SU782090A1 - Ac-to-dc voltage converter - Google Patents

Description

(54) AC VOLTAGE CONVERTER TO PERMANENT

The invention relates to power converter technology and can be used on power lines and DC inserts, as well as in high-power electric drives.

Transformers of alternating voltage into constant voltage, made in twelve-phase circuits and containing two three-phase valve bridges and two three-phase converter transformers 1 as main elements, are known.

The disadvantage of the well-known twelve-phase semiconductor converter device is the unsatisfactory form-Current in each of the transformer phases and the need for two types of stand-by transformers that are not interchangeable due to the difference in the connection windings of the valve windings.

Also known is a converter, a variable voltage to a constant, containing two three-phase transformers, the primary windings of which are connected to a star and connected to the input terminals, and the secondary windings are made of two sections connected in a star-zigzag circuit,

In different transformers, the same phase phases of one section are connected to the opposite phases of the second, the secondary windings are connected to the diagonal of alternating current of two three-phase rectifying bridges, the DC outputs of which are connected to the output terminals 2.

However, the known transformer does not have a sufficiently good form of current transformers.

The purpose of the invention is to improve the shape

10 current transformers.

The goal is achieved by the fact that the same phases of the first sections of transformers are connected through the contacts of a three-circuit breaker.

The drawing is principled

15 diagram of the device.

The converter contains transformers, the primary windings 1 and 2 of which are connected to the input terminals A, B, C. The secondary windings 3, 4, 5 and 6 are connected to the rectifier Iyustam 7 and 8.

Converter transformers are unified; their network and valve windings are identical in voltage, current, and structural performance, and are also connected according to identical schemes: network windings according to star circuits, valve-according to zigzag circuits.

The secondary valve windings of both transformers consist of two unequal parts with respect to (in the number of turns) large (3, 4) and smaller (5, 6) as 2.732-1.

In the scheme of the proposed twelve-phase converter device, to provide phase shift systems of three-phase output voltages of transformers relative to each other at an angle of 30 el. hail, large parts (8, 4) of the phases of the valve windings are assembled according to star diagrams, while larger and smaller parts (3, 5 and 4, 6) form, by connecting with each other, zigzag diagrams, to the output terminals of which are connected valve bridges 7, 8.

In the first transformer, the end of each larger part of the valve winding of one phase is connected to the beginning of a smaller part of the valve winding of the next phase.

In the second transformer, the ends of large parts of the valve windings are similarly connected with the beginnings of smaller parts of the previous phases.

The internal terminals of the valve windings of both transformers are interconnected phase by phase through the contacts of a three-circuit switch 9, i.e. through the contacts of the switch 9 interconnected internal findings of the valve windings, which have equal potentials in idle mode (conclusions 10 and 11, 12 and 13, 14 and 15).

Thus, large parts of the valve coils of transformers 3 and 4 through

The contacts of the switch 3 are interconnected in parallel. With the contacts closed, the switch 9 improves the shape of the current both in large parts of the valve windings and in the primary windings of both transformers.

Claims (2)

1. BossA. B. Schemes and modes of DC power transmissions. L., “Energie, 1973. 2. Razmadze Sh. M. Conversion schemes and systems. M., “Higher School, 1967, p. 239.,