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A Novel Bidirectional Electric-Drive-Reconstructed Onboard ANN Controlled Converter for Electric Vehicles

International Journal of Electrical and Electronics Engineering
© 2021 by SSRG - IJEEE Journal
Volume 8 Issue 7
Year of Publication : 2021
Authors : C. Krithika Kamalam, J. Rahila, G. Soundradevi
10.14445/23488379/IJEEE-V8I7P101
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How to Cite?

C. Krithika Kamalam, J. Rahila, G. Soundradevi, "A Novel Bidirectional Electric-Drive-Reconstructed Onboard ANN Controlled Converter for Electric Vehicles," SSRG International Journal of Electrical and Electronics Engineering, vol. 8,  no. 7, pp. 1-4, 2021. Crossref, https://doi.org/10.14445/23488379/IJEEE-V8I7P101

Abstract:

In this work, an Electric-drive-reconstructed onboard converter (EDROC) is presented. This vehicle is implemented with the highly advanced machine learning technique, namely Artificial Neural Network (ANN) and PI controller network. This system is used the previous components presented in electric vehicles (EV), and it would not require any additional hardware. This system can be easily implemented in all office, home, and restaurant environments. This EDROC has two modes, namely charging and driving mode. The charging is set the power factor unit, and the driving mode is used to drive the motor. Even though it is highly flexible for the implementation, it is less in cost and volume than the previous EV.

Keywords:

EDROC, EV, Charging and Driving mode, ANN.

References:

[1] A Radhika, G Soundradevi, R Mohan Kumar., An effective compensation of power quality issues using MPPT-based cuckoo search optimization approach, Soft Computing 24 16719-16725
[2] Adam, K. B., &Ashari, M., Design of bidirectional converter using the fuzzy logic controller to optimize battery performance in Electric vehicles. In International Seminar on Intelligent Technology and Its Applications (ISITIA), IEEE., (2015) 201-206.
[3] Akar, F., Tavlasoglu, Y., Ugur, E., Vural, B., &Aksoy, I., A bidirectional nonisolated multi-input DC-DC converter for hybrid energy storage systems in electric vehicles. IEEE Transactions on Vehicular Technology, 65(10) (2015) 7944-7955.
[4] Lin, Y. S., Hu, K. W., Yeh, T. H., &Liaw, C. M., An electric-vehicle IPMSM drive with interleaved front-end DC/DC converter. IEEE Transactions on Vehicular Technology, 65(6) (2015) 4493-4504.
[5] Liu, S., Xin, D., & Yang, L., A novel single-phase bidirectional electric-drive-reconstructed onboard converter for electric vehicles. IEEE Access, 8 (2020) 44739-44747.
[6] Monteiro, V., Pinto, J. G., &Afonso, J. L., Operation modes for the electric vehicle in smart grids and smart homes: Present and proposed modes. IEEE Transactions on Vehicular Technology, 65(3) (2015) 1007-1020.
[7] Morsalin, S., Mahmud, K., & Town, G., November). Electric vehicle charge scheduling using an artificial neural network. In 2016 IEEE Innovative Smart Grid Technologies-Asia (ISGT-Asia) ,IEEE, (2016) 276-280.
[8] Oh, C. Y., Kim, D. H., Woo, D. G., Sung, W. Y., Kim, Y. S., & Lee, B. K., A high-efficient nonisolated single-stage on-board battery charger for electric vehicles. IEEE transactions on Power Electronics, 28(12) (2013) 5746-5757.
[9] Rahila J, M Santhi., Integrated fuzzy and phase shift controller for output step voltage control in multilevel inverter with reduced switch count, Automatika, 61(2) 238-249.
[10] Sam, C. A., &Jegathesan, V., Bidirectional integrated on-board chargers for electric vehicles—a review. Sādhanā, 46(1) (2021) 1-14.
[11] Tang, Y., Ding, W., &Khaligh, A., A bridgeless totem-pole interleaved PFC converter for plug-in electric vehicles. In IEEE Applied Power Electronics Conference and Exposition (APEC) (2016) 440-445. IEEE.
[12] Tashakor, N., Farjah, E., &Ghanbari, T., A bidirectional battery charger with a modular integrated charge equalization circuit, IEEE Transactions on Power Electronics, 32(3) (2016) 2133-2145.
[13] Tousi, S. R., &Sharifian, E., A bidirectional 3-input DC-DC converter for electric vehicle applications, In 23rd Iranian Conference on Electrical Engineering, (2015) 1700-1704. IEEE.
[14] Trigg, T., Telleen, P., Boyd, R., Cuenot, F., D’Ambrosio, D., Gaghen, R., ... & Jones, A. R. Global EV Outlook: Understanding the electric vehicle landscape to 2020. Int. Energy Agency, 1 (2013) 1-40.