Double-actuator position-feedback mechanism for adjustable sensitivity in electrostatic-capacitive MEMS force sensors

Year: 2020

Authors: Nastro A., Ferrari M., Ferrari V.

Autors Affiliation: Univ Brescia, Dept Informat Engn, Brescia, Italy; CNR INO Natl Res Council, Natl Inst Opt, Brescia, Italy.

Abstract: This paper presents a novel double-actuator position-feedback mechanism for micro electro-mechanical electrostatic-capacitive force sensors. Compared to a single-actuator position-feedback operation, the innovative use of two independent electrostatic actuators allows to obtain electrically adjustable force sensitivity and measurement range independently from the working position and the stiffness of the internal mechanical movable structure of the device. Additionally, the proposed configuration allows to electrically set and keep fixed the working position of the force probe tip thanks to the position-feedback loop, thus ideally offering an infinite input mechanical impedance, irrespectively from the force measurement range and sensitivity adjusted to the desired values. The proposed mechanism has been experimentally validated on an electrostatic-capacitive MEMS device that includes a capacitive position sensor and a pair of electrostatic actuators, employing the gravity force to provide accurate and repeatable values for the external applied force. The obtained experimental results are in good agreement with both theoretical predictions and parametric numerical analyses. The proposed mechanism allows to adjust the sensitivity in the range from 2.34 up to 8.43 V/?N with a corresponding force measurement range, defined at a maximum nonlinearity error of 1% referred to the full scale, from [-217, 226] down to [-20.5, 21.4] nN, respectively. The measurement repeatability, which sets the resolution of the MEMS force sensor, has been estimated at one standard deviation ? resulting in 345 pN.

Journal/Review: SENSORS AND ACTUATORS A-PHYSICAL

Volume: 312      Pages from: 112127-1  to: 112127-10

More Information: We thank Prof. O. Kolosov (Lancaster University) for useful discussions. A.F. and L.S. gratefully acknowledge computational support from the Cineca Supercomputing Center, Italy. Financial support from Compagnia di San Paolo (project STRATOS) is gratefully acknowledged.
KeyWords: Force sensor; Double-actuator position-feedback mechanism; Adjustable sensitivity; Electrostatic-capacitive MEMS
DOI: 10.1016/j.sna.2020.112127

Citations: 21
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