1. A Wideband Folded Reflectarray Antenna Based on Single-Layered Polarization Rotating Metasurface
- Author
-
Wenhao Luo, Zhi Wang, Zhenhua Nie, Wei Su, Zhen-Hua Cao, and Wen-Wen Liu
- Subjects
Physics ,General Computer Science ,business.industry ,General Engineering ,020206 networking & telecommunications ,02 engineering and technology ,Dielectric substrate ,Gain bandwidth ,polarization rotating reflection surface (PRRS) ,Polarization (waves) ,Circular waveguide ,reflectarray ,polarization grid ,Ku band ,Folded ,Optics ,Wireless communication systems ,0202 electrical engineering, electronic engineering, information engineering ,General Materials Science ,Phase center ,lcsh:Electrical engineering. Electronics. Nuclear engineering ,Wideband ,business ,lcsh:TK1-9971 - Abstract
A wideband folded reflectarray antenna (FRA) based on single-layered polarization rotating metasurface (PRM) is proposed. The FRA is composed of a wideband polarization grid (PG), a wideband PRM and a wideband circular waveguide as the primary source. First, a wideband polarization rotating unit cell consisting of rhombus-shaped metal patch etched on dielectric substrate is designed, which can be used to rotate polarization of the reflective wave 90° relative to that of the incident wave. The element and its mirror image can provide 0°, 90°, 180° and 270° phase shifts with 2-bit phase quantization and relatively higher polarization conversion rates in the Ku band. Due to the introduction of PG and PRM, the distance between the PG surface and the feed phase center can be reduced to about 1/2 of the distance between the imaginary feed and PRM reflectarray. Finally, a wideband FRA consisting of 315 elements with circular aperture is designed, fabricated and measured. The measured results indicate that the proposed antenna achieves 39.5% 3-dB gain bandwidth with 25.5 dBi peak gain at 15 GHz. Its maximum aperture efficiency is about 40%. Low-profile and wideband features of the FRA make it be a candidate in the wireless communication systems.
- Published
- 2020