SU1293806A1 - Device for checking conditions of three-phase bridge converter thyristors - Google Patents

Abstract

The invention relates to electrical engineering and can be used to diagnose and protect three-phase converters made according to a bridge circuit. The aim of the invention is to simplify the device, reducing its mass, size and cost. In the case of direct breakdown of the thyristor 3, at the output of isolation element 1 a logical "O" appears, and at the output of a current sensor connected to the second input of the element 10, a logical "1. The first and third inputs of the element And 10 receive "1 from the load current sensor and the element AND-NOT 17, respectively. As a result, at the output of the element BANGE 5 appears "1, which indicates breakdown of the thyristor 3. Reverse breakdown of the controlled thyristor 3 is possible when the thyristor adjacent to it is THIS phase and the operation of the thyristors of the other two phases of the converter. In the first case, “1” appears at the output of the BANNER 11 element, and in the second, at the output of the And 12 element. In the first case, “1”, corresponding to the reverse direction of the current in the thyristor 3, and on the second - “O from the load current sensor, since the current in the load is zero in this case. In the second case, “1 at the first input of the element And 12 carries information about the flow of reverse current in thyristor 3, and“ 1 at its second input - about the presence of current in all three phases of the converter. The output of the NAND unit 17 is connected to the third input of the And 10 element to eliminate a false signal about the direct breakdown of the thyristor 3, when it does not work, but the reverse breakdown occurs of the thyristor of the same phase adjacent to it. In the case of a break in the thyristor 3, the first input of the element I 9 from the output of the output element I through the delay element 6 enters "1, from the corresponding output of the current sensor 21 through the pulse shaper to the first input of the trigger 8 -" O, which gives "1 on the inverse the output of this trigger and the second input element AND 9. The installation of the trigger 8 in this state is accomplished by applying "1 to the second input from the output of the isolation switch 2 of the thyristor of the next phase switching order. 1 il. (L N0 CO from 00 o 05, From the current sensor Z f load

Description

The invention relates to electrical engineering and can be used to diagnose and protect three-phase converters made according to bridge circuits.

The aim of the invention is to simplify the device, reducing its mass, size and cost.

The drawing shows the functional diagram of the device.

The device for monitoring the state of the thyristor of the bridge converter contains the first 1 and second 2 isolators, the inputs of which are respectively connected to the control transitions of the monitored thyristor 3 and thyristor 4 following the order of the phase of the same group of valves, the first element BANNER 5, the first element 6 delays, pulse shaper 7, trigger 8, the first input of which is connected to the output of the pulse shaper 7, and the second to the output of the second element 2, the first two-input element AND 9, the first input of which connected to the output of the delay element 6, and the second to the inverse output of the trigger 8, the three-input element 10, the second element BAN 11, the second two-input element 12, three shunt 13, 14 and 15, the second delay element 16, the element I- NOT 17, three elements OR 18, 19 and 20, three current sensors 21, 22 and 23 and a load current sensor 24. The input of each I of three current sensors 21, 22, 23 is connected to a shunt 13 (14, 15) connected between the phase output of an alternating voltage source IL (B, C and phase output of the converter Uafe, cj. One output of current sensor 21 combined with the first input of the three-input element AND 10, with the input of the imaging unit 7 pulses and one input of the element OR 18, the second output combined with the direct input of the second element BAN 11, the first input of the second two-input element AND 18, as well. The second input of the three-input element And 10 is combined with the input of the second The delay element 16 and the output of the NAND 17 element, whose inputs are connected to the outputs of the OR elements 18, 19 and 20, the output of the three-input element AND 10 is connected to the direct input of the first BANE 5 element, and the output of the second delay of the 16 delay 16 the second input of the second two-input element And 12.

The device works as follows. In the case of direct breakdown of the thyristor 3, the “O” goes to the inverse input of the first 5 BANNER element through the 1 junction, as the voltage at the control junction drops to zero, to the first input of this element is fed “1” as a result of the “1” to all three the input of the three-input element And 10 (from the load current sensor from the output of the current sensor 21, the presence of a signal which corresponds to the forward direction of the current in the thyristor 3, and from the output

I-NE 17), and “1” appears at the output, indicating a direct breakdown of the thyristor 3.

If thyristor 3 was reversely broken (when reverse voltage was applied to it), when the adjacent thyristor of the second group of valves and the thyristor of a different phase of the same group of valves were working, then a short-circuit current flows through the thyristor 3 and the thyristor of the same group the current in the load decreases to zero. As a result, the direct input of the second element BANCH 11 is received “1, and its second input -“ O, which gives the output “1, indicating the opposite

the breakdown of the thyristor 3 during the operation of the thyristor of the second group of valves of the same phase of the converter.

When the reverse breakdown of the thyristor 3 occurs during the operation of the thyristors of the other two phases of the converter, then

the first input of the second two-input element And 12 comes "1 from the output of the current sensor, the presence of a signal which corresponds to the reverse direction of the current in thyristor 3, the second -" 1 from the output of the second delay element 16, to the inverting input of which goes "O, indicating current in all three phases of the converter. As a result, the output of the second two-input element And 12 appears "1, indicating the reverse breakdown of the thyristor 3, when the thyristors of the two phases of the converter work. The connection of the output of the NAND element to the third input of the three-input element I 10 is necessary for the elimination of the false signal of the direct breakdown of the thyristor 3, when it is not

it works, and the reverse breakdown of the thyristor adjacent to it of the same phase of the converter occurs. The second delay element 16 is needed to eliminate the false signal about the reverse breakdown of the thyristor during the switching of the thyristors in two successive phases. At the same time, the delay element setting must be at least the switching time. The outputs from the second element 11 of the BAN and the second two-input element And 12 can be used separately or combined through the element OR.

If the thyristor 3. has a break type failure, then when a control pulse arrives, the current does not flow through it and to the first input of the trigger 8 an installation

the pulse is not supplied from the inverted output of the trigger 8 to the second input of the first 9 element And it sounds "1, due to the fact that the second input of the trigger 8 has a reset pulse from the output of the second isolating element 2 at the moment of switching on the thyristor 4 of the next order of the phase switching ; At the first input of the first 9 element, And through the first 6 delay element is fed "1, with the result that" 1 is output,

indicating a breakage type fault.

During normal operation of the converter, after the control pulse is applied to the thyristor 3, a current flows through the latter. From the output of the first element 1 of the disconnection to the inverse input of the first 5 elements of the BANCH, 1 is received due to the fact that the voltage drops at the control transition of the thyristor 3. The “1” output of the three-input element I 10 also goes to the direct input of the same ELEP in the same way as all its inputs receive signals in the form of logical “1” from the load current sensor from one output of the current sensor 21 (signal about the presence of direct current in the controlled thyristor 3) and from the output of the element AND-NOT 17. The last signal indicates that no current flows in one of the phases of the converter. As a result, “O at the output of the first element BANGE 5 indicates the absence of a direct probe thyristor 3.

At the same time, the direct input of the second element BANGE 11 and the first input of the second two-input element I 12 is received “O (signal about the absence of reverse current in the controlled thyristor), and the second inputs -“ 1 and “O, respectively, which gives their outputs“ Oh, indicating the absence of a reverse thyristor 3.

When a direct current appears in the thyristor 3, a pulse generator 7 is pulsed at the first input of trigger b, at the inverse output of which is set "O. This signal is fed to the second input of the first element AND 9, the first input of which comes "1 s from the control transition of the thyristor 3 through the 1 isolation element and the first delay element 6. This leads to the presence at the output of the first 9 element AND “O, indicating the absence of a break in the thyristor 3.

When the thyristor of the second valve group of the converter is controlled, the outputs of the current sensor 21 are reversed by purpose, i.e., the presence of a signal at the upper output corresponds to the forward direction of current in the monitored thyristor, and at the lower, to the reverse. The second decoupling element 2 used to control the thyristor 4 used in this unit performs the same role as the first decoupling element 1 of the thyristor 3 monitoring, and the first decoupling element of the previous phase controlling the thyristor performs the same role , as well as the second 2 in the control of the thyristor 3.

The presence of four outputs allows, by putting them on the display unit and turning off, to determine the type of thyristor malfunction after turning off the converter due to the same signals.

VNIIPIZakaz 393/57 Circulation 619 Subscription

Production and printing company, Uzhgorod, st. Design. four

Claims (1)

The invention The device for monitoring the state of the thyristors of a three-phase bridge converter, containing current sensors of thyristors, tori, the first and second elements of isolation, the inputs of which are intended for connection to the control transitions, respectively, of the controlled thyristor and the thyristor of the next order phase of that the same group of gates, and the output of the first decoupling element is connected to the input of the first delay element and the inverse input of the first element BANGE, the driver of short pulses, the output of the switch Connected to the first input of the trigger, the second input of which is connected to the output of the second isolation element, and the inverse output of the trigger is connected to the first input of the first two-input element And, the second input of which is connected to the output of the first delay element, and the outputs of the first two0 input element And and the first element The BANCH is connected to the corresponding inputs of the display unit, characterized in that, in order to simplify the device, reduce its mass, size and cost, a load current sensor is inserted into it, 5 three-input element And, the second element BANGE, the second two-input element And, three shunt, the second delay element, element AND-NOT and three elements OR, and the input of each current sensor is connected to the shunt intended for switching between the phase output of the alternating voltage source and the corresponding phase output of the converter, one output of the current sensor, the presence of a signal which corresponds to the forward direction of the current 0 five in controlled thyristor, combined with the first input of the three-input element And, with the input of the short pulse generator and one input, respectively OR, the second output of the current sensor, the presence of a signal on which corresponds to the reverse direction of the current in the controlled thyristor, is combined with the direct input of the second element BANGE and the first input of the second two-input element And, as well as with the second input of the said OR element, the second input of the three-input AND element is connected 5 with the inverse input of the second element ZA-TIPET and with the output of the load current sensor, the third input of the three-input element AND is combined with the input of the second delay element and the output of the NAND element, whose inputs are connected to the outputs of the OR elements, the output of the three-input element AND is connected to the right the input of the first element BANNER, and the output of the second delay element - with the second input of the second two-input element AND, whose output and output of the second element BANGE are connected to the corresponding inputs of the display unit. 0