E-Mobility & Electric Vehicle Applications

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Course Description:

The shift to electric mobility is revolutionizing the transportation industry. “E-Mobility & Electric Vehicle Applications” is a comprehensive course that delves into the design, operation, and integration of electric vehicles (EVs) and their associated technologies. You’ll explore battery systems, electric drivetrains, charging infrastructure, control systems, and the broader implications of EVs in smart cities and sustainable mobility.

This course is ideal for engineers, technology students, automotive professionals, and innovators interested in the future of transportation.

Learning Outcomes  

By the end of this course, you will be able to:

  • Understand the key components of EVs including batteries, motors, controllers, and inverters.
  • Learn about different types of electric drivetrains and energy storage systems.
  • Analyze EV powertrain performance and energy efficiency.
  • Gain insights into global charging infrastructure, standards, and smart grid integration.
  • Explore EV applications in logistics, public transport, micro-mobility, and personal use. 

Why Take This Course?

Future-Proof Your Career: E-Mobility is a global megatrend. Be part of the clean transport revolution.

Deep Technical Knowledge: Gain insight into lithium-ion batteries, BMS, power electronics, and control strategies.

Urban & Industrial Impact: Learn how EVs are transforming smart cities, fleets, and energy systems.

Ideal for Innovators: This is your launchpad if you’re building or contributing to EV startups, research, or industrial projects.

Key Topics Covered:

  1. Introduction to E-Mobility
    • Global trends and regulatory push for electrification

    • Evolution of electric vehicles

  2. EV Architecture & Subsystems
    • Powertrain structure
    • Batteries, motors, inverters, and converters
    • Regenerative braking systems
  3. Battery Technology
    • Lithium-ion cells and solid-state batteries
    • Battery Management Systems (BMS)
    • Safety, thermal control, and energy density
  4. Charging Infrastructure
    • AC vs. DC charging
    • Fast charging technologies
    • Smart charging and vehicle-to-grid (V2G)
  5. Control Systems & Simulation
    • Motor control strategies (FOC, DTC).
    • System modeling and energy flow simulation.
    • CAN communication and embedded systems
  6. EV Applications and Future Trends
    • EV fleets in public and commercial transport
    • Two-wheelers, three-wheelers, and micro-mobility
    • Hydrogen EVs and hybrid systems
    • Policy, incentives, and sustainability

Assessment and Activities:

✔️ Case study: Compare performance between ICE and EV

✔️ Quiz on EV architecture & battery systems

✔️ Final project: Design a basic EV powertrain layout for a given use case

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