SU817621A1 - Device for testing controllable rectifiers - Google Patents

Description

The invention relates to electrical engineering and can be used to test high-voltage electric _ controlled valves.

- Closest to the proposed is a device for testing control valves containing. power supply capacitors.

inductor, control valve, control pulse source and control unit [1J.

The disadvantage of this device is its limited functionality, since it 15 does not allow testing of controlled valves in static mode. ,

The purpose of the invention is the expansion of functionality. 20

This goal is achieved by the fact that in the device containing the power source, the first and second capacitors, an inductor, a first controlled valve and a source of control pulses, and the first capacitor is connected parallel to the output of the power source, with the first of which poles through the first controlled valve is connected the output of the inductor and the anode of the tested controlled valve, the first control unit, the output of which is connected to the control electrode of the tested controlled valve, and with the second the cathode of the controlled valve under test is connected to the power supply and a second controlled valve, a second control unit and a switch are introduced through the second capacitor corresponding to the output of the inductor, and the second controlled valve is turned on. parallel to the tested controlled valve and its control electrode is connected to the output of the second control unit, and the output of the source of control pulses is connected via a switch to the inputs of the first and second control units, respectively.

The drawing shows a block diagram of the proposed device.

The device comprises a power source 1, a switch 2, capacitors 3 and 4, an inductor 5, controlled valves 6-8, control units 9 and 10, and a control pulse source 11.,

The device operates as follows.

Initially, the source of control pulses 11 through a switch 2 is connected to the control unit 9 · of the controlled valve 7. After turning on the power source 1, the specified test voltage is established on the capacitor 4, the controlled valve 7 and the tested controlled valve 8. After a while, it takes to recharge the power sources (not shown) of the control unit 10 of the test controlled valve 8, the source 11 of the control pulses through the switch 2 is connected to the control unit 10. After that, the device operates using the test controlled valve 8, through which the overcharge current of the capacitor 4 passes, which ensures the testing of the test controlled valve 8 together with the control unit 10 in a pulsed mode.

'To conduct the test of controlled valve 8 in static mode, control pulses from a source of control pulses 11 are supplied with a switch 2 to a controlled valve 7 for the entire duration of the test, while a voltage is applied to the tested controlled valve 8, the value of which is continuously adjustable in the required ranges due to voltage changes of the power supply 1.

The proposed device is compact, has the ease of regulating the test voltage and changing test modes and allows testing controlled valves in both static and ’pulse modes.

Claims (1)

Claim 5 A device for testing controlled valves, containing a power source, first and second capacitors, an inductor, a first controlled valve and a source of control pulses, and the first capacitor is connected in parallel with the output of the power source, with the first of its poles through the first controlled valve connected the output of the inductance coil and the anode of the tested controlled valve, the first control unit, the output of which is connected to the control electrode of the tested controlled valve, and from 20 The cathode of the controlled controllable circuit under test is connected to the pole of the power source and, through the second capacitor, the corresponding coil output {inductance, distinguishing 25 with the fact that, in order to expand the functionality, a second controllable valve, a second control unit and a switch are introduced into it, the second controllable the valve is connected in parallel with the tested 3® controlled valve and its control electrode is connected to the output of the second control unit, and the output of the source of control pulses is connected via a switch 35 with inputs of the first and second control units, respectively.