Abstract
In a MEMS capacitive accelerometer, there is an offset due to mechanical and electrical factors, and the offset would deteriorate the performance of the accelerometer. Reducing the offset from mechanism would benefit the improvement in performance. Yet, the compositions of the offset are complex and mix together, so it is difficult to decompose the offset to provide guidance for the reduction. In this work, a decomposition method of offset in a MEMS capacitive accelerometer was proposed. The compositions of the offset were first analyzed quantitatively, and methods of measuring key parameters were developed. Based on our proposed decomposition method, the experiment of offset decomposition with a closed-loop MEMS capacitive accelerometer was carried out. The results showed that the offset successfully decomposed, and the major source was from the fabricated gap mismatch in the MEMS sensor. This work provides a new way for analyzing the offset in a MEMS capacitive accelerometer, and it is helpful for purposefully taking steps to reduce the offset and improve accelerometer performance.
Highlights
(1) The closed-loop MEMS capacitive accelerometer is selected as an experimental sample
This paper describes a decomposition method of offset in a closed-loop MEMS capacitive accelerometer
The experiment of our silicon-based comb-finger MEMS accelerometer showed that the offset was successfully decomposed, and its source was mainly from the fabricated gap mismatch
Summary
Publisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional affiliations. Maspero et al analyzed the composition of the offset in a originates from various and ittook is difficult to separate the as composition of thecould offset not disMEMS accelerometer, butfactors, this work the MEMS sensor a whole and from each other This leads to there being little systematic research on the decomposition of tinguish between the device and the unavoidable parasitic term [19]. Based on our developed methods of measuring key parameters of the decomposition method can help researchers distinguish the sources of offset quantitaMEMS accelerometer, the compositions of the offset were analyzed and decomposed.
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