SU421078A1 - DIELECTRIC WAVEGRUPT ^ and ID Oi'ii ;;,!:; ' . 1h * I - Google Patents

Description

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The invention relates to radio engineering and can be used for long-distance broadband communication lines in the millimeter wavelength range.

Lime such waveguide waveguides for low-attenuation erected lines, such as round all-metal and spiral waveguides with a fast transverse electric wave. However, these well-known waveguides are characterized by low filtration of higher transverse electrical (), the need to use expensive materials, their materials (copper, epoxy resin, etc.), structural and technological complexity. In addition, the waveguide sections can be made up to five meters in length.

A screened dielectric waveguide with a slowed-down working wave is known, consisting of a rectangular dielectric rod placed in a tube made of a material with low conductivity, such as bakelized plywood, or in a metal tube with an aquadag layer on the inner surface. This waveguide is characterized by a high degree of filtering of unwanted waves, as well as a constructive and techiological and laxity. However, the losses of the slowed working wave are high.

The aim of the invention is to reduce the linear attenuation of a shielded, d-electric, micowave waveguide during the transmission of a fast TEoi wave and to increase the degree of filtering of unwanted wavelengths.

This is achieved by placing the dielectric tube in an impedance screen, with the gap between the outer surface of the dielectric tube and the impedance screen d (l / 8-3 / 8) 2a.

In the drawing, the image of the proposed waveguide.

The dielectric tube 1, made of a material with low heat losses on the microwave (polyethylene, fluoroplast-4), is placed in a coaxial screen 2 with an impedance layer 3. When conditions are fulfilled, -C 1 (I-wavelength, and - inner radius

dielectric i. (2m-g 1) (d is the thickness

garlic pipe) and

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four -.

walls, e is the dielectric constant of the pipe material, m is an integer number) the structure of the working wave in the internally dielectric tube almost coincides with the structure of the wave TEoi in a metal waveguide of circular cross section. In a hollow dielectric waveguide

impedance screen can be realized very small losses.

Example. Attenuation of the working wave of a hollow dielectric waveguide in a coaxial implanted screen at K 8 mm with a dielectric tube made of polyethylene (8 2.3; tg6, where tg6 is the dielectric loss tangent, thick, Ina 1.7 mm wall, inner diameter 70 mm) placed in a steel pipe with a diameter of 100 mm, with an impedance layer of aquadag (., a - conductivity, layer thickness 0.4 mm) has a damping of 2.6 dB / km.

The centering of the dielectric tube is uncritical. With the displacement of the centers of the pipe and the input screen by an amount not greater than 0.25 a, the working wave does not change its

structure, remaining a wave of THei, and the increase in linear losses is not significant.

Subject invention

A dielectric waveguide consisting of an elastic dielectric tube with an internal diameter of 2A, filled with dry gas under excessive pressure, characterized in that, in order to reduce the linear attenuation during the transmission of the fast TEoi wave to a new degree of filtration of unwanted will types, the dielectric tube is placed in an impedance screen, and the gap between the outer surface of the dielectric tube and the impedance screen d (l / 8-3 / 8) 2a.