SU1130985A1 - Converter - Google Patents

Abstract

CONVERTER containing two transformers with primary and secondary windings placed on magnetic systems and a capacitor, the primary windings connected in series with each other and with the capacitor, the secondary windings are also connected in series with each other, and from the series connection of the primary and secondary windings are filled taps for connecting to the mains, which is designed so that, in order to control the reactive power and reduce the distortion of the generated current, it also contains It has a three-phase thyristor controller and an additional magnetic system made in the form of a stator of an asynchronous machine on which a three-phase winding is located, and the magnetic systems of transformers are made in the form of ring cores placed in the internal cavity of an additional magnetic system on one longitudinal axis of the latter, the primary and Transformer secondary windings are made with one winding direction, and a three-phase winding is connected to the thyristor controller

Description

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The invention relates to a converter technique and may find application in the development of controlled converters.

A known converter comprising a synchronous machine and a reactive power control system, including reactive power sensors, a synchronous field excitation current controller, and a transformer converter with pulse-phase control. 13 The disadvantages of the converter are its design complexity and reduced reliability.

The closest to the proposed technical essence is a converter containing two transformers with primary and secondary windings placed on magnetic systems and a capacitor, the primary windings being connected in series with each other and with a capacitor, the secondary windings also connected in series with each other, and From the series connection of the primary and secondary windings, taps are made to connect to the L2J network.

The disadvantages of the known converter are the impossibility of controlling reactive power in high-voltage circuits, as well as significant distortions of the current generated in the network.

The aim of the invention is to provide control of reactive power and reduce distortion of the generated current.

The goal is achieved by the fact that a converter containing two transformers with primary and secondary windings placed on magnetic systems and a capacitor, the primary windings "being connected in series with one another and with the capacitor, the secondary windings are also connected in series with one another, and from a series connection of the primary and secondary windings are made taps for connection to the network, also contains a three-phase thyristor controller and an additional magnetic system in the form of a stator an synchronous machine on which a three-phase winding is located, and the magnetic systems of transformers are made in the form of a ring309852

external cores placed in the internal cavity of an additional magnetic system on the same longitudinal axis with the latter, the primary and 5 secondary windings of transformers are filled with one winding direction, and the three-phase winding is connected to the thyristor controller.

The drawing shows schematically

10 converter.

The converter contains two transformers with primary 1 and secondary 2 windings placed on magnetic systems 3, and a capacitor

) 5, the primary windings 1 are connected in series with one another and with capacitor 4, the secondary windings 2 are also connected in series with one another, and from

20 of the primary connection of the primary 1 and secondary 2 windings are made taps 5 for connection to the network, a three-phase thyristor controller 6, and an additional magnetic system

5 7, made in the form of the stator aci of the chronical machine, on which the three-phase winding 8 is located, and the magnetic systems of the 3 transformers are made in the form of ring cores,

0 placed in the internal cavity of an additional magnetic system 7 on the same longitudinal axis with the latter, the primary 1 and the secondary 2 windings of transformers are made with

, one direction of winding, and three-phase winding 8 is connected to the thyristor controller 6.

The device works as follows.

e The converter is connected to a distribution network. The leads 5. One pair of windings with a capacitor 4 forms a capacitive channel of energy distribution, and the other pair of windings is an inductive channel. The pairs of windings of the inductive channel of the distribution of energy create magnetic fluxes in the ring cores, oppositely directed magnetic

Q flows created by a pair of windings of the capacitive channel. Thus, a magnetic flux flows in the cores, equal to the differences in the fluxes of the capacitive and inductive channels. With an appropriate ratio between.

the reactive impedances of the inductive and capacitive channels, i.e. when capacitive impedance is not

Claims (1)

A CONVERTER containing two transformers with primary and secondary windings located on magnetic systems, and a capacitor, the primary windings being connected in series with one another and with a capacitor, the secondary windings are also connected in series with one another, and from the series connection of the primary · and secondary * windings bends are made for connection to the network, characterized in that, in order to ensure regulation of reactive power and reduce distortion of the generated current, it also contains three ny thyristor and additional hydrochloric magnetic system made in the form of the stator of the asynchronous machine, on which the three-phase winding, and! the magnetic systems of transformers are made in the form of ring cores placed in the internal cavity of the additional magnetic system on one longitudinal axis of the latter, the primary and secondary windings of the transformers being made with one direction of winding, and the three-phase winding is connected to the thyristor controller *