Gain enhancement of a compact thin flexible reflector-based asymmetric meander line antenna with low SAR
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Date
2019
Authors
El Atrash M.
Abdalla M.A.
Elhennawy H.M.
Journal Title
Journal ISSN
Volume Title
Type
Article
Publisher
Institution of Engineering and Technology
Series Info
IET Microwaves, Antennas and Propagation
13
13
Scientific Journal Rankings
Abstract
A compact, flexible, coplanar waveguide-fed, U-shaped reflector surrounded asymmetric meander line antenna operating at 2.4.GHz is presented for wrist wearable applications. The antenna is printed on flexible Rogers Ultralam 3850 substrate. Size reduction of 67.7% was attained by employing the meandering methodology, in comparison with the printed straight monopole. The design displays a gain of around 3.dB by incorporating a U-shaped reflector, on the same level as the radiator, which is considered as the main contribution of the proposed design. Bending scenarios were studied proving the antenna robustness against bending. The proposed antenna was bent over a human body model with optimum separation distance, where enhancement of the specific absorption rate (SAR) level has been achieved, compared to the symmetric meander line antenna. The antenna was fabricated and measured where a high agreement was met in terms of simulated and measured return loss and radiation pattern polar plots, as well as, simulated and measured gain. � The Institution of Engineering and Technology.
Description
Scopus
Keywords
Antenna reflectors, Biological radiation effects, Coplanar waveguides, Electromagnetic field effects, Microstrip antennas, Reflection, Wearable antennas, Antenna robustness, Coplanar waveguide fed, Gain enhancement, Human body modeling, Meander line antennas, Separation distances, Specific absorption rate, Wearable applications, Directional patterns (antenna)