Title :
Fully symmetric vertical hall devices in CMOS technology
Author :
Sander, C. ; Raz, Ran ; Ruther, P. ; Paul, O. ; Kaufmann, Thomas ; Cornils, M. ; Vecchi, M.C.
Author_Institution :
Dept. of Microsyst. Eng. - IMTEK, IMTEK, Freiburg, Germany
Abstract :
We present a novel CMOS-integrated, vertical Hall sensor (VHS) with optimized symmetry for the measurement of in-plane magnetic field components. Due to the junction field effect, conventional five-contact VHS (5CVHS) suffer from considerable offsets caused by their inherent electrical asymmetry under contact permutations. The novel device achieves a higher degree of symmetry by the appropriate connection of four identical three-contact elements. As a result, with a bias voltage of 3.5 V and after current switching a mean residual offset of 2.5 μV with a standard deviation of 33.8 μV is achieved among 45 samples on an 8-inch wafer. This represents an improvement by a factor of more than 4 over 5CVHS fabricated on the same wafer. In addition, the power consumption is reduced by 47%.
Keywords :
CMOS integrated circuits; Hall effect; Hall effect devices; magnetic field measurement; magnetic sensors; optimisation; semiconductor junctions; 5CVHS device; CMOS integrated technology; contact element; contact permutation; conventional five contact VHS; current switching; degree of symmetry; electrical asymmetry; in-plane magnetic field component measurement; junction field effect; size 8 inch; symmetric vertical Hall sensor; symmetry optimization; voltage 2.5 muV; voltage 3.5 V; CMOS integrated circuits; Coils; Geometry; Magnetic fields; Metals; Sensitivity; Standards;
Conference_Titel :
SENSORS, 2013 IEEE
Conference_Location :
Baltimore, MD
DOI :
10.1109/ICSENS.2013.6688286
