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Comparison of the Parameters of Textile Antennas Manufactured Using Three Techniques: Magnetron Sputtering, Ink-Jet Printing and Embroidery

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In this work, three textile antennas with the same geometry were produced using three different technologies: magnetron sputtering (PVD), ink-jet printing and embroidery using electroconductive yarn. In all three cases, the electrically conductive medium was the same, which was silver, known for centuries for its very good conductive properties. In order to show how the method of manufacturing antennas affects their operational parameters, the following measurements were carried out: surface resistivity, impedance, standing wave coefficient of antenna radiators, and their radiation characteristics were assessed. The surface resistivity value of the antenna paths obtained ranged from 0.05 to 1.2 Ωm/m.
Rocznik
Strony
1--7
Opis fizyczny
Bibliogr. 24 poz., rys., tab.
Twórcy
autor
  • Lodz University of Technology, Faculty of Material Technologies and Textile Design Institute of Material Science of Textile and Polymer Composites
  • Lodz University of Technology, Faculty of Electrical, Electronic, Computer and Control Engineering, Institute of Electronics
  • Lodz University of Technology, Faculty of Material Technologies and Textile Design Institute of Material Science of Textile and Polymer Composites
Bibliografia
  • 1. Raskovic D, Martin T, Jovanov E. Medical Monitoring Applications for Wearable Computing. The Computer Journal, 47(4): p. 495-504, July 2004
  • 2. Januszkiewicz Ł, Hausman S, Kacprzak T, Michalak M, Krucińska I, Bilska J. Textile Antenna for Personal Radio Communications System – Materials and Technology. Fibers&Textiles in Eastern Europe, nr.95, p.129-133, 2012.
  • 3. Ahmad J, Zafar F. Body Area Network Technology & Wireless Medical Monitoring. International Journal of Information and Communication Technology Research, Vol.2, nr.2, 2012
  • 4. Dierck A. Review of active textile antenna co-design and optimalization strategies. IEEE International conference on RFID-Technologies and Applications, 2011
  • 5. Moradi B, Fernández-García R, Gil I. Effect of smart textile metamaterials on electromagnetic performance for wireless body area network systems, Textile Research Journal, vol. 89, 14: p. 2892-2899 2018
  • 6. Purna B, Ping J,Zahrilandha Z. Compact Microstrip-Based Textile Antenna for 802.15.6 WBAN-UWB with Full Ground Plane. International Journal of Antennas and Propagation, Volume 2019, Article ID 8283236, DOI:10.1155/2019/8283236
  • 7. Gilliland S, Komor N, Starner T, Zeagler C. The Textile Interface Swatchbook: Creating Graphical User Interface-like Widgets with Conductive Embroidery. www.ieeexplore.ieee.org, IEEE ,2013
  • 8. Kazani I, Hertleer C. De Mey G, Schwarz A, Guxho G, Van Langenhove L. Electrical Conductive Textiles Obtained by Screen Printing. Fibres&Textiles in Eastern Europe 2012, 20, 1(90) p. 57-63, 2012
  • 9. Jung J, Ha K, Lee J, Kim Y, Kim D. Wireless Body Area Networking a Ubiquitous Healthcare System for Physiological Signal Monitoring and Health Consulting. International Journal of Signal Processing, Image Processing and Pattern Recognition, p.47-54, IEEE, 2009
  • 10. Ahmad J, Zafar F. Body Area Network Technology & Wireless Medical Monitoring. International Journal of Information and Communication Technology Research, Vol.2, no.2, 2012
  • 11. Chávez-Santiago R. Khaleghi A. Balasinghamand Tor I, Ramstad A. Architecture of an Ultra Wideband Wireless Body Area Network for Medical Applications”, IEEE, 2009
  • 12. De Santis V, Feliziani M, Maradei F. Safety Assessment of UWB Radio Systems for Body Area Network FDTD Method. IEEE Transaction on Magnetics, Vol.46, no.8, IEEE, 2010
  • 13. Rais N, Malek F, Ahmad S, Hashim N, Hall P. A Review of Wearable Antenna. Loughborough Antennas & Propagation Conference, Loughborough, 2009
  • 14. Ouyang Y, Chappell W. High Frequency Properties of Electro-Textiles for Wearable Antenna Applications. Transactions on antennas and Propagation, Vol.56, no.2, p.381-389, 2008
  • 15. Monti G, Corchia L, Tarricone L. Fabrication techniques for wearable antennas; Proceedings of the 2013 European Microwave Conference; Nuremberg, Germany. 6–10 October 2013; p. 435–438
  • 16. Virkki J, Wei Z, Liu A, Ukkonen L. Wearable Passive E-Textile UHF RFID Tag based on a Slotted Patch Antenna with Sewn Ground and Microchip Interconnections. Int. J. Antennas Propag. p. 27–29. 2017
  • 17. Yan S, Poffelie LAY, Soh PJ, Zheng X. Vandenbosch G.A.E. On-body performance of wearable UWB textile antenna with full ground plane. Proceedings of the 2016 10th European Conference on Antennas and Propagation (EuCAP); Davos, Switzerland. 10–15 April 2016. p. 28–31
  • 18. Abbas B, Khamas SK, Ismail A, Sali A. Full Embroidery Designed Electro-Textile Wearable Tag Antenna for WBAN Application. Sensors (Basel), 2019 Jun; 19(11): 2470, doi: 10.3390/s19112470
  • 19. Krucińska I, Nowak I, Skrzetuska E, Januszkiewicz Ł. Production of textile antenna by depositing of electroconductive inks using Ink-jet printing. Ambience 14&10i3m,7-9 September 2014, Tampere
  • 20. Januszkiewicz Ł, Hausman S, Kacprzak T, Michalak M, Bilska J, Krucińska I.Textile body-worn exponentially taped vee antenna. IEEE, 2009
  • 21. Hausman S, Januszkiewicz Ł, Michalak M, Kacprzak T, Krucińska I. High Frequency Dielectric Permittivity of Nonwovens. Fibers&Textiles in Eastern Europe, Vol. 14, nr.5(59), 2006
  • 22. Januszkiewicz Ł, Hausman S, Nowak I, Krucińska I. Textile Vee Antenna Made With PVD Process. International Journal of Applied Electromagnetics and Mechanics, Vol 46, no.2,p.361-365, 2014
  • 23. Nowak I, Krucińska I, Januszkiewicz Ł. Metallic Electroconductive Transmission Lines Obtained on Textile Substrates by Magnetron Sputtering. FIBRES & TEXTILES in Eastern Europe 2019; 27, 3(135): 51-57. DOI: 10.5604/01.3001.0013.0742
  • 24. Nowak I. The impact of textile antenna manufacturing technology on their parameters. Scientific notebooks of the Lodz University of Technology, p. 37-65, ISSN 0076-0331
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-88ee74bc-7495-4257-82d3-f45152d3d4a9
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