Certificate Programme on eMobility (CPoeM)-Cohort 6

NOTE: International Learners –

Please choose your country in the registration form (click the register button)  from the country drop-down and make payment in USD.

Last Day for Registration: December 25, 2024

SKU: IIT Madras | Dates: 1st January, 2025 Categories: ,

Course Description

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Centre for Outreach and Digital Education (CODE), IIT Madras, offers a short-term executive certificate program om eMobility(CPoeM). CPoeM has been curated by IIT Madras – along with experts from industry – to provide a comprehensive overview of eMobility and Electric Vehicles (EVs). While foundational theory is provided in technical areas such as Batteries, Power  Electronics, EMI/ EMC market, cost and industry-specific areas like Vehicle Engineering and Development are also covered. The course is designed for working professionals who are looking to acquire basic exposure and awareness in eMobility. After completion, the candidates can choose to dive deeper into those specific areas that are of interest to them: in further programs IIT Madras plans to launch.

Why this Course?

With a rapid switch in the focus of the automobile industry, from ICE Vehicles to Electric Vehicles, there is a huge requirement for skilled human resources who have a sound knowledge of Electric Vehicles, and their constituents and ecosystems. The current requirement of the industry and among academicians can only be fulfilled by providing a source of learning in the EV domain. This course is specifically designed to make candidates aware about the Electric Vehicle and its technology, and to act as a bridge between Industry and Academia.

Mode: This course comprises of 100 hours of recorded videos and 30 hours of ONLINE interactive sessions with the faculty. 

The course is structured in the following manner:

  1. Participants need to watch around 6 hours of video content (not more than 3 hours in a particular module) every week. They will be supported by well-trained TAs.
  2. A live interaction session would be scheduled every Saturday with the corresponding faculty to discuss the module content and clarify queries. The duration of this session would be 1 hour.

Modules Covered:

MODULE-1:eMobility Ecosystem
MODULE-2:Economics for eMobility
MODULE-3: Vehicle Engineering and Development
MODULE-4: Vehicle Dynamics and Control
MODULE-5: Battery Technology
MODULE-6: Power Electronics
MODULE-7: Motors for Electric Vehicles.
MODULE-8: Thermal Management for Electric Vehicles.
MODULE-9:  System Integration and Calibration
MODULE-10: Power trains and Fuels
MODULE-11: Charging Infrastructure
MODULE-12: Materials for eMobility
MODULE-13: Electromagnetic Compatibility for Electric Vehicles

Click on the tab “Module Description” and choose the appropriate module from the dropdown menu to view more information about each module.

 

Course starts on the 1st January, 2025

 

Session Schedule: Recorded lectures on weekdays and Live session on Saturdays.

 

Timings : Recorded lectures will be made available every week on Fridays at 5pm (IST)

                   Live sessions will be held every week on Saturdays between 09:00 a.m. and 01:00 p.m IST

 

Last date of Registration:  20th December, 2024

Instructors

Mr. Thiru Srinivasan, CEO, Center of Excellence in Advanced Automotive Research (CAAR), IIT Madras.

Prof. Santosh Kumar Sahu, Assistant Professor, Dept of Humanities and Social Sciences, IIT Madras.

Mr. B. Balaji, Guest Faculty, Dept of Engineering Design, IIT Madras.

Prof. C. S. Shankar Ram, Professor, Dept of Engineering Design, IIT Madras.

Prof. S. Ramanathan,  Professor, Dept of Chemical Engineering, IIT Madras

Prof. Kothandaraman Ramanujam, Professor, Dept of Chemistry, IIT Madras

Prof. Srikanthan Sridharan, Assistant Professor, Dept of Engineering Design, IIT Madras

Mr L. Kannan, Founder Director, Motorz Design and Manufacturing Private Limited.

Prof. Srikanth Vedantam, Professor, Dept of Engineering Design, IIT Madras

Dr. Kaushal Jha, Adjunct Professor, Dept of Engineering Design, IIT Madras.

Prof. Deepak Ronanki , Assistant Professor, Department of Engineering Design, IIT Madras

Prof. R. Jayaganthan, Professor, Dept of Engineering Design, IIT Madras.

Prof. Kavitha Arunachalam, Professor, Dept of Engineering Design, IIT Madras

Module Description

MODULE – 1 : eMobility Ecosystem

Module Duration:

4 hours of recorded video and offline sessions

Faculty:

Mr Thiru Srinivasan

CEO, Center of Excellence in Advanced Automotive Research (CAAR), IIT Madras

Module Description:

The module on eMobility Ecosystem will give students an idea about the overall EV Ecosystem and the various techno-commercial trends that are unfolding both globally and, more specifically, in India.

Topics covered:

  • Market trends, user criteria, technology trends in various aggregates in an EV.
  • Cost trends as well as supply chain trends.
  • Attention to regulatory policies and environmental issues and trends.

Learning Outcomes:

  • Ability to understand and address user needs, including performance, costs and safety
  • Ability to understand and apply new solutions in eMobility on account of evolving technologies.
  • Ensure compliance to regulatory needs, standards and recyclability requirements while engineering or developing an EV or its aggregate.

Applications of the Module:

  • product planning, program management for vehicles in OEMs.
  • Development and testing of aggregates for an EV.
  • Context and direction setting in non-engineering functions like sourcing, quality, production and recycling

MODULE – 2 : Economics for eMobility

Module Duration:

6 hours of recorded video and offline sessions

Faculty:

Professor Santosh Kumar Sahu

Associate Professor, Department of Humanities and Social Sciences, IIT Madras.

Module Description:

The module on Economics of eMobility will give students an idea about the basic principles of economics, that are applied in explaining the EV Ecosystem both globally and, more specifically, in India

Topics covered:

  • Basic economics principles, Economics of EV, Industrial Policy and Energy Economics, Economics of Externalities and renewable energy, The Market for EVs and Supply Chain Challanges

Learning Outcomes:

  • Ability to understand basic concepts of economics.
  • Ability to understand the economics of externalities.
  • Application of economic theories in the context of EVs.

Applications of the Module:

  • Business trends and economics of EV.
  • Demand and supply scenarios of EV.
  • EV and the economics of global climate change.

MODULE – 3 : Vehicle Engineering and Development

Module Duration :

12.5 hours of recorded video and offline sessions

Faculty:

Mr. B. Balaji

Guest Faculty

Department of Engineering Design, IIT Madras

Module Description:

This module will give the students an idea about the overall electric vehicle engineering and development in terms of understanding customer attributes and functional requirements.

Topics Covered:

A discussion on how to convert the parameters customer attributes and functional requirements into engineering specifications leading towards specification and selection of aggregates and systems to meet various targets including vehicle performance, operational economy, durability, regulatory requirements

Learning Outcomes:

  • Possess understanding of customer focused electric vehicle development
  • Understand vehicle architecture, Modularity and Vehicle packaging
  • Understand intended vehicle application, operation duty cycle etc.
  • Have an exposure to key regulatory requirements, safety, and environmental aspects
  • Understand the electric vehicle contemporary development process practiced in automotive organizations with a step by step approach

Applications of the Module:

This module would be useful for people who are engaged by Vehicle OEMs- product development engineering division of the electric vehicle (EV) involving design and development process system and aggregate suppliers, and EV start-ups , engineering services organizations focussing on electric vehicles

MODULE 4 : Vehicle Dynamics and Control

Module Duration:

11 hours of recorded video and offline sessions

Faculty:

Prof. C. S. Shankar Ram

Professor,

Department of Engineering Design, IIT Madras

Module Description:

This module on Vehicle Dynamics and Control discusses the key concepts related to the analysis of road vehicle dynamics and control systems.

Topics covered:

  • Introduction to dynamic systems.
  • Understanding the three broad sub-domains of vehicle dynamics: longitudinal dynamics, lateral dynamics, and vertical dynamics.
  • Overview of key concepts from control systems.

Learning Outcomes:

  • Possess an understanding of the fundamental concepts of dynamic systems.
  • Analyze a road vehicle for its response when steered.
  • Understand the response of a road vehicle during drive and braking.
  • Characterize the response of vehicle suspension towards ride comfort, pitch, and roll analysis.
  • Have an exposure to key ideas from control systems.

Applications of the Module :

  • This module would be useful in product development engineering and computer aided engineering applications in the Electric Vehicle (EV) design and development process.
  • The concepts learnt would help engineers analyze the dynamic response of an EV at the design stage, and the results could lead to potential re-design and control for improved vehicle performance.

MODULE 5 : Battery Technology

Module Duration:

13 hours of recorded video and offline sessions

Faculty:

Prof. S. Ramanathan

Professor, Department of Chemical Engineering, IIT Madras

Prof. Kothandaraman Ramanujam

Professor, Department of Chemistry, IIT Madras

Module Description:

This module on Battery Technology covers the electrochemical fundamentals of a battery, which includes materials, crystal structure of materials, where Li+ is intercalated; how a battery’s cells are manufactured and put together; the battery management system; the design, manufacturing and storage of battery systems.

Topics covered:

  • Explain the electrochemical fundamentals and battery chemistry: next-generation batteries like Na-ion and Na-S will also be introduced.
  • Describe the cell manufacturing processes, and details of tests and measurements.
  • Modeling of batteries to estimate the state of charge and state of health are explained.
  • Safety aspects of lithium-ion batteries, and various failure mechanisms are presented.
  • Options available for battery management systems and the implications are summarized.
  • Cost estimation using BatPac® tool is illustrated

Learning Outcomes:

  • Understand the implications of various battery chemistries
  • Interact well with cell manufacturers, and grasp the implications of changes in manufacturing processes
  • Interpret the results of cell and battery testing
  • Make informed choices on pack design and BMS selection, to enhance the performance without compromising safety
  • Estimate the cost of various choices of battery chemistries

Applications of the Module:

  • The Battery Technology module is relevant to EV and battery manufacturers.

MODULE 6 : Power Electronics

Module Duration:

7 hours of recorded video and offline sessions

Faculty:

Prof. Srikanthan Sridharan

Assistant Professor, Department of Engineering Design,

IIT Madras

Module Description:

The module on Power Electronics deals with the processing and controlling of electrical power to provide various voltages and currents that are required in a given application.

Topics covered:

  • DC-DC converters: Buck, Boost, bidirectional and interleaved converters
  • Isolated DC-DC converters: Forward converter and Flyback converter
  • DC-AC converters: Single-phase and three-phase inverters
  • Pulse-width modulation (PWM): Selective Harmonic Elimination, Sinusoidal PWM, Third-harmonic injection

Learning Outcomes:

  • Understand and analyze the operation of several fundamental power electronic circuits responsible for DC-DC conversion and DC-AC conversion

Applications of the Module:

  • Automotive electronics operating at different voltage levels
  • Power converters for traction motor and auxiliary drives in EVs and HEVs

MODULE 7 : Motors for Electric Vehicles

Module Duration:

5 hours of recorded video and offline sessions

Faculty:

Mr L. Kannan

Founder Director,

Motorz Design and Manufacturing Private Limited.

Module Description:

This module covers the physics of EV motors, the typical specifications that define their performance and ways to optimize them.

Topics covered:

  • Introduction to Scientific Notations and Units
  • Relationships Vs. Scaling
  • Torque Produced by Motor & Torque Saturation
  • Physics of a DC Motor
  • Three Phase Circuits – A quick recap
  • Speed of a motor – Electrical and Mechanical
  • Property of a PMSM Motor
  • Engineering Considerations

Learning Outcomes:

  • To understand, analyze the principles of Permanent Magnet Synchronous Motor for electric vehicle application
  • Understand the performance requirements of an electric vehicle and correlate them with the specifications of the traction motor.
  • Develop the specifications of a motor that would align with the demands of an electric vehicle – To select an appropriate motor
  • Appreciate the key engineering constraints that impact the choice of a motor for a given EV application – such as Size, Cost, Efficiency, etc.
  • Develop a first-cut design of a motor that would meet the targeted performance of a EV
  • To characterize and understand an out-of-shelf motor by using datasheets and specification sheets
  • Understanding motor’s technical and engineering considerations while designing and developing motors.

Applications of the Module:

Ability to spec the motor needed for an EV application and select the one most suitable for it.

MODULE 8 : Thermal Management for Electric Vehicles

Module Duration :

13.5 hours of recorded video sessions

Faculties:

Prof. Srikanth Vedantam

Professor, Department of Engineering Design,

IIT Madras.

Dr.Kaushal Jha

Adjunct Professor, Department of Engineering Design,

IIT Madras.

Module Description:

This module on Thermal Management is an important aspect of most Industrial systems and Electric Vehicle systems and sub – systems are not exceptions to this

Topics covered:

  • In EVs, systems like Li-ion battery pack, motors and controllers etc. need to be operated within specified temperature limits. If thermal management is not done effectively, it may lead to unsafe operation and could affect the performance, reliability and thus cost & affordability of the EV
  • How to apply various thermal management techniques to build and optimise different types of EV thermal management systems.

Learning Outcomes:

  • Fundamentals of Thermodynamics and Heat Transfer.
  • Heat load/Cooling load Li-ion battery, Traction Motors and Controller, Power electronics.
  • Various types of thermal management techniques.

Applications of the Module :

The Thermal Management module is relevant to EV and battery manufacturers

MODULE 9 : System Integration and Calibration

Module Duration:

4 hours of recorded video and offline sessions.

Faculty:

Mr. Thiru Srinivasan

CEO

CEO, Center of Excellence in Advanced Automotive Research (CAAR), IIT Madras

Module Description:

Vehicle is made up of several subsystems / components designed / selected based on specifications for the overall vehicle. These subsystems / components should be integrated into a vehicle and validated to ensure that the vehicle requirements are met – at every stage in the design and product development. This module focuses on the methodologies used in accomplishing this.

Topics covered:

  • Vehicle System integration representations, maps and their relevance Requirements for Integration – Mechanical, Electrical Power, Signals, Analysis and Control.
  • Calibration between subsystems.
  • Testing, Validation and Certification / Approvals.

Learning Outcomes:

  • Appreciation for how the Vehicle subsystems work together into a full system resulting in the performance of the vehicle.
  • Gain understanding of the typical integration constraints and complexities, and methodologies to optimize the overall vehicle performance, cost etc.
  • Understanding how test methods relate to the vehicle Requirements in the real world with respect to the test equipment and Processes.

Applications of the Module:

  • Systems Integration Reviews from early design stages, through development to product validation
  • Product Performance testing, feedback, and validation

MODULE 10 : Powertrain and Fuels

Module Duration:

3 hours of recorded video and offline sessions

Faculty:

Dr. Kaushal Jha

Adjunct Professor, Department of Engineering Design,

IIT Madras

Module Description:

The powertrain is the most essential part of the vehicle, as it is responsible for the vehicle’s movement. The energy to run the powertrain is an important consideration in the evaluation of a vehicle.

Topics covered:

  • Fundamentals of power trains and the forms of energy required to operate it.
  • Multiple power trains architecture, both conventional and contemporary
  • Understanding the effect of the power trains and their fuels on environment through emission, cost and efficiency analysis.

Learning Outcomes:

  • Conventional and Contemporary powertrain used in automobile
  • Energy sources to power up an automobile
  • Various approaches to calculate the performance, efficiency and fuel/energy storage
  • To lay/develop a foundation for energy conversion, efficiency, emission and renewables in an automobile

Applications of the Module:

  • This module will help professionals and researchers develop a fair understanding of powertrains and fuels, and will enable them to decide and move towards clean transportation
  • The content of the module is relevant for both academic and industrial requirements

MODULE 11 : Charging Infrastructure

Module Duration:

5 hours of recorded video and offline sessions

Faculty:

Prof. Deepak Ronanki

Assistant Professor, Department of Engineering Design,

IIT Madras

Module Description:

This module on battery charging technology covers the fundamentals and operation of various kinds of grid-connected battery chargers, their components, electric vehicle supply equipment, standards, charging protocols and communication

Topics Covered:

  • Charging infrastructure challenges, types of electric vehicle supply equipment (EVSE), charger classification and standards
  • Emphasis will be given to various configurations and architectures of onboard and offboard charging technologies
  • Case studies along with an overview of upcoming techs and trends in battery charging infrastructure

Learning Outcomes:

  • Understand how energy is pumped into the battery pack using various modes of charging
  • Understand the fundamentals and overview of electric vehicle supply equipment, standards, charging protocols and communication
  • Understand the requirements and various conversion stages in battery charging
  • Familiarize with modern battery charging technologies

Applications of the Module:

Product development engineering with regard to battery charging technology, electric vehicle supply equipment and communication protocols

Module 12 : Materials for eMobility

Module Duration:8 hours of recorded video and offline sessions.

Faculty:

Prof. R. Jayaganthan

Professor, Department of Engineering Design,

IIT Madras

Module Description:

This module will discuss materials utilized for fabricating various parts of an electric vehicle; ranging from battery pack, power electronic modules, motors, power train, suspension and regenerative braking system.

Topics Covered:

  • Materials utilized for fabricating various parts of an electric vehicle; ranging from battery pack, power electronic modules, motors, power train, suspension and regenerative braking system.
  • The electrical, thermal and mechanical properties of materials and its correlation with microstructure and testing procedures for generating these properties, which constitute design parameters will be covered.
  • Special emphasis will be given on battery materials, thermal interface materials, magnetic materials used for motors, and materials selection criteria for the specific application in Electric vehicles.

Learning Outcomes:

  • Expose basic concepts of materials science covering thermal, electrical, and mechanical properties of materials used for fabricating various parts of electrical vehicle
  • Equip the electric vehicle design engineers with the selection criteria for choosing right materials to fulfill the manufacturability and the functional aspects of parts in EV

Applications of the Module:

  • This module is essential for the design and development of prototypes of various parts of Electrical vehicles. A thorough understanding of electrical, thermal, magnetic and mechanical properties of materials will enable design engineers to pick up right candidate materials for the manufacturing of battery packs, power electronic modules, and motors
  • It will also enable design engineers to address the failure issues such as thermal runaway, leakage, and poor performance of life of battery pack and motors from the materials science perspectives besides design issues.

Module 13 : Electromagnetic Compatibility for Electric Vehicles

Module Duration:

7.5 hours of recorded video and offline sessions

Faculty:

Prof Kavitha Arunachalam,

Professor, Department of Engineering Design,

IIT Madras.

Module Description:

This module will cover Electromagnetic compatibility for electric vehicles.

Topics Covered:

  • Provide an overview of EM compatibility for product design.
  • Emphasis will be given to non-ideal behavior of electronic components commonly used in EVs, and the EMC directives.

Learning Outcomes:

To introduce non-ideal behavior of electronic components in a system; with emphasis on product design, and EMC directives for compliance aspects of electronic products.

Applications of the Module:

Product development engineering of Electric Vehicles

 

Certification

Certificates will be issued only if the following criteria are satisfied:

  1. Attending all the Saturday online live sessions

  2. Submissions of all weekly Assignments and Quizzes are mandatory

  3. Submission of 13 feedback forms (for each module and respective faculty) are mandatory.

Certificate criteria :

Total % will be calculated from all 3 categories (Assignments, Quizzes and Attendance of Live sessions)

Type of certificate that will be issued

75% -100% Successfully completed
50% -74% Completed
25% – 49% Participated
<25% No Certificate

 

 

Certificate Template

Eligibility & Fees

Eligibility : 

Bachelor’s degree in an allied Engineering or Science domain (B.Tech , B.E , B.Sc Etc.,)

Course fees:  

  • Indian learners : INR 1,18,000 (INR 1, 00, 000 + 18% GST)
  • International learners – USD 1430

Following bulk discounts are available for corporate nominations under single billing

5-10 candidates | 5% discount

11-20 candidates | 10% discount

21 and above candidates | 12.5% discount

Course fee payment in INR can also be made in following instalments:

  • 2 instalments of Rs. 59,984 each

OR

  • 6 instalments of Rs.20,158 each

NOTE:    The first instalment is to be paid on registration and the next instalments over the course period.

 

 Fees paid are non-refundable and non-transferable.

Course Policy

Please refer HERE to read about policies on Admission, Pricing, Payment and Attendance.

Video Feedbacks from previous Cohorts

 

Testimonials from previous Cohorts

Cohort 1 Testimonials:

 

TVS Motor :

Even though I came from a mechanical background, I was able to understand the power electronics basics through this program. The sessions were very impactful for me and these learnings will help me to excel in my career.

 

Caterpillar :

This was an enjoyable course where I was able to understand the intrinsics of the electric vehicles, EV technology and market acceptance of EV

 

Pennar Industries :

This program was very useful to me and provided a lot of bandwidth to understand what we can do as a product adjacency or move up the value chain.

 

Legrand :

Even though I am a non-technical professional, I could understand the material well on how to make battery choice and how designs are driven by handling and performance requirements and vice versa.

 

 

Cohort 2 testimonials:

 

John Deere :

  • Industry experts helped us understand more about EV, cleared some myths around EV and we got industry exposure towards EV as well. The course was very meaningful and covered practical industry operations

  • Teaching correlated the theory with real life scenarios and concepts were very well explained

 

Tata Elxsi :

Live interaction with faculty was very fruitful with a good amount of information on the current trends and challenges in the EV adoption domain.

 

ExxonMobil India :

The content & delivery was excellent. Lots of additional info like links were also shared for future reference. This was extremely useful & thank you for the same.

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