Generation of dual‐band OAM beam using planar uniform circular array for vehicular communications

Abstract

AbstractIn this article, a novel compact dual‐band uniform circular array (UCA) is proposed to generate the conical‐shaped orbital angular momentum (OAM) beam with high azimuthal symmetry for vehicular communication. Most antenna designs proposed in the past for obtaining conical‐shaped radiation patterns have complex structures and are very expensive. However, the generation of conical‐shaped patterns by an OAM antenna provides simplicity in the structural realization and is compact for integrating with transceiver circuits. By selecting circularly polarized (CP) patches as array elements of a UCA, conical‐shaped OAM beams can be generated. The proposed UCA consists of a simple feed network with eight dual‐band CP elements. The required phase delay for generating OAM beam ( = +1 mode) is obtained by rotating the CP elements in clock wise direction. The UCA is 150 mm 140 mm in size, fabricated on a FR4 substrate, and experimentally tested. The measured results confirm that the generated OAM beam has conical‐shaped radiation patterns at 5.3 and 5.77 GHz. The generated OAM beam has a peak gain of 10 dBi with high mode purity and a divergence angle of in both simulated and measured findings.