SU855958A1 - Pulsed thyratron generator - Google Patents

Description

(54) PULSE TIRATRONG GENERATOR

The invention relates to electronic engineering, in particular to pulse thyratron generators.

Known pulse thyratron generators with series-connected thyratrons, containing devices for firing generators connected to the grid of each thyratron.

In these generators, thyratrons are used as switching elements between the shaping device (usually an artificial long line) and the load. The sequential inclusion of thyratrons is used to increase the allowable amplitude of the switching voltage and, accordingly, the amplitude of the output voltage pulse at load 1.

The drawbacks of such generators are the complexity of the control circuit containing a pulse transformer and a filter in the grid circuit of each thyratron. In addition, for the simultaneous ignition of all thyratrons, a powerful generator of firing grid pulses is required.

The closest technical solution to the present invention is a pulse thyratron generator containing a power source, at least two series-connected thyratrons, of which the anode of the first thyratron is connected via a forming device made as an artificial long line to a positive one, and the cathode of the latter is to the negative pole of the power source, and a device for firing grid pulses connected to the grid of the last thyratron. On the grid of other thyratrons connected to their cathodes by means of a resistor, no pulses are applied 2.

The disadvantage of such a generator is low reliability.

The purpose of the invention is to increase the reliability of the operation of a pulser thyratron of the generator and simplify its circuit.

The goal is achieved by the fact that in a pulsed thyratron generator containing a power source, at least two series-connected thyratrons, of which the anode of the first thyratron is connected through a forming device to the positive, and the cathode of the latter through the load to the negative pole of the power source, and the device firing pulses connected to the grid of the last thyratron, between the grid of the first and the cathode of the second thyratron, and also, respectively, between the grids and cathodes of subsequent thyratrons in tyuchen capacitor, the minimum value is limited by the product of the ratio of the grid current pulse amplitude to the duration x of the thyratron anode voltage, and the maximum value does not exceed three hundredths ratio slew time constant anode voltage to the resistance grid and cathode thyratron.

The figure shows a pulse t-tron generator.

The pulse thyratron generator contains a power source connected through a charge to the ductivity (not shown in the drawing) with the forming device 2, which is used as an artifact on a long line. The high-voltage output of the forming device is connected to the anode 3 of the first 4, and HH3KOBOJibTHH i through the load 15, the quality of which uses a pulse transformer, to the cathode 1 pos of the thyratron 32. Setha 5 of the tyratron 4; 6. the other output of which is connected to the cathode 7 of the thyratron 8. Any .. og 1-: but the capacitor 9 is connected by the output - to the grid of 10 thyratron 8, and the other output to the cathode ii of the thyratron 12. The grid 13 is tetrated;.; 12 is connected to the device pod; gagschischih grid impulses 4-, VK is used as the second blocking oscillator "(a thyratron 12 Tod li fe; 1yuchen to otritsgggelp chtai-1st through nanomu pole SOURCE - uA Booting 15. Between and -oTO / i.OisJ kahsdo: S. Between.

thyratron on; J:; throne and catanoid and cathode whose resistor s is an eco-diode and cathode nanodensor 18. rirathoratron - ac ;; Г-; e; drawing prkvedey with .. p.zerzhasay three thyratrons, although the number of thyratrons may be limited.

The generator works as follows.

In the period between ignition of grid pulses, the length of the line is charged and between the anode and the cathode of each of the thyratrons, the same voltages are set up due to the chain of resistors 17. constituting 1/3 of the line voltage: and.

Before the arrival of G1Ojigayush, its grid pulse voltage at each capacitor 6 and 9 is equal to the anode voltage of the thyratron, and the voltage between the grid and the cathode of the thyratronor is equal to a bullet. With the arrival of a nodging grid pulse on the grid 13 of the thyratron 12, the latter ignites, the voltage between its anode and the cathode drops to an insignificant value, and the voltage of the capacitor 9 is almost completely applied between the grid and the cathode of the thyratron 8. The magnitude of this voltage is

the rule is not more than ten times the net voltage required to ignite a thyratron. If there is energy, then: Lenna in the condenser 9 or, in other words, the value of this capacitance is sufficient for

If the grid current is provided for the duration of the grid pulse required to provide an ano / zyugo discharge in the thyratron, the thyratron is ignited and then similarly as a result of the discharge of the capacitor 6, the tocotron 4 is ignited.

iasHiii obrzzon, tratron key full-: 0: gj: about the closure of the generator, it works before the arrival of the oscillator, a significant firing pulse on the 3-taratron grid 12, namely

length lkk; Rzar kaet through tiratrochi on the load (ympu, transformer) 15, oazuzk - mpuls of output voltage. Ate g okatankU: discharge line on the 1 r zhep -; e na and, respectively, on the anol, the thyratrons again increases until

, 1sg is set. Optionally:: o, 1 and ma, the duration of the rise of - oh. Yugp voltage is determined by. -Leons, -ap: -and ;;:, ;;: 3 :: m iipo: i, eccaMH in tiratron and not :) 1h ;; 1п1е ondrepresentnogo value.

01; deps ter 18. capacity of which is equal to ai .-: stop ;; Kok.deksatorov b to 9, serves for;, Uoel1-p-; Banky anode voltages tiratro ---,::; avdpd: - ;;: 10th ansthy anodic example - ,,,:,; 1 set of strainer on the - / g. iMpaicoHOE generator -to-to-next:, y -, - d:, ;;;,) ycc at work.

Vi;: ,,: oh; The use of the proposed invention; -; and ;;;; the reliability of work to the ut-ro, v -ci of pulsed thyratron gene- i-opo ;; containing at least two

- ;; x: pj, p, ovatgl}; about included THoaTiiOHa.

Imascny tiratrsnn; a generator containing a power source of at least two consecutively disconnected thyratrons, the anode being non-energized ;; - the thyratron is connected through a form; device to positive, and the cathode: m :; - unit, chugruzku - to negativzuyu po.ggo-S; : -; gg Ochika feed, and device:, e 10, o, - and ayush}: th pulses, under the slash: last iratron, characterized in that, with the aim of G, to simplify the circuit

between the grids of the first and the cathode of the second thyratron, and also, respectively, between the grids and cathodes of the subsequent thyratrons, a capacitor is connected, the minimum value of which is limited by the ratio of the amplitude product

the pulse of the grid current for its duration l of the voltage of the anode of the thyratron, and the maximum value does not exceed three hundredths of the ratio of the constant increase of the anode voltage to the resistance between the grid and the cathode of the thyratron.

Sources of information taken into account in the examination

1. Fogelson, T. B., et al. Pulsed hydrogen thyratrons, Soviet Radio, 1974 p. 198.

2. OST 11.334.007-75, p. 23.

Claims (1)

Claim 4 _{(1 A} pulsed thyratron generator containing a power source of at least two thyratrons connected in series, the anode of the first thyratron being connected to the positive through the forming device, and the load cathode lighter than 45 connected to the negative terminal of the power supply, and a device for unloaded pulses connected to the grid of the last thyratron, distinguishing: I mean that, in order to increase the reliability and simplify the circuit _{50 of the} generator, between the grid of the first and the cathode of the second thyratron, and also, respectively, between the grids and a capacitor is included in the cathodes of subsequent thyratrons, the minimum value of which is limited by the ratio of the product of the amplitude 55 of the grid current pulse by its duration to the voltage of the thyratron anode, and the maximum value does not exceed three hundredths of the ratio of the anode voltage rise time constant to the resistance between the grid and the thyratron cathode.