M.Tech in Electronics Engineering Syllabus
Masters of Technology in Electronics Engineering Syllabus
The Master of Technology in Electronics Engineering (M.Tech Electronics) is a two-year postgraduate program designed to build advanced expertise in electronic circuits, communication systems, semiconductor technology, embedded systems, VLSI, and automation. Aligned with NEP 2020 and 2026 industry standards, the syllabus emphasizes hands-on laboratory work, simulation-based learning, interdisciplinary innovation, and research-oriented project development.
Table of Contents
Semester 1: Advanced Foundation
This semester strengthens mathematical, analytical, and electronic fundamentals.
- Advanced Digital Signal Processing: DSP algorithms, filters, spectral analysis.
- Semiconductor Device Modeling: MOSFETs, fabrication processes, nanoelectronics.
- Microcontroller & Embedded Systems: Architecture, interfacing, real-time systems.
- Applied Mathematics for Electronics: Linear algebra, probability, transforms.
- Research Methodology: Research design, literature review, technical writing.
Semester 2: Core Electronics Systems
This semester focuses on circuit design, communication, and control systems.
- VLSI Design & Technology: CMOS design, HDL, FPGA, ASIC concepts.
- Communication Systems Engineering: Analog, digital, and wireless communication.
- Power Electronics: Converters, inverters, motor drives.
- Control Systems: Modeling, stability analysis, PID controllers.
- Laboratory Work & Minor Project: Simulation and hardware implementation.
Semester 3: Specialization & Research Orientation
This semester introduces advanced technologies and dissertation planning.
- RF & Microwave Engineering: Antennas, waveguides, microwave devices.
- IoT & Industrial Automation: Smart sensors, PLC, SCADA systems.
- Elective I: Domain-specific specialization subject.
- Elective II: Advanced elective based on career focus.
- Dissertation Phase I: Topic selection and research proposal.
Semester 4: Project, Internship & Viva
The final semester emphasizes research execution and industry exposure.
- Elective III: Advanced specialization subject.
- Elective IV: Industry-oriented or research-focused elective.
- Major Project / Thesis: Research-based or product-oriented project.
- Industry Internship & Viva-Voce: Practical training and final evaluation.
Recommended Books for M.Tech Electronics Engineering
| Subject | Book Title | Author |
|---|---|---|
| VLSI Design | VLSI Design | John P. Uyemura |
| Signal Processing | Digital Signal Processing | Oppenheim |
| Communication Systems | Communication Systems | Simon Haykin |
| Embedded Systems | Embedded System Design | Frank Vahid |
| Control Engineering | Modern Control Engineering | Katsuhiko Ogata |
M.Tech Electronics Engineering Syllabus FAQs (2026)
Q1: What is the overall structure of the M.Tech Electronics syllabus?
The M.Tech Electronics Engineering syllabus follows a two-year structure divided into four semesters. The curriculum includes core subjects, elective subjects, laboratory practicals, research methodology, dissertation work, and an industry internship in the final semester.
Q2: How is the syllabus distributed across the four semesters?
Semester 1 focuses on advanced foundations such as signal processing, semiconductor devices, and embedded systems. Semester 2 covers core electronics areas including VLSI, communication systems, power electronics, and control systems. Semester 3 emphasizes specialization through electives, IoT, RF systems, and dissertation planning. Semester 4 is dedicated to the major project, internship, and viva-voce.
Q3: Are laboratory and simulation components included in the syllabus?
Yes, laboratory practicals and simulation-based learning are mandatory parts of the M.Tech Electronics syllabus. Students work with circuit design tools, HDL simulation, signal processing software, and embedded system platforms across all semesters.
Q4: What role do electives play in the M.Tech Electronics syllabus?
Elective subjects allow students to specialize in specific domains such as VLSI design, embedded systems, robotics and automation, communication engineering, signal processing, or power electronics. Electives are usually offered from the third semester onwards.
Q5: Is project or dissertation work compulsory in the syllabus?
Yes, dissertation or major project work is compulsory in the final year. Students begin research planning in Semester 3 and complete the project in Semester 4 under faculty supervision, followed by evaluation and viva-voce.
Q6: Does the 2026 syllabus follow NEP 2020 guidelines?
Yes, the 2026 M.Tech Electronics Engineering syllabus is aligned with NEP 2020. It emphasizes research orientation, interdisciplinary learning, skill-based education, and practical exposure through labs, projects, and internships.