E-drive

Why should you take the E-drive Course?

• A 45-day industry-integrated EV training programme designed with real-world applications.
• Covers the three core EV domains:
  • Electronics and Electrical Systems
  • Vehicle Dynamics
  • Industrial Design and CAE
• Includes hands-on simulations, practical assignments, and live mentor-led sessions.
• Learn in-demand EV tools like MATLAB, Simulink, SolidWorks, ANSYS, and KiCad.
• Work on 10+ industry-grade projects, including DC-DC converters, BLDC motor control, EV aerodynamics, and thermal simulations.
• Gain exposure to industry standards such as ISO 26262, CAN, V2X, EMI/EMC, and modern EV technologies (Tesla, BYD, solid-state cells).
• Includes career development support, resume building, and mock interviews.
• Offers optional post-ITP internship or industry mentorship projects.

Who should take the E-drive Course?

• Engineering students (Electrical, Electronics, Mechanical, Automotive, Mechatronics).
• Freshers wanting to build a career in Electric Vehicles or Power Electronics.
• Working professionals looking to transition into the EV industry.
• Individuals interested in EV powertrains, vehicle dynamics, Battery Management Systems (BMS), or CAD/CAE simulation.
• Anyone aiming to develop industry-ready EV projects and technical portfolios.

Curriculum

Module 1: Electronics and Electrical Systems (EV Powertrain and BMS)

• EV ecosystem and architecture
• Power converters (DC-DC, DC-AC), IGBT/MOSFET devices
• BLDC/PMSM motors, FOC control, PWM
• Li-ion cell chemistry, NMC/LFP/NCA, thermal runaway
• BMS algorithms: SOC, SOH, SOP, fault diagnostics
• MATLAB/Simulink-based converter, motor, and BMS simulations
• PCB design using KiCad, with EMI/EMC considerations

Module 2: Automobile Systems and Vehicle Dynamics

• BEV/HEV/PHEV powertrain fundamentals
• Aerodynamics and CFD basics
• Airflow, drag, active spoiler design
• Suspension systems, ride dynamics
• ADAS Levels 0-5, sensor fusion, LiDAR/Radar/Camera
• AI-driven vehicle safety and communication systems (V2V/V2X)

Module 3: Industrial Design and CAE Integration

• CAD modelling of EV components (battery case, motor mounts)
• Assembly integration of EV subsystems
• Structural, thermal, and crash simulation basics
• ANSYS-based thermal dissipation and airflow CFD
• Importing SolidWorks models into ANSYS for full CFD workflow

Phase 2 (T-Days): Career and Industry Upscaling

• EV career mapping
• Resume building and LinkedIn optimisation
• Mock technical and HR interviews
• Optional 15-day internship/mentorship project

Tools you will learn in the E-drive Course

During the programme, you will gain hands-on experience with:

Simulation and Modelling Tools

• MATLAB/Simulink - EV system modelling, converters, motors, BMS
• PSIM - Power electronics simulation
• ANSYS (Mechanical, CFD, CFX) - Structural, thermal, and airflow analysis
• SolidWorks - CAD modelling, assemblies, design optimisation

Electronics and PCB Tools

• KiCad - EV converter and motor controller PCB design
• Oscilloscope and circuit simulators (Falstad/PSIM models)
• Automotive Technologies
• EV powertrain systems (BLDC/PMSM motors)
• ADAS frameworks, sensor fusion, LiDAR/Radar/Camera basics
• Vehicle dynamics, aerodynamics, and suspension modelling