SU907755A1 - Method of control of two-transformer 12-phase converter - Google Patents

Description

(54) METHOD OF MANAGEMENT OF TWO-TRANSFORMATOR BINDEN-TWO-TYPE PHASE CONVERTER

one

The invention relates to power converter technology and can be used in direct-current lines.

A known method of controlling a twelve-phase converter on two rectifying valve bridges, in which control pulses are formed, changes phase according to the reference signal and feeds these pulses to the control electrodes of the bridge valves 1.

The closest to the proposed technical essence and the achieved result is a method of controlling a two-transformer twelve-phase converter on two rectifying valve joints, at which control pulses are formed in two stages by switching the supply voltage, changing the phase depending on the reference signal and supplying these impulses to control electrodes of bridge valves 2.

However, this method does not have a sufficiently high Ka iecTBo output voltage due to a low power factor.

The purpose of the invention is to increase the quality of the output voltage by increasing the power factor.

The goal is achieved by the fact that in the control method a two-transformer twelve-phase converter on two rectifying valve bridges, in which control pulses are generated in two stages by switching the supply voltage, changing the phase depending on the reference signal and applying these pulses to the control electrodes bridge gates, the phase of the control pulses vary from 90 to 0 el. hail, by increasing the reference signal at the first step of adjustment, change the output voltage and compare it with the reference signal, and when the output voltage exceeds the reference voltage signal, switch the supply voltage; to the second step, increasing its voltage 1e by two times, set phase 20 control pulses of both bridges equal to 60 el. hail, by reducing the reference signal by half, and the power supply voltage is switched to the second step of closing the contacts of the switch of the second

(first) transformer, one of the secondary (valve) windings of which is connected by a triangle (star) and connected to the output terminals of the rectifying bridge through the secondary winding of the first (second) transformer.

FIG. 1 shows a scheme for implementing the proposed control method; in fig. 2 - the same, when working at one stage of regulation.

Two-transformer twelve-phase equivalent converter contains two three-phase valve bridges

II and 2 interconnected in a DC circuit in series, and two three-phase three-winding transformers 3 and 4. Transformer 3 has one primary (mains) winding 5 and two secondary (valve) windings 6 and 7, and transformer 4 - the primary winding 8 and valve windings 9 and 10. To the phase terminals of the mains A, B, C; transformers are connected by their primary windings by means of three-phase (three-pole) switches 11 and 12. The number of turns of the valve windings 7-10 refers to the number of turns of the valve windings

6 and 9 as 1: 3. That is, transformers 3 and 4 are interchangeable with one type, in terms of their parameters and characteristics (with similar load and network parameters) to the corresponding transformers.

In the diagram in FIG. 1 valve windings 6 and 9 (with large numbers of turns) are connected by triangles and connected to the input terminals of valve bridges 1 and 2 through valve windings 7 and 10 (with smaller numbers of turns). In this case, as can be seen from the scheme, the pair of windings (6, 10 and 9, 7) are interconnected in series-phase-according. Such a connection of the valve windings of two three-winding three-phase transformers with each other and with the input terminals of the valve bridges provides an equivalent twelve-phase energy conversion mode both in the closed state of both switches (11 and 12) and in the closed state of any one of them (11 or 12 ).

Consider the proposed method of controlling the converter using the example of a change (increase) in the rectifier load from zero to the maximum value. Initially by closing the switch

I1 connect the primary windings 5 of the first transformer 3 to the phase terminals of the supply network. The converter circuit in this case has the form shown in FIG. 2. EMFs induced in windings 6 and 7 are supplied to the inputs of valve bridges. Valve windings 9 and 10 do not take part in generating rectified voltages. Since the valve windings 6 are connected by a triangle, and the windings 7 are connected by a star,

equivalent twelve phase energy conversion mode. By changing the angles of unlocking all thyristors from 90 to 0 °, the rectified voltage at the output terminals of the converter is increased from zero to 0.5 maximum. Then, by closing the switch 12, the primary windings 8 of the secondary transformer 4 are connected to the mains. At the same time, the opening angles of the thyristors (60 °) are set. A further increase in rectified voltage is produced by changing the angles from 60 to 0 °. A decrease in the magnitude of the rectified voltage from the maximum value to zero is produced by changing the angles of unlocking all thyristors and disconnecting the primary windings of transformers 4 and 3 from the supply mains in reverse order, i.e., in the proposed device, a combination of stepwise and continuous methods of controlling the converters without the use of additional switching devices. An increase in energy performance (power factor with an adjustment range of more than 1: 2) is due to the fact that when the rectified voltage is close to, but less than 0.5 of the maximum voltage (with the switch 12 turned off), the power factor is close to 1 , 0.

The use of the invention makes it possible to improve the quality of regulation of the output voltage and phase current of the supply network by increasing the power factor and more efficient use of converter transformers due to the proposed control method for the sequential (cascade) connection of their valve windings.

Claims (2)

1.Posse A. Century Schemes and modes of transmission of direct current. M., “Energie, 1973. 2. USSR author's certificate for application No. 2766416 / 24-07, cl. H 02 P 13/16, 1979. FIG. 1 Sun VcC0 Ф14г.2