SU1576972A1 - Sensor of condition of reversible thyristor converter - Google Patents

Abstract

The invention relates to electrical engineering. The purpose of the invention is to increase the reliability of information about the state of the valves and simplify the sensor. With all the valves closed, the voltage on the LEDs of the galvanically isolated elements 15-20 has the form of a rectified and limited alternating single-phase voltage, which has a zero level, repeated with a period that is a multiple of the frequency of the supply voltage. Parallel connection of the outputs, for example, elements 18 and 15, organizes a continuous circuit for the flow of current through this pair of photodiodes in time due to the overlap of the joint areas of operation of the valves. Similarly, the current flows continuously through the photodiodes of the parallel-connected outputs of elements 17 and 20, 19 and 16. As a result, a circuit is formed for the flow of current, and the output of the amplifier 21 contains a constant signal of the logical unit, indicating that all valves are closed. When the converter operates, the valves turn on two simultaneously, the photodiodes of the control channels of these valves connected in parallel simultaneously stop conducting. All this leads to the appearance of a logical zero, indicating open gates. 1 il.

Description

The invention relates to electrical engineering and is intended for use in thyristor converter control systems with separate control of valve groups.

The purpose of the invention is to increase the reliability of information about the state of the valves and simplify the sensor.

The drawing shows the functional diagram of the sensor.

The sensor contains rectifying bridges 1-6, limiting resistors 7-12 first, third and fifth rectifying bridges through limiting resistors 7, 9, 11 are connected to phases 11d, Uv, Uc of the supply voltage, respectively. The second input terminals of these bridges are connected to the output terminal 13 of the thyristor converter. The second, fourth, sixth rectifying bridges through limiting resistors 8, 10, 12 are also connected to the U., Ug, Uc phases of the supply voltage. Accordingly, the second input terminals of these bridges are connected to the output terminal 14 of the thyristor converter. Elements 15-20 of galvanic isolation are connected to the outputs of rectifying bridges 1-6, respectively. The outputs of the galvanic isolation elements with their outputs are connected in pairs. In parallel, the outputs of the elements 15 and 18, 17 and 20, 19 and 16; the pairs themselves are connected in series and are connected between the input of amplifier 21 and the negative terminal of the power source - Un.

The combination of these connections allows to eliminate the ambiguity in determining the state of the valves when the supply voltage passes through zero by means of a corresponding parallel-series connection of the outputs of the control channels. The connection is based on the operation of the thyristor converter, which consists in the fact that at any moment in the converter in the conducting state there are two valves connected in different phases of the supply voltage. Therefore, if in the non-conducting state the voltage passes through zero, then on the other it is different from zero. If they are in a conducting state, then the voltage at both valves is zero. The parallel connection of the outputs of the control channels of these valves allows to block the ambiguity zone beyond

account perrkrysh rl shchikh IUJH gilep. Consecutive g H The dynion of the machined pairs of outputs of the pumping control works like a logical three-input circuit, i. logical 1 at the output of amplifier 21, enables the inclusion of another group in the event that all the valves are chamert.

Thus, this parallel connection of the outputs of the voltage control channels on the valves in accordance with the combination of the phases AI, BC, SA allows one to achieve ambiguity in determining the state of the valves during the transition of the supply voltage, thereby increasing the reliability of the state information valves and at the same time simplify it, t

The sensor works as follows.

The voltage from each valve through the current-limiting resistors 7-12 goes to the rectifying bridges 1-b, the load of which is the diodes of galvanic isolation elements 15-20. With all the valves closed, the voltage on the LEDs has the form of a rectifying and limited alternating single-phase voltage, which has a zero level, repeated with a period that is a multiple of the frequency of the supply voltage. However, among themselves in different phases these zero levels will be shifted to the appropriate number of electrical degrees, for example, parallel connection of the outputs of elements 18 and 15 organizes a continuous circuit for current to flow through a pair of photodiodes in time due to the overlap of the joint areas of the valves. Similarly, the current will continuously flow through the photodiodes of the parallel-connected outputs of elements 17 and 20, 19 and 16, as a result, a circuit is formed for the flow of current and the output of amplifier 21 will have a constant signal of logical 1, indicating that all gates are closed. When the converter operates, the valves are turned on two at a time, the photodiodes of the control channels of these valves connected in parallel (for example, 15 and 18) stop conducting at the same time, since the voltage on the controlled valves is zero. All this leads to the opening of the transistors of the amplifier 21 and the appearance of a state of logical

Oh, with vidtelstvuyushurshr about open Pentyla x.

Claims (1)

Invention Formula The sensor state of the reversible thyristor converter valves contains six control channels consisting of rectifying bridges, the first, third and fifth of which are connected to the terminals for connection to the corresponding phases of the supply voltage and to the terminals for limiting resistors. a converter, six elements of galvanic isolation, the inputs of which are connected to the outputs of the respective rectifying bridges, an amplifier and a power source, characterized in that, in order to increase the reliability of information on the state of the valves and simplify the sensor, the elements of galvanic isolation are the outputs are connected in pairs, and the outputs of the first are connected in parallel with the outputs of the fourth, the outputs of the third are connected to the outputs of the sixth and to one of the output terminals of the converting j outputs n with the outputs of the second, the bodies, and the second, fourth, and sixth are connected via limiting resistors with the indicated terminals for connection to the corresponding phases of the supply voltage and with the terminals for connection to another output These pairs of outputs are connected in series and connected between the input of the amplifier and the negative terminal of the power supply, while the amplifier is used as the output of the sensor.