Study of novel accelerometer based on fiber bragg grating

Guang Long Wang; Li Shuang Feng; Hui Lan Liu; Chun Xi Zhang; Li Teng

Study of novel accelerometer based on fiber bragg grating

Guang Long Wang^*
, Li Shuang Feng
, Hui Lan Liu
, Chun Xi Zhang
, Li Teng

^*Corresponding author for this work

School of Instrumentation and Optoelectronic Engineering

Beihang University

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

8 Scopus citations

Abstract

A novel differential fiber bragg grating accelerometer was designed. Its design principle, theory analysis and finite element simulation of the sensing structure were discussed. The structure of one main beam and two tiny beams based on the traditional single cantilever-mass structure solved the conflicts problem between the sensitivity and resonance frequency. Also the double FBG differential structure design increased the accelerometer sensitivity by one time, and conducted the temperature compensation. Theoretically analysis proved that the system sensitivity was 52. 7 pm/gn, and the resonance frequency was 250 Hz. Experiment results also proved that the structure increased sensitivity and solved the cross sense conflict between strain and temperature.

Original language	English
Pages (from-to)	450-453
Number of pages	4
Journal	Chinese Journal of Sensors and Actuators
Volume	21
Issue number	3
State	Published - Mar 2008

Keywords

Accelerometer
Cantilever
Fiber bragg grating
Finite element analysis

Cite this

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title = "Study of novel accelerometer based on fiber bragg grating",

abstract = "A novel differential fiber bragg grating accelerometer was designed. Its design principle, theory analysis and finite element simulation of the sensing structure were discussed. The structure of one main beam and two tiny beams based on the traditional single cantilever-mass structure solved the conflicts problem between the sensitivity and resonance frequency. Also the double FBG differential structure design increased the accelerometer sensitivity by one time, and conducted the temperature compensation. Theoretically analysis proved that the system sensitivity was 52. 7 pm/gn, and the resonance frequency was 250 Hz. Experiment results also proved that the structure increased sensitivity and solved the cross sense conflict between strain and temperature.",

keywords = "Accelerometer, Cantilever, Fiber bragg grating, Finite element analysis",

author = "Wang, \{Guang Long\} and Feng, \{Li Shuang\} and Liu, \{Hui Lan\} and Zhang, \{Chun Xi\} and Li Teng",

year = "2008",

month = mar,

language = "英语",

volume = "21",

pages = "450--453",

journal = "Chinese Journal of Sensors and Actuators",

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publisher = "Guojia Jiaowei Quanguo Gaoxiao Chuangan Jishu Yanjiuhui",

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TY - JOUR

T1 - Study of novel accelerometer based on fiber bragg grating

AU - Wang, Guang Long

AU - Feng, Li Shuang

AU - Liu, Hui Lan

AU - Zhang, Chun Xi

AU - Teng, Li

PY - 2008/3

Y1 - 2008/3

N2 - A novel differential fiber bragg grating accelerometer was designed. Its design principle, theory analysis and finite element simulation of the sensing structure were discussed. The structure of one main beam and two tiny beams based on the traditional single cantilever-mass structure solved the conflicts problem between the sensitivity and resonance frequency. Also the double FBG differential structure design increased the accelerometer sensitivity by one time, and conducted the temperature compensation. Theoretically analysis proved that the system sensitivity was 52. 7 pm/gn, and the resonance frequency was 250 Hz. Experiment results also proved that the structure increased sensitivity and solved the cross sense conflict between strain and temperature.

AB - A novel differential fiber bragg grating accelerometer was designed. Its design principle, theory analysis and finite element simulation of the sensing structure were discussed. The structure of one main beam and two tiny beams based on the traditional single cantilever-mass structure solved the conflicts problem between the sensitivity and resonance frequency. Also the double FBG differential structure design increased the accelerometer sensitivity by one time, and conducted the temperature compensation. Theoretically analysis proved that the system sensitivity was 52. 7 pm/gn, and the resonance frequency was 250 Hz. Experiment results also proved that the structure increased sensitivity and solved the cross sense conflict between strain and temperature.

KW - Accelerometer

KW - Cantilever

KW - Fiber bragg grating

KW - Finite element analysis

UR - https://www.scopus.com/pages/publications/63749108264

M3 - 文章

AN - SCOPUS:63749108264

SN - 1004-1699

VL - 21

SP - 450

EP - 453

JO - Chinese Journal of Sensors and Actuators

JF - Chinese Journal of Sensors and Actuators

IS - 3

ER -

Study of novel accelerometer based on fiber bragg grating

Abstract

Keywords

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