Electronic-components less fully textile multiple resonant combiners for body-centric near field communication

Abstract Smart and e-textiles have nowadays an important increasing place in the garment industry. The rise of embedded telecommunications, especially smartphones in our pocket, enables us to provide a power source and a wireless link for smart textiles. The main issue is to develop garments able to...

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Autores principales: Baptiste Garnier, Philippe Mariage, François Rault, Cédric Cochrane, Vladan Koncar
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Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/5280532536c0455bb968552160c0b3b0
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spelling oai:doaj.org-article:5280532536c0455bb968552160c0b3b02021-12-02T13:27:32ZElectronic-components less fully textile multiple resonant combiners for body-centric near field communication10.1038/s41598-021-81246-z2045-2322https://doaj.org/article/5280532536c0455bb968552160c0b3b02021-01-01T00:00:00Zhttps://doi.org/10.1038/s41598-021-81246-zhttps://doaj.org/toc/2045-2322Abstract Smart and e-textiles have nowadays an important increasing place in the garment industry. The rise of embedded telecommunications, especially smartphones in our pocket, enables us to provide a power source and a wireless link for smart textiles. The main issue is to develop garments able to receive power from smartphones and communicate with them without flexibility and comfort constraints bound to embedded solid-state electronic components. Consequently, this article aims to develop a fully textile NFC combiner to transfer data and power between a smartphone and sensors without any electronic components. It precisely describes textile NFC multiple combiners composed of textile NFC antennas linked by two-wire transmission lines. Also, theoretical analysis, simulations, and experiments have been conducted to adapt the resonant frequency of such structures to the NFC technology (13.56 MHz). Finally, our article generalizes textile NFC combiner resonant frequency equations for multiple combiners with any number of antennas.Baptiste GarnierPhilippe MariageFrançois RaultCédric CochraneVladan KoncarNature PortfolioarticleMedicineRScienceQENScientific Reports, Vol 11, Iss 1, Pp 1-12 (2021)
institution DOAJ
collection DOAJ
language EN
topic Medicine
R
Science
Q
spellingShingle Medicine
R
Science
Q
Baptiste Garnier
Philippe Mariage
François Rault
Cédric Cochrane
Vladan Koncar
Electronic-components less fully textile multiple resonant combiners for body-centric near field communication
description Abstract Smart and e-textiles have nowadays an important increasing place in the garment industry. The rise of embedded telecommunications, especially smartphones in our pocket, enables us to provide a power source and a wireless link for smart textiles. The main issue is to develop garments able to receive power from smartphones and communicate with them without flexibility and comfort constraints bound to embedded solid-state electronic components. Consequently, this article aims to develop a fully textile NFC combiner to transfer data and power between a smartphone and sensors without any electronic components. It precisely describes textile NFC multiple combiners composed of textile NFC antennas linked by two-wire transmission lines. Also, theoretical analysis, simulations, and experiments have been conducted to adapt the resonant frequency of such structures to the NFC technology (13.56 MHz). Finally, our article generalizes textile NFC combiner resonant frequency equations for multiple combiners with any number of antennas.
format article
author Baptiste Garnier
Philippe Mariage
François Rault
Cédric Cochrane
Vladan Koncar
author_facet Baptiste Garnier
Philippe Mariage
François Rault
Cédric Cochrane
Vladan Koncar
author_sort Baptiste Garnier
title Electronic-components less fully textile multiple resonant combiners for body-centric near field communication
title_short Electronic-components less fully textile multiple resonant combiners for body-centric near field communication
title_full Electronic-components less fully textile multiple resonant combiners for body-centric near field communication
title_fullStr Electronic-components less fully textile multiple resonant combiners for body-centric near field communication
title_full_unstemmed Electronic-components less fully textile multiple resonant combiners for body-centric near field communication
title_sort electronic-components less fully textile multiple resonant combiners for body-centric near field communication
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/5280532536c0455bb968552160c0b3b0
work_keys_str_mv AT baptistegarnier electroniccomponentslessfullytextilemultipleresonantcombinersforbodycentricnearfieldcommunication
AT philippemariage electroniccomponentslessfullytextilemultipleresonantcombinersforbodycentricnearfieldcommunication
AT francoisrault electroniccomponentslessfullytextilemultipleresonantcombinersforbodycentricnearfieldcommunication
AT cedriccochrane electroniccomponentslessfullytextilemultipleresonantcombinersforbodycentricnearfieldcommunication
AT vladankoncar electroniccomponentslessfullytextilemultipleresonantcombinersforbodycentricnearfieldcommunication
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