RU2701144C1 - Controlled shunting reactor - Google Patents

Abstract

FIELD: electrical engineering.SUBSTANCE: invention relates to electrical engineering and is used in electrical systems. Rectifier 5 supplies bias current not only in control windings 3, 4, but also in power windings 1, 2.EFFECT: technical result consists in improvement of device amplification factor and reduction of its dimensions.1 cl, 1 dwg

Description

The proposal relates to electrical engineering and is used in electrical systems.

The widely known and used circuit / 1 /, shunt reactor (hereinafter CSR), contains power windings connected by a star to the zero points of which a rectifier is connected. The disadvantage of this device is the relatively low reliability due to the fact that the rectifier is at a high potential level

The prototype of the proposal is a CShR / 2 /, containing in each phase the first and second network windings, with one terminal connected together to connect to the network, and with the second terminal the even and odd windings of different phases are connected into stars, the zero points of which are grounded through ballasts, control windings, connected to the poles of a controlled rectifier. The disadvantage of this device is the relatively low current gain, which requires an increase in the volume of the magnetization winding and increases the mass and dimensions.

The technical problem solved by this invention is to simplify, increase speed and reduce weight and dimensions. The problem is solved due to the fact that the rectifier poles are also connected to the zero points of the stars of the network windings

The drawing shows a diagram of CSR. Two groups of three-phase power windings 1 and 2 (even and odd) with the same outputs are connected together and are designed to connect to the network. The windings 3, 4 of the independent excitation windings are connected to a controlled rectifier 5, powered by a transformer 6. The windings 1 and 2 are connected to the star circuits by second terminals, the common points of which through the ballasts 7, necessary for damping the oscillations, are connected to ground 8. Through the jumpers 9, 10, the rectifier 5 is also connected with the zeros of the network windings 1 and 2.

CSR works as follows. It is a continuously adjustable three-phase inductance and is connected to high-voltage power lines and networks. Changing the direct magnetization current supplied by the rectifier 5 to the windings 3, 4, in a known manner change the inductance of the CSR, and hence the reactive power consumed by the windings 1 and 2 of the CSR from the network. The regulation of this current is provided not only by the magnetomotive force of direct current (p.m.) in the windings 3, 4, but also by the constant component of the p.m. windings 1 and 2, provided by the current flowing through them from the rectifier 5. That is, there is both independent magnetization by windings 3 and 4, and superimposed magnetization by windings 1 and 2. This increases the gain of the CSR. The inductance of the field windings 3 and 4 is also reduced (since they are performed with fewer turns), which leads to an increase in speed. In addition, reliability is improved due to the possibility of working in the partial failure mode (for example, open windings 3, 4).

Information sources

1. RF patent for utility model No. 136919.

2. Patent for the invention of the Russian Federation No. 2473999.

Claims (1)

A controlled shunt reactor, containing in each phase the first and second network windings, connected with one pin together to connect to the network, and the second terminals even and odd windings of different phases are connected into stars, the zero points of which are grounded through ballasts, control windings connected to the poles of the controlled rectifier, characterized in that the rectifier poles are also attached to the zero points of the stars of the network windings.

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