SU1742958A2 - Transformer phase shifter - Google Patents

Abstract

Usage: the invention relates to electrical engineering and can be used in a non-uniform electrical network to control the distribution of active power flows. SUMMARY OF THE INVENTION The device comprises a three-phase transformer with three-phase windings 1 and 5 made sectionalized, sections of which are connected to sets of semiconductor switches 4 and 7, as well as a two-position switch 6. The two-position switch 6 makes it possible to switch each phase of the three-phase winding 5 by any of its terminals to non-identical phases of the three-phase winding 1, connected in a star, which allows to increase the range of the phase shift angle 2 sludge. J .Ј Mr. OBR) 1NJ

Description

The invention relates to power engineering and electrical engineering, is intended to adjust the phase shift of a three-phase output voltage system relative to the applied and can be used in a heterogeneous electrical network to control the distribution of active power fluxes and reduce losses, as well as for preventive heating of wires or ice melting on high voltage lines current.

Transformers are known for adjusting the phase shift angle between the applied and output voltage systems. This technical solution is characterized by the presence of two windings connected in a zigzag. By switching the taps of the adjusting winding, the phase shift angle is controlled in the range of 0-60 °.

Also known is a transformer, which is also a three-phase transformer having two windings, which are connected in a polygon. With the same number of turns of the adjusting and working windings, the angle adjustment range, as in the previous case, is 60 °.

The disadvantages of these technical solutions are the small range of adjustment of the phase shift angle. Also known is a transformer phase regulator containing a three-phase magnetic circuit and two three-phase windings, equipped with adjusting taps and two sets of semiconductor switches for their switching. In addition, there are two three-phase dip switches.

The first three-phase winding is connected to a star, and each phase of the second three-phase winding is connected at its two ends alternately to two other non-identical phases of the first three-phase winding, with the help of semiconductor switches connecting the first and third leads to the second phase. windings.

The second on / off switch is connected to the output terminals of the device and is intended to change the order of the phase alternation of the output voltage system. The disadvantages of this technical solution are the limited angle adjustment range of 240 °, and the incomplete use of all adjustment possibilities that can be obtained using the existing windings.

The purpose of the invention is to expand the adjustment capabilities of the device and increase the range of angle control. This goal is achieved by using an additional two-position switch in order to connect the phases of the second three-phase winding to the non-named phases of the first three-phase winding alternately

both ends. For this, the additional two-position switch is switched in phase between the first two-position three-phase switch and the extreme terminals of the second winding.

FIG. 1 shows the principal

connection circuit of the device windings; in fig. 2 is a vector diagram of the location of the output voltage vector in the sector.

A two-way switch that can be used to change the order of phase rotation is not shown. The phases of the first three-phase winding 1 are connected to a star, the supply voltage system is applied to the intermediate points 2 of the first winding, and the output terminals 3 are connected using a set of semiconductor switches 4 to the second three-phase winding 5. In addition, the second

the three-phase winding is connected to the first through the first two-step switch 6 and the second set of semiconductor switches 7.

An additional three-position switch 8 is used to enable the phases of the second three-phase winding to be connected alternately to the non-named phases of the first winding at both ends. In this case, in accordance with the vector diagram of FIG. 2, with the available switching means, the location of the output voltage vector in sector III can be specified, in addition to sectors I and II, which are provided in the prototype.

The principle of operation of the device to provide a full range of adjustment of the phase of the output voltage of 0-360 ° degrees, consider it on the example of the phase A of the device. When installing two-position

switch 6 to position A, dip switch 8 to position Arr. (Reverse), with the help of sets of semiconductor switches 4, 7, provide the position of the output voltage vectors of the second phase C winding in sector I (Fig. 2). When the on-off switch 6 is switched to position B, sector II overlaps. Then you need to switch the two-position switch K to the position Pr. (direct), which provides the overlap of the first half of sector III. Setting the switch 6 in position A, overlap the second half of the P II sector III.

Thus, the circuit provides circular rotation of the output voltage vector while maintaining its modulus, i.e. expanding the adjustment capabilities of the device.

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Claims (1)

Claims of the invention Transformer Phase Shunting Controller auth.St. Ns 1348920, differing from the fact that, in order to expand the adjustment capabilities, an additional two-position three-phase switch is introduced, which is connected phase-wise between the first two-position three-phase switch and the outermost leads of the second winding. FIG. g