IEEE Access (Jan 2023)

A Curved Microstrip Patch Antenna Designed From Transparent Conductive Films

  • Giorgio Montisci,
  • Giovanna Mura,
  • Giacomo Muntoni,
  • Giovanni Andrea Casula,
  • Francesco Paolo Chietera,
  • Mahmoud Aburish-Hmidat

DOI
https://doi.org/10.1109/ACCESS.2022.3233471
Journal volume & issue
Vol. 11
pp. 839 – 848

Abstract

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Transparent microstrip patch antennas suffer from low radiation efficiency and gain when manufactured using transparent conductive films (TCFs), mainly at low frequency (starting from the microwave S band). To address this problem, we propose a curved microstrip patch antenna designed using transparent materials. This new configuration has proven to be a simple and effective solution to improve the radiation efficiency and gain of TCF printed antennas. In fact, when typical values of the TCF surface resistance are considered (between 2 and 10 $\Omega $ /sq), the new antenna features a radiation efficiency of up to 72.3% and a realized gain of up to 5.3 dBi at 2.15 GHz, with a significant improvement in comparison with the flat transparent microstrip antenna (up to 17.7% radiation efficiency, and 0.5 dBi realized gain). Good transparency and lightweight is ensured by the deposition of the TCF on a polyethylene terephthalate film, which lies, in turn, on a 3D-printed curved polyethylene terephthalate glycol supporting frame. Simulations using Ansys HFSS are presented to demonstrate the potential of the proposed configuration. Then, a prototype of the transparent curved patch antenna is fabricated and measured to assess the simulated results.

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