SU1730702A1 - Method of reflecting electromagnetic wave in the direction of arrival - Google Patents

Abstract

The invention relates to antenna technology and can be used, for example, in navigation and communication systems, in particular in heading adjustment devices. The goal is to reduce the cross-polarization level and increase the efficiency, which is achieved by placing a dielectric substrate with a screen of microstrip resonators with a period in the plane of the DA / wave incidence (in, where 19.47 ° 90E is the angle of incidence of the wave, A - wavelength. 2 ill.

Description

The invention relates to radio engineering, in particular, to antenna technology, and can be used in communication and navigation systems.

The aim of the invention is to reduce the level of cross-polarization, increase efficiency.

FIG. 1 and 2. The structure of a device that implements a method for reflecting a wave in the direction of arrival is shown.

The device contains a dielectric substrate 1, on one side of which a flat metal screen 2 is located, and on the other side there are rectangular metal conductors 3, the latter are placed at the nodes of a rectangular two-dimensional coordinate system 4, one of the axes of which is parallel to the plane of incidence of the electromagnetic wave 5, and The definition of D between the rectangular metallic conductors 3 along this axis satisfies the relation

D A / (2sin in),

where A is the wavelength at the center frequency of the specified operating frequency range;

The b-angle of incidence of electromagnetic wave 5, lying within 19.47 ° at 90 °, and the dimensions of the sides of the rectangular metal conductors 3 are chosen from the resonance condition, while the sides of the rectangular metal conductors 3 are oriented parallel to the axis of the rectangular two-dimensional coordinate system 1 .

The reflection of an electromagnetic wave in the direction of arrival occurs as follows. A plane electromagnetic wave 5 incident on the surface of the reflector 1 induces electric currents on a grid of rectangular metal conductors 3. The radiation of these currents forms a diffraction maximum of the grid, which is oriented in the direction opposite to the direction of incidence of the plane electromagnetic wave 5. At the same time, From the resonance conditions, the other maximum of the lattice, oriented in the direction specular to the direction of the fall of the flat electromagnetic in the lny 5 is not formed.

cl

with

XJ with

about vj

about

Yu

The use of the proposed method for the reflection of an electromagnetic wave in the direction of arrival in communication and navigation systems makes it possible to reduce the level of cross-polarization, increase efficiency, and increase their energy potential.

Claims (1)

The invention The method of reflection of an electromagnetic wave in the direction of arrival, including the placement on the path of an electromagnetic wave reflector, made in the form of a dielectric substrate, on one side of which there is a metal screen, and on the other, facing the arrival of an electromagnetic wave, are placed t is characterized by the fact that, in order to reduce the level of cross-polarization, higher five 0 Neither efficiency, rectangular metal conductors are made in the form of microstrip resonators, placed at the nodes of the rectangular coordinate system, one of the axes of which is parallel to the plane of incidence of the electromagnetic wave, and the distance D between the rectangular metal conductors along this coordinate axis satisfies the relation D A / (2sin in), where, the wavelength at the center frequency of the operating range; at an angle of incidence of an electromagnetic wave in the range of 19.47 ° to 90, with the sides of the rectangular metal conductors being oriented parallel to the axis of the rectangular coordinate system. Phie.1 2