SU803810A1 - Electric current converter - Google Patents

Abstract

ELECTRIC CURRENT CONVERTER containing two valve groups, each of which is connected to the secondary winding of one of the two three-phase power transformers, the primary windings of which are connected in series, and each phase of the tertiary winding of one transformer is connected to the same phase of the tertiary winding of the Other transformer via a choke. in order to improve the power characteristics of the converter, each phase of the tertiary winding of one transformer is connected through Single-phase single-phase rectifying bridge, in the diagonal of direct current of which the indicated choke is connected, with the same tertiary phase of the other transformer winding. W00oso00

Description

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The invention relates to a converter technique and can be used to power or reverse electric current, in particular, in DC transmissions and inserts and in rectifying substations that supply electric transport, electrolysis and other high-power installations.

Twelve-phase converters consisting of two three-phase valve bridges and transformers supplying these bridges with alternating voltages shifted in phase by 30 ° are widespread.

Transducers are known, whose three-winding transformers i1-1eut serial connection of the primary windings and the counter-connection of tertiary windings through the reactor elements, which provides a deep limitation of emergency currents without the occurrence of increased itanp H pas pas in normal modes of operation. In one such converter, filters P are connected between the tertiary windings, in the other capacitors.

A converter with reactors is also known, connected 1 m between the tertiary windings rzl. The converter with reactors operates with a lower overvoltage, but it has degraded power characteristics.

The purpose of the invention is to eliminate the negative effect of reactors connected by the tertiary windings of transformers on the energy characteristics of the converter.

The goal is achieved by the fact that in an electric current converter containing two valve groups, each of which is connected to the secondary winding of one of two three-phase power transformers, the primary windings of which are connected in series, and each phase of the third winding of one transformer is connected to the third winding of the other. a transformer through a choke, each phase of the tertiary winding of one transformer is connected via an additionally introduced single-phase rectifier bridge in the diagonal which direct current is switched on the specified choke, with od02

by the phase of the tertiary winding of another transformer.

The drawing shows a schematic diagram of the converter.

The proposed converter contains primary windings 1, connected in series, secondary windings 2 connected to three-phase valve bridges, and tertiary windings 3 r between the same terminals of which include single-phase diode bridges 4. The DC diagonal of each diode bridge includes a reactor 5. On the constant side current, three-phase valve bridges can be interconnected either in series or in parallel through an equalization reactor or else be connected to electrical circuits with the same mi operation conditions in rezhimah- of established.

Under normal operating conditions, the converter in the circuits formed by the tertiary windings of the harmonic transformers EMF is about 6 k ± 1, where k is an odd number, is added, and the first harmonic and the other higher harmonics of the EMF are mutually balanced. As a result, in each circuit between the same terminals of the tertiary windings a small alternating unbalance current flows, containing 5, 7, 17, 19th, ... harmonics. It is rectified by a single-phase diode bridge and direct current passes through reactor 5. As a consequence, the inductance of reactors 5, unlike the prototype, does not affect the normal modes of the converter, does not cause an increase in switching angles, a decrease in the rectified voltage and an increased consumption of reactive power, i.e. it does not impair its energy characteristics.

In the event of a short circuit in one of the three-phase ventilation bridges, the mutual balancing of the first harmonics of the EMF in the circuits of the transformers formed by the tertiary windings is sharply disturbed. Through the reactors 5, the currents start to flow in the form of half-waves of the first harmonic, the inductance of the reactors is immediately introduced into the emergency current loop of the converter and limits its amplitude. Thus, under emergency conditions, reactors on the side of the tertiary windings perform their positive role in the same way as the ES prototype. The depth of limiting emergency currents is determined by the inductance value of the reactors. In the proposed converter, the increase in the inductance of the reactors is not limited by the deterioration of its energy characteristics. .

The economic effect from the application of the proposed converter is determined by the difference between the costs that are necessary if a prototype is used for additional sources of reactive power and a higher installed power.

transformers and valves, and the cost of diode bridges of relatively low power. Calculations for specific converters have shown that the use of a new converter is cost-effective. .

Considered the inclusion on the side of the tertiary windings of single-phase diode bridges with reactors in their diagonals is also effective for other converter circuits with a sequence H1L4 connecting the primary windings of the transformers. In particular, such a device is useful for a converter with two single phase large bridges.

Claims (1)

ELECTRIC CURRENT CONVERTER containing two valve groups, each of which is connected to the secondary winding of one of the two 4> fc Ofcl Ofc · 4> fc · three-phase power transformers, the primary windings of which are connected in series, and each phase of the tertiary winding of one transformer is connected with the same phase of the tertiary winding of another transformer through a choke, characterized in that, in order to improve the energy characteristics of the converter, each the phase of the tertiary winding of one transformer is connected through an additionally introduced single-phase rectifier bridge, in the diagonal of the direct current of which the specified inductor is included, with the same phase tertiary winding transformer. Ofc JF -Ofc B Wow with * Ofc