SU915163A1 - Converter protection method - Google Patents

Description

The invention relates to electrical engineering, in particular to converter equipment, and can be used in protection circuits of thyristor converters.

There is a method of protection of thyristor converters, which consists in the fact that, by an alarm signal, the converter is turned off [1].

The disadvantage of this method is low reliability.

The closest in technical essence and the achieved result to the proposed is a method of protecting a converter consisting of a rectifier supplying several inverters, in which the alarm signal of any inverter turns off the rectifier for a specified prohibition time (2).

The disadvantage of this method is low selectivity.

The purpose of the invention is to increase reliability.

This goal is achieved by recording the alarm signal and blocking the recording of signals from other inverters for a specified prohibition time.

. expiration of the prohibition time within the specified time control

the number of signals from this inverter is repeated, repeating the above actions with each signal, and

When a certain number of signals are reached, the inverter is turned off, and after the monitoring time expires, all records are erased.

The drawing is a block diagram

10 explaining the protection method of the converter, consisting of a rectifier and two inverters (A and B).

The block diagram contains a logical element OR 1 and two elements 2. and 3 matches, two triggers 4 and 5 with separate inputs, two counters b and 7 pulses, two time delay shapers — single vibrators 8 and 9, and shaper 10 of the signal.

2θ'One input of the first element OR 1 is connected to the first input of the coincidence element 2. Another input of element 1 is connected to the first input of element 3. The output of element 2 is connected to the first input of the trigger 4, the output

²⁵ element 3 is connected to the first input of the trigger 5. The output of the element 1 is connected to the input of the one-shot 8, the output of which is connected to the driver 10 and the one-shot 9. The output

30 driver 10 is connected to WTO3

915163

four

Eye inputs of the flip-flops 4 and 5. The output of the one-shot 9 is connected to the installation inputs of counters 6 and 7, the counting inputs of which are connected to the direct outputs of the flip-flops 4 and 5, respectively. The inverse output of the trigger 4 is connected to the second input of the coincidence element 3, the inverse output of the trigger 5 is connected to the second input of the coincidence element 2.

The alarm signals from inverters A and B are fed to the corresponding inputs of the element OR 1 and the first inputs of elements 2 and 3 of coincidence. The signal that came first (suppose it is a signal from inverter A), passing through the element OR 1, starts the one-shot 8, before the arrival of this signal, the triggers 4 and 5 were in the initial state, which corresponds to the signal “1” on their inverse outputs connected to the second inputs of elements 2 and 3 matches. Therefore, the alarm signal from inverter A passes through element 2 and changes the state of trigger 4. As a result, an inverse output of trigger 4 shows a '' 0 '' which prevents the alarm signals of inverter B from passing through element 3 of coincidence. This blocks the passage of signals from inverter B to the recording channel corresponding to this inverter, formed by trigger 5 and counter 7. The signal "’ ι ’’ from the direct output of the trigger enters the counting counter 6 and is stored in it. The output signal of the one-shot 8 starts the one-shot 9 and enters the executive circuit as a command to turn off the rectifier for the duration of the inhibit, determined by the duration of this signal. At the time of the end of the signal · at the output of the one-shot 8, the shaper 10 on the trailing edge of this signal generates a signal that sets the trigger 4 to its original state. At the end of the prohibition time interval, the rectifier is switched on again and the monitoring time begins, which is carried out by the difference of the exposure time intervals between the formers 9 and 8. If before the time expires

control will repeat the arrival of alarm signals from inverters A and B, then the signal received first, after passing through the element OR 1, will restart the one-shot 8 and change the initial state of the trigger of the corresponding recording channel. In the case when the first signal of the alarm again is the signal from inverter A, the signal '' 1 '' from the direct output of the trigger 4 will again arrive at the counting input of counter 6, and if the counter has a capacity of two, then the output of its signal '' 1 '', which serves as a command to turn off the inverter A. If after rectifier is turned on again in the monitoring time interval, the signals from the inverters do not arrive, then the signal “O ¹ ” appears on the output of the one-vibrator | 9, which sets counters 6 and 7 to the initial zero state .

Claims (1)

Claim A protection method for a converter consisting of a rectifier that supplies several inverters, in which, by the alarm signal of any inverter, the rectifier is disconnected for a given inhibit time, which, in order to increase reliability, record the alarm signal and block the recording for a specified inhibit time signals from other inverters, and after the prohibition time has expired, for a given monitoring time, count the number of signals from this inverter, repeating the above steps for each signal and, when reaching The indicated number of signals turn off the inverter, and after the monitoring time expires, all records are erased.