This paper presents a The swift expansion of electric vehicles (EVs) has generated an urgent demand for environmentally sustainable charging solutions. This summary examines a hybrid strategy for powering electric vehicle charging stations, incorporating various renewable energy sources to reduce ecological footprint. Solar panels capture energy from the sun, and wind turbines harness wind energy, collectively contributing to a clean and eco-friendly power source. Grid power acts as a backup, supplementing renewable sources during periods of low generation or high demand. The proposed methodology involves Smart energy management algorithms play a pivotal role in dynamically optimizing the energy mix based on real-time data, such as weather conditions, energy demand, and grid availability. These algorithms prioritize renewable sources in favorable conditions and seamlessly transition to grid power when necessary, ensuring a continuous and stable charging infrastructure. The integration of energy storage systems, such as advanced batteries, further enhances the reliability of the hybrid system. Excess energy generated during optimal conditions can be stored for later use, addressing the intermittency of renewable sources and providing a consistent power supply for EV charging. This hybrid approach not only reduces the carbon footprint associated with EV charging but also contributes to grid stability by intelligently managing the variability of renewable energy sources. By combining solar, wind, and grid power, the proposed system aims to create a sustainable and environmentally friendly solution to meet the growing demand for electric vehicle charging infrastructure. This research represents a significant advancement toward establishing a cleaner and more resilient energy ecosystem, supporting the widespread adoption of electric vehicles