SU1081765A1 - Twenty-four-phase converter - Google Patents

Description

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The invention relates to devices for converting the energy of an alternating current into a direct current and can be used, for example, in the production of direct current electric power substations (EPTD), reducing the quality of the rectifying voltage and reducing the higher rap components. current in the power supply system is provided by increasing the phase of the AC-DC converter. A twenty-four-phase converter is known, which contains four three-phase transformer-junction boxes, connected in turn along a direct current circuit, each of which consists of a first transformer and a rectifying bridge. Wiring diagrams for winding transformers are selected so as to provide an equivalent twenty-four-phase conversion mode. For this, the transformer windings are connected according to the star, triangle, direct and reverse zigzag l1 patterns. The known circuit of a twenty-four-phase converter does not provide the possibility of increasing the unit power of the rectifying bridges without increasing the unit power of the transformers, whose weight and size indicators are limited, for example, by transportation conditions. The aim of the invention is to reduce the installation power of the converter with an increase in the unit power of the rectifier bridges and the unchanged unit power of the transformers. The goal is achieved by the fact that in a twenty-four-phase AC-DC converter containing four three-phase transformer-rectifying units connected in series along a DC circuit, each of which consists of the first transformer and rectifying bridge, each transformer-rectifying unit it is equipped with a second transformer, the secondary windings of the first and second transformers are connected in series and connected to the corresponding rectifier bridges, and the primary the windings of the first and second transformers of each block are connected according to the star-star, triangle-triangle, star-triangle, star-reverse triangle schemes, respectively. The drawing shows a schematic of a twenty-four-phase converter circuit. The rectifying bridges 1-4 are connected in series with each other along a constant walk circuit. The primary windings of transformers 5-12 are connected to the mains, the secondary windings of each pair of transformers 5 and 6, 7 and 8, 9 and 10, 11 and 12 are connected in series and connected to the corresponding rectifier bridge. In a pair of transformers 5,6, supplying a rectifying bridge 1, the primary windings of both transformers are connected by a star, in a pair of transformers 7,8 - a triangle, in pairs of transformers 9,10 and 11,12 one of the transformers 9 and 11 of each pair has a primary connection star windings, and the second transformer 10 and 12 of each pair of a triangle. In this case, the primary windings of the transformer 10 are connected according to the inverse triangle scheme, and the primary windings of the transformer 12 according to the direct triangle scheme. The rectifier voltage systems are shifted successively relative to each other by an angle of a sl 15 el. Degrees, i.e. the converter as a whole operates in an equivalent twenty-four-phase electric power conversion mode. The active power of each transformer is equal to half the power of the valve bridge, which will allow increasing the unit capacity of the latter without increasing the unit capacity of the transformers. This may turn out to be decisive in the selection of the main circuits of the converter stations of heavy duty EPPTs (valve bridges of modular execution have virtually no restrictions on unit power). A reduction in the installation power of the device is achieved due to the fact that the formation of voltages applied to bridges 3 and 4 is accomplished by adding the voltage vectors shifted by 30 el. Degrees, which is provided by connecting the primary windings of transformers 9-12 into a star and triangle. In the case of using the proposed device in a double-circuit (two-pole) power transmission (with midpoint-point DC grounding), each of the poles (with bridges 1,2 and 3,4) operates in an equivalent twelve-phase mode (in each position the rectified bridge voltage between them at an angle of 30 e. degrees.), and in general the power transmission is in twenty-four-phase mode. An analogous result is achieved due to the corresponding connection of secondary winding cascades in pairs of transformers (star, triangle, equivalent to sliding right and left triangle) when connecting the primary windings of all transformers with a star. Transformer poles can be used as independent twelve-phase converters.

Claims (1)

A TWENTY-FOUR-PHASE CONVERTER of alternating current into direct current, containing four three-phase transformer-rectifier * units connected in series via a direct current circuit, each of which consists of a first transformer and a rectifier bridge. characterized in that, in order to reduce the installation mode with an increase in the unit power of the rectifier bridges and the constant unit mode of the transformers, each transformer and rectifier unit is equipped with a second transformer, the secondary windings of the first and second transformers are connected in series and connected to the corresponding rectifier bridges, and the primary windings of the first and second transformers of each block are connected according to the star-star-star, star-delta, star-delta, star-about triangular triangle, respectively. § ω