RU93046530A - MIRROR ANTENNA WITH REDUCED EFFECTIVE SURFACE SURFACE - Google Patents

Claims (1)

Antenna refers to radio engineering. The application of the proposed device allows to increase the radar masking of the onboard antenna. Electromagnetic waves of vertical polarization, falling on the surface of a parabolic mirror, are reflected from it, since the vector E is parallel to its conductors. The effective scattering area (EPR) for waves of this polarization is determined by the radius of the parabolic mirror. The EMW of horizontal polarization freely passes through a parabolic mirror, since the vector E is perpendicular to its conductors, falls on the surface of a flat ribbed mirror and on the surface of a hemispherical mirror. Since the flat ribbed mirror rotates the plane of polarization of the electromagnetic wave incident on it, the vertically polarized electromagnetic wave falls on the inner surface of the parabolic mirror, reflects off of it and freely passes through the hemispherical mirror and focuses on the opening of the feed. That part of the EMW, which fell on a hemispherical mirror, will be reflected from it, since the vector E is parallel to its conductors, will freely pass through a parabolic mirror and dissipate in space. Since the ESR of the hemisphere is always less than the EPR of a polarizer unmatched polarizer with equal dimensions, the use of such a hemispherical polarized mirror covering the irradiator in a two-mirror antenna reduces the EPR of the antenna as a whole and, therefore, increases its radar masking.