SU1272427A2 - Method of controlling thyristor voltage inverter - Google Patents

Abstract

This invention relates to electrical engineering and can be used in static converters. The aim of the invention is to improve reliability. If, as a result of the switching process, the time of excess of current in the circuit of switching thyristors over the load current causes the delay time of nodes 18 (17) equal to the turn-on time of the power thyristors, this indicates that the turning on of the power thyristor 3 (or 2) did not occur, the signal to the output of the delay nodes 18 (or 17) does not pass and does not turn on the trigger 13 (or 12), does not allow the opposite of the power thyristor to be switched on, if it did not occur (L 1 il.

Description

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The invention relates to electrical engineering, can be used in converters of direct voltage to alternating voltage and vice versa, and is an improvement of the method according to the author. St. No. 951634.

The purpose of the invention is to increase reliability.

The drawing shows a diagram of a thyristor inverter, realizing the proposal .; my way.

The thyristor inverter contains a constant voltage source 1, power thyristors 2 and 3, diodes 4 and 5, nodes 6 and 7 with switching thyristors, current transformer 8 in the switching thyristor circuit, load current transformer 9, comparators 10 and 11, triggers 12 and 13, the elements 14 and 15, the control signal generation unit 16, the delay nodes 17 and 18.

Source 1 is connected to an inverter, the power part of which consists of power thyristors 2 and 3, diodes 4 and 5, nodes 6 and 7 with switching thyristors.

The drawing shows a single-phase null inverter circuit, or a single phase multi-phase inverter. Control pulses applied to the power thyristors cause their alternate switching on, which leads to the conversion of a constant voltage to an alternating voltage and vice versa. Before turning on the opposite to the switched off power thyristor 2 or 3, the switched off power thyristor 3 or 2 must be turned off. This is achieved by means of nodes 7 or 6 on switching thyristors by supplying control signals from block 16. Transformer 8 measures the current in the circuit of switching thyristors, and transformer 9 measures the load current.

Comparators 10 and 11 compare the values of the switching thyristor circuit current and the load current. If the current in the circuit of the switching thyristors exceeds the load current, the comparators 11 or 10 send a signal to the delay nodes 18 and 17, which through

the time to ensure reliable shutdown of a power thyristor being turned off 3 or 2, gives a signal that turns off triggers 13 or 12. Triggers 13 or 12 feeds an output signal to an input of elements 15 and 14, preparing the latter for passing a pulse to the opposite power thyristor 2 or 3 from block 16. After the pulse has passed, trigger 13 or 12 is reset, but to the falling edge of the same pulse.

If, as a result of the switching process, the time exceeding the current in the circuit of switching thyristors over the load current is shorter than the delay time nod; 18 or 17, equal to the turn-on time of the power thyristors, this indicates that the turn-on of the switched-on power thyristor 3 or 2 did not occur, with

0 the signal to the output of the delay nodes 18 or 17 does not occur and does not turn on the trigger 13 or 12, thereby preventing the opposite of the switched-off power thyristor from being turned on, unless iy; io completely turning off the switched off power thyristor.

The use of the invention will improve the reliability of the inverter by eliminating short circuits along the power thyristor circuit and the subsequent disconnection of the protective equipment of the inverter.

Claims (1)

Invention Formula Control method thyristor voltage inverter auth. St. N ° 951634, characterized in that, in order to increase reliability, the signal of overcurrent in the circuit of switching thyristors over the load current, allowing the next control pulse to reach the opposite power thyristor, is delayed by a time 0 equal to the time off of the power thyristor.