Journal of Shanghai Jiao Tong University(Science) ›› 2020, Vol. 25 ›› Issue (3): 281-287.doi: 10.1007/s12204-020-2182-3

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Thermoelastic Dissipation in Diamond Micro Hemispherical Shell Resonators

FENG Jun (冯军), ZHANG Weiping (张卫平), LIU Zhaoyang (刘朝阳), GU Liutao (谷留涛), CHENG Yuxiang (成宇翔)   

  1. (1. National Key Laboratory of Science and Technology on Micro/Nano Fabrication, Shanghai Jiao Tong University, Shanghai 200240, China; 2. Department of Micro/Nano Electronics, School of Electronic Information and Electrical Engineering, Shanghai Jiao Tong University, Shanghai 200240, China; 3. Shanghai Aerospace Control Technology Institute, Shanghai 200233, China)
  • 出版日期:2020-06-15 发布日期:2020-05-29
  • 通讯作者: ZHANG Weiping (张卫平) E-mail:zhangwp@sjtu.edu.cn

Thermoelastic Dissipation in Diamond Micro Hemispherical Shell Resonators

FENG Jun (冯军), ZHANG Weiping (张卫平), LIU Zhaoyang (刘朝阳), GU Liutao (谷留涛), CHENG Yuxiang (成宇翔)   

  1. (1. National Key Laboratory of Science and Technology on Micro/Nano Fabrication, Shanghai Jiao Tong University, Shanghai 200240, China; 2. Department of Micro/Nano Electronics, School of Electronic Information and Electrical Engineering, Shanghai Jiao Tong University, Shanghai 200240, China; 3. Shanghai Aerospace Control Technology Institute, Shanghai 200233, China)
  • Online:2020-06-15 Published:2020-05-29
  • Contact: ZHANG Weiping (张卫平) E-mail:zhangwp@sjtu.edu.cn

摘要: Maximizing quality factor (Q) is essential to improve the performance of micro hemispherical shell resonators (μHSRs) which can be used in microelectromechanical system (MEMS) gyroscopes to measure angular rotation. Several energy dissipation mechanisms limit Q, where thermoelastic dissipation (TED) is the major one and studied in this paper. Fully coupled thermo-mechanical equations for calculating TED are formulated, and then temperature distribution in a deformed μHSR and its quality factor related to TED (QTED) are obtained by solving the equations through a finite-element method (FEM). It has been found that different fabrication process conditions can obtain various geometrical parameters in our previous studies. In order to provide guidelines for the design and fabrication of μHSRs, the effects of their geometry on resonant frequency (f0) and QTED are studied. The change of anchor height and small enough anchor radius have no effect on both f0 and QTED, but the shell size including its radius, thickness and height has significant impact on f0 and QTED. It is found that whether a μHSR has lower f0 and higher QTED or higher f0 and higher QTED can be achieved by changing these geometrical parameters. The results presented in this paper can also be applied to other similar resonators.

关键词: microelectromechanical system (MEMS), diamond hemispherical shell resonators, quality factor, thermoelastic dissipation (TED)

Abstract: Maximizing quality factor (Q) is essential to improve the performance of micro hemispherical shell resonators (μHSRs) which can be used in microelectromechanical system (MEMS) gyroscopes to measure angular rotation. Several energy dissipation mechanisms limit Q, where thermoelastic dissipation (TED) is the major one and studied in this paper. Fully coupled thermo-mechanical equations for calculating TED are formulated, and then temperature distribution in a deformed μHSR and its quality factor related to TED (QTED) are obtained by solving the equations through a finite-element method (FEM). It has been found that different fabrication process conditions can obtain various geometrical parameters in our previous studies. In order to provide guidelines for the design and fabrication of μHSRs, the effects of their geometry on resonant frequency (f0) and QTED are studied. The change of anchor height and small enough anchor radius have no effect on both f0 and QTED, but the shell size including its radius, thickness and height has significant impact on f0 and QTED. It is found that whether a μHSR has lower f0 and higher QTED or higher f0 and higher QTED can be achieved by changing these geometrical parameters. The results presented in this paper can also be applied to other similar resonators.

Key words: microelectromechanical system (MEMS), diamond hemispherical shell resonators, quality factor, thermoelastic dissipation (TED)

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