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M.Tech. in Electric Vehicle Technology

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Level
Postgraduate
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Duration
2 Years
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Fee Structure
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M.Tech. in Electric Vehicle Technology

Admission Procedure

Merit prepared on basis of the qualifying exam

Provisional Admission

B.Tech. (Automobile / Aerospace & Space Tech / Electrical / EEE / Mechanical / Mechatronics / Robotics)

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About The Program

The M.Tech. in Electric Vehicle Technology program offered by the Department of Electrical Engineering is a cutting-edge postgraduate course designed to equip students with advanced knowledge and skills in the rapidly evolving field of electric vehicles (EVs).

The program focuses on the interdisciplinary aspects of EV technology, encompassing power electronics, energy storage systems, electric drivetrain design, battery management systems, and smart charging infrastructure.

This program emphasizes hands-on learning through state-of-the-art laboratories, industry collaborations, and research projects aimed at solving real-world challenges in the EV domain. Graduates of this program are well-prepared for careers in EV manufacturing, renewable energy integration, automotive research and development, and related sectors, making them valuable contributors to the global transition toward sustainable transportation.

Eligibility Criteria for the admissions in the Program

B.Tech. (Automobile / Aerospace & Space Tech / Electrical / EEE / Mechanical / Mechatronics / Robotics) from any AICTE or UGC approved Institute, followed by a personal interview, and admission granted as per merit decided by the university.

Teaching Pedagogies

  • Research-based learning through real-world electric vehicle (EV) projects.
  • Problem-based learning focused on solving complex EV challenges.
  • Design-oriented learning using simulation and modeling tools.
  • Laboratory-intensive training with advanced EV and battery testing setups.
  • Industry-integrated learning through workshops, expert talks, and internships.
  • Case-based learning focused on EV technologies and global best practices.
  • Simulation-driven learning using tools such as MATLAB/Simulink, PSIM, and related platforms.
  • Project-based learning through capstone projects and industry-sponsored initiatives.
  • Flipped classroom approach supported by pre-class digital learning content.
  • Collaborative and interdisciplinary learning environments.
  • Experiential learning through EV teardown, component testing, and prototype development.
  • Continuous assessment and feedback-driven improvement.

Specialization

Electric Vehicle Technology

Program Educational Objectives (PEOs)

PEO1

Graduates will develop advanced knowledge and specialized skills in electric vehicle technologies, including power electronics, energy storage systems, electric drivetrains, and smart mobility solutions, enabling them to innovate and excel in the EV industry.

PEO2

Graduates will engage in research, investigation, and development work to address complex engineering challenges in electric mobility, contributing to technological advancements and sustainable transportation.

PEO3

Graduates will demonstrate strong communication, teamwork, ethical values, and leadership skills, enabling them to pursue successful careers in industry, academia, research organizations, or entrepreneurial ventures related to electric vehicle technology.

Program Outcomes (POs)

NBA has defined the following three POs for a graduate of PG Engineering Program:

PO1

An ability to independently carry out research /investigation and development work to solve practical problems.

PO2

An ability to write and present a substantial technical report/document.

PO3

Students should be able to demonstrate a degree of mastery over the area as per the specialization of the program. The mastery should be at a level higher than the requirements in the appropriate bachelor program

Program Specific Outcomes (PSOs)

NBA has defined the following three POs for a graduate of PG Engineering Program:

PSO1

Ability to design, analyze, and optimize electric vehicle subsystems such as power converters, battery management systems, electric drives, and charging infrastructure using advanced tools and simulation platforms.

PSO2

Ability to evaluate, integrate, and manage advanced energy storage technologies, battery modelling techniques, and power management strategies for efficient, safe, and reliable electric vehicle operation.

PSO3

Ability to develop innovative, sustainable, and industry-oriented solutions by applying interdisciplinary knowledge in EV technology, including renewable energy integration, smart grids, and intelligent transportation systems.

Career Pathways

The electric vehicle (EV) industry offers diverse and exciting career opportunities as the world transitions toward sustainable transportation. Skilled professionals in this rapidly growing field are in high demand across various domains, including:

Engineering and Design
  • Innovate and develop the next generation of electric vehicles.
  • Focus on advancements in battery technology, electric drivetrains, and energy efficiency.
Manufacturing and Production
  • Manage the production process for EV components and vehicles.
  • Ensure high standards of quality and efficiency.
Software Development

Create advanced software solutions for vehicle management, autonomous driving, and connectivity features.

Sales and Marketing
  • Drive EV adoption by educating consumers on the benefits of electric mobility.
  • Develop strategies to promote and market EV products effectively.
Maintenance and Support

Provide technical support and maintenance services to ensure the reliability and longevity of electric vehicles.

Course Curriculum

Semester 1

  • Advanced Mathematics
  • Advanced Power Electronics
  • Automotive Technology
  • Electrical Machines and Drives
  • Electric Vehicle Technology
  • Research Methodology and IPR
  • Advanced Power Electronics and Drives Lab
  • Technical Seminar

Semester 2

  • Vehicle Design and Dynamics
  • Energy Storage Systems and Management
  • EV Battery Charging System
  • Embedded Systems for Automobiles
  • Program Elective – I
  • Digital Signal and Image Processing
  • Advanced Microcontroller-Based Systems
  • Control of Special Electric Machines
  • Fuel Cell Technology
  • Charging Infrastructure
  • Sensors for EV Systems
  • Battery Management System Lab
  • Embedded Systems for Automobile Lab
  • Mini Project

Semester 3

  • Modelling, Simulation and Control of Hybrid Electric Vehicles
  • Program Elective – II
  • Robotics & Automation
  • Industrial Automation and Control
  • Renewable Energy Resources and Energy Management
  • Virtual Instrumentation
  • Smart Grid for EVs
  • Control Systems for Electric Vehicles
  • Program Elective – III
  • Industrial Internet of Things
  • Machine Learning
  • Microgrid Systems
  • Electric Vehicle Testing, Standards and Legislation
  • Life-Cycle Analysis for Electric Vehicles
  • Advanced Optimization Techniques
  • Dissertation Phase – I

Semester 3

  • Dissertation Phase – II

Frequently Asked Questions

The program focuses on advanced concepts related to electric vehicles, including power electronics, electric drivetrains, battery management systems, energy storage technologies, and smart charging infrastructure. It prepares students for specialized roles in the fast-growing EV industry.

Students gain hands-on experience through state-of-the-art EV laboratories, advanced simulation tools, industrial internships, and research-driven projects. They work on real-world challenges related to battery systems, EV design, charging infrastructure, and energy integration.

Graduates can pursue careers in EV design and engineering, battery technology development, EV manufacturing, automotive R&D, software development for mobility systems, and maintenance and support roles. Opportunities exist in leading EV companies, renewable energy firms, automotive manufacturers, and research organizations.

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