Planar Textile Off-Body Communication Antennas: A Survey

Planar Textile Off-Body Communication Antennas: A Survey

Fully textile smart wearables will be the result of the complete integration and miniaturization of electronics and textile materials. Off-body communications are key for connecting smart wearables with external devices, even for wireless power transfer or energy harvesting. They need to fulfill spe...

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Bibliographic Details
Main Authors: Ruben Del-Rio-Ruiz, Juan-Manuel Lopez-Garde, Jon Legarda
Format: Article
Language:English
Published: MDPI AG 2019-06-01
Series:Electronics
Subjects:
textile antennas
off-body communications
fully-grounded planes
Online Access:https://www.mdpi.com/2079-9292/8/6/714
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spelling doaj-c908ed728a6949b58d3d88e3d06e90a32020-11-24T23:55:37ZengMDPI AGElectronics2079-92922019-06-018671410.3390/electronics8060714electronics8060714Planar Textile Off-Body Communication Antennas: A SurveyRuben Del-Rio-Ruiz0Juan-Manuel Lopez-Garde1Jon Legarda2Faculty of Engineering, University of Deusto, Avda. Universidades, 24, 48007 Bilbao, SpainFaculty of Engineering, University of Deusto, Avda. Universidades, 24, 48007 Bilbao, SpainFaculty of Engineering, University of Deusto, Avda. Universidades, 24, 48007 Bilbao, SpainFully textile smart wearables will be the result of the complete integration and miniaturization of electronics and textile materials. Off-body communications are key for connecting smart wearables with external devices, even for wireless power transfer or energy harvesting. They need to fulfill specific electromagnetic (EM) (impedance bandwidth (BW), gain, efficiency, and front to back radiation (FTBR)) and mechanical (bending, crumpling, compression, washing and ironing) requirements so that the smart wearable device provides the required performance. Therefore, textile and flexible antennas require a proper trade-off between materials, antenna topologies, construction techniques, and EM and mechanical performances. This review shows the latest research works for textile and flexible planar, fully grounded antennas for off-body communications, providing a novel design guide that relates key antenna performance parameters versus topologies, feeding techniques, conductive and dielectric textile materials, as well as the behavior under diverse measurement conditions.https://www.mdpi.com/2079-9292/8/6/714textile antennasoff-body communicationsfully-grounded planes
collection DOAJ
language English
format Article
sources DOAJ
author Ruben Del-Rio-Ruiz
Juan-Manuel Lopez-Garde
Jon Legarda
spellingShingle Ruben Del-Rio-Ruiz
Juan-Manuel Lopez-Garde
Jon Legarda
Planar Textile Off-Body Communication Antennas: A Survey
Electronics
textile antennas
off-body communications
fully-grounded planes
author_facet Ruben Del-Rio-Ruiz
Juan-Manuel Lopez-Garde
Jon Legarda
author_sort Ruben Del-Rio-Ruiz
title Planar Textile Off-Body Communication Antennas: A Survey
title_short Planar Textile Off-Body Communication Antennas: A Survey
title_full Planar Textile Off-Body Communication Antennas: A Survey
title_fullStr Planar Textile Off-Body Communication Antennas: A Survey
title_full_unstemmed Planar Textile Off-Body Communication Antennas: A Survey
title_sort planar textile off-body communication antennas: a survey
publisher MDPI AG
series Electronics
issn 2079-9292
publishDate 2019-06-01
description Fully textile smart wearables will be the result of the complete integration and miniaturization of electronics and textile materials. Off-body communications are key for connecting smart wearables with external devices, even for wireless power transfer or energy harvesting. They need to fulfill specific electromagnetic (EM) (impedance bandwidth (BW), gain, efficiency, and front to back radiation (FTBR)) and mechanical (bending, crumpling, compression, washing and ironing) requirements so that the smart wearable device provides the required performance. Therefore, textile and flexible antennas require a proper trade-off between materials, antenna topologies, construction techniques, and EM and mechanical performances. This review shows the latest research works for textile and flexible planar, fully grounded antennas for off-body communications, providing a novel design guide that relates key antenna performance parameters versus topologies, feeding techniques, conductive and dielectric textile materials, as well as the behavior under diverse measurement conditions.
topic textile antennas
off-body communications
fully-grounded planes
url https://www.mdpi.com/2079-9292/8/6/714
work_keys_str_mv AT rubendelrioruiz planartextileoffbodycommunicationantennasasurvey
AT juanmanuellopezgarde planartextileoffbodycommunicationantennasasurvey
AT jonlegarda planartextileoffbodycommunicationantennasasurvey
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