论文信息 - Development of a jet-generator and its application to angular rate sensor

Development of a jet-generator and its application to angular rate sensor

In this paper, we present the experimental and numerical development of a millimeter scale device that produces four micro-jet flows comprising two perpendicular pair. In addition, we show numerically the ability to employ these micro-jets for MEMS based fluidic angular rate sensor. The jets were created in a closed fluidic network without a check valve, and they can freely deflect in a confined sensing chamber. This allows the application of these jets to a triple-axis angular rate sensor whose working principle relies on the deflection of a jet in a rotating frame. The triple-axis angular rate sensor can be designed with only four thermal sensing elements. Our work can also be adapted to help researchers quickly develop a prototype or to integrate an inertial sensing component in their own micro-fluidic, micro-bio, or lab-on-a-chip systems.

[1] A. Tonomura. Development of Electron Holography and Its Applications to Fundamental Problems in Physics , 2008 .

[2] Zhaoying Zhou,et al. Micromachined gas inertial sensor based on convection heat transfer , 2006 .

[3] T. X. Dinh,et al. A MEMS-based silicon micropump with intersecting channels and integrated hotwires , 2009 .

[4] K. Takemura,et al. A liquid rate gyroscope using electro-conjugate fluid , 2008, 2008 International Conference on Intelligent Sensors, Sensor Networks and Information Processing.

[5] H. Kumagai,et al. Development of a dual-axis thermal convective gas gyroscope , 2006 .

[6] A. Leung,et al. Robust MEMS Gyroscope Based on Thermal Principles , 2014, Journal of Microelectromechanical Systems.

[7] Thien Xuan Dinh,et al. Design and simulation of MEMS-based dual-axis fluidic angular velocity sensor , 2013 .