India's Best Online EV Design Course by a team of experts led by an ISIEINDIA technical committee with 300+ Professional Member ISIEINDIA | Electric vehicle design,ev design course,hybrid vehicle design,best electric vehicle design course,electric car design course,emobility course

EV Design and Development- Specialization

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This course on EV Design and Development by a team of experts led by an ISIEINDIA technical committee (300+ Professional Member from Indian and Global OEM i.e. M&M, TATA Motors, Renault, TVS etc.)  Brought to you by ISIEINDIA e-learning platform a leading online learning platform for EVs popular in India and South Asia.

ISIEINDIA leading An E-mobility platform for professionals, Engineers, Academicians, and Students. We are filling the gap between education and Industry level skill required.

Electric Vehicle is a growing sector which offers great career opportunities. Our program Electric vehicle Engineering is endorsed by Niti Aayog, Government of India, and our platform is recommended platform by Society of Electric vehicle manufacturers (SMEV).

In the Indian electric vehicle ecosystem market analyzed by BIS Research, The EV market is anticipated to grow at a robust CAGR of 43.13% during the forecast period from 2019 to 2030. Additionally, the installation of charging infrastructure is projected to grow at a CAGR of 42.38%. With the entry of local battery manufacturers such as TATA Chemicals and BHEL alongside the import of batteries from global players, the electric vehicle battery market is expected to grow at a whopping CAGR of 60.15% during the forecast period.

The Indian electric vehicle ecosystem market is currently in a nascent phase. The government’s push to ensure EV adoption through subsidies and tax benefits has further propelled the market growth. Despite the Indian automotive industry experiencing a sharp decline in FY2019, the electric vehicle market is expected to continue to grow in the coming years. With the BS6 norms becoming applicable from April 2020, electric vehicles will become more prices competitive with conventionally fueled vehicles, thus accelerating the electric vehicle sales in the country.

Program Overview:

EV and HEV specialization (Electric Vehicle Engineering) will provide a dynamic academic program inclusive of live projects, major and minor projects along with hands-on experience in the Electric / Hybrid / Renewable Energy Domain. The program imparts practical application of skills in the field of electric vehicle engineering. It provides for a hands-on experience through practical learning and Case Study.

The program is also giving you deep learning about Architecture, Vehicle Dynamics, CAD modeling and CAE along with Mathematical modeling, thermal analysis and design of frame-based chassis used in SUV.

ISIEINDIA well knows platform from 2013 to provide an opportunity to learn and develop innovation, technologies, especially in the EV sector. Now, we present the specialization program on Electric / Hybrid Vehicle Design (EV –Design). This program provides you with the most flexible learning environment possible. This program is offered as a self-paced program often referred to as an asynchronous online program which is time-independent, meaning that it can be accessed 24X7 lifetime access. This program can be accessed from multiple devices which makes it easy to learn on the go. Lectures that are pre-recorded or slide presentation with voice-over commentary, interactive discussion boxes, real-time modeling on various advanced software, GIF, Videos, graphs, etc.

What you will learn?

      • The architecture of EV Design and HEV
      • Vehicle Setup on MAT LAB
      • Power Fellow Analysis
      • Vehicle Dynamics i.e. Calculation for Braking, Suspension, Steering, Wheels etc.
      • Design of Monocoque Chassis
      • Analysis of Monocoque chassis
      • Case Study(Green Credentials and Peugeot Hybrid Air)
      • Case Study on Powertrain (Calculations and Simulation)
      • Case Study(Tesla Model S cooling technology)
      • Case study ( Battle Tank Steering System)
      • Case Study ( Simulate car Suspension geometry on Lotus/Adams )
      • Case study (Calculations on brake dynamics)
      • Codes and Standards for EV in India
      • Case Study ( Formula Student Vehicle Design) 

      Program outcomes
      • Leaning about Vehicle Architecture, Setup, Block Diagram , Energy Fellow for EV .

      • Learn how to Simulating vehicle setup on Mat lab simulink using Powertrain block setup.

      • Learn Charging System and its Technologies.

      • Prospect and Reality of EV.

      • Vehicle Dynamics that include Steering, Braking, Steering Selection norms and calculation, Wheel dynamics and Suspension system.

      • How to Developing a Monocoque Chassis in CAD.

      • How to do Verification and Validation

      • Learn Design and Manufacturing consideration.

      • Learn Design and analysis of Chassis

      • Learn Codes and Standards for EV design and development.

      • Various Case Study on different Model.

      • Mobile/Laptop/Tablet with good internet connectivity.
      • Interest in electric vehicles, telecom, solar, aerospace or consumer electronics applications.


      • 108 Lessons
      • 26:10:00 Hours
      • Introduction to EV00:10:00
      • Introduction to HEV00:40:00
      • Types of HEV- Plugin HYBRID00:12:00
      • Types of HEV- Series HYBRID00:13:00
      • Types of HEV- Parallel HYBRID00:11:00
      • Case Study(Green Credentials and Peugeot Hybrid Air)00:20:00
      • Assessment 1
      • EV/HEV Setup00:13:00
      • Energy Sources00:14:00
      • Power/Energy Flow in HEV00:15:00
      • Case Study (Battery Setup in various vehicles) 00:10:00
      • Assessment 2
      • Simulation on MATLAB00:13:00
      • Simulink and blocksets00:17:00
      • Powertrain Blockset00:14:00
      • EV Modelling00:29:00
      • Assessment 3
      • AC-DC Chargers based on ISO/IEC ratings 00:16:30
      • Wireless Charging 00:11:00
      • Equalizer and Power Conversion Techniques 00:09:00
      • Future Development and Optimizing Techniques00:12:00
      • Case Study (Tesla Model S cooling technology)00:10:00
      • Assessment 4
      • Existing Manufacturers of EV’s00:17:00
      • Infrastructure of EV00:15:00
      • Economic Factor00:12:00
      • City and Highway Concept BEV's00:11:00
      • Advancement in Autonomous Tech.00:15:30
      • Assessment 5
      • Introduction to Chassis00:15:00
      • Factor affecting chassis and machining00:20:00
      • Calculation on chassis CG & reactive forces00:20:00
      • Structural Analysis of Frame00:14:00
      • Automotive Materials00:18:00
      • Ergonomics00:16:00
      • Vehicle Aerodynamics00:10:00
      • Prototyping00:30:00
      • Assessment
      • Steering components & their functions00:12:00
      • Steering Geometries00:14:00
      • Steering Parameters00:30:00
      • Power Steering & latest technologies00:20:00
      • Steering Mechanism Calculation00:12:00
      • Steering Errors00:15:00
      • Case Study -Continuous Track Steering System00:10:00
      • Assessment
      • Suspension & terminologies00:15:00
      • Factors affecting Vehicle Stability00:20:00
      • Dependent Suspension ( With Calculations )00:40:00
      • Quarter Car model00:11:00
      • Case Study (Simulate car Suspension geometry on Lotus/Adam ) - Coming soon00:40:00
      • Assessment
      • Introduction to Braking Mechanism & components00:16:00
      • Anti-lock Braking system - ABS00:15:00
      • Materials & Factor affecting brakes00:25:00
      • Analysis of brake disc (Thermal and static)00:20:00
      • Case study (Calculations on brake dynamics)00:15:00
      • Assessment
      • Wheel & load distribution with wheel dynamics00:20:00
      • SAE Tyre axis system00:15:00
      • History & Manufacturing of tire materials00:15:00
      • Tire Formula00:10:00
      • Tire Designation00:10:00
      • Rim material and manufacturing00:09:00
      • Case Study (CAD model for tyre)00:15:00
      • Assessment
      • Inception of CAE 00:12:00
      • Types of CAE- I00:19:00
      • Types of CAE- II00:27:00
      • Verification and Validation Process00:10:00
      • Assessment
      • Mechanical Drawing Terminologies00:35:00
      • Benefits and Limitations of CAD00:15:00
      • Design Considerations00:10:00
      • Manufacturing Considerations00:10:00
      • Positive Mould and Negative Mould 00:15:00
      • Market Survey and Trends00:11:00
      • Assessment
      • Prerequisite for chassis design00:15:00
      • Chassis Design and Dynamics00:21:00
      • Chassis Design - On Solid works 00:30:00
      • Simulation on Chassis00:32:00
      • FE ANALYSIS OF AUTOMOTIVE CHASSIS -II ( Structural Analysis) 00:11:00
      • FE ANALYSIS OF AUTOMOTIVE CHASSIS -III (Explicit Dynamic Analysis)00:20:00
      • Assessment
      • Challenges in EV00:15:00
      • Goals set for Electrification00:15:00
      • Requirements for Policy Making00:15:00
      • Standards and Regulation in India00:15:00
      • Validation of EV in India00:10:00
      • Assessment
      • Design Goals and Frame00:10:00
      • Design of Steering Geometry 00:15:00
      • Design Suspension System00:15:00
      • Electrical System 00:10:00
      • Mini Project 1: Simulation of a Go Kart Model
      • Mini Project 2: Calculate the Turning Radius of any Electrical Vehicle launched in 2020.

      About instructor

      Reviews : 268 Reviews
      Student : 4595 Students
      Courses : 105 Courses


      Based on 2 Reviews
      1 Stars
      2 Stars
      3 Stars
      4 Stars
      5 Stars

      Johnson Stella - Wed, 24-Jun-2020

      I like the way of teaching and explanation. But the topics can be more elaborated. Overall its a good course.

      Aditya Jotish - Mon, 06-Jul-2020

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