SU1376150A1 - Aerial - Google Patents

Abstract

The invention relates to radio engineering. The purpose of the invention is to increase the coefficient e. enhancement, reduction of side lobe level and reduction of cross-polarization by increasing the accuracy of converting axisymmetric polarization into plane-parallel. The antenna contains a tutor 1, a round mirror (CC) 2 with conductors located above its working surface (P) 3. The distance between P 3 does not exceed 1/2 of the working wave. To achieve the goal, the P 3 are located along the 6-pp 3iftiM non-intersecting lines, the projections of the -k to the plane perpendicular to the axis of the CC 2 are curves that are symmetrical with respect to the diameter of the CC 2. Their vergains lie on this diameter between the center of the CC 2 and its edge. The angle of inclination of the curves to the diameter at the point of intersection with it is equal to 90 and decreases monotonously as the current point of the curve moves away from its vertex. The rate of change of the angle of inclination of the curve to the diameter increases as the tip of the curve approaches the center of the short-wave 2. The projections are parabolas with a focus on the short-2 axis. 1 Cp f-ly, 2 ill. with (L

Description

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The invention relates to radio engineering and can be used to improve the characteristics of mirror antennas with irradiators operating on HQ or E waves, and radiate linear polarization after polarization upon reflection from a mirror surface provided with polarized phase section with a phase shift of 180.

The aim of the invention is to increase the gain, decrease the side-lobe level and decrease cross-polarization by increasing the accuracy of converting the axisymmetric polarization to plane-parallel.

Figure 1 presents the antenna in a perspective view; FIG. 2 shows the projections of the conductors onto the plane, perpendicular to the axis of the circular mirror;

The antenna contains an irradiator 1, a circular mirror 2 with conductors 3 located above its working surface; Axis 4 of an irradiator 1 crosses a circular mirror 2 in its center-point o; The conductors 3 are located along arcuate non-intersecting line 1, the projections 5 of which onto the plane perpendicular to the axis of the circular mirror 2, are symmetric with respect to diameter 6 (Fig 2). the surface of the round mirror 2 is about a quarter of the working wave and is chosen from the condition

a phase shift of 180 for the reflected field parallel and perpendicular to the conductors 3 polarizations.

The antenna works as follows.

The irradiator 1 emits an axisymmetric field with circular (or radial) electric power lines. When reflected from a round mirror 2, the polarization is transformed into a horizontal (respectively, into vertical) plane-parallel, since during a phase shift of 180 between the tangential and

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Node and normal to conductors 3 electrical components of the field, the reflected field vector is mirrored to the vector of the incident field relative to the direction of the conductors 3 at this point (Fig 2)

A theoretically exact transformation (in the paraxial region) is achieved when the projections of the conductors 3 onto the plane perpendicular to the axis of the circular mirror 2 are parabolas with a focus on the axis of the circular mirror.

Claims (1)

1. An antenna containing a round mirror, wires located above its surface with an interval of not more than 7/2 between them, where 9 is the working wavelength, and the illuminator with polarization symmetric about the axis of the round mirror, By the fact that, in order to increase the gain, decrease the level of side lobes and reduce cross-polarization by increasing the accuracy of converting axisymmetric polarization into plane-parallel, the conductors are arranged along arcuate non-intersecting lines, the projections of which in a plane perpendicular to the axis of the circular mirror .krivymi are symmetrical with respect to the diameter of a circular mirror, their tops lie at this diameter between the center of the round mirror and its edge, the angle of inclination of the curves to the diameter at the point of intersection with it is 90 and monotonously decreases as the current point of the curve moves away from its top, and the rate of change of the angle of inclination of the curve to the diameter increases the center of the round mirror 2, The antenna according to claim 1, wherein the projections of the arcuate intersecting lines onto a plane perpendicular to the axis of the circular mirror are parabolas with focus on the axis of the circular mirror. ,five FIG. 2