(3.1–20) GHz MIMO antennas

Título(3.1–20) GHz MIMO antennas
Tipo de publicaciónJournal Article
Year of Publication2018
AutoresAhmed, B. T., P. Sanchez-Olivares, J. L. Masa-Campos, and F. Moreno-Vazquez
JournalAEU - International Journal of Electronics and Communications
Volumen94
Pagination348-358
Date Publishedseptember
ISSN1434-8411
Palabras claveMIMO antenna, Polarization diversity MIMO antenna, SWB antenna
ResumenIn this paper, a super-wideband (SWB) printed monopole antenna has been designed and manufactured. The measured frequency band in terms of reflection coefficient is from 3.1 to 20 GHz under a −10 dB criteria, thanks to the inclusion of a taper impedance adapter. This single antenna has been used to implement and analyze several MIMO antenna configurations, where the isolation between the compounding elements has been checked and optimized to improve the Envelope Correlation Coefficient. Two elements MIMO configurations (parallel ports or orthogonal diversity), as well as four element MIMO antennas with parallel ports are presented. Non continuous ground planes of the MIMO antenna elements with the inclusion of L shaped thin strips are proposed as valid structures to significantly improve the side by side mutual coupling from an initial peak value of 15 dB to better than 24 dB within the entire frequency band. In all the presented MIMO antenna structures, the measured values demonstrate good performance up to 20 GHz, both in reflection and isolation. Nevertheless, the influence of the mutual coupling effects has been checked as more significant in the lower part of the frequency band, especially in the 4 element MIMO configuration. The inclusion of the L shaped strips in the ground plane significantly mitigates this effect. Although the antennas have only been measured up to 20 GHz (upper frequency limit of the laboratory Vector Network Analyzer), simulations show satisfactory antennas’ performance up to 50 GHz.
URLhttps://www.sciencedirect.com/science/article/pii/S1434841118310823
DOI10.1016/j.aeue.2018.07.026