Z-Axis Micromachined Tuning Fork Gyroscope with Low Air Damping

This paper reports on the design and fabrication of a z-axis tuning fork gyroscope which has a freestanding architecture. In order to improve the performance of the tuning fork gyroscope by eliminating the influence of the squeeze-film air damping, the driving and sensing parts of the gyroscope were...

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Autores principales: Nguyen, Minh Ngoc, Ha, Nhat Sinh, Nguyen, Long Quang, Chu, Hoang Manh, Vu, Hung Ngoc
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2017
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6190345/
http://dx.doi.org/10.3390/mi8020042
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author Nguyen, Minh Ngoc
Ha, Nhat Sinh
Nguyen, Long Quang
Chu, Hoang Manh
Vu, Hung Ngoc
author_facet Nguyen, Minh Ngoc
Ha, Nhat Sinh
Nguyen, Long Quang
Chu, Hoang Manh
Vu, Hung Ngoc
author_sort Nguyen, Minh Ngoc
collection PubMed
description This paper reports on the design and fabrication of a z-axis tuning fork gyroscope which has a freestanding architecture. In order to improve the performance of the tuning fork gyroscope by eliminating the influence of the squeeze-film air damping, the driving and sensing parts of the gyroscope were designed to oscillate in-plane. Furthermore, by removing the substrate underneath the device, the slide-film air damping in the gap between the proof masses and the substrate was eliminated. The proposed architecture was analyzed by the finite element method using ANSYS software. The simulated frequencies of the driving and sensing modes were 9.788 and 9.761 kHz, respectively. The gyroscope was fabricated using bulk micromachining technology. The quality factor and sensitivity of the gyroscope operating in atmospheric conditions were measured to be 111.2 and 11.56 mV/°/s, respectively.
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spelling pubmed-61903452018-11-01 Z-Axis Micromachined Tuning Fork Gyroscope with Low Air Damping Nguyen, Minh Ngoc Ha, Nhat Sinh Nguyen, Long Quang Chu, Hoang Manh Vu, Hung Ngoc Micromachines (Basel) Article This paper reports on the design and fabrication of a z-axis tuning fork gyroscope which has a freestanding architecture. In order to improve the performance of the tuning fork gyroscope by eliminating the influence of the squeeze-film air damping, the driving and sensing parts of the gyroscope were designed to oscillate in-plane. Furthermore, by removing the substrate underneath the device, the slide-film air damping in the gap between the proof masses and the substrate was eliminated. The proposed architecture was analyzed by the finite element method using ANSYS software. The simulated frequencies of the driving and sensing modes were 9.788 and 9.761 kHz, respectively. The gyroscope was fabricated using bulk micromachining technology. The quality factor and sensitivity of the gyroscope operating in atmospheric conditions were measured to be 111.2 and 11.56 mV/°/s, respectively. MDPI 2017-02-01 /pmc/articles/PMC6190345/ http://dx.doi.org/10.3390/mi8020042 Text en © 2017 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Nguyen, Minh Ngoc
Ha, Nhat Sinh
Nguyen, Long Quang
Chu, Hoang Manh
Vu, Hung Ngoc
Z-Axis Micromachined Tuning Fork Gyroscope with Low Air Damping
title Z-Axis Micromachined Tuning Fork Gyroscope with Low Air Damping
title_full Z-Axis Micromachined Tuning Fork Gyroscope with Low Air Damping
title_fullStr Z-Axis Micromachined Tuning Fork Gyroscope with Low Air Damping
title_full_unstemmed Z-Axis Micromachined Tuning Fork Gyroscope with Low Air Damping
title_short Z-Axis Micromachined Tuning Fork Gyroscope with Low Air Damping
title_sort z-axis micromachined tuning fork gyroscope with low air damping
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6190345/
http://dx.doi.org/10.3390/mi8020042
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