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A Broadside Shared Aperture Antenna for (3.5, 26) GHz Mobile Terminals With Steerable Beam in Millimeter-Waveband

Xin‐Hao Ding, Wen‐Wen Yang, Wei Qin, Jian‐Xin Chen

2021IEEE Transactions on Antennas and Propagation91 citationsDOI

Abstract

The shared-aperture antenna is regarded as one of the promising approaches to support new frequencies with very efficient space utilization. To the best of authors’ knowledge, there are few shared-aperture antennas that include both the sub-6 GHz antenna and the mm-wave beam steering array for broadside applications. In this paper, a broadside sharing-aperture technique is developed so that a 2×4 26 GHz beam-steering substrate-integrated DRA (SIDRA) array can be integrated into a 3.5 GHz bandwidth enhanced perforated patch antenna in a coplanar and aperture-shared way. The proposed solution benefits from several aspects. First, the 3.5 GHz antenna features a compact size as this part is built on the substrate (where the mm-wave SIDRA is constructed) with a high permittivity. Second, the mm-wave SIDRA is a 3D-type device, and in the case of coplanar integration, its height can be freely adapted to the thickness of 3.5 GHz antenna without concerning the impact from surface waves as many 2D-type antennas have to do. Third, the antenna can be implemented with multi-layer printed circuit board (PCB) process, yielding a high integrity level. The dual-frequency antenna was designed, fabricated, and measured. The performances of the antenna are reported with reasonable agreement between the measured and simulated results observed.

Topics & Concepts

OpticsBroadsideAntenna apertureAntenna measurementBeam steeringAntenna factorAntenna (radio)Aperture (computer memory)Microstrip antennaAntenna efficiencyCoaxial antennaMaterials scienceComputer scienceAcousticsRadiation patternPhysicsTelecommunicationsAntenna Design and AnalysisMicrowave Engineering and WaveguidesMillimeter-Wave Propagation and Modeling
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