SU1587612A1 - Linear slotted waveguide antenna - Google Patents

Abstract

The invention relates to antenna technology and can be used in side-looking radar systems and shipborne radar systems. The purpose of the invention is to suppress diffraction peaks by reducing the width of the single-slot pattern in the E-plane. The waveguide-slot antenna line contains a segment of a rectangular waveguide 1, transverse radiating slots 2, two metal plates 3 located on the wide wall of a segment of a rectangular waveguide 1. Distance D between radiating slots 2 is close to the wavelength λ in. By choosing the distance between the metal plates 3 in the aperture plane of the transverse radiating slots A = (0.5 - 0.55) λ, where λ is the working wavelength in free space, and the angle of incidence between them in accordance with the expression 5 ° ≤ α≤150 ° / LG [COS (Θ + 0.8 ° (A + 10))] /, where Θ ° is the angle corresponding to the diffraction maximum closest to the lattice normal, deg.

A is the value corresponding to the required level of suppression of the diffraction maximum at an angle of Θ °, DB (АΩ), and AREA OF THE CALCULATION OF THE CALCULATION OF THE CIRCULATION OF THE METAL PLATES 3 AND THE TRANSVERSAL 2 H≥Λ TRANSFORMATION, IT IS DELIVERED BY CURRENT 3 2 IL.

Description

Inventing HHt relates to a tehnnco antenna and a molset to be used in side-tracking radar systems and radar,

The purpose of the invention is to suppress diffraction maxima by reducing the 1pir of the single-slot pattern in the E-PLOS bone.

FIG. Figures 1 and 2 show the structural scheme of a linear waveguide-slot antenna.

Linear wave-gap antenna | Na contains a segment of a rectangular waveguide 1, transverse radiating slots 2, two metal plates 3 rasg1olo: senn, 1e on the wide wall of a segment of a rectangular waveguide 1 "

The distance between the metal plates 3 in the plane of the transverse radius of the slits is chosen a (0.5-0.55) /, the angle between them is equal to c /.

The distances d are emitted by the radiation111, and by them, gaps 2 are close to the wavelength in vrzododr / Ig. The length of the slit gap and the position of its center relative to the midline of the wide wall of a segment of a rectangular waveguide 1 is determined by a given amplitude distribution.

R

Linear waveguide antenna works as follows.

The electromagnetic energy of the microwave with a given wavelength: the waves in the free space D propagates along a segment of a right-angled waveguide 1 and an excitement 7, (gives radiating slots 2, each of which emits a field with a strictly longitudinal polarization 3. When the distance between the plates is greater than 0.5 A, this space has the properties of a medium with a variable wavelength (}) refraction () and refraction. In such a medium, the ray trajectories are curved, and the energy, the radiation, the 1st light source, is concentrated to reduce nnom sector angles compared with pervonacha.inym, i.e. there is a narrowing single slit source directivity pattern in the plane T in the required uro) nu.

Thus, with the corresponding opening angle of the metal plates and the distance between them in the aperture plane of the transverse emitting slots 2, as well as the distance between the planes of the openings of the metal plates 2 and transverse emitting slots 2 h L, highs to the required level.

In addition, a reduction in the side-lobe level in the E-plane and an increase in the gain factor ratio is provided.

Formula and 3 on b.

A waveguide-slot antenna line containing a rectangular waveguide segment, on the wide wall of which transverse radiating slots are made and two metal plates are installed on it, which are located along the axis of the rectangular water segment symmetrically with respect to the middle linear-, scientific research institute of its wide wall which in the aperture plane of the transverse radiating slits is chosen to be (0.5-0.55) A, where L is the working wavelength in free space, which is characterized by the fact that s; n; Yu, the suppression of diffraction maxima at even reduce the width of the directional diagram of a single slit in the E-plane, the aperture plane of transverse emitters of cracks and metal plates are parallel, while the distance between them is 1 equal to 1, and the aperture angle c / metal plates is determined by the ratio

(15oVlg cos (9 ° + 0, (A +. +10)) J /

0 is the angle corresponding to the direction of the diffraction maximum, deg; deg; And - the value corresponding to

the required level of suppression of the diffraction-about maximum at the angle e °, lB, (A 0).

Claims (1)

Claim A linear waveguide-slot antenna containing a segment of a rectangular waveguide, on the wide wall of which there are transverse emitting slots and two metal plates are installed on it, located along the axis of the segment of the rectangular waveguide symmetrically with respect to the middle line of its wide wall, the distance of which is of the transverse radiating slits is chosen equal to (0.5 ~ 0.55) I, where I is the working wavelength in free space, characterized in that, in order to suppress diffraction maxima due to ie reducing the width of a single slit of the radiation pattern in E-plane., the plane of the radiating aperture transverse slits and parallel metal plates, the spacing therebetween selected to be h> I, and the opening angle of the metal plates is given by 5 ° £ έ 150 ° / 1ц [cos (Θθ + Ο, δ ⁰ (A + where 0 ° is the angle corresponding to the direction to the diffraction maximum closest to the normal to the lattice., Deg; A is the value corresponding to the required level of suppression of the diffraction maximum at an angle of Θ ⁰ , dB, (A <0). FIG. 2