SU1760595A1 - Breakdown tester for series-connected thyristors of high-voltage rectifiers in controllable valve-type converter - Google Patents

Abstract

The invention makes it possible to increase the reliability of the device in transient modes by additionally introducing two controllable keys for the largest number of controlled punctured thyristors, a diode and a delay pulse shaper consisting of an RC circuit time, output connected via a threshold element to the delay pulse shaper output , and through a serially connected discharge resistor and a switch to a common bus, the control input of the switch is connected to the input of a delay pulse former and via g iodine - with its output, the control keys of the power circuit are connected by the combined second outputs, respectively, of one, two or more thyristor sensors, and the corresponding inputs of the protection unit for connecting the output signals of one, two or more thyristors, the control input, controlled keys connected to the output of the delay pulse generator, connected to the output of the phase-impulse control unit. 3 il. cl

Description

The invention relates to electrical engineering, in particular to converter technology, and can be used in voltage, current or frequency converters for controlling the breakdown of series-connected thyristors in controllable gates of said converters.

One of the known devices contains a voltage divider connected in parallel to a chain of monitored series-connected thyristors, each of which is connected in parallel

RC-chain, sensor of one, two or more thyristors, inputs included in the diagonal of the bridge formed by the voltage divider and RC-chains, the sensor output is connected to the input of the protection and alarm unit.

The disadvantage of this device is that it does not control the monitoring of thyristors without supplying high-voltage power to the series-connected thyristors, as well as the low reliability of the device operation in transient modes, especially in high-voltage circuits.

designator x. characterized by a significant level of generated noise,

The closest to the technical essence of this invention is a device for monitoring the breakdown of series-connected thyristors of high-voltage gates in controlled valve converters, including a control system with a phase-pulse control unit and a high-voltage control pulse distributor, a signaling and shutdown unit of the converter, containing a thyristor probe sensor in each high-voltage valve, having output keys according to the number of steps to control the number of punched x thyristors, one outputs of the output keys of each sensor are combined and intended for connection to the output of a pulse distributor corresponding to the control of a high-voltage gate of the opposite group of the same phase, other outputs of the output keys of sensors of various high-voltage gates corresponding to the same degree of control of the number of punched thyristors are combined, memory elements according to the number of steps to control the number of punctured thyristors, the outputs are intended to be connected to the corresponding inputs alarm and disconnect the converter.

A disadvantage of the known device is low reliability, since with a wide 120 PLN. hail, the control pulse of the high voltage valve, which is formed at the output of the pulse distributor, it is impossible to ensure sufficient noise immunity of the device, especially in transition modes with a rapid change in the phase of the control pulses. This can be associated with a high level of noise generated in high-voltage controlled valve converters, and with significant valve switching angles in transient conditions:

In addition, the transient process in the actual sensors of the breakdown caused by switching off the high-voltage valve or switching processes in other high-voltage valves does not have time to end by the time of the formation of the closed state signal of the thyristors of the corresponding high-voltage valve, which led to the formation of a sensor false alarm about pro thyrosisthir

The purpose of a personal invention is to evaluate the reliability of the operation of the device. .

The goal is achieved by the fact that in a device for controlling the breakdown of series-connected thyristors of high-voltage gates in controlled

valve converters that include a control system with a phase-pulse control unit and a pulse control distributor for high-voltage valves, an alarm and shutdown unit

0 converter containing a probe of thyristors in each high-voltage valve, having output keys according to the number of steps controlling the number of punctured thyristors, one output of the output keys

5 of each sensor are combined and intended for connection to the output of a pulse distributor, appropriate control of a high-voltage gate of the opposite group of the same phase, other

0 outputs of the output switches of sensors of various high-voltage vents, corresponding to the same degree of control of the number of punctured thyristors are combined, memory elements are divided by the number of stages of control of the number of punctured thyristors, outputs intended for connection to the corresponding inputs of the alarm node and switch-off of the converter;

0 the number of stages controlling the number of punctured thyristors and the delay pulse shaper, which includes a diode, a discharge resistor, a bit switch, a threshold element and a time specifying an RC circuit, a output time of an RC circuit connected through a threshold element to the output of the delay pulse former, and successively connected bit resistor and bit switch - to the common bus, the control input of the bit switch is connected to the input of the delay pulse generator and, through the diode - to its output, controlled analog power keys second circuit connected between outputs obedi5 nennymi output stages of similar keys controlling the amount of punched thyristor breakdown sensors and the control inputs of the corresponding memory elements, a control input

0 controlled analog switches are connected to the output of the delay pulse shaper, the output intended to be connected to the output of the phase-impulse control unit.

five

FIG. 1 is a schematic electrical diagram of a device made in accordance with the present invention. in fig. 2 is a diagram of one of the possible options for building a thyristor sensor; in fig. 3 given the diagram of the device.

A device for controlling the sample of series-connected thyristors of high-voltage valves in controlled valve converters, including control system 1 with a unit 2 for phase-impulse control and distributor 3 control pulses for high-voltage valves 4-8 and 9, the node 10 for signaling and turning off converter, contain sensors 11 - 15 and 16 samples of thyristors in each high-voltage valve 4 - 8 and 9. having output keys 17 and 18 according to the number of steps to control the quality of punched thyristors, one output 19 output keys 17 and 1 8 of each sensor 11–15 and 16 are combined and intended to be connected to the output of a distributor of 3 pulses corresponding to the control of a high voltage gate of the opposite group of the same phase, other outputs 20 and 21 of the output switches 17 and 18 of various high voltage gates 11 to 15 and 16 corresponding to of the same level of control, the number of punctured thyristors is combined, the memory elements 22 and 23, by the number of stages, control the number of punctured thyristors, with outputs 24 and 25 intended for connection to the corresponding inputs 26 and 27 of the signal node localization and disconnection of the converter. In addition, controlled analog switches 28 and 29 are entered into the device according to the number of steps controlling the number of punctured thyristors and the shaper 30 of the delay pulses including a diode 31, the discharge resistor 32. the discharge key 33, the threshold element 34 and the time specifying the RC chain 35, output 36 the time of the RC master circuit is connected via the threshold element 34 to the output 37 of the delay pulse generator, and through the serially connected discharge resistor 32 and the discharge switch 33 to the common bus, the control input of the discharge switch l delay pulses and through the diode 31 - with its output 37, controlled analog switches 28 and 29 of the power circuit are connected between the combined inputs 20 and 21 of the output switches 17 and 18 of the same steps controlling the number of punctured thyristors of the probes 11-15 and 16 and control inputs 39 and 40 corresponding elements in the memory 22 and 23, the control input 41, controlled analog switches are connected to the output 37 of the delay pulse shaper, the input 38 intended to be connected to the output 42 of the unit 2 of the phase-pulse control

Memory elements 22 and 23 can be performed, for example, on relays 43 and 44 with corresponding contacts 45 and 46. Relay 43, which detects the breakdown of an unacceptable number of thyristors (for example, 2 or more thyristors), forms into system 1 the converter control through shutdown node 47 of the command to disable the converter. LEDs 48 and 49 fix the response of one and two thyristor sensors. Button 50 serves to unlock relays 42 and 43 of the memory elements.

At the outputs 51 - 55 and 56 of the pulse distributor, primary control pulses of high voltage gates 4 - 8 and 9 and, accordingly, closed state thyristor signals of the corresponding high voltage gates are generated. The control of the thyristors, respectively, is effected via pulse shapers (PI) 57.

Sensors 11–15 and 16 of breakdown (FIG. 2) can be constructed, for example, using a master oscillator 58 (high frequency voltage source), an output connected via serially connected separation matching transformers 59 and RC chains 60 to thyristors 61 connected in series. The output of the master oscillator is connected via rectifier 62 to one of the inputs of comparators 63 and 64, controlling respectively the breakdown of one and two thyristors. The other inputs of the comparators are supplied with voltage from the set points 65 and 66. The outputs of the comparators are connected via the matching optocouplers 67 and 68 to the sensor outputs 20 and 21, as well as to the corresponding outputs 19 and further to the outputs of the converter control system 1.

FIG. 3 accept the following notation:

69 - pulses at the output of the phase-impulse control unit;

70 - 75 - thyristor control pulses of the corresponding high-voltage converter valve;

76-81 is the voltage at the outputs 51-56 of the control system 1;

82 - voltage across the capacitor; time for a positive circuit 35 (Do - voltage of switching the threshold element);

83- voltage at the output of the delay pulse generator (pulses that block the operation of controlled analog switches 28 and 29);

84- signal at the output of 50 sensors sampling a single thyristor;

85 - signal at the output of 21 sensors sampling two thyristors.

A device for monitoring the sample of series-connected thyristors of high-voltage gates in controlled valve converters works as follows.

In the steady-state mode of operation of the converter, the phase of the output control pulses with thyristors (70-75) and the closed-state signals 76-81 of the thyristors of the corresponding high-voltage gate does not change. The pulses 69 at the output of the phase-impulse control unit 2 follow at equal intervals of time and the duration of the delay interval T of these pulses, determined by the driver 30, is constant. At each switch in the converter and synchronously with it, a pulse 83 appears at the output of the delay pulse shaper 30, blocking the passage of the signal through the controlled keys 28 and 29. This eliminates the triggering of the memory elements 22 and 23 with two stable states with false signals 84 and 85 at the output of sensors 11 - 15 and 16 samples. Pointing out other interference signals appear at each switching in the converter, and their duration depends on the switching angle and the rate of change of the phase of the control pulses. The voltage across the capacitor C, the timing of the driver circuit 39, is shown in FIG. 3, position 82. The diode 31 determines the minimum duration of the blocking pulse 83, which is equal to the duration of the pulses 69 at the output of the phase control unit 2.

In transients associated with changes in the phase of the control pulses of the thyristors of the controlled valve converter, the duration of the corresponding signals 84 and 85 at the outputs 20 and 21 of the breakdown sensors increases, which can lead to false triggering of the memory elements 22 and 23. However, in this The device has a low signal transmission probability for elements 22 and 23, since simultaneously with a change in the phase of the control pulses, an increase in the duration of the blocking pulse 83 at the output of the driver 30 of the delay pulses also occurs. This is due to the fact that the capacitor C, the time of the driving circuit 35, during the time determined by the long pulse 69 at the output of the unit 2 of the phase-impulse control, is discharged to a lower voltage level than the steady state. Therefore, after the end of the pulse 69 at the output of the block 2, the capacitor C of the system C to the voltage level U0 of switching

The boom element 34 occurs over a longer period of time than in the steady state.

This results in an increase in the duration of the pulses 83 at the output of the shaper 30 of the delay pulses. It is for these pulses that the controlled switches 28 and 29 are disconnected synchronously with each commutation in the converter, and thus

0, the passage of a signal to memory elements 22 and 23 with two stable states is blocked (relays 43 and 44). Increasing the duration of blocking pulses 83 in transients reduces the likelihood

5 passing the signal to the memory elements 22 and 23 during the post-switching period. At the same time, in the steady state operation of the converter, the duration of the blocking pulses 83 is insignificant, which is not

0 has a significant effect on the operation of the device for monitoring the sample of serially connected thyristors.

Thus, this device provides reliable control of the state of 5 thyristors in both transitional and established modes of operation of the converter.

The economic effect of using this invention consists of two

0 components.

The first of them is determined by the reliable operation of the device for controlling the sample of series-connected thyristors of high-voltage gates in a controlled

5 valve converter, which excludes disabling of the converter by the signal of interference in the process of its operation in the technological cycle. This component of the effect depends on the field of application of the transducer. So for converter type СЧРС-15750/630, used as an overclocking device for electric machine energy storage devices of the TOKAMAKA unit, the absence of false outages

5 gives an economic effect of about 60 tons. P. in year.

Another component of the economic efficiency of this proposal is determined by the fact that the device reliably detects the breakdown of thyristors in transient modes of operation of the converter, which eliminates the development of an emergency situation, leading, as a rule, to the breakdown of two thyristor blocks. The cost indicated

5 blocks, for example, for the converter of the type СЧРС-15750/630 together with the restoration work is about 30 tons, rubles.

Thus, the expected economic effect from the use of this

offer is 90 thousand rubles. per year for one high-voltage converter.

Claims (1)

Apparatus of the Invention A device for monitoring the breakdown of successively connected thyristors of high-voltage gates in a controlled valve converter, including a control system with an auxiliary power source, a unit for fero-impulse control and a distributor of control pulses for high-voltage gates, a signaling and shutdown unit high-voltage valves sensor thyristors, equipped with the number of steps to control the number of punctured thyristors output to The first pins of which are combined and intended to be connected to the output of a pulse distributor connected to the control electrodes of a high voltage voltage thyristor of the opposite group of the same phase, and the second outputs of the output switches of sensors of various high voltage gates of the number of punctured thyristors of the same name are combined , memory elements by the number of steps controlling the number of punched thyristors, outputs intended for connection to the corresponding inputs of the nodes The alarm and disconnection of the converter is different. that, in order to increase the reliability of the device in transient modes, controlled analog keys are introduced into it according to the number of steps controlling the number of punctured thyristors and blocking pulse shaper, made in the form of a diode, a discharge resistor, a discharge key, a threshold element and a time of the setting resistor and a capacitor, wherein the output of the threshold element is connected to the output of the blocking pulse generator and is connected via a diode to its input connected to the control input of the discharge key, which forms with the discharge resistor circuit connected between the common bus and the input of the threshold element, the time specifying the resistor and the capacitor are connected to the output of the auxiliary power source and the common bus, respectively, and the second terminals are connected to the input of the threshold element, and the combined second outputs output keys of the same steps to control the number of punctured thyristors of the sample sensors are connected to the inputs of the corresponding memory elements through the corresponding controlled signals. tax keys, the control inputs of which are connected to the output of the blocking pulse generator, the input of which is intended to be connected to the output of the block of the generator of control pulses. 61 61 Sensor probe 2ig. 2 FIG. 3