Title :
A three-axis micromachined accelerometer with a CMOS position-sense interface and digital offset-trim electronics
Author :
Lemkin, Mark ; Boser, Bernhard E.
Author_Institution :
Sensor & Actuator Center, California Univ., Berkeley, CA, USA
fDate :
4/1/1999 12:00:00 AM
Abstract :
This paper describes a three-axis accelerometer implemented in a surface-micromachining technology with integrated CMOS. The accelerometer measures changes in a capacitive half-bridge to detect deflections of a proof mass, which result from acceleration input. The half-bridge is connected to a fully differential position-sense interface, the output of which is used for one-bit force feedback. By enclosing the proof mass in a one-bit feedback loop, simultaneous force balancing and analog-to-digital conversion are achieved. On-chip digital offset-trim electronics enable compensation of random offset in the electronic interface. Analytical performance calculations are shown to accurately model device behaviour. The fabricated single-chip accelerometer measures 4×4 mm2, draws 27 mA from a 5-V supply, and has a dynamic range of 84, 81, and 70 dB along the x-, y-, and z-axes, respectively
Keywords :
CMOS integrated circuits; accelerometers; bridge instruments; capacitive sensors; micromachining; microsensors; 27 mA; 5 V; CMOS single chip; analog-to-digital conversion; capacitive half-bridge; differential position-sense interface; digital offset-trim electronics; dynamic range; error compensation; force balancing; force feedback loop; proof mass; surface micromachining; three-axis accelerometer; Acceleration; Accelerometers; CMOS technology; Displacement measurement; Dynamic range; Feedback loop; Force feedback; Force measurement; Force sensors; Springs;
Journal_Title :
Solid-State Circuits, IEEE Journal of
