M-TECH in Electric Vehicle Technology at Manipal Institute of Technology
Udupi, Karnataka
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About the Specialization
What is Electric Vehicle Technology at Manipal Institute of Technology Udupi?
This Electric Vehicle Technology program at Manipal Institute of Technology focuses on equipping students with advanced knowledge and skills in designing, developing, and manufacturing electric and hybrid vehicles. With India''''s strong push towards sustainable mobility, the program addresses the critical demand for specialized engineers to innovate in areas like EV powertrains, battery technology, charging infrastructure, and smart vehicle systems, preparing them for the rapidly evolving automotive landscape.
Who Should Apply?
This program is ideal for engineering graduates with a B.Tech/B.E. in Mechanical, Automobile, Electrical & Electronics, or Mechatronics who are passionate about sustainable transportation. It caters to fresh graduates seeking entry into the burgeoning EV industry and working professionals looking to upskill or transition their careers towards electric mobility, offering them the specialized expertise required to contribute to India''''s EV ecosystem.
Why Choose This Course?
Graduates of this program can expect promising career paths in leading automotive OEMs, EV startups, and component manufacturers across India. Roles may include EV System Design Engineer, Battery Management System Engineer, Power Electronics Specialist, or Charging Infrastructure Developer, with entry-level salaries typically ranging from INR 6-10 LPA, growing significantly with experience in the Indian market. The curriculum prepares students for global certifications and advanced R&D positions.
Student Success Practices
Foundation Stage
Build Strong Mathematical and Core EV Fundamentals- (Semester 1-2)
Dedicate significant time to mastering advanced engineering mathematics and the foundational concepts of electric vehicle technology, power electronics, and energy storage. Form study groups to tackle complex problems and discuss theoretical concepts. Regularly revise topics to ensure a strong base for advanced courses.
Tools & Resources
NPTEL courses on Advanced Engineering Mathematics and Power Electronics, MIT Manipal library resources, MATLAB/Simulink for basic simulations, Khan Academy for foundational review
Career Connection
A solid theoretical foundation is crucial for understanding advanced EV systems, excelling in technical interviews, and developing innovative solutions in future R&D or design roles.
Engage Actively in EV Laboratory Sessions- (Semester 1-2)
Maximise learning from Electric Vehicle Laboratory – 1 & 2 by actively participating in experiments, understanding the working principles of EV components, and troubleshooting setups. Document observations meticulously and explore beyond prescribed experiments. Seek additional time in labs for personal projects if available.
Tools & Resources
Lab manuals, Oscilloscopes, Multimeters, Power supplies, Motor drive kits, Battery testing equipment available in college labs, Simulation software like PSpice/LTSpice
Career Connection
Hands-on experience with EV hardware and testing builds practical skills highly valued by industries for roles in prototyping, testing, and system integration.
Develop Research and Technical Writing Skills Early- (Semester 1-2)
Take Research Methodology seriously. Practice writing structured technical reports, conducting thorough literature reviews, and presenting findings effectively. Seek feedback from professors on assignments and seminar presentations to refine communication skills.
Tools & Resources
Grammarly, LaTeX for professional document formatting, Google Scholar, IEEE Xplore for research papers, Presentation software like PowerPoint/Keynote, MIT Manipal''''s writing center (if available)
Career Connection
Strong research and technical communication skills are essential for academic success, publishing papers, and effectively conveying complex technical information in corporate environments.
Intermediate Stage
Specialize through Electives and Industry Projects- (Semester 2-3)
Strategically choose electives that align with your career interests (e.g., Smart Grid, Autonomous Vehicles, Hybrid EVs). Proactively seek out faculty-led or industry-sponsored mini-projects related to your specialization to gain deeper practical knowledge and showcase focused expertise.
Tools & Resources
Course catalogues, Faculty research profiles, LinkedIn for industry connections, Project management tools, Specialized simulation software relevant to chosen electives
Career Connection
Specialization makes you a more attractive candidate for niche roles in the EV industry and provides a portfolio of relevant projects for interviews.
Network with Industry Professionals and Attend Workshops- (Semester 2-3)
Attend webinars, workshops, and conferences focused on electric vehicles and sustainable mobility. Leverage these opportunities to network with industry experts, alumni, and potential employers. Participate in industry-academia interaction events organized by the department.
Tools & Resources
LinkedIn, Professional associations (SAE India, IEEMA), College career fair events, Industry news portals, EV technology expos in India
Career Connection
Networking opens doors to internship opportunities, mentorship, and direct recruitment, providing insights into industry trends and job market demands.
Master Simulation and Design Software- (Semester 2-3)
Go beyond basic usage of simulation tools like MATLAB/Simulink and learn specialized EV design software (e.g., Ansys Maxwell for motor design, IPG CarMaker for vehicle dynamics, SolidWorks/CATIA for CAD). Apply these tools in lab work and project development.
Tools & Resources
Software licenses provided by MIT Manipal, Online tutorials (YouTube, Coursera), Student versions of commercial software, Departmental computing labs
Career Connection
Proficiency in industry-standard software is a critical skill for design, analysis, and R&D roles in the automotive and EV sectors.
Advanced Stage
Excel in Your Master''''s Project (Phase 1 & 2)- (Semester 3-4)
Treat your M.Tech project as a flagship opportunity to demonstrate your expertise. Choose a challenging, industry-relevant problem. Collaborate effectively with your supervisor, meticulously document your work, and aim for publishable results or a patent. Actively seek industry input if possible.
Tools & Resources
Research databases, Simulation software, Lab facilities, Mentorship from faculty and industry contacts, Technical writing guides
Career Connection
A strong, well-executed master''''s project is a powerful resume booster, often leading to publications, industry recognition, and direct job offers. It showcases problem-solving and independent research capabilities.
Prepare Rigorously for Placements and Interviews- (Semester 3-4)
Begin placement preparation early by revising core EV concepts, practicing aptitude tests, and honing interview skills. Work on your resume and cover letter, highlighting projects and specialized skills. Participate in mock interviews and group discussions.
Tools & Resources
Career development cell at MIT Manipal, Online aptitude platforms (e.g., IndiaBix), Interview preparation guides, Company websites for specific role requirements
Career Connection
Strategic preparation ensures you are well-equipped to secure coveted positions in top EV companies and startups, maximizing your chances of a successful career launch.
Develop a Professional Online Presence- (Semester 3-4)
Create and maintain a professional LinkedIn profile, showcasing your academic achievements, projects, skills, and industry interests. Share relevant articles and engage with EV thought leaders. Consider creating a personal portfolio website to display your projects and technical write-ups.
Tools & Resources
LinkedIn, GitHub for code/project repositories, Personal website builders (WordPress, Google Sites)
Career Connection
A strong online presence helps recruiters find you, demonstrates your passion for the field, and allows you to build a valuable professional network, enhancing job prospects.
Program Structure and Curriculum
Eligibility:
- B.Tech./B.E. or equivalent degree in Mechanical/Automobile/Mechatronics/Electrical & Electronics/Electronics & Communication/Industrial & Production Engineering or equivalent from a recognized University with minimum 50% aggregate marks or equivalent CGPA. A valid score in GATE is desirable.
Duration: 2 years (4 semesters)
Credits: 72 Credits
Assessment: Internal: undefined, External: undefined
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTA 5001 | Advanced Mathematics for Engineers | Core | 3 | Linear Algebra, Vector Spaces, Ordinary Differential Equations, Partial Differential Equations, Fourier Series, Probability Distributions |
| MTE 5001 | Electric Vehicle Fundamentals | Core | 3 | EV/HEV Classification, Vehicle Dynamics, Drivetrain Architectures, Power Flow Management, Regenerative Braking |
| MTE 5002 | Advanced Power Electronics for EV Applications | Core | 3 | Power Devices, DC-DC Converters, Inverters for Motor Drives, Battery Chargers, EMI/EMC |
| MTE 5003 | Energy Storage Systems for Electric Vehicles | Core | 3 | Battery Technologies (Li-ion, NiMH), Battery Management Systems, Fuel Cells, Supercapacitors, Thermal Management |
| MTE 5004 | Electric Vehicle Laboratory – 1 | Lab | 1.5 | EV Component Characterization, Battery Testing, Motor Control Experiments, Charging System Analysis, Simulation Tools |
| MTE 5005 | Research Methodology | Core | 2 | Research Problem Formulation, Literature Review, Hypothesis Testing, Data Analysis, Technical Report Writing, Ethics in Research |
| MTE 5006 | Audit Course 1 | Audit | 0 | Communication Skills, Critical Thinking, Professional Ethics, Leadership Development, Stress Management |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTE 5007 | Electric Drives and Control for EVs | Core | 3 | Electric Motors (BLDC, PMSM), Motor Control Techniques, Power Converters, Drive System Components, Sensorless Control |
| MTE 5008 | Vehicle Dynamics and Control | Core | 3 | Longitudinal Vehicle Dynamics, Lateral Vehicle Dynamics, Suspension Systems, Braking Systems (ABS, EBD), Steering Systems |
| MTE 5009 | Embedded Systems and IoT in Electric Vehicles | Core | 3 | Microcontrollers, CAN Protocol, LIN Protocol, Sensor Interfacing, Automotive IoT Applications, Diagnostic Tools |
| MTE 5101 | Smart Grid and EV Integration | Elective | 3 | Smart Grid Architecture, Renewable Energy Integration, EV Charging Infrastructure, Vehicle-to-Grid (V2G), Cyber Security in Smart Grids |
| MTE 5103 | Autonomous Vehicle Technology | Elective | 3 | ADAS Systems, Perception (LIDAR, RADAR, Camera), Localization, Path Planning, Vehicle Control, Sensor Fusion |
| MTE 5010 | Electric Vehicle Laboratory – 2 | Lab | 1.5 | EV Drivetrain Integration, Battery Management System experiments, Motor Controller Tuning, Vehicle Diagnostics, ADAS Simulation |
| MTE 5011 | Seminar | Project/Seminar | 1 | Topic Selection, Literature Review, Technical Presentation Skills, Report Writing, Q&A Session |
| MTE 5012 | Audit Course 2 | Audit | 0 | Intellectual Property Rights, Entrepreneurship, Project Management, Conflict Resolution, Time Management |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTE 6001 | Vehicle Body Engineering and Crashworthiness | Core | 3 | Vehicle Structures, Materials (Lightweight), Crash Energy Absorption, Occupant Safety, NVH Analysis, CAE for Crash |
| MTE 6002 | Charging Infrastructure and Grid Integration for EVs | Core | 3 | Charging Standards (Type 1, Type 2, CCS), AC/DC Charging, Smart Charging Algorithms, Grid Stability, V2G Implementation |
| MTE 5105 | Hybrid Electric Vehicles | Elective | 3 | HEV Architectures (Series, Parallel), Energy Management Strategies, HEV Components, Plug-in Hybrid EVs, Fuel Economy |
| MTE 5106 | Fuel Cell Technology | Elective | 3 | Fuel Cell Types (PEMFC, SOFC), Electrochemical Principles, Fuel Cell Stacks, Hydrogen Production, Storage and Safety |
| MTE 6003 | Electric Vehicle Design and Simulation Lab | Lab | 1.5 | EV Powertrain Design, Component Sizing, Vehicle Modeling (ADAMS, MATLAB/Simulink), Performance Simulation, CAD Software |
| MTE 6004 | Project Phase – 1 | Project | 4 | Problem Definition, Literature Review, Methodology Design, Preliminary Results, Project Proposal, Experimental Setup |
| MTE 6005 | Industry Internship | Internship | 0 | Real-world Application, Problem Solving, Industry Best Practices, Professional Networking, Technical Report |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTE 6006 | Project Phase – 2 | Project | 12 | Advanced Research, Design Implementation, Data Analysis, Result Interpretation, Thesis Writing, Oral Defense |
| MTE 6007 | Technical Writing and Presentation | Skill Development | 1 | Scientific Writing, Research Paper Structure, Data Visualization, Effective Presentations, Referencing Styles |
| MTE 6008 | Comprehensive Viva Voce | Viva Voce | 2 | Overall Subject Comprehension, Core Concepts, Research Understanding, Oral Examination, Critical Thinking |