Deformation‐resilient embroidered near field communication antenna and energy harvesters for wearable applications
Deformation‐resilient embroidered near field communication antenna and energy harvesters for wearable applications
E-Textiles have gained increasing momentum in wearable electronics recently. Conductive-yarn-based embroidered devices, with the advantages of being soft, deformable, breathable, and protective for the skin, play an important role in replacing many metallic counterparts. However, embroidered devices face many new challenges in their design methodology and fabrication processes, such as high resistivity and low Q value of the conductive yarns, as well as deformation of device geometries during wearing. Herein, a strain-free, deformation-resilient embroidery process for near field communication (NFC) coil antennas is introduced. Coil geometry can endure extreme deformation by stretching with up to 50% elongation, bending with curvature as small as 16?mm in radius, and can still maintain a relatively small variation in its inductance, resonant frequency, Q value, as well as its energy-harvesting capabilities. The embroidered coil antenna is used in an NFC-based battery-free body sensor system. Experiments demonstrate that the system can maintain a stable performance (voltage supply, temperature sensing, and reading range) under various deformation conditions.
Xu, Lulu
8daadc9f-cedf-4ae6-beac-0bb0330ca60c
Liu, Zekun
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Chen, Xiao
a5a00076-071a-4500-b43e-8608340ee10f
Sun, Rujie
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Hu, Zhirun
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Zheng, Zijian
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Ye, Terry Tao
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Li, Yi
791bfcd0-672b-4e4e-9565-28fa36cffe2a
22 August 2019
Xu, Lulu
8daadc9f-cedf-4ae6-beac-0bb0330ca60c
Liu, Zekun
925463f4-b814-4176-b663-3159958c4fa2
Chen, Xiao
a5a00076-071a-4500-b43e-8608340ee10f
Sun, Rujie
e3dad16d-6c79-4972-8378-edca28a3babd
Hu, Zhirun
7ee17891-b6e8-4d80-ab83-12abd4b233c5
Zheng, Zijian
b41ea8e0-1fdb-44a7-98d5-95935c0624e6
Ye, Terry Tao
9f5b6912-f2c7-44d5-85cb-b7a8832010f1
Li, Yi
791bfcd0-672b-4e4e-9565-28fa36cffe2a
Xu, Lulu, Liu, Zekun, Chen, Xiao, Sun, Rujie, Hu, Zhirun, Zheng, Zijian, Ye, Terry Tao and Li, Yi
(2019)
Deformation‐resilient embroidered near field communication antenna and energy harvesters for wearable applications.
Advanced Intelligent Systems, 1 (6), [1900056].
(doi:10.1002/aisy.201900056).
Abstract
E-Textiles have gained increasing momentum in wearable electronics recently. Conductive-yarn-based embroidered devices, with the advantages of being soft, deformable, breathable, and protective for the skin, play an important role in replacing many metallic counterparts. However, embroidered devices face many new challenges in their design methodology and fabrication processes, such as high resistivity and low Q value of the conductive yarns, as well as deformation of device geometries during wearing. Herein, a strain-free, deformation-resilient embroidery process for near field communication (NFC) coil antennas is introduced. Coil geometry can endure extreme deformation by stretching with up to 50% elongation, bending with curvature as small as 16?mm in radius, and can still maintain a relatively small variation in its inductance, resonant frequency, Q value, as well as its energy-harvesting capabilities. The embroidered coil antenna is used in an NFC-based battery-free body sensor system. Experiments demonstrate that the system can maintain a stable performance (voltage supply, temperature sensing, and reading range) under various deformation conditions.
Text
Advanced Intelligent Systems - 2019 - Xu - Deformation‐Resilient Embroidered Near Field Communication Antenna and Energy
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e-pub ahead of print date: 30 July 2019
Published date: 22 August 2019
Identifiers
Local EPrints ID: 486762
URI: http://eprints.soton.ac.uk/id/eprint/486762
ISSN: 2640-4567
PURE UUID: fbaddb7c-9bed-4db2-91cf-d989708627fa
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Date deposited: 06 Feb 2024 17:31
Last modified: 17 Mar 2024 07:24
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Author:
Lulu Xu
Author:
Zekun Liu
Author:
Xiao Chen
Author:
Rujie Sun
Author:
Zhirun Hu
Author:
Zijian Zheng
Author:
Terry Tao Ye
Author:
Yi Li
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