Designing a portable charger for electric vehicles (EVs) using MATLAB SIMULINK involves a comprehensive integration of cutting-edge technology and simulation tools. This abstract encapsulates the essence of developing an efficient and robust portable charging system for EVs. The design encompasses the utilization of MATLAB SIMULINK to model and simulate various components, ensuring optimal performance and compatibility. The abstract explores the incorporation of advanced power electronics, control algorithms, and charging protocols within the simulation environment. By leveraging the capabilities of MATLAB SIMULINK, the portable charger's design aims to achieve precise control, efficient power conversion, and seamless integration with different EV models. This abstract serves as a prelude to a detailed exploration of the simulation-based design process, emphasizing the role of MATLAB SIMULINK in creating a portable charger that meets the evolving needs of the electric vehicle ecosystem.