Dynamic Calibration of Quartz Flexure Accelerometers

The dynamic behavior of quartz flexure accelerometers remains a subject of ongoing investigation, particularly in areas such as theoretical modeling, standardization, calibration methodology, and performance evaluation. To address the limitation of conventional static calibration models in accuratel...

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Published in	Sensors (Basel, Switzerland) Vol. 25; no. 16; p. 5096
Main Authors	Sheng, Xuan, Wang, Xizhe, Chen, Wenying, Shu, Yang, Zhang, Kai
Format	Journal Article
Language	English
Published	Switzerland MDPI AG 16.08.2025 MDPI
Subjects	Accelerometers Accuracy Calibration calibration method dual-axis precision centrifuge dynamic behavior Mathematical models Methods Parameter identification Performance evaluation quartz flexure accelerometers Sensors quartz flexure accelerometers dynamic behavior calibration method dual-axis precision centrifuge
Online Access	Get full text
ISSN	1424-8220 1424-8220
DOI	10.3390/s25165096

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Abstract	The dynamic behavior of quartz flexure accelerometers remains a subject of ongoing investigation, particularly in areas such as theoretical modeling, standardization, calibration methodology, and performance evaluation. To address the limitation of conventional static calibration models in accurately representing accelerometer responses under dynamic acceleration excitation, a dynamic calibration model is proposed. A mathematical model is first developed based on the physical mechanism of the accelerometer, characterizing its intrinsic dynamic response. Simulation-based analysis demonstrates that the proposed dynamic model offers significantly improved accuracy compared to traditional static approaches. Furthermore, a dynamic calibration method leveraging a dual-axis precision centrifuge is designed and validated. The results confirm that the proposed approach enables the precise calibration of quartz flexure accelerometers in accordance with the dynamic model. The calibration of the dynamic parameter yields a relative standard deviation of −0.048%.
AbstractList	What are the main findings? A dynamic calibration model is developed based on a mechanistic analysis of quartz flexure accelerometers. A dynamic calibration method is designed utilizing a dual-axis precision centrifuge in conjunction with the dynamic model. What is the implication of the main finding? The magnitude of dynamic measurement errors is significantly reduced by the proposed dynamic error model. The calibration of the dynamic parameter yields a relative standard deviation of −0.048%. The dynamic behavior of quartz flexure accelerometers remains a subject of ongoing investigation, particularly in areas such as theoretical modeling, standardization, calibration methodology, and performance evaluation. To address the limitation of conventional static calibration models in accurately representing accelerometer responses under dynamic acceleration excitation, a dynamic calibration model is proposed. A mathematical model is first developed based on the physical mechanism of the accelerometer, characterizing its intrinsic dynamic response. Simulation-based analysis demonstrates that the proposed dynamic model offers significantly improved accuracy compared to traditional static approaches. Furthermore, a dynamic calibration method leveraging a dual-axis precision centrifuge is designed and validated. The results confirm that the proposed approach enables the precise calibration of quartz flexure accelerometers in accordance with the dynamic model. The calibration of the dynamic parameter yields a relative standard deviation of −0.048%. The dynamic behavior of quartz flexure accelerometers remains a subject of ongoing investigation, particularly in areas such as theoretical modeling, standardization, calibration methodology, and performance evaluation. To address the limitation of conventional static calibration models in accurately representing accelerometer responses under dynamic acceleration excitation, a dynamic calibration model is proposed. A mathematical model is first developed based on the physical mechanism of the accelerometer, characterizing its intrinsic dynamic response. Simulation-based analysis demonstrates that the proposed dynamic model offers significantly improved accuracy compared to traditional static approaches. Furthermore, a dynamic calibration method leveraging a dual-axis precision centrifuge is designed and validated. The results confirm that the proposed approach enables the precise calibration of quartz flexure accelerometers in accordance with the dynamic model. The calibration of the dynamic parameter yields a relative standard deviation of -0.048%. The dynamic behavior of quartz flexure accelerometers remains a subject of ongoing investigation, particularly in areas such as theoretical modeling, standardization, calibration methodology, and performance evaluation. To address the limitation of conventional static calibration models in accurately representing accelerometer responses under dynamic acceleration excitation, a dynamic calibration model is proposed. A mathematical model is first developed based on the physical mechanism of the accelerometer, characterizing its intrinsic dynamic response. Simulation-based analysis demonstrates that the proposed dynamic model offers significantly improved accuracy compared to traditional static approaches. Furthermore, a dynamic calibration method leveraging a dual-axis precision centrifuge is designed and validated. The results confirm that the proposed approach enables the precise calibration of quartz flexure accelerometers in accordance with the dynamic model. The calibration of the dynamic parameter yields a relative standard deviation of −0.048%. The dynamic behavior of quartz flexure accelerometers remains a subject of ongoing investigation, particularly in areas such as theoretical modeling, standardization, calibration methodology, and performance evaluation. To address the limitation of conventional static calibration models in accurately representing accelerometer responses under dynamic acceleration excitation, a dynamic calibration model is proposed. A mathematical model is first developed based on the physical mechanism of the accelerometer, characterizing its intrinsic dynamic response. Simulation-based analysis demonstrates that the proposed dynamic model offers significantly improved accuracy compared to traditional static approaches. Furthermore, a dynamic calibration method leveraging a dual-axis precision centrifuge is designed and validated. The results confirm that the proposed approach enables the precise calibration of quartz flexure accelerometers in accordance with the dynamic model. The calibration of the dynamic parameter yields a relative standard deviation of -0.048%.The dynamic behavior of quartz flexure accelerometers remains a subject of ongoing investigation, particularly in areas such as theoretical modeling, standardization, calibration methodology, and performance evaluation. To address the limitation of conventional static calibration models in accurately representing accelerometer responses under dynamic acceleration excitation, a dynamic calibration model is proposed. A mathematical model is first developed based on the physical mechanism of the accelerometer, characterizing its intrinsic dynamic response. Simulation-based analysis demonstrates that the proposed dynamic model offers significantly improved accuracy compared to traditional static approaches. Furthermore, a dynamic calibration method leveraging a dual-axis precision centrifuge is designed and validated. The results confirm that the proposed approach enables the precise calibration of quartz flexure accelerometers in accordance with the dynamic model. The calibration of the dynamic parameter yields a relative standard deviation of -0.048%. What are the main findings? * A dynamic calibration model is developed based on a mechanistic analysis of quartz flexure accelerometers. * A dynamic calibration method is designed utilizing a dual-axis precision centrifuge in conjunction with the dynamic model. A dynamic calibration model is developed based on a mechanistic analysis of quartz flexure accelerometers. A dynamic calibration method is designed utilizing a dual-axis precision centrifuge in conjunction with the dynamic model. What is the implication of the main finding? * The magnitude of dynamic measurement errors is significantly reduced by the proposed dynamic error model. * The calibration of the dynamic parameter yields a relative standard deviation of −0.048%. The magnitude of dynamic measurement errors is significantly reduced by the proposed dynamic error model. The calibration of the dynamic parameter yields a relative standard deviation of −0.048%. The dynamic behavior of quartz flexure accelerometers remains a subject of ongoing investigation, particularly in areas such as theoretical modeling, standardization, calibration methodology, and performance evaluation. To address the limitation of conventional static calibration models in accurately representing accelerometer responses under dynamic acceleration excitation, a dynamic calibration model is proposed. A mathematical model is first developed based on the physical mechanism of the accelerometer, characterizing its intrinsic dynamic response. Simulation-based analysis demonstrates that the proposed dynamic model offers significantly improved accuracy compared to traditional static approaches. Furthermore, a dynamic calibration method leveraging a dual-axis precision centrifuge is designed and validated. The results confirm that the proposed approach enables the precise calibration of quartz flexure accelerometers in accordance with the dynamic model. The calibration of the dynamic parameter yields a relative standard deviation of −0.048%.
Audience	Academic
Author	Shu, Yang Chen, Wenying Wang, Xizhe Zhang, Kai Sheng, Xuan
AuthorAffiliation	Institute of Systems Engineering, China Academy of Engineering Physics, Mianyang 621999, China; shengxuan23@gscaep.ac.cn (X.S.); wangxizhe23@gscaep.ac.cn (X.W.); mysysysy@163.com (Y.S.)
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Cites_doi	10.3390/s24082566 10.1109/TIM.2017.2706479 10.1016/j.measurement.2017.08.010 10.1109/ACCESS.2019.2940480 10.1088/1681-7575/ac8d10 10.1109/CIS.2007.234 10.1109/JSEN.2024.3406955 10.1007/s12206-013-0857-5 10.1038/s41467-022-33021-5 10.1109/TDMR.2010.2102025 10.1016/j.measurement.2024.116603 10.4028/www.scientific.net/AMM.423-426.2308 10.3390/s16040440 10.1109/TIM.2007.908145 10.1088/1361-6501/ab5acb 10.3390/s16101587 10.1109/TIM.2016.2549758 10.1109/JSEN.2023.3244920 10.1109/I2MTC.2014.6860810 10.1155/2023/7441499 10.1186/s43020-019-0001-5 10.3390/s22197208 10.3390/s20144054 10.1142/S0218348X22400989 10.3390/s21010294 10.1109/ISISS.2019.8739559 10.1016/S0263-2241(01)00048-3 10.1088/0957-0233/25/2/025102 10.1109/JSEN.2018.2859832 10.4028/www.scientific.net/AMM.373-375.373 10.3390/s131115785 10.1109/TIM.2018.2869238 10.14313/PAR_236/31 10.1063/1.5089603 10.1109/TCST.2010.2076321
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Snippet	The dynamic behavior of quartz flexure accelerometers remains a subject of ongoing investigation, particularly in areas such as theoretical modeling,... What are the main findings? * A dynamic calibration model is developed based on a mechanistic analysis of quartz flexure accelerometers. * A dynamic... What are the main findings? A dynamic calibration model is developed based on a mechanistic analysis of quartz flexure accelerometers. A dynamic calibration...
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StartPage	5096
SubjectTerms	Accelerometers Accuracy Calibration calibration method dual-axis precision centrifuge dynamic behavior Mathematical models Methods Parameter identification Performance evaluation quartz flexure accelerometers Sensors
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Title	Dynamic Calibration of Quartz Flexure Accelerometers
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