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    Journals >Laser & Optoelectronics Progress >Volume 58 >Issue 21 >Page 2125001 > Article
    • Laser & Optoelectronics Progress
    • Vol. 58, Issue 21, 2125001 (2021)
    Research on Improved Synchronous Communication Method of Photon Counting Based on MPPC
    Fengtao He1、*, Yu Du1, Jianlei Zhang1, Yi Yang1, and Bili Li2
    Author Affiliations
  • 1College of Electronic Engineering, Xi'an University of Posts and Telecommunications, Xi'an , Shaanxi 710121, China
  • 2Key Laboratory of Underwater Information and Control, China Shipbuilding Industry Corporation 705 Research Institute, Xi'an , Shaanxi 710000, China
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    DOI: 10.3788/LOP202158.2125001 Cite this Article Set citation alerts
    Fengtao He, Yu Du, Jianlei Zhang, Yi Yang, Bili Li. Research on Improved Synchronous Communication Method of Photon Counting Based on MPPC[J]. Laser & Optoelectronics Progress, 2021, 58(21): 2125001 Copy Citation Text show less
    Wireless optical communication system based on MPPC. (a) Theoretical model; (b) experimental verification system
    Fig. 1. Wireless optical communication system based on MPPC. (a) Theoretical model; (b) experimental verification system
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    C13366-3050GA MPPC module. (a) Circuit structure; (b) material object
    Fig. 2. C13366-3050GA MPPC module. (a) Circuit structure; (b) material object
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    Schematic of working principle of MPPC
    Fig. 3. Schematic of working principle of MPPC
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    Single photon impulse response curve of C13366-3050GA MPPC
    Fig. 4. Single photon impulse response curve of C13366-3050GA MPPC
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    Statistical histogram of output pulse height of MPPC at different optical radiation powers. (a) Por=-70 dBm,λ1=0.4904; (b) Por=-77 dBm,λ2=0.0681
    Fig. 5. Statistical histogram of output pulse height of MPPC at different optical radiation powers. (a) Por=-70 dBm,λ1=0.4904; (b) Por=-77 dBm,λ2=0.0681
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    Principle of improved photon counting synchronous communication based on MPPC
    Fig. 6. Principle of improved photon counting synchronous communication based on MPPC
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    Partial pulse output by MPPC and processing results of each algorithm. (a) MPPC output pulse; (b) MV algorithm; (c) AR algorithm; (d) ML algorithm; (e) OTSRSC signal; (f) PCPB-MV algorithm; (g) PCPB-AR algorithm; (h) PCPB-ML algorithm
    Fig. 7. Partial pulse output by MPPC and processing results of each algorithm. (a) MPPC output pulse; (b) MV algorithm; (c) AR algorithm; (d) ML algorithm; (e) OTSRSC signal; (f) PCPB-MV algorithm; (g) PCPB-AR algorithm; (h) PCPB-ML algorithm
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    Relationship between optical radiation power and BER
    Fig. 8. Relationship between optical radiation power and BER
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    DetectorExperimental
    ParameterValueParameterValue
    Number of pixels3600Ambient temperature /℃25
    Pixel size /μm50LD wavelength /nm520
    Photoelectric conversion efficiency at wavelength 520 nm /%~40Sampling frequency /MHz200
    Photoelectric conversion sensitivity /(V·W-11.0×109Square wave frequency /MHz1
    Effective photosensitive area /(mm×mm)3.0×3.0Communication rate /(Mbit·s-12
    Size /(mm×mm×mm)98×60×35
    Table 1. Detailed parameters of detector and experiment
    Abstract
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    References (29)
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    Fengtao He, Yu Du, Jianlei Zhang, Yi Yang, Bili Li. Research on Improved Synchronous Communication Method of Photon Counting Based on MPPC[J]. Laser & Optoelectronics Progress, 2021, 58(21): 2125001
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    Paper Information
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