期刊文献+
任意字段
题名或关键词
题名
关键词
文摘
作者
第一作者
机构
刊名
分类号
参考文献
作者简介
基金资助
栏目信息

光强检测型光纤光栅温变不敏感动态压力传感研究 被引量:22

Light Intensity-Referred and Temperature-Insensitive Fiber Bragg Grating Dynamic Pressure Sensor
原文传递
导出
摘要 报道了基于光纤光栅反射谱带宽调制和光强差分检测技术实现单一光纤光栅温变不敏感动态压力传感的新方法。设计了一种结构新颖的双孔梁压力传感装置,依据双孔梁有限元受力分析将光纤光栅准确定位于线性梯度应变区,压力作用下光纤光栅反射谱对称展宽,反射光强线性正比于压力变化。基于光波导理论和材料力学原理推导了线性梯度应变场作用下光栅反射谱带宽、反射光强与压力之间的响应关系。利用光强差分检测技术取代传统波长解调方法,简化解调过程的同时传感系统免受温变影响。实验表明,在-10-80℃的温度变化范围内,系统测量误差小于总量程(120kPa)的1.8%,动态响应速度约80Hz,重复测量系统输出稳定,具有较好的应用价值。 The temperature-insensitive fiber Bragg grating (FBG) dynamic pressure sensing based on reflection spectrum bandwidth modulation and differential optical power detection is proposed and experimentally demonstrated. A specially designed double-hole cantilever beam is presented to locate the FBG into the linear strain-gradient region, resulting in FBG reflection spectrum symmetrical broadening and optical power linear increasing with pressure enhancing. Based on the theory of optical waveguide and material mechanics, the causation of FBG spectrum broadening under the linear strain-gradient is analyzed, and the corresponding force-to-bandwidth broadening relation and force-to-optical power relation are formulized. By replacing the traditional wavelength demodulation with optical power detection technique, the demodulating process is simplified and immune to temperature variation. For a temperature range of -10 -80 ℃, the measured pressure fluctuates less than 1.8% without any temperature compensation. The system acquisition time is up to 80 Hz for dynamic pressure measurement. The experiment demonstrates the system is stable and applicable.
作者 郭团 赵启大 刘丽辉 黄桂岭 薛力芳 李国玉 董波 刘波 张伟刚 开桂云 袁树忠 董孝义
机构地区 南开大学现代光学研究所
出处 《光学学报》 EI CAS CSCD 北大核心 2007年第2期207-211,共5页 Acta Optica Sinica
基金 国家自然科学基金(60572018 60577018) 国家973重点基础研究发展计划项目(2003CB314906) 教育部博士点基金(20020055036) 天津市自然科学基金重点项目(013800511) 天津市科技发展计划(05YFGPG04900)资助课题
关键词 导波与光纤光学 光纤传感 光纤光栅 动态压力传感 带宽调制 光强检测 guided wave and fiber optics fiber sensing fiber Bragg grating (FBG) dynamic pressure sensing bandwidth modulation optical power detection
分类号 TN253 [电子电信—物理电子学]
  • 相关文献

参考文献19

  • 1Alan D. Kersey, Michael A. Davis, Heather J. Patrick et al.. Fiber grating sensors[J]. J. Lightwave Technol. , 1997, 15(8): 1442-1463
  • 2姜德生,何伟.光纤光栅传感器的应用概况[J].光电子.激光,2002,13(4):420-430. 被引量:362
  • 3Pierre Ferdinand, O. Ferragu, J. L. Lechien et al.. Mine operating accurate stability control with optical fiber sensing and Bragg grating technology: the European BRITE-EuRam STABILOS project[J]. J. Lightwave Technol. , 1995, 13(7) : 1303-1313
  • 4H. J. Patrick, G. M. Williams, A. D. Kersey et al.. Hybrid fiber Bragg grating/long period fiber grating sensor for strain/temperature discrimination[J]. IEEE Photon. Technol. Lett. ,1996, 8(9): 1223-1225
  • 5Xu M. G. , Archambauh J. L. , Reekie L. et al.. Discrimination between strain and temperature effects using dual-wavelength fibre grating sensors[J]. Electron. Lett. , 1994, 30(13) : 1085-1087
  • 6E. Udd, D. V. Nelson, C. M. Lawrence et al.. Three axis strain and temperature sensor [C]. Proc. SPIE, 1996, 2718:104-109
  • 7James S. W. , Doekney M. L. , Tatam R. P.. Simultaneous independent temperature and strain measurement using in fiber Bragg grating sensors [J]. Electron. Lett., 1996, 32 ( 12):1133-1134
  • 8Brady G. P., Kalli Kyriacos, Webb D. J. et al.. Recent developments in optical fibre sensing using fibre Bragg gratings[C]. Proc. SPIE, 1996, 2839:8-19
  • 9J. R. Dunphy, G. Meltz, M. Varasi et al.. Embedded optical sensor capable of strain and temperature measurement using a single diffraction grating[P]. U.S. patent 5,399, 1994. 854-21
  • 10J. Jung, N. Park, B. Lee. Simultaneous measurement of strain and temperature by use of a single fiber Bragg grating written in an erbium: ytterbium-doped fiber [J]. Appl. Opt., 2000,39(7) : 1118-1120

二级参考文献92

  • 1郭团,乔学光,贾振安,孙安,陈长勇.单光纤光栅波谱展宽温度压力同时区分测量[J].光学学报,2004,24(10):1401-1405. 被引量:14
  • 2黄锐,蔡海文,瞿荣辉,方祖捷.一种同时测量温度和应变的光纤光栅传感器[J].中国激光,2005,32(2):232-235. 被引量:36
  • 3[8]Slowik V,et al.Fibre Bragg Grating Sensors in Concrete Technology[J].LACER,1998,3:109-119.
  • 4[9]Internet reference:bssm.org/ConferencePage008.ht-ml.
  • 5[10]Vohra S T,et al.Quasi-Static Strain Monitoring During the ‘Push' Phase of a Box-Girder Bridge Using Fiber Bragg Grating Sensors[A].European Workshop on Optical Fibre Sensors[C].Scotland,UK,1998.
  • 6[11]Nellen P M,et al.Application of fiber optical and resistance strain gauges for long-term surveillance of civil engineering structures[A].Proc.SPIE[C].1997,3043:77-86.
  • 7[12]Kersey A D,et al.Progress towards the development of practical fibre Bragg grating instrumentation systems[A].Proc.SPIE[C].1996,2839:40-63.
  • 8[13]Dewynter-Marty V,et al.Concrete strain measurements and crack detection with surface-mounted and embedded Bragg grating extensometer[A].Proc of the OPtical Fiber Sensors Conf.(OFS-12)[C].Williamsburg,VA,USA,1997,600-603.
  • 9[14]Denarie E,et al.Concrete fracture process zone characterization with fiber optics[J].J.of Engineering Mechanics,2001,5,494-502.
  • 10[15]Federal Highway Administration.1996 Research and Technology Program Highlights.Publication No.FHWA-RD-96-168,Washington D.C.,1996,41.

共引文献388

同被引文献223

引证文献22

二级引证文献158

光学学报
2007年 第2期

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部