Abstract
A frequency selective surface (FSS) with a unit cell containing of an L-notched rectangular metallic ring pattern that can be adopted for dual polarization applications is proposed and analyzed using the wave concept iterative procedure (WCIP). The presented FSS is fed with a normal incident plane wave and it shows three resonant frequencies at 6.5GHz, 9 GHz and 11.5 GHz when the FSS is x -polarized and two resonant frequencies at 6GHz and 8GHzwhen the FSS is y -polarized. The parametric study of the FSS provides three FSS dimensions where their variation independently or simultaneously results in resonant frequencies tuning. They are the two dimensions of the L part of the FSS and its notch penetration and changing their values in the FSS allowed intervals gives rise to charts and equations based on polynomials determined by the use of least mean square method. Thus no need to softwares to determine the FSS resonant frequencies once the application is restricted to a specific FSS such as the L-notched rectangular metallic ring FSS for low cost FSS use. The presented synthesis approach is extended to the determination of the equivalent FSS structures based on non-coupled parallel metallic strips for the complex FSS structures of difficult comprehensive resonance sources. One FSS is manufactured and characterized. A good agreement is recorded when the WCIP results for the transmission coefficient are compared with the results of COMSOL Multiphysics software and measurement.
Highlights
Frequency Selective Surfaces (FSSs) consist of a two-dimensional periodic array of a metal plane aperture with openings, or an arrangement of printed conductive elements on a dielectric substrate and they act as a band-pass or band-stop filter [1],[2]
The presented FSS synthesis approach results are compared to the wave concept iterative procedure (WCIP) results, COMSOL Multiphysics and measurements and good agreement is obtained
The unit cell of the L-notched rectangular metallic ring FSS is shown in fig.1 where the metallic ring is printed on a fiberglass (FR-4) substrate with dielectric constant εr=4.4 and a thickness h=1 mm
Summary
Frequency Selective Surfaces (FSSs) consist of a two-dimensional periodic array of a metal plane aperture with openings (metal grid), or an arrangement of printed conductive elements on a dielectric substrate and they act as a band-pass or band-stop filter [1],[2]. We propose a structure having five resonant frequencies, three resonant when the FSS is x-polarized and two resonant when the FSS is y-polarized To perform this investigation, the proposed FSS was simulated using the wave concept iterative procedure WCIP [16]. The obtained WCIP and COMSOL Multiphysics results are in good agreement where compared with the experimental ones. For such FSS structure, a synthesis approach based on the FSS parametric study allows the determination of the resonant frequencies. The presented FSS synthesis approach results are compared to the WCIP results, COMSOL Multiphysics and measurements and good agreement is obtained
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