Automotive & Electric Vehicle

Hybrid & Electric Vehicle (With Internship Certificate , Mentor-Led Professional Training)

Master Hybrid and Electric Vehicle technology, EV batteries, motors, BMS, charging systems, and future mobility concepts with internship certification.

The Hybrid & Electric Vehicle (HEV & EV) – Beginner to Intermediate course is a comprehensive, industry-aligned program designed to provide in-depth knowledge of electric mobility, sustainable transportation systems, and next-generation vehicle technologies.

With the global shift toward electric vehicles, hybrid powertrains, and clean energy transportation, this course equips learners with both theoretical foundations and practical insights required to build careers in EV engineering, automotive R&D, energy systems, and sustainable mobility solutions.

The course begins with a strong introduction to Hybrid and Electric Vehicles, covering their working principles, benefits such as low emissions and energy efficiency, limitations including battery cost and charging infrastructure, and global adoption trends. Learners develop a clear understanding of how EVs contribute to reducing carbon footprints and supporting environmental sustainability.

A major focus of the program is energy storage systems, including lithium-ion batteries, ultracapacitors, and flywheels, with emphasis on energy density, cycle life, cost, safety, and regenerative braking systems. Learners gain insights into why lithium-ion batteries dominate modern EVs and how energy recovery improves vehicle efficiency.

The course explores EV transmission systems, including planetary gear mechanisms and hybrid power-split architectures, helping learners understand how mechanical and electrical power are efficiently managed. Detailed modules on charging infrastructure and battery swapping models examine scalability, standardization, taxation, and economic feasibility in real-world deployments.

Learners also analyze the economic and policy aspects of EV charging, including financial models, GST implications, government incentives, and long-term sustainability, which are critical for large-scale EV adoption.

The program provides deep coverage of electric motors used in EVs, such as DC motors, BLDC, PMSM, induction motors, and switched reluctance motors (SRM), enabling learners to compare performance, torque characteristics, efficiency, and cost trade-offs. This is complemented by a strong foundation in power electronics, including converters, inverters, voltage and torque control, regenerative braking, and protection mechanisms.

Advanced modules focus on battery charging systems, including on-board vs off-board chargers, conductive vs inductive charging, Level 1, Level 2, and DC fast charging, and Vehicle-to-Grid (V2G) integration. Learners gain detailed knowledge of Battery Management Systems (BMS), covering monitoring, control, safety, cooling, SOC (State of Charge), SOH (State of Health), and advanced BMS architectures.

The course further explores battery topologies, DC-DC converters, and advanced converter designs for efficient energy management. Learners understand how aerodynamic drag, rolling resistance, and chassis design influence vehicle efficiency and range.

Finally, learners are introduced to vehicle structures, advanced materials, and fuel cell technologies, including hydrogen storage challenges, safety protocols, and renewable energy integration, preparing them for future trends in sustainable mobility.

The learning experience includes:

Video lectures with subtitles
Detailed notes for every lecture
10 quiz questions per lecture to reinforce concepts
Self-paced learning with mentor guidance

On completion, learners receive:

Course Completion Certificate
Internship Completion Certificate

This course is ideal for mechanical engineers, electrical engineers, automobile students, energy professionals, and EV enthusiasts aiming for careers in electric vehicle design, EV powertrain engineering, battery technology, charging infrastructure, and automotive innovation.