SU1596413A1 - Aerial with electric scanning - Google Patents

Abstract

The invention relates to antenna technology. The purpose of the invention is to provide wide-angle scanning in two mutually perpendicular planes. In the antenna, an electromagnetic wave, excited by the horn 10, propagates in the ferrite-insulator-ferrite three-layer structure and excites the radiating slots 4, which form a narrow beam. The position of the beam is controlled in the plane passing through the longitudinal axis of the antenna, the control conductors 2, and in the plane perpendicular to the longitudinal axis, the upper and lower additional control conductors 7 and 8. The traveling wave in the three-layer structure is provided by coordinated loads 12. 1 Il.

Description

The invention relates to antenna technology and the technique of millimeter waves, and specifically to devices of high-performance scanning antennas with a wide scanning sector, and can be used in various radio engineering systems.

The purpose of the invention is to provide wide-angle scanning in two mutually perpendicular planes.

The drawing shows a structural electrical circuit of the antenna with electric scanning.

Claims (1)

The electric scanning antenna contains a phasing unit, consisting of a ferrite toroid 1 of rectangular cross section, inside which the first and N - 2 additional control conductors 2 and the dielectric element in the form of N dielectric rods 3, closely adjoining the internal ones, are installed parallel to its longitudinal axis. the walls of the ferrite toroid 1 of rectangular cross section, the emitters 4 placed on the upper wide wall of the ferrite toroid 1 of rectangular cross section, the metallization layer 5 on its lower wide wall (on the is not shown), two plates of magnetically flexible material 6 with a comb structure having grooves and protrusions that are mounted on a part of the upper wide wall of a ferrite toroid 1 of rectangular cross section free of radiators 4 and its lower wide wall, with the grooves with the upper 7 and the lower 8 additional control conductors are located symmetrically with respect to the dielectric rods 3 and are equal to them in width, and the protrusions adjoin the surface by the corresponding wide wall, while the narrow side walls 9 of the ferrite 1 oroida rectangular cross section are arranged only in one part fer ritovogo toroid of rectangular section 1 corresponding to the lattice plane emitters that perform us in the form of slots 4 in the layer of metallization on the central part of upper ferrite toroid ki ste 1 mougolnbgo straight section. . An electrically scanned antenna can be excited with one E-sectorial horn 10 with a matching dielectric plate 11, opposite to the exciting E-sectorial horn 10 of the side, a matching Loadbox 12 is installed. The electric scan antenna works as follows. The electromagnetic wave, excited by the horn 10, spreads in the ferrite-insulator-ferrite three-layer structure and excites the radiating slots 4, which form a narrow beam. The position of the beam is controlled in the plane passing through the longitudinal axis of the antenna, by the control conductors 2, and in the plane perpendicular to the longitudinal axis (transverse) by the upper 7 and lower 8 by additional control conductors. The traveling wave mode in a three-layer structure is provided due to the matched load 12. Thus, wide-angle scanning is provided in two mutually perpendicular planes. An electric-scanning antenna comprising a phasing unit consisting of a ferrite toroid of rectangular cross section, inside of which control conductors and a dielectric element are installed parallel to its longitudinal axis, tightly adjacent to the inner wide walls of the ferrite toroid of rectangular cross section, radiators, placed on the upper wide wall of a ferrite toroid of rectangular cross section, and a metallization layer on its lower wide wall, characterized in that, in order to provide A wide-angle scan in two mutually perpendicular planes, the emitters are made in the form of slots in the metallization layer located on the central part of the upper wide wall of the ferrite toroid of rectangular cross section, forming a flat grating in rows and columns, the dielectric element is N-dielectric rods N is the number of rows of the flat grid, installed parallel to each other with equal gaps, in which the first and N-2 additional control conductors are placed, two layers are introduced Magnetic material with a comb structure with grooves and protrusions that are installed on the peripheral parts of the upper wide wall of a ferrite toroid of rectangular cross section free of emitters and its lower wide wall, and the grooves are located symmetrically with respect to the dielectric rods and they are equal in width, and the protrusions adjoin the surface of the corresponding wide wall, while the narrow side walls of the ferrite toroid of rectangular cross section are located only in the central part of the ferrites the first toroid of rectangular section, corresponding to the lattice plane. vv: v. X P h I /