Program Overview
The M.Tech in Electric Vehicle Technology at COEB offers specialized training in next-generation mobility solutions. As one of the preferred Colleges for MTech in Bhubaneswar, the institute provides advanced facilities, including e-Mobility labs and industry-oriented learning. Known as a reputed M Tech College in Odisha, COEB focuses on battery management, EV systems, and power electronics. Students engage in projects, workshops, and research activities that build strong technical expertise. This program opens career opportunities in EV manufacturing, research, and sustainable energy industries.
- EV systems, electric drives & control fundamentals
- Battery technology & BMS basics
- Hands-on training in e-Mobility Lab
- Simulation & real-world EV projects
- Power electronics & system integration
- Workshops, seminars & industry visits
- Expert sessions from EV professionals
- Research in EVs, energy & automation
Career Opportunities
EV Battery & Energy Storage Engineer
A high-demand role focused on battery design, thermal management, and BMS. Key areas include lithium-ion batteries, SOC/SOH estimation, and safety systems. With rapid growth in energy storage beyond EVs, this field offers strong career stability and investment potential.
EV Power Electronics & Drive Engineer
Involves working with converters, inverters, and motor drives for EV powertrains. Skills include DC-DC converters, motor control, and simulation tools. Essential for EV efficiency and performance, making it a core and stable career path.
EV Charging Infrastructure & Smart Grid Engineer
Focuses on charging station design, grid integration, and V2G systems. With rising EV adoption, this sector is expanding rapidly, offering significant growth opportunities in India and globally
EV R&D / Design Engineer (Powertrain & Vehicle Systems)
Specializes in EV innovation, including motor design, vehicle dynamics, and system integration. Requires CAD and simulation expertise, offering high-paying, research-driven career opportunities.
Curriculum Specialisations
Our curriculum offers diverse tracks to master cutting-edge technologies in civil engineering.
Electric Powertrain Systems
Focuses on the design and control of EV propulsion systems, including electric motors such as BLDC, PMSM, and induction motors. It also covers motor drives, control strategies, transmission systems, and efficiency optimization techniques.
Battery Technology & Energy Storage
Covers advanced energy storage systems used in electric vehicles, including lithium-ion and emerging battery technologies. It also includes Battery Management Systems (BMS), thermal management, and battery lifecycle analysis.
Power Electronics & Drives
Deals with the conversion and control of electrical power in EVs, including DC-DC converters, inverters, and switching devices like IGBT, MOSFET, and SiC. It also focuses on control techniques for power electronic systems.
Charging Infrastructure & Smart Grid Integration
Focuses on EV charging systems such as AC/DC and fast charging technologies. It also covers vehicle-to-grid (V2G) systems, grid integration, and load management strategies.
Control Systems & Embedded Systems
Covers automation and real-time control of EV components, including embedded controllers, microcontrollers, sensors, and system simulation for efficient vehicle operation.
Vehicle Dynamics & Automotive Engineering
Deals with the mechanical and dynamic behavior of electric vehicles, including vehicle modeling, aerodynamics, braking systems, and chassis and suspension fundamentals.
Autonomous & Connected Electric Vehicles
An emerging area integrating AI with EVs, covering ADAS, sensors, IoT, communication systems, and the basics of autonomous vehicle control.
Renewable Energy Integration & Sustainability
Focuses on integrating renewable energy with EV systems, including solar-powered charging, energy management strategies, and environmental sustainability considerations.
HOD's Message
"Welcome to the M.Tech program at COEB, a leading M.Tech college in Bhubaneswar. Our programs, including Electric Vehicle Technology, focus on advanced knowledge and industry-ready skills."
Dr. Anjan Kumar Sahoo
HOD cum Assistant Professor, Electrical EngineeringFaculty Profile
Dr. Anjan Kumar Sahoo
HOD cum Assistant Professor
Dr. Sibasish Panda
Associate Professor
Dr. Mohamayee Mohapatra
Assistant Professor
Mr. Ranjan Kishore Mohanty
Assistant Professor
Ms. Debarpita Roul
Assistant Professor
Mr. Gopalkrushna Mohanty
Assistant Professor
Mr. Jaganjyoti Ranjan Das
Assistant Professor
Laboratories
Advanced e-Mobility Laboratory:
The Advanced e-Mobility Laboratory is equipped with STM32 ARM Cortex-M microcontrollers, IGBT modules with gate drivers, a 3-phase induction motor, and a BLDC motor. These systems enable efficient motor speed control, real-time processing, and power conversion applications such as DC-DC and DC-AC converters. The lab supports direct integration with MATLAB Simulink, simplifying coding and pulse generation for students and researchers. It also includes a 4-channel, 100 MHz digital oscilloscope for accurate measurement and analysis. This facility provides hands-on experience in electric vehicle systems, motor control, and power electronics applications.
Department Library
Our specialized library contains over 2,500 volumes focused on electrical engineering, from classical electromagnetic theory to modern grid analytics.
- IEEE Journals Access
- Standards & Guidelines Archive
- Electrical Design Handbooks
PEO's & PO's
Program Educational Objectives (PEOs)
PEO 1: Graduates will establish themselves as competent professionals in the field of Electric Vehicle Technology, contributing effectively to industries related to electric mobility, energy systems, and sustainable transportation.
PEO 2: Graduates will apply advanced engineering knowledge and research skills to design, analyze, and develop innovative solutions for electric vehicles, including powertrain systems, energy storage, and charging infrastructure.
PEO 3: Graduates will engage in lifelong learning, adapt to emerging technologies, and pursue higher studies, research, or entrepreneurial ventures in electric mobility and allied domains.
PEO 4: Graduates will demonstrate professional ethics, environmental responsibility, and teamwork while addressing societal and sustainability challenges through green and energy-efficient transportation solutions.
Program Outcomes (POs)
PO 1: Apply advanced knowledge of electrical, electronics, and automotive engineering to solve complex problems in electric vehicle systems.
PO 2: Analyze and design electric powertrains, battery systems, and power electronic converters using modern engineering tools.
PO 3:Develop and implement Battery Management Systems (BMS), motor control strategies, and embedded solutions for EV applications.
PO 4:Design and evaluate EV charging systems and integrate them with smart grid and renewable energy sources.
PO 5: Conduct experiments, analyze data, and interpret results to improve the performance, efficiency, and reliability of EV components and systems.
PO 6: Use modern simulation and software tools (such as MATLAB/Simulink, ANSYS, etc.) for modeling, analysis, and optimization of EV technologies.
PO 7: Function effectively as an individual and as a member or leader in multidisciplinary teams.
PO 8:Communicate effectively through technical reports, presentations, and documentation.
PO 9: Understand and apply professional ethics, environmental considerations, and sustainability principles in EV system design and deployment.
PO 10: Engage in independent learning and research to keep pace with rapidly evolving electric vehicle technologies.