Miniaturized Dual-polarized, High-gain, and Wideband Dielectric Resonator Antenna for Low Band Massive MIMO Applications
Ahmed El Yousfi, Kerlos Atia Abdalmalak, Abdenasser Lamkaddem, Alejandro Murrillo Barrera, Bruno Biscontini, Daniel Segovia‐Vargas
Abstract
A new dual-polarized compact crossed-notched dielectric resonator antenna (DRA) with high-gain and wideband performance is proposed for low-band massive multiple-input multiple-output (MIMO) applications at the 700 MHz band of 5G new radio (5G NR) technology.The DRA element consists of three dielectric layers with relatively high relative permittivity constants (ϵr1 = 15 for the bottom and top layers and ϵr2 = 23 for the middle one) for a compact antenna.Characteristic mode analysis (CMA) of a rectangular DRA reveals that two pairs of degenerate modes, namely M2/M3 and M4/M5, resonating at 0.4 and 0.6 GHz respectively can be used to achieve dual polarizations with a proper feeding strategy.By jointly reshaping the conventional DRA along with adding a notch into the middle dielectric layer, the two pairs of degenerate modes are merged to produce a broad bandwidth with a compact size of 0.2λmax × 0.2λmax (λmax being the wavelength at low-frequency point).The measured results show an impedance bandwidth of 13.15% (710 MHz-810 MHz) and an isolation of less than -17 dB.Furthermore, the antenna exhibits a good radiation pattern over the working band with a high gain of 7 dB.Finally, the proposed element is tested in a massive MIMO system of 3 × 4. The results exhibit a wideband of 17.7% and high isolation of more than 12 dB along with a stable gain of 5 dBi within the operating band.