11 Modules
2 - 3 Months
Overview
Course Description
Our Electric & Hybrid Vehicle course is built to give you hands-on exposure to modern vehicle systems, including EV powertrains, battery technologies, and hybrid drivetrains. Whether you're an aspiring automotive engineer or looking for top EV courses with placement support, this program delivers real-world knowledge through practical and software-based training sessions.
What you'll learn
- Understand how vehicles move, including dynamics, traction, and powertrain layout.
- Learn the basics of electric and hybrid vehicle structures and systems.
- Explore EV batteries, motors, controllers, and battery pack design.
- Get insights into battery management and performance monitoring.
- Discover how EV charging systems work, from public to onboard chargers.
- Use MATLAB to simulate and analyze EV powertrain behavior.
Course Features:
- 100+ hours of structured training & simulation workshops
- In-depth MATLAB software sessions for real-time modeling
- Certification upon completion with career support
- Access to industry mentors and EV professionals
- Placement assistance and project-based learning
- Designed for engineers, students & working professionals
Course Content
Introduction to automotive vehicle dynamics
Forces acting on a vehicle
Vehicle traction principles
Resistance forces and powertrain layout
Types and topology of Electric Vehicles (EVs)
Hybrid Electric Vehicles (HEVs) overview
HEV drivetrain structure and design methodology/p>
Basics of batteries used in EVs
EV motors and motor controllers
Battery pack design and configuration
Key battery parameters and performance insights
BMS architecture and layout
State of Power (SOP) estimation techniques
State of Health (SOH) monitoring and diagnostics
Overview of EV standards and functionalities
Bulk chargers, swapping stations, and public charging networks
On-board charging systems and their integration
Introduction to Drive Cycle Data
EV powertrain modeling and simulations
MATLAB-based numerical analysis of EV drivetrain behavior
