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International Journal of Science, Strategic Management and Technology

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SMART WIRELESS SOLAR CHARGING STATION WITH SMART SWITCHING BETWEEN GRID, BATTERY AND SOLAR POWER

AUTHORS:
Priyanka Ramesh Patil
Vighnesh Anandrao Chavan
Prithviraj Prakash Patil
Gaurav Nilkanth Sawant
Mentor
Affiliation
Department of Electrical Engineering, jaywant college of engineering and polytechnic , Killemachindragad, Maharashra, India
DOI: 10.55041/ijsmt.v2i3.401
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

Electric vehicles (EVs) are gaining widespread acceptance as a reliable and cleaner alternative to conventional fuel-powered transportation. Since EVs operate using battery systems, their effectiveness depends greatly on efficient and sustainable charging solutions. While grid-based charging has traditionally been the standard approach, solar-powered charging stations are emerging as a promising and eco-friendly option. These systems utilize renewable solar energy to supply electricity, thereby enhancing the environmental benefits of EVs, which already produce zero direct emissions

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PUBLICATION DETAILS
Review Type:
Double-Blind Peer Review
License:
CC BY-NC 4.0
Volume/Issue:
Volume 02, Issue 03
Review Rounds:
2
Article Type:
Research Article
Publication Date:
Mar 30 2026
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Patil, P. R., Chavan, V. A., Patil, P. P. & Sawant, G. N. (2026). Smart Wireless Solar Charging Station with Smart Switching Between Grid, Battery and Solar Power. International Journal of Science, Strategic Management and Technology, 02(03). https://doi.org/10.55041/ijsmt.v2i3.401

Patil, Priyanka, et al.. "Smart Wireless Solar Charging Station with Smart Switching Between Grid, Battery and Solar Power." International Journal of Science, Strategic Management and Technology, vol. 02, no. 03, 2026, pp. . doi:https://doi.org/10.55041/ijsmt.v2i3.401.

Patil, Priyanka,Vighnesh Chavan,Prithviraj Patil, and Gaurav Sawant. "Smart Wireless Solar Charging Station with Smart Switching Between Grid, Battery and Solar Power." International Journal of Science, Strategic Management and Technology 02, no. 03 (2026). https://doi.org/https://doi.org/10.55041/ijsmt.v2i3.401.

References
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[2] Kumar, sujit & paliwal, himani & vyas, shripati & sekhor, sasanka & dave, vikramaditya & rao, srawan. (2021). Dynamic wireless power transfer in electric vehicles. Journal of physics: conference series. 1854. 012014. 10.1088/1742-6596/1854/1/012014.

[3] Bareli, sahar & geri, lidor & nikulshin, yasha & nahum, oren & hadas, yuval & yeshurun, yosef & yaniv, eyal & wolfus, shuki. (2021). Effect of coil dimensions on dynamic wireless power transfer for electric vehicles. 10.36227/techrxiv.14852559.v1.

[4] Patil, devendra. (2019). Dynamic wireless power transfer for electric vehicle. [14] Ahn w, jung s, lee w, kim s, park j, shin j, kim h, koo k (2012) design of coupled resonators for wireless power transfer to mobile devices using magnetic field shaping. In: 2012 ieee international symposium on electromagnetic compatibility (emc)

[5] Sauras, pablo & gil, andrea & taiber, joachim. (2014). Communication requirements for dynamic wireless power transfer for battery electric vehicles. 10.1109/ievc.2014.7056176.

[6] C. Qiu, k. T. Chau, c. Liu and c. C. Chan, "overview of wireless power transfer for electric vehicle charging," 2013 world electric vehicle symposium and exhibition (evs27), 2013, pp. 1-9, doi:10.1109/evs.2013.6914731.

[7] Bertoluzzo, manuele & di monaco, mauro & buja, giuseppe & tomasso, giuseppe & genovese, antonino. (2020). Comprehensive development of dynamic wireless power transfer system for electric vehicle. Electronics. 9. 1045. 10.3390/electronics9061045.

[8] Kale, Dattatray Raghunath, and Juber Mohamad Shaphi Mulla. "AI in healthcare: Enhancing patient outcomes through predictive analytics." Industrial Engineering Journal 53.5 (2024): 73-79.

[9] Katkar, V., Kadam, S., Mulla, J., Nadaf, N. (2024). “Harnessing Ridge Regression and SHAP for Predicting Student Grades: An Approach Towards Explainable AI in Education.” In: Jain, S., Mihindukulasooriya, N., Janev, V., Shimizu, C.M. (eds) Semantic Intelligence. ISIC 2023. Lecture Notes in Electrical Engineering, vol 1258. Springer, Singapore. https://doi.org/10.1007/978-981-97-7356-5_28

[10] Dr. Shailaja Sanjay Mohite, Dr. Uttam D Kolekar, Mr. Juber Shaphi Mulla, Ms. Santoshi Bhakte, Prof. Priya Shinde, Patil Jaydip, Interference management and power scheduling in femtocell networks with the optimized power scheduling BiLSTM, Computers and Electrical Engineering, Volume 119, Part A, 2024, 109487, ISSN 0045-7906, https://doi.org/10.1016/j.compeleceng.2024.109487.
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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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