Are you ready to be at the forefront of the energy revolution? KL University's M.Tech
Power Electronics
& Power Systems program is designed for you. This specialized postgraduate program
gives you the
advanced skills and knowledge needed to excel in the high-demand fields of power
electronics and
power systems. You will learn how to power the future, from smart grids to electric
vehicles.
What is the M. Tech Power Electronics & Power Systems Program at KL University?
The two-year, full-time M.Tech program is a specialized course for students who want to
build a career
in the rapidly growing power and energy sectors. It covers the core areas of Power
Electronics and
Power Systems, giving you a dual advantage in the job market. You will gain a deep
understanding of
how to design, analyze, and control modern electrical systems, and you will get good
experience with
the latest tools and technologies. The program also focuses on research, helping you
develop innovative
solutions for real-world energy challenges.
Program Structure
What does the M.Tech Power Electronics and Power Systems program structure include?
Advanced Power System Analysis
Power System Stability
Electrical Transients in Power Systems
Modern Control Theory
Floating Solar and Shore Protection
Sustainable Energy Technologies
Fuel-Free Power System
AI Techniques in Power Systems
Power Grid Technologies
Project Management in Energy Sector
FACTS Devices
Power Quality
Marine Solar and Shore Technologies
Hybrid Signal Processing
The M.Tech Power Electronics & Power Systems program has four semesters. The course
is
designed to give you solid knowledge in both theory and in practice.
Key subjects included are:
Power Electronics: Advanced Power Converters, Electrical Drives,
and their applications.
Power Systems: Power System Analysis, Operation & Control, and
the integration of Renewable
Energy Sources.
Control Systems: The principles and applications of control in
power systems and power
electronics.
Research & Project: A major part of the program is dedicated to
a thesis or project, where you
will conduct in-depth research under the guidance of our expert faculty.
The program includes core subjects, optional courses, and a major research project to
prepare you for
careers in both companies and teaching/research fields.
Program Benefits
Why choose the M.Tech Power Electronics & Power Systems at KL University?
Dual Specialization: Get expertise in two vital areas - Power
Electronics and Power Systems that
makes you a highly valuable professional.
Industry-Relevant Curriculum: The course content is created to meet
the current needs of the
energy sector, including topics like smart grids and electric vehicles.
Global Relevance: Curriculum aligned with emerging global trends in
sustainable power,
automation, and digital energy solutions.
Future-Ready Careers: Prepares graduates for roles in renewable
energy integration, power
system design, electric vehicle technologies, and smart energy management.
Strong Industry Connect: Collaboration with leading companies in
power, renewable energy,
manufacturing, and utilities through guest lectures, internships, and live projects.
Program outcomes
PO1: Get in-depth knowledge in the domain of power electronics and
power systems and understanding of engineering principles for
project management.
PO2: Ability to critically analyse various power electronic system
components,models, and their operation.
PO3: Ability to apply fundamentals and concepts to analyse,
formulate and solve complex problems of electrical power systems and
its components.
PO4: Apply advanced concepts of electrical power engineering to
analyse, design nd develop electrical components, apparatus, and
systems to put forwardscientific findings at different levels.
PO5: Ability to use advanced techniques, skills, and modern
scientific and engineering tools for professional practice.
PO6: Get prepared to lead a multidisciplinary scientific research
team,communicate and lifelong learning effectively.
PEO1: To mould the students to become effective global science
students in the competitive environment of modern society.
PEO2: To provide students with a strong foundation in contemporary
practices of Science,different functional areas and scientific
environment.
PEO3: To emphasize on application-oriented learning.
PEO4: To develop communication, analytical, decision-making,
motivational, leadership,problem solving and human relations skills
of the students.
PEO5: To inculcate professional and ethical attitude in students.
PEO6: To constantly learn and improve your skills so you can be a
better professional and help your field grow.
Eligibility & Admission Criteria
What are the Eligibility Criteria for M.Tech Power Electronics & Power Systems
Admission?
To get into this program, you have to meet these requirements:
Academic Qualification: You must have a B.E./B.Tech degree in Electrical &
Electronics
Engineering (EEE) or a related field.
Minimum Marks: A minimum of 55% aggregate marks in your bachelor's degree is
required.
Admission Process: Admission is based on GATE / PGECET / KL University Entrance Exam
(KLEEE-PG) scores.
Fee Structure
What is the Fee Structure for M.Tech Power Electronics & Power Systems at KL
University?
Campus
Duration
Admission Fee
Semester Fee
Total 1st Semester
Vijayawada
4 Years
₹16,000
₹62,500
₹78,500
Note : The fee structure provided is based on the 2025–26 academic year and is
subject to change for the 2026–27 academic year.
Are hostel and other charges included?
No. Hostel, mess, exam, and other charges are separate. You can contact the admissions
office
for exact details.
Career Scope & Opportunities
An M.Tech in Power Electronics & Power Systems gives you a wide range of career
paths in India and
internationally. As the world is moving towards cleaner and more efficient ways to use
energy, there is a
very high demand for our graduates in many different industries.
You can pursue various roles like:
Power Electronics Engineer: Designing converters, inverters, and
drives for electric vehicles and
industrial machines.
Power Systems Engineer: Working on the planning, operation, and
control of electrical grids.
R&D Engineer: Innovating new technologies in renewable energy
and smart grids.
Design Engineer: Creating electrical components for different
industries.
Academia: Becoming a lecturer or researcher at an engineering
college.
Companies in sectors like power generation, transmission, distribution, manufacturing,
and R&D actively
recruit graduates from this field.
Frequently Asked Questions (FAQs)
A valid GATE score is preferred and can improve your chances of admission and
scholarships. But the
university also accepts scores from other state-level entrance exams.
Unlike a generic M.Tech in EEE, this specialization gives you a dual edge in both
Power Electronics and
Power Systems, covering areas like smart grids, renewable integration, and electric
vehicle technologies
- skills that are in high demand globally.
Yes. The curriculum has a strong research and project component, with opportunities
to work on funded
projects and publish papers. Graduates can move into Ph.D. programs, research roles,
or R&D positions
in leading industries.
You can pursue careers as a Power Electronics Engineer, Power Systems Engineer,
R&D Engineer, Design
Engineer, or in Academia. With renewable energy and electric mobility booming, the
job market is
expanding rapidly for these roles.
The curriculum integrates solar, wind, and smart grid technologies, preparing
students to design and
manage renewable-powered systems. This ensures graduates are ready for roles in the
sustainable
energy sector, one of the fastest-growing industries worldwide.
Still have Queries? Contact Us
Please fill in the form and an expert from the admissions office will call you.
Helpline : +91 7815901716 , Monday To Saturday -
9am To 5pm (Except Public Holidays).
