Master's Certification Program in Hybrid Electric Vehicle Design and Analysis

Fast paced industry relevant program. Master's in Hybrid Electric Vehicle Design and Analysis

  • 0% EMI Option Available
  • Domain : HEV
  • Pre-requisites : For Mechanical & Automotive Engineers
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A Quick Overview

This Master's in Hybrid Electric Vehicle Design and Analysis program is the first of its kind in India. It is an 8-month long program that trains you on all the essential engineering concepts and tools that are used by top OEMs to design future Electric & IC Engine Vehicles.

Why enroll in this program?

  • Electric Vehicle Manufacturing is expected to grow 10 fold by 2025.
  • Automotive OEMs are facing a shortage of EV Engineers.
  • Only 20% of Engineers are employable. And the problem is low-quality and outdated Education
  • Job Assistance included
  • Highly suitable for students interested in pursuing Higher Education


Get a 1-on-1 demo to understand what is included in the course and how it can benefit you from an experienced sales consultant. The demo session will help you enroll in this course with a clear vision and confidence.

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1ICE and Electric Powertrain

In this module, the objective is to familiarize the student with both the traditional (ICE) and electric powertrain concepts. While Electric Vehicles will eventually make it to the market, the ICE will always be continuously optimized and researched upon. When you finish the first two modules, you will be quite familiar with the following topics.

Performance Calculations
Understanding the key performance indicators is essential to understand any thermal system. Learning these will help you understand the entire Vehicle Development Process

Electric Vehicle Architecture
Most of the students must be familiar with how an I.C. Engine operates. When it comes to electric vehicles a thorough understanding of the various sub-systems is important in getting a holistic understanding of the system.

Battery Module System Design
The design of the BMS determines the driving range of the vehicle. Understanding the various design aspects of the BMS will help in engineering it perfectly.

Control Systems
In real-world conditions, a hybrid power-train employs a lot of electronics to switch back and forth between the two power-trains. This is employed using the application of control systems.

2Vehicle Dynamics

Vehicle Handling and Dynamics are very important for the safety and performance of cars. Depending on the car segment, different suspension architecture exists. How are these architectures proposed, designed and developed? Well, that is what you will focus on in this particular module.

Hand calculations | Programming | Detailed 3D Simulations

Concepts such as wheel rates, instantaneous centers and scrub radius are fundamental concepts. Depending on the complexity of our suspension model, we can perform calculations ranging from pen-and-paper to detailed multi-body dynamic simulations using software packages like Adams Car. In this course, you will be doing all of the above.


3Strength Calculations

A well-designed part helps keep passengers safe and Finite Element Analysis plays a key part in the development of such parts. Techniques such as steady-state and transient methods are used to estimate the strength of parts under linear and non-linear conditions. When you finish this module, you will learn which simulation methodologies need to be used for which type of parts and loads combinations.

Finite Element Analysis using LS-DYNA

LS-DYNA is a robust multi-physics environment. This will be the first course in this module and will help you achieve a strong foundation in FEA.

Crash-worthiness using HyperMesh and Radioss

This course is more application focussed. You will learn to perform computer simulations to estimate the crashworthiness of cars. In this regard, you will learn how to compute intrusion length and energy path distribution.

4Automotive Design

Learning a CAD Package(s) is not design. Designing is a problem solving technique, where you create a product that satisfies several constraints. These constraints can be technical and non-technical.

In this module, you will learn the art of designing to constraints. We will focus on how sheet metal parts are designed and manufactured in the industry. We will understand the different constraints that are in place while designing Body In White (BIW) components and use engineering principles to create the final product.


5Automotive Flow Analysis

Understanding flow behavior is extremely critical in obtaining peak performance from various sub-systems that make up a vehicle. From intake systems to the cylinder to the after-treatment components, every inch of piping, bends, and curves has been carefully designed to satisfy the requirements of several teams.

In this module, your focus is on taking up several courses that teach how to simulate flow in systems such as superchargers, turbochargers, cabin-interior, after-treatment systems, and finally the entire vehicle.

External Aerodynamics

In this module, You will learn, how to perform external aerodynamic analysis on full-sized passenger cars and racing cars. You will understand the objectives of your simulation and will prepare the computational models accordingly.

  1. Pumps, Compressors and Super-chargers
  2. Depending on the segment, a passenger vehicle can have multiple turbomachinery components. Each of these components are subjected to CFD simulations to evaluate their thermal performance. In this module, you will learn the following
  3. Creating the computational domain for turbo-machinery simulations.
  4. Choosing the right boundary and initial conditions for the problem.
  5. Employ steady and transient solvers to accomplish the end result.
  6. Understand core physical models such as turbulence and cavitation modeling

Program Timeline

1Semester I Courses

  • Course 1: Matlab for Mechanical Engineers
  • Course 2: Introduction to HEV using Matlab and Simulink
  • Course 3: Introduction to control of Electric vehicles
  • Course 4: Introduction to Battery Technology using Matlab and Simulink
  • Course 5: Introduction to Matlab and Simulink for ADAS features

2Semester II Courses

  • Course 1: Preprocessor for Meshing using ANSA
  • Course 2: Python For Mechanical engineers

After completing these two courses, you can choose one of the below 4 specialization tracks & become an EV expert.

Track 1: Computational Fluid Dynamics (CFD)

  • Course 1: Introduction to CFD using Matlab and OpenFOAM
  • Course 2: Introduction to GUI based CFD using Ansys Fluent
  • Course 3: Advanced IC Engine Simulations using Converge
  • Course 4: IC engine calibration using GT Power


Track 2: Finite Element Analysis (FEA)

  • Course 1: Basic Structural Analysis using Solidworks
  • Course 2: Structural Analysis using Ansys Workbench
  • Course 3: HyperMesh for FEA and Plastics
  • Course 4: Crash-worthiness Analysis using HyperMesh and Radioss


Track 3: Computational Design

  • Course 1: Ultimate Solidworks course
  • Course 2: Advanced Sheet metal design
  • Course 3: Advanced Automotive sheet metal design
  • Course 4: Plastics Design
  • Course 5: Geometric Dimension and Tolerancing


Track 4: Multi-Body Dynamics

  • Course 1: Basic Multibody Dynamics Using Solidworks
  • Course 2: Intermediate level multibody dynamics using Motion view and Motion solve
  • Course 3: Introduction to Vehicle Dynamics using Matlab
  • Course 4: Suspension Design using ADAMS


  • For Mechanical & Automobile Engineering students
  • For those who are interested in designing a Hybrid Electric Vehicle

Software you will work on

Flexible Course Fees

Choose the Master’s plan that’s right for you


12 Months Access


Per month for 10 months

  • Access Duration : 12 Months
  • Mode of Delivery : Online
  • Project Portfolio : Available
  • Certification : Available
  • Individual Video Support : 8/Month
  • Group Video Support : 8/Month
  • Email Support : Available
  • Forum Support : Available

Lifetime Access


Per month for 10 months

  • Job Assistance : Lifetime
  • Master's Assistance : Lifetime
  • Access Duration : Lifetime
  • Mode of Delivery : Online
  • Project Portfolio : Available
  • Certification : Available
  • Individual Video Support : 24x7
  • Group Video Support : 24x7
  • Email Support : Available
  • Forum Support : Available
  • Telephone Support : Available
  • Add-ons Industry Projects : 15
  • Offline Skill-Center Access : Available
  • Dedicated Support Engineer : Available


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  • Top 5% of the class will get a merit certificate
  • Course completion certificates will be provided to all students
  • Build a professional portfolio
  • Automatically link your technical projects
  • E-verified profile that can be shared on LinkedIn


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