Advanced Certification Program in EV Engineering, Design, Simulations and Analysis

This program offers a holistic approach to understanding and applying EV engineering principles, design methodologies, and advanced simulations. Participants will gain expertise in key areas such as battery systems, power electronics, MATLAB-Simulink, ANSYS-based structural analysis, and energy management. This program is designed for professionals and freshers aspiring to lead in the electric vehicle industry.

Hardware & Software Required

Hardware: A computer with internet access for accessing course materials, videos, and conducting research.

Software: None

DIY Projects Included

EV Powertrain Simulation in MATLAB-Simulink
- Objective: Model and simulate a complete EV powertrain.
- Outcome: Participants will deliver a functional simulation of an EV powertrain, including energy flow and performance metrics.
Battery Management System (BMS) Modeling
- Objective: Simulate battery performance and energy management.
- Outcome: A working BMS model with energy flow and fault detection capabilities.
ANSYS Structural and Thermal Analysis
- Objective: Perform ac and thermal management simulations for EV components.
- Outcome: Participants will develop CAD models and conduct structural and heat transfer analyses.
EV Architecture Design and Road Load Analysis
- Objective: Design and simulate EV architecture and road load conditions.
- Outcome: Complete vehicle layout and performance analysis under dynamic conditions.

Course Benefits

Freshers

Build a strong foundation in EV engineering essentials.
Learn industry-grade tools like MATLAB, Simulink, and ANSYS.
Develop skills in vehicle layout and powertrain design.
Understand road load dynamics and thermal analysis.
Acquire job-ready expertise in EV simulations.

Professionals

Advance skills in EV design and analysis.
Learn advanced MATLAB-Simulink applications.
Gain expertise in ANSYS structural analysis for EVs.
Master battery and powertrain energy simulations.
Prepare for leadership roles in EV engineering projects.

Technical expertise you will gain

Technical Expertise Gained:

Proficiency in EV system design, including architecture and powertrain.
Advanced skills in MATLAB-Simulink for energy flow and simulation modeling.
Expertise in battery performance modeling and BMS energy optimization.
Mastery of ANSYS for structural, thermal, and mechanical analysis.
Knowledge of road load dynamics and aerodynamics modeling.
Hands-on experience in inverter design and Simscape modeling.
Understanding of vehicle electrification systems and charging standards.
Capability to perform FEA for EV component durability and heat transfer.
Practical insights into energy efficiency and vehicle dynamics simulations.
Industry-relevant application of CAD/CAE tools for EV engineering.

Learning Objectives Achieved:

Master EV system design and engineering principles.
Simulate powertrain and energy flow using MATLAB-Simulink.
Develop advanced models for road load and vehicle dynamics.
Perform structural and thermal analysis using ANSYS.
Design and simulate BMS for energy optimization.
Understand EV-specific charging technology and standards.
Gain insights into vehicle electrification and power distribution systems.
Create CAD models and perform FEA for EV components.
Leverage simulation tools for energy efficiency analysis.
Build industry-relevant skills for EV design and simulations.

Key Job Areas

Job Roles

Skill Sets

Key Job Areas

Job Roles

Skill Sets

Who can take this course?

This course is suitable for individuals who have a foundational understanding of automotive engineering, electrical engineering, or a related field.

Freshers
Professionals