Title :
Textile Antennas and Sensors for Body-Worn Applications
Author :
Lanlin Zhang ; Zheyu Wang ; Volakis, J.L.
Author_Institution :
Dept. of Electr. & Comput. Eng., Ohio State Univ., Columbus, OH, USA
fDate :
7/4/1905 12:00:00 AM
Abstract :
This letter presents novel body-worn antennas and medical sensors based on embroidered conductive polymer fibers (e-fibers) on textiles. This technology offers attractive mechanical and RF performance when compared to traditionally flat and rigid antennas and circuits. The e-fibers are composed of high-strength and flexible polymer cores that incorporate conductive metallic coatings. They are readily embroidered onto regular textiles and can also be laminated on to polymer dielectric substrates. The RF characteristics of the e-fiber textiles were evaluated using microstrip transmission line (TL) structures. They exhibited an insertion loss of only 0.07 dB/cm at 1 GHz and 0.15 dB/cm at 2 GHz. Prototype body-worn multiband/wideband antennas and medical sensor were constructed to demonstrate their efficiency and comparable performance to that of copper. All designs were fabricated with high precision and resolution down to 0.5 mm.
Keywords :
antennas; body sensor networks; coatings; microstrip lines; polymer fibres; textiles; RF performance; body-worn antennas; body-worn applications; conductive metallic coatings; e-fiber textiles; e-fibers; embroidered conductive polymer fibers; flexible polymer cores; frequency 1 GHz; frequency 2 GHz; insertion loss; medical sensors; microstrip transmission line structures; polymer dielectric substrates; prototype body-worn multiband antennas; rigid antennas; textile antennas; wideband antennas; Antennas; Composite materials; Microstrip; Optical fiber sensors; Radio frequency; Textiles; Transmission line measurements; Wearable sensors; Body-worn RF devices; electronic composite fibers; textile embroidered antennas; textile medical sensors;
Journal_Title :
Antennas and Wireless Propagation Letters, IEEE
DOI :
10.1109/LAWP.2013.2239956
