Volume 43 Issue 10
Nov.  2014
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Article Navigation >  Infrared and Laser Engineering  > 2014  >  43(10): 3352-3355

Liu Jiaguo, Deng Rong, Wei Aman, Yu Zhenhong. Design of portable solar simulator[J]. Infrared and Laser Engineering, 2014, 43(10): 3352-3355.
Citation: Liu Jiaguo, Deng Rong, Wei Aman, Yu Zhenhong. Design of portable solar simulator[J]. Infrared and Laser Engineering, 2014, 43(10): 3352-3355.
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Design of portable solar simulator

  • 1.

    Science and Technology on Optical Radiation Laboratory,Beijing 100854,China;

  • 2.

    Beijing Institute of Environmental Characteristics,Beijing 100854,China

  • Received Date: 2014-02-25
  • Rev Recd Date: 2014-03-26
  • Publish Date: 2014-10-25
  • For the miniaturization and portability demands of solar simulator, a portable solar simulator was designed. Illumination in 1.2 m1.2 m rectangular irradiated area not less than 0.02 solar constant was required; furthermore, the un-uniformity of irradiated surface less than 5% was also needed. The system mainly consisted of short-arc xenon lamp, ellipsoidal reflector, fiber optic beams, and a group of collimating lens. Through software simulation and experimental verification, the results met all the requirements. Experimental results show that the method that designing a portable solar simulator with short-arc xenon lamp, ellipsoidal reflector, fiber optic beams, integral stick, and projection collimator lens group is effective and feasible.
  • [1] Liu Hongbo. Solar simulation technology[J]. Optics and Precision Engineering, 2001, 9(2): 177-181. (in Chinese)
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    [4] Chen Dahua. The characteristics of xenon lamp and its applications[J]. Lamps and Lighting, 2002(4): 18-20. (in Chinese)
    [5] Pan Yongqiang, Bai Tao, Hang Lingxia. Study on AM1.5 filter in solar simulator for photovoltaic module solar simulator[J]. Infrared and Laser Engineering, 2012, 41(9): 2484-2488. (in Chinese)
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    [7] Jiang Yuan. The characteristics of light guide bundle of polymer optical fiber (POF)[J]. Fiber Glass, 2004(6): 36-43. (in Chinese)
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    [9] Jacobson B A, Gdngelbach R D, Ferri J M. Beamshape transforming devices in high-efficiency projection systems [C]//SPIE, 1997, 3139: 141-150.
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    [11] Jin Xinhua, Zheng Xiaodong, Wang Zheng. Study on illumination uniformity of the end surface's radiation of polygon rod integrating lens[J]. Acta Photonica Sinica, 2006, 35(12): 1964-1968. (in Chinese)
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Design of portable solar simulator

  • 1. Science and Technology on Optical Radiation Laboratory,Beijing 100854,China;
  • 2. Beijing Institute of Environmental Characteristics,Beijing 100854,China
  • Received Date: 2014-02-25
  • Rev Recd Date: 2014-03-26
  • Publish Date: 2014-10-25

Abstract: For the miniaturization and portability demands of solar simulator, a portable solar simulator was designed. Illumination in 1.2 m1.2 m rectangular irradiated area not less than 0.02 solar constant was required; furthermore, the un-uniformity of irradiated surface less than 5% was also needed. The system mainly consisted of short-arc xenon lamp, ellipsoidal reflector, fiber optic beams, and a group of collimating lens. Through software simulation and experimental verification, the results met all the requirements. Experimental results show that the method that designing a portable solar simulator with short-arc xenon lamp, ellipsoidal reflector, fiber optic beams, integral stick, and projection collimator lens group is effective and feasible.

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