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Warianty tytułu
Projektowanie anten zintegrowanych z tkaniną - modelowanie rezystancji powierzchniowej i objętościowej
Języki publikacji
Abstrakty
Antennas and other high frequency structure design influence also textile industry in the form of smart textile applications. One of them calls wearable antennas. Proper design of these antennas includes also modelling based on knowledge of textile material parameters of its functional surface, substrate and structure. Paper focuses on modelling of textile structure with electrically conductive fibres and its verification by optic and DC surface and bulk resistance measurement methods.
W artykule przedstawiono zagadnienie tworzenia anten zintegrowanych z odzieżą. Skupiono się na modelowaniu struktury tkaniny, w zależności od rodzaju materiału i jego struktury, zawierającej przewodzące włókna. Dokonano analizy materiału, w oparciu o rezystancję objętościową, powierzchniową i optyczną.
Wydawca
Czasopismo
Rocznik
Tom
Strony
217--222
Opis fizyczny
Bibliogr. 15 poz., rys., tab., wykr.
Twórcy
autor
- Czech Technical University in Prague
autor
- Czech Technical University in Prague
Bibliografia
- [1] Furuya K., Taira Y., Iwasaki H., Yamamoto S., Tamaki N., Harada T., Kuramoto A., Wide band wearable antenna for DTV reception, IEEE Antennas and Propagation Society International Symposium, (2008), 1-4
- [2] Declercq F., Rogier H., Active Integrated Wearable Textile Antenna With Optimized Noise Characteristics, Antennas and Propagation, IEEE Transactions on, 58 (2010), 3050-3054
- [3] Salonen P., Keskilammi M., Sydänheimo L., Antenna design for wearable applications, Tampere University of Technology, Finland.
- [4] Juha L., Salonen P., On the modelling of conductive textile materials for SoftWearAntennas, IEEE Antennas and Propagation Society International Symposium, (2009), 1-4
- [5] Hoang N. N., Miane J., Wojkiewicz J., Modelling of Electromagnetic Shielding Effectiveness of Multilayer Conducting Composites in the Microwave Band, Communications and Electronics, (2006), 482-485
- [6] Maryniak W.A., Uehara T., Noras M. A., Surface resistivity and surface resistance measurements using a concentric ring probe technique, Trek Application Note, 1005 (2003), 1–4
- [7] IEC 61340-5-1 Standard. Electrostatics – part 5-1: Protection of electronic devices from electrostatic phenomena - general requirements, 2001
- [8] ASTM Standard D 257-99. Standard test methods for D-C resistance or conductance of insulating materials, 1999
- [9] ESD STM 11.11-2001 Standard. Surface resistance measurement of static dissipative planar materials, 2001
- [10] EN 1149-1:1996. Protective clothing. Electrostatic properties. Surface resistivity (test methods and requirements), 1996
- [11] Monroe Electronics, Inc.: Electrostatic Measurement and ESD products [online]. 2011 [cit. 2011-09-10]. Resistance / Resistivity Meters. Available: http://www.monroeelectronics. com/esd_pages/resistivitymeters.htm
- [12] TREK, INC.: Measurement and Power Solutions [online]. 2011 [cit. 2011-09-10]. TREK MODEL 152-1 SURFACE/VOLUME RESISTANCE METER. Available: http://www.trekinc.com/ products/152-1.asp
- [13] The Specialists in ESD Protection [online]. 2011 [cit. 2011-09- 10]. Concentric Ring Probes. Available: http://www.vermason.co.uk/FullCatalog/TestEquipment/Surfac eResistanceTesters/ConcentricRingProbes/
- [14] Ubuntu, Package: oregano (0.69.1-1ubuntu1.10.04.1), [online]. 2011 [cit. 2011-03-24]. Available: http://packages.ubuntu.com/lucid-updates/gnome/oregano
- [15] Militky J., Safarova V., Nonlinear length dependence of electric resistance of yarn containing metal fibers. TEXCO´ 2010 PROCEEDINGS - EXTENDED ABSTRACTS.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7c60c9e1-7ce3-477f-a137-145eb5f56934