SU728098A1 - Semiconductor power-diode testing device - Google Patents

Description

The invention relates to the field of a high-voltage converter: |, a technical equipment and can (only used in the testing of high-voltage direct-current power transmission valves (DCF).,.

A device for testing valves, made according to a three-phase bridge circuit 1, is known.

However, such a device requires a significant amount of auxiliary valves for its operation. In addition, the bridge circuit is connected to a high-voltage system, in which every experience of reproducing the CV regime causes effects on equipment that are close to emergency ones.

The closest technical solution to the proposed is a device that contains a chain of series-connected power sources, smoothing inductance, shoulder inductances, auxiliary valve, switching capacitor, clamps for connecting a test and auxiliary. gate valve and control unit with a control pulse generator 2,

A disadvantage of the known device is the impossibility of reproducing shunt valve modes therein.

The aim of the invention is to enhance the functionality of the device by reproducing the shunt valve mode.

The goal is achieved by introducing a self-switching switch in the proposed device, the trigger contacts of which are disconnected between the first output of the control pulse generator and the control electrode of the first auxiliary valve, the second disconnecting contacts are connected between the second output of the generator and the clip for connecting the control electrode the second auxiliary valve, .- and the closing contacts in parallel with the switching element are connected between the third output of the generator, controlling the impulse and a clamp for connecting a control gate of the test electrode.

Fig, 1 shows a diagram of the proposed device; in fig. 2 voltage diagrams for the operation of the device.

The device contains a series-connected DC power supply 1, a smoothing inductance 2, a shoulder inductance 3, an auxiliary fan 4, a switching capacitor 5 connected in series. The clamp b for connecting the anodes of the test 7 and the second auxiliary 8 valves is connected to the connection point of the capacitor 5 and the second shoulder resistor 3. The clip 9 for connecting the cathodes of the second auxiliary 8 and the test 7 valves is connected to the connection point of the cathode of the valve 4 with the source 1. Clamps 10, 11 and 12 for connecting the control electrodes of the valves 7, 8 and 4 are connected to the control unit of the device, which includes a generator of control pulses 13, self-pumping with a time delay immediately after switching on the switch The driver 14 and the switching element 15. Some of the disconnecting contacts 16 of the switch 14 are connected between the output 17 of the generator 13 ji and the clamp 12 of the control electrode of the valve 4, the second disconnecting contacts 18 of the switch are connected between the second output 19 of the generator and the clamp 11 for connecting the control electrode of the valve 8, The closing contacts 20 of the switch are connected between the output 19 of the Generator and the extractor 10 for connecting the control electrode of the test valve 7. Parallel to the closing contacts 20, the switching element is connected

15" ..

The device works as follows.

Valves 4 and 7 (in the case of a valve test designed to combine the functions of the working and shunt, Fig. 26 - the second auxiliary valve 8 in this case is not entered into the device interface, switch 15 is turned on) or on valves 4 and 8 (in the case of testing valve designed to work only as SV, figa, valve 8 is present in the circuit; the actuator 1 in this case is open) from the generator 13 through the disconnecting contacts 18 and 16 of the switch 14 for the first case or the disconnecting contact 16 and the closed switch 15 for the second case pr and the absence of a command to turn on the switch 14 is given control pulses. The circuit starts up, and the mode 7 valve is set to the mode corresponding to the long-term CC mode. When testing a valve designed to combine the functions of the working and shunt (without auxiliary valve 8 in the device), this mode is a periodic alternation of conductive intervals, during which the nominal current of the trapezoidal shape flows through the valve, and non-conducting intervals the opposite of which is applied to the valve, and then the right voltage. When testing a valve designed to work only as an AC (valve 8 is inserted into the device circuit), the test valve 7 is applied with the voltage from the valve 8 connected in parallel to it, the current through the valve 7 does not flow. Fig. 2 shows the current and voltage curves of steady state for the both cases shown up to the point in time to.

The CC mode on the test valve 7 is created when the switch 14 is turned on, which is automatically turned off at a time interval after it is turned on. Throughout this interval, the control pulses from the generator 13, as can be seen from Fig. 1, are supplied only to the test valve 7 (through the switch 15 or the closing contact 20), and in this case a continuous unidirectional current flows through the valve 7. After the time-out switch 14 is turned off, the control pulses are again fed to the valve 4 or valves 4 and what causes the test valve to rotate the mode preceding the moment of switching on the switch 14,

Claims (2)

1.Stukachev: A, B. and others. Major. technical problems of transmission of electricity by direct current of high voltage. M., VINITI, 1971, with. 137-142,. 2. USSR author's certificate number 430732 / class. G 01 R 31/26, 1976 (prototype).