Title :
A novel inkjet-printed wireless chipless strain and crack sensor on flexible laminates
Author :
Vena, Arnaud ; Tedjini, Marwan ; Bjorninen, Toni ; Sydanheimo, Lauri ; Ukkonen, Leena ; Tentzeris, Manos M.
Author_Institution :
Dept. of Electron. & Commun. Eng., Tampere Univ. of Technol., Tampere, Finland
Abstract :
We studied a low-cost chipless radio-frequency identification strain sensor tag operating at 2.45 GHz. The sensor is based on a 18.5 × 18.5 mm2 single split ring resonator which is fully inkjet printed on a flexible substrate. For an applied strain of 20 %, a silver-based ink strip printed on a polyimide substrate showed an irreversible conductivity variation up to 700 %. Correspondingly, when illuminated by an incident plane wave, the printed sensor features an electromagnetic response with a magnitude strongly correlated with the strain applied on it. We recorded up to 15 dB variation in the radar cross section. Both, the simulations and wireless measurements in indoor environment validated the sensor operation.
Keywords :
cracks; ink jet printing; microwave resonators; radar cross-sections; radiofrequency identification; strain sensors; electromagnetic response; flexible laminates; flexible substrate; incident plane wave; indoor environment; inkjet-printed wireless chipless crack sensor; inkjet-printed wireless chipless strain sensor; irreversible conductivity variation; low-cost chipless radiofrequency identification strain sensor tag; polyimide substrate; radar cross section; silver-based ink strip; single-split ring resonator; wireless measurement; Conductivity; Radiofrequency identification; Strain; Strain measurement; Substrates; Wireless communication; Wireless sensor networks;
Conference_Titel :
Antennas and Propagation Society International Symposium (APSURSI), 2014 IEEE
Conference_Location :
Memphis, TN
Print_ISBN :
978-1-4799-3538-3
DOI :
10.1109/APS.2014.6904974
