Title :
A micromachined flow shear-stress sensor based on thermal transfer principles
Author :
Liu, Chang ; Huang, Jin-Biao ; Zhu, Zhenjun Alex ; Jiang, Fukang ; Tung, Steve ; Tai, Yu-Chong ; Ho, Chih-Ming
Author_Institution :
Microelectron. Lab., Illinois Univ., Urbana, IL, USA
fDate :
3/1/1999 12:00:00 AM
Abstract :
Microhot-film shear-stress sensors have been developed by using surface micromachining techniques. The sensor consists of a suspended silicon-nitride diaphragm located on top of a vacuum-sealed cavity. A heating and heat-sensing element, made of polycrystalline silicon material, resides on top of the diaphragm. The underlying vacuum cavity greatly reduces conductive heat loss to the substrate and therefore increases the sensitivity of the sensor. Testing of the sensor has been conducted in a wind tunnel under three operation modes-constant current, constant voltage, and constant temperature. Under the constant-temperature mode, a typical shear-stress sensor exhibits a time constant of 72 μs
Keywords :
flow measurement; micromachining; microsensors; shear deformation; stress measurement; Si; SiN; flow shear stress sensor; heat sensing element; heating element; microhot film; polycrystalline silicon; silicon nitride diaphragm; surface micromachinig; thermal transfer; vacuum cavity; wind tunnel; Drag; Fabrication; Fluid flow measurement; Force measurement; Micromachining; Pressure measurement; Stress measurement; Temperature sensors; Testing; Thermal sensors;
Journal_Title :
Microelectromechanical Systems, Journal of
