CMOS-compatible on-chip self-rolled-up inductors for RF/mm-wave applications

2017 IEEE MTT-S International Microwave Symposium (IMS) Pub Date : 2017-06-04 DOI:10.1109/MWSYM.2017.8058953

Wen Huang, Jin Zhou, Paul J. Froeter, Kathy Walsh, Siyu Liu, J. Michaels, Moyang Li, S. Gong, Xiuling Li

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引用次数: 8

Abstract

On-chip copper (Cu) based self-rolled-up membrane (S-RuM) inductors are demonstrated for the first time. Compared to the gold (Au) based S-RuM inductor, device structures and fabrication processes are re-designed to realize CMOS compatibility by switching conduction metal to Cu and overcoming related processing challenges. Performance enhancements include ∼44% reduction of conduction layer resistivity compared to Au-based with the same thickness, and a clear path to 100% fabrication yield are achieved. RF measurement shows as high as ∼ 61nH/mm2 inductance density with just a 2-turn structure for these air-core S-RuM inductors. The achieved inductance is in the range from 0.3nH to 1nH. The best self-resonant-frequency (SRF) and quality factor (Q factor) of 1nH device is ∼23GHz and ∼2.4@5GHz, respectively. Much better performance can be readily obtained by rolling up more turns and integrating soft magnetic material thin film and core. Results show that Cu S-RuM inductor is very promising to replace on-chip planar inductor with better performance as a new industry standard.

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cmos兼容片上自卷电感射频/毫米波应用

首次展示了片上铜(Cu)基自卷膜(S-RuM)电感器。与基于金(Au)的S-RuM电感器相比，通过将导通金属切换为Cu并克服相关的工艺挑战，重新设计了器件结构和制造工艺，以实现CMOS兼容性。性能增强包括与相同厚度的金基相比，导电层电阻率降低约44%，并且实现了100%的制造成品率。射频测量显示，这些空芯S-RuM电感器仅采用2匝结构，电感密度高达~ 61nH/mm2。获得的电感在0.3nH到1nH之间。1nH器件的最佳自谐振频率(SRF)和品质因子(Q因子)分别为~ 23GHz和~ 2.4@5GHz。通过将软磁材料薄膜与磁芯集成在一起，可以获得更好的性能。结果表明，Cu - S-RuM电感有望以更好的性能取代片上平面电感，成为新的行业标准。

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2017 IEEE MTT-S International Microwave Symposium (IMS)

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