Affiliation:
1. Graduate Institute of Communication Engineering National Taiwan University Taipei Taiwan
2. School of Electronics and Information Engineering Harbin Institute of Technology Harbin China
3. Department of Electrical and Computer Engineering Faculty of Engineering King Mongkut's University of Technology North Bangkok Bangkok Thailand
4. Research Center of Innovation Digital and Electromagnetic Technology Department of Teacher Training in Electrical Engineering Faculty of Technical Education King Mongkut's University of Technology North Bangkok Bangkok Thailand
Abstract
AbstractPure metallic reflectarray antennas have good power efficiency and low fabrication cost, limited to single‐band operation in the past. A dual‐band reflectarray antenna is developed for two directional beams by two feeds. The reflecting elements are metal waveguides and have novel properties of both resonant and non‐resonant modes at the two frequency bands. The low and high‐frequency bands can be easily separated by the cutoff frequency of waveguide modes. The phase‐changing mechanisms via ray optics and fundamental waveguide modes, respectively, provide simple formulations for the elemental structure design of directional beams. Radiation characteristics of the linear and circular polarizations are cross‐examined with a good performance by full‐wave simulations using HFSS, FEKO, and CST at 28 and 60 GHz bands for 5G front‐haul network applications. In particular, we have used HFSS to simulate the reflecting elements' basic characteristics of phase variation, FEKO to simulate the linear polarization antenna case, and CST to simulate the circular polarization antenna case, respectively.
Publisher
American Geophysical Union (AGU)
Subject
Electrical and Electronic Engineering,General Earth and Planetary Sciences,Condensed Matter Physics
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