RU1815766C - Converter of three-phase voltage - Google Patents

Abstract

SUMMARY OF THE INVENTION: the device comprises three pairs of counter-parallel connected thyristors (1-6), a single-phase transformer (13) with primary and secondary windings, and a control system. The opening angle of the thyristors is adjustable from 120 to 180 °. From a three-phase input voltage, a single-phase triple-frequency voltage with an adjustable amplitude is generated. 3 ill.

Description

The invention relates to converter technology, in particular to devices for directly converting the number of phases, frequency and amplitude of an alternating voltage.

 The aim of the invention is to improve the overall dimensions, increase the efficiency and reliability of the device.

In Fig, 1 presents the proposed Converter; in FIG. 2 is a voltage diagram; in FIG. 3 - voltage waveform of one of the phases of the input and output voltages.

The thyristor converter consists of three pairs of counter-parallel connected thyristors 1. 2, 3, 4, 5, 6. The cathodes and anodes of each pair of thyristors are connected by terminals 7, 8, 9 to the phase wires of a three-phase energy source. Conclusions 10, 11, 12 are connected to the primary winding of a single-phase transformer 13. Another terminal of the primary winding of the transformer is connected to the zero wire of the energy source. A load is connected to the secondary winding of the transformer. The control system synchronizes the control voltage with the three-phase voltage of the energy source and adjusts the opening angles of the thyristors from 120 to 180 degrees. For this purpose, the thyristor control channel 1, 2 is connected to terminal 8, the thyristor control channel 3, 4 is connected to terminal 9, the thyristor control channel 5, 6 is connected to terminal 7. Each control channel contains a single-phase transformer 14 (15, 16), diodes 17, 18 (19, 20, 21, 22). resistors 23, 24 (25, 26, 27, 28) and a dual variable resistor 29, 30.

Thyristor converter operates as follows.

Let the phase rotation of the energy source be A, B, C. Pin 7 is connected to phase A, input 8 is connected to phase B, pin 9 is connected to phase C (Fig. 1). Since the thyristor control channel 1.2 is connected to terminal 8, it is triggered by the phase voltage B. Accordingly, the thyristor control channel 3, 4 is triggered by the phase voltage C, and the thyristor control channel 5, 6 is triggered by the phase voltage A. phase at 120 ° phase voltage and higher

The specified order of connecting the channels of the control system with the terminals of the thyristors determines an opening angle of the thyristors of at least 120 °. By phase control, a 180 ° change in the opening angle of the thyristors is achieved with their locking when the current reaches zero. For one period of the three-phase input voltage, a triple frequency alternating voltage is induced in the secondary of the transformer.

The proposed thyristor converter has the following advantages: increased utilization rate

electrical materials; equalizing currents are eliminated by triggering control channels with a phase shift due to a phase shift of the input voltage, which increases the efficiency and reliability

devices the device converts the number of phases, frequency and provides smooth control of the amplitude of the output voltage; the weight and dimensions of the transformer are reduced due to

applying one primary winding and tripling the frequency.

Claims (1)

SUMMARY OF THE INVENTION A three-phase voltage converter comprising corresponding pairs of countercurrently connected thyristors connected to a phase input terminals connected to a single-phase output transformer, and also a control system, characterized in that in order to improve the overall dimensions, increase efficiency and reliability, the thyristors are connected to one end of the primary winding of the output transformer, the other end of which is connected to the zero input terminal, and the control system is made in the form of three channels, each of which includes a single-phase transformer, moreover, the primary windings of the transformers with one terminal are connected to the corresponding phase input terminals, and the others are combined through a dual variable resistor, and the two secondary windings of the transformer are connected to zhdoy phases are connected through diodes and resistors to control electrodes of thyristors of another phase.