Ultra-wideband bionic antenna with low radar scattering cross section

A radar cross section and ultra-wideband technology, applied in the field of bionic antennas, can solve the problems of high antenna radar cross section, unfavorable antenna stealth, unfavorable antenna and carrier conformality, etc., achieve low radar cross section, reduce surface coverage, Easy stealth effect

Active Publication Date: 2010-02-03
XIAN CETC XIDIAN UNIV RADAR TECH COLLABORATIVE INNOVATION INST CO LTD
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Problems solved by technology

However, the radiation floor and the radiation unit of these antennas are often not in the same plane, which is not conducive to the conformality of the antenna and the carrier, thus limiting the practical engineering application of these ultra-wideband antennas; figure 1 An existing ultra-broadband planar monopole antenna is given. A circular radiating element with

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  • Ultra-wideband bionic antenna with low radar scattering cross section
  • Ultra-wideband bionic antenna with low radar scattering cross section
  • Ultra-wideband bionic antenna with low radar scattering cross section

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Embodiment Construction

[0024] refer to figure 2 , the present invention is mainly composed of a dielectric material plate 1, a radiation unit 2, a radiation floor 3 and an SMA coaxial conversion joint. The dielectric material board 1 is a double-sided copper-clad dielectric material board with a dielectric constant of 4.4, the radiation unit 2 is printed on the front side of the material board, and the radiation floor 3 is printed on the reverse side of the material board. The inner core 4 and the outer core 5 of the SMA coaxial conversion joint are welded together with the radiation unit 2 and the radiation floor 3 of the antenna respectively.

[0025] refer to image 3 a, the radiating unit of the antenna of the present invention is designed according to the shape of insect antennae, and it is composed of a rectangular column 21 and a plurality of arc bars 22 symmetrically distributed on the rectangular column, forming a fan-shaped structure. The central angles of these arc strips are the same,...

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Abstract

The invention discloses an ultra-wideband bionic antenna with a low radar scattering cross section, and mainly solves the problems that existing ultra-wideband antenna radar has high scattering crosssection and can be easily found by radar. The ultra-wideband bionic antenna with the low radar scattering cross section comprises a radiation unit (2), a radiant floor (3) and an SMA coaxial adapter substitute. The antenna radiating unit and the antenna radiation floor are respectively printed on both sides of a medium material board (1), and are respectively connected with an inner core (4) and an outer core (5) of the SMA coaxial adapter substitute. The radiating unit is designed to be a sectoral structure comprising a rectangular column and a plurality of arc strips symmetrically arranged on the rectangular column in accordance with a design thinking similar to insect antennae, the degrees of the central angles of the arc strips are identical, and the sizes of semi-diameters are progressively increased according to equal intervals from the top to the bottom; and both sides of the radiant floor are rectangles with inversed 90-degree arc angles. The invention has the advantages of wide frequency band and good hiding performance, thereby being capable of being used as the ultra-wideband antenna on a hiding target vector.

Description

technical field [0001] The invention belongs to the technical field of antennas, in particular to a bionic antenna, which can be used for stealth and ultra-wideband reception and transmission. Background technique [0002] Radar cross section RCS is one of the most basic parameters to characterize the identifiable characteristics of targets in radar detection technology, stealth and anti-stealth technology, and it is a measure of the return power of a target in a given direction under the illumination of a plane wave. Radar cross-section reduction is to control and reduce the radar cross-section of military targets, reduce the combat effectiveness of enemy electronic detection systems and weapon platforms, and improve the penetration and survivability of military targets. How to reduce the radar cross section of the target and how effective the reduction is is of great significance to the victory or defeat of the war in the complex electromagnetic environment we are currentl...

Claims

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Application Information

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IPC IPC(8): H01Q1/38H01Q13/08G01S7/02
Inventor 刘英龚书喜姜文李延平洪涛王文涛
Owner XIAN CETC XIDIAN UNIV RADAR TECH COLLABORATIVE INNOVATION INST CO LTD
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