulse sequence, i.e., to the appearance of its low-frequency variable component. The magnitude of this low-frequency variable component depends on the relative magnitude of the negative-sequence voltage (asymmetry factor) or harmonic, and at their values of up to 10-15%, the shape of the curve is close to a sinusoidal wave. controlled voltage divider 5 voltage is reduced. This is necessary because the voltage of 100 Hz in the output voltage of rectifier 2 is proportional to the reverse voltage V .., and the harmonic component of the frequency I00 Hz of the output voltage of converter 4 is proportional to the asymmetry factor, e. (where U + is the direct sequence voltage). Therefore, the divider 5 changes the output signal of the converter 4 in accordance with the voltage of the direct sequence so that the output of the divider 5 is proportional to the voltage of the reverse sequence. At the same time, it is known that the output voltage component of the multiphase voltage converter 2 is proportional to the voltage of the direct sequence, which is assigned to the filter 6, and the output of the latter is connected to the control input of the controlled voltage divider 5. The output signal of the rectifier 2 is fed to the non-inverting input of the adder 7, and the output signal of the divider 5 to the inverting input. Voltage frequencies of 100 Hz, due to the effect of the third harmonic, act in the network in phase at the inputs of the adder 7, and due to the voltage of the direct sequence — in antiphase due to the conditions of their shaping. In the adder 7, the voltage of the 100 Hz frequency, caused by the negative-sequence voltage, is summed, and the voltages caused by the third-harmonic voltage of the forward sequence are subtracted and mutually compensated, in the selective network frequency filter 8, the useful frequency of the 100 Hz frequency is separated from constant component and other

3

harmonic components. A voltmeter 9 measures the output voltage of the selective filter 8, which is proportional to the negative sequence voltage,

Claims (1)

Invention Formula A device for monitoring reverse voltages of an asymmetrical voltage system, comprising a series-connected phase number converter, an input connected to the input terminals, and a multiphase rectifier, as well as a series double-selective network filter and a voltmeter, characterized in that the purpose of increasing the measurement accuracy, an additional phase number converter, a multiphase voltage system converter, are introduced into the follower673004 pulses at the points of voltage transition through a zero value, low pass filter, controlled voltage divider and adder, with 5 this input of an additional converter for the number of phases is connected to the input terminals of the device, the output of the multiphase rectifier is connected to the input of a low-pass filter and non-inverted (0 to the input of the adder, and the output of the additional converter of the number of phases are connected in series to a multiphase voltage converter through the points of voltage transition through zero value and controlled voltage divider, the output of which is connected to the inverting input of the adder, a. The control input 20 is connected to the output of the low-pass filter, and the output of the adder is connected to the input of a selective filter of the doubled frequency of the network.