Objectives:
Provide an understanding of electric vehicle (EV) technology and its significance.
Explain EV components, powertrain systems, and energy storage solutions.
Introduce electrical drives, power electronics, and battery management systems.
Highlight the major features and applications of modern EVs.
🔹 Basics of E-Vehicle Fundamentals:
Introduction to EV technology, energy efficiency, and sustainability.
Comparison between electric and conventional vehicles.
Role of renewable energy sources in EV adoption.
🔹 Types of Electric Vehicles:
Battery Electric Vehicles (BEVs) – Fully electric with rechargeable batteries.
Hybrid Electric Vehicles (HEVs) – Combination of internal combustion engines and electric motors.
Plug-in Hybrid Electric Vehicles (PHEVs) – Rechargeable hybrids with extended range.
Fuel Cell Electric Vehicles (FCEVs) – Powered by hydrogen fuel cells.
🔹 Components of E-Vehicle Technology:
Battery Management System (BMS) for monitoring and safety.
Electric Motors, Controllers, and Charging Systems.
Power Electronics for energy conversion and efficiency.
🔹 Electrical Drives and Power Electronics:
DC and AC motor applications in EVs.
Inverters, converters, and regenerative braking systems.
Major Features of EVs:
Zero-emission and eco-friendly transportation.
Smart connectivity and AI-based vehicle control.
Integration with renewable energy and smart grids.
Session Outcomes:
📚 Enhanced technical knowledge of EV fundamentals and power systems.
🔋 Hands on experience with motor controllers and power electronics.
🌱 Increased awareness of sustainable mobility solutions.
💡 Encouraged research and innovation in the EV industry.
👨🔬 Inspired students to explore careers in electric mobility and energy sectors.
