Title :
Wearable, Small, and Robust: The Circular Quarter-Mode Textile Antenna
Author :
Agneessens, Sam ; Lemey, Sam ; Vervust, Thomas ; Rogier, Hendrik
Author_Institution :
Dept. of Inf. Technol., Ghent Univ., Ghent, Belgium
Abstract :
A miniaturized wearable antenna, entirely implemented in textile materials, is proposed that relies on a quarter-mode substrate integrated waveguide topology. The design combines compact dimensions with high body-antenna isolation, making it excellently suited for off-body communication in wearable electronics/smart textile applications. The fabricated antenna achieves stable on-body performance. A measured on-body impedance matching bandwidth of 5.1% is obtained, versus 4.8% in free space. The antenna gain equals 3.8 dBi in the on-body and 4.2 dBi for the free-space scenario. High radiation efficiency, measured to be 81% in free space, is combined with a low calculated specific absorption rate of 0.45 mW/g, averaged over 1 g of tissue, with 500 mW input power.
Keywords :
antenna radiation patterns; biomedical communication; impedance matching; substrate integrated waveguides; waveguide antennas; wearable antennas; antenna gain; antenna radiation pattern; high body-antenna isolation; off-body communication; on-body impedance matching; quarter-mode substrate integrated waveguide topology; smart textile application; specific absorption rate; textile material; wearable circular quarter-mode textile antenna; wearable electronics; Antenna measurements; Antenna radiation patterns; Cavity resonators; Substrates; Textiles; Antenna miniaturization; antennas; quarter-mode substrate integrated waveguide; substrate integrated waveguide antennas; textile antennas; wearable antennas; wearable electronics;
Journal_Title :
Antennas and Wireless Propagation Letters, IEEE
DOI :
10.1109/LAWP.2015.2389630
