SU936198A1 - Device for protecting thyristorized voltage inverter - Google Patents

Description

one

The invention relates to electrical engineering and can be used for building control and protection systems for thyristor converters.

A device for protection of a thyristor voltage inverter is known, which contains elements for forming a prohibition of control pulses and commands for switching on the thyristors of the circuits of the--switching 1.

The disadvantage of this device is the simultaneous removal of control pulses from all thyristors (main and switching inverters, which may not be sufficient for normal shutdown of the thyristor voltage inverter.

The closest in technical essence and the achieved result to the invention is a device for protection of thyristor inverter and artificial commutation, containing sensors, automatic switching unit C AfIB}, an actuator consisting of a thyristor switch with capacitive switch included in the inverter supply bus interrupting circuit in the form of serially connected pre-charged capacitor, throttle and extinguishing thyristor connected in parallel to the thyristor 10. a key, and a circuit with a thyristor recharging the aforementioned capacitor, an element of summing up the commands for turning on the inverter on the operational turn-on and reclosing signals, an element of summing up the commands to turn off the inverter on signals of an operational off and sensor signals, the first trigger and the delay element,

Claims (1)

20 wherein the inputs of the AR, the delay element and the extinguishing thyristor control unit are connected to the protection sensors, the output of the delay element is connected to the control unit of the recharge thyristor 23 This device has disadvantages of the above device and, moreover, simultaneously removing the prohibition of control pulses for the main devices , switching and key thyristors on the commands for automatic reclosing and quick switching on without preliminary preparation of the switching capacitance may be the cause of unstable switching on of the inverter. The purpose of the invention is to increase reliability by ensuring guaranteed shutdown of the main thyristors in the presence of counter-emf in the load, as well as by increasing the stability of the inverter switching on during automatic reclosing and operative switching on. The goal is achieved by the device for protection of the thyristor sleep voltage inverter with an additional delay element, second and third triggers and two AND-NOT elements, with the output of the second trigger connected to the control unit of the switching thyristors, the first input of this trigger is connected via an additional element delays to the summing element of the commands to turn off the inverter, and the second to the output of the summing element of the commands to turn on the inverter and to the first input of the third trigger, the second input of which Through the first element, the NAND is connected to the inverter thyristor control units, the output of the third trigger is connected via the second NAND element to the second input of the first trigger, the second inputs of the NAND elements are interconnected and connected to the output of the switching thyristor control unit. The drawing shows a diagram of the proposed device. The circuit contains a pulse-phase control unit for the inverter 1 valves, an output connected respectively to the control electrodes of the inverter valves 2-7 and a pulse phase-phase control of the switching valves 8, outputs connected respectively to the control electrodes of the switching valves 9 - I6j control unit 17, the thyristor switch 18, the control unit 19, the extinguishing thyristor 20, the anode of the switch 18 connected to the anode, and the cathode through a series-connected capacitor 21 and the choke 22 to the cathode of the switch 18, the control unit 23 thyristor recharge and 2k, anode connected to extinguishing thyristor cathode 20, cathode to key cathode 18. Input of control unit 23 through delay element 25 is connected to input of automatic reclosing unit 2b and one input of summing command for disconnecting 27, output connected to input An additional delay element 28 and to one input of trigger 29, the output of which is connected to one input of the element IS-NOT 30, the other input of which is connected to one input of the element NAND 31, another input connected to the output of trigger 32. One input of the trigger 32 is connected to about the first trigger input 33 and to the output of the summation command for switching on 3 Another trigger input 33 is connected to the OUTPUT of an additional delay element 28, and the output is connected to the input of the pulse-phase control unit by switching the gates 8, the corresponding output of which is connected to the main and main inputs connected together Additional elements AND-NOT 30 and 31. The output of additional element AND-NOT 30 is connected to another input of the trigger 32. The input of the pulsed-phase control unit 1 is connected to the input of the correcting unit 17 and the output of the trigger 29. Output d reclosure unit 2b is connected to one input of a summing element to switch 3, another input of which is adapted to switch on the input signal. The input of the control unit 19 is connected with one input of the summation element of the trip commands 27 and the input of the AR unit 26. The device operates as follows. The signal of the protection sensors through the command summing node to turn off 27 switches the main trigger 29, which prohibits the generation of control pulses by the pulsed-phase control unit. Inverter 1 and control unit 17. At the same time, the control unit 19 generates a pulse to turn on the extinguishing thyristor 20. 18 is locked and the emergency current of the inverter is broken. The protection signal triggers the main 25 and additional 28 delay elements and the AR / 2 block, impulses the output of the main delay element 25 through the control unit 23, turns on the recharge 2k thyristor, and the additional delay element 28 switches the inverter frequency to the state in which its output level prohibits the operation of the pulsed-phase control unit by the switching gates 8. The operation of the pulsed-phase control unit is also prohibited by the operative shutdown signal audio rectifiers of the inverter 1 and after a delay of time block pulse-phase control switching rectifiers 8, and the inclusion of quench thyristor 20 of the main cell 25 and reclosure Derzhko unit 2b is not produced. The on-line or auto-reclose signal through the command summing node for switching on 3 switches the triggers 32 and 33. In this case, the output level of the trigger 33 is a pulsed-phase control unit of the switching element that allows the control element to generate control pulses AND-NOT 31, the level of the second additional three hera 32 is present. Therefore, the first of the sequence of pulses of the block of the impulse of the new phase control by the switching valves 8 arrives at the second input of the additional element -HE 31 ensures the coincidence of the signals at the inputs of this element and the pulse switching from its output of trigger 29, the output level of which is allowed by the pulse-phase control unit of inverter 1 valves for generating control pulses. After switching the trigger 29, a pulse is also generated by the control unit 17 to turn on the valve wrench 18. The positive technical effect of the proposed device is to increase the reliability of the inverter by ensuring that the main thyristors are turned off The Iri inverter has a counter-emf load by providing additional time for the operation of the switching thyristors for two to three periods of the inverter frequency after the introduction of the prohibition of control pulses for the main thyristors and the thyristor switch, as well as to increase the stability of the inverter in the starting modes. The invention The device for protection of a thyristor voltage inverter with artificial commutation, containing sensors, an automatic reclosing unit (AR), included in the inverter power supply bus, is an oscillating switch consisting of a thyristor switch with a capacitive interrupting circuit in the form of serially connected pre-charged a capacitor, a throttle and an extinguishing thyristor connected in parallel with the thyristor key, and a circuit with a thyristor to recharge the capacitor, the summation element and on switching on the inverter via the hot start and reclosing signals, the element of summing up the commands to turn off the inverter using the quick disconnect signals and the sensor signals, the first trigger and the delay element, with the inputs of the AR, the delay element, and the dimming thyristor control unit connected to the protection sensors, output The delay element is connected to a recharging thyristor control unit, so that, in order to increase reliability, it is equipped with an additional delay element, second and third triggers and two I-NOT elements, the output of the second trigger is connected to the control unit by switching thyristors, the first input of this trigger is connected via an additional delay element to the command sum element hia off the inverter, and the second to the output of the sum element of the command to turn on the inverter and to the first input of the third trigger, the second input of which is connected through the first element AND-NOT to the inverter thyristor control units, the output of the third trigger is connected through the second element AND-NOT to the second the input of the first trigger, the second inputs / s of the element AND-NOT are interconnected and are connected to the output of the switching thyristor control unit. Sources of information taken into account in the examination 936.1988 I. USSR Author's Certificate No. 208091, cl. H 02 H 7/12, 19652. Development and implementation of high-speed protection systems for power S converter devices. Abstracts of reports and messages. M., T Zhpromelektroproekt, 1975, p. 13-16.