A compact and economical AMC backed antenna solution for wearable biomedical applications

A rectangular monopole antenna with an extended ground, excited by Coplanar Waveguide (CPW) and backed by a 6 × 6 array of fractal artificial magnetic conductor (AMC) unit cells, resonating at 5.8 GHz in Industrial, Scientific, and Medical (ISM) band, is presented in this manuscript. To attain the o...

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Published in	International journal of microwave and wireless technologies Vol. 15; no. 9; pp. 1514 - 1523
Main Authors	Yadav, Mohit, Ali, Muquaddar, Yadav, R. P.
Format	Journal Article
Language	English
Published	Cambridge, UK Cambridge University Press 01.11.2023
Subjects	Antenna arrays Antennas Biomedical Applications Biomedical materials Communication Coplanar waveguides Design Engraving Human body Human tissues Medical electronics Monopole antennas Nanoparticles Radiation Radio frequency Substrates Textiles Wearable technology ISM Band Biomedical applications AMC Reflector High Gain SAR Wearable antenna system Monopole
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ISSN	1759-0787 1759-0795
DOI	10.1017/S1759078723000211

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Abstract	A rectangular monopole antenna with an extended ground, excited by Coplanar Waveguide (CPW) and backed by a 6 × 6 array of fractal artificial magnetic conductor (AMC) unit cells, resonating at 5.8 GHz in Industrial, Scientific, and Medical (ISM) band, is presented in this manuscript. To attain the objective of proposing a compact and economical antenna solution for employment in wearable biomedical domain, a novel approach of utilizing both surfaces of the same dielectric for engraving antenna element as well as AMC array is adopted. It results in the elimination of layers of expensive substrate (RO3003) and of thick separator (foam) between antenna and AMC array. During measurement in open space, the proposed antenna system exhibited an impedance bandwidth of 570 MHz with a gain of 7.9 dBi. While a total realized gain of 7.5 dBi, amounting to a gain enhancement of about 3 dB as compared to that of monopole alone, is observed when the integrated antenna system is placed just over a three-layer rectangular human body equivalent model. Specific absorption rate values, as calculated at 5.8 GHz and averaged over 1 and 10 g of human tissue, are 0.0117 and 0.00244 W/kg, respectively. Obtained results strongly advocate the use of the proposed antenna system in smart wearable healthcare devices.
AbstractList	A rectangular monopole antenna with an extended ground, excited by Coplanar Waveguide (CPW) and backed by a 6 × 6 array of fractal artificial magnetic conductor (AMC) unit cells, resonating at 5.8 GHz in Industrial, Scientific, and Medical (ISM) band, is presented in this manuscript. To attain the objective of proposing a compact and economical antenna solution for employment in wearable biomedical domain, a novel approach of utilizing both surfaces of the same dielectric for engraving antenna element as well as AMC array is adopted. It results in the elimination of layers of expensive substrate (RO3003) and of thick separator (foam) between antenna and AMC array. During measurement in open space, the proposed antenna system exhibited an impedance bandwidth of 570 MHz with a gain of 7.9 dBi. While a total realized gain of 7.5 dBi, amounting to a gain enhancement of about 3 dB as compared to that of monopole alone, is observed when the integrated antenna system is placed just over a three-layer rectangular human body equivalent model. Specific absorption rate values, as calculated at 5.8 GHz and averaged over 1 and 10 g of human tissue, are 0.0117 and 0.00244 W/kg, respectively. Obtained results strongly advocate the use of the proposed antenna system in smart wearable healthcare devices.
Author	Yadav, R. P. Ali, Muquaddar Yadav, Mohit
Author_xml	– sequence: 1 givenname: Mohit orcidid: 0000-0002-0981-1817 surname: Yadav fullname: Yadav, Mohit email: 2018rec9041@mnit.ac.in organization: 1Department of Electronics and Communication Engineering, Malaviya National Institute of Technology, Jaipur, India – sequence: 2 givenname: Muquaddar orcidid: 0000-0002-4121-6444 surname: Ali fullname: Ali, Muquaddar organization: 2JECRC University, Jaipur, India – sequence: 3 givenname: R. P. orcidid: 0000-0001-6570-5528 surname: Yadav fullname: Yadav, R. P. organization: 1Department of Electronics and Communication Engineering, Malaviya National Institute of Technology, Jaipur, India
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SubjectTerms	Antenna arrays Antennas Biomedical Applications Biomedical materials Communication Coplanar waveguides Design Engraving Human body Human tissues Medical electronics Monopole antennas Nanoparticles Radiation Radio frequency Substrates Textiles Wearable technology
Title	A compact and economical AMC backed antenna solution for wearable biomedical applications
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