SU1133631A1 - Coaxial-waveguide transition section - Google Patents

Abstract

A COAXIAL-WATERWATER TRANSITION, containing a rectangular waveguide segment, shorted by the end wall, and a coaxial line segment, connected to the rectangular waveguide segment through the middle of its wide wall using an exciter element consisting of a metal pin, which is a continuation of the center conductor, a coaxial element, which consists of a metal pin, which is a continuation of the center conductor, a coaxial element, which consists of a metal pin, which is a continuation of the center conductor, a coaxial element, a coaxial line consisting of a metal pin, which is a continuation of the center conductor, a coaxial element, a coaxial line consisting of a metal pin, which is a continuation of the center conductor, a coaxial element, a coaxial line consisting of a metal pin, which is a continuation of the center conductor, a coax coaxial line, which is an extension of the coaxial line. and the dielectric sleeve surrounding the metal pin, in order to expand the working frequency band and reduce phase distortions, A dielectric nut is installed on the dielectric bushing so that it can be moved along it.

Description

The invention relates to microwave technology and can be used in the construction of waveguide paths.

Known coaxial waveguide transition containing a segment of a rectangular 5 waveguide shorted by the end wall and a segment of a coaxial line connected to a segment of a rectangular waveguide through the middle of its wide wall using 10 excitation element consisting of a metal pin, which is a continuation of the Central conductor of the segment of the coaxial line [1],.

A disadvantage of the known coaxial 15 waveguide transition is a narrow operating frequency range.

The closest to the invention in technical essence is a coaxial waveguide transition containing 20 a segment of a rectangular waveguide, shorted by the end wall, and a segment of a coaxial line connected to a segment of a rectangular waveguide through the middle of its 25 wide wall using an exciting element consisting of a metal pin , which is a continuation of the central conductor of the segment of the coaxial line, and the dielectric sleeve 30 surrounding the metal pin [21.

The disadvantages of the known coaxial waveguide transition are the relatively narrow width of the working frequency band and the large phase distortion introduced by the transition in the frequency band.

The purpose of the invention is the expansion of the ₄ θ working frequency band and the reduction of phase distortion.

For this, in a coaxial-waveguide transition containing a segment of a rectangular waveguide, shorted by an end wall ₄₅ , and a segment of a coaxial line connected to a segment of a rectangular waveguide through the middle of its wall width using an exciting element consisting of a _5Q metal pin, which is a continuation of the central conductor of the coaxial segment of the line, and of the dielectric sleeve surrounding the metal pin, a dielectric nut is inserted mounted on the dielectric 'sleeve with the possibility of alternating ests along.

The drawing shows the design of a coaxial waveguide transition.

The coaxial waveguide transition contains a segment 1 of a rectangular waveguide shorted by an end wall 2 and a segment 3 of a coaxial line * connected to a segment 1 of a rectangular waveguide through the middle of its wide wall 4 using an exciting element consisting of a metal pin 5, which is a continuation of the central conductor 6 of segment 3 a coaxial line and a dielectric sleeve 7 surrounding it. On the dielectric sleeve 7, a dielectric nut 8 is mounted to move along it.

Coaxial waveguide transition works as follows.

The microwave signal coming along the segment 3 of the coaxial line excites the microwave current in the metal pin 5, which ensures the excitation of the segment 1 of the rectangular waveguide on the wave Hi ₀ .

The process of tuning the coaxial-waveguide transition in order to expand the working frequency band to the full frequency range of the waveguide with a low SWR (no more than 1.08) consists in choosing the position of the dielectric nut 8 on the dielectric barrel 7.

At the same time as the coordination of the coaxial-waveguide transition is improved, phase distortions are reduced, which in the entire frequency range of the waveguide do not exceed 2.

For a dielectric with a value of £ = 2.2 (fluoroplastic), positive results were obtained with the following dimensions of the transition elements: the outer diameter of the dielectric sleeve is / / 7Р = 50., where d is the diameter of the metal pin 5, the outer diameter of the dielectric nut is 8Р <= 2Р, and its thickness t = d

VNIIIPI Order 9956/42

Circulation 638

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Branch of the PPP Patent, Uzhgorod, Project 4,

Claims (1)

(54X57) COAXIAL-WAVEGUIDE TRANSITION containing a segment of a rectangular waveguide shorted by an end wall and a segment of a coaxial line connected to a segment of a rectangular waveguide through the middle of its wide wall using an exciting element consisting of a metal pin, which is a continuation of the central conductor of a segment of a coaxial line and the dielectric sleeve surrounding the metal pin, but the fact is that, in order to expand the working frequency band and reduce phase distortion, we introduced on dielectric nut mounted on a dielectric sleeve movably therealong. . §> 1 1133631 2