Alexandria Engineering Journal (Aug 2024)

A critical review on the development of multi-geometrical stacked wideband dielectric resonator antenna

  • Mohamad Faiz Mohamed Omar,
  • Ihsan Ahmad Zubir,
  • Shahanawaz Kamal,
  • Jagadheswaran A.L. Rajendran,
  • Julie Juliewatty Mohamed,
  • Zainal Arifin Ahmad,
  • Mohd Fadzil Ain,
  • Sharul Kamal Abdul Rahim

Journal volume & issue
Vol. 100
pp. 111 – 141

Abstract

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Dielectric resonator antennas (DRAs) use dielectric material as a resonator to accomplish high radiation efficiency and avoid severe conductor loss. The dielectric material that behaves as a resonator is plagued by a number of limitations, including strong cross-polarised (XP) radiation and difficulties integrating with any development platform. Yet, it also offers a lot of benefits, including compact size, lightweight, affordable price, and diversity in form, including cylindrical, rectangular, conical, and ring. A discussion of DRAs, covering DRA propagation modes, geometries, feeding mechanisms, and different bandwidth augmentation approaches, is presented. A stacked arrangement with two or more DRs has achieved the widest impedance bandwidth (BW). The perforated topology is a straightforward alternative for increasing the DRA’s bandwidth while maintaining a small, discrete size.

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