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All issues Volume 391 (2023) E3S Web Conf., 391 (2023) 01062 References
Open Access
Issue
E3S Web Conf.
Volume 391, 2023
4th International Conference on Design and Manufacturing Aspects for Sustainable Energy (ICMED-ICMPC 2023)
Article Number 01062
Number of page(s) 14
DOI https://doi.org/10.1051/e3sconf/202339101062
Published online 05 June 2023
  1. Zhang, Y., & Ma, L. (2017). A new BL-based PFC converter for electric vehicle charging station applications. IEEE Transactions on Power Electronics, 32(10), 7821–7833. [Google Scholar]
  2. Singh, A.K., & Singh, B. (2020). Improved power quality and efficiency of an EV battery charger using a BL converter. Electrical Engineering, 102(3), 1165–1182. [Google Scholar]
  3. Chen, Z., Lu, Z., & Xu, D. (2017). A new three-phase high-power factor BL Luo converter for electric vehicle chargers. IEEE Transactions on Power Electronics, 32(11), 8321–8330. [Google Scholar]
  4. Choi, J., & Lee, H.J. (2019). Design and analysis of a BL-Luo converter for EV charging applications. Energies, 12(4), 773. [CrossRef] [Google Scholar]
  5. Sun, Y., Li, J., Li, X., & Li, C. (2021). A novel integrated converter for electric vehicle charging station with improved power quality. International Journal of Power Electronics and Drive Systems, 12(1), 305–312. [Google Scholar]
  6. Zhu, S., Wang, X., Yan, S., & Jiang, H. (2018). An interleaved BL-PFC converter for EV charging station with low input current ripple. IEEE Transactions on Industrial Electronics, 66(8), 6095–6104. [Google Scholar]
  7. Liu, X., & Li, J. (2018). Research on a bidirectional BL converter for electric vehicle charging station. IOP Conference Series: Materials Science and Engineering, 410(1), 012067. [Google Scholar]
  8. Song, J., Yang, H., & Wu, C. (2020). A new soft-switching interleaved BL Luo converter for EV charging applications. Journal of Power Electronics, 20(6), 1602–1612. [Google Scholar]
  9. Liu, Y., Li, X., & Zhao, Y. (2019). A high-frequency-link-based EV charger with high power density and high efficiency. IEEE Transactions on Power Electronics, 34(5), 4955–4967. [Google Scholar]
  10. Cai, Y., & Cao, L. (2019). A novel single-stage converter with an integrated bidirectional charger for electric vehicles. Energies, 12(7), 1244. [CrossRef] [Google Scholar]
  11. Gao, F., He, Y., & Sun, X. (2019). Design and analysis of a novel hybrid active power filter for EV charging station. IEEE Transactions on Transportation Electrification, 6(1), 133–145. [Google Scholar]
  12. Zeng, M., & Zhang, L. (2019). A high step-up BL-ZVT interleaved converter for EV charging. Journal of Power Electronics, 19(6), 1546–1557. [Google Scholar]
  13. Ruan, X., Wang, Y., Zhang, X., & Chen, H. (2020). A high step-up BL-ZVT converter for EV charger. IEEE Transactions on Industrial Electronics, 67(7), 5614–5624. [Google Scholar]
  14. Zhang, Y., Ma, L., & Dong, L. (2018). A new high-power-factor bidirectional BL converter for electric vehicle charging station applications. IEEE Transactions on Power Electronics, 33(3), 2185–2198. [Google Scholar]
  15. Shen, Y., Li, X., & Li, Q. (2019). A bidirectional dual-active-bridge converter with an integrated EV charger. IEEE Transactions on Power Electronics, 34(8), 8001–8011. [Google Scholar]
  16. Zhang, Y., & Ma, L. (2017). A new BL-based PFC converter for electric vehicle charging station applications. IEEE Transactions on Power Electronics, 32(10), 7821–7833. [Google Scholar]
  17. Singh, A.K., & Singh, B. (2020). Improved power quality and efficiency of an EV battery charger using a BL converter. Electrical Engineering, 102(3), 1165–1182. [Google Scholar]
  18. Chen, Z., Lu, Z., & Xu, D. (2017). A new three-phase high-power factor BL Luo converter for electric vehicle chargers. IEEE Transactions on Power Electronics, 32(11), 8321–8330. [Google Scholar]
  19. Choi, J., & Lee, H.J. (2019). Design and analysis of a BL-Luo converter for EV charging applications. Energies, 12(4), 773. [CrossRef] [Google Scholar]
  20. Sun, Y., Li, J., Li, X., & Li, C. (2021). A novel integrated converter for electric vehicle charging station with improved power quality. International Journal of Power Electronics and Drive Systems, 12(1), 305–312. [Google Scholar]
  21. Zhu, S., Wang, X., Yan, S., & Jiang, H. (2018). An interleaved BL-PFC converter for EV charging station with low input current ripple. IEEE Transactions on Industrial Electronics, 66(8), 6095–6104. [Google Scholar]
  22. Liu, X., & Li, J. (2018). Research on a bidirectional BL converter for electric vehicle charging station. IOP Conference Series: Materials Science and Engineering, 410(1), 012067. [Google Scholar]
  23. Song, J., Yang, H., & Wu, C. (2020). A new soft-switching interleaved BL Luo converter for EV charging applications. Journal of Power Electronics, 20(6), 1602–1612. [Google Scholar]
  24. Liu, Y., Li, X., & Zhao, Y. (2019). A high-frequency-link-based EV charger with high power density and high efficiency. IEEE Transactions on Power Electronics, 34(5), 4955–4967. [Google Scholar]
  25. Cai, Y., & Cao, L. (2019). A novel single-stage converter with an integrated bidirectional charger for electric vehicles. Energies, 12(7), 1244. [CrossRef] [Google Scholar]
  26. Gao, F., He, Y., & Sun, X. (2019). Design and analysis of a novel hybrid active power filter for EV charging station. IEEE Transactions on Transportation Electrification, 6(1), 133–145. [Google Scholar]
  27. Zeng, M., & Zhang, L. (2019). A high step-up BL-ZVT interleaved converter for EV charging. Journal of Power Electronics, 19(6), 1546–1557. [Google Scholar]
  28. Ruan, X., Wang, Y., Zhang, X., & Chen, H. (2020). A high step-up BL-ZVT converter for EV charger. IEEE Transactions on Industrial Electronics, 67(7), 5614–5624. [Google Scholar]
  29. Zhang, Y., Ma, L., & Dong, L. (2018). A new high-power-factor bidirectional BL converter for electric vehicle charging station applications. IEEE Transactions on Power Electronics, 33(3), 2185–2198. [Google Scholar]
  30. Shen, Y., Li, X., & Li, Q. (2019). A bidirectional dual-active-bridge converter with an integrated EV charger. IEEE Transactions on Power Electronics, 34(8), 8001–8011. [Google Scholar]

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