Transmission bandwidth enhancement using lateral displacement in a thin flexible single layer double sided FSS

Dewani, Aliya A; O'Keefe, Steven G; Thiel, David V

Author(s)

Dewani, Aliya A

O'Keefe, Steven G

Thiel, David V

Griffith University Author(s)

Thiel, David V.

O'Keefe, Steven G.

Year published

2015

Metadata

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Abstract

A novel low profile frequency selective surfaces (FSS) with wide stop band characteristics suitable for UWB applications consists of square loops screen printed on both sides of a thin flexible polycarbonate substrate with a lateral offset in both directions. The design provides a ™10dB insertion bandwidth of 4.55-12.77GHz. The design delivers stop band for angular incidence in both single sided and double sided configurations up to 60o degrees. The symmetrical nature ensures identical response for TE and TM modes of polarization within 30o incidence. A comprehensive iterative analysis was made to enhance the ultra-wide bandwidth.A novel low profile frequency selective surfaces (FSS) with wide stop band characteristics suitable for UWB applications consists of square loops screen printed on both sides of a thin flexible polycarbonate substrate with a lateral offset in both directions. The design provides a ™10dB insertion bandwidth of 4.55-12.77GHz. The design delivers stop band for angular incidence in both single sided and double sided configurations up to 60o degrees. The symmetrical nature ensures identical response for TE and TM modes of polarization within 30o incidence. A comprehensive iterative analysis was made to enhance the ultra-wide bandwidth.
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Conference Title

2015 INTERNATIONAL SYMPOSIUM ON ANTENNAS AND PROPAGATION (ISAP)

Publisher URI

http://ieeexplore.ieee.org/abstract/document/7447515/

Subject

Electrical and Electronic Engineering not elsewhere classified

Publication URI

http://hdl.handle.net/10072/341298

Collection

Conference outputs