SU269312A1 - HIGH VOLTAGE SEMICONDUCTOR CONVERTER - Google Patents

Description

The invention relates to a technique for building high-power, compact, high-voltage rectifiers used in equipment, where the requirements of small ripples and high reliability are met with minimum iBecax and dimensions.

It is known that powerful 3-phase rectifiers made, for example, according to Larionov's scheme, provide better overall weight and weight characteristics compared to single-phase ones, especially when using semiconductor diodes As gates. Methods are also known to further improve the performance, which consists in the use of more complex rectification schemes, for example, 12-phase etc.

In particular, the 12-phase opening is provided by the series connection of two 3-phase bridges, the secondary windings of which are connected to a star and a triangle, respectively.

In addition to reducing pulsations, the use of such schemes reduces the distortion of the shape of the supply voltage in the network. An increase in the phase phase also leads to an increase in the number of consecutively connected rectifiers, which is an additional advantage, since an increase in the multiplicity of rectifiers is highly desirable in terms of better utilization of the insulation properties.

However, the practical implementation of complex circuits with increased phasing and multiplicity of rectification by conventional methods, in which the transformer and valve groups are complete individual structural elements, is extremely difficult due to the presence of a large number of high-voltage wiring wires that reduce the reliability of the rectifier and occupy a significant amount.

This disadvantage is especially significant for equipment operating in conditions of low atmospheric pressure, high vibrations and severe overall limitations and often negates the advantages given by an increase in phase and rectification multiplicity.

For example, for a 12-phase rectifier with four bridges, the number of high-voltage cables reaches 24.

The purpose of the present invention is to create a simple, compact, reliable, multi-phase rectifier with a high rectification rate.

The goal is achieved by placing valve semiconductor diodes radially between the secondary windings of the transformer, as well as the optimal choice of the number of bridges. This provides practical mechanical and electrical strength at 1 min. Weights and dimensions, as a result of which it is possible to easily realize an IB air conditioner multiphase rectifier.

FIG. 1 shows the scheme of the specified rectifier; in fig. 2 - straightener, longitudinal section; in fig. 3 - the same, top view.

Valve semiconductor diodes / are placed radially between adjacent phases of the transformer so that four E1shs form together with the corresponding groups of secondary Windings 2: ipotheia and other sections 3, 4, 5 and 6. The common points of the circuit belonging to all three phases are connected in The center of the rectifier is by the contact rod 7, the rest of the commutation is made on the periphery of the rectifier.

The heat mode is provided by a coolant (water, and tifriz, etc.), which circulates through the primary windings 5, made in the form of tubes covering the cores 9. The straightened voltage is removed through the high-voltage output 10.

When voltage is applied to the primary windings 8, in each of the series-connected sections 3, 4, 5 to 6, rectified voltage is obtained, respectively, 8, 16, 24 and 32 kV (relative to the earth).

The number of bridges is chosen in such a way as to provide reasonable reserves for the reverse voltage per diode, which allows refusing the shunting of semiconductor diodes with equalizing capacitances or resistances. At the same time, such a solution allows for a corresponding reduction in the variable voltages, which facilitates the isolation conditions. Thus, with an optimal choice of the number of rectifying bridges, the number of elements is reduced, the manufacturing process is simplified, the reliability is increased, the insulation weight is reduced. In addition, it is possible to use a partial voltage to power the auxiliary circuits of the equipment (home, / 2 Lom, / 4) - Connecting two groups of secondary windings in a star and two groups in a triangle can significantly reduce ripple

rectified voltage and thereby significantly ease the C-filter.

As a result of the application of the proposed rectifier, a multi-phase rectifier circuit is implemented, due to which the filter part of the rectifier is substantially simplified; an increased number of rectifying bridges is realized - the use of the properties of the insulation is improved, and the use of leveling elements is also unnecessary; geometrically equipotential surfaces are combined - high-voltage installation is sharply reduced and insulation requirements are reduced; a single crib-transformer element is formed - high mechanical and electrical strength is ensured; liquid cooling is provided - the weight of the transformer's nerve winding is further reduced.

Subject invention

A high-voltage semiconductor converter containing a three-phase transformer and semiconductor valves, characterized in that, in order to increase reliability and ease of installation, said semiconductor veltills are placed radially between sections of the secondary windings of the transformer, forming with these sections

series of equipotential surfaces.

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