A Low-Noise High-Order Mode-Localized MEMS Accelerometer

Hemin Zhang; Guillermo Sobreviela; Milind Pandit; Dongyang Chen; Jiangkun Sun; Madan Parajuli; Chun Zhao; Ashwin A. Seshia

doi:10.1109/JMEMS.2021.3057260

A Low-Noise High-Order Mode-Localized MEMS Accelerometer

Hemin Zhang, Guillermo Sobreviela, Milind Pandit, Dongyang Chen, Jiangkun Sun, Madan Parajuli, Chun Zhao, Ashwin A. Seshia

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

This paper reports a precision mode-localized accelerometer operating in a higher-order flexural mode. The accelerometer consists of two symmetric resonators coupled by a central rigid coupler to generate an ultra-weak coupling factor. A reduced noise floor is observed when the resonators operate in the higher-order flexural mode compared to the basic lower-order mode. The mode-localized accelerometer working in the fifth-order mode demonstrates an input-referred bias instability of 130 ng and noise floor of 85 ng/surd Hz, which are the best results obtained for accelerometers employing the mode localization paradigm to date. These results indicate that the performance of the mode-localized sensors can be improved by operating at a higher working frequency if the coupling factor and quality factor do not drop significantly. [2020-0365].

Original language	English
Article number	9354446
Pages (from-to)	178-180
Number of pages	3
Journal	Journal of Microelectromechanical Systems
Volume	30
Issue number	2
DOIs	https://doi.org/10.1109/JMEMS.2021.3057260
State	Published - Apr 2021
Externally published	Yes

Keywords

MEMS
Weakly coupled resonators
accelerometer
high-order modes
mode localization

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10.1109/JMEMS.2021.3057260

Cite this

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title = "A Low-Noise High-Order Mode-Localized MEMS Accelerometer",

abstract = "This paper reports a precision mode-localized accelerometer operating in a higher-order flexural mode. The accelerometer consists of two symmetric resonators coupled by a central rigid coupler to generate an ultra-weak coupling factor. A reduced noise floor is observed when the resonators operate in the higher-order flexural mode compared to the basic lower-order mode. The mode-localized accelerometer working in the fifth-order mode demonstrates an input-referred bias instability of 130 ng and noise floor of 85 ng/surd Hz, which are the best results obtained for accelerometers employing the mode localization paradigm to date. These results indicate that the performance of the mode-localized sensors can be improved by operating at a higher working frequency if the coupling factor and quality factor do not drop significantly. [2020-0365].",

keywords = "MEMS, Weakly coupled resonators, accelerometer, high-order modes, mode localization",

author = "Hemin Zhang and Guillermo Sobreviela and Milind Pandit and Dongyang Chen and Jiangkun Sun and Madan Parajuli and Chun Zhao and Seshia, {Ashwin A.}",

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doi = "10.1109/JMEMS.2021.3057260",

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AU - Sobreviela, Guillermo

AU - Pandit, Milind

AU - Chen, Dongyang

AU - Sun, Jiangkun

AU - Parajuli, Madan

AU - Zhao, Chun

AU - Seshia, Ashwin A.

PY - 2021/4

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AB - This paper reports a precision mode-localized accelerometer operating in a higher-order flexural mode. The accelerometer consists of two symmetric resonators coupled by a central rigid coupler to generate an ultra-weak coupling factor. A reduced noise floor is observed when the resonators operate in the higher-order flexural mode compared to the basic lower-order mode. The mode-localized accelerometer working in the fifth-order mode demonstrates an input-referred bias instability of 130 ng and noise floor of 85 ng/surd Hz, which are the best results obtained for accelerometers employing the mode localization paradigm to date. These results indicate that the performance of the mode-localized sensors can be improved by operating at a higher working frequency if the coupling factor and quality factor do not drop significantly. [2020-0365].

KW - MEMS

KW - Weakly coupled resonators

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KW - high-order modes

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A Low-Noise High-Order Mode-Localized MEMS Accelerometer

Abstract

Keywords

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