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  1. Article: An explicit method to extract fitting parameters in lumped-parameter equivalent circuit model of industrial solar cells

    Yu, Fei / Huang, Gongyi / Xu, Chuanzhong

    Renewable energy. 2020 Feb., v. 146

    2020  

    Abstract: An explicit parameter-extraction method is proposed to estimate the values of fitting parameters in lumped-parameter equivalent circuit model of industrial solar cells. The explicit method is based on polynomial fitting curves on Matlab platform, TCAD ... ...

    Abstract An explicit parameter-extraction method is proposed to estimate the values of fitting parameters in lumped-parameter equivalent circuit model of industrial solar cells. The explicit method is based on polynomial fitting curves on Matlab platform, TCAD device simulation results of Silvaco Atlas, and experimental data of silicon-based solar cells’ current-voltage characteristics. Such an explicit parameter-extraction method can be directly applied into the analytical solutions to one-diode lumped-parameter equivalent circuit model to complete the simulations for electrostatic properties of solar cells. First, the current-voltage characteristics of industrial silicon-based solar cells are also derived analytically as the previous works completed by other researchers and the four key factors especially for the maximum power formula are solved through the effective diode approach. Second, polynomial curve is used to fit current-voltage characteristics from simulation and experiment results of solar cells under illumination. Third, the polynomial fitting result, the short circuit current, and the open circuit voltage are used to extract explicitly all of five parameters included in the one-diode lumped-parameter equivalent circuit model for industrial solar cells. Finally, the extracted fitting parameters are substituted into the analytical solution to current-voltage characteristics and the obtained current-voltage characteristics are compared with device simulation results from Silvaco Atlas and experimental data from silicon-based solar cells. As a result, such an explicit extraction procedure could be regarded as a fast and accurate method to estimate model parameters in industrial solar cells, which is important for not only photoelectric device simulations but also process analysis.
    Keywords computer software ; diodes ; electric potential difference ; lighting ; models ; solar cells ; solar energy
    Language English
    Dates of publication 2020-02
    Size p. 2188-2198.
    Publishing place Elsevier Ltd
    Document type Article
    ZDB-ID 2001449-1
    ISSN 0960-1481
    ISSN 0960-1481
    DOI 10.1016/j.renene.2019.08.070
    Database NAL-Catalogue (AGRICOLA)

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  2. Article: Analyzing S-Shaped I–V characteristics of solar cells by solving three-diode lumped-parameter equivalent circuit model explicitly

    Huang, Gongyi / Liang, Ying / Sun, Xiaofang / Xu, Chuanzhong / Yu, Fei

    Energy. 2020 Dec. 01, v. 212

    2020  

    Abstract: In order to analyze and optimize new generation solar cells’ electrostatic performances, lumped-parameter equivalent circuit model is a common method to simulate S-shaped I–V characteristics including linear, exponential, or exponential-like current ... ...

    Abstract In order to analyze and optimize new generation solar cells’ electrostatic performances, lumped-parameter equivalent circuit model is a common method to simulate S-shaped I–V characteristics including linear, exponential, or exponential-like current kinks. Unfortunately, three-diode lumped-parameter model is still inevitable to be solved generally in numerical iteration method. The absence of explicit solution to three-diode lumped-parameter model is actually the main bottleneck of implementing the model into photovoltaic device and circuit simulators in compact. In this paper, to overcome the problem of three-diode model’s implementation into simulators, we proposed an explicit solution to the model based on the regional approach, where high accuracy and low computation time cost are the main features of such a solution. Analytical derivation and correction for the solution to transcendent I–V equation in three-diode model leads to high computation accuracy, and avoidance of numerical iteration methods introduces low computation time cost. Finally, numerical iteration results and reconstructed experimental data of solar cells are used to validate the accuracy and applicability of our proposed explicit solution. As a result, high accuracy and efficiency of the explicit solution make it possible to implement three-diode lumped-parameter equivalent circuit model into photovoltaic device and circuit simulators and explain I–V characteristics of new generation solar cells.
    Keywords energy ; equations ; models
    Language English
    Dates of publication 2020-1201
    Publishing place Elsevier Ltd
    Document type Article
    Note NAL-AP-2-clean
    ZDB-ID 2019804-8
    ISSN 0360-5442 ; 0360-5442
    ISSN (online) 0360-5442
    ISSN 0360-5442
    DOI 10.1016/j.energy.2020.118702
    Database NAL-Catalogue (AGRICOLA)

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  3. Article: An Effective Method to Accurately Extract the Parameters of Single Diode Model of Solar Cells.

    Song, Zhaoxu / Fang, Kun / Sun, Xiaofang / Liang, Ying / Lin, Wei / Xu, Chuanzhong / Huang, Gongyi / Yu, Fei

    Nanomaterials (Basel, Switzerland)

    2021  Volume 11, Issue 10

    Abstract: A non-iterative method is presented to accurately extract the five parameters of single diode model of solar cells in this paper. This method overcomes the problems of complexity and accuracy by simplifying the calculation process. Key parts of the ... ...

    Abstract A non-iterative method is presented to accurately extract the five parameters of single diode model of solar cells in this paper. This method overcomes the problems of complexity and accuracy by simplifying the calculation process. Key parts of the equation are to be adjusted dynamically so that the desired five parameters can be obtained from the
    Language English
    Publishing date 2021-10-04
    Publishing country Switzerland
    Document type Journal Article
    ZDB-ID 2662255-5
    ISSN 2079-4991
    ISSN 2079-4991
    DOI 10.3390/nano11102615
    Database MEDical Literature Analysis and Retrieval System OnLINE

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