This thesis presents a z-axis MEMS gyroscope with a symmetric mechanical structure. The multiple-mass design prioritizes the sense-mode Quality Factor (Q) and thus improves its scale factor. The proposed mechanically coupled, dynamically balanced anti-phase sense-mode design minimizes energy dissipation through the substrate in order to maximize the Q. Numerical simulation is implemented in a finite element analysis software, COMSOL, to identify the two operation modes of the gyroscope: drive-mode and sense-mode. The multiple-mass gyroscope design is further fabricated using a one-mask process. Experimental characterization of frequency response in both drive-mode and sense-mode of the device are conducted, proving the design concept for im...
This thesis presents the design, fabrication and characterization of two Micro-Electro-Mechanical Sy...
In this poster, the research on a novel MEMS gyroscope device based on UB faculty seed grant support...
This thesis reports on the design and modeling of decoupled and tunable bandwidth MEMS vibratory gyr...
This thesis presents a z-axis MEMS gyroscope with a symmetric mechanical structure. The multiple-mas...
The micro-electro-mechanical systems (MEMS)-based sensor technologies are considered to be the enabl...
Dual-mass MEMS gyroscope is one of the most popular inertial sensors. In this chapter, the structure...
© 2018 by the authors. This paper presents the design and analysis of a multi degree of freedom (DOF...
This thesis reports the development of a wide-bandwidth high-sensitivity mode-decoupled MEMS gyrosco...
This thesis reports, for the first time, on a novel design and architecture for realizing inertial g...
Abstract — This paper presents a new z-axis gyroscope de-sign with a 2-degree of freedom (DOF) sense...
In this work, a novel micromachined monolithic triaxis gyroscope with an advanced anchor mechanism i...
We report on a new design approach for X-Y symmetric resonator, emphasizing the increase in symmetry...
This paper presents the design and analysis of a multi degree of freedom (DOF) electro-thermally act...
This thesis reports on the design and modeling of decoupled and tunable bandwidth MEMS vibratory gyr...
A novel micromachined z-axis gyroscope with multi-directional drive-mode is presented. The design co...
This thesis presents the design, fabrication and characterization of two Micro-Electro-Mechanical Sy...
In this poster, the research on a novel MEMS gyroscope device based on UB faculty seed grant support...
This thesis reports on the design and modeling of decoupled and tunable bandwidth MEMS vibratory gyr...
This thesis presents a z-axis MEMS gyroscope with a symmetric mechanical structure. The multiple-mas...
The micro-electro-mechanical systems (MEMS)-based sensor technologies are considered to be the enabl...
Dual-mass MEMS gyroscope is one of the most popular inertial sensors. In this chapter, the structure...
© 2018 by the authors. This paper presents the design and analysis of a multi degree of freedom (DOF...
This thesis reports the development of a wide-bandwidth high-sensitivity mode-decoupled MEMS gyrosco...
This thesis reports, for the first time, on a novel design and architecture for realizing inertial g...
Abstract — This paper presents a new z-axis gyroscope de-sign with a 2-degree of freedom (DOF) sense...
In this work, a novel micromachined monolithic triaxis gyroscope with an advanced anchor mechanism i...
We report on a new design approach for X-Y symmetric resonator, emphasizing the increase in symmetry...
This paper presents the design and analysis of a multi degree of freedom (DOF) electro-thermally act...
This thesis reports on the design and modeling of decoupled and tunable bandwidth MEMS vibratory gyr...
A novel micromachined z-axis gyroscope with multi-directional drive-mode is presented. The design co...
This thesis presents the design, fabrication and characterization of two Micro-Electro-Mechanical Sy...
In this poster, the research on a novel MEMS gyroscope device based on UB faculty seed grant support...
This thesis reports on the design and modeling of decoupled and tunable bandwidth MEMS vibratory gyr...