DE3134122A1 - Antenna system with a dielectric - Google Patents

Abstract

An antenna (aerial) system contains as the element which forms its polar diagram, to produce a receiving antenna, a combination of a hemisphere consisting of dielectric material and a circular disc, which rests flat on the cut surface of this hemisphere, that side of the disc which faces away from the hemisphere being curved in a parabolic shape and being constructed to be reflective. The azimuth beam forming (focusing) is governed essentially by the dimensions and the construction of the hemisphere, while in contrast the beam formation in elevation is determined by the shape of the parabolically curved disc.

Description

Antenna system with dielectric

The invention relates to an antenna system as set out in the preamble of the claim 1 specified Art.

Such an antenna system is known, for example, from DE-OS 28 49 438. In the known antenna system, a directional diagram with approximately elliptical cross-section. When the disc is designed as a metal disc, it has the directional diagram goes up and reaches - with its lower 3 dB point to just below the horizon. In the version with a circular cylindrical disk made of dielectric Material shows the central axis of the directional diagram on the horizon.

The object of the present invention is to provide an antenna system of Specify the type mentioned at the beginning, which is the generation of a largely frequency-independent Directional diagram allows its half width and main beam direction in the elevation over can be freely adjusted over a wide range.

The inventive solution to this task is in the claim 1 described. Advantageous refinements and developments of the invention can can be taken from the subclaims. The invention is still based on the following explained in detail in the illustration.

The receiving antenna 1 is in the usual way on the edge of the hemisphere 2 arranged. Broadband receiving antennas such as. B. spiral antennas or horn antennas. The focus in azimuth is essential determined by the diameter and structure of the dielectric hemisphere. This can for example be constructed homogeneously, but can also be staggered several times in the manner of a Luneberg lens or have a dielectric that changes continuously with the radius.

The circular disk 3 has the same diameter as the hemisphere and lies flat against their cut surface. The side of the facing away from the hemisphere The pane is provided with a reflective layer 4. The shape of the disc is such that in the plane of the azimuthal main beam direction, that is, in the plane through the central axis the hemisphere and the receiving antenna extending the plane facing away from the hemisphere Side of the disk 3 corresponds to a section of a parabola, the parabola so lies or the disc is curved so that the parabolic focal point F with the receiving antenna 1 coincides. The parabolically curved and reflective side the disk causes a bundling in the elevation. The desired width at half maximum and main beam direction in the elevation can be determined by selecting the Set the geometric dimensions of the parabolic curved disc.

The freedom in the geometric dimensions is particularly relevant the opening width of the parabola and the inclination of the parabola axis to the horizontal.

Due to the largely separate influencing of the antenna diagram in azimuth through the hemisphere on the one hand and in elevation through the parabolic curved surface of the disc, on the other hand, there is an advantageous freedom in the variation of the directional diagram required in each case by combining accordingly. constructed or shaped element parts.

According to a favorable embodiment of the invention, it is reflective formed side 4 of the disc 3 is provided with a solid metal layer. One Another favorable embodiment provides the reflective side the disc with a metallic lattice structure, such as. B. a wire mesh, to provide.

The hemisphere 2 and the disk 3 are advantageously made dielectric materials with the same or at least approximately the same dielectric constant. This causes reflections on the contact surface, which lead to annoying interference can lead, avoided. In particular, both element parts, as well as hemisphere as well as disk, made of homogeneous dielectric or inhomogeneous from multi-stepped Be constructed dielectric or continuously changing dielectric. the end For manufacturing reasons, it is also advantageous in the case of an inhomogeneous structure of the hemisphere, to manufacture the disk from a homogeneous dielectric with a value of the dielectric constant, which is approximately equal to an average value from the variable dielectric constant the hemisphere. Blank page

Claims (5)

Claims 1. Antenna system with a receiving antenna (1) and a passive diagram-forming element comprising a hemisphere (2) of dielectric Material and a circular one lying flat against the cut surface of the hemisphere Has disc (5) made of dielectric material, characterized in that the the side (4) of the disc (3) facing away from the hemisphere is designed to be reflective and is so parabolically curved in the plane of the azimuthal main beam direction that the Parabolic focal point (S) coincides with the location of the receiving antenna (1). 2. Antenna system according to claim 1, characterized in that the reflective side (4) of the disc (3) with a solid metal layer is provided. 3. Antenna system according to claim 1, characterized in that the reflective side (4) of the pane (3) with a metallic lattice structure is provided. 4. Antenna system according to one of claims 1 to 3, characterized in that that hemisphere (2) and disk (3) made of dielectric materials with approximately the same Dielectric constant exist. 5. Antenna system according to one of claims 1 to 3, characterized in that that with an inhomogeneous structure of the hemisphere (2) with an average value of the dielectric constant the disk (3) is made of a homogeneous dielectric with a value that approximates this average same value of dielectric constant.