Design of tunable metamaterial based on-chip spiral inductor

B. Arigong, Jin Shao, Hyoungsoo Kim, Hualiang Zhang
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引用次数: 0

Abstract

This paper presents an innovative and practical architecture for tunable spiral inductor with high quality factor (Q) on standard CMOS technology. Metamaterial based winding ring structures are employed to achieve the proposed high performance inductor. Specifically, the proposed structure is realized by utilizing the multiple metal-layers and vias available in a CMOS process. It is found that, by controlling the number of additional metamaterial ring structure applied to the original spiral inductor, the total inductance can be tuned. Using full-wave electromagnetic simulator, 20% and 40% increase are achieved in inductance when adding single-turn and two-turn metamaterial winding rings respectively. Moreover, the resultant Q of the metamaterial based tunable inductor is also increased from 2.75 to 3.75 at 17GHz (i.e. 36% increment).
基于可调谐超材料的片上螺旋电感设计
本文提出了一种创新实用的基于标准CMOS技术的高品质因数(Q)可调谐螺旋电感结构。采用基于超材料的绕组环结构实现了高性能电感。具体来说,所提出的结构是通过利用CMOS工艺中可用的多个金属层和过孔来实现的。研究发现,通过控制附加在原螺旋电感上的超材料环结构的数量,可以对总电感进行调谐。在全波电磁模拟器中,增加单匝和双匝超材料绕组环时,电感分别增加20%和40%。此外,在17GHz时,基于超材料的可调谐电感的Q值也从2.75增加到3.75(即增加36%)。
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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