SU641345A1 - Power-diode testing arrangement - Google Patents

Description

I

The invention relates to the field of electrical engineering and can be applied to test high voltage fully controlled electronic gates.

A device for testing high-voltage valves is known, comprising a three-phase bridge converter and a load reactor (1).

Closest to the invention is a valve test device comprising a three-phase ms converter transducer loaded, an anode valve converter control unit, a cathode converter valve control unit, a test valve control link and a logic element, the first output of which is connected to the control unit input one of the valve groups, and the second output - with the input of the control unit of the test valve 2J.

The test valve in the known circuit is connected in parallel with the working valve, while the test mode is created by transferring the converter current to the test valve. On the signal of the logic element control unit one CC

the valve groups in which the test valve is located lock the working valves, and the valve control link brings the latter to the conducting state. The control unit of the other valve group maintains the set current.

A disadvantage of the known device is that the test mode is characterized only by a current criterion, which does not allow testing of high-voltage fully controlled electronic valves, the overload mode of which is characterized by application of a high voltage to the high-voltage valve.

The aim of the invention is to expand the functionality.

The goal is achieved by the fact that the valve being tested is connected in parallel to the load reactor, and the third additional output of the logic element is connected to the input of the control unit of the second group of valves.

FIG. I shows the electrical circuit of the proposed device; in fig. 2 - diagrams of voltages and currents in the circuit.

The proposed device contains working valves 1-3 of the cathode converter group, working valves 4-6 of the anodic converter group, three-phase supply transformer 7, load reactor 8, test valve 9, unit 10 for controlling the cathode group of valves, block || controlling the anode group of valves, the star 12 controlling the valve under test, and the logic element 13.

In Diagram a {fig. 2) the voltages on the high windings of the transformer 7 are shown; diagram b shows the control pulses of the converter working valves; diagram c shows the voltage at the test valve; in diagram d - those through the valve that is not tested.

The device works as follows.

When positive voltage is applied to the test valve (zone L in diagrams c) the logic element 13 unlocks the test valve 9 through the control link 12. For a time interval BEFORE the lot 13, the operating valves of the cathode and anode groups are closed transforming the oaatbl, thereby removing the anodic voltage with the flasher) valve.

Velich {{va electric energy dissipated in the tested material is regulated

by changing the control angles in and / 9 converter gates.

Claims (2)

Invention Formula Valve testing device containing a three-phase bridge converter, which includes a load reactor, an anode valve converter control unit, a cathode converter converter control unit, a control valve link and a logic element, the first output of which is connected to the input of one control unit control unit valves, and the second output - with the control valve inlet of the valve being tested, characterized in that, with the aim of expanding the fucking of the individual 8%, uemy veitil connected parallelyyu load the reactor, and the third additional output logncheskogo element is connected to the input of a control block of the second group of valves: Sources of information taken into account in the examination: 1. USSR Copyright Certificate No. 156229, cl. G 01 R 3/26, I960. 2. USSR author's certificate M 533076, cl. H 02 R 13/00, 1974.