SU708953A1 - High-frequency oscillation amplifier - Google Patents

Description

(54) AMPLIFIER OF HIGH FREQUENCY VIBRATIONS

one

The proposed amplifier is designed to obtain high powers in radio installations, in particular, microwave accelerators of charged particles,

Amplifiers are known that are used in radio installations for high power, in which a rotating electron beam excites an output ring resonator traveling wave 1.

Also known is an amplifier of high-frequency oscillations 2 containing an electron gun, a sweep device for producing a rotating electron beam, and a traveling wave output ring resonator.

In this amplifier, with a slight deviation of its operating parameters (voltage on the power electron gun at the input of the sweep device), the beam is landed on the walls of the output resonator or on other elements of the amplifier. At high power, this leads to the output of the amplifier. In this amplifier, a large axial length of the instrument is required to obtain the required amplitude of the beam sweep. In addition, in this amplifier, due to the considerable length of the drift, in order to avoid defocusing of the beam, only a high-voltage gun with low perveance can be used.

The purpose of the invention is to increase reliability, significantly reduce the length of the amplifier and reduce its operation voltage while obtaining high power,

This goal is achieved by introducing a traveling wave with a circular thermal cathode into the circuit.

FIG. 1 schematically shows a general view of the amplifier of high-frequency oscillations; in fig. 2 shows a sectional view of the installation.

The high-frequency oscillation amplifier contains a traveling wave 1 output ring resonator with energy output 2 with current collector 3 and an input ring resonator running wave 4 with Bis thermal cathode with energy input 6. The input and output resonators are located in a common housing 7.

The output resonator is electrically connected to the instrument case, and the input resonator is installed on the insulator B, the source of a constant voltage 9 is connected by a negative pole to

input cavity, and positive to the body of the amplifier. The energy input consists of the transmitting horn 10, the receiving horn of the Wave section: water 12 connected to the input resonator,

The input and output resonators have the same type of oscillations, the resonance frequencies and their wave phase velocities in them are the same. When power is applied to the input resonator in it, an EOS is driven by a wave traveling around the ring, for example, a type of Ho, where n is the number of waves laid down on the length of the resonator. Under the action of the field of this wave, electrons are emitted from the areas where the field is directed to the cathode. The electrons emitted in the favorable phases are ejected from the input cavity. The number of electrons emitted from their input resonator is determined by the amplitude of the field and the size of the gap. The electrodes, leaving the entrance resonator, are accelerated by a field of a constant voltage source. Thus, n electron beams rotate into the output resonator at a speed equal to the phase velocity of the wave. If we choose the parameters of the output resonator in an appropriate way, we can achieve almost complete conversion of the electron energy into the energy of high-frequency oscillations, i.e. get electronic efficiency close to 100%

The use in the amplifier of high-frequency oscillations of the entrance ring resonator of a traveling wave with an annular thermal cathode leads to a substantially / ly reduction in the length of the amplifier, makes it possible to reduce the voltage of the power supply and increase the reliability of the amplifier.

Claims (2)

1.Patent POWER number 3885193, cl. 331-79, published. 1970. 2. USSR author's certificate number 67770, cl. H 03 B 9/01, 1940 (prototype). / sh /Rig.g