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International Journal of Science, Strategic Management and Technology

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MODELLING, CONTROL AND BATTERY STATE EVALUATION OF A GRID-INTERACTIVE BIDIRECTIONAL FAST DC CHARGER FOR ELECTRIC VEHICLES

AUTHORS:
Manisha Bothe
Anil E.Jagtap
Somnath S. Hadpe
Mentor
Dr. Shridhar S. Khule
Affiliation
Electrical Engineering, Matoshri College of Engineering and Research Centre Nashik, India
DOI: 10.55041/ijsmt.v2i6.015
CC BY 4.0 License:
This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
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Abstract
This paper presents a comprehensive study on electric vehicle (EV) battery modelling, state estimation, and bidirectional charging infrastructure through the development of an integrated MATLAB Simscape framework. With the rapid adoption of EVs, challenges surrounding accurate battery management, reliable charging strategies, and grid stability have become increasingly critical. The research addresses these challenges by combining advanced battery modelling, Extended Kalman Filter (EKF)-based estimation, fast DC charging design, and vehicle-to-grid (V2G) interaction into a unified system. A detailed battery pack is modelled to capture electro-thermal dynamics, resistance behaviour, and degradation trends. EKF algorithms were implemented to estimate both State of Charge (SOC) and State of Health (SOH), demonstrating high accuracy and robustness against nonlinearities. At the charging system level, a fast DC charging station was designed with bidirectional power capability, enabling both grid-to-vehicle (G2V) and V2G operations. Converter design, LCL filtering, and harmonic analysis were incorporated to ensure grid compliance and efficient energy transfer. Beyond individual components, the framework was extended to evaluate grid-level implications of large-scale EV integration. Optimized charging and discharging schedules were proposed to mitigate peak demand, support renewable balancing, and minimize transformer loading, while simultaneously preserving battery longevity. Simulation results confirmed stable operation across diverse scenarios, validating the feasibility of the proposed strategies.
Keywords
Constant Current (CC) Constant Voltage (CV) Electric Vehicle (EV) Grid to Vehicle (G2V) and Vehicle to Grid (V2G)
Article Information
PUBLICATION DETAILS
Review Type:
Double-Blind Peer Review
License:
CC BY-NC 4.0
Volume/Issue:
Volume 02, Issue 6
Review Rounds:
2
Article Type:
Research Article
Publication Date:
Jun 15 2026
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Bothe, M., E.Jagtap, A. & Hadpe, S. S. (2026). Modelling, Control and Battery State Evaluation of A Grid-Interactive Bidirectional Fast DC Charger for Electric Vehicles. International Journal of Science, Strategic Management and Technology, 02(6). https://doi.org/10.55041/ijsmt.v2i6.015

Bothe, Manisha, et al.. "Modelling, Control and Battery State Evaluation of A Grid-Interactive Bidirectional Fast DC Charger for Electric Vehicles." International Journal of Science, Strategic Management and Technology, vol. 02, no. 6, 2026, pp. . doi:https://doi.org/10.55041/ijsmt.v2i6.015.

Bothe, Manisha,Anil E.Jagtap, and Somnath Hadpe. "Modelling, Control and Battery State Evaluation of A Grid-Interactive Bidirectional Fast DC Charger for Electric Vehicles." International Journal of Science, Strategic Management and Technology 02, no. 6 (2026). https://doi.org/https://doi.org/10.55041/ijsmt.v2i6.015.

References

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  • Souaihia, B. Belmadani, R. Taleb, and K. Tounsi, "State of charge estimation by using extended Kalman filter based on improved open circuit voltage model," International Journal of Applied Power Engineering (IJAPE), vol. 10, no. 1, pp. 1–10, Mar. 2021, doi: 10.11591/ijape.v10.i1.pp1-10.

  • Castiglia, P. Livreri, R. Miceli, F. Ricco Galluzzo, G. Santelia, and G. Schettino, "Design and simulation of a fast DC recharging station for EV," in Proc. International Conference on Renewable Energy Research and Applications (ICRERA), San Diego, CA, USA, Nov. 2017, pp. 1198–1203, doi: 10.1109/ICRERA.2017.8191243.

  • Du, X. Zhou, S. Bai, S. Lukic, and A. Huang, "Review of Non-isolated Bi-directional DC-DC Converters for Plug-in Hybrid Electric Vehicle Charge Station Application at Municipal Parking Decks," in Proc. Twenty-Fifth Annual IEEE Applied Power Electronics Conference and Exposition (APEC), 2010, pp. 1145–1151.

  • Arancibia and K. Strunz, "Modeling of an Electric Vehicle Charging Station for Fast DC Charging," in Proc. IEEE International Electric Vehicle Conference, 2012, pp. 1–6.

  • Monteiro, J. C. Ferreira, A. A. N. Melendez, C. Couto, and J.Afonso, "Experimental Validation of a Novel Architecture Based on a Dual-Stage Converter for Off-Board Fast Battery Chargers of Electric Vehicles," IEEE Transactions on Vehicular Technology, vol. 67, no. 2, pp. 1000–1011, 2018, doi: 10.1109/TVT.2017.2755545.



  • Monteiro, J. A. Afonso, and J. L. Afonso, "Bidirectional Power Converters for EV Battery Chargers," Energies, vol. 16, no. 4, p. 1694, Feb. 2023, doi: 10.3390/en16041694.

  • M. Yoon, J. H. Kim, and E. H. Song, "Design of a novel 50 kW fast charger for electric vehicles," Journal of Central South University, vol. 20, pp. 372–377, 2013, doi: 10.1007/s11771-013-1497-8.



  • Gjelaj, C. Træholt, S. Hashemi, and P. B. Andersen, "DC Fast-Charging Stations for EVs Controlled by a Local Battery Storage in Low Voltage Grids," Technical University of Denmark - Copenhagen, Denmark, 2017.

Ethics and Compliance
✓ All ethical standards met
This article has undergone plagiarism screening and double-blind peer review. Editorial policies have been followed. Authors retain copyright under CC BY-NC 4.0 license. The research complies with ethical standards and institutional guidelines.
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