SU1112508A1 - Twenty-four-phase a.c.d.c. converter - Google Patents

Abstract

A twelve-phase AC-DC to DC converter contains four three-phase transformer-rectifying units connected in series through a DC circuit, each of which consists of a short-circuit rectifier bridge and two transformers, the primary windings of which are connected to the phase terminals of the power supply network in parallel, and secondary circuits of the power supply network of which are connected to the phase terminals of the power supply network in parallel, and secondary circuits of the power supply network of which are connected to the phase terminals of the power supply network in parallel, and secondary circuits of the power supply network of which are connected to the phase terminals of the power supply network in parallel, and secondary circuits of the power supply network of which are connected to the phase terminals of the power supply network in parallel, and secondary volt- are connected in series and connected to the corresponding emergency bridges, with the primary windings of the windings their transformers are connected by a star, and the secondary ones are cascaded by a star, characterized in that, in order to increase reliability and simplify the ERP by unifying the design of the primary windings and magnetic circuits of all transformers, the primary windings of both transformers of the second, third and fourth transformer-rectifying blocks also connected by a star, the secondary windings of the transformers of the second block are connected in cascade by a triangle, the third block is cascaded by the right triangle star, and the fourth block - cascade scheme reverse triangle star. to Jl uh

Description

f The invention relates to devices for converting the energy of three-phase alternating current into direct current and can be used, for example, in converting substations of direct-current power transmission (DCF). Improving the efficiency of electrical equipment and power supply of power converting plants is associated with the problem of reducing higher harmonic components of the current in the supply network for increasing the equivalent phasing of energy conversion, as well as simplifying the design, reducing the installed power, and unifying the transformer equipment. A twenty-four-phase converter is known, which contains four three-phase transformer-directing units connected in series along a direct current circuit, each of which consists of a transformer and a rectifier circuit. The windings of the transformers are connected in star, triangle, straight zigzag and reverse zigzag circuits, which provides a 24-phase energy conversion mode lj. The disadvantage of the device is the absence of the possibility of increasing the unit power of the rectifying bridges without increasing the unit power of the transformers, the oversized weight and dimensions indicators and the complexity of the design of the transformers. The closest in technical essence to the invention is a twenty-four-phase AC-to-DC converter containing four three-phase transformer-rectifying blocks connected in series along a DC circuit, each of which consists of a rectifying bridge and two transformers, primary The windings of which are connected to the phase terminals of the power supply network in parallel, and the secondary windings are connected in series and connected to the corresponding rapid bridges, and in the first and the main sformatorno-rectifying blocks both primary windings connected in star Transform engine diagnostics and secondary nye - 2 cascaded star. A disadvantage of the known devices is the difference in the connection circuits 08 of the primary windings of transformers and the absence in half of them (connected by a triangle) the possibility of neutral grounding, which is necessary for high voltage systems. This leads to the complexity of the design of transformers, reducing the reliability of high-power 24-phase power converters. The aim of the invention is to improve the reliability of the converter by providing grounding of the primary windings of all transformers and simplification by unifying the design of all primary windings and magnetic circuits of all transformers. The goal is achieved by the fact that in a twenty-four phase-hfe generator (an alternating current maker in a constant current, containing four three-phase transformer-rectifying units, connected in series along a direct current circuit, each of which consists of a rectifying bridge and two transformers, the primary windings of which connected to the phase terminals of the supply network in parallel, and the secondary windings are connected in series and connected to the appropriate rectifier bridges, and in the first of the transformer-rectifying The primary windings of both transformers are connected by a star, and the secondary ones are cascaded by a star, the primary windings of both transformers of the second, third and fourth transformer-rectifying blocks are also connected by a star, and the secondary windings of transformers of the second block are connected by a triangle in a cascade, the triangle star, and the fourth block - a cascade of the inverse triangle star. FIG. 1 shows a basic circuit diagram of a 2-converter converter f in FIG. 2-5 are vector diagrams of the secondary voltages of each transformer-rectifying unit. The power bridges 1-4 (Fig. 1) are connected in series with each other along a DC circuit. The primary windings of all transformers 512 are connected to the phase terminals of the mains A., B, f C are parallel to each other and all are connected according to the star circuit with a specific neutral. Tue3. The coil windings of each pair of transformers 5 and 6, 7 and 8, 9 and 10, 11 and 12 are interconnected in cascade (phase-wise - according to - in series) and connected to the input phase terminals A, B and C; Aj, B and Cj; And bj and cj and a,. and a corresponding rectifier bridge. In the pair of transformers 5 and 6 supplying the rectifying bridge 1, the secondary windings are connected in cascade with a star, in the pair of transformers 7 and 8 supplying the discharge bridge 2, with a triangle in the pair of transformers 9 and 10 feeding the rectifying bridge 3, the straight triangle is a star and a pair of transformers 11 and 12 supplying the rectifying bridge 4, in the reverse triangle is a star. The Converter operates as follows. As can be seen from the vector diagrams of the secondary stresses shown in FIG. 2 (for the first stage), in FIG. 3 (for the second stage), in FIG. 4 (for the third stage) and in FIG. 5 (for the fourth cascade), the rectified voltage systems 08 are shifted sequentially one relative to the other by 15 ° el., I.e. The converter as a whole operates in an equivalent energy conversion mode. The primary windings of all transformers are connected according to the same schemes (star), which ensures the unification of the design of these windings and magnetic circuits. The connection of all primary star windings, in addition, provides grounding of their common points, which provides increased reliability of high-voltage transformers and a 24-phase converter as a whole. The positive effect of the converter (reliability, unification of the design of the primary windings and magnetic circuits of all transformers) is provided by changing the connection scheme of the primary and secondary windings in three of the four transformer-rectifying blocks (in the block with a rectifying bridge 1, the connection of all windings of transformers is similar to one of the blocks of the known device.

FIG. 2

Claims (1)

TWENTY-FOUR-PHASE AC / DC CONVERTER, containing four three-phase transformer-rectifier units connected in series via a direct current circuit, each of which consists of a rectifier bridge and two transformers, the primary windings of which are connected in parallel to the phase terminals of the supply network and the secondary windings are connected in series and connected to the corresponding rectifier bridges, and in the first of the transformer rectifier blocks, the primary windings of both transformers the starters, and the secondary ones are cascaded by a star, characterized in that, in order to increase reliability and simplify it by unifying the design of the primary windings and magnetic circuits of all transformers, the primary windings of both transformers of the second, third and fourth transformer-rectifier blocks are also connected by a star moreover, the secondary windings of the transformers of the second block are connected in cascade by a triangle, the third block is cascaded in accordance with the direct delta-star circuit, and the fourth block is cascaded in cx me inverse triangle star. Phi .1