Process compensated micromechanical resonators

G. K. Ho, J. Perng, F. Ayazi
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引用次数: 6

Abstract

Manufacturability and yield are the major challenges prior to adoption of micromechanical resonators as frequency references. In this paper, a design for manufacturability (DFM) technique to achieve absolute frequency accuracy is presented. Non-idealities of a deep reactive ion etching process are examined and determined to be random. The variations in resonator geometry are assumed to be locally systematic and are represented as a process bias. The effect of process bias on resonator center frequency is modeled and the procedure for optimizing for zero sensitivity is explained. Process bias on a 10 MHz optimized design was replicated with electron-beam lithography and supporting data demonstrating DFM is reported.
过程补偿微机械谐振器
在采用微机械谐振器作为频率参考之前,可制造性和良率是主要的挑战。提出了一种实现绝对频率精度的可制造性(DFM)技术设计。研究了深度反应离子刻蚀过程的非理想性,确定了非理想性是随机的。谐振器几何形状的变化被认为是局部系统的,并表示为过程偏差。建立了工艺偏置对谐振腔中心频率的影响模型,并对零灵敏度优化过程进行了说明。利用电子束光刻技术复制了10 MHz优化设计的工艺偏置,并报道了支持DFM的数据。
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