Electric vehicle
(EV) technology represents a revolutionary shift in transportation, utilizing
electricity as the primary source of propulsion instead of traditional internal
combustion engines (ICE). EVs incorporate various technologies and components
to create cleaner, more energy-efficient, and technologically advanced
vehicles.
EV technology
represents a transformative shift in the automotive industry, promoting
sustainability, technological innovation, and the transition towards cleaner
and more efficient modes of transportation. Learning about electric vehicle
technology is crucial for fostering environmental consciousness, driving
technological innovation, creating career opportunities, informing consumer
decisions, shaping policy, and ultimately contributing to a more sustainable
and greener future in transportation.
| Course Status : | Completed |
| Course Type : | Elective |
| Language for course content : | English |
| Duration : | 8 weeks |
| Category : |
|
| Credit Points : | 2 |
| Level : | Continuing Education |
| Start Date : | 15 Jul 2024 |
| End Date : | 31 Oct 2024 |
| Enrollment Ends : | 31 Aug 2024 |
| Exam Date : | 08 Dec 2024 IST |
| Exam Shift : | Shift-1 |
Note: This exam date is subject to change based on seat availability. You can check final exam date on your hall ticket.
|
swayam@nitttrc.edu.in, swayam@nitttrc.ac.in
|
Week No. |
Units and Lessons/Sub-Units |
|
1. |
Electric Vehicle Components and
Architecture History of Electric
Vehicles – Automobile power Train-Architecture of Electric Vehicles -Types of
Electric Vehicles- Break down of key components in EV |
|
2. |
Embedded Controllers for EV Vehicle Control Unit –Controllers used in EV-
AutomotiveEmbedded applications |
|
3. |
Power Electronics Converters for EV Power Semiconductor devices- Rectifiers- DC -DC converters-Inverters -Bidirectional Chargers |
|
4. |
Electrical Motors for EV Induction Motors -Permanent
Magnet Brushless DC motor – Switched reluctance motor – Permanent magnet
synchronous motor and their controllers -Regenerative Braking-Integration with Vehicle Systems |
|
5. |
Battery Management Systems (BMS) for EV Batteries –Types
of Batteries- Battery packs- Energy Density and Range- Battery Degradation
and Lifetime-Functions of a BMS-State
of Charge (SoC) –-State of Health-Temperature Management- Cell Balancing- Charging Control-Sensors-Battery Management Systems
-User Interface and Communication |
|
6. |
Modelling and Simulation of EV Vehicle Dynamics
Modelling- Battery Modeling-Motor and
Power Electronics Modeling-Thermal Management Modeling-Integration and
System-Level Simulation |
|
7. |
Electric Vehicle
Charging ON Board chargers – Off board chargers-
Level 1 Charging -Level 2
Charging -DC fast Charging-Charging
Connectors- Range and Efficiency |
|
8. |
Advanced Driver
Assistant Systems and Electric Vehicle standards Driver Monitoring Systems-Gesture
Control and Voice Recognition- Automatic
Emergency Braking-Lane change detection -Traffic Sign Recognition-sensors for
ADAS- Vehicle Safety Standards-
Government incentives and policies |
1. C.C Chan, K.T Chau: Modern Electric Vehicle Technology, Oxford
University Press Inc., New York 2001
2. Iqbal Hussein, Electric and Hybrid Vehicles: Design Fundamentals, CRC
Press, 2003.
3. James Larminie, John Lowry, Electric Vehicle Technology Explained,
Wiley, 2003.
4. Fundamentals of Vehicle Dynamics, Thomas Gillespie, SAE
Publication.
5. Electric vehicle battery systems by Sandeep Dhameja, Newnes Publishing,
2002
6. Frank Vahid and Tony Givargis, Embedded system design: A unified
hardware/Software introduction, Third edition, John Wiley & sons, 2010
7. R. Krishnan, “Electric Motor Drives - Modeling, Analysis & Control”,
PHI Learning Private Ltd, 2009.
8. L. Ashok Kumar, S. Albert Alexander, “Power Converters for Electric
Vehicles”, CRC Press, Taylor & Francis Group, 2021
9.
Automotive Industry Standards, India, 2015-2016
Dr G. A. Rathy, is working as Professor in the Department of Electrical Electronics and Communication Engineering, NITTTR, Chennai since 1998. Her area of Specialization is Power Electronics and Drives and she has organized more than 250 Faculty Development Programmes for Technical Teachers of the southern region of India. Apart from the core engineering, she has expertise in the areas of curriculum development and curriculum evaluation. She designed, developed and evaluated the Power Electronics Engineering curriculum using Criterion Referenced Test and Revised Blooms Taxonomy.
She effectively contributed as resource person in more than 15 International Overseas Teachers Courses and organized more than 5 International Overseas Teachers Courses. he specially designed skill oriented programmes for Electrical Engineering discipline such as PLC and SCADA, Power Electronics, PCB design, Industrial Automation, Electrical CAD, Special Electrical machines, IoT and Electric Vehicle Technology. She developed Power Electronics and Special Machines Lab, Industrial Automation Lab and Electrical Simulation lab. She has published more than 25 articles in National/International journals/conferences and three text books.. She successfully completed four MHRD sponsored projects worth Rupees 30 lakhs and modernized the department infrastructure. She is motivated towards the curriculum evaluation of various Engineering curriculum with latest pedagogical methods. She is now involved in the research area of developing and analyzing skill oriented Industry Inclined curriculum.
Dr. R. Suja
Mani Malar is working as an associate professor
in the Department of Electrical, Electronics, and Communication Engineering,
NITTTR Chennai. She received a B.E. degree in Electrical and Electronics
Engineering from Manonmaniam Sundaranar University and M.E. degree in Process
Control and Instrumentation from Annamalai University. She had completed a
Ph.D. degree in the area of control and instrumentation from Anna University,
Chennai. She also obtained
MBA (Education Management) degree from Alagappa University. She has more than
23 years of teaching experience at various reputed engineering colleges in
Tamil Nadu. Her research interests include Artificial Intelligence, control and
Instrumentation, image processing, electric drive control, and robotics. She
has published 75 research papers peer reviewed journals and conference
proceedings .She has additionally six patents published. She has also published
two text books. She is a life member of
ISTE, IAENG, and IACSIT. She is an
approved Research Supervisor for the Faculty of Electrical Engineering at Anna
University Chennai. She has produced 5 Ph.D’s and is currently guiding 3
research scholars at Anna University Chennai. She is a life member of
ISTE, IAENG, and IACSIT.
She has organized several workshops and short
term courses related to Artificial Intelligence, Soft Computing, control
systems and Instrumentation. She is versatile and skilful in handling different
subjects such as Electric Circuits, Power plant Engineering, High voltage
Engineering, Protection and switchgear, Control System, Sensors and
Transducers, Measurements and Instrumentation, Industrial Instrumentation,
Digital Signal Processing, Process Control and Computer Control of Process.
"The SWAYAM Course Enrolment and learning is free. However, to obtain a certificate, the learner must register and take the proctored exam in person at one of the designated exam centres. The registration URL will be announced by NTA once the registration form becomes available. To receive the certification, you need to complete the online registration form and pay the examination fee. Additional details, including any updates, will be provided upon the publication of the exam registration form. For more information about the exam locations and the terms associated with completing the form, please refer to the form itself."
Grading Policy:
- Internal Assignment Score: This accounts for 30% of the final grade and is calculated based on the average of the best three assignments out of all the assignments given in the course.
- Final Proctored Exam Score: This makes up 70% of the final grade and is derived from the proctored exam score out of 100.
- Final Score: The final score is the sum of the average assignment score and the exam score.
Eligibility for Certification:
- To qualify for a certificate, you must achieve an average assignment score of at least 10 out of 30, and an exam score of at least 30 out of 70. If one of the 2 criteria is not met, you will not get the certificate even if the Final score >=40/100.
Certificate Details:
- The certificate will include your name, photograph, roll number, and the percentage score from the final exam. It will also feature the logos of the Ministry of Education, SWAYAM, and NITTTR.
- Certificate Format: Only electronic certificates (e-certificates) will be issued; hard copies will not be dispatched.
Once again, thanks for your interest in our online courses and certification. Happy Learning.
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