Reference : Poly-SiGe-based MEMS Xylophone Bar Magnetometer
Scientific congresses and symposiums : Paper published in a book
Engineering, computing & technology : Aerospace & aeronautics engineering
http://hdl.handle.net/2268/129416
Poly-SiGe-based MEMS Xylophone Bar Magnetometer
English
Rochus, Véronique mailto []
Jansen, R. []
Tilmans, H. A. C. []
Rottenberg, X. []
Chen, C. []
Ranvier, S. []
Lamy, Hervé [Université de Liège - ULg > Département d'astrophys., géophysique et océanographie (AGO) > Département d'astrophys., géophysique et océanographie (AGO) >]
Rochus, Pierre mailto [Université de Liège - ULg > > CSL (Centre Spatial de Liège) >]
Oct-2012
IEEE SENSORS 2012
Yes
International
IEEE SENSORS 2012
28-31 October 2012 in Taipei
[en] MEMS
[en] This paper presents the design, fabrication and preliminary characterization of highly sensitive MEMS-based Xylophone Bar Magnetometers (XBMs) realized in imec’s poly-SiGe MEMS technology. Key for our Lorentz force driven capacitively sensed resonant sensor are the combination of reasonably high Q-factor and conductivity of imec’s poly-SiGe, our optimized multiphysics sensor design targeting the maximization of the Q-factor in a wide temperature range as well as our proprietary monolithic above-CMOS integration and packaging schemes. Prototypes 3-axis devices were fabricated and characterized. We present optical vibrometer and electrical S-parameter measurements of XBMs performed in vacuum with a reference magnet at increasing sensor separation. The optical oscillation amplitude is well correlated with the magnetic field amplitude. The electrical 2-port measurements, 1st port as Lorentz force actuator and 2nd port as capacitive sensor, also reproduces the designed magnetic field dependence. This opens the way towards the on-chip integration of small footprint
extremely sensitive magnetometers.
http://hdl.handle.net/2268/129416

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