TY - JOUR
T1 - Experimental study on strain reliability of embroidered passive UHF RFID textile tag antennas and interconnections
AU - Chen, Xiaochen
AU - Liu, Aruhan
AU - Wei, Zhigang
AU - Ukkonen, Leena
AU - Virkki, Johanna
PY - 2017
Y1 - 2017
N2 - We present embroidered antennas and interconnections in passive UHF RFID textile tags and test their strain reliability. Firstly, we fabricate tag antennas on two different stretchable fabric substrates by five different embroidery patterns and choose the most stretchable ones for testing. Next, the tag ICs are attached by sewing and gluing, and the tag reliability during repeated stretching cycles is evaluated through wireless measurements. Initially, the chosen tags achieve read ranges of 6-8 meters and can strain up to 140-150% of their original length. After 100 stretching cycles to 80% of their maximum strain, the read ranges of the tags with glued interconnections are similar to the initial values. In addition, also the read ranges of the tags with sewed interconnections are still more than 70%-85% of their initial values. However, some challenges with the reproducibility need to be solved next.
AB - We present embroidered antennas and interconnections in passive UHF RFID textile tags and test their strain reliability. Firstly, we fabricate tag antennas on two different stretchable fabric substrates by five different embroidery patterns and choose the most stretchable ones for testing. Next, the tag ICs are attached by sewing and gluing, and the tag reliability during repeated stretching cycles is evaluated through wireless measurements. Initially, the chosen tags achieve read ranges of 6-8 meters and can strain up to 140-150% of their original length. After 100 stretching cycles to 80% of their maximum strain, the read ranges of the tags with glued interconnections are similar to the initial values. In addition, also the read ranges of the tags with sewed interconnections are still more than 70%-85% of their initial values. However, some challenges with the reproducibility need to be solved next.
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U2 - 10.1155/2017/8493405
DO - 10.1155/2017/8493405
M3 - RGC 21 - Publication in refereed journal
SN - 2314-4904
VL - 2017
JO - Journal of Engineering (United States)
JF - Journal of Engineering (United States)
M1 - 8493405
ER -