Electrical connection issues on wearable electronics

D. Matsouka; S. Vassiliadis; X. Tao; V. Koncar; S. K. Bahadir; F. Kalaoǧlu; S. Jevšnik

doi:10.1088/1757-899X/459/1/012017

Electrical connection issues on wearable electronics

D. Matsouka, S. Vassiliadis, X. Tao, V. Koncar, S. K. Bahadir, F. Kalaoǧlu, S. Jevšnik

Research output: Contribution to journal › Conference article › peer-review

6 Citations (Scopus)

Abstract

The drive for integration of electronic components into textile substrates has been a major aspect of research into production of smart textiles. Electronic components as such, are rigid, inflexible, do not easily follow body movements and can cause hypersensitivity of the skin upon prolonged contact due either to the presence of irritants or the rigid nature of the materials. Another important disadvantage of electronic components, in wearable applications, is that while textiles and textile like materials can withstand the usual cleaning / care treatments, those same treatments can have detrimental effects on the transmission lines and on any exposed electronic parts. This paper investigates a method for the protection of transmission lines made of conductive yarn seams on specimens containing both electronic and textile elements integrated on a textile substrate as well as the protection of the electronic parts. The reliability and durability of the transmission line on the combined specimen is determined by the measurements of the value of an electrical resistance located on a rigid PCB, after repeated wash cycles.

Original language	English
Article number	012017
Journal	IOP Conference Series: Materials Science and Engineering
Volume	459
Issue number	1
DOIs	https://doi.org/10.1088/1757-899X/459/1/012017
Publication status	Published - 2018
Externally published	Yes
Event	Aegean International Textile and Advanced Engineering Conference, AITAE 2018 - Lesvos, Greece Duration: 5 Sept 2018 → 7 Sept 2018

Bibliographical note

Publisher Copyright:
© Published under licence by IOP Publishing Ltd.

Funding

The research, described in this paper, relates to the project, which has received funding from the European Union's Horizon 2020 research and innovation program under the Marie Sklodowska‐Curie grant agreement no. 644268, project title: Welding of E‐Textiles for Interactive Clothing‐E‐TexWeld.

Funders	Funder number
European Union's Horizon 2020 Research and Innovation Program
Horizon 2020 Framework Programme	644268

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10.1088/1757-899X/459/1/012017

Cite this

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title = "Electrical connection issues on wearable electronics",

abstract = "The drive for integration of electronic components into textile substrates has been a major aspect of research into production of smart textiles. Electronic components as such, are rigid, inflexible, do not easily follow body movements and can cause hypersensitivity of the skin upon prolonged contact due either to the presence of irritants or the rigid nature of the materials. Another important disadvantage of electronic components, in wearable applications, is that while textiles and textile like materials can withstand the usual cleaning / care treatments, those same treatments can have detrimental effects on the transmission lines and on any exposed electronic parts. This paper investigates a method for the protection of transmission lines made of conductive yarn seams on specimens containing both electronic and textile elements integrated on a textile substrate as well as the protection of the electronic parts. The reliability and durability of the transmission line on the combined specimen is determined by the measurements of the value of an electrical resistance located on a rigid PCB, after repeated wash cycles.",

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AU - Matsouka, D.

AU - Vassiliadis, S.

AU - Tao, X.

AU - Koncar, V.

AU - Bahadir, S. K.

AU - Kalaoǧlu, F.

AU - Jevšnik, S.

PY - 2018

Y1 - 2018

N2 - The drive for integration of electronic components into textile substrates has been a major aspect of research into production of smart textiles. Electronic components as such, are rigid, inflexible, do not easily follow body movements and can cause hypersensitivity of the skin upon prolonged contact due either to the presence of irritants or the rigid nature of the materials. Another important disadvantage of electronic components, in wearable applications, is that while textiles and textile like materials can withstand the usual cleaning / care treatments, those same treatments can have detrimental effects on the transmission lines and on any exposed electronic parts. This paper investigates a method for the protection of transmission lines made of conductive yarn seams on specimens containing both electronic and textile elements integrated on a textile substrate as well as the protection of the electronic parts. The reliability and durability of the transmission line on the combined specimen is determined by the measurements of the value of an electrical resistance located on a rigid PCB, after repeated wash cycles.

AB - The drive for integration of electronic components into textile substrates has been a major aspect of research into production of smart textiles. Electronic components as such, are rigid, inflexible, do not easily follow body movements and can cause hypersensitivity of the skin upon prolonged contact due either to the presence of irritants or the rigid nature of the materials. Another important disadvantage of electronic components, in wearable applications, is that while textiles and textile like materials can withstand the usual cleaning / care treatments, those same treatments can have detrimental effects on the transmission lines and on any exposed electronic parts. This paper investigates a method for the protection of transmission lines made of conductive yarn seams on specimens containing both electronic and textile elements integrated on a textile substrate as well as the protection of the electronic parts. The reliability and durability of the transmission line on the combined specimen is determined by the measurements of the value of an electrical resistance located on a rigid PCB, after repeated wash cycles.

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ER -

Electrical connection issues on wearable electronics

Abstract

Bibliographical note

Funding

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