研究目的
To propose and design a dual-band frequency selective surface (FSS) based on aperture-coupled patch resonators to achieve different angles of polarization rotation, specifically 90o and 0o.
研究成果
The proposed dual-band polarization rotating FSS with both of 90o and 0o polarization rotations has been successfully designed, fabricated, and measured. The measured results are in good accordance with the simulated ones, showing that stable performance can be satisfactorily maintained for different incident angles up to 30o.
研究不足
The extra measured insertion loss at the higher passband may be due to the surface roughness of the metallic layers, and the substrate losses of the RO4003C and RO4450F used in this design.
1:Experimental Design and Method Selection:
The design involves periodically arranging two independent sub-elements consisting of back-to-back patch resonators with coupling apertures etched on the middle metallic layer. The first passband is realized by crossed patch resonators with rectangular apertures, and the second passband by square patch resonators with crossed apertures.
2:Sample Selection and Data Sources:
The FSS is designed, fabricated, and measured using RO4003C materials and RO4450F bonding film.
3:List of Experimental Equipment and Materials:
RO4003C materials (thickness of 1.524 mm, εr = 3.55, tan(δ) = 0.0029), RO4450F bonding film (thickness of 0.102 mm, εr = 3.66, tan(δ) = 0.0041).
4:524 mm, εr = 55, tan(δ) = 0029), RO4450F bonding film (thickness of 102 mm, εr = 66, tan(δ) = 0041).
Experimental Procedures and Operational Workflow:
4. Experimental Procedures and Operational Workflow: The FSS is fabricated and measured under different incident angles to validate the design concept.
5:Data Analysis Methods:
The measured results are compared with simulated ones to verify the dual-band and dual-polarization features.
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