SU957372A1 - Thyristor control - Google Patents

Description

(5) DEVICE FOR THIRIST MANAGEMENT

one

The invention relates to a converter technique and can be used to control the thyristors of rectifiers and inverters.

There are known devices for controlling thyristors, comprising a blocking generator, a power amplifier, a transformer, and terminals for connecting a current source and a thyristor 1.

Closest to the present invention is a thyristor control device comprising a transformer, the input winding of which is connected via a controlled transistor switch to a square-shaped voltage generator, and the output winding to a bridge rectifier, the positive output of which through a threshold element, for example a zener diode, connected to the terminal for connecting the control electrode of the thyristor, shunt element based on the first diode connected between the intermediate terminal of the alternating current source and 2

the voltage and common point of connection of the control key and the input winding of the transformer, an RC circuit of a series / value resistor And a capacitor and a second diode connected by a cathode to the anode of the zener diode and the first pin of the resistor of the RC circuit, the second pin of which is connected to the minus a bridge rectifier and one capacitor plate, the second plate of which is connected to the midpoint of the output winding of the transformer, the anode of the second diode and the terminal for connecting the cathode of thyristor C23.

15

A disadvantage of the known devices is low reliability.

The purpose of the invention is to increase the reliability of the device.

The goal is achieved by

20 that the device is equipped with a phase inverting key with two series-connected transistors, the transformer is equipped with an additional output

winding with a rectifying bridge at the output, the emitters are connected to the positive and negative terminals of which and through the first and second resistors are collectors of both transistors, the base of the first transistor connected to the collector of the second transistor, the base of which is connected via a diode to the emitters of both transistors and to the terminal for connection the thyristor cathode and simultaneously via the third register to the terminal for connecting the thyristor anode.

Fig. 1 is a schematic diagram of the device; in fig. 2 time diagrams for details.

The device comprises an alternating voltage generator of rectangular form, which is a semiconductor modulator on transistors 2, fed from a constant voltage source 3 with an average output. The generator 1 is connected to the input winding 5 of the transformer 6 via a control key h, and its intermediate output through a shunt diode 7 is connected to the connection point of the input winding 5 and the key. The output winding 8 of the transformer 5 is connected to rectifiers 9 and 10, connected back-to-back through the threshold element 11 (for example, a zener diode) and a resistor 12.

A filter 13 is connected to the output of the rectifier 10. A terminal for connecting the control electrode of the thyristor H is connected to the output of the threshold element 11 and the cathode of the diode 15, the anode of which is connected to the middle terminal of the output winding 8 of the transformer 6 and to the terminal for connecting the cathode of the thyristor T.

The third output winding 16 of the transformer 6 is connected to a bridge rectifier made on diodes 17 and 18, to the output of which a phase-inverting switch 19 is connected. Positive and negative output terminals of the rectifier 17 and 18 are connected to the input of the phase-inverting switch 19 performed on transistors 20 and 21 , resistors 22-2 and diode 25.

The collector of the first transistor 21 is connected to the base of the second transistor 20 directly and to the positive terminal of the rectifier 17 through a resistor 22. The base-emitter transition of the transistor 21 is shunted by the reverse

the diode 25 is connected through the current limiting resistor 23 to the terminal for connecting the thyristor anode. The terminal for connecting the cathode of the thyristor 1 is connected to the common connection point of the emitters of transistors 20 and 21, the negative terminal of the rectifier 18 and the anode of the diode 25.

The device for controlling the thyristor works as follows.

In the absence of an input signal Uo and a direct voltage U at the thyristor anode Tt (Fig. 2), the section tg-t controlled key k is open, i / f to the input winding 5 of the transformer 6 through the diode 7 a part of the alternating voltage generator 1 is applied current, while in the windings 8 and 1b electromotive force (EMF) is induced. Under the direct voltage Ucjn /, the transistor 21 of the phase-inverting switch 19 is opened, the transistor 20 is closed and the output of the rectifying bridge with the diodes 17 and 18 is open.

In the winding 8, an emf is induced, the value of which is chosen so that the voltage at the output of the rectifier 9 is less than the response threshold of the zener diode 11. The output voltage of the rectifier 10 is filtered by the filter 13 and applied to the circuit containing a resistor 12 and a diode 15, which results the current flow and the voltage drop across the diode 15 and the biasing of the thyristor control transition in the opposite direction.

When the input signal arrives (at the time point C, Fig. 2), the key is turned on and the full voltage of the AC source 1 is applied to the winding 5, and the emf, induced in the winding 8, increases. In this case, the voltage at the output of the rectifier 9 becomes greater than the threshold value of the Zener diode 11, it opens and a direct voltage applied to the control transition of the thyristor 1, equal to the difference of the voltages at the output of the rectifier 9 and the Zener diode 11. The diode 15 is locked, and The control electrode – cathode of the thyristor 1 circuits a control current.

Claims (2)

The thyristor opens in the course of time (Fig. 2), at the instant of time the process of opening the thyristor is completed and the potential of its anode decreases to several tenths of a volt, corresponding to the voltage drop across the thyristor. In this case, the transistor 21 is closed, and the transistor -20 opens, connecting the resistor 23 to the output of the rectifying bridge formed from diodes 17 and 18. As a result, a current begins to flow through the winding 16, reducing the resulting magnetic flux in the transformer core 6 , and the EMF in the winding 8. The ampere turns of the winding 16 are calculated so that when the transistor 20 is open, the rectified voltage at the output of the rectifier 9 is less than the threshold voltage of the Zener diode 11. At the same time, the control voltage U from the thyristor relieves and offline until t3 (FIG. 2), when the thyristor anode potential becomes positive again. When a control input signal Ug arrives) (at the time tc (Fig. 2), when a negative potential is applied to the anode of the thyristor 1h, there is a delay in the generation of the control signal until the time tg (Fig. 2), when the change of the polarity occurs voltage on the anode The application of the proposed device allows to increase the noise immunity of the control circuit of the controlled thyristor, since the possibility of applying the control voltage to the thyristor in the presence of a reverse voltage is completely excluded. the ability to minimize the control power allocated to the thyristor control junction, to improve the reliability and stability of the device.A invention The thyristor control device comprising a transformer, the input winding of which is connected to a square-shaped voltage generator and an output winding through a controlled transistor switch winding - to a bridge rectifier, the positive output of which through the threshold element is connected to the terminal for connecting the control electrode of the thyristor, the bypass element on the basis of the first diode, connected between the intermediate output of the alternating voltage source and the common connection point of the controlled key and the input winding of the transformer; -chain, the second terminal of which is connected to the negative terminal of the bridge rectifier and one capacitor plate, the second plate of which is connected to the middle point of the output winding of the transformer, ano A second diode and a terminal for connecting a thyristor cathode, differing in that, in order to increase its reliability, it is equipped with a phase inverting key with two transistors connected in series, the transformer is equipped with an additional output winding with a rectifier bridge at the output, to the positive and negative to the terminals of which the emitters are connected and through the first and second reactors the collectors of both transistors, and the base of the first Transistor is connected to the collector of the second transistor, the base of which is connected Nena via a diode to the emitters of both transistors and a terminal for connecting the cathode of the thyristor and at the same time through the third resistor - to the terminal for connecting the anode of the thyristor. Sources of information taken into account in the examination 1. I. Chizhenko and others. Fundamentals of the design technique. M. „197, p. 308. 2. USSR author's certificate M-, cl. H 02 M 1/08, 1978. tfft t Th // f. 0fffJ