Six-degree of freedom micro force-moment sensor for application in geophysics

Author

Dzung Viet Dao ; Toriyama, T. ; Wells, J. ; Sugiyama, S.

Author_Institution

Fac. of Sci. & Eng., Ritsumeikan Univ., Shiga, Japan

fYear

2002

fDate

24-24 Jan. 2002

Firstpage

312

Lastpage

315

Abstract

This paper presents the design concept, fabrication and calibration of a six-degree of freedom (6-DOF) turbulent flow micro sensor utilizing the piezoresistive effects in silicon. The proposed sensor can independently detect six components of force and moment on a test particle in a turbulent flow. By combining p-type conventional and shear piezoresistors in Si [111], and arranging them suitably on the sensing area, the total number of piezoresistors used in this sensing chip is only eighteen. Calibration for six components of force versus output voltages was carried out. The sensitivities are linear, close to the design values, and high enough to measure the forces and moments expected to act on the particles in turbulent flow in geophysics.

Keywords

calibration; flow measurement; force sensors; hydrological equipment; microsensors; piezoresistive devices; sedimentation; turbulence; Si; Si [111]; calibration; flooding phenomena; force versus output voltage; geophysics turbulent flow; linear sensitivities; p-type piezoresistors; piezoresistive effects; sediment particle erosion; sediment particle transport; shear piezoresistors; six-degree of freedom turbulent flow micro sensor; test particle; Calibration; Fabrication; Force measurement; Force sensors; Geophysical measurements; Piezoresistance; Piezoresistive devices; Silicon; Testing; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

Micro Electro Mechanical Systems, 2002. The Fifteenth IEEE International Conference on

Conference_Location

Las Vegas, NV, USA

ISSN

1084-6999

Print_ISBN

0-7803-7185-2

Type

conf

DOI

10.1109/MEMSYS.2002.984265

Filename

984265