Bulk-glass ceramic based stacked dielectric resonator antenna as phased array element

A. Mehmood, M. Nikfalazar, M. Sohrabi, R. Jakoby, M. Hovhanisyan, M. Letz
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Abstract

Stacked dielectric resonator antenna from high-k low loss bulk-glass ceramic material have been investigated. Two resonators are stacked with an air gap which has been realized with a low loss foam material. The antenna showed a wide bandwidth with the dimension of 7.7×6.7×2.5mm for the lower dielectric resonator and 8.7×7.7×3.3mm for the upper dielectric resonator. Thus the maximum dimension is 0.23 λ0×0.20 λ0 at 8GHz which is very compact. This makes it very appropriate for array applications to reduce the direct mutual coupling through near-field. The antenna has been manufactured and characterized. For the fabricated antenna the -10 dB impedance bandwidth is 20% and operating frequency from 7.4 to 9GHz. The measured gain at 8GHz is 7.23 dB.
作为相控阵元件的大块玻璃陶瓷叠层介质谐振器天线
研究了高k低损耗大块玻璃陶瓷材料的叠层介质谐振器天线。用低损耗泡沫材料实现了两个谐振腔的气隙叠加。天线显示出较宽的带宽,下介电谐振腔的尺寸为7.7×6.7×2.5mm,上介电谐振腔的尺寸为8.7×7.7×3.3mm。因此,在8GHz时,最大尺寸为0.23 λ0×0.20 λ0,非常紧凑。这使得阵列应用非常适合通过近场来减少直接相互耦合。对天线进行了制造和表征。对于预制天线,-10 dB阻抗带宽为20%,工作频率为7.4至9GHz。8GHz时的测量增益为7.23 dB。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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