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Projekt elastycznej anteny półpasywnego identyfikatora RFID pasma HF realizowanej w procesie druku strumieniowego
Języki publikacji
Abstrakty
The synthesis process of flexible antenna dedicated to semi-passive transponders of HF RFID system with inductive coupling is presented in the paper. The problem of antenna matching to a chip is considered in details. The emphasis is put on the possibility of manufacturing the antenna in the ink-jet technology. The impact of technology on antenna parameters is also discussed as it is important for transponder operation in a target application. The validation study of the synthesis method and samples behaviour in inhomogeneous magnetic field has been carried out.
W artykule omówiono proces syntezy elastycznej anteny dedykowanej do pracy w półpasywnych, indukcyjnie sprzężonych systemach RFID pasma HF. Szczegółowej analizie poddano problem dopasowania anteny i chipu. Przeanalizowano także możliwość wykonania zaprojektowanej anteny w procesie druku strumieniowego, zwracając szczególną uwagę na wpływ parametrów technologicznych na działanie identyfikatora w docelowej aplikacji systemu RFID. W artykule omówiono również proces syntezy układów testowych oraz ich pracę w niejednorodnym polu magnetycznym.
Wydawca
Czasopismo
Rocznik
Tom
Strony
1--5
Opis fizyczny
Bibliogr. 30 poz., il., schem., tab., wykr.
Twórcy
autor
- Rzeszów University of Technology, Faculty of Electrical and Computer Engineering, Department of Electronic and Communications Systems, ul. W. Pola 2, 35-959 Rzeszów, http://zseit.portal.prz.edu.pl/en/
autor
- Rzeszów University of Technology, Faculty of Electrical and Computer Engineering, Department of Electronic and Communications Systems, ul. W. Pola 2, 35-959 Rzeszów, http://zseit.portal.prz.edu.pl/en/
autor
- Rzeszów University of Technology, Faculty of Electrical and Computer Engineering, Department of Electronic and Communications Systems, ul. W. Pola 2, 35-959 Rzeszów, http://zseit.portal.prz.edu.pl/en/
Bibliografia
- [1] Ustundag A., The Value of RFID, Benefits vs. Costs, Springer-Verlag (2013)
- [2] James C.C., Chen-Huan C., PoTsang B.H., Kung-Jen W., Chien-Jung H., Ti-Chen T., Warehouse management with lean and RFID application: a case study, Int. J. Adv. Manuf. Technol., 69 (2013), 531-542
- [3] Hasanuzzaman F.M., Yang X., Tian Y.L., Liu Q., Capezuti E., Monitoring activity of taking medicine by incorporating RFID and video analysis, Netw. Model. Anal. Health. Inform. Bioinforma., 2 (2013), 61-70
- [4] Singh J., Roy S., Montero M., Roesner B., Evaluation of an innovative system for improving readability of passive UHF RFID tags attached to reusable plastic containers, Packag. Technol. Sci., 24 (2011), 137-146
- [5] Finkenzeller, K., RFID Handbook, 3-rd ed., Wiley, (2010)
- [6] Jankowski-Mihułowicz P., Kalita W., Skoczylas M., Węglarski M., Modelling and Design of HF RFID Passive Transponders with Additional Energy Harvester, Int. J. of Antennas and Propagation, Article ID 242840 (2013), 1-10
- [7] Cook B., Cooper J.R., Tentzeris M.M., An Inkjet-Printed Microfluidic RFID-Enabled Platform for Wireless Lab-on-Chip Applications, IEEE Trans. Microw. Theory Tech., 61 (2013), 4714-4723
- [8] Dang M.C., Nguyen D.S., Dang T.M.D., Tedjini S., Fribourg-Blanc E., Design and testing of RFID sensor tag fabricated using inkjet-printing and electrodeposition, Advances in Natural Sciences: Nanoscience and Nanotechnology, 5 (2014), No. 025012, doi:10.1088/2043-6262/5/2/025012
- [9] Li Y., Rida A., Vyas R., Tentzeris M.M., RFID Tag and RF Structures on a Paper Substrate Using Inkjet-PrintingTechnology, IEEE Transactions on Microwave Theory and Techniques, 55 (2007), 2894-2901
- [10] Boryssenko A, Boryssenko E., HF RFID antenna array for multi-tag environment, Proc. of IEEE Antennas and Propagation Society Int. Symp. (APSURSI), 7-13 July, Orlando, FL, USA (2013), 1724-1725
- [11] Kisic M., Dakic B., Damnjanovic M., Menicanin A, Blaz N., Zivanov L., Design and simulation of 13.56 MHz RFID tag in ink-jet printing technology, Proc. of 36th Int. Spring Seminar on Electronics Technology (ISSE), 8-12 May, Alba Iulia, Romania (2013), 263-267
- [12] Zi Long Ma, Li Jun Jiang, Jingtian Xi, Ye T.T., A compact HF/UHF dual band RFID tag antenna, Proc. of IEEE Antennas and Propagation Society Int. Symp. (APSURSI), 7-13 July, Orlando, FL, USA (2013), 1122-1123
- [13] TI, Tag-it HF-I Pro Transponder Inlays, Reference Guide, Literature Number: SCBU009B, Rev. Sept. (2011)
- [14] Tanaka M., Takahashi N., Ikeda R., Suzuki M., RFID based maintenance management system for ground coils of superconducting maglev, Proc. of IEEE Int. Conf. on RFIDTechnologies and Applications (RFID-TA), 5-7 Nov., Nice, France (2012), 330-334
- [15] Gebhart M., Neubauer R., Stark M., Warnez D., Design of 13.56 MHz Smartcard Stickers with Ferrite for Payment and Authentication, Proc. of 3rd Int. Workshop on Near Field Communication (NFC), 22-22 Feb., Hagenberg, Austria (2011), 59-64
- [16] Tarapata G., Paczesny D., Kawecki K., Characterization of inkjet-printing HF and UHF antennas for RFID applications, Proc. of SPIE, 8903 (2013), 89032I-89032I-7
- [17] Casula G.A., Montisci G., Mazzarella G., A Wideband PET Inkjet-Printed Antenna for UHF RFID, IEEE Antennas and Wireless Propagation Lett., 12 (2013), 1400-1403
- [18] Ortego I., Sanchez N., Garcia J., Casado F., Valderas D., Sancho J. I., Inkjet Printed Planar Coil Antenna Analysis for NFC Technology Applications, Int. J. of Antennas and Propagation, Article ID 486565 (2012), 1-6
- [19] Koski K., Koski E., Virtanen J., Björninen T., Sydänheimo L., Ukkonen L., Elsherbeni Z., Inkjet-printed passive UHF RFID tags: review and performance evaluation, Int. J. of Advanced Manufacturing Technology, 62 (2012), 167-182
- [20] Yin Z., Huang Y., Bu N., Wang X., Xiong Y., Inkjet printing for flexible electronics: Materials, processes and equipments, Chinese Science Bulletin, 55 (2010), 3383-3407
- [21] Jankowski-Mihułowicz P., Kalita W., Efficiency of Tag Antenna Unit in Anticollision Radio Frequency Identification Systems with Inductive Coupling, Acta Electrotechnica et Informatica, 9 (2009), 3-7
- [22] Volkman S. K., Pei Y., Redinger D., Yin S., Subramanian V., Ink-jetted Silver/Copper conductors for printed RFID applications, MRS Online Proceedings Library, 814 (2004), I7.8.1- I7.8.6
- [23] Lee D. J., Oh J. H., Bae H. S., Crack formation and substrate effects on electrical resistivity of inkjet-printed Ag lines, Materials Letters, 64 (2010), 1069-1072
- [24] Ohnimus F., Ndip I., Guttowski S., Reichl H., Design and Analysis of a Bent Antenna-coil for a HF RFID Transponder, Proc. of 38th European Microwave Conference, 27-31 Oct. Amsterdam, Holland (2008), 75-78
- [25] Preis K., Bauernfeind T., Biro O., Koczka G., Ticar I., Investigation of UHF Circular Loop Antennas for RFID, IEEE Trans. Magn, 46 (2010), 3309-3312
- [26] Shao B., Amin Y., Chen Q., Liu R., Zheng L.-R., Directly Printed Packaging-Paper-Based Chipless RFID Tag With Coplanar LC Resonator, IEEE Antennas Wireless Propag. Lett., 12 (2013), 325-328
- [27] ST-Microelectronics, M24LR16E-R product specification, DOI 018932, Dec. (2011)
- [28] Park S-J., Lee E-J., Kwon S-H., Influence of Surface Treatment of Polyimide Film on Adhesion Enhancement between Polyimide and Metal Films, Bulletin of the Korean Chemical Society, 28 (2007), 188-192
- [29] Jankowski-Mihułowicz P., Pitera G., Węglarski M., The Impedance Measurement Problem in Antennas for RFID Technique, Metrology and Measurement Systems, XXI (2014), No. 3, 509-520
- [30] ASTM, Designation D3359: Standard Test Methods for Measuring Adhesion by Tape Test, ASTM International, Ver. 09e2, http://www.astm.org, (2009)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c777691b-9a2c-4fa2-89c2-cdc0b951b801
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