Analysis and Design of a Wide Output Voltage Range Battery Charger for e-Mobility Applications

This paper presents and the increasing adoption of electric mobility demands efficient and flexible battery charging systems capable of operating over a wide voltage range. This work presents the analysis and design of a wide output voltage range battery charger for e-mobility applications. The proposed system integrates an AC–DC converter with a high-gain DC–DC converter to achieve adaptable voltage levels suitable for different battery configurations. Advanced control strategies are employed to ensure accurate voltage and current regulation, along with smooth transition between constant current (CC) and constant voltage (CV) charging modes for improved battery safety and lifespan. The system is modelled and simulated using MATLAB/Simulink to evaluate its performance under varying input and load conditions. Key parameters such as efficiency, voltage stability, and dynamic response are analysed. The results demonstrate that the proposed charger offers reliable, efficient, and flexible operation, making it suitable for modern electric vehicle charging applications.