RU1809519C - Thyristor converter - Google Patents

Abstract

The inventive power thyristor bridge containing thyristors 1, 2, 3 and 4, is connected to two phases of a three-phase AC network, the voltage of one of the phases of which is used to charge the storage capacitors 7 and 8, discharged through the thyristors 15 and 17 to the primary windings of pulse transformers 11, 12, 13 and 14, the secondary windings of which are connected to the control inputs of the thyristors of the thyristor bridge, and the other phase of the three-phase alternating current network is used as the reference voltage for the phase-shifting unit b ka. 2 ill. 1 / s

Description

The invention relates to electrical engineering. In particular, it relates to two-phase and three-phase voltage converters.

The aim of the invention is to expand the scope of application.

In FIG. 1 is a schematic diagram of a thyristor converter; in FIG. 2 - timing diagrams of its signals. . ,

The thyristor converter contains a power thyristor bridge connected to the first and second phase of a three-phase network

-phase A and phase B, respectively. The thyristor bridge contains thyristors 1-4 connected to an electric motor 5. The controlled inputs of thyristors 1-4 are connected to the output of phase-shifting unit 6 through devices for switching on thyristors. Each device: for turning on thyristors contains a storage capacitor 7 and 8 with parallel connected to it, respectively, a zener diode 9, 10 and, respectively, a chain of series-connected pulse transformers 11, 12 and the same transformers 13, 14 and the corresponding discharge devices oystv. The discharge device of the capacitor 7 is made on the thyristor 15 and the pn-transistor 16 connected to it. The discharge device of the capacitor 8 is made on the thyristor 17 and on the transistors 18 and 19. The first transistors 16 and 19 of the discharge devices are each with respect to have opposite conductivity to each other, their emitters are connected to the common circuit wire, the bases are connected to the outputs of the phase shifter 6. Secondary

 winding transformers 11.12 respectively. indirectly through diodes 20 and 21, respectively, are connected to the control electrodes of Power Tirietors 1 and 4, and the secondary windings of transformers 13 and 14, respectively, through diodes 22 and 23 are connected to the control inputs of thyristors 2 and 3. Storage capacitors 7 and 8, respectively, through diodes 24 25, as well as through a series-connected charging capacitor 26 and resistor 27, connected to a third phase C of the supply voltage.

Thyristor converter operates as follows. The supply voltage of phase C through the charging capacitor 26 and resistor 27, as well as through the diodes 24 and 25, periodically charge the storage capacitors 7 and 8. These capacitors are discharged by discharge devices when the corresponding signals are received at their input and are taken from the phase-shifting output unit 6. First charge device

assembled on transistor 16 and thyristor 15, and the second on transistors 18.19 and on thyristor 17.,

After a negative signal arrives

thyristor 15 is turned on on thyristor 16 and capacitor 7 is discharged through transformers 11 and 12. Power thyristors 1 and 4 are turned on through transformers 11 and 12, respectively. After arrival

a positive signal from the phase shifting device 6 to the base of the transistor 19 through the transistor 18 opens the thyristor 17, which discharges the storage capacitor 8. through the transistors 13 and 14, and turn on the signals of the transformers 13 and 14

respectively, power thyristors 2 and 3. The principle of discharge of storage capacitors 7 and 8 is described in more detail in patent application N; 4649586/07. The same application differs from the above by the principle of charging storage capacitors 7 and 8. As can be seen from FIG. 2 VAC of the capacitor 26 and through the resistor 27 Advances the voltage of phase C by about 50-80 °. The beginning

charges of capacitors 7 and 8 coincide in

time with relevant moments

overload through noltokazar dngkonden satra 26. Voltage on capacitors 7

and 8 are limited respectively by zener diodes 9 and 10. A resistor 27 connected in series to the capacitor 26 is necessary to limit the current through the diodes 24 and 25 at the time the converter is connected to the supply voltage network.

The proposed circuit can be used for both two-phase and three-phase thyristor converters, since a three-phase converter can be considered as three two-phase.

Thus, the proposed thyristor converter expands the field

application of the converter made

Information Sheet No. 448-83.

The proposed device is tested on

Volzhsky plant of rubber products of the Volgograd region. Tests confirmed the correctness of the conclusions made. . :.,

 FORMULA AND SECTION

A thyristor converter containing a controlled bridge rectifier, the output terminals of which are designed to be connected to load terminals, the first input terminal is connected to the first phase of the three-phase network, and the control terminals of the bridge rectifier keys are connected to the output terminal of the corresponding control pulse generators, the inputs of which soi.

are connected with the outputs of the corresponding phase-shifting units, and a serial RC circuit, the first output of which is connected to the first. power outputs of the control pulse shapers, the second power leads of which are connected to the neutral of the three-phase network, and each of the control pulse shapers is made in the form of an accumulator capacitor the first terminal of which is used as the second terminal of the power supply of the control pulse generator, the first terminal of which is used for the first terminal of the diode, the second the output of which is connected to the second output of the capacitor, paral0

5

to which the circuit is connected from the key element and the primary winding of the pulse transformer connected in series, the terminals of the secondary windings of which are used as the output terminals of the control pulse generator, the input of which is the input of the key element, which is used in order to expand the scope of application, the second input terminal of the bridge rectifier is connected to the second phase of the three-phase network, to the third phase of which the second terminal of the serial RC circuit is connected.