SU479229A1 - Pulse generator - Google Patents

Description

resistor 16, additional resistor 17, load 18.

Drive 2 is connected to source 1 via charging circuit 3. Winding 5 is connected between the anode of the thyratron I and the connection point of storage 2 with the charging circuit 3, and winding 6 is connected to the cathode of the thyratron 11 by one and the capacitor 15 is turned on between the anodes of thyratrons II and 12. The cathode of the thyratron 12 is connected to the load 18, and its grid is connected to the midpoint of the divider 13. The drive 8 is connected via the charging circuit 9 to the power supply 10 and to the modulator lamp 7 to the load 18. Additional resistor 17 included between load 18 and winding 6, and the voltage 14 through the divider 13 is connected in parallel to the resistor 17.

The generator works as follows.

After ignition of the thyratron 11, the drive 2 is discharged to the load 18 through successively connected windings 5 and 6 of the pulse transformer 4 and the resistor 17, the resistance of which is significantly less than the load resistance. After a period of time equal to the required pulse duration, lamp 7 is unlocked and a load voltage is applied to the load 18 of the accumulator 8 with an amplitude slightly higher than the load voltage at the time of unlocking the lamp 7 and with a duration sufficient to restore the electrical strength of the tirathron 11, as a result, thyratron is lost 11.

In the event of a short circuit in the load 18, almost the entire voltage is released on the resistor 17. A breakdown of the surge generator 14 occurs, and through the divider 13 a pulse of the ignition voltage is applied to the grid of the thyratron 12 (the divider sets the necessary amplitude of the ignition voltage). At the time of the ignition of the thyratron 12, the voltage at the anode of the thyratron 11 drops to the ground potential; through the pulse transformer 4, a positive potential is applied to the cathode of the thyratron 11 relative to the anode. The thyratron 11 is quenched, which is what protects the load.

Since the working switching of the thyratron I is carried out without the participation of the protection circuit, the energy consumed by the protection circuit is significantly reduced.

Subject invention

The pulse generator containing the first power source, the first capacitive energy storage device connected to the first power source through the first charging circuit,

a two-winding pulse transformer, first and second thyratrons, a capacitor bounded by a resistor, and a resistive voltage divider, with the primary winding of the pulse transformer turned on

between the anode of the first thyratron and the point of connection of the first capacitive storage with the first charging circuit, the secondary winding of the pulse transformer is connected by one output to the load, and the other to the cathode

The first thyratron, a capacitor, shunted by a resistor, is connected between the anode of the first thyratron and the anode of the second thyratron, which is connected to the load by its cathode and connected to the midpoint of a resistive voltage divider by the grid, in order to reduce the energy consumed by the circuits short circuit protection, it contains a second power supply, a second capacitive drive

energy, modulator lamp, second charge circuit, additional resistor and arrester, the second capacitive drive connected via the second charge circuit to the second power source and through the modulator lamp to the load, an additional resistor is connected between the load and the secondary winding of the pulse transformer, A de-energizer is connected through a resistive voltage divider in parallel with an additional resistor.