The B. Tech Electrical Vehicle Technology (EVT) program is a multidisciplinary engineering degree focused on electric mobility systems, battery technology, power electronics, vehicle electrification and intelligent transportation. The curriculum integrates electrical engineering, thermal sciences, embedded systems and digital engineering to develop strong analytical and design capabilities.
Through industry-aligned laboratories, simulation tools (MATLAB, CFD, CAD, CAN) and project-based learning, students gain hands-on experience in EV powertrains, battery management, charging infrastructure and vehicle electronics. The program prepares graduates for scientific, technology-driven careers in electric vehicles, energy systems and sustainable mobility sectors.
- 21+ years of experience
- Focus on student-centered learning
- Problem-based learning and industry-relevant curriculum
- Best placement opportunities in reputed companies
- Industrial training in top firms and organizations
- 100% placement guidance and support
- Industry visits, seminars, workshops, expert lectures, tech fests and hackathons.
- Active student clubs and bodies
- Multi-cultural and vibrant teaching environment
At DBUU’s B.Tech in Electric Vehicle Technology program, we shape your future in sustainable mobility with an industry-driven curriculum, expert faculty, advanced EV labs, practical hands-on training, strong placement support, and much more.
Empowering
B.Tech EVT students with
advanced EV systems,
hands-on practical training, and
real-world electric mobility applications.
At DBUU,
B.Tech EVT students are
driving the future of
sustainable mobility with
innovative EV systems and advanced electric vehicle expertise.
sustainable mobility with
In Collaboration with
Eligibility & Duration
Fee Structure
| Description | Total Fee |
|---|---|
| Academic fee (Per Year) | ₹ 2,10,000/- |
| Industry Integrated Specialization (Per Year) | ₹ 15,000/- |
One Time Fee (Admission Time Only):
| # | Description | Amount |
|---|---|---|
| 1 | Registration Fee (Non-Refundable & Non-Adjustable) -(Waived off in case of direct admission) | ₹ 1,500 |
| 2 | Admission Fee (Non-Refundable) | ₹ 7,000 |
| 3 | University Enrollment Fee (Non-Refundable) | ₹ 3,000 |
| 4 | Uniform Fee | ₹ 9,900 |
| 5 | Alumni & Degree Fee (For Final semester Only) | ₹ 2,000 |
Other Fee (Per Semester):
| # | Description | Amount |
|---|---|---|
| 1 | Exam Fee | ₹ 4,500 |
| 2 | Student Welfare and Fest | ₹ 2,000 |
| 3 | Library Fee | ₹ 750 |
| 4 | ERP Fee | ₹ 750 |
| Download Complete Fee Structure | Click here |
|---|
Program Educational Objectives (PEO's)
| PEO-1 | To be best in the professional career and/or higher education by acquiring sufficient knowledge, experience, and practical skills in the domain. |
| PEO-2 | To incorporate good attitude, communication skills, teamwork, and leadership in their profession and adapt to lifelong learning. |
| PEO-3 | To incorporate vast theoretical and practical knowledge of fundamentals to help them utilize it to develop the industry and society in general. |
Program Specific Objectives (PSO's)
| PSO-1 | To utilize the knowledge of engineering sciences required to examine, analyze and design intricate electrical and electronic devices, systems, and software. |
| PSO-2 | To design systems in the electrical area that fulfill desired needs in realistic constraints such as environmental, ethical, economic, health, social, political, safety, manufacturability, and sustainability. |
| PSO-3 | To utilize knowledge of mathematics through probability; linear algebra; and complex variables; in the context of Electrical Engineering problems. |
| PSO-4 | To function in multidisciplinary organizations to determine efficient Electrical Engineering problems. |
| PSO-5 | To comprehend and perform experiments and evaluate results with insight appropriate to their education and practical training. |
Admission & On Boarding Process
Step 1: Enquiry Generated
Step 2: Counselling & Campus Visit
Step 3: Admission Confirmation
Step 4: Fee Submission
Step 5: Reporting on Campus
Step 6: Orientation Program
Step 7: Session Start
Target Industry Sectors &
Career Opportunities
Shaping the Future of Electric Mobility & Advanced Engineering
Target Industry Sectors
- Electric Vehicle & Automotive Manufacturing (OEMs)
- Battery Technologies
- Sustainable Energy Systems
- Charging Stations
- Robotics, Autonomous Mobility & Drone Technologies
- Automotive Software & Digital Engineering Services
- Simulation & Digital Twin Engineering
- R&D, Testing and Certification
- Start-ups & Innovation-driven Mobility Enterprises
Job Roles
- EV Systems Engineer (Powertrain, Battery, Charging & Integration)
- Battery Management & Energy Storage Engineer
- Power Electronics & Electric Drives Engineer
- Vehicle Electronics & Embedded Systems Engineer
- CAD/CAE & Vehicle Architecture Engineer
- Autonomous Systems / ADAS Engineer
- EV Testing, Validation & Certification Engineer
- Charging Infrastructure & Integration Engineer
FAQ’S
B.Tech in Electrical Vehicle Technology is a 4-year undergraduate engineering program focused on the design, development, manufacturing, and maintenance of electric and hybrid vehicles, including batteries, motors, power electronics, and charging systems.
Candidates must have successfully completed the 10+2 (Senior Secondary) examination or an equivalent qualification from a recognized board, with Physics, Chemistry, and Mathematics (PCM) as compulsory subjects, and obtained a minimum of 50% aggregate marks.
Electric Vehicles (EVs) run on electricity instead of petrol or diesel. They use rechargeable batteries to power an electric motor, producing no exhaust pollution and less noise. EVs can be charged at home or public stations and usually have lower running and maintenance costs, making them an eco-friendly alternative to traditional vehicles.
Electric vehicle (EV) technology offers several advantages, including zero tailpipe emissions, which helps reduce air pollution and combat climate change. EVs are more energy-efficient than conventional petrol or diesel vehicles and have lower running and maintenance costs because they have fewer moving parts and do not require engine oil changes. They also provide quieter operation, instant torque for smoother acceleration, and can be powered by renewable energy sources, making them a cleaner and more sustainable transportation option for the future.
After a B.Tech in Electrical Vehicle Technology, graduates can work as EV design engineers, battery/BMS engineers, powertrain or charging infrastructure engineers, and R&D specialists in automotive and clean energy companies. Opportunities also exist in EV manufacturing, renewable energy firms, government mobility projects, startups, and higher studies, as demand for sustainable transportation continues to grow.
B.Tech in EV Technology graduates are hired across multiple fast-growing industries, including electric vehicle manufacturing, battery production, automotive R&D, renewable energy, charging infrastructure development, power electronics, and smart mobility services. Major employers include automobile companies, battery manufacturers, energy utilities, EV startups, public transport agencies, and government projects focused on sustainable transportation.
Yes. With the global shift toward sustainable transportation, EV engineers are in high demand across industries and governments.
Yes, students can pursue higher studies after a B.Tech in Electrical Vehicle Technology. They are eligible for M.Tech or MS in fields like Automotive Engineering, Electrical Engineering, Renewable Energy, or Robotics, as well as MBA or PhD programs. These options help build advanced expertise and open opportunities in research, development, management, and academia within the growing EV industry.
Entry-level salaries typically range from ₹4 LPA to ₹12 LPA, depending on skills, institute, and employer. Higher packages are possible in R&D roles and top companies.
Basic programming knowledge is helpful. Students often learn C/C++, MATLAB, Python, and embedded programming for vehicle control systems.
