Journal of Electromagnetic Engineering and Science (Jul 2023)

Design of Compact and Superdirective Metamaterial-Inspired Two- and Three-Elements Antenna Arrays

  • Saber Dakhli,
  • Jean Marie Floc’h,
  • Mohammed Aseeri,
  • Ameni Mersani,
  • Hatem Rmili

DOI
https://doi.org/10.26866/jees.2023.4.r.179
Journal volume & issue
Vol. 23, no. 4
pp. 362 – 368

Abstract

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This paper presents the development of a miniature antenna array in a small space in order to achieve superdirectivity for long-range communication. The proposed structures consist of a superdirective metamaterial-inspired array based on a capacitively loaded loop (CLL) driven by an electrically small monopole antenna. This elementary antenna is then used in two- and three-array configurations separated by a fixed interelement distance of 0.1λ to achieve a higher directivity and compact size (with λ the wavelength calculated at the operation frequency 1.850 GHz). The design of the elementary antenna, its simulated radiation performances, as well as those of the parasitic array are also reported. The results of the optimization of two- and three-antenna arrays are discussed. For this study, three corresponding prototypes were fabricated and tested. The measured impedance mismatch and radiation pattern results are presented and shown to be in good agreement with their simulated values. The maximum measured directivity is equal to 5.9 dBi and 4.75 dBi in the case of the two- and three- elements, respectively. The proposed antenna arrays can serve for the realization of point-to-point wireless links and can have a significant impact on compact and high-directive radiofrequency front-ends of a wireless system and for wireless power transfer applications.

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