利用MESA结构降低谐振MEMS中的锚损

2007 2nd IEEE International Conference on Nano/Micro Engineered and Molecular Systems Pub Date : 2007-04-23 DOI:10.1109/NEMS.2007.352159

M. Pandey, R. Reichenbach, A. Zehnder, A. Lal, H. Craighead

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引用次数: 2

摘要

振荡器的质量系数与阻尼成反比，是对其振幅宽度与强迫频率响应的度量。对于微机电系统(MEMS)振荡器的传感和信号处理应用，质量因子(以下称为Q)影响着此类器件的灵敏度和性能。当MEMS振动(共振)时，它的一些振动能量被传递到制造MEMS的衬底上。这种能量的很大一部分作为表面声波(SAW)被带走。我们展示了一种设计，通过将表面波能量反射回MEMS，将谐振MEMS振荡器的Q提高了4倍。波反射发生在MEMS周围的圆形沟槽中。该沟槽创建了一个“台面”，为MEMS提供部分机械隔离。由于SAW的能量损失几乎随频率呈指数增长，相应的q值也会降低。因此，随着对高频谐振器需求的增加，所演示的设计将变得更加有用。这里展示的平台结构是一个简单的想法，可以很容易地集成到现有的制造过程中，并可用于商业目的。

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Anchor Loss Reduction in Resonant MEMS using MESA Structures

The quality factor of an oscillator is inversely proportional to the damping and is a measure of the width of its amplitude vs. forcing frequency response. For sensing and signal processing applications of microelectromechanical systems (MEMS) oscillators, the quality factor (henceforth called Q) affects the sensitivity and performance of such devices. As MEMS vibrates (resonates) some of its vibrational energy is transmitted to the substrate upon which the MEMS is fabricated. A large component of this energy is carried away as surface acoustic waves (SAW). We demonstrate a design that improves the Q of resonant MEMS oscillators by up to 4times by reflecting surface wave energy back to the MEMS. Wave reflection occurs at trenches fabricated in a circle around the MEMS. The trench creates a "mesa" that provides partial mechanical isolation to the MEMS. The loss of energy due to SAW increases almost exponentially with frequency, with a corresponding decrease in Q. Hence the demonstrated design would become even more useful with the increasing need for higher frequency resonators. The mesa structure presented here is a simple idea which can be easily integrated into existing fabrication procedures and can be used for commercial purposes.

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2007 2nd IEEE International Conference on Nano/Micro Engineered and Molecular Systems

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