微型多通道光纤光谱仪的设计与研究
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摘要
光谱仪器是一种应用光学原理,对物质的结构和成分等进行光谱研究的光学装置。文章首先系统阐述了多通道光纤光谱仪的发展、研究现状及应用,介绍了光谱仪的基本原理,提出了基于面阵CCD的多通道光纤光谱仪的整体设计方案;其次完成了仪器的光学结构设计,包括光栅的选型、系统参数的确定;然后在对光谱探测器件原理分析的基础上完成了面阵CCD器件选型工作,并对周边硬件电路做了一些时序仿真,最后分析了仪器的软件部分。论文采用多根光纤代替传统入射狭缝并用面阵CCD作为光电探测器件设计微型多通道光纤光谱仪,能同时对多个被测物进行探测,实现多通道测量,系统的工作效率大大提高,更适合工业部门光谱现场检测。
Spectrometer is an optical instrument which is based on the optical principle, and it is used for the the detection of spectrum of the material structure and ingredients. Firstly, the development, current situation of the research and application of the micro multi-channel fiber optical spectrometer is systemtically expounded in this dissertation, an integral design of the instrument which is based on the area CCD is also proposed; secondly, the design of the optical system is performed, including the grating selection and the determination of system parameters; thirdly, the type selecting of array CCD is completed in accordance with the principle of the detector, for the peripheral hardware circuits, some research of the timing simulation is completed too; in the final part of the paper, the instrument's software is discussed.
More fibers instead of the traditional entrance slit and the area array CCD are used to design the multi-channel optical spectrometer in this paper, so the multi-channel measurement is realized, and the system's sensitivity has been significantly improved, then the system is more suitable for the detection of industrial scene spectrum.
Spectrometer is an optical instrument which is based on the optical principle, and it is used for the the detection of spectrum of the material structure and ingredients. Firstly, the development, current situation of the research and application of the micro multi-channel fiber optical spectrometer is systemtically expounded in this dissertation, an integral design of the instrument which is based on the area CCD is also proposed; secondly, the design of the optical system is performed, including the grating selection and the determination of system parameters; thirdly, the type selecting of array CCD is completed in accordance with the principle of the detector, for the peripheral hardware circuits, some research of the timing simulation is completed too; in the final part of the paper, the instrument's software is discussed.
More fibers instead of the traditional entrance slit and the area array CCD are used to design the multi-channel optical spectrometer in this paper, so the multi-channel measurement is realized, and the system's sensitivity has been significantly improved, then the system is more suitable for the detection of industrial scene spectrum.
引文
[1]李全臣,蒋月娟.光谱仪器原理[M].第1版.北京:北京理工大学出版社,1999
[2]刘丁,毛德柱,王云飞.USB在数据采集系统中的应用[J].电子技术应用.2000(4):37-39
[3]大舟.微型光谱仪.光机电世界[J].1993(10):39-44
[4]再谈分光光度计发展http://bbs.instrument.com.cn/shtml/20090210/1730061/
[5]权石柱.线阵列硅探测器多通道光谱仪性能评价研究.光学精密工程[J].1994(4):86-92
[6]美国海洋光学,产品展示:Maya 2000和Maya 2000-pro微型光纤光谱仪http://www.oceanopticschina.cn/cn/index/
[7]美国海洋光学,QE65000科研级的光谱仪http://www.oceanopticschina.cn/cn/index/
[8]荷兰Avantes公司,AvaSpec-3648型光纤光谱仪http://www.avantes.cn
[9]荷兰Avantes公司,AvaSpec2048×14光纤光谱仪http://www.avantes.cn
[10]鞠挥.用于生化分析的光谱仪微小型化的研究[D].中国科学院研究生院博士学位论文,2002
[11]万峰.多通道凹面光栅紫外可见分光光度计的设计和研究[D].天津大学博士学位论文,2004
[12]美国海洋光学, 浅谈微型光纤光谱仪的绝对辐射测量http://www.oceanopticschina.cn/cn/index/
[13]刘菊,贾红辉,尹红伟.军用紫外光学技术的发展[J].光学与光电技术.2006(6):63
[14]GLammel, S.Sehweizer, Ph.Renaud. Microspectrometer based on a tunable Optical filter of porous silicon. Sensors and Actuators [J].2002(92):52-59
[15]巫建刚.微型多通道快速光谱仪的设计及性能分析[D].浙江大学硕士学位论文,2006.
[16]李淑玲.荧光分光光度计及其应用[J].分析测试仪器通讯.2004(3):67-72
[17]LI Nian-zeng, YAN Da-yuan. Radiometry and Photometry [M]. Beijing:Beijing Institute of Technolo-gy Press.2008(6):129
[18]吴国安.光谱仪器设计[M].第1版.北京:科学出版社,1978
[19]缪家鼎,徐文娟,牟同升.光电技术[M].浙江:浙江大学出版社.2002:193-196
[20]P.Jacquinot.New developments in interference spectroscopy [J].Rep.prog.phys.1960, 23(1):267-312
[21]P.B.Fellget.The Multiplex Advantage [D].Cambridge, UK, Universityof Cambridge, 1951.
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[23]M.O.HarwittandN.J.A.Sloane.Hadamard Transform Optics [M]. New York:Academic Press,1979:201-203
[24]王帅.CCD器件的特性评价及其驱动和数据采集电路设计[D].浙江大学硕士学位论文,2006
[25]李祥友,黄维玲.激光精密加工技术的现状和展望[J].2000,21(5):1-3
[26]唐奕,陈海清等.线阵CCD多通道光谱仪及其应用[J].华中科技大学学报.2002,30(10):96-98
[27]蒋怀伟,尹志强,关胜晓.一种基于单片机的新型线阵CCD电路[J].电子世界,2003,5:29-30
[28]褚建平.基于CCD的小型化光谱仪的设计与研究[D].中国海洋大学硕士学位论文,2006
[29]王庆有,孙学珠.CCD应用技术[D].第1版.天津:天津大学出版社,1993
[30]程开富.CCD与CMOS图像传感器在微型摄像机中的应用.集成电路通讯[J].2005(1):23-24
[31]P.Hansen and J.Strong. High resolution Hadamard transform spectrometer [J]. Appl.Opt,1972, 11(3):502-506
[32]R.D.Swift,R.B.Wattson, J.A.Decker, R.Paganetti, and M.O.Harwitt.Hadamard transform Imager and imaging spectrometer [J].Appl.Opt,1976,15(6):1595-1609
[33]郭朝晖.CCD驱动电路的研究[J].东北电力学院学报.2002,23(1):58-60
[34]孙建松,翟多佳,苏宛新.基于DSP的CCD信号高速数据采集与处理系统[J].长春理工大学学报,2003,26(1):42-44
[35]Ewin,A.J, Reed,K.V. A programmable CCD driver circuit for multiphase CCD operation [J]. IEEE Transactions on Nuclear Science,1989,36(1):891-897
[36]常丹华.基于CPLD技术的CCD驱动时序产生方法.仪器仪表与仪器.2001(3):26~28.
[37]罗苑棠.CPLD/FPGA常用模块与综合系统设计实例精讲[M].第1版.北京:电子工业出版社,2007
[38]潘松,黄继业.EDA技术实用教程[M].第3版.北京:科学出版社,2006
[39]FIFO.http://baike.baidu.com/view/132385.htm?fr=ala0_1
[40]郭永飞.用高密度可编程器件设计CCD驱动器.光学精密工程.1996,4(4):111-115
[41]胡安.基于CCD的ICP-AES光谱仪光谱采集方案的设计与研究[D].吉林大学硕士学位论文,2002
[42]沈杭城,潘建根,冯华君等.多通道快速光谱仪的波长定标[J].光学仪器.2006(4):51~55
[43]陈文芗.多道光谱检测中CCD响应曲线的校正[J].分析仪器.2004(4):34~36
[44]牛余朋,成曙.单片机数字滤波算法研究[J].中国测量技术.2005(11):97~99
[2]刘丁,毛德柱,王云飞.USB在数据采集系统中的应用[J].电子技术应用.2000(4):37-39
[3]大舟.微型光谱仪.光机电世界[J].1993(10):39-44
[4]再谈分光光度计发展http://bbs.instrument.com.cn/shtml/20090210/1730061/
[5]权石柱.线阵列硅探测器多通道光谱仪性能评价研究.光学精密工程[J].1994(4):86-92
[6]美国海洋光学,产品展示:Maya 2000和Maya 2000-pro微型光纤光谱仪http://www.oceanopticschina.cn/cn/index/
[7]美国海洋光学,QE65000科研级的光谱仪http://www.oceanopticschina.cn/cn/index/
[8]荷兰Avantes公司,AvaSpec-3648型光纤光谱仪http://www.avantes.cn
[9]荷兰Avantes公司,AvaSpec2048×14光纤光谱仪http://www.avantes.cn
[10]鞠挥.用于生化分析的光谱仪微小型化的研究[D].中国科学院研究生院博士学位论文,2002
[11]万峰.多通道凹面光栅紫外可见分光光度计的设计和研究[D].天津大学博士学位论文,2004
[12]美国海洋光学, 浅谈微型光纤光谱仪的绝对辐射测量http://www.oceanopticschina.cn/cn/index/
[13]刘菊,贾红辉,尹红伟.军用紫外光学技术的发展[J].光学与光电技术.2006(6):63
[14]GLammel, S.Sehweizer, Ph.Renaud. Microspectrometer based on a tunable Optical filter of porous silicon. Sensors and Actuators [J].2002(92):52-59
[15]巫建刚.微型多通道快速光谱仪的设计及性能分析[D].浙江大学硕士学位论文,2006.
[16]李淑玲.荧光分光光度计及其应用[J].分析测试仪器通讯.2004(3):67-72
[17]LI Nian-zeng, YAN Da-yuan. Radiometry and Photometry [M]. Beijing:Beijing Institute of Technolo-gy Press.2008(6):129
[18]吴国安.光谱仪器设计[M].第1版.北京:科学出版社,1978
[19]缪家鼎,徐文娟,牟同升.光电技术[M].浙江:浙江大学出版社.2002:193-196
[20]P.Jacquinot.New developments in interference spectroscopy [J].Rep.prog.phys.1960, 23(1):267-312
[21]P.B.Fellget.The Multiplex Advantage [D].Cambridge, UK, Universityof Cambridge, 1951.
[22]G.B.ArfkenandH.J.Weber. Mathematical Methods for Physieists [M] 6th ed, NewYork:AeademiePress,2005.
[23]M.O.HarwittandN.J.A.Sloane.Hadamard Transform Optics [M]. New York:Academic Press,1979:201-203
[24]王帅.CCD器件的特性评价及其驱动和数据采集电路设计[D].浙江大学硕士学位论文,2006
[25]李祥友,黄维玲.激光精密加工技术的现状和展望[J].2000,21(5):1-3
[26]唐奕,陈海清等.线阵CCD多通道光谱仪及其应用[J].华中科技大学学报.2002,30(10):96-98
[27]蒋怀伟,尹志强,关胜晓.一种基于单片机的新型线阵CCD电路[J].电子世界,2003,5:29-30
[28]褚建平.基于CCD的小型化光谱仪的设计与研究[D].中国海洋大学硕士学位论文,2006
[29]王庆有,孙学珠.CCD应用技术[D].第1版.天津:天津大学出版社,1993
[30]程开富.CCD与CMOS图像传感器在微型摄像机中的应用.集成电路通讯[J].2005(1):23-24
[31]P.Hansen and J.Strong. High resolution Hadamard transform spectrometer [J]. Appl.Opt,1972, 11(3):502-506
[32]R.D.Swift,R.B.Wattson, J.A.Decker, R.Paganetti, and M.O.Harwitt.Hadamard transform Imager and imaging spectrometer [J].Appl.Opt,1976,15(6):1595-1609
[33]郭朝晖.CCD驱动电路的研究[J].东北电力学院学报.2002,23(1):58-60
[34]孙建松,翟多佳,苏宛新.基于DSP的CCD信号高速数据采集与处理系统[J].长春理工大学学报,2003,26(1):42-44
[35]Ewin,A.J, Reed,K.V. A programmable CCD driver circuit for multiphase CCD operation [J]. IEEE Transactions on Nuclear Science,1989,36(1):891-897
[36]常丹华.基于CPLD技术的CCD驱动时序产生方法.仪器仪表与仪器.2001(3):26~28.
[37]罗苑棠.CPLD/FPGA常用模块与综合系统设计实例精讲[M].第1版.北京:电子工业出版社,2007
[38]潘松,黄继业.EDA技术实用教程[M].第3版.北京:科学出版社,2006
[39]FIFO.http://baike.baidu.com/view/132385.htm?fr=ala0_1
[40]郭永飞.用高密度可编程器件设计CCD驱动器.光学精密工程.1996,4(4):111-115
[41]胡安.基于CCD的ICP-AES光谱仪光谱采集方案的设计与研究[D].吉林大学硕士学位论文,2002
[42]沈杭城,潘建根,冯华君等.多通道快速光谱仪的波长定标[J].光学仪器.2006(4):51~55
[43]陈文芗.多道光谱检测中CCD响应曲线的校正[J].分析仪器.2004(4):34~36
[44]牛余朋,成曙.单片机数字滤波算法研究[J].中国测量技术.2005(11):97~99