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基于微控制器的塑料光子晶体光纤拉丝塔加热炉的新型设计

The New Design of Heating Oven Based on MCU for Drawing Tower of Plastic Photonic Crystal Fibers
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摘要 塑料光子晶体光纤(PlasticPhotonicCrystalFibers,PPCF)是一种新型的塑料光纤,其主要特征是在包层中有形状、大小、排列不同的微结构孔。拉丝塔是制作塑料光子晶体光纤的重要装置,而加热系统则是拉丝塔的关键组成部分。制作塑料微结构光纤要求加热系统的温度场呈特殊分布,这样能避免孔塌陷。本文中我们设计了一种基于微控制器(MicroControllerU-nite,MCU)的加热系统。该系统采用分区加热,其温度曲线比较理想,满足了制作不同结构MPOF时的需要。 PPCF is a new kind of plastic fiber, whose microstructured holes have different shape,size and array in the claddings. Drawing tower is an important apparatus for fabricating PPCF, and the heating system is the key part of the drawing tower. Special temperature field has to be offered by the heating system for fabricating MPOF, which can reduce hole collapse. In this paper, we design a heating system based on MCU. This system adopts section-compartmentalized heating, whose temperature curve is quite good. Experimentations approve this system works well in drawing MPOF with different structures.
作者 王铮 肖文辉 刘祥洪 于荣金
机构地区 燕山大学信息科学与工程学院
出处 《光电子技术》 CAS 2005年第2期97-99,共3页 Optoelectronic Technology
基金 国家自然科学基金资助项目(60444003)
关键词 塑料光子晶体光纤 拉丝塔 微控制器 分区加热 PPCF drawing tower MCU section-compartmentalized heating
分类号 TN253 [电子电信—物理电子学]
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参考文献4

  • 1于荣金.塑料通信光纤[J].光电子.激光,2002,13(3):315-320. 被引量:28
  • 2江原,邹宁宇.聚合物光纤[M].北京:化学工业出版社,2002:43~47
  • 3珊瑚化工厂.有机玻璃[M].上海:上海科学技术出版社,1979.196.
  • 4Barton G, van Eijkelenborg M A, Henry G, et al. Fabrication of microstructured polymer optical fibres [J]. Optical Fiber Technology,2004, 10:325~335

二级参考文献9

  • 1[1]Y Kioke.Progress in GI-POF:status of high speed plastic optical fiber and its future prospect[A].Conference Proceedings POF2000[C].2000,1-5.
  • 2[2]R J S Bates,S D Walker,M Yaseen.A 265 Mbit/s,100 m plastic optical fiber data link using a 652 nm laser transmitter for customer premises network application[A].Proc.ECOC92[C].1992.1:297-300.
  • 3[3]M Yaseen,S D Walker,R J S Bates.531 Mbit/s,100 m all-plastic optical-fiber data link for customer-premises network application[A].Proc.OFC/IOOC93[C].1993.171-172.
  • 4[4]O Ziemann,et al.Potential of PMMA based SI-POF for Gbps transmission in automotive applications[A].Conference Proceedings POF2000[C].2000.44-48.
  • 5[5]T Ishigure,et al.2.5 Gbit/s 100 m data transmission using graded-index polymer optical fiber and highspeed laser diode at 650 nm wavelength[J].Election.Lett,1995,31(6):467-469.
  • 6[6]W Li,et al.2.5 Gbit/s transmission over 200 m PMMA graded index polymer optical fiber using a 645 nm narrow spectrum laser and a silicon APD[J].Microwave and Optical Technology Letters,1999,20(3):163-166.
  • 7[7]G Giaretta,et al.11 Gb/s data transmission through 100 m of perfluorinated graded-index polymer optical fiber[A].Proc.OFC/IOOC99[C].1999.PD14-1/PD14-3.
  • 8[8]G Giaretta,et al.High-speed (11 Gbit/s) data transmission using perfluorinated graded-index polymer optical fibers for short interconnects (<100 m)[J].IEEE Photonics Technology Letters,2000,12(3):347-349.
  • 9[9]W Li,et al.Record 2.5 Gbit/s transmission via polymer optical fiber at 645 nm visible light[A].Proc.POF98[C].1998,Post Deadline Paper.

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2005年 第2期

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