標題: Theoretical and Experimental Investigations of Thermoresistive Micro Calorimetric Flow Sensors Fabricated by CMOS MEMS Technology
作者: Xu, Wei
Song, Kui
Ma, Shenhui
Gao, Bo
Chiu, Yi
Lee, Yi-Kuen
電機工程學系
Department of Electrical and Computer Engineering
關鍵字: 1-D sensor model;CMOS microelectromechanical systems (MEMS);Thermoresistive;Micro calorimetric flow sensor;Prandtl number;Reynolds number
公開日期: Oct-2016
摘要: A general 1-D model was presented to predict the characteristics of CMOS thermoresistive micro calorimetric flow (TMCF) sensor with two types of packaging, i.e., open-space type and channel type, for both gases and liquids. The 1-D model was first validated by a numerical computational fluid dynamics (CFD) model and was subsequently normalized for different fluids flow. Notably, the model proposed by Nguyen and Dotzel is a special case of our 1-D model. The normalized output of TMCF sensor is a function of normalized input parameters of Reynolds number Re and Prandtl number Pr. The scaling analysis of the sensor output, sensitivity, and power consumption was performed to optimize the design of TMCF sensors in terms of key design parameters, including the thin film thickness, the height of bottom cavity, and so on. Accordingly, three pairs of TMCF sensors were designed and fabricated by using a 0.35 mu m 2P4M CMOS microelectromechanical systems technology. The fabricated sensors showed a normalized sensitivity of 230 mV/(m/s)/mW for nitrogen gas flow, which was two orders of magnitude higher than the previous CMOS flow sensors. Therefore, the proposed 1-D model is a promising tool for the sensor\'s system-level design with the on-chip microelectronics for the Internet of Things. [2016-0098]
URI: http://dx.doi.org/10.1109/JMEMS.2016.2596282
http://hdl.handle.net/11536/132886
ISSN: 1057-7157
DOI: 10.1109/JMEMS.2016.2596282
期刊: JOURNAL OF MICROELECTROMECHANICAL SYSTEMS
Volume: 25
Issue: 5
起始頁: 954
結束頁: 962
Appears in Collections:Articles