SU877446A1 - Device for checking converter gate state - Google Patents

Description

(54) DEVICE OF CONTROL OF CONDITION OF CONVERSIONS OF CONVERTER

Claims (2)

The invention relates to converter technology and can be used in an automated valve motor drive. Methods and diagrams of valve state monitoring are known, based on measuring the amount of current in a DC or AC circuit, on monitoring and controlling the variable component of the thyristor bridge to measure the current passing through a DC and AC source, the load circuit of which closes with controlled thyristors, to control the voltage drop at the control transitions of the thyristors and to control the simultaneous presence of voltage on all the arms of the valve group. The known sensor is based on the control of the simultaneous presence of voltage on all the arms of the valve group, containing limiting resistances, rectifier, electrical keys, loaded on resistances in their diagonals, switching transformer, developing transformer, output amplifier CO Disadvantages of this device are the complexity of the electrical circuit, as the number of limiting resistances, rectifiers, electronic switches, secondary windings of the isolation transformer, the primary windings of the commutator The tamping transformer is equal to the number of controlled valve arms, as well as the presence of switching and decoupling transformers, the output amplifier complicates the design, increases the size and weight of the device. . The closest to the present invention is the converter valve state control device, which contains two input terminals for connection to the converter phases and a third input terminal for connecting the rectifier of the rectifier equalizer, two, and the torus, the first of which is connected between the lems the input terminal and the first phase of the rectifier and the second is connected to the second input terminal, and op. Tron ;, connected to the output of the G2 J rectifier. A disadvantage of the known device is its complexity, since, for example, the number of optocouplers corresponds to the number of controlled pairs of ventilators, which, in turn, leads to a decrease in reliability. The purpose of the invention is to simplify the device and ensure its reliability. This goal is achieved by the fact that the state control device of the converter valves contains two input terminals for connection to the converter phases and a third input terminal for connection to the common point of the converter valves, a rectifier, two resistors, the first on which are connected between the first input terminal and the first phase is the rectifier, and the second is connected to the second input terminal, and the optocoupler connected to the output of the rectifier is equipped with an additional chain of two diodes connected in series, point of which is connected to the third input terminal, the anode of the first diode string connected to the positive pole of the rectifier and the cathode of the second diode string connected to the negative pole of the rectifier; moreover, the second phase of the voltage is connected to the second input terminal through the second resistor. Diagram of the device is shown on the Cher tezhe. The device for monitoring the state of the converter voltage is connected to the source 1 of the alternating voltage and the power valves of the converter 2 and consists of resistors 3 and 4 connected to a single-phase rectifier bridge 5. Two diodes 6 and 7 and an LED 8 are connected to the bridge 5. an optocoupler, such that 1 the anodes of the LED 8 and the first diode 6 are connected to the positive pole of bridge 5, the cathodes of the LED 8 and second diode 7 are connected to the negative pole of bridge 5, and the common point of the diodes 6 and 7 is transformed firs. 1 The output of the device is output 9 The device operates as follows. . If there is voltage at the same time, all the valves (valves are turned on) across resistors 3 and 4, downstream bridge 5, diodes 6 and 7, and the optocoupler 8 are flowing, and a logical signal O appears at the output 9 of the device, corresponding to the closed state converter valve. If there is no voltage on one of the valves, the current flows through one of the resistors 3, 4, the output bridge 5, one of the diodes 6, 7 and the converter 2 turned on. According to the optocoupler 8, the current does not flow and the output resistance of the device is infinitely large, corresponds to the open state of the converter valves. The proposed device has high reliability and good mass-size indices, since it contains fewer optocouplers and rectifier bridges compared to known C. Claims of the converter valve state control device comprising two input terminals for connecting to the converter's faults and a third input terminal for connecting a rectifier rectifier to the common point of the power valves of the converter, the first of which is connected between the first input terminal and the first phase the rectifier, and the second is connected to the second input terminal, and an optocoupler connected to the output of the sensor, characterized in that, in order to simplify and increase reliability, it is additionally equipped with a chain From the series-connected two diodes, the midpoint of which is connected to the third input, the anode of the first diode of the chain is connected to the positive pole of the rectifier, and the cathode of the second diode of the chain is connected to the negative pole of the rectifier, and the second phase of the rectifier is connected to the second input terminal through the second resistor. Sources of information taken into account in the examination 1. Systems of control of thyristor units for high-power direct-current electrical drives. Collection of information TS-5 M., 1974, p. 32, fig. 17 2.- Electronic engineering, 1974, 10, p. nineteen.