Research on special piezoresistive acceleration sensor

Libo Zhao; Yulong Zhao; Zhuangde Jiang

Research on special piezoresistive acceleration sensor

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Utilizing the dynamics analysis and finite element simulation, the acceleration sensor s mechanical structure with high overload protection capability was designed. The micro electro-mechanical system (MEMS) and integrated circuit technology were adopted to manufacture the solid piezoresistive silicon flat chip with high precision and sensitivity, and packaged on the concentrated stress location of an elastic beam by glass powder sintering, and the special piezoresistive acceleration sensor was developed with the measurement range of ±20 km/s² and the overload capability of 30 times full scale (FS) via laser welding. Under applying point load and dynamic shock to the sensor, the experiments show that the sensor achieves the index of static precision 0.86%FS and dynamic response frequency 3.434 kHz which can meet the requirements of the trigger control technology for the unconventional weapon.

Original language	English
Pages (from-to)	1049-1052
Number of pages	4
Journal	Hsi-An Chiao Tung Ta Hsueh/Journal of Xi'an Jiaotong University
Volume	40
Issue number	9
State	Published - Sep 2006

Keywords

Acceleration sensor
Elastic beam
High overload
Micro electro-mechanical system
Solid piezoresistive silicon flat chip

Cite this

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title = "Research on special piezoresistive acceleration sensor",

abstract = "Utilizing the dynamics analysis and finite element simulation, the acceleration sensor s mechanical structure with high overload protection capability was designed. The micro electro-mechanical system (MEMS) and integrated circuit technology were adopted to manufacture the solid piezoresistive silicon flat chip with high precision and sensitivity, and packaged on the concentrated stress location of an elastic beam by glass powder sintering, and the special piezoresistive acceleration sensor was developed with the measurement range of ±20 km/s2 and the overload capability of 30 times full scale (FS) via laser welding. Under applying point load and dynamic shock to the sensor, the experiments show that the sensor achieves the index of static precision 0.86\%FS and dynamic response frequency 3.434 kHz which can meet the requirements of the trigger control technology for the unconventional weapon.",

keywords = "Acceleration sensor, Elastic beam, High overload, Micro electro-mechanical system, Solid piezoresistive silicon flat chip",

author = "Libo Zhao and Yulong Zhao and Zhuangde Jiang",

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T1 - Research on special piezoresistive acceleration sensor

AU - Zhao, Libo

AU - Zhao, Yulong

AU - Jiang, Zhuangde

PY - 2006/9

Y1 - 2006/9

N2 - Utilizing the dynamics analysis and finite element simulation, the acceleration sensor s mechanical structure with high overload protection capability was designed. The micro electro-mechanical system (MEMS) and integrated circuit technology were adopted to manufacture the solid piezoresistive silicon flat chip with high precision and sensitivity, and packaged on the concentrated stress location of an elastic beam by glass powder sintering, and the special piezoresistive acceleration sensor was developed with the measurement range of ±20 km/s2 and the overload capability of 30 times full scale (FS) via laser welding. Under applying point load and dynamic shock to the sensor, the experiments show that the sensor achieves the index of static precision 0.86%FS and dynamic response frequency 3.434 kHz which can meet the requirements of the trigger control technology for the unconventional weapon.

AB - Utilizing the dynamics analysis and finite element simulation, the acceleration sensor s mechanical structure with high overload protection capability was designed. The micro electro-mechanical system (MEMS) and integrated circuit technology were adopted to manufacture the solid piezoresistive silicon flat chip with high precision and sensitivity, and packaged on the concentrated stress location of an elastic beam by glass powder sintering, and the special piezoresistive acceleration sensor was developed with the measurement range of ±20 km/s2 and the overload capability of 30 times full scale (FS) via laser welding. Under applying point load and dynamic shock to the sensor, the experiments show that the sensor achieves the index of static precision 0.86%FS and dynamic response frequency 3.434 kHz which can meet the requirements of the trigger control technology for the unconventional weapon.

KW - Acceleration sensor

KW - Elastic beam

KW - High overload

KW - Micro electro-mechanical system

KW - Solid piezoresistive silicon flat chip

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SN - 0253-987X

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JO - Hsi-An Chiao Tung Ta Hsueh/Journal of Xi'an Jiaotong University

JF - Hsi-An Chiao Tung Ta Hsueh/Journal of Xi'an Jiaotong University

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Research on special piezoresistive acceleration sensor

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Keywords

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