High-Power-Density On-Board EV Charger Using ANN-Driven Bridgeless Zeta PFC Converter with Low DC-Link Energy Storage

Authors

  • Chagarla Saicharan, Vanam Satyanarayana Author

DOI:

https://doi.org/10.48047/8wh2cg06

Keywords:

Electric Vehicle Charger, Bridgeless Zeta Converter, Power Factor Correction, Artificial Neural Network Controller, Fast Battery Charging, DC-Link Capacitance Reduction.

Abstract

As global electric vehicle (EV) sales exceed 17 million units annually accounting for over 20% of new registrations in key markets, the demand for highly efficient, compact, and intelligent on-board chargers (OBC) has intensified. However, conventional Bridgeless Zeta Power Factor Correction (PFC) OBC architectures

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Published

15.07.2026

How to Cite

High-Power-Density On-Board EV Charger Using ANN-Driven Bridgeless Zeta PFC Converter with Low DC-Link Energy Storage . (2026). International Journal of Information and Electronics Engineering, 16(2), 620-634. https://doi.org/10.48047/8wh2cg06