Advance Electric Vehicle Design

About the Program

Learn Basics Concept of EV and HEV, Chassis & Dynamics, Steering & its Mechanism, Suspension, Braking Dynamics, Tire & Its Features, Chassis Design and Simulation, Motor, Battery & BMS for EV, Simulating Vehicle Setup on MATLAB Using Powertrain Blockset accompanied with various recent case studies to attain the challenges set by the EV industries with Personalized Industry Mentorship, Career Guidance, and Placement Assistance and much more.

Personalised Mentorship

Get mentored by an experienced EV Industry expert and receive personalised feedback calls for better career guidance.

Globally Valid Certificate

Get a Globally valid certificate and enter your workplace with confidence and assert yourself as a subject matter expert.

Student Support

Student support available 09 AM to 07 PM IST via email or call and get a response within 2 working hours.

Specialized Advance Electric Vehicle Design

Certified by ASDC

Complete all the courses successfully to obtain the certification from ASDC.

• Globally Recognized Certificate

• Recommended program by SMEV, MSME and 17 + Automotive Industries.

EV-05

Case Studies

Design of Steering Geometry

In this case study we will have look on various topics like steering design goals steering parameters various material we can use for manufacturing purpose and how you can analyze the design

Electrical System

In this case study we will discuss about various electric component like motor battery and accumulator and their working. Further we will also be discussing about various simulation for the electric components.

Design Suspension System

Importance of suspension system various design goal front suspension rear suspension and various material and their properties will be discussed In this case study.

Continuous Track Steering System

In this case study various topic like twin transmission geared steering , clutch braking. Differential braking ,controlled deferential electronic transmission steering system will be discusses along with what are the various advantages and disadvantages of the same

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About Advance Electric Vehicle Design Program

India is making a big push for electric vehicle, signaling a turning point in its clean energy policy. In 2017, Transport Minister Nitin Gadkari shocked the automobile industry (and the world) when he announced that he intended for India to move to 100% electric cars by 2030.

India wants to become a “global hub of manufacturing of electric vehicles”, Finance Minister Nirmala Sitharaman said in her budget speech earlier in the year 2019. The Economic Survey, a government forecast, released a day before the budget envisaged an Indian city possibly emerging as the “Detroit of electric vehicles” in the future.

Advanced Electric Vehicle Crash Course is being designed to upskill the engineers on the emerging technologies in the E-mobility to support the industry with job-ready manpower. This course is an exclusively recommended program by SMEV- Society for manufactures of  Electric Vehicle and 17 + Automotive Industries. The Program is designed by India’s First and Biggest E-Mobility Learning Platform ISIEINDIA’s Technical Committee which is having more than 100+ Industry leaders and experts from Indian as well as Global OEM i.e. Hero Electric, Mahindra, Renault, TVS etc.

Eligibility

  • Program designed for Professionals / Academicians / Engineers / Undergraduate Students and all interested Electric Vehicle enthusiasts

Recorded Videos, Case Study and Assessment

  • Online program which is time-independent, meaning that it can be accessed 24 X 7 lifetime. Case Study and Assessment by Experts after completion of each unit. This program is available Online on ISIEINDIA E-Learning APP and Website.

Free Research Paper Publication

  • Case Study on Live model, Research Paper Writing and Free Research Paper Publication. Downloadable kit includes tools such as e-books, research paper references and gazetted government reports are made available at just one click.

Feedback & Interaction

  • Practical hands-on activities and video Lectures with interactive portal/forum for discussion among students. Prompt feedback to every slight curiosity and query by instructor/trainer are part of this course.

Program Outcomes

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How to do Verification and Validation

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Various Case Study on different Model.

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How does size and type of components effecting the performance of Vehicle.

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

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

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Learn Design and analysis of Chassis

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Learn Charging System and its Technologies.

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Battery Management System, Energy Management Control Strategies and Power Electronics.

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

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How to choose different component , i.e. selection of right motor, Convertor , Charging System, Drive Train , Controllers etc.

ISIEINDIA Instructors

Learn from leading Industry oriented trainer, faculty and leaders

Our Expert Work At

Top companies from all around the world

ISIEINDIA Alumni

Where our Alumni Work

Payment Offers

Now, pay your course fees in installments at no cost EMI available at Credit cards following banks

Basics Concept of EV and HEV

1
Introduction to EV
0:10:00
2
Introduction to HEV
0:40:00
3
Types of HEV- Series HYBRID
0:13:00
4
Types of HEV- Parallel HYBRID
0:11:00
5
Types of HEV- Plugin HYBRID
0:12:00
6
Case Study(Green Credentials and Peugeot Hybrid Air)
0:18:27

Chassis & Dynamics

1
Introduction to Chassis
00:13:00 hr
2
Factor affecting chassis and machining
00:16:00 hr
3
Calculation on chassis CG & reactive forces
00:08:00 hr
4
Structural Analysis of Frame
00:18:00 hr
5
Automotive Materials
00:18:00 hr
6
Vehicle Aerodynamics
00:10:00 hr
7
Ergonomics
00:16:00 hr
8
Prototyping
00:13:00 hr

Steering & its Mechanism

1
Steering components & their functions
00:11:00 hr
2
Steering Geometries
00:14:00 hr
3
Steering Parameters
00:13:00 hr
4
Power Steering
00:20:00 hr
5
Steering Mechanism Calculation
00:12:00 hr
6
Steering Errors
00:11:00 hr
7
Case Study -Continuous Track Steering System
00:10:00 hr

Suspension

1
Suspension & terminologies
00:25:00 hr
2
Factors affecting Vehicle Stability
00:10:30 hr
3
Dependent Suspension ( With Calculations )
00:40:00 hr
4
Quarter Car model
00:11:00 hr

Braking Dynamics

1
Introduction to Braking Mechanism & Components
0:16:00
2
Anti-lock Braking system - ABS
0:15:00
3
Materials & Factor affecting brakes
0:25:00
4
Analysis of brake disc (Thermal and Static)
0:20:00
5
Brake Calculations
0:15:00

Tire & Its Features

1
Wheel & load distribution with wheel dynamics
00:16:00 hr
2
SAE Tyre axis system
00:16:00 hr
3
History & Manufacturing of tire materials
00:15:00 hr
4
Tire Formula
00:08:00 hr
5
Tire Designation
00:15:00 hr
6
Rim material and manufacturing
00:15:00 hr
7
Tire Modelling Using SolidWorks
00:15:00 hr

Battery & BMS for EV

1
Li-Ion Battery for EV - Parameter
00:30:00 hr
2
Calculation for Battery
00:30:00 hr
3
Sensors and Telemetry for Battery Pack
00:30:00 hr
4
Data Validation and Cooling System
00:30:00 hr
5
BMS & Battery Pack Integration
00:40:00 hr
6
Cell Balancing
00:43:00 hr
7
Motor and Controller Calculation
01:14:00 hr

Motor, Battery & BMS for EV

1
Li-Ion Battery for EV - Parameter
0:30:00
2
Calculation for Battery
0:30:00
3
Sensors and Telemetry for Battery Pack
0:32:00
4
Data Validation and Cooling System
0:30:00
5
BMS & Battery Pack Integration
0:40:00
6
Cell Balancing
0:43:00
7
Motor and Controller Calculation
1:14:00

Simulating Vehicle Setup on MATLAB Using Powertrain Blockset

1
Simulation on MATLAB
00:13:00 hr
2
Simulink and blocksets
00:17:00 hr
3
Powertrain Blockset
00:14:00 hr
4
EV Modelling
00:29:00 hr

Case Study -Student formula Design

1
Design Goals and Frame
00:10:00 hr
2
Design of Steering Geometry
00:15:00 hr
3
Design Suspension System
00:15:00 hr
4
Electrical System
00:10:00 hr

Codes and Standards

1
Challenges in EV
00:15:00 hr
2
Goals Set for Electrification
00:15:00 hr
3
Requirements for Policy Making
00:15:00 hr
4
Standards and Regulation in India
00:15:00 hr
5
Validation of EVs as per ARAI standards
00:18:00 hr
6
Assessment 1

Chassis Design and Simulation

1
Prerequisite for chassis design- SolidWorks User Interface
00:15:00 hr
2
Chassis Design and Dynamics
00:21:00 hr
3
Chassis Design - On Solidworks
00:28:00 hr
4
Simulation on Chassis
00:32:00 hr
5
FE Analysis of Automotive of Chassis -I
00:45:00 hr
6
FE Analysis of Automotive Chassis -II (Structural Analysis)
00:11:00 hr
7
FE Analysis of Automotive Chassis -III (Explicit Dynamic Analysis)
00:20:00 hr

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Enrolled: 131 students
Duration: 1 Month
Lectures: 71
Video: 30+ Hours
Level: Advanced