SU1443062A1 - Cavity resonator - Google Patents

Abstract

The invention relates to a microwave technique. The purpose of the invention is to increase the vacuum of the oscillation spectrum of a cavity resonator while maintaining its overall dimensions. The cavity resonator contains a metal case, the inner surface of which is made in the form of a tetrahedron with the same trihedral angles, and the dihedral angles defining each of the trihedral angles are if / 2, / 3, TG / Z, the cavity resonator is excited, for example, by a coaxial probe 2 The electromagnetic wave coming from the external circuit into the coaxial probe 2 excites the main oscillation in the metal case 1 with the internal surface in the form of a tetrahedron. In the frequency spectrum of this oscillation there are no oscillations corresponding to the index m m, n, 1 (integers unequal to each other simultaneously) different parity present in the spectrum of the oscillation frequency generated in the rectangular cavity, therefore the spectrum of frequencies in the metal case 1 is more rare. 1 il. (L

Description

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The invention relates to microwave technology, namely to resonant devices based on hollow metal resonators,

The aim of the invention is to increase the rarefaction spectrum of the oscillations of the cavity resonator while maintaining its overall dimensions.

The drawing shows an obpuman resonator with an excitation element.

The cavity resonator contains a metal case 1, the inner surface of which is made in the form of a tetrahedron with identical trihedral angles, and the dihedral angles defining each of the trihedral angles are equal to ff / 2, / 3, f (/ 3. The volumetric resonator is excited, for example, coaxial probe 2.

The cavity resonator works as follows.

The electromagnetic wave entering the coaxial probe 2 from the external circuit drives a fundamental oscillation in the metal housing 1. Excitation of the main oscillation is accompanied by a change in the phase-frequency and amplitude-frequency characteristics of the signal reflected from the coaxial probe 2 in the vicinity of the resonant frequency of the main oscillation. In addition to the main oscillation, the metal housing 1 has higher oscillations that distort the frequency characteristics of the wave reflected from the coaxial probe 2. Distortion is less, the smaller the higher oscillations in the working frequency range, t, e, the less often the spectrum of oscillations of the cavity resonator. Spectrum sparing can always be achieved by reducing the overall dimensions of the cavity resonator, however, its other characteristics are deteriorated: quality, processability, etc. Therefore, it is the rarefaction of the oscillation spectrum that leads to a positive effect while maintaining overall dimensions.

Compiled by S. Editor A. O. Golovach Tehred L. Oliyna

The natural frequencies of the cavity resonator f .e are determined by the formula

WITH

ti, 1 ", t

 - l; - g

2b

t

+ n2 + 12 (1)

ov

where C is the speed of light in a vacuum; b is the length of the RBRA AC tetrahedron; m, n, l - integers of the same parity, simultaneously unequal to each other.

In addition, for magnetic: oscillations, and for electric oscillations m 5 n at 10, the eigenfrequencies of a known rectangular resonator of the same overall dimensions are also determined by the formula (1), but ha, n, 1 take other integer values : m U, 1, .., 5n 0.1p ... s (m),, 2 ... for magnetic oscillations and m 1,2 ,,,, n 1, 2 ,,,, 1 0 , 1,2,., For electrical oscillations.

Thus, in the frequency spectrum of a metal case 1 with an internal surface in the form of a tetrahedron, there are no oscillations corresponding to indices m, n, 1 of different parity present in the frequency spectrum of the rectangular resonator. Therefore, the frequency spectrum of the metal case 1 is more rare. Due to this, a positive effect from the use of the proposed cavity resonator is achieved - rarefaction of the vibrational spectrum while maintaining the dimensions,

Claims (1)

Claim 1 -. - A cavity resonator containing a metal body, characterized in that, in order to increase the rarefaction spectrum of vibrations while maintaining overall dimensions, the inner surface of the body is made in the form of a tetrahedron, which has three-sided angles, and the two-sided angles between each plane are equal ff / 2, 1G / 3.5 fr / 3, Corrector C, Cherni