A MEMS sandwich differential capacitive silicon-on-insulator accelerometer

A differential capacitive accelerometer with simple process is designed, simulated, and fabricated. To achieve a precision structure dimension with fewer processing steps, the silicon device layer transfer technology is being used to built a sandwich accelerometer based on a silicon-on-insulator (SOI) wafer, which was assembled by glass-si-glass multilayer anodic bonding. Deep reactive ion etching is being used to define symmetric beams and large mass block of equal thickness together in SOI device layer (up to 100 μm) in a single step to avoid alignment error in double side process. An actual accelerometer which is designed for 50 g measure range is fabricated with six lithography steps. Measurement results show 0.1166 V/g sensitivity and 0.022 % nonlinearity error in ±1 g gravity static response test. The accelerometer also provides a power spectrum less than 10.49 μVrms/Hz1/2 (89.97 μg/Hz1/2) in a non-isolated laboratory environment with a capacitive interface circuit.

[1]  P. Zwahlen,et al.  Ultra-high precision MEMS accelerometer , 2011, 2011 16th International Solid-State Sensors, Actuators and Microsystems Conference.

[2]  T. Akin,et al.  A method and electrical model for the anodic bonding of SOI and glass wafers , 2012, 2012 IEEE 25th International Conference on Micro Electro Mechanical Systems (MEMS).

[3]  S. Chen,et al.  A method of fabricating MEMS accelerometers , 2008, 2008 International Conference on Electronic Materials and Packaging.

[4]  Robert H. Blick,et al.  Nanomechanical Resonator by Bonding Silicon-On-Insulator to Glass Wafers for integrated bio-electronic circuits , 2004 .

[5]  A. Vimalajuliet,et al.  Design of MEMS based capacitive accelerometer , 2010, 2010 International Conference on Mechanical and Electrical Technology.

[6]  R. Pratap,et al.  A Compact Squeeze-Film Model Including Inertia, Compressibility, and Rarefaction Effects for Perforated 3-D MEMS Structures , 2008, Journal of Microelectromechanical Systems.

[7]  K. Najafi,et al.  An in-plane high-sensitivity, low-noise micro-g silicon accelerometer with CMOS readout circuitry , 2004 .

[8]  Mert S. Prince,et al.  SOI bonded wafer process for high precision MEMS inertial sensors , 2005 .