SU799068A1 - Device for testing series-connected power-diodes - Google Patents

Description

The invention relates to the protection of semiconductor converters of a direct current power line, comprising serially connected valves.

A device for the protection and control of series-connected valves, containing a measuring bridge formed by a circuit of valves and a voltage divider, in the diagonal of which is included a sensor for the ratio of voltage · supply to the valve and the supply connected to the threshold organ [1].

The disadvantage of this device is the reduced noise immunity at the threshold of the threshold organ.

The closest to the proposed technical essence and the achieved result is a device for monitoring series-connected valves containing a measuring bridge formed by a circuit of valves and a voltage divider, the 25th diagonal of which includes a sensor for the ratio of the voltage on the valve and the supply voltage connected to the threshold organ, and a voltage increment sensor connected to a shutdown circuit of the unit located at the potential; land [2].

The disadvantage of this device is reduced noise immunity with pulsed interference signals.

The purpose of the invention is to increase noise immunity by combining analog and pulse control methods.

To achieve this goal, the monitoring device is equipped on the ground potential with a coincidence circuit, one input of which is connected to a threshold organ, the other input - with a voltage increment sensor made on an operational amplifier, a deforming capacitor and a relay, and the output of the coincidence circuit with a block switching circuit.

The drawing shows a diagram of the device.

The device contains a voltage ratio sensor 1, a channel 2 for transmitting signals to the ground potential, a threshold element 3, the output of which is connected to the first input of the coincidence circuit 4 made on a phototransistor, and a shutdown circuit for the valve block 5. Input 1 is supplied with a voltage ^ 99068 of the diagonal of the bridge formed by the gates and resistors of the voltage divider, as well as the voltage from the part of the divider proportional to the supply voltage on the block. The signal at the output of sensor 1 is proportional to the ratio of these voltages. Between the midpoints of the valve circuit and the voltage divider, a voltage increment sensor is included.

A relay made on an operational amplifier b, to the output of which through a differentiating capacitor 7, a relay is connected 8. Through the contacts 9 of the relay 8, a source of 10 light pulses starts, the output of which is connected. Dinen with the second input of the 4 matches circuit. feeding | a source of 10 light 15 output pulses and an operational amplifier. litel b is carried out from a power source 11.

If any of the valves breaks down between the midpoints of the circuit of valves 20 and the voltage divider, a voltage increment occurs, which is rectified, amplified and differentiated by capacitor 7. As a result, relay 8 momentarily trips and through its make contact 9, the source 10 light pulses. A light pulse arrives at the base of the phototransistor. At the moment of breakdown of the maximum permissible number of gates in the unit, the signal at the input of the threshold ^w element 3 reaches a predetermined level, and a positive voltage appears at its output connected to the emitter of the phototransistor, which, if there is a light pulse at that moment, arrives, to the input of the block shutdown circuit.

Claims (2)

the diagonal of the bridge formed by the valves and resistors of the voltage divider, as well as the voltage from the part of the divider is proportional to the supply voltage on the unit. The signal at the output of sensor 1 is proportional to the ratio of these voltages. Between the middle points of the valve circuit and the voltage divider, a voltage increment sensor connected to the operational amplifier b is turned on. Relay 8 is connected to the output of which via a differential capacitor 7. A source of 10 light pulses is started through contacts 9 retr 8, the output of which is connected with the second input of the circuit 4 matches, power, the source of 10 light pulses and operating power. Unit 6 is provided from power supply 11. During the breakdown of any valve between the middle points of the valve chain and the voltage divider, a voltage increment arises, which is rectified, amplified and differentiated by capacitor 7. As a result, relay 8 briefly triggers and, through its closing contact 9, starts the source of 10 light pulses, pulse arrives at the base of the phototransistor. At the moment of breakdown of the maximum permissible number of valves in the block, the signal at the input of the threshold element 3 reaches a predetermined level, and at its output, connected to the emitter of the phototransistor, a positive voltage appears, which, if there is a light pulse at this moment, block circuit input. Apparatus of the Invention A device for monitoring series-connected valves, comprising a measuring bridge formed by a valve circuit and a voltage divider, the diagonal of which includes a voltage ratio sensor on the valve and a supply voltage connected to the threshold organ and a voltage increment sensor connected to the circuit disconnecting a unit located on the ground potential, characterized in that, in order to improve noise immunity, it is equipped with a coincidence circuit located on the ground potential, one input to Torah connected to a threshold body, the other input of - a sensor voltage increment provided on the operational amplifier, differentsirukedem capacitor and the relay, and the output of the coincidence circuit is connected to a circuit interrupting unit. Sources of information taken into account in the examination 1. The author's certificate of the USSR 511785, cl. H 02 H 7/10, 1974. 2. USSR author's certificate on application 392.842 / 07, cl. H 02 H 7/10, 1976 ..