IEEE Access (Jan 2024)

A Cylindrical Conformal Textile Antenna With Omnidirectional Radiation Pattern

  • Renhang Liang,
  • Zhixi Liang,
  • Yuanxin Li,
  • Yiming Zhang,
  • Shaoyong Zheng

DOI
https://doi.org/10.1109/ACCESS.2024.3457623
Journal volume & issue
Vol. 12
pp. 146678 – 146685

Abstract

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A novel textile antenna is proposed to produce an omnidirectional radiation pattern. It can be integrated with clothes as a wristband due to its cylindrical conformal design. The antenna has a resonant cavity fabricated from conductive fabric and filled with cotton fabric. Three edges of the cavity are short-circuited with conductive threads and coupled-fed by a patch coupler fabricated with flexible printed circuit (FPC). Theoretical analysis shows that the proposed antenna is equivalent to a magnetic current loop, which produces a dipole-like radiation pattern when its radius is less than 0.4 wavelengths. Simulated results show that the antenna produces a low specific absorption rate (SAR) when it is loaded on human tissues. Measured results show a bandwidth from 2.36 GHz to 2.52 GHz with an omnidirectional radiation pattern. The peak gain varies between 0.6 dBi and -0.6 dBi within the bandwidth. The small thickness and simple structure of the proposed antenna make it a good candidate for wearable applications.

Keywords