SU60973A1 - Radio lamp - Google Patents

Description

It was filed on March 3, 1940 for 35648/303013 in Narodnaya Kmsosariate Government Agency for Bulletin of the Inventions

The resulting microwaves are a large modular datasheet that has a codewatch contour. When the wave decreases, the ipipad of the circuit falls off and makes it impossible to develop a volatile voltage on the circuit, reducing the circuit dimensions and therefore eliminates the amount of energy that it can dissipate, thereby limiting the total power of the lamp, large losses on heating and radiation result reduction of efficiency stability. All this is expressed in the fact that with the shortening of the wavelength, an area where the oscillatory power dropped dramatically has appeared.

In recent years, volumetric resonators (so-called roubathrones, holrauyn, endovibrators, reamers, etc.) have begun to be used as oscillatory circuits, which made it possible to bring the oscillation power up to 10,100 W. From the scheme of the best types of modern generators, for example, klystronnnh generators (Fig. I), it is clear that the reasons for further amplification of power are: the difficulty of transmitting high-current electrical beams with a small cross section and the inability of a small collector to dissipate large quantities electron beam.

However, it is not possible to increase the cross section of the electron beam or the size of the resonators, if its shape remains a body of rotation. Noot USSR 3 for 1942

- 2

However, if you give up the shape of the bodies of rotation and go to the odds that the author calls tube-shaped, then it is possible, while maintaining the good quality of the cavity resonator, to increase its volume to any size, not changing the wavelength, to increase the cross-sectional area of the electron beam, to increase current strength, increase the amount of heat exposed to the spent beam, and all this will significantly increase the total power delivered by a single lamp.

FIGS. 2 and 3 of the attached drawing show rada lamps made according to the invention with tube-shaped resonators. Here, as in FIG. I, denoted: I - cathode, 2 - resonators, in the inner cavity of which an electric field is created, 3 - a collector that catches the spent electron beam, 4 - an electron beam, 5 - metallic lamp shell, 6 - vibrational energy leads, 7 - cavity for water, cooling the collector and the outer shell of the lamp.

A lamp of this type can be enclosed in a common metal tube in which all power and oscillating power leads can be made through glass eyes. The focusing of the electron beam can be done either by special electrodes not shown in the drawing or by the magnetic field of the outer coil. Either the outer shell can serve as a collector, which makes it possible to apply water cooling or a special electrode. Resonators can work as a whole, or be divided by transverse partitions into compartments.

The invention makes it possible to use the energy of an electron beam to select useful energy and dissipate harmful power — along the entire length of the lamp, which can be many times larger than the wavelength of the generated oscillations.

Refer to Invention.

A radiolamp for generating high power microwaves with a hollow resonator in-vvde contour, characterized in that the hollow resonator has a tubular shape consisting of several cells, the axes of which are perpendicular to the alternating electric field.