Title :
Evaluation of piezoresistive coefficient variation in silicon stress sensors using a four-point bending test fixture
Author :
Beaty, Robert E. ; Jaeger, Richard C. ; Suhling, Jeffrey C. ; Johnson, R. Wayne ; Butler, Ronald D.
Author_Institution :
Auburn Univ., AL, USA
fDate :
10/1/1992 12:00:00 AM
Abstract :
The variation of the piezoresistive coefficients from several rosettes on the same die, the same wafer, and finally at different doping levels across a number of wafers was examined. A thorough error analysis of the method of applying a known uniaxial state of stress using a four-point bending (4PB) fixture was completed. A sensor error analysis demonstrated that it is very difficult to determine accurate values for the sum (π11+π12) using the common two-element rosette, particularly in p-type material. However, an empirical equation was found that provides an estimate for this coefficient. The second piezoresistive coefficient π44 can be measured accurately. However, the results presented for π44 differ from those of previous authors by some 33%. Thus, it appears necessary to measure this value for a given wafer lot
Keywords :
bending; electric sensing devices; elemental semiconductors; error analysis; measurement errors; micromechanical devices; piezoelectric transducers; piezoresistance; silicon; stress measurement; Si stress sensors; doping levels; empirical equation; error analysis; four-point bending test fixture; micromechanical sensor; piezoresistive coefficient variation; rosettes on same die; semiconductors; two-element rosette; uniaxial state of stress; Calibration; Crystalline materials; Doping; Equations; Error analysis; Fixtures; Piezoresistance; Resistors; Silicon; Stress measurement;
Journal_Title :
Components, Hybrids, and Manufacturing Technology, IEEE Transactions on
