RU2394296C2 - Transformer(s)-switch assembly - Google Patents

Abstract

FIELD: electrical engineering.

SUBSTANCE: proposed transformer(s)-switch assembly comprises transformer(s) with primary and n in-phase windings where n is an integer greater than unity while m is the number of phases. Said windings have phase and neutral terminals that connect said winding in appropriate phase alternation sequence in between nm groups of controlled semiconductor gates connected in series to make a ring. Phase terminals of in-phase windings can be connected phase-by-phase, while one point between said controlled semiconductor gates is connected to ground.

EFFECT: reduced overall dimensions and faster operation.

3 cl, 1 dwg

Description

The device relates to electrical engineering, in particular to switching devices of alternating current.

Known are three-phase current switches containing two groups of valves in each phase, the first of which is connected between the input terminal and the corresponding output terminal in the forward direction, and the second in the opposite direction, and mechanical contacts. The well-known circuit breaker has large dimensions, since mechanical contacts must be designed for the full load current, see author. testimonial. USSR №514364, cl. H01H 9/30, 1973.

A three-phase current switch is also known, in which the first and second groups of valves are connected to two different groups of output terminals, interconnected by mechanical contacts, see ed. testimonial. USSR No. 694907, class H01H 9/30, 1974.

Such a switch has large dimensions and insufficient performance.

The objective of the invention is to reduce the size of the device and increase its speed.

The solution of this problem is achieved by the fact that the proposed unit uses a transformer with a multiphase primary and several common-mode windings with phase and neutral terminals, by which the windings are connected between groups of controlled semiconductor valves connected in series and closed in a ring. The phase outputs of the windings can be connected in phase, and one of the points between the groups of semiconductor valves is grounded.

Schematic diagram of the device shown in the drawing.

The following notation is used in the diagram: three-phase transformer 1, common-mode windings 2, 3, 4 and groups of controlled semiconductor valves 5 ÷ 13.

The windings 2, 3, 4 have phase and neutral terminals, and the phase terminals can be phase-connected, and the neutral terminals of the windings in order of phase rotation are connected between groups of controlled semiconductor gates 5 ÷ 13 connected in series and closed in a ring.

When the voltage is applied to the transformer 1 and the semiconductor valves fully closed 5 ÷ 13, the device is in idle mode, and when the semiconductor valves are fully open, it can be placed under load.

The proposed transformer-circuit breaker block can be made with the number of phases greater than three and the number of common-mode windings greater than one, and the number of transformers can be equal to the number of common-mode windings.

In the case of the use of power lines with split phase wires as terminal substations, the proposed device makes it possible to provide a half-wave mode of operation with a real line length that is a multiple of the number of common-mode windings of the transformer (s) of the unit.

Claims (3)

1. Transformer unit (s) - an alternating current circuit breaker including transformer (s) with primary winding (s) and a group of controlled semiconductor valves, characterized in that the transformer (s) in it contain n common-mode windings, where n is an integer is greater than unity, am is the number of phases, with phase and neutral terminals, by which the windings in order of phase rotation are connected between nm groups of controlled semiconductor gates connected in series and closed in a ring. 2. The block according to claim 1, characterized in that the phase outputs of the common-mode windings in it are phase-connected to each other. 3. The block according to claim 1, characterized in that one of the points between the groups of controlled semiconductor valves in it is grounded.