Title :
Digital Offset Trimming Techniques for CMOS MEMS Accelerometers
Author :
Po-Chang Wu ; Bin-Da Liu ; Sheng-Hsiang Tseng ; Hann-Huei Tsai ; Ying-Zong Juang
Author_Institution :
Dept. of Electr. Eng., Nat. Cheng Kung Univ., Tainan, Taiwan
Abstract :
This paper presents a digital trimming technique for canceling the output offsets caused by sensor mismatches in an accelerometer design. The offset cancellation techniques provide fine trimming steps with higher chip area efficiency compared with that of conventional capacitor array compensation approaches. The accelerometer, fabricated in a 0.18- μm complementary metal-oxide-semiconductor micro-electro-mechanical-system process, containing the micro-mechanical structure and readout circuits, occupies only a 0.64 × 0.9 mm2 area. The chip draws 0.4 mA from a 1.8-V supply. The measured sensitivity is 195 mV/g and the nonlinearity is 0.78% within the ±12 g sensing range. The output noise floor is 150 μg/√{Hz}, corresponding to a 1-g 100-Hz sinusoidal acceleration. The output offset voltage can be trimmed from several tens to several hundreds of millivolts down to several millivolts.
Keywords :
CMOS integrated circuits; acceleration measurement; accelerometers; microsensors; readout electronics; CMOS MEMS accelerometer; capacitor array compensation approach; chip area efficiency; complementary metal-oxide-semiconductor microelectromechanical-system process; current 0.4 mA; digital offset trimming technique; output offset cancellation technique; readout circuit; voltage 1.8 V; Accelerometers; CMOS integrated circuits; Capacitance; Micromechanical devices; Noise; Sensitivity; Sensors; CMOS MEMS; accelerometer; digital calibration; offset trimming;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2013.2284284
