M.Tech in Power System Engineering at Sigma University, Vadodara

Advance your electrical engineering career with Sigma University’s AICTE‑approved M.Tech in Power System Engineering. The program blends fundamental theory with practical applications in generation, transmission, distribution, and energy management, giving graduates the competence to design, optimize, and safeguard modern power grids. From smart‑grid analytics to renewable integration, you gain hands‑on exposure that elevates your profile in the growing field of electrical power engineering.

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M.Tech in Power System is a 2-year Post graduate engineering degree.

Why Pursue M.Tech in Power System Engineering at Sigma University?

Top-Ranked Power System Engineering College in Gujarat

Sigma University is consistently listed among Gujarat’s premier institutions for power systems engineering courses. Our curriculum is mapped to national skill requirements and international benchmarks, ensuring that students graduate with a globally relevant skill set.

Future-Focused Curriculum with Real-Time Industrial Applications

Course modules emphasize SCADA, HVDC, renewable integration, and grid cybersecurity areas driving the next decade of energy and power systems engineering. You gain expertise in modeling, optimization, and control, critical for roles in utilities, research labs, and smart‑grid startups.

Specialized Labs, R&D Opportunities & Expert Mentorship

Dedicated high‑voltage, relay‑testing, and microgrid laboratories simulate real‑world scenarios, while funded projects allow you to work alongside faculty on cutting‑edge topics such as wide‑area monitoring and electric‑vehicle grid impact studies.

About the M.Tech in Power System Program

Duration: 2 Years | Full-Time Postgraduate Program

This full-time M.Tech program spans two years and follows a semester-based system. Structured to build expertise in both foundational and advanced areas of power systems, the course ensures students gain the right balance of theoretical knowledge and industry exposure. It is one of the most sought-after postgraduate degrees in electrical power engineering today.

Approved by AICTE & UGC

The M.Tech in Power System Engineering program is duly approved by the All India Council for Technical Education (AICTE) and the University Grants Commission (UGC), ensuring high-quality education that meets national regulatory standards.

Built on Choice-Based Credit System (CBCS)

The curriculum is framed under the Choice-Based Credit System (CBCS), offering flexibility for students to choose electives, pursue interdisciplinary learning, and align their studies with individual interests in areas such as power electronics, renewable energy, or grid technology.

Key Highlights of the Program

Hands-On Training with Smart Grids, HVDC, SCADA

You will operate industry‑grade equipment, PLC‑based relay testers, phasor measurement units (PMUs), HVDC converters, and SCADA dashboards, gaining proficiency prized by recruiters.

Industry-Synced Curriculum in Power Systems and Power Electronics

The syllabus combines  MTech Power Electronics syllabus content converters, drives, and FACTS, with core MTech power system syllabus subjectsstability, protection, load flow, and energy economics, producing engineers who can bridge electronics and grid domains.

Live Projects, Simulation Tools, and Capstone Research

Work in MATLAB/Simulink, ETAP, PSCAD, and DIgSILENT PowerFactory on live projects sponsored by utilities and renewable‑energy firms, culminating in a dissertation that solves a real industry challenge.

Curriculum & Academic Structure

Semester-Wise M.Tech Power System Engineering Syllabus

The course includes advanced subjects such as Power System Operation & Control, Power System Protection, Flexible AC Transmission Systems (FACTS), High Voltage Engineering, and Smart Grid Technologies. Electives include Renewable Energy Systems, Energy Management, and AI in Power Systems. The final semester is dedicated to a research dissertation and industry internship, aligning with the evolving m tech power system engineering syllabus.

Core Subjects: Power System Operation, Control, Stability

Students study in-depth topics such as Load Flow Analysis, Power System Stability, and Protection Coordination. These courses form the backbone of any electrical power systems engineering course and equip students to manage complex grid scenarios.

Electives: Renewable Energy Systems, Smart Grid Technologies

Elective courses focus on emerging areas like solar and wind integration, microgrids, energy storage, and smart metering technologies, making the program ideal for those looking to specialize in energy and power systems engineering.

Final Year: Research Dissertation & Industry Internship

The final semester features a full-time industry internship coupled with a dissertation project. Students can work on themes like grid reliability, distributed generation, or energy efficiency under expert supervision.

Eligibility & Admission Process

Eligibility: B.E./B.Tech in Electrical / EEE or Equivalent

Applicants must hold a B.E. or B. Tech degree in Electrical Engineering, Electrical and Electronics Engineering (EEE), or a closely related discipline is required to be eligible for this master’s degree in power system engineering.

Admission via GATE / University Entrance Exam

Admissions are granted either through valid GATE scores or via Sigma University’s entrance examination. Candidates with a strong academic background and an interest in electrical power engineering are encouraged to apply.

Application Process: Online Registration, Document Verification, Interview<

Prospective students can apply online through the university portal. The application process involves submitting academic documents, proof of eligibility, and appearing for an interview if shortlisted.

Fees, Scholarships & Financial Support

➞ Annual Fee Structure for M.Tech Power System Program

The fee structure is competitive and designed to be affordable. Details are available on the university website or from the admissions office. It reflects the quality and industry alignment of this advanced M.Tech in power systems program.

➞ Scholarships: Merit, Reserved Categories & Need-Based

Deserving students can apply for various scholarships based on academic performance, financial need, or category-specific reservations. These financial aids make it easier to pursue this master’s in power system engineering.

➞ Loan Assistance & EMI Payment Options

Sigma University assists students in accessing bank loans and also offers flexible EMI plans to ease financial stress during the course.

Career Opportunities After M.Tech in Power System Engineering

Electrical Design Engineer, Grid Analyst, Energy Consultant

Graduates design protection schemes, optimize transmission networks, and consult on energy efficiency and renewable integration projects in high‑demand roles in today’s decarbonizing landscape.

Opportunities in Power Corporations, Renewable Firms, Research Labs

Employment opportunities exist in companies like NTPC, Adani Power, ABB, Tata Power, L&T, Siemens, and more. Research institutes and renewable energy startups also actively recruit power system M.Tech graduates.

Scope for Doctoral Programs & Advanced Research

Students aspiring to pursue higher research can opt for a Ph.D. in Power Systems, Electrical Machines, or Smart Grids. This M.Tech in power system engineering course builds a solid base for such pursuits.

Top Recruiters & Placement Support

Companies Hiring M.Tech Power System Graduates

Top recruiters include Siemens, BHEL, L&T, Tata Power, Schneider Electric, GE Power, and other core electrical and energy firms. Many companies offer pre-placement offers (PPOs) after internship assessments.

Placement Training, Resume Building & Mock Interviews

Students receive training in resume writing, technical interviews, aptitude tests, and group discussions to enhance their job readiness. The career cell also organizes soft skills and communication workshops.

Internship Tie-Ups & Career Counseling

Sigma University offers internship support through MoUs with power companies, substations, and consulting firms. Students are mentored to choose the right career paths, whether in industry or academia.

Faculty Expertise & Research Excellence

Experienced Faculty with Doctorates in Power & Energy

The teaching team comprises Ph.D. holders with years of teaching and industrial experience in the domains of power systems, energy analytics, and renewable integration.

Collaborative Research in Renewable Energy & Grid Security

Faculty members lead funded projects on energy storage, distributed generation, and smart grid security, encouraging students to participate in research initiatives.

Patents, Publications & Academic Grants

The department has produced patents and research publications in indexed journals. Faculty actively secure grants from government bodies to support innovative research.

Student Life & Infrastructure at Sigma University

Power System Labs with Advanced Testing Equipment

Sigma University offers cutting-edge Power System Engineering labs equipped with high-voltage testing kits, digital relay panels, real-time simulators, and SCADA systems. These facilities give students hands-on experience in analyzing grid stability, transmission, and distribution. The labs support project work, research, and design simulations, ensuring students graduate with both theoretical knowledge and industry-grade practical skills vital for careers in electrical power engineering.

Clubs: IEEE, Energy Society, Innovation Labs

Sigma University fosters a vibrant student ecosystem through active participation in professional and innovation-based clubs. The IEEE Student Chapter, Energy Society, and Innovation Labs promote technical learning, leadership, and collaboration. These clubs regularly organize seminars, hackathons, poster competitions, and workshops on energy systems, smart grids, and automation, enabling students to engage with real-world applications of power system engineering beyond the classroom.

Campus: Hostel, Library, Cafeteria, Sports & Wi-Fi

The Sigma University campus provides students with a fully equipped and inclusive learning environment. On-campus amenities include comfortable hostels, a central library with engineering resources, high-speed Wi-Fi, a hygienic cafeteria, and recreational zones. Sports facilities and cultural clubs offer a balanced student life. The campus infrastructure supports both academic excellence and personal well-being, making it a preferred destination for students pursuing a master’s degree in power system engineering.

M.Tech in Power System Engineering – FAQs

What is the eligibility for M.Tech in Power System Engineering?

To apply for M.Tech in Power System Engineering, candidates must hold a B.E./B.Tech degree in Electrical Engineering, Electrical & Electronics Engineering (EEE), or an equivalent field. Applicants should have a minimum qualifying percentage as prescribed by Sigma University. Admission is based on GATE scores or a university-conducted entrance exam, followed by a personal interview or counseling session.

What subjects are taught in this program?

The program covers core subjects such as Power System Analysis, Control & Stability, High Voltage Engineering, Power System Protection, and Electrical Machines. Electives include Smart Grid Technologies, HVDC Transmission, Renewable Energy Integration, and SCADA Systems. Along with theoretical study, students undergo lab work and industry-based project training as part of the M.Tech in Power System Engineering curriculum.

What is the syllabus structure for this M.Tech course?

The syllabus is spread across four semesters, covering foundational theory, technical electives, and project-based learning. Initial semesters focus on power system modeling, control strategies, and power electronics, while later semesters involve simulation-based lab work, advanced electives, and a research dissertation. The M.Tech Power System Engineering syllabus aligns with current industrial trends and research demands in energy and power systems.

Is the program AICTE approved?

Yes, the M.Tech in Power System Engineering offered by Sigma University is approved by the All India Council for Technical Education (AICTE) and recognized by the University Grants Commission (UGC). These approvals ensure that the program adheres to national academic standards and meets the qualifications required by leading employers in the electrical power engineering sector.

Are there any scholarships or financial aid available?

Sigma University offers scholarships based on academic merit, reserved categories, and financial need. Students can apply for need-based assistance or merit-based fee waivers at the time of admission. In addition, EMI and education loan support options are available to help students manage the M.Tech Power System Engineering fees with ease and flexibility.

Can I pursue this program with a background in EEE?

Yes, students with a background in Electrical and Electronics Engineering (EEE) are fully eligible for the M.Tech in Power System Engineering program. The curriculum builds on EEE fundamentals such as circuit theory, control systems, and machine learning while extending into advanced areas like smart grids, power electronics, and renewable integration.

What job roles can I apply for after graduation?

Graduates of this program can pursue roles such as Power System Analyst, Electrical Design Engineer, Grid Integration Specialist, Energy Auditor, SCADA Operator, and Control Systems Engineer. Opportunities exist in government power utilities, private transmission firms, renewable energy companies, research institutions, and consulting organizations working in power and energy systems.

Does this course prepare students for research or Ph.D. opportunities?

Yes, the program has a strong research orientation. Students work on dissertation projects, publish research papers, and participate in academic conferences. With access to advanced labs and experienced faculty, graduates are well-prepared to pursue doctoral studies or research roles in smart grid systems, electrical energy storage, or power electronics.

M.Tech in Power System Engineering — Apply Now

Take the Next Step Toward a Career in Power System Innovation with Sigma University. Ready to become a leader in electrical power engineering? Enrol in the M.Tech in Power System Engineering program at Sigma University and equip yourself for a future in smart grid systems, renewable energy, and global energy infrastructure. Apply today or schedule a campus visit to explore the facilities and interact with our expert faculty.

About the M.Tech in Power System Program

The M.Tech in Power System program at Sigma University Vadodara offers advanced training in the design, analysis, and optimization of electrical power systems. Students delve into subjects such as power generation, transmission, distribution, and utilization, gaining expertise in addressing contemporary challenges in the field. With a focus on sustainable energy practices and cutting-edge technologies, graduates are equipped to contribute to the development of efficient, reliable, and environmentally friendly power systems. Taught by experienced faculty and supported by state-of-the-art facilities, this program prepares students for rewarding careers in the energy sector and beyond.

Affiliation

Sigma University

Approvals

AICTE, New Delhi & UGC, New Delhi

Duration

02 Years

Eligibility for Admission

• BE/BTech in Computer Science or Artificial Intelligence with 50% aggregate
• MTech in AI entrance exam includes GATE, IPU CET, IIT JAM, and TANCET.

Admission Schedule

As per the directives of Admission Committee. Usually from May to October every year.

How to Apply?

Visit: https://admissions.sigmauniversity.ac.in/
Call: +91 7567176000

Start Date

July 2025

College / Campus

Faculty of Engineering & Technology (Sigma Institute of Engineering), Sigma University Vadodara.

Shifts (Working hours)

10: 00 am to 05:00 pm

Curriculum

Sem	Course Code	Course Name	Theory (T)	Tutorial (T)	Practical (P)	Hrs	Credit	Detail Syllabus
I	1MCE01	Communication Skill for Engineers	1	0	0	1	1	View Pdf
I	1MPS01	Modern Power System Protection	3	0	2	5	4	View Pdf
I	1MLA01	Linear Algebra & Optimization	3	2	0	5	4	View Pdf
I	1MPS02	Power System Analysis & Simulation	4	0	2	6	5	View Pdf
I	1MPS03	Renewable Energy Systems (PE- I)	1.5	0	1	2.5	2	View Pdf
I	1MPS04	Electric & Hybrid Vehicles (PE- I)	1.5	0	1	2.5	2	View Pdf
I	1MPS05	AI in Power System (OE – I)	1.5	1	0	2.5	2	View Pdf
I	1MEE05	Industrial Safety	1.5	1	0	2.5	2	View Pdf
			17	4	6	27	22

Sem	Course Code	Course Name	Theory (T)	Practical (P)	Hrs	Credit	Detail Syllabus
II	2MRM01	Research Methdology & IPR	2	0	2	2	View Pdf
II	2MPS01	Flexible AC Transmission System & HVDC	4	2	6	5	View Pdf
II	2MPS02	Advanced Power System Stability (PE- II)	1.5	1	2.5	2	View Pdf
II	2MPS03	Power Quality (PE- II)	1.5	1	2.5	2	View Pdf
II	2MPS04	Application of Power Electronics to Power System	4	2	6	5	View Pdf
II	2MPS05	Power System Dynamics	3	2	5	4	View Pdf
			16	8	24	20