SU1756983A1 - Polarization selector - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to improve the technological design for paths millimeter-wave range. The selector contains segments of a circular waveguide (OKB) 1 and 2 located coaxially, a segment of a rectangular waveguide (OPV) 3 is connected to OKB 1 and a short-circuited OPV 4 diametrically opposed to it, and OPV 5 and short-circuited OPV are connected to OKV 2 6, while the OPV 3 and 5 are orthogonal. OKV 1 and 2 are made of two half-cylinders each, between which are mounted metal plates 7 and 8, having a U-shape. This simplifies the design and adjustment process of the selector, especially in the millimeter wavelength range. 1 il.

Description

SU 1756983 A1 (505 N 01 P 1/161

STATE COMMITTEE

BY INVENTIONS AND DISCOVERIES

AT SCST USSR

DESCRIPTION OF THE INVENTION

TO AUTHOR'S CERTIFICATE

(21) 4833783/09 (22) 04.16.90 (46) 08.23.92Bul.No 31 (71) Scientific Research Institute of Radiophysics named after Academician A.A. Raspletin (72) B.Kh. Golberg, Yu.V. Pashinov and V, A. Semenov (56) Handbook of radio relay communication. Ed. the second one. Edited by S.V. Borodich.-M. Radio and Communications, 1981, 73-75.

Japanese Application No. 63-19083, CL H 01 P 1/161, 1988.

(54) POLARIZATION SELECTOR (57) The invention relates to radio engineering. The purpose of the invention is to increase the technological design for the paths of the millimeter wave range. The selector contains segments of a circular waveguide (OKV) 1 and 2, located coaxially, to the OKV 1 is connected a segment of a rectangular waveguide (OPV) 3 and a short-circuited OPV 4 diametrically opposite to it, to the OKV 2 are similarly connected an OPV 5 and a short-circuited OPV 6, while the OPV 3 and 5 are set orthogonally. ΟΚΒΊ and 2 are made of two half-cylinders each, between which metal plates 7 and 8 are installed, having a U-shaped shape. This allows us to simplify the design and the process of tuning the selector, especially in the millimeter wavelength range. 1 ill.

Joint venture

FROM

1756983 A1

The invention relates to radio engineering and can be used to separate orthogonally polarized signals mainly in the millimeter wavelength range. 5

The aim of the invention is to increase the manufacturability of the design for the paths of the millimeter wave range.

The drawing shows a polarization selector, General view. 10

The polarization selector contains segments of a circular waveguide 1 and 2 located coaxially, a segment of a rectangular waveguide 3 and a diametrically opposite 15 connected to a segment of a circular waveguide 1 but a matching element in the form of a short-circuited segment of a rectangular waveguide 4, while their wide walls are parallel to the segment of a round of waveguide 2, a cut of a rectangular waveguide 5 and a short-circuited segment of a rectangular waveguide 6 are connected in a similar way, while the segments of a rectangular waveguide 3 and 5 are mounted Togonally. The segments of the circular waveguide 1 and 2 25 are made of two half-cylinders each, between which metal plates 7 and 8 are installed, having a U-shape, the length equal to the length of the segments of the circular waveguide 1 and 2 and the distance between the sides equal to the diameter of the circular waveguide . Metal plates 7 and 8 are installed in the region where the segments of the rectangular waveguide 3 and 5 are located, and their final position is selected 35 during adjustment.

The polarization selector operates as follows.

The microwave signal enters the segment of the circular waveguide 1, the vertical component 40 of this signal is reflected from the metal plate 7 and enters the segment of the rectangular waveguide 3. The length of the short-circuited segment of the rectangular waveguide 4 is selected according to condition 45 of the best matching and to ensure the maximum operating band be less than a quarter of the average wavelength. The horizontal component of the microwave signal passes almost without loss from the segment of the round waveguide 1 and enters the segment of the round waveguide 2, where it is reflected from the metal plate 8 and. enters the segment of the rectangular waveguide 5. The matching mode in the segment of the circular waveguide 2 is provided by a short-circuited segment of the rectangular waveguide 6, the length of which is selected upon matching as for the segment of the circular waveguide 1. A short-circuit or load can be installed at the output of the segment of the circular waveguide 2 (not shown ), which is determined by the absence of 10 resonances in the working frequency band. The execution of the segments of the circular waveguide 1 and 2 in the form of half-cylinders, the installation of metal plates 7 and 8 between them and the matching elements in the 15 short-circuited segments of the rectangular waveguide 4 and 6 allow us to simplify the design and the process of tuning the polarization selector, especially in the millimeter wave range,

Claims (1)

20 claims A polarizing selector containing two segments of a circular waveguide arranged coaxially, each of which is connected to a segment of a rectangular waveguide25, the wide wall of which is parallel to the axis of a segment of a circular waveguide, and the segments of a rectangular waveguide are orthogonal, and a matching element and a 30 metal plate are installed in each segment of the circular waveguide located along its diameter in the region of connecting a segment of a rectangular waveguide in a plane perpendicular to its wide wall, which is characterized by the fact that, with In order to increase the manufacturability of the design for the paths of the millimeter wave range, each matching element is made in the form of a short-circuited segment of a rectangular waveguide connected to a segment of a circular waveguide and located diametrically opposite to the corresponding segment of the rectangular waveguide, the wide walls of the short-circuited segment of the rectangular waveguide parallel to the wide walls of the corresponding segment a rectangular waveguide, and each segment of a circular waveguide is made of two half-cylinders, a metal plate has a U-shaped 50 shape, a length equal to the length of a segment of a circular waveguide, and a distance between the sides equal to the diameter of a segment of a circular waveguide.