SU1072210A1 - Phase number three-phase converter - Google Patents

Abstract

THREE-PHASE CONVERSION OF NUMBERS OF PHASES, containing a three-core magnetic core, on the rods of which are connected the main windings connected to the input terminals, each of which is made with a tap-off forming the output output, and additional windings whose beginnings form additional output conclusions differing from that, for the sake of simplicity, one main and two additional windings are located on each core of the magnetic circuit, and to the beginning of each of the main windings located on one core not the magnetic circuit, connected ends of two additional windings located on the other two adjacent § cores of the magnetic circuit. J

Description

The invention relates to electrical engineering, in particular, to converter technology, to three-phase electromagnetic converters of the phae number and mohset to be used as a converter of the number of phases in magnetically thyristor frequency multipliers, as well as for powering powerful amplifiers.

A three-phase transformer phase converter is known, consisting of a three-core magnetic conductor, on each rod of which primary, connected in a star and connected to inputs / terminals, and secondary windings connected by a C 1 zigzag are placed.

The disadvantages of this device include relatively large Mcicco dimensions. With transformation ratios close to unity, the conversion of electrical energy is most economically carried out using autotransformers, which reduces the weight and cost of the phase number conversion unit.

The closest to the proposed one is a three-phase phase transducer containing a three-core magnetic core, whose rod terminals are arranged in a star and main windings connected to the input terminals, each of which is made with a tap-off forming the output terminal and additional windings whose beginnings form additional output output C2 1.

The transformation ratio in voltage (KIJ) of such a converter is equal to one.

I / -

where and

the actual input value

F bh phase voltage;

0 Actual value of the high output phase voltage

A disadvantage of this device is a significant number of windings, which leads to a simplification of the converter design.

The purpose of the invention is to improve the design of the converter.

The goal is achieved by the fact that in a three-phase converter the number of phases containing three-core magnetic conductors with rods are connected to a star and connected to the input BI-IBO and ochoBHbie windings, which are made with a tap-off forming the output pin, and additional windings, the beginnings of which are additional output pins, on. Each core of the magnetic core contains one main and two additional windings, with the ends of two additional windings located on the other two adjacent magnetic cores connected to the beginning of each of the main windings located on one magnetic core.

FIG. 1 is a diagram of the connection of the windings of the proposed converter {by the example of FPCHF 3/9) in FIG. 2 - vector voltage chart, explaining the connection principle

0 windings.

The device (Fig. 1) contains input pins 1 - 3 and output pins 4 - 12. Input, phase circuits, are formed by connecting the main current of 13, 14 and 15, located one on each core of the magnetic circuit. The ends of the windings are connected in a star, and the beginning is connected to the input terminals.

Q Output pins 4, 7 and 10 are formed by tapping 16, 17 and 18 from the main windings 13, 14 and 15.

Phase 5 is formed by connecting 5 the beginning of the main winding 13 with the end of the additional winding 19, phase b by connecting the beginning of the main winding 14 to the end of the additional winding 20, Phase 8 is formed by connecting the beginning of the main winding 14 to the end of the additional winding 21, phase 9 by the connection of the beginning of the main winding 15 with the end of the additional winding 22, phase 11 - connecting the beginning of the winding, 15 with the end of the winding 23, phase 12 - connecting the beginning of the winding 13 with the end of the winding 24.

The converter is made on three ,, -the magnetic core. Three windings are located on each rod for each transducer.

The converter operates as follows.

Consider the process of forming

45 any randomly chosen one

phases. The input three-phase voltage system is denoted by the EMF of windings 13, 14 and 15 (Fig. 2) with amplitudes taken equal to 1 and fad.a50 equal to 0, respectively; + -

-, EMF of the output phases 4, 7 and 10 Coincide in phase with the input EMF, but have amplitudes conventionally accepted equal to 0.88 relative to the amplitudes

55 input emf. Formed EMF phase, for example, on the output vyshode 5 has an amplitude of 0.88 and phase

2L (I p

60 (where m is the sequence number of the phase being formed,

P - the number of output phases). EMF of phase 1 with an amplitude equal to 1 and a phase equal to O, which is the Ligi 5 neck of the main emf for the generated emf

Claims (1)

A THREE-PHASE PHASE CONVERTER containing a three-core magnetic circuit, on the rods of which are located the main windings connected to the star and connected to the input terminals, each of which is soldered to form the output terminal, and additional windings, the beginnings of which form additional output terminals, characterized in that, in order to simplify, on each core of the magnetic circuit there is one main and two additional windings, and to the beginning of each of the main windings located on one rod magnetic circuit, the ends of two additional windings are connected, located on two other adjacent § cores of the magnetic circuit “