SU832695A1 - Method of control of power-diode converter - Google Patents

Description

(54) METHOD FOR CONTROLLING A VENTIAL CONVERTER

. ,; -one . , The invention relates to a converter technique and it can be used to control thyristor AC-DC converters. Known valve control method. A converter containing rectifying bridges connected in parallel through equalizing reactors, according to which control pulses are supplied to the in-phase bridges of the bridges with a time shift varying with a predetermined repeating cycle with a frequency lower than the frequency of the supply network in the number of the mentioned bridges 1. The disadvantage of this control cnoco6ia is the impossibility of obtaining current, consumed from the network, of quasi-sinusoidal form. The closest to the invention according to the technical essence and the achieved result is the method of controlling the valve converter, which contains parallel-connected rectifier bridges reactors through 54, according to which they give n series of control pulses, and the pulses supplied to the in-phase valves alternate. close a repeating cycle with a frequency that is n times lower than the frequency of the mains voltage 1.2. The disadvantage of this control method is not sufficiently harmonious cue composition current consumed by the converter from the supply network. . . The purpose of the invention is to improve the harmonic composition of the current consumed by the converter from the mains.,. -,,. The goal is achieved by the fact that, according to the method of controlling the valve converter, which contain l parallel rectifier bridges connected through equalizing reactors, the phase of these sequences is simultaneously changed, and the phase difference between the nth k (n-1) th pulse sequences equal to the fraction of the period of the supply voltage, inversely proportional to the number of phases and the number of bridges. FIG. 1 shows a diagram of an apparatus for implementing the proposed method; in fig. 2 - linear diagrams of voltages at the outputs of the first (a) and second (b) bridges and on the load of CV; in fig. 3 - timing diagrams of currents of thyristors (a) and primary phase current of converter (b).

The converter consists of two (p-2) three-phase rectifying bridges, assembled on thyristors 1-6 and 7-12 and connected on a dc electric current, in parallel through equalizing reactors 13 and 14, which are connected to the load. 15. Bridge input variables are connected to a three-phase AC network. The control electrodes of the thyristors 1-12 are connected to the outputs of the phase-shifting unit 16 through the distributor 17 of control pulses.

The method is carried out as follows.

Phase-shifting unit 16 generates two c and vItypical sequences of control pulses having phase angles oL to dfi cL + t - the period of the mains voltage; f is the coefficient characterizing the fraction of the period of the mains voltage; m is the number of phases), respectively. The control pulses from the outputs of the phase shift of the block 16 are fed to the distributor 17, which is distributed between the thyristors 1-12 in such a way. that the control electrodes of the in-phase thyristors at any moment of time are connected to different outputs of the phase-shifting block 16, i.e. common-phase thyristors are turned on in series with a time shift equal to ---, In addition, the distributor 17 periodically (when n 2. through the period of the mains voltage fluctuations) switches the control electrode of each thyristor from one output of the phase-shifting unit 16 to another, ensuring that The most alternation of the angles of unlocking of each thyristor with frequency, is n times lower than the frequency of the mains supplying the converter: in one period. control voltage supplied

on a thyristor with an angle, next time with an angle, then again with an angle, etc.

in the curve of the rectified voltage of a two-bridge converter, depending on the magnitude of the shift,

mn

amplitudes of harmonics that are multiples of six decrease, and this decrease with increasing angles of supply of control pulses to the thyristors appears to a greater degree, and at constant. was equal to the rectified value of% and, close to: zero, these harmonics are absent. .

The use of the invention allows to improve the harmonic composition of the current supplying the converter, which reduces the installed power of the supply transformer. Claims of the invention A method of controlling a valve converter containing rectifying bridges connected in parallel through the equalizing reactors, which consists in supplying n sequences of control pulses, the pulses to the in-phase valves alternating in a closed repetitive cycle with frequency times the frequency of the supply voltage, characterized in that, in order to improve the harmonic composition of the current consumed by the converter, simultaneously change the phase of these awns, wherein the selected phase difference between the nth and (n-1) -u-sequences of pulses, equal amounts period mains voltage inversely proportional to the number of phases and the number of said bridges. Sources of information taken into account in the examination 1. Electricity, 1959, No. 4, p. 43-49. 2. USSR author's certificate 262247, cl. H 02 R 13/16 ,, 1967.

P

16 S AVASVS Fi.y.

Claims (1)

Claim A method of controlling a valve converter containing η rectifier bridges connected in parallel through equalization reactors, which consists of feeding η sequences of control pulses, and the pulses supplied to the common-mode valves alternating in closed circuit ^{1 to} that repeating cycle with the frequency of the improvement, the frequency of l and for the purpose of the composition of that, η times smaller than the supply network, and with the fact that, harmonic consumption by the converter, simultaneously change the phase of these sequences, the phase difference between the nth and (η-1) -th pulse sequences is screamed, equal to a fraction of the supply voltage period, inversely proportional to the number of phases and the number of bridges mentioned.