Design, process integration and characterization of wafer level vacuum packaging for MEMS resonator

2010 Proceedings 60th Electronic Components and Technology Conference (ECTC) Pub Date : 2010-06-01 DOI:10.1109/ECTC.2010.5490754

A. Yu, C. Premachandran, R. Nagarajan, C.W. Kyoung, Lam Quynh Trang, Rakesh Kumar, L. Lim, J. H. Han, Yap Guan Jie, P. Damaruganath

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引用次数: 10

Abstract

This paper discusses wafer level vacuum sealing technology with evaporated AuSn solder for a microelectromechanical systems (MEMS) resonator without getter material. The MEMS resonator is fabricated and characterized in a vacuum chamber. Relationship between the Q-factor of the MEMS resonator and the vacuum level is established and used as a reference for later vacuum level calibration. Wafer bonding using evaporated AuSn solder is performed in an EVG wafer bonder. With optimized bonding conditions, the achieved shear strength is higher than 59 MPa and uniform cross-section of the bonding ring has been achieved. The calculated He leakage rate is between 10−13 atm cc/s and 10−14 atm cc/s. By comparing the measured Q-factor of packaged resonator with the reference curve, the corresponding vacuum level is 0.2 Torr. Reliability tests results show that shear strength decreases for 7% and still high enough for real application. The vacuum level after reliability tests is comparable to that of long term vacuum level.

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MEMS谐振器晶圆级真空封装的设计、制程整合与表征

本文讨论了无吸气剂材料的微机电系统(MEMS)谐振腔用蒸发AuSn焊料圆片级真空密封技术。MEMS谐振器是在真空室中制备和表征的。建立了MEMS谐振器的q因子与真空度之间的关系，作为后续真空度标定的参考。在EVG晶圆键合机中使用蒸发AuSn焊料进行晶圆键合。在优化的粘接条件下，获得的抗剪强度大于59 MPa，粘接环截面均匀。计算出He泄漏速率范围为10 ~ 13atm cc/s ~ 10 ~ 14atm cc/s。通过与参考曲线的比较，封装腔的q因子测量值为0.2 Torr。可靠性试验结果表明，抗剪强度降低7%，但仍能满足实际应用要求。可靠性试验后的真空度与长期真空度相当。

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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2010 Proceedings 60th Electronic Components and Technology Conference (ECTC)

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