Paper
17 May 2022 Improved PNGV equivalent circuit model for battery characteristics
Danfeng Qiu, Xiao Ma, Fen Ge, Jingdong Zhang, Daiyin Zhu
Author Affiliations +
Proceedings Volume 12259, 2nd International Conference on Applied Mathematics, Modelling, and Intelligent Computing (CAMMIC 2022); 122593O (2022) https://doi.org/10.1117/12.2639986
Event: 2nd International Conference on Applied Mathematics, Modelling, and Intelligent Computing (CAMMIC 2022), 2022, Kunming, China
Abstract
The Partnership for a New Generation of Vehicle (PNGV) model adds battery capacitance on the basis of Thevenin model for the purpose of representing the change of open circuit voltage with the accumulation of load current, which makes up for the disadvantage of constant open circuit voltage of Thevenin circuit to a great extent. In this paper, the PNGV circuit is improved, and a parallel RC link is added, which corresponds to the two poles in the impedance spectrum of the lithium iron phosphate battery, thus being able to more accurately describe the polarization phenomenon of the lithium iron phosphate battery. Besides, the PNGV equivalent circuit model and the improved PNGV equivalent circuit model are established in MATLAB/Simulink, and the accuracy of the two models is compared through the pulse current experiment. Then, it is found that the error of the improved PNGV equivalent circuit model is over 50% less than that of the PNGV equivalent circuit model, which proves the dynamic adaptability of the model.
© (2022) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Danfeng Qiu, Xiao Ma, Fen Ge, Jingdong Zhang, and Daiyin Zhu "Improved PNGV equivalent circuit model for battery characteristics", Proc. SPIE 12259, 2nd International Conference on Applied Mathematics, Modelling, and Intelligent Computing (CAMMIC 2022), 122593O (17 May 2022); https://doi.org/10.1117/12.2639986
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KEYWORDS
Circuit switching

System on a chip

Polarization

Mathematical modeling

Lithium

Capacitance

Resistance

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