M.Tech in Electrical Engineering Syllabus
Masters of Technology in Electrical Engineering Syllabus
The Master of Technology in Electrical Engineering (M.Tech Electrical) is a two-year postgraduate program designed to provide in-depth knowledge of power systems, electrical machines, control engineering, renewable energy, smart grids, high-voltage engineering, and industrial automation. The 2026 syllabus integrates theory, laboratory practice, simulation tools, industry case studies, and research methodology, in line with NEP 2020 and modern industry requirements.
Table of Contents
Semester 1: Core Development
This semester establishes fundamental expertise in power systems and control engineering.
- Power System Analysis: Load flow, fault analysis, stability studies, and power quality.
- Advanced Control Systems: State-space modeling, PID tuning, and modern control techniques.
- Power Electronics: Converters, inverters, drives, and semiconductor devices.
- High Voltage Techniques: Insulation, breakdown mechanisms, and testing methodologies.
- Research Methodology: Technical writing, literature review, and research planning.
Semester 2: Advanced Core & Labs
This semester covers smart grids, electrical machines, and practical labs for hands-on learning.
- Smart Grid Technology: SCADA, AMI, energy management, and microgrid integration.
- Electrical Machines & Drives: Induction and synchronous machines, motor control.
- Digital Signal Processing: Signal analysis, filters, and embedded signal systems.
- Renewable Energy Systems: Solar, wind, biomass, and energy storage technologies.
- Practical Labs & Seminar: Circuit simulations, experiments, and presentation skills.
Semester 3: Specialization & Mini Project
Students focus on electives, modeling, simulation, and start mini research projects.
- Elective Subjects: Domain-specific specialization (Renewable Energy, Automation, Power & Control, Embedded Systems, Electric Vehicles).
- Modeling & Simulation: MATLAB/Simulink, PSCAD, or equivalent tools.
- Embedded & Automation Systems: PLC, SCADA, industrial automation technologies.
- Mini Project: Small-scale research or industry-relevant project.
Semester 4: Dissertation & Internship
The final semester focuses on major project completion and real-world industry exposure.
- Dissertation / Major Project: Research-based or application-oriented project with faculty guidance.
- Industrial Internship / Research Work: Hands-on experience in power, automation, or renewable energy sectors.
Recommended Books for M.Tech Electrical Engineering
| Subject | Book Title | Author |
|---|---|---|
| Power Systems | Power System Engineering | Nagrath & Kothari |
| Electrical Machines | Electric Machinery | Fitzgerald & Kingsley |
| Power Electronics | Power Electronics | P.S. Bimbhra |
| High Voltage | High Voltage Engineering | M.S. Naidu |
| Control Systems | Modern Control Engineering | Katsuhiko Ogata |
| Renewable Energy | Renewable Energy Sources | Twidell & Weir |
M.Tech Electrical Engineering Syllabus FAQs (2026)
Q1: What is the duration and academic structure of the M.Tech Electrical program?
The program spans two years divided into four semesters. It includes core subjects, electives, laboratory and simulation work, seminars, mini and major projects, and an industry internship.
Q2: Are practical sessions and research components mandatory?
Yes, lab sessions, simulation assignments, and research projects are compulsory in all semesters to develop hands-on and analytical skills in electrical engineering domains.
Q3: When are elective subjects offered, and what specializations are available?
Electives are offered from Semester 3 onwards, allowing specialization in Renewable Energy, Automation & Drives, Power & Control, Embedded Systems, or Electric Vehicles, depending on the university.
Q4: Is internship or industry exposure part of the syllabus?
Yes, a compulsory industrial internship or research-based work is included in the final semester to provide real-world experience in power systems, renewable energy, or automation domains.
Q5: How does the 2026 syllabus align with modern electrical engineering requirements?
The 2026 syllabus emphasizes smart grids, renewable energy, electric vehicles, digital control, automation, and high-voltage systems, ensuring graduates are prepared for R&D, industrial, and consultancy roles in evolving electrical engineering sectors.