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Research into the Textile-Based Signal Lines Made Using Ultrasonic Welding Technology

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The article describes research into the transmission properties of textile signal lines (TSLs) made using ultrasonic welding technology. The presented TSLs are made from electroconductive, nickel coated, fabric strips welded between non-conducting textile layers. The article presents an analysis of the usability of the ultrasonic welding method for creating TSLs. This analysis shows that direct welding of an electroconductive path with the substrate increases its linear resistance, making it impossible to create a properly functioning line. This article presents an alternative method of creating the line using ultrasound welding technology.
Rocznik
Strony
11--17
Opis fizyczny
Bibliogr. 24 poz.
Twórcy
  • Lodz University of Technology, Department of Architecture of Textiles, Łódź, Żeromskiego 116, 90-924, Poland
Bibliografia
  • [1] Lin, C.-C., Yang, C.-Y., Zhou, Z., Wu, S. (2018). Intelligent health monitoring system based on smart clothing. International Journal of Distributed Sensor Networks, 14(8), 1550147718794318.
  • [2] Pandian, P. S., Mohanavelu, K., Safeer, K. P., Kotresh, T. M., Shakunthala, D. T., et al. (2008). Smart vest: Wearable multi-parameter remote physiological monitoring system. Medical Engineering & Physics, 30(4), 466–477.
  • [3] Paradiso, R., Loriga, G., Taccini, N. (2005). A wearable health care system based on knitted integrated sensors. IEEE Transactions on Information Technology in Biomedicine, 9(3), 337–344.
  • [4] Yang, C.-M., Peng, H.-Y., Zeng, W.-Y., Chen, C.-H., Lai, C.-S. (2016). Capacitive sweat sensor constructed by gui diatomaceous earth. Procedia Engineering, 168, 181–184.
  • [5] Hertleer, C., Tronquo, A., Rogier, H., Van Langenhove, L. (2008). The use of textile materials to design wearable microstrip patch antennas. Textile Research Journal, 78(8), 651–658.
  • [6] Indumathi, G., Bhavithra, J. (2017). Wearable textile antenna for indoor applications. In: 2017 International Conference on Inventive Communication and Computational Technologies (ICICCT), March 2017, pp. 30–34, doi: 10.1109/ICICCT.2017.7975221.
  • [7] Osman, M., Rahim, M., Azfar, M., Samsuri, N. A., Zubir, F., et al. (2011). Design, implementation and performance of ultra-wideband textile antenna. Progress In Electromagnetics Research B, 27, 307–325.
  • [8] Cottet, D., Grzyb, J., Kirstein, T., Troster, G. (2003). Electrical characterization of textile transmission lines. IEEE Transactions on Advanced Packaging, 26(2), 182–190.
  • [9] Kim, Y., Member, S., Kim, H., Member, S., Yoo, H. (2010). H: Electrical characterization of screen-printed circuits on the fabric. IEEE Transactions on Advanced Packaging, 33(1), 33–196.
  • [10] Locher, I., Tröster, G. (2007). Screen-printed textile transmission lines. Textile Research Journal, 77(11), 837–842.
  • [11] Merritt, C. R., et al. (2005). Electrical characterization of printed coplanar waveguide transmission lines on specific nonwoven textile substrates. In: Materials Research Society Symposium Proceedings, Vol. 870, San Francisco, CA, USA, 2005, pp. 87–95.
  • [12] Leśnikowski, J. (2015). New kind of textile transmission line with an impedance of 50 Ohms. Fibres & Textiles in Eastern Europe, 2(110), 51–54.
  • [13] Moradi, B., Fernández-García, R., Gil, I. (2018). E-textile embroidered metamaterial transmission line for signal propagation control. Materials (Basel, Switzerland), 11(6), 1–8.
  • [14] Post, E. R., Orth, M., Russo, P. R., Gershenfeld, N. (2000). E-broidery: Design and fabrication of textile-based computing. IBM Systems Journal, 39(3.4), 840–860.
  • [15] Nowak, I., Krucińska, I., Januszkiewicz, Ł. (2019). Metallic electroconductive transmission lines obtained on textile substrates by magnetron sputtering. Fibres & Textiles in Eastern Europe, 27, 3(135), 51–57.
  • [16] Bahadir, S. K., Kalaoğlu, F., Jevšnik, S. (2015). The use of hot air welding technologies for manufacturing e-textile transmission lines. Fibers and Polymers, 16(6), 1384–1394.
  • [17] Atalay, O., Kalaoglu, F., Kursun Bahadir, S. (2019). Development of textile-based transmission lines using conductive yarns and ultrasonic welding technology for e-textile applications. Journal of Engineered Fibers and Fabrics, 14, 1558925019856603.
  • [18] EN 16812:2016. (2016). Textiles and textile products. Electrically conductive textiles. Determination of the linear electrical resistance of conductive tracks.
  • [19] Leśnikowski, J. (2020). Effect of temperature and humidity on the transmission properties of textile signal lines. The Journal of the Textile Institute, 111(4), 604–610.
  • [20] Hiebel, M. (2008). Fundamentals of vector network analysis. (1st ed.). Rohde & Schwarz (Germany).
  • [21] Carlsson, J. (2019). Crosstalk on printed circuit boards. SP Swedish National Testing and Research Institute (Borås).
  • [22] Nachar, N. (2008). The Mann–Whitney U: A test for assessing whether two independent samples come from the same distribution. Tutorials in Quantitative Methods for Psychology, 4(1), 13–20.
  • [23] Stygienė, L., Varnaitė-Žuravliova, S., Abraitienė, A., Padleckienė, I., Krauledas, S. (2020). Investigation of textile heating element in simulated wearing conditions. AUTEX Research Journal, 1, ahead-of-print, doi: 10.2478/aut-2019-0080.
  • [24] Kurczewska, A., Leśnikowski, J. (2008). Variable-thermoinsulation garments with a microprocessor temperature controller. International Journal of Occupational Safety and Ergonomics, 14(1), Web site: http://yadda.icm.edu.pl/baztech/element/bwmeta1.element.baztech-0ab0f3e7-39e2-4472-a2de-528c0d0d914f. [Accessed 6 March 2019].
Uwagi
Opracowanie rekordu ze środków MEiN, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2022-2023).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-479e8186-cfec-48ed-a2ca-e42402453ec5
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