A CMOS-MEMS gyroscope interface circuit design with high gain and low temperature dependence

Hongzhi Sun; Kemiao Jia; Xuesong Liu; Guizhen Yan; Yu Wen Hsu; Robert M. Fox; Huikai Xie

doi:10.1109/JSEN.2011.2158819

A CMOS-MEMS gyroscope interface circuit design with high gain and low temperature dependence

Hongzhi Sun^*, Kemiao Jia, Xuesong Liu, Guizhen Yan, Yu Wen Hsu, Robert M. Fox, Huikai Xie

^*此作品的通讯作者

科研成果: 期刊稿件 › 文章 › 同行评审

22 引用（Scopus）

摘要

This paper describes an interface circuit design for monolithic CMOS-MEMS gyroscopes, based on a novel differential difference amplifier (DDA) with high gain, low temperature and process dependence, low noise, and low power consumption. The DDA achieves a 4 fF equivalent transcapacitance with a 0.01%/° C temperature variation. The DDA-based interface circuit has been integrated with a z-axis gyroscope on a foundry CMOS chip. A 4.5 zF/ √Hz input-referred noise is achieved at 2 kHz, with a total power consumption of 4.25 mW. The gyroscope is fabricated with a post-CMOS bulk micromachining process and the device achieves a sensitivity of 1.2 mV/°/s and a noise floor 0.05°/s/ √Hz.

源语言	英语
文章编号	5784288
页（从-至）	2740-2748
页数	9
期刊	IEEE Sensors Journal
卷	11
期	11
DOI	https://doi.org/10.1109/JSEN.2011.2158819
出版状态	已出版 - 2011
已对外发布	是

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Sun, H., Jia, K., Liu, X., Yan, G., Hsu, Y. W., Fox, R. M., & Xie, H. (2011). A CMOS-MEMS gyroscope interface circuit design with high gain and low temperature dependence. IEEE Sensors Journal, 11(11), 2740-2748. 文章 5784288. https://doi.org/10.1109/JSEN.2011.2158819

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title = "A CMOS-MEMS gyroscope interface circuit design with high gain and low temperature dependence",

abstract = "This paper describes an interface circuit design for monolithic CMOS-MEMS gyroscopes, based on a novel differential difference amplifier (DDA) with high gain, low temperature and process dependence, low noise, and low power consumption. The DDA achieves a 4 fF equivalent transcapacitance with a 0.01%/° C temperature variation. The DDA-based interface circuit has been integrated with a z-axis gyroscope on a foundry CMOS chip. A 4.5 zF/ √Hz input-referred noise is achieved at 2 kHz, with a total power consumption of 4.25 mW. The gyroscope is fabricated with a post-CMOS bulk micromachining process and the device achieves a sensitivity of 1.2 mV/°/s and a noise floor 0.05°/s/ √Hz.",

keywords = "CMOS-MEMS, differential difference amplifier (DDA), gyroscopes, microelectromechanical systems (MEMS), monolithic integration",

author = "Hongzhi Sun and Kemiao Jia and Xuesong Liu and Guizhen Yan and Hsu, {Yu Wen} and Fox, {Robert M.} and Huikai Xie",

year = "2011",

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AU - Sun, Hongzhi

AU - Jia, Kemiao

AU - Liu, Xuesong

AU - Yan, Guizhen

AU - Hsu, Yu Wen

AU - Fox, Robert M.

AU - Xie, Huikai

PY - 2011

Y1 - 2011

N2 - This paper describes an interface circuit design for monolithic CMOS-MEMS gyroscopes, based on a novel differential difference amplifier (DDA) with high gain, low temperature and process dependence, low noise, and low power consumption. The DDA achieves a 4 fF equivalent transcapacitance with a 0.01%/° C temperature variation. The DDA-based interface circuit has been integrated with a z-axis gyroscope on a foundry CMOS chip. A 4.5 zF/ √Hz input-referred noise is achieved at 2 kHz, with a total power consumption of 4.25 mW. The gyroscope is fabricated with a post-CMOS bulk micromachining process and the device achieves a sensitivity of 1.2 mV/°/s and a noise floor 0.05°/s/ √Hz.

AB - This paper describes an interface circuit design for monolithic CMOS-MEMS gyroscopes, based on a novel differential difference amplifier (DDA) with high gain, low temperature and process dependence, low noise, and low power consumption. The DDA achieves a 4 fF equivalent transcapacitance with a 0.01%/° C temperature variation. The DDA-based interface circuit has been integrated with a z-axis gyroscope on a foundry CMOS chip. A 4.5 zF/ √Hz input-referred noise is achieved at 2 kHz, with a total power consumption of 4.25 mW. The gyroscope is fabricated with a post-CMOS bulk micromachining process and the device achieves a sensitivity of 1.2 mV/°/s and a noise floor 0.05°/s/ √Hz.

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KW - differential difference amplifier (DDA)

KW - gyroscopes

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A CMOS-MEMS gyroscope interface circuit design with high gain and low temperature dependence

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