SU743110A1 - Device for emergency protection of m series-connected power-diodes - Google Patents

Description

The invention relates to power conversion technology and can be used in high voltage .. thyristor valves for electric _ direct current transmissions.

A device for controlling series-connected valves is known, in which each of the series-connected valves is shunted. a resistor or an RC circuit, and signal elements, such as lamps, are connected between the connection points of the valves and the connection points of the shunt R (RC) circuits [1].

The closest in technical essence and the achieved result to the invention is a device for monitoring hi series-connected valves containing non-linear voltage limiters. 20 each of which shunts one of the valves, measuring resistors and a signal unit [2].

The disadvantages of the known device include the need for shunting of each of the series-connected valves with an R (RC) circuit, which leads to a complication of the converter, a decrease in its reliability and to additional losses, as well as the requirement30 of accurate bridge balancing with serviceable valves, which is difficult to do, how balancing is necessary when the converter is operating, i.e., under high working tension.

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

This is achieved by the fact that each of the measuring resistors shunts one of the chain of (n + 1) valves, and the signal unit is connected in parallel with this chain of (n + 1) valves, where η is' (1 / 10-1 / 20) from w.

The drawing shows a diagram of the proposed device.

The device contains measuring resistors 1 connected in parallel (n + 1) to valves 2 of the total number of series-connected valves 3, protected by non-linear voltage limiters 4. Signal circuit 5 is connected to measuring resistors 1.

The device operates as follows.

Under normal conditions, when all the valves are operational, for a chain of series-connected valves 3, protected by non-linear limiters 4, it is always possible to ensure that the operating voltage is applied to m— (n + 1) valves 3, not connected by resistors' 1. This is achieved by choosing the value of the measuring resistors 1 so that the leakage resistance of the valves 3 and nonlinear limiters 4 would be significantly higher than the resistances of the measuring resistors 1. Moreover, the voltage across the measuring resistors 1 is close to zero.

When standing up 1-p valves 3, part of the operating voltage will be applied to the valves 2 connected by resistors 1, which will trigger the signal circuit 5.

Thus, the proposed device allows you to receive a signal about the failure of a given number (1-p) of the total number of series-connected valves protected by non-linear voltage limiters. In this case, in contrast to the known devices, only part (n + 1) of the total number of valves is shunted by measuring resistors, which increases the reliability and efficiency of the converter. The adjustment of the device is also facilitated and its accuracy is increased, since the level of switching is regulated by the magnitude of the voltage across the measuring resistors without first balancing the measuring circuit.

Claims (1)

Claim A device for monitoring serially connected valves, containing non-linear voltage limiters, each of which shunts one of the valves, measuring resistors and a signal unit, characterized in that, in order to increase reliability, each of the measuring resistors shunts one of the chain (n + 1) valves, and the signal unit is connected in parallel with this chain (n + 1) of valves, 20 where n is (1 / 10-1 / 20) of t.