Affiliation:
1. School of Electronics Engineering Vellore Institute of Technology Vellore India
Abstract
AbstractThis work proposes a frequency‐selective surface‐based radome structure to selectively allow the radar altimeter operating band and also minimize the interference from Sub‐6GHz 5 G frequency bands. A Jerusalem cross and combinational loop (JCL) based frequency selective surfaces (FSS) unit cell of overall dimension 0.37λ was synthesized using a thin flexible substrate for use in fuselage of airborne systems. The proposed FSS unit cell exhibits transmission zero at 3.61 and 6.025 GHz and highly selective pass band at 4.3 GHz. The effect of bends and angle of incidence on the frequency response of the synthesized FSS was studied in transverse electric and transverse magnetic modes. A lumped element‐based equivalent circuit model for the proposed design was also presented. Finally, the fabricated prototype was experimentally validated in an Anechoic chamber setup and the suitability of the proposed FSS layers for aviation radar systems was confirmed.
Reference29 articles.
1. IATA Safety Report 2021 Edition 58 International Air Transport Asscotiation (IATA) Montreal Canada April2022. Retrieved from: https://www.iata.org/contentassets/4d18cb077c5e419b8a888d387a50c638/iata-safety-report-2021.pdf
2. 5G and Aviation Altimeters July GSMA London United Kingdom July2022.https://www.gsma.com/spectrum/wpcontent/uploads/2022/07/5G-Aviation-Altimeters.pdf
3. Frequency Selective Surfaces
4. BANDPASS FREQUENCY SELECTIVE SURFACE WITH SHARP SIDEBANDS FOR 5G ELECTROMAGNETIC SHIELDING OF FIXED SATELLITE SYSTEM IN C-BAND
5. Thin 3-D Bandpass Frequency-Selective Structure Based on Folded Substrate for Conformal Radome Applications
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