SU53527A1 - Pulse generator - Google Patents

Description

Unlike conventional pulse generators carried out according to Marx's scheme, the proposed generator is composed of two electrically and electromagnetically coupled circuits formed from self-induction coils and capacitors and tuned to resonance.

Three variants of the generator circuit are shown in FIG. 1-3 of the attached drawing.

If, in the device of FIG. 1, capacitance C is significantly larger than capacitance Cj and the relation LC Z.iC approximately holds, where C is, then solving the corresponding differential equation shows that when the discharge voltage is broken down on capacitance C and inductance LI, significant overvoltages occur.

If a spark gap F with resistance occurs to the capacitance Q, then when it is breached on the resistance, an aperiodic wave can be obtained. Experiments confirm that even in the presence of a very weak electromagnetic coupling between the coils L and L (which in itself only triple the voltage on Cj) by adding

Also, it is possible to obtain nine times overvoltages on a 0.01 J – R capacitance to an electrical link (the capacitance C is 100 times larger).

Even larger overvoltages can be obtained in the proposed scheme by communicating an additional charge from the current source through each valve B to the resonant circuit through each half-period. As a valve, any device with an adjustable valve action and with sufficient power can be used (for example, a powerful generator lamp, a tiratron, an ignaytron, a mercury rectifier with a grid, etc.).

As a current source for synchronous charging, either an independent current generator or capacitance C charged from the same source from which capacitance C is charged can be taken. If, for example, the capacitance charging time of capacitance C is equal to the oscillation half-period of the LC circuit, then during one half period the capacitance Cn will be charged, and during the next, give up its energy to the oscillatory circuit. Thus it is possible to partially compensate

losses in resonant circuits and create significant overvoltages on capacitance C.

In the proposed generator, one of the capacitors and one of the coils should be implemented to the full voltage of the pulse generator. However, there are no fundamental difficulties in their manufacture if they are made in oil. The advantage over the Marx scheme here is the absence of spark gaps and isolation between individual capacitors, therefore the proposed generator must have significantly smaller dimensions with a larger capacitance value. The implementation of capacitance C in the order of several microfarads for a voltage of 20 kU is quite possible even from static capacitors manufactured by MOTEZ.

In order to reduce the voltage drop in the spark gap (Fig. 1), it is possible to use as a device the last of the very quickly closing (at the right moment) electrodes. This device

can be carried out, for example, by a jet of mercury or another conductive liquid, by means of a metal rod attracted by an electromagnetic method, etc.

If you want to get a generator of very high voltage (for example, up to 10 million volts or more), but with a small capacity, a combination of a Marx circuit with this circuit can be applied, as shown in FIG. 2 or 3, where there are three electrically coupled resonant circuits.

The subject matter of the invention.

A pulse generator, characterized by the use of two electrically and electromagnetically coupled oscillatory circuits, fed through a control valve and tuned to resonance, in order to obtain significant overvoltages on the GI capacitor, shunted by the spark gap FI with a series resistance R, constituting with capacitance Cj aperiodic circuit .

to the author's testimony of S. A. Nazarov

 53527

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