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Characterization of Wearable and Implanted Antennas: Test Procedure and Range Design
  • Lukas Berkelmann ,
  • Dirk Manteuffel
Lukas Berkelmann
Institute of Microwave and Wireless Systems - Leibniz University Hannover, Institute of Microwave and Wireless Systems - Leibniz University Hannover

Corresponding Author:[email protected]

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Dirk Manteuffel
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Abstract

A method for measuring de-embedded antenna parameters of wearable and implanted antennas for on-body communications is presented. It consists of a tapered flat phantom in order to characterize an antenna’s general ability to excite surface waves travelling along the boundary between body tissue and free space expressed by an angular on-body antenna gain. The design offers a test zone large enough for most typical Wireless Body Area Network devices up to smartphone-size while minimizing the required amount of tissue-simulating material. The designed antenna test range is validated in the 2.4 GHz ISM-band. In order to showcase the applicability to a realistic application, different designs of antennas integrated into an implanted pacemaker are characterized by their on-body gain patterns. A comparison of their performance in in-situ path-loss measurements reveals a clear relation to the on-body gain patterns and indicates that this parameter is a suitable measure for enabling educated antenna design for on-body applications.
Apr 2022Published in IEEE Transactions on Antennas and Propagation volume 70 issue 4 on pages 2593-2601. 10.1109/TAP.2021.3126386