SU907677A1 - Protected converter - Google Patents

Description

The invention relates to the protection of powerful thyristor converters.

A known converter with protection, in which the output of the thyristor state sensor of each converter arm is connected to the control input of the PROHIBITION circuit included in the thyristor control circuit of the adjacent arm P].

The disadvantage of this device is the low reliability under load in the form of an induction motor.

Closest to the proposed is a converter with protection, containing a control system with control units of inverting and switching thyristors, an overload current sensor, a trip unit, state sensors of the arms of the converter of inverting thyristors, the outputs of which are connected to the blocking inputs of the PROHIBITION circuit installed in adjacent arms of the converter, and first inputs of coincidence circuits, the second inputs of which are connected to the outputs of the control unit of inverting thyristors, the blocking input of which through circuits, OR connected to the outputs of coincidence circuits [2].

However, this device is characterized by insufficient reliability.

The purpose of the invention is to increase reliability.

This goal is achieved by the fact that the OR circuit is made with two additional inputs, the first of which is connected to the output of the overload current sensor, and the second to the trip unit, and the output of the OR circuit is connected to the input of the switching thyristor control unit.

The drawing shows a block diagram of a device.

A three-phase converter (inverter) contains an input filter 1, six arms of inverting thyristors 2-7 "block 8 switching. In parallel with each arm, inverted thyristor arms state sensors 9-14 are installed, the inverter load is an asynchronous motor 15, the outputs of the status sensors are connected to the blocking input of the PROHIBITION 16-21 installed in the thyristor control circuits of the adjacent arm. The other output of each state sensor is connected to the first input of each of the six coincidence circuits 2227 and the thyristor control signal of the adjacent arm is supplied to the other input of each coincidence circuit. The outputs of the circuits 22-27 are connected to the inputs of the OR circuit 28, the output of which is connected to the blocking input of the control unit of the inverting thyristors 29 and to the input of the control unit of the switching thyristors 30 included in the converter control system 31. The OR circuit 28 contains two additional inputs, one of which is connected to the output of the overload current sensor 32, and the second to the external converter shutdown command unit 33.

In case of malfunction of the converter when the inverting thyristor arm is not turned off (for example, arm 2) or when it is turned on again through the anode, the signal from the output of the sensor 9 will go to the input of circuit 19 and block the control signal of the thyristors of adjacent arm 5 · At the same time, a signal appears on the output of circuit 23, which, having passed through circuit 28, will go to the blocking input of block 29, ensuring the removal of control pulses from all inverting thyristors, and to the input of block 30, which will lead to switching of the next arm 6 of the inverting thyristors ditch, as a result, the inverter will be disconnected from the negative bus of the power source.

if the inverter current exceeds the permissible level, the output signal

907677 4 sensors 32 will go to the input of circuit 28 and, acting on the control system 31, will cause accelerated switching mode, which will disconnect the $ converter from the power supply circuit. The signal to disconnect the inverter from block 33 acts on the converter in a similar way. The device allows to increase the reliability of the converter.

Claims (2)

This invention relates to the protection of high-power thyristor converters. A known converter with protection in which the output of the thyristors state sensor of each converter arm is connected to the control input of the BAN circuit included in the control circuit of the thyristors of the adjacent arm CO. The disadvantage of this device is low reliability under load in the form of an asynchronous motor. Closest to the present invention is a converter with protection comprising a control system with inverting and switching thyristor control units. An overload current sensor, a disconnect command block, inverting thyristor arm sensors, the outputs of which are connected to the blocking inputs of BANKS installed in adjacent the transducer's shoulders, and the first inputs of the coincidence circuits, the second terminals of which are connected to the outputs of the inverting thyristor control unit, blocking the input Wired through the OR circuit is connected to the outputs of the coincidence circuit 2. However, this device is characterized by insufficient reliability. The purpose of the invention is to increase confidence. This goal is achieved in that the OR circuit is made with two additional inputs, the first of which is connected to the output of the overload current sensor, and the second to the disconnecting unit, and the output of the OR circuit is connected to the input of the switching thyristor control unit. The drawing shows a block diagram of the device. Three-phase converter (inverter) contains an input filter 1, six shoulders of inverting thyristors 2-7I switching unit 8. Parallel to each shoulder, inverter thyristor arm state sensors are installed, the investor's load is an asynchronous motor 15; the state sensor outputs are connected to the blocking input of BANKS 16-21 circuits installed in the adjacent arm thyristor circuits. The other output of each state sensor is connected to the first input of each of the six coincidence circuits 2227 and the input of the thyristors of the adjacent arm is fed to the other input of each coincidence circuit. The outputs of circuits 22-27 are connected to the inputs of the OR circuit 28, the output of which is connected to the blocking input of the inverting thyristor control unit 29 and to the input of the switching thyristor control unit 30 included in the converter control system 31. The OR 28 circuit contains two additional inputs, one of which is connected to the output of the overload current sensor 32, and the second to the external command unit 33 for turning off the converter. If the converter malfunctions when the inverting thyristors is not switched off (for example, shoulder 2) or when it is switched on again by the anode, the signal from the output of sensor 9 will go to the input of circuit 19 and will block the control signal of the thyristors of the adjacent shoulder 5 At the same time, the output of the circuit 23, which, having passed through the circuit 28, goes to the blocking input of the block 29, ensuring the removal of control pulses from all inverting thyristors, and to the input of the block 30, which leads to the switching of the next arm 6 of the inverting thyristor However, as a result, the inverter will be disconnected on the negative bus of the power supply. In the event of an overcurrent of an acceptable level inverter, the signal from the output of sensor 32 is fed to the input of circuit 28 and, affecting control system 31, will cause an accelerated switching mode, which will lead to disconnection of the converter from the power supply circuit. The signal to turn off the inverter from the block 33 acts on the converter in the same way. The device allows to increase the reliability of the converter. Claims of the converter with protection comprising a control system with inverting and switching thyristor control blocks, an overload current sensor, a shutdown command block, inverting thyristor arm state sensors, the outputs of which are connected to the blocking inputs of the BANNER circuits installed in the adjacent converter arms and the first inputs coincidence circuits, the second inputs of which are connected to the outputs of the inverting thyristor control unit, whose blocking input is connected via the OR circuit to the outputs Matching circuits, characterized in that, in order to increase reliability, the OR circuit is made with two additional inputs, the first of which is connected to the output of the overcurrent sensor, and the second is connected to the disconnecting unit, and the output of the OR circuit is connected to the input of the switching thyristor control unit. Sources of information taken into account in the examination 1. The author's certificate of the USSR 587557, cl. H 02 H 7/10, 197. 2. The patent of Great Britain No. 1,287.989, cl. H 02 M 7 / 52.1972.