Innovación en el diseño electrónico de sistemas de carga para baterías en vehículos híbridos y eléctricos

Kevin  Columba; Kevin Cholca; Juan Díaz; Brandon  Iza; Boris  Pérez

doi:10.62465/riif.v3n2.2024.81

Authors

Kevin Columba Instituto Superior Tecnológico “De Tecnologías Apropiadas" INSTA
Kevin Cholca Instituto Superior Tecnológico “De Tecnologías Apropiadas" INSTA
Juan Díaz Instituto Superior Tecnológico “De Tecnologías Apropiadas" INSTA
Brandon Iza Instituto Superior Tecnológico “De Tecnologías Apropiadas" INSTA
Boris Pérez Instituto Superior Tecnológico “De Tecnologías Apropiadas" INSTA

DOI:

https://doi.org/10.62465/riif.v3n2.2024.81

Keywords:

energy efficiency, thermal management, electronic innovation,, hybrid vehicles, charging systems

Abstract

This article presents an innovative approach to the design and construction of a charging system for batteries used in hybrid and electric vehicles, a crucial component in the move towards more sustainable transportation. The developed system is primarily aimed at optimizing energy efficiency, improving operational safety and extending battery life through advanced technologies. These technologies include thermal management, which keeps the batteries within a safe temperature range, and real-time monitoring, which provides constant information on the state of charge, allowing precise adjustments and preventing risks of overcharging. The system design is based on the integration of high-quality electronic components, such as transformers, rectifiers and regulators, which ensure efficient and stable energy conversion. In addition, a filtering system has been implemented to reduce current ripple, thus improving the quality of the power supply during charging. The results obtained demonstrate a significant improvement in the efficiency of the charging process, reducing the time required to reach full charge and minimizing energy losses. This work represents an important contribution to the development of safer and more efficient charging systems, with an approach that can be easily adapted to the needs of the automotive industry. The research not only complies with current regulations, but also anticipates future technological and environmental requirements.

Downloads

Download data is not yet available.

References

O. Ortega, Paquete de baterías de vehículos híbridos, 3rd ed., vol. 1. HYbrauto, 2016.

B. Diaz, Probador de baterías de bajo amperaje, 3rd ed., vol. 1. UDDL, 2018.

A. Mendez, Proceso de carga por celdas de baterías híbridas, 1st ed., vol. 1. Automatical, 2020.

A. Ochoa, Fuente con regulación mixta voltaje y amperaje variable, 2nd ed., vol. 1. Multimun, 2021.

C. Bravo, Funcionamiento de voltímetro de tres pines, 1st ed., vol. 1. Alfaomega, 2022.

M. Montoya, Elaboración de un transformador, 1st ed., vol. 1. IUPB, 2019.

S. Soto, Diseño de fuente con amperaje variable, 1st ed., vol. 1. ECPO, 2020.

S. Fajardo, Diseño de fuente regulable con voltaje variable, 1st ed., vol. 2. CUMD, 2017.

R. Arias, Consumidores automotrices, 1st ed., vol. 2. AUTTO, 2019.

F. Rivera, Carga y descarga de baterías, 1st ed., vol. 1. GRSA, 2021.

G. Baccouche, M. H. Chehab, C. Ben Salah, M. Tlija, and A. Rabhi, "Hybrid PVP/Battery/Fuel Cell Wireless Charging Stations Using High-Frequency Optimized Inverter Technology for Electric Vehicles," Energies, vol. 17, 2024, Art no. 3470. [Online]. Available: https://www.preprints.org/manuscript/202406.0195/v1 DOI: https://doi.org/10.3390/en17143470

S. S. Ramesh Gouda, D. CN, P. Y C, and S. Simran, "Intelligent Charging System for Electric Vehicle Batteries," in 2024 International Conference on Electronics, Computing, Communication and Control Technology (ICECCC), Bengaluru, India, 2024, pp. 1-4. [Online]. Available: https://ieeexplore.ieee.org/document/10593895 DOI: https://doi.org/10.1109/ICECCC61767.2024.10593895

Sakthivel and L. J. Varghese, "Design of Grid Connected EV Charging Station Incorporated with Machine Learning Approach," in 2024 International Conference on Electronics, Computing, Communication and Control Technology (ICECCC), Bengaluru, India, 2024, pp. 1-6. [Online]. Available: https://ieeexplore.ieee.org/document/10593924 DOI: https://doi.org/10.1109/ICECCC61767.2024.10593924

N. Jin, J. Wang, Y. Li, L. He, X. Wu, H. Wang, and L. Lu, "A Bidirectional Grid-Friendly Charger Design for Electric Vehicle Operated under Pulse-Current Heating and Variable-Current Charging," Sustainability, vol. 16, no. 1, Art no. 367, 2024. [Online]. Available: https://doi.org/10.3390/su16010367 DOI: https://doi.org/10.3390/su16010367

S. Patil, T. Kindre, M. N. Kakatkar, and G. V. Madhikar, "Design and development of electric vehicle charging station," International Journal of Advanced Research in Science, Communication and Technology, 2024. [Online]. Available: https://ijarsct.co.in/Paper9415.pdf

K. K. K. S. Chitra, S. Prakash, R. N. V. Pradeep, and M. Safal, "Innocuous Design of Battery Management Systems For Electric Vehicles," in 2023 Second International Conference on Augmented Intelligence and Sustainable Systems (ICAISS), Trichy, India, 2023, pp. 1770-1775. [Online]. Available: https://ieeexplore.ieee.org/document/10250714 DOI: https://doi.org/10.1109/ICAISS58487.2023.10250714

Innovación en el diseño electrónico de sistemas de carga para baterías en vehículos híbridos y eléctricos

Authors

DOI:

Keywords:

Abstract

Downloads

References

Downloads

Published

How to Cite

Issue

Section

License

Language

Information

Current Issue

Keywords

Plantilla

Editorial