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Ultra-low-voltage gyroscopes based on piezoresistive NEMS for drive-motion and coriolis-motion sensing

Published on 29 March 2018
Ultra-low-voltage gyroscopes based on piezoresistive NEMS for drive-motion and coriolis-motion sensing
Description
 
Date 
Authors
Dellea S., Strazzeri G.S., Rey P., Langfelder G.
Year2017-0162
Source-TitleProceedings of the IEEE International Conference on Micro Electro Mechanical Systems (MEMS)
Affiliations
Politécnico di Milano, Milano, Italy, Cea-LETI, Grenoble, France
Abstract
The work presents first gyroscopes based on NEMS gauges used both for sense-motion detection and for drive-motion detection. In such a configuration, no structural element is biased at voltages larger than 1 V, so 1 to 2 orders of magnitude lower than the DC voltage conventionally applied to the rotor of capacitive gyroscopes. Following the mechanical design, also the electronics is adapted, here relying on resistive sensing also in the drive loop, which guarantees an optimal rejection of feedthrough issues. Within an area of about 1.1 (mm)2 per axis, with drive mode Q factors of about 35000 at 0.3 mbar, 1.4 dphWHz angle random walk (ARW) is obtained. Bias stability given by NEMS 1/f noise becomes well visible. © 2017 IEEE.
Author-Keywords
 
Index-Keywords
Gyroscopes, Mechanics, Motion analysis, Q factor measurement, Bias stability, Mechanical design, Motion detection, Motion sensing, Orders of magnitude, Piezo-resistive, Structural elements, Ultra-low-voltage, MEMS
ISSN10846999
LinkLink

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