SU1160496A1 - Aperture aerial - Google Patents

Abstract

APERTURE ANTENNA, containing two identical direct dielectric prisms, installed in its opening, characterized in that, in order to reduce the level of the first side lobes of the WMMM directivity in a given plane, the right dielectric have right triangular triangles and a height less than the height of the flathead aperture antenna and installed so that the same first legs of the bases are located / in a given plane and parallel to the plane of the open, and the second legs of the bases or edges opposite the second cat there i match each other, with a parallelepiped of the same dielectric as the straight dielectric prism having a base area equal to the sum of the base areas of the right dielectric prisms between the straight dielectric prisms and the aperture of the aperture antenna. parallelepiped to the aperture area is equal to the relative level of the first side lobe of the directional diagram, and the angle Tf between the first leg and the hypotenuse of the base of each straight dielectric is s is determined by the relation: .... QO where the angle between the maxima of the main and first side lobes of the radiation pattern i 05 is the refractive index and о of the dielectric. 4: CO a:

Description

The invention relates to radio engineering, namely to aperture antennas.

The purpose of the invention is to reduce the level of the first side lobes of the radiation pattern in the given plane.

In FIG. Figures 1 and 2 show the structural aperture antenna / two versions of 'technical implementation- they are distinguished by the orientation of direct- *% ιχ dielectric ’prisms).

The aperture antenna contains a device with excitation ^ 1 that can be open, 1S, for example, in the form of a two-mirror antenna with a main mirror 3, an irradiator 4 and an auxiliary mirror 5. Two identical 20 straight dielectric prisms 6 are installed in the aperture 2 of the aperture antenna. and between the opening 2 and the direct dielectric prisms 6, a parallelepiped 7 of the same dielectric as the direct dielectric prisms 25 is inserted 6.

Aperture antenna operates as follows.

The energy of electromagnetic waves coming to open 2 from the excitation device .1 is divided into two streams: the larger passes through open 2, bypassing the direct dielectric prism - parallelepiped system, and forms the aperture antenna bottom in the far zone (including the main and first side lobes ), and a smaller energy flux passes through a system of direct dielectric prisms - a parallelepiped and forms a partial MD. In this case, the two main lobes of the partial beam appear to be oriented in the direction of suppressed first side lobes of the aperture of opening 2 and out of phase with them, which leads to partial compensation of the radiation field of the aperture antenna in the region of the first side lobes.

Using the invention allows to obtain the suppression of the first side lobes by 7 dB.

Claims (1)

An aperture antenna containing two identical direct dielectric prisms installed in its aperture is distinguishing. with the fact that, in order to reduce the level of the first side lobes of the radiation pattern in a given plane, direct dielectric prisms have rectangular triangles and a height lower than the aperture of the aperture antenna at the base and are set so that the same first base legs are located / in a given plane and parallel to the aperture plane, and the second leg legs or ribs opposite the second leg; they are in contact with each other, while between the direct dielectric prisms and the aperture aperture a parallelepiped is introduced from the same dielectric as the direct dielectric prisms having a base area equal to the sum of the base areas of the direct dielectric prisms, and the ratio of the base area of the parallelepiped to the opening area is equal to the relative the level of the first side lobe of the directional diagram, and the angle between the first _Λ leg and the hypotenuse of the base 5 of each direct dielectric prism is determined the ratio of U te-e _o where Θ _ο is the angle between the maxima of the main and first side lobes of the radiation pattern; And is the refractive index of the dielectric.