Passive UHF RFID-enabled sensor system for detection of product's exposure to elevated temperature

• Autorzy: Janeczek K. , Jakubowska M. , Kozioł G. , Jankowski-Mihułowicz P.
• Języki publikacji: EN

Abstrakty

EN

Temperature change is one of key factors which should be taken into account in logistics during transportation or storage of many types of goods. In this study, a passive UHF RFID-enabled sensor system for elevated temperature (above 58°C) detection has been demonstrated. This system consists of an RFID reader and disposable temperature sensor comprising an UHF antenna, chip and temperature sensitive unit. The UHF antenna was designed and simulated in an IE3D software. The properties of the system were examined depending on the temperature level, type of package which contains the studied objects and the type of antenna substrate.

Słowa kluczowe

EN

RFID; temperature sensor; printed antenna; screen printing; printed electronics

• Wydawca: Komitet Metrologii i Aparatury Naukowej PAN
• Czasopismo: Metrology and Measurement Systems
• Rocznik: 2013
• Tom: Vol. 20, nr 4
• Strony: 591--600
• Opis fizyczny: Bibliogr. 14 poz., rys., tab., wykr.

Twórcy

autor

Janeczek K.

• Tele and Radio Research Institute, 11 Ratuszowa Street, 03-450 Warsaw, Poland

autor

Jakubowska M.

• Institute of Electronic Materials Technology, 133 Wolczynska Street, 01-919 Warsaw, Poland

autor

Kozioł G.

• Warsaw University of Technology, Institute of Metrology and Biomedical Engineering, 8 Sankt Andrzej Bobola Street, 02-525 Warsaw, Poland

autor

Jankowski-Mihułowicz P.

• Rzeszów University of Technology, Department of Electronic and Communications Systems, 2 Wincenty Pol Street, 35-959 Rzeszów, Poland

Bibliografia

• [1] Janeczek, K., Jakubowska, M., Młożniak, A., Kozioł, G. (2012). Thermal characterization of screen printed conductive pastes for RFID antennas. Mat Sci Eng B-Solid, 177(15), 1336-1342.
• [2] Yang, L., Vyas, R., Rida, A., Pan, J., Tentzeris, M.M. (2008). Wearable RFID-enabled sensor nodes for biomedical applications. Proc. of 58th Electronic Components and Technology Conference, Greenwich, Great Britain, 2156-2159.
• [3] Qiao, Q., Yang, F., Elsherbeni, A.Z. (2012). Read range and sensitivity study of RFID temperature sensors. Proc. IEEE Antennas and Propagation Society International Symposium, Chicago, USA, 1-2.
• [4] Virtanen, J., Ukkonen, L., Bjorninen, T., Sydanheimo, L., Elsherbeni, A.Z (2011). Temperature sensor tag for passive UHF RFID systems. Proc. Sensors Applications Symposium (SAS), San Antonio, USA, 312-317.
• [5] Saldanha, N., Malocha, D.C. (2012). Pseudo-orthogonal frequency coded wireless SAW RFID temperature sensor tags. IEEE T Ultrason Ferr, 59(8), 1750-1758.
• [6] Binder, A., Fachberger, R. (2011). Wireless SAW Temperature Sensor System for High-Speed High-Voltage Motors. IEEE Sens. J., 11(4), 996-970.
• [7] Amin, E. Md., Karmakar, N. (2011). Development of a chipless RFID temperature sensor using cascaded spiral resonators. Proc. IEEE Sensors, Limerick, Ireland, 554-557.
• [8] Guerin, M., Lauque, P., Bergeret, E., Pannier, P.(2010). A temperature and gas sensor integrated on a 915MHz RFID UHF tag. Proc. IEEE International Conference on Wireless Information Technology and Systems (ICWITS), Hawaii, USA, 1-4.
• [9] Cazeca, M.J., Mead, J., Chen, J., Nagarajan, R. (2013). Passive wireless displacement sensor based on RFID technology. Sensor Actuat A-Phys, 190, 197-202.
• [10] Janeczek, K., Serzysko, T., Jakubowska, M., Koziol, G., Mlozniak, A. (2012). Mechanical durability of RFID chip joints assembled on flexible substrates. Solder Surf Mt Tech, 24(3) 206-215.
• [11] Marrocco, G. (2008). The art of UHF RFID antenna design: impedance-matching and size-reduction techniques. IEEE Antennas Propag, 50(1) 66-79.
• [12] Tomar, G.S., Pratap, R., Kushwah, S., Kushwah, V. (2009). Tag Antenna Analysis for RFID. Proc. International Instrumentation and Measurement Technology Conference, Singapore, 154-158.
• [13] Qing, X., Goh, C.K., Chen, Z.N. (2009). Impedance Characterization of RFID Tag Antennas and Application in Tag Co-Design. IEEE T Microw Theory, 57(5) 1268-1274.
• [14] Janeczek, K., Kozioł, G. (2011). Performance Characteristics of UHF RFID tags used in identification on liquids. Przegląd Elektrotechniczny, 5, 246-249.

Uwagi

This work was partly supported by the Projects: "Developing research infrastructure of Rzeszów University of Technology" within the Operational Program Development of Eastern Poland 2007-2013 of the Priority Axis I Modern Economics of Activity I.3 Supporting Innovation, Contract No. POPW.01.03.00-18-012/09-00; "Developing and modernization research base of Rzeszów University of Technology", No UDA-RPPK.01.03.00-18-003/10-00 from The Structural Funds, The Development of Podkarpacie Province, The European Regional Development Fund.