Title :
Piezoresistive Cantilever Beam for Force Sensingin Two Dimensions
Author :
Duc, T. Chu ; Creemer, J.F. ; Sarro, Pasqualina M.
Author_Institution :
Delft Univ. of Technol.
Abstract :
A novel two-dimensional piezoresistive nano-Newton resolution force sensing cantilever is presented. The silicon cantilever is fabricated using bulk micromachining. Two 500-nm-thick p-doped epitaxial silicon piezoresistive sensors are located on both sides of the cantilever. This structure detects both the lateral and vertical applied forces by electronic switching between two configurations of a Wheatstone bridge. A force sensitivity is measured up to 100 and 540 V/N for lateral and vertical configurations, respectively. The corresponding force resolution is estimated at 21 and 4 nN, respectively. This force-sensing cantilever can be used for measuring the contact force between manipulating tools and small objects in, e.g., living cell handling, minimally invasive surgery, and microassembly
Keywords :
beams (structures); bridge instruments; cantilevers; force sensors; micromachining; microsensors; piezoresistive devices; 2D force sensing; 500 nm; Wheatstone bridge; bulk micromachining; cantilever beam; contact force measurement; electronic switching; force-sensing cantilever; piezoresistive sensor; silicon cantilever; Atom optics; Atomic force microscopy; Force measurement; Force sensors; Minimally invasive surgery; Monitoring; Optical sensors; Piezoresistance; Silicon on insulator technology; Structural beams; Cantilever beam; force sensor; piezoresistive sensor; two-dimensional force sensor;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2006.886992
