基于二模面剪切方形微机械谐振器的10mhz低相位噪声振荡器的设计

2014 IEEE Fifth International Conference on Communications and Electronics (ICCE) Pub Date : 2014-10-07 DOI:10.1109/CCE.2014.6916742

Tan-Loc Nguyen, Mingzheng Pan, Y. Ling, Zhipeng Li, J. Bao

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引用次数: 0

摘要

本文提出了一种基于MEMS方形谐振腔的10 MHz低相位噪声MEMS振荡器。为了检验该设计对振荡器相位噪声的改善情况，本研究采用了二模面剪切方形谐振腔。通过精心设计精确的支撑梁位置，最大限度地减少锚点损失，所提出的谐振器实现了非常高的质量因子(在t形支撑结构下超过700,000)。在相同的频率下，第二模比之前的基模更大(超过两倍)，与前者相比，第二模显示出许多优点，例如:(1)更高的质量因子Q;(2)降低运动阻力Rx(在间隙尺寸为0.25 μm时达到82.1 Ω)。因此，基于新谐振器设计的振荡器在距载波1 KHz偏移处的相位噪声为-156 dBc/Hz，本底噪声为-158 dBc/Hz。

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Design of A 10-MHz low phase-noise oscillator using second-mode face shear square micromechanical resonator

A 10 MHz low-phase-noise MEMS based oscillator using a MEMS square resonator is presented in this paper. In order to examine the improvement of the phase noise of the oscillator in this design, the second-mode face shear square resonator is employed in this study. By carefully designing the exact support beam locations that minimize the anchor loss, the proposed resonator achieved very high quality factor (exceeding 700,000 with T-shaped support structure). With lager dimensions than previous fundamental mode counterparts at the same frequency (more than two times), the second-mode shows many advantages over the former, such as (1) higher quality factor Q; (2) lower motional resistance Rx (achieved 82.1 Ω with 0.25 μm in gap size). Hence, the designed oscillator based on the new resonator shows the phase noise of -156 dBc/Hz at 1 KHz offset from the carrier and -158 dBc/Hz noise floor.

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2014 IEEE Fifth International Conference on Communications and Electronics (ICCE)

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