论文信息 - Cantilever-Based Tactile Sensor with Improved Sensitivity for Dimensional Metrology of Deep Narrow Drillings

Cantilever-Based Tactile Sensor with Improved Sensitivity for Dimensional Metrology of Deep Narrow Drillings

The paper reports on a tactile force sensor for the dimensional metrology of deep narrow drillings. The sensor consists of an up to 7-mm-long cantilever with a width of 150 mum suspended by a thin silicon membrane hinge comprising an implanted piezoresistive stress sensor. The device is microstructured using deep reactive etching of single-crystal silicon. A quadratic p-well with four peripheral p+-contacts serves as stress sensor element. To investigate and improve the stress sensitivity of these elements, 90times90 mum2 p-wells comprising non-conducting islands of different sizes were implemented. In comparison to sensor elements without island, the introduction of a non-conducting region of 60times60 mum2 improves the sensitivity by 41% consistent with Finite Element simulations. Depending on the size of the island, force sensitivities between 7.74 mV/V/mN and 10.9 mV/V/mN were achieved.

M. Cornils | O. Paul | P. Ruther | S. Spinner

[1] O. Paul,et al. Novel 3D piezoresistive silicon force sensor for dimensional metrology of micro components , 2005, IEEE Sensors, 2005..

[2] Lutz Doering,et al. Force calibration of stylus instruments using silicon microcantilevers , 2005 .

[3] Charles S. Smith. Piezoresistance Effect in Germanium and Silicon , 1954 .

[5] Patrick Ruther,et al. Geometry optimization for planar piezoresistive stress sensors based on the pseudo-Hall effect , 2006 .