SU1683121A2 - Device for protection of autonomous voltage inverter - Google Patents

Abstract

The invention relates to electrical engineering, and can be applied in protection devices for valve converters. The goal is to extend-functionality by providing protection or unsuccessful switching in overcurrent. The goal is achieved by the fact that in the event of a rise in current in one of the inverter 3 or 4 arms, the third 21 or fourth 22 additional threshold element triggers threshold elements 5 and 6, resulting in AND 7 and 8 from the first and second elements through OR 10 and 11, signals are received at the switching unit 12 and at the control unit 9, which results in the removal of all signals from the output of the control unit 9 and the operation of the switching unit 12, the Inverter is locked. In the case of a rising current with a steep edge, the first 17 or the second 18 additional threshold element is triggered, and this blocks the output of the first element 7. Thus, the signal to start the switching unit 12 is inhibited, This removes the signals from the control unit 9. As a result, control signals are removed from the inverter and the switching is not carried out. In this way, unsuccessful switching is prevented. 1 il. (Ls

Description

The invention relates to electrical engineering, can be used in the protection devices of valve converters and is an improvement of the invention by ed. No. 1203630.

The aim of the invention is to expand the functionality by providing protection against unsuccessful switching overturned inverter.

The drawing shows the functionality of a circuit diagram of a device for protecting an autonomous voltage inverter.

The device contains current sensors 1 and 2 by the number of inverter arms connected in series to the corresponding arms of inverter 3 and 4, and outputs connected to the inputs of the corresponding threshold elements 5 and 6, the first element And 7 and the second element And 8, the output connected to the corresponding input of the block 9 of the control, the corresponding outputs of which are connected to the control inputs of the arms 3 and 4 of the inverter and to one of the inputs of the first and second elements OR 10 and 11, the outputs of which are connected to the corresponding inputs of the switching unit 12, connected to the inverter’s arms, shunted by the power diodes 13 and 14 according to the number of inverter arms, the first 15 and second 16 differential amplifiers, the inputs connected to the outputs of the corresponding current sensors 1 and 2, and the outputs through the first 17 and second 18 additional threshold elements to the corresponding inputs of the first Element And 7, the output of which is connected to other inputs of the first 10 and second 11 elements OR. The load 19 is connected to the output of the inverter, and the source 20 of the supply voltage to the input of the inverter and the power input of the switching unit 12. The inputs of the third and fourth 21 and 22 additional threshold elements are connected to the corresponding current sensors 1 and 2, and their outputs and outputs of the threshold elements 5 and 6 are connected through the corresponding diodes 23-26 to the corresponding inputs of the first 7 and second 8 elements I.

The device operates as follows.

The shoulders 3 and 4 of the inverter are switched alternately by signals from the control unit 9. Before turning on the next arm, the previous one is turned off by applying a signal to 5 switching unit 12, which is launched from control unit 9 through OR elements 10 and 11. In normal modes, there is no signal at the output of switching unit 12, since one of the sensors 1 or 2 of the signal current 10 no, and the magnitude of the operating current does not exceed the limit value. When the operating current increases to a limit value that the switching unit 12 can still turn off, for example, a third additional threshold element 21 is triggered, and a signal arriving at the output of the switching unit 12 comes through the elements OR 10 and 11, which disconnects the conducting arm 3 or 4, The signal from the output of the first 20 element And 8 in this case is fed to the corresponding input of the control unit 9 and removes all its output pulses. The inverter shuts down. If the slew rate of the working current is high, then the signal from the 25th output of the amplifier 15 and 16 leads to the operation of additional threshold elements of the first 17 or second 18 having inverse outputs, which does not allow the first element And 7 to operate, and an extraordinary 30 switching is not performed. The operation of the second element And 8 in this case also leads to the removal of all output pulses from the control unit 9.

Claims (1)

Claim 35 Device for protecting an autonomous voltage inverter according to ed. St. No. 1203630, characterized in that, in order to expand the functionality by providing protection against unsuccessful switching of the overturned inverter, it is equipped with a third and fourth additional threshold elements and four diodes, the inputs of the third and fourth additional 45 threshold elements being connected respectively to the outputs of the current sensors, and their outputs and the outputs of the first and second threshold elements through the corresponding diodes are connected to the corresponding inputs 50 of the first element I.