SU1073855A1 - High-voltage thyristor unit - Google Patents

Description

The invention relates to the field of electrical engineering and can be used in high voltage DC to AC converters ny and vice versa.

A high-voltage thyristor-5 block is known, which contains a chain of thyristors connected in series, each of which is equipped with a control unit and a source of negative bias [1]. 10

The disadvantage of this device is its complexity.

The prototype of this invention is a high-voltage thyristor block containing successively connected J5 thyristors, parallel to each of which is connected a series of two avalanche diodes connected by anodes, aligning resistors and control units, each of which is connected to the control junction of the corresponding thyristor [2].

However, the device is not sufficiently high efficiency, low noise immunity and complexity. In this device ² , a negative bias current flows through the thyristor control electrode only during surges of the forward voltage. With an implicit voltage value of 30, this current is absent and high noise immunity is not ensured. In addition, without bias, the direct leakage currents of the thyristors increase. When reverse 35 voltage is applied, the bias current becomes positive, the so-called transistor effect occurs, which increases the leakage currents - reverse. An increase in leakage currents leads to a decrease in efficiency and an increased heating of the valves. The latter reduces the reliability of the device.

The purpose of the invention is to increase the efficiency of reliability, noise immunity and 45 simplification.

This goal is achieved by the fact that in a high-voltage thyristor block containing series-connected thyristors, parallel to each of which is connected a series of two avalanche diodes connected by anodes, aligning resistors and control units, each of which is connected with -__ keys to the control transition of the corresponding thyristor, each of the alignment resistors is connected between the control electrode of one thyristor and the common connection point of the anodes of avalanche diodes - the next 60 detecting the current flow of the power thyristor and introduced two additional resistors, one of which is' connected in parallel with the first RC tiristo output anode terminal, and the other - the latter parallel avalanche diode thyristor last chain to the output terminal of the cathode _g.

The drawing shows a diagram of the device.

The high-voltage thyristor unit consists of thyristors 1 connected in series. Parallel to each thyristor are connected counter-series connected avalanche diodes 2, which form a cell with the thyristor. The control units 3 are connected to the cathodes and control electrodes of the thyristors 1. Each of the equalizing resistors 4 is connected by one output to the control electrode of the thyristor of one cell, and the other to the common connection point of the avalanche diodes of the next cell in the direction of the power current. Resistor 5 is connected parallel to the first cell, and resistor 6 is parallel to the last avalanche diode of the last cell.

The device operates as follows.

The thyristor unit is a key element used in a known manner to convert electrical energy of one type into another. To turn on the thyristor unit according to the signal supplied to the input of control units 3, the latter form pulses supplied to thyristors 1. Avalanche diodes 2 are selected with an avalanche voltage below the permissible voltage of thyristors 1, which allows protecting the thyristors from overvoltage.

In the closed state of the thyristors 1 when a direct voltage is applied, it is distributed evenly, thanks to resistors 4-6. In addition, in this state of the circuit, due to the indicated resistors, a negative bias current flows through the thyristor control electrodes. As a result, they decrease the direct leakage currents of thyristors, which reduces their heating, increases efficiency and reliability. There is also noise immunity, since a higher level of interference is required to turn on the thyristors. Unlike the prototype, the bias current flows all the time the forward voltage is applied and is absent when the reverse voltage is applied. It also reduces the reverse leakage currents _On Facilitation device is; that there is no need for BC * circuits and zener diodes.

VNIIIPI Order 375/52

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Branch of PPP Patent ”, Uzhhorod, st. Project, 4

Claims (1)

A HIGH VOLTAGE THYRISTOR BLOCK containing thyristors connected in series, parallel to each of which is connected in series with two avalanche diodes connected by ^: anodes, equalizing resistors and control units, each of which is connected to the control transition of the corresponding thyristor, distinguishing and th with me. in order to increase the efficiency, reliability, noise immunity and simplify the design, each of the alignment resistors is connected between the control electrode of one thyristor and the common connection point of the avalanche anodes, diodes subsequent in the direction of the current flow of the thyristor and two additional resistors are introduced, one of which is connected parallel to the first thyristor with an output anode terminal, and the other parallel to the last avalanche diode in the chain of the last thyristor, with an output cathode terminal.