An annular periodic leaky-wave antenna (LWA) fed by a simple azimuth-symmetric source is designed to generate a high-gain omnidirectional conical beam pattern which scans with frequency over a wide angular range. The proposed structure is defined by a finite metallic radial strip grating printed on a grounded dielectric slab which supports an n = 0 cylindrical leaky wave (CLW) mode. The distinctive features of CLWs supported by such a truncated structure are also highlighted and discussed. The directional far-field pattern generated by the proposed LWA, in conjunction with its non-diffracting and wideband behavior in the near-field (as previously reported by the authors), defines an original dual-operational LWA. Possible applications include next-generation wireless power transfer systems that provide functionality in both the near and far field, vehicle roof-mounted antennas for base-station data connectivity as well as future short-range near-field communications, and object tracking by device ceiling-mounting for indoor localization.
Planar antenna design for omnidirectional conical radiation through cylindrical leaky waves / Comite, Davide; Gómez-Guillamón Buendía, Victoria; Podilchak, Symon K.; Di Ruscio, David; Baccarelli, Paolo; Burghignoli, Paolo; Galli, Alessandro. - In: IEEE ANTENNAS AND WIRELESS PROPAGATION LETTERS. - ISSN 1536-1225. - 17:10(2018), pp. 1837-1841. [10.1109/LAWP.2018.2867829]
Planar antenna design for omnidirectional conical radiation through cylindrical leaky waves
Davide Comite
;Paolo Burghignoli;Alessandro Galli
2018
Abstract
An annular periodic leaky-wave antenna (LWA) fed by a simple azimuth-symmetric source is designed to generate a high-gain omnidirectional conical beam pattern which scans with frequency over a wide angular range. The proposed structure is defined by a finite metallic radial strip grating printed on a grounded dielectric slab which supports an n = 0 cylindrical leaky wave (CLW) mode. The distinctive features of CLWs supported by such a truncated structure are also highlighted and discussed. The directional far-field pattern generated by the proposed LWA, in conjunction with its non-diffracting and wideband behavior in the near-field (as previously reported by the authors), defines an original dual-operational LWA. Possible applications include next-generation wireless power transfer systems that provide functionality in both the near and far field, vehicle roof-mounted antennas for base-station data connectivity as well as future short-range near-field communications, and object tracking by device ceiling-mounting for indoor localization.| File | Dimensione | Formato | |
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