Single layer reflectarray with modified cross loop element for wideband applications

A Ka-band reflectarray consists of modified cross loop is investigated in this paper. The reflectarray consists of 30 × 30 unit cells and covering an area of 15cm × 15 cm. The unit cell is composed of a solid cross inside and a cross loop outside. Varying the lengths of the cross can lead to nearly...

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Hauptverfasser:	Quan Wang, Zhenhai Shao, Yujian Cheng, Pengkai Li, Long Li
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Apertures Arrays Bandwidth Broadband antennas dual polarization Gain millimeter-wave Reflectarray Reflector antennas Substrates
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creator	Quan Wang Zhenhai Shao Yujian Cheng Pengkai Li Long Li
description	A Ka-band reflectarray consists of modified cross loop is investigated in this paper. The reflectarray consists of 30 × 30 unit cells and covering an area of 15cm × 15 cm. The unit cell is composed of a solid cross inside and a cross loop outside. Varying the lengths of the cross can lead to nearly 550 o linear phase shift curve. Using this technique, a single layer reflectarray that has a wider bandwidth and much more fabrication tolerance compared with conventional single-layer reflectarrays, fabricated and measured. The reflectarray configuration parameters are chosen through aperture efficiency optimized calculation. And the simulated gain of 31.7 dB and aperture efficiency of 46.7% are predicted at the center 32 GHz, respectively. 1.5 dB gain bandwidth close to 17% were achieved, which is better than the reflectarray with patch cells. This new reflectarray antenna is especially useful for millimeter-wave broadband applications.
doi_str_mv	10.1109/ICCPS.2012.6384325
format	Conference Proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Apertures Arrays Bandwidth Broadband antennas dual polarization Gain millimeter-wave Reflectarray Reflector antennas Substrates
title	Single layer reflectarray with modified cross loop element for wideband applications
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