Title :
Four-degree-of-freedom solid state MEMS joystick
Author :
Gieschke, P. ; Richter, J. ; Joos, J. ; Ruther, P. ; Paul, O.
Author_Institution :
Univ. of Freiburg, Freiburg
Abstract :
This paper reports on a novel four-degree-of-freedom solid state joystick. It consists of a rigid polymer cylinder with spherical dome on top of a CMOS chip. The sensor chip with a size of 2.0times2.5 mm2 contains 10 octagonal stress sensors distributed across the surface exploiting the shear piezoresistive effect in silicon. The joystick shows a linear response of its integrated stress sensors to forces Fx, Fy, and Fz up to 5 N and to a moment Mz up to 5 mNm. For calibration, the sensitivities towards these loads were measured individually. The Moore-Penrose inverse of the sensitivity matrix enables the extraction of these four loads from the vector of the piezoresistor signals.
Keywords :
CMOS analogue integrated circuits; calibration; interactive devices; micromechanical devices; piezoresistance; polymers; silicon; stress measurement; tactile sensors; CMOS chip; Moore-Penrose inverse matrix; Si; calibration; four-degree-of-freedom solid state MEMS joystick; linear response; octagonal stress sensors; piezoresistor signal extraction; rigid polymer cylinder; shear piezoresistive effect; silicon; size 2 mm; size 2.5 mm; CMOS technology; Fabrication; Force sensors; Micromechanical devices; Piezoresistance; Polymers; Sensor systems; Silicon; Solid state circuits; Stress;
Conference_Titel :
Micro Electro Mechanical Systems, 2008. MEMS 2008. IEEE 21st International Conference on
Conference_Location :
Tucson, AZ
Print_ISBN :
978-1-4244-1792-6
Electronic_ISBN :
1084-6999
DOI :
10.1109/MEMSYS.2008.4443599
