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Miniaturized reconfigurable frequency selective surface with high selection characteristic and application

A frequency-selective surface and high-selection technology, applied in the microwave field, can solve problems such as poor passband selection characteristics, low profile characteristics, and large unit size, and overcome large unit size, weak anti-interference, and small large capacitance The effect of inductance

Pending Publication Date: 2022-04-29
西安电子科技大学杭州研究院
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Problems solved by technology

[0016] The purpose of the present invention is to solve the above-mentioned defects that exist in the prior art, to make up for the relatively large size of the reconfigurable frequency selective surface, the poor selection characteristics of the passband (flat passband, steep sideband, out-of-band suppression, etc.) and Insufficient in multi-band characteristics, and the shielding characteristics of the stop band, it provides a passband / stopband switching function and the two states have high selective bandpass and ultra-wideband reflection characteristics, and has a miniaturized low profile Frequency-selective surfaces of properties and reconfigurable properties

Method used

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  • Miniaturized reconfigurable frequency selective surface with high selection characteristic and application
  • Miniaturized reconfigurable frequency selective surface with high selection characteristic and application
  • Miniaturized reconfigurable frequency selective surface with high selection characteristic and application

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Embodiment Construction

[0050] The present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments, where the schematic embodiments and descriptions of the present invention are used to explain the present invention, but not to limit the present invention.

[0051] Such as figure 1 As shown, the present invention is a reconfigurable miniaturized frequency selective surface with high selectivity, high isolation and wide stop band, which includes M×N two-dimensional resonant units arranged periodically, where M≥3 and N≥3. Wherein, each two-dimensional resonance unit includes four layers of dielectric substrates and five layers of metal patches stacked sequentially from top to bottom.

[0052] The upper surface of the first layer dielectric substrate 6 is printed with the first layer of metal patch 1; the upper surface of the second layer of dielectric substrate 7 is printed with the second layer of metal patch 2; the upper surface of the third ...

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Abstract

The invention discloses a miniaturized reconfigurable frequency selective surface with a high selection characteristic and application, the miniaturized reconfigurable frequency selective surface comprises M * N periodically arranged two-dimensional resonance units, and each two-dimensional resonance unit comprises four layers of dielectric substrates and five layers of metal patches which are sequentially stacked from top to bottom; the first and second layers of metal patches and the first layer of dielectric substrate form an active parallel plate capacitor structure unit; the fourth layer of metal patch, the fifth layer of metal patch and the fourth layer of dielectric substrate form a passive parallel plate capacitor structure unit; and the active parallel plate capacitor structure unit and the passive parallel plate capacitor structure unit are cascaded, so that in-band flatness and out-of-band edge steep drop of a passband are realized, and high-frequency selection is realized. According to the invention, the defects of large unit size, insufficient out-of-band rejection, fixed FSS performance and single function are overcome; the antenna housing has the advantages of being high in passband selectivity, wide in stop band frequency band, small in size and low in profile, and the direct-current feed network is convenient to process. The antenna housing can be applied to antenna housing design in equipment with communication and radar stealth performance requirements.

Description

technical field [0001] The invention belongs to the field of microwave technology, and in particular relates to a miniaturized reconfigurable frequency selective surface based on a radome with high selectivity passband / wide stopband, which can be applied to radar systems or communication systems on aircraft, cruisers and missiles, etc. Radome design in . Background technique [0002] Frequency Selective Surface (FSS) is an array structure composed of a large number of identical units arranged in two-dimensional periodicity. Make a frequency selection. Due to the unique spatial filtering characteristics of FSS, it is widely used in electromagnetic stealth, radar absorbing materials, electromagnetic shielding and other aspects. [0003] Bandpass FSS is usually used in radome to achieve the purpose of reducing the radar cross section (Radar CrossSection, RCS) of the antenna system. Radar antennas are usually an important source of scattering in military systems. Conventional...

Claims

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Application Information

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IPC IPC(8): H01Q1/42H01Q15/00
CPCH01Q15/002H01Q15/0026H01Q1/42H01Q1/422
Inventor 洪涛贾智利唐家晟姜文魏昆高雨辰
Owner 西安电子科技大学杭州研究院
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