About the Programme
As one of the core engineering disciplines, Electrical and Electronics Engineering encompasses a wide range of domains that address contemporary engineering needs. The discipline focuses on the generation, transmission, distribution, and application of electricity, along with embedded systems, automation and control and emerging areas such as VLSI, Digital Signal Processing, Renewable Energy Systems, E-Mobility and Electric Vehicle Technology. Owing to its multidisciplinary nature, Electrical and Electronics Engineering offers diverse career opportunities, ranging from the design and manufacturing of electronic equipment to automation, control, power systems, and advanced energy technologies. To enhance students’ learning experience, the department conducts sessions and seminars on problem-solving, creative thinking, open-ended experimentation, and live projects. Students are exposed to industry-based live projects and internships from the third semester through the final semester. They are also encouraged to publish research papers and present their work at conferences, thereby strengthening their technical, research, and professional competencies. Academic Excellence The department builds strong foundations in electrical systems, electronics, power engineering, control, automation, and emerging technologies through structured academic training.
Academic Excellence
The department builds strong foundations in electrical systems, electronics, power engineering, control, automation, and emerging technologies through structured academic training.
Industry Exposure
Industrial visits, expert sessions, internships, and practical learning opportunities help students connect classroom concepts with real-world engineering practices.
Research Innovation
Students and faculty engage in research across smart grids, renewable energy, power electronics, IoT, wireless networks, high voltage engineering and e-mobility.
Global Readiness
The curriculum promotes communication skills, managerial ability, sustainable thinking, and adaptability, preparing students for higher studies and global professional environments.
Why Choose This Programme?
Core Engineering Foundation
The programme provides a strong foundation in electrical systems, electronics, power engineering, control systems, embedded systems, and automation.
Industry-Aligned Curriculum
The curriculum includes emerging areas such as Renewable Energy, Smart Grids, VLSI, Digital Signal Processing, IoT, E-Mobility, and Electric Vehicle Technology.
Practical Learning Approach
Students gain hands-on experience through laboratories, open-ended experiments, live projects, simulation-based learning and problem-solving activities.
Internship Opportunities
Industry internships and live projects from the third semester onwards help students connect theoretical knowledge with real-world engineering applications.
Research Exposure
Students are encouraged to participate in conferences, publish papers, and engage in faculty-guided research in advanced electrical and electronics domains.
Diverse Career Pathways
The programme prepares students for careers in power systems, electronics design, automation, electric vehicles, renewable energy, core industries, research, and higher studies.
Choose Your Track
Focuses on power generation, transmission, distribution, renewable energy integration, smart grids, energy management, and modern electrical infrastructure.
Covers control systems, industrial automation, embedded system design, sensors, IoT applications, robotics, and real-time system implementation.
Introduces electric vehicle technology, power converters, motor drives, battery systems, charging infrastructure, and sustainable transportation 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 — Basic Electrical Engineering
Semester 2 — Basic Mechanical Engineering
Semester 3 — Digital Logic Design
Semester 4 — Power Electronics
Semester 5 — Industrial Automation
Semester 6 — High Voltage Engineering and Protection
Semester 7 — Internship
Semester 8 — Project Work
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.
Strong foundation in core electrical engineering and emerging technologies
Ability to design, simulate, analyze, and implement engineering solutions
Introduces electric vehicle technology, power converters, motor drives, battery systems, charging infrastructure, and sustainable transportation solutions.
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.