SU1166249A1 - Device for controlling converter - Google Patents

Abstract

A DEVICE FOR CONTROLLING A CONVERTER containing a block of primary pulses, gate return sensors are intended to be connected in series with converter arms, the outputs of which are connected to the trigger inputs of the triggers, the reset inputs of which are connected to the output of the primary pulse unit, the output of the triggers are connected to the first inputs of the triggers and included To the control channels of the opposite shoulders of the valves, characterized in that, in order to increase reliability, the elements OR are inserted into it and before. power elements And according to the number of valve arms, as well as the rectified current sensor, with the outputs of the primary impulse block, the first inputs of the additional I elements connected to the second inputs of the rectified current, and the outputs of the main and additional elements of the control channel valve arms are connected to the inlet. § Give the element OR, the outputs of which are intended to be connected to the gate control electrodes of the valves in each arm. In about :) 05 tsD and CO

Description

This invention relates to electrical engineering and can be used in high voltage current or voltage converters. The aim of the invention is to increase the reliability of the device, by ensuring the stability of switching on the valves at low load currents. The drawing shows one phase converter as applied to an AC / DC converter. Valves I and 2 form the transducer shoulders. Consistently with valves 1 and 2, nonlinear reactors 3 and 4 and reverse flow sensors 5 are included. Parallel to valves 1 and 2, R-circuits are included, which consist of capacitors 6 and resistors 7. These elements form the power circuit of the converter. In some cases, the sensors 5 currents can be combined with nonlinear reactors. The power circuit may contain switching nodes. Triggers 8 and 9 are connected to sensors 5, which are valve state sensors. Elements OR 10 and 11 are connected to the control inputs of the valves, AND 12-15 are connected to the inputs of which. The outputs of the block, 16 primary pulses are connected to elements I. Rectified current sensor 17 is connected in series with load 18, and its output is connected to elements AND 12, 13 The power section from transformer 19 feeds. Sensor 17 is of inverting type and at low currents on its output has a signal applied to the input of elements And 12, 13, and at high currents there is no output signal. The device operates as follows: The converter converts the alternating current into a constant or in a known manner, or vice versa, for which control pulses are fed to valves 1 and 2 from unit 16. The current sensors 5 detect the reverse currents of the valves I and 2 arising from the application of a reverse voltage to the valves. This method of monitoring the state of the valves, compared with the control of direct currents, has a great advantage, which is that it provides higher reliability. At the same time, a reverse current pulse is fixed, and its sufficient value indicates that the valve was turned off successfully and that the nonlinear reactor is remagnetized, and therefore the damping circuit, consisting of RC circuit 6 and 7 and rector 3 or 4, is prepared for application voltage jump, which will be applied to the valve when the antiphase valve is switched on. With medium and large operating currents of the converter, the sensors 5 clearly work, causing the triggers 8 and 9 to be triggered, which give a signal to the elements 14, 15. The latter pass pulses to the valves from the block 16 primary pulses only when there is a signal from the sensors of the 5 state of the valves, those. Only if the opposite valve is turned off. Elements 12 and 13 do not transmit pulses, since the output of current sensor 17 does not have a signal required for operation of elements 12, 13. At low operating currents of the converter, the sensors of 5 valve states do not work clearly, with errors due to their final sensitivity. At low currents on. The output of current sensor 17 is a signal arriving at elements AND 12, 13. Pulses at valves 1 and 2 in this case pass from block 16 through elements 12, 13. The device operates without monitoring the state of the valves. At low currents and voltages in the converter in this mode, the risk of failures is small due to the low level of noise created by the converter. Possible failures practically do not lead to processes dangerous for the converter equipment. Thus, the proposed device ensures the operation of the converter over a wide range, including at very low voltages and currents. At the same time, it provides monitoring of the condition. valves at high voltages, which increases the reliability of the converter and eliminates the possibility of emergency processes with large overload effects on the valves.

Claims (1)

A DEVICE FOR CONTROLLING A CONVERTER, comprising a block of primary pulses, sensors of reverse currents of valves, intended to be connected in series with the arms of the converter, the outputs of which are connected to the trigger inputs of the triggers, the resetting inputs of which are connected to the output of the block of primary pulses, the outputs of the triggers are connected to the first inputs of the elements And, valves included in the control channels of the opposite arms, characterized in that, in order to increase reliability, OR elements and additional fillers are introduced into it elements And according to the number of arms of the valves, as well as a rectified current sensor, and the outputs of the primary pulse block are connected to the second inputs of all elements AND, the first inputs of additional elements are connected to the rectified current sensor, the outputs of the main and additional elements And in the control channel of each valve arm connected to the inputs of the OR element, the outputs of which are pre-* 9 assigned to connect to the control I / electrodes of the valves in each arm. | L ί7 P7 ^J 1st e 10 if oe & yu ςθ