SU314160A1 - DEVICE FOR TRAINING AND TESTING PULSE GAS-DISCHARGE DEVICES - Google Patents

Description

The invention relates to radio engineering and can be used in the development and mass production of pulsed gas discharge devices.

There are known devices for training test pulsed gas discharge devices containing a source of power supply, a charging choke, a forming line, a test discharge device, and an active resistance that is equivalent to a load. In the known devices, practically all the energy consumed from the source of the anodized PET and stored in the forming line is released onto the load resistance and is dissipated as heat.

The purpose of the present invention is to reduce the energy consumed from the anode power source, while maintaining the electrical mode of the test gas discharge device.

This is achieved by including a nervous winding and a transformer through a test gas discharge device through the gas discharge device under test, the secondary winding of which is connected to the delayed LNRDI equivalent to the load resistance and the output line through the additional diode and choke connected to an anode power supply.

The drawing shows a diagram

the proposed device.

The device consists of charge throttles /; forming line.and 2; terminals 3 for connecting a test gas-discharge device (for example, a pulsed thyratron); pulse transformer 4; delay lines 5, which are equivalent to the load resistance; separation diodes 6 and 7; Drossel 8 and anode power supply 9.

The device works as follows. The forming line 2 is charged from the anode power source 9 via a charging choke / to a voltage equal to twice the value of the source voltage of the anode power. When the gas discharge device is ignited, the forming line 2 is discharged through it and the primary winding of the pulsed transformer 4. The discharge current of the forming line (AND 2 through the impulse transformer 4 and diode 6 charges the delay line 5. Transformer ratio of the pulse transformer 4 and the parameters of the delay line 5 are chosen in such a way that the equivalent resistance in the value of discharge of the forming LISP1 2, reduced to the primary winding of the pulse transformer 4, is equal to the characteristic impedance of the forming line 2 or a few This is determined by the specific test mode of the gas discharge device. At that, the pharmaceutical line 2 is completely discharged during the pulse, and all its energy (except for losses in the reactive elements, the gas discharge device and the diode 6} is transferred to Delay line 5. The delay line 5 is charged to a voltage, approximately equal to the voltage forming unit 5. During the pause between the pulse of the delay line 5 and discharged through diode 7 and the choke 8 to the filter capacitor of the source of anode feed, returning to pi source This is the energy of charge of the forming line 2.

Thus, the proposed device allows energy to be recovered and to reduce its consumption during training and testing of pulsed gas discharge devices while maintaining their electrical mode. Diodes b and 7 in the proposed device

respectively, the discharge of the delay line 5 to the secondary winding of the pulse transformer 4 is prevented and charged from the anode power supply into the pause between the pulses.

PRED 1M et invented and

A device for training and testing pulsed gas discharge devices containing an anode feed source that charges

Draselle and forming line, characterized in that, in order to reduce the sweat of rechargeable energy, the primary

the winding of the pulse transformer, the secondary winding of which is connected via a diode to the delay line, and the output of the delay line through an additional diode and the choke is connected to the anode power supply.

5G

557

51

R