Abstract
As the penetration of electric vehicles (EVs) is increasing, their efficient charging becomes very important. This paper presents the simulation of various charging algorithms for the Li-Ion Batteries of EVs and their comparison with each other. Various charging algorithms like Constant Current (CC), Constant Voltage (CV), and Constant Current-Constant Voltage (CC/CV) algorithms have been discussed along with various DC-DC charging topologies like the Buck converters and the LLC Resonant Converter have been discussed. Finally, voltage matching algorithm has been proposed, simulated, and incorporated into the CC/CV algorithm and compared to previous results.
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References
Chakraborty S, Vu H-N, Hasan MM, Tran D-D, Baghdadi ME, Hegazy O (2019) DC-DC converter topologies for electric vehicles, plug-in hybrid electric vehicles and fast charging stations: state of the art and future trends. Energies 12(8):1569
Yunus M, Weber K (2017) A world of three zeros: the new economics of zero poverty zero unemployment and zero net carbon emissions. 1st edn. Public Affairs, New York
Lim KL, Speidel S, Bräunl T (2022) A comparative study of AC and DC public electric vehicle charging station usage in Western Australia. Renew Sustain Energy. Transit 2:100021
Ronanki D, Kelkar A, Williamson SS (2019) Extreme fast charging technology: prospects to enhance sustainable electric transportation. Energies 12(19):3721
Savio DA, Juliet VA, Chokkalingam B, Padmanaban S, Holm-Nielsen JB, Blaabjerg F (2019) Photovoltaic integrated hybrid microgrid structured electric vehicle charging station and its energy management approach. Energies 12(1):168
Collin R, Miao Y, Yokochi A, Enjeti P, Jouanne A (2019) Advanced electric vehicle fast-charging technologies. Energies 12:1839
Choi H (2007) Design consideration of half-bridge LLC resonant converter. Korean Institute of Power Electronics, Korea
Steigerwald RL (1988) A Comparison of Half-bridge resonant converter topologie. IEEE Trans Power Electron 3(2)
Amin A, Ismail K, Hapid A (2018) Implementation of a LiFePO4 battery charger for cell balancing application. J Mechatron, Electr Power, Vehic Technol 81–88
Thomson SJ, Thomas P, R A, Rajan E (2018) Design and prototype modelling of a CC/CV electric vehicle battery charging circuit. In: 2018 international conference on circuits and systems in digital enterprise technology (ICCSDET), pp 1–5
LaGrange Calculator, Function Equation Finder. https://www.dcode.fr/function-equation-finder. Accessed 11 March 2022
Battery Specifications, CarDekho. https://www.cardekho.com. Accessed 1 Oct 2022
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Ranjeeth Sekhar, C.B., Singh, S., Bansal, H.O. (2023). A Study on DC Fast Charging of Electric Vehicles. In: Bansal, H.O., Ajmera, P.K., Joshi, S., Bansal, R.C., Shekhar, C. (eds) Next Generation Systems and Networks. BITS-EEE-CON 2022. Lecture Notes in Networks and Systems, vol 641. Springer, Singapore. https://doi.org/10.1007/978-981-99-0483-9_39
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DOI: https://doi.org/10.1007/978-981-99-0483-9_39
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