ABOUT DEPARTMENT

B.E. Electrical and Electronics Engineering

The Department of Electrical and Electronics Engineering was established in 2002. The UG programme was accredited by NBA in 2011. The PG programme M.E. Power Systems Engineering was introduced in 2013. The department became a recognised research centre of Anna University in 2015. It received AICTE funding to modernise the Electrical Machines Lab. Alumni are placed at Host International (Sharjah), Amazon USA, Infosys, CTS, L&T, Bosch and more.

Vision
To produce holistic electrical and electronics engineers who excel in interdisciplinary domains.
Mission
To enable development of competent EEE graduates through technology-oriented education and empower students with domain knowledge to enhance their creativity and skills.
2002
Established
3
Courses Offered
5
Faculties with Ph.D
60
Student Intake

Program Outcomes

Engineering Knowledge

Apply knowledge of mathematics, science and engineering fundamentals to solve complex engineering problems

Problem Analysis

Identify, formulate and analyse complex engineering problems using first principles

Design & Development

Design solutions for complex problems meeting specified needs with consideration for safety and society

Communication Skills

Communicate effectively on complex engineering activities with the engineering community and society

Ethics

Apply ethical principles and commit to professional ethics and norms of engineering practice

Life-long Learning

Engage in independent and life-long learning in the broadest context of technological change

Program Educational Objectives

PEO 1

Graduates of EEE program effectively demonstrate electrical and electronics engineering knowledge and entrepreneurial skills by providing practical solution

PEO 2

Graduates of EEE program effectively demonstrate professionalism in multi- disciplinary engineering environment, leadership quality and teamwork.

PEO 3

Graduates of EEE program make contributions to knowledge and establish best engineering practice through research and development.

PEO 4

Graduates of EEE program demonstrate an ethical commitment to the community and the profession through involvement with professional organizations and society.

PEO 5

Graduates of EEE program engage in life-long learning as demonstrated through career advancement.

Program Outcomes

Engineering Knowledge

Apply knowledge of mathematics, natural science, computing, engineering fundamentals and an engineering specialization as specified in WK1 to WK4 respectively to develop to the solution of complex engineering problems.

Problem Analysis

Identify, formulate, review research literature and analyze complex engineering problems reaching substantiated conclusions with consideration for sustainable development. (WK1 to WK4)

Design & Development

Design creative solutions for complex engineering problems and design/develop systems/components/processes to meet identified needs with consideration for the public health and safety, whole-life cost, net zero carbon, culture, society and environment as required. (WK5)

Conduct investigations of complex problems

Conduct investigations of complex engineering problems using research-based knowledge including design of experiments, modelling, analysis & interpretation of data to provide valid conclusions. (WK8).

Engineering Tool Usage

Create, select and apply appropriate techniques, resources and modern engineering & IT tools, including prediction and modelling recognizing their limitations to solve complex engineering problems. (WK2 and WK6)

The Engineer and The World

Analyze and evaluate societal and environmental aspects while solving complex engineering problems for its impact on sustainability with reference to economy, health, safety, legal framework, culture and environment. (WK1, WK5, and WK7).

Ethics

Apply ethical principles and commit to professional ethics, human values, diversity and inclusion; adhere to national & international laws. (WK9)

Individual and Collaborative Team work

Function effectively as an individual, and as a member or leader in diverse/multi-disciplinary teams.

Communication

Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.

Project Management and Finance

Apply knowledge and understanding of engineering management principles and economic decision-making and apply these to one’s own work, as a member and leader in a team, and to manage projects and in multidisciplinary environments.

Life-Long Learning

Recognize the need for, and have the preparation and ability for i) independent and life-long learning ii) adaptability to new and emerging technologies and iii) critical thinking in the broadest context of technological change. (WK8)

Knowledge and Attitude Profile

WK 1

A systematic, theory-based understanding of the natural sciences applicable to the discipline and awareness of relevant social sciences.

WK 2

Conceptually-based mathematics, numerical analysis, data analysis, statistics and formal aspects of computer and information science to support detailed analysis and modelling applicable to the discipline.

WK 3

A systematic, theory-based formulation of engineering fundamentals required in the engineering discipline.

WK 4

Engineering specialist knowledge that provides theoretical frameworks and bodies of knowledge for the accepted practice areas in the engineering discipline; much is at the forefront of the discipline.

WK 5

Knowledge, including efficient resource use, environmental impacts, whole-life cost, re-use of resources, net zero carbon, and similar concepts, that supports engineering design and operations in a practice area.

WK 6

Knowledge of engineering practice (technology) in the practice areas in the engineering discipline.

WK 7

Knowledge of the role of engineering in society and identified issues in engineering practice in the discipline, such as the professional responsibility of an engineer to public safety and sustainable development.

WK 8

Engagement with selected knowledge in the current research literature of the discipline, awareness of the power of critical thinking and creative approaches to evaluate emerging issues.

WK 9

Ethics, inclusive behavior and conduct. Knowledge of professional ethics, responsibilities, and norms of engineering practice. Awareness of the need for diversity by reason of ethnicity, gender, age, physical ability etc. with mutual understanding and respect, and of inclusive attitudes.

Program Specific Outcomes

PSO 1

Ability to apply Mathematics, Science, Electrical and Electronics knowledge to solve engineering problems in the field of Electrical and Electronic Circuits, Electrical Instrumentation, Signal Processing, Power Systems, Power Electronics, Electrical Drives and Energy Utilization.

PSO 2

Ability to design and analyze controllable, reliable and sustainable Electrical and Electronic Systems using Mathematical Models, Computer Systems and Software Knowledge.

PSO 3

Ability to develop and implement integrated solutions combining electric vehicle technology, green energy systems, energy storage, and grid communication within smart grid frameworks to create sustainable, intelligent, and resilient power infrastructure.

Program Outcomes

Infrastructure

Powering education with state-of-the-art electrical engineering facilities

Computer Lab

The department has five specialised laboratories — Electrical Machines Lab, Control Systems Lab, Power Electronics Lab, Solar Lab with 1KW solar panel and charge controller, and Power System Simulation Lab with ETAP, PSCAD, LABVIEW and MATLAB software for load flow analysis, transient stability and simulation.

View All

Library

The department library has a collection of about 350 books on a variety of subjects. Project reports, laboratory manuals and old university question papers are also available. All transactions are managed through a dedicated library in-charge, with resources developed for student self-learning.

View All

Research Cluster Detail

At SRIT, our Research Clusters promote interdisciplinary research, innovation, and collaboration to address real-world engineering and societal challenges. By bringing together faculty, researchers, students, and industry experts, we foster a culture of discovery, knowledge creation, and technological advancement.
With access to advanced laboratories, funded research projects, and industry partnerships, our research ecosystem empowers students and faculty to develop impactful solutions, publish quality research, and contribute to sustainable technological progress.
Read More
The world's most Top companies
The world's most Top companies

Program Outcomes

Engineering Knowledge

Apply knowledge of mathematics, science and electrical engineering to solve complex problems

Problem Analysis

Identify, formulate and analyse complex electrical engineering problems

Design & Development

Design electrical and electronic devices using modern engineering tools

Communication Skills

Communicate effectively on complex engineering issues with the community and society

Ethics

Apply ethical principles and commit to professional norms of engineering practice

Sustainability

Understand the impact of engineering solutions in societal and environmental contexts

ABOUT HOD

Dr. S. Sangeetha

The department was formed with the primary objective of providing world class education in Electrical Engineering. Under the leadership of Dr. S. Sangeetha, the department focuses on bridging the gap between campus education and industry needs through internships, guest lectures and workshops, producing confident professionals tuned to real-time working environments.

DEPARTMENT Faculty

Experienced faculty shaping future leaders

Dr. Kannayeram G
Associate Professor
Dr. S Udaiyakumar
Assistant Professor (Sl. Gr.)
Mr. E Ramkumar
Assistant Professor (Sl. Gr.)
Ms. D Poornima
Assistant Professor (Sl. Gr.)
Mr. C Anandhakumar
Assistant Professor (Sl. Gr.)
Ms. J Glory Priyadharshini
Assistant Professor (Sl. Gr.)
Ms. J Glory Priyadharshini
Assistant Professor
Dr. S Sangeetha
Professor and Head
Dr. Kannayeram G
Associate Professor
Dr. S Udaiyakumar
Assistant Professor (Sl. Gr.)
Mr. C Anandhakumar
Assistant Professor (Sl. Gr.)
Mr. E Ramkumar
Assistant Professor (Sl. Gr.)
Ms. D Poornima
Assistant Professor (Sl. Gr.)
Ms. J Glory Priyadharshini
Assistant Professor

Center Of Excellence

At Sri Ramakrishna Institute of Technology (SRIT), our Centers of Excellence bridge the gap between academic learning and industry expectations. Equipped with advanced technologies and developed in collaboration with leading industry partners, these centres provide students with hands-on training, research opportunities, innovation support, and real-world problem-solving experience.
Read More

Program Outcomes

Engineering Knowledge

Apply knowledge of mathematics, science and engineering fundamentals to solve complex engineering problems

Problem Analysis

Identify, formulate and analyse complex engineering problems using first principles

Design & Development

Design solutions for complex problems meeting specified needs with consideration for safety and society

Communication Skills

Communicate effectively on complex engineering activities with the engineering community and society

Ethics

Apply ethical principles and commit to professional ethics and norms of engineering practice

Life-long Learning

Engage in independent and life-long learning in the broadest context of technological change

EVENTS

Stay Updated with What's New at SRIT

Explore More
APR

15

World Art Day
Read More
Upcoming Event
APR

21

British National Tea Day  
Read More
September

22

A National Level Electric Bike Design Challenge (EBDC’26)
Read More
Upcoming Event
September

23

1st International Conference on Sustainable Electric Mobility (ICSEM'26)
Read More
Upcoming Event
Explore More

Achievements and Activities

Lorem ipsum dolor sit amet, consectetur adipiscii pendisse varius enim
Explore More

Achievements and Activities

Celebrating excellence across academics, sports, culture and innovation
Explore More
Explore More