A Miniaturized and High Optically Transparent Frequency Selective Surface for RF Shielding using Double-Glazed Glass Windows for Green Building Applications

Muhammad Nasir; Sławomir Kozieł; Adnan Iftikhar

doi:10.1109/access.2025.3532787

A Miniaturized and High Optically Transparent Frequency Selective Surface for RF Shielding using Double-Glazed Glass Windows for Green Building Applications

Abstract

This research presents a miniaturized and high optically transparent (OT) frequency selective surface (FSS) for achieving RF shielding through glass window panels. The proposed FSS consists of a single-layered copper pattern sandwiched between two ordinary glass substrates to suppress the dual bands of sub-6 fifth generation (5G). In particular, the design effectively shields n65-downlink (2.1 GHz) and a portion of n78-band (3.5 GHz). The unit cell (UC) design consists of square and butterfly rings with a maximum copper width of 0.1 mm. The dimensions of FSS unit cell (UC) are optimized to 0.0714λ_0 × 0.07146λ_0, where λ_0 is the wavelength at 2.1 GHz resonant frequency. Full-wave electromagnetic (EM) simulations, equivalent circuit modeling (ECM), and experimental testing are performed to validate the FSS performance. The design miniaturization and 0.1 mm copper trace width offered a maximum OT of 91.6 % and angular stability up to 85^° for both transverse electric (TE) and transverse magnetic (TM) polarized waves.

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Keywords

FSS, OPTICAL TRANSPARENCY, SUB-6 5GHZ, ORDINARY GLASS WINDOWS, SHIELDING EFFECTIVENESS

Details

Category:

Articles

Type:

artykuły w czasopismach

Published in:

IEEE Access no. 13, pages 18053 - 18062,
ISSN: 2169-3536

Language:

English

Publication year:

2025

Bibliographic description:

Nasir M., Kozieł S., Iftikhar A.: A Miniaturized and High Optically Transparent Frequency Selective Surface for RF Shielding using Double-Glazed Glass Windows for Green Building Applications// IEEE Access -Vol. 13, (2025), s.18053-18062

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