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    Journals >Optical Instruments >Volume 45 >Issue 3 >Page 58 > Article
    • Optical Instruments
    • Vol. 45, Issue 3, 58 (2023)
    Design of a new uniform light squamous reflective cup system based on Zemax
    Peng MA, Qimeng LI, Yanqiu HU, Yunshi ZHOU..., Rui SUN, Furi LING, Shuangbao WANG, Zhimou XU and Xueming ZHANG*|Show fewer author(s)
    Author Affiliations
  • School of Optical and Electronic Information, Huazhong University of Science and Technology, Wuhan 430074, China
    • show less
    DOI: 10.3969/j.issn.1005-5630.2023.003.008 Cite this Article
    Peng MA, Qimeng LI, Yanqiu HU, Yunshi ZHOU, Rui SUN, Furi LING, Shuangbao WANG, Zhimou XU, Xueming ZHANG. Design of a new uniform light squamous reflective cup system based on Zemax[J]. Optical Instruments, 2023, 45(3): 58 Copy Citation Text show less
    Schematic diagram of light squamous reflector
    Fig. 1. Schematic diagram of light squamous reflector
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    Schematic diagram of axial for the light squamous reflector
    Fig. 2. Schematic diagram of axial for the light squamous reflector
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    Light distribution screen
    Fig. 3. Light distribution screen
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    3D model of LED
    Fig. 4. 3D model of LED
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    3D model of common reflector
    Fig. 5. 3D model of common reflector
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    Pseudo-color incoherent illuminance of rectangular detector of common reflector at 25 m
    Fig. 6. Pseudo-color incoherent illuminance of rectangular detector of common reflector at 25 m
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    3D model of squamous reflector
    Fig. 7. 3D model of squamous reflector
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    Pseudo-color incoherent illuminance of rectangular detector of squamous reflector at 25 m
    Fig. 8. Pseudo-color incoherent illuminance of rectangular detector of squamous reflector at 25 m
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    Optical characteristics of parallel rays passing through a microlens array
    Fig. 9. Optical characteristics of parallel rays passing through a microlens array
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    3D layout of the squamous reflector and micro-lens array
    Fig. 10. 3D layout of the squamous reflector and micro-lens array
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    Pseudo-color incoherent illumination map of a rectangular detector at 25 m in a squamous reflector with a micro-lens array
    Fig. 11. Pseudo-color incoherent illumination map of a rectangular detector at 25 m in a squamous reflector with a micro-lens array
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    Pseudo-color incoherent illumination map of the rectangular detector at 25 m after the microlens radius was changed to 10 mm
    Fig. 12. Pseudo-color incoherent illumination map of the rectangular detector at 25 m after the microlens radius was changed to 10 mm
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    Pseudo-color incoherent illumination map of the rectangular detector at 25 m after the number of micro-lens arrays was changed to 13 multiplied by 11
    Fig. 13. Pseudo-color incoherent illumination map of the rectangular detector at 25 m after the number of micro-lens arrays was changed to 13 multiplied by 11
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    Sketch map of size calculation
    Fig. 14. Sketch map of size calculation
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    测试点或区域照度/lx
    Emax≥48且≤240
    HV点≥0.80 Emax
    HV点至 1 125 L和R≥24
    HV点至 2 250 L和R≥6
    Table 1. Illumination limitation
    变量数值
    深度≤80 mm
    杯口直径100 mm
    Table 2. Design requirements of automobile reflective cup
    测试点或区域照度/lx
    Emax2 643
    HV点2 558≥0.80 Emax
    HV点至1 125 L和R0
    HV点至2 250 L和R0
    Table 3. Illumination value of each test point of reflector
    测试点或区域照度/lx
    Emax234.000
    HV点201.765≥0.80 Emax
    HV点至1 125 L和R24.963
    HV点至2 250 L和R6.057
    Table 4. Illumination value of each test point of the scale armor reflector
    测试点或区域照度/lx
    Emax59.510
    HV点53.096≥0.80 Emax
    HV点至1 125 L和R24.479
    HV点至2 250 L和R13.801
    Table 5. Illumination value of each point of the scale armor reflector cup with micro-lens array
    Abstract
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    Peng MA, Qimeng LI, Yanqiu HU, Yunshi ZHOU, Rui SUN, Furi LING, Shuangbao WANG, Zhimou XU, Xueming ZHANG. Design of a new uniform light squamous reflective cup system based on Zemax[J]. Optical Instruments, 2023, 45(3): 58
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