Learn Introduction to Electric Vehicle, Powertrain Selection & Its Calculation, Motor and Controller, Battery Pack and BMS, Charging Infra 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.
EV Design & Development
- Description
- Curriculum
- Reviews
About the Program
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.
30 Days Internship
In EV Design & Development
Complete all the courses successfully to obtain the certification from ASDC.
• Globally Recognized Certificate
• Recommended program by SMEV, MSME and 17 + Automotive Industries.
Case Studies
Hybrid Vehicle Power-train
The type of hybrid vehicle architectures and their usage as per the desired output. This covers the difference between the different products in the market and how and why they employ different types of hybrid power-train.
Retro fitment of a 2-Wheeler
As the 2 Wheelers are getting popular in India, in this case, a study we look at what it takes to convert an existing gasoline-powered 2-wheeler, into an EV. The size of the motor required to match the performance.
Battery Pack Design and Selection
Selection criteria for the battery pack to gain the desired range out of an electric 2-wheeler. Types of cells and voltage to keep, as well as the impact of using a high voltage low current vs low voltage high current battery pack.
Battery Swapping and Charging Stations
The impact of charging over the grid and the difference between the battery swapping and charging station. Their feasibility and the best option moving forward with the technology.
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About EV Design & Development Internship Program
The EV industry is rising, and as per NITI AAYOG’s recent plan, the government is looking to pushing electric vehicles on large scale. With government support, the industry is moving forward and not just in India, but around the globe. The growth projections suggest a CAGR rate of 36% till 2026. This is to create more than 5 million jobs in this sector. The undergraduate and graduate engineers are to be ready for this.
To fill the skill gap, we at Imperial Society of Innovative Engineers have come up with this basic course on electric vehicles. This course starts with the history of EV taking you through the journey of time, to understand the growth of EV, and how did we end up with electric vehicle technology once again after a century. While we are looking at that we will also be discussing the govt policies and how the EV has grown in the last decade, with that context what lies in the future for this industry. Learn about the basics of powertrain, the various motors being employed, and gearbox solutions to use. What are the different motor control methods employed for the motor in use? The types of cells based on chemistry and form factors. The cells to be used, their characters, basics understanding of battery pack, and the charging
Program Outcomes
Charging methods and protocol.
Learn about battery pack design and cell types.
Learn about power-train selection methods.
EV Market upcoming trends and changes.
Learn about motor types and control methods.
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
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1Coming of EV in 19th Century
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2Golden Era of EV
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3Coming of New Era in EV
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4EV Market and Sales
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5Components; Trends and Growth
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6Parallel Hybrid
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7Series Hybrid
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8Series Parallel
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9Fuel Cell EV
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10Micro Mild and Full hybrid
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11Motors
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12Transmissions
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13Hub Motor
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14Battery & BMS
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15Components Positioning
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16Assignment 1
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17Vehicle Coordinate System
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18Powertrain Equation
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19Drag Equation
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20Drag Coefficient
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21Drag Calculation
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22Tire Construction and Specification
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23Wheel Rolling without Slipping
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24Wheel Dynamics ROLL vs SLIP vs SKID
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25Contact Patch
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26Hysteressis Loss
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27Tyre Parameters
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28Calculating Parameters
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29Power Calculation
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30Torque Calculation
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31Gearbox Selection
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32Motor Characteristics
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33Assignment 2
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45Introduction of Electro Chemical Electro Energy Conversion
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46Types of Battery & Its Availibility
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47Battery Terminologies - Part 1
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48Battery Terminologies - Part 2
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49Battery Terminologies - Part 3
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50Lithium Batteries
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51Battery Pack Modules
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52Cell Thermal Properties
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53Cell Arrangement
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54Cell Packaging and Selection
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55Cell Connection
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56BMS n PCB
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57BMS_IC
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58BMS Intro
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59Cell Balancing
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60BMS FUNCTIONS