About the Programme
As the world transitions towards sustainable electric mobility, there is a growing demand for professionals skilled in battery technology, efficient motors, charging systems, and vehicle integration. The M. Tech in Electric Vehicle Technology is a 72-credit, two-year programme designed to equip students with advanced knowledge in key areas, including battery systems, battery management, motors and drives, charging infrastructure, software-defined vehicles, and digital twinning. This multidisciplinary curriculum bridges electrical engineering, mechanical engineering, and computer science, emphasizing both industry-driven training and cutting-edge research. Modules of emerging technologies like digital twinning and software-defined vehicles ensure graduates are prepared for future advancements in the EV sector. Through collaborations with industry partners, students gain hands-on experience in solving real-world challenges. With a focus on sustainable mobility and green energy, the programme empowers graduates to excel in the EV ecosystem, contributing to technological innovations and shaping the future of transportation.
Industry Integrated Learning
Curriculum designed with strong industry orientation through live projects, expert sessions, and exposure to emerging EV technologies.
Hands-on Training & Advanced EV Labs
Extensive practical learning through hardware experimentation, EV subsystems, diagnostics, simulation platforms, and prototype development.
One-Year Internship Flexibility
Flexible second-year full-time internship opportunities in industries, startups, R&D centers, or collaborative innovation projects.
Flexible Learning for Working Professionals
Program structure suitable for working professionals subject to institutional approval and academic regulations.
Why Choose This Programme?
Industry-Oriented EV Curriculum
Designed to meet the evolving demands of the electric mobility and sustainable transportation industry.
Extensive Hands-on Learning
Practical exposure through advanced laboratories, live demonstrations, simulations, and EV system integration activities.
Internship & Industry Collaboration Opportunities
Opportunities for internships, collaborative projects, and interaction with EV startups, OEMs, and technology companies.
Exposure to Future Mobility Technologies
Learning focused on Battery Management Systems, Software Defined Vehicles, AI-driven mobility, and smart diagnostics.
Research, Innovation & Startup Support
Encouragement for product development, research publications, patents, and entrepreneurship in emerging mobility domains.
Flexible Learning Pathways
Option for second-year full-time internships and flexibility for working professionals subject to institutional approval.
Choose Your Track
Areas of specialization
Specialize in advanced battery technologies, Battery Management Systems (BMS), charging infrastructure, thermal management, and energy optimization for next-generation electric vehicles.
Focus on intelligent vehicle software architectures, embedded systems, vehicle communication networks, diagnostics, digital twins, and connected mobility technologies.
Develop expertise in EV motors, power electronics, traction systems, vehicle control strategies, and integrated electric mobility solutions.
What You Will Learn
Programme Structure
The programme structure outlines the academic curriculum designed to provide a systematic progression of learning through core subjects, electives, and practical components across semesters, ensuring both theoretical understanding and skill development.
Semester 1 — Foundations of Electric Vehicle Technology
Semester 2 — Advanced EV Systems & Digital Technologies
Semester 3 — Industry Integration & Research Development
Semester 4 — Dissertation & Innovation
Eligibility & Fee Structure
Career Paths
Your Career Roadmap
Select a specialisation track to explore the learning journey and career outcomes tailored to your chosen domain.
Battery Technologies & Lithium-Ion Systems
Battery Management Systems (BMS)
Energy Storage System Design
Thermal Management for Batteries
Smart Charging & Vehicle-to-Grid (V2G)
AI-Based Battery Diagnostics
Battery Safety & Functional Testing
EV Charging Infrastructure
Industry Internship / Live Projects
Research in Next-Generation Batteries
Embedded Systems for Vehicles
Automotive Communication Protocols
ECU Architecture & Integration
Vehicle Networking & Diagnostics
Introduction to Software Defined Vehicles
Digital Twinning & Vehicle Simulation
Functional Safety Standards (ISO 26262)
AUTOSAR & Automotive Software
OTA Updates & Cybersecurity
Industry Internship / SDV Projects
EV Motors & Drives
Power Electronics for EVs
Electric Powertrain Systems
Smart Grid & Renewable Integration
Vehicle Dynamics & Control
Advanced Motor Control Strategies
Regenerative Braking Systems
Powertrain Simulation & Optimization
EV Testing & Validation
Industry Internship / Product Development
Message from the HOD
Bangalore Kengeri Campus
The primary objective of the Department is to produce globally competent engineering graduates with values, a sense of responsibility and good communication skills. The department aims to develop the graduates' skills in areas such as Power Systems, Microcontrollers, Renewable, Smart Grids, Signal Processing, Electric Vehicles and data analytic software etc. To achieve this goal, the department has a team of highly qualified, committed and self-motivated teachers with varied experience in academics, industry and research organizations. The department constantly updates its infrastructure facilities, expertise, and research domains in consonance with current industry trends. We have also introduced interdisc
Message from the HOD
The primary objective of the Department is to produce globally competent engineering graduates with values, a sense of responsibility and good communication skills. The department aims to develop the graduates' skills in areas such as Power Systems, Microcontrollers, Renewable, Smart Grids, Signal Processing, Electric Vehicles and data analytic software etc. To achieve this goal, the department has a team of highly qualified, committed and self-motivated teachers with varied experience in academics, industry and research organizations. The department constantly updates its infrastructure facilities, expertise, and research domains in consonance with current industry trends. We have also introduced interdisciplinary courses with emphasis on skill and competency building along with core knowledge. As per new education guidelines we focus on outcome-based education that involves hands-on experiential learning. Our Graduates work in Government sectors, private companies, as consulting engineers and as entrepreneurs in the field of research, design, projects, production, maintenance and testing etc
Dr Nirmala John
hod.eee@christuniversity.in
Admission Process
- Register with your Email ID
- Login to the Admission Portal
- Fill the Application Form
- Pay Application Fee
- Entrance Test (If Applicable)
- Assessment
- Interview
- Check login page for result
- If selected, Offer Letter attached
- Pay Course Fee Online
- Complete Admission Process
Ready to Apply?
Applications for the 2026 batch are open. Deadline: 07-Jun-2026.