M.Tech in Electrical Engineering
M.Tech in Electrical Engineering
Program Overview
The M.Tech program is a 2-year postgraduate program offering specializations in various domains of electrical engineering with advanced coursework and research components.
Duration: 2 years (4 semesters) Total Credits: 190 credits Batch: 2024 Curriculum
Specializations
EE1: Communications and Signal Processing
Semester 1 (45 Credits)
| Course Code | Course Name | L-T-E-P | Credits |
|---|---|---|---|
| Core I | M.Tech Core I | 4-0-0-0 | 12 |
| Core II | M.Tech Core II | 4-0-0-0 | 12 |
| Core III | M.Tech Core III | 4-0-0-0 | 12 |
| Core IV | M.Tech Core IV | 3-0-0-0 | 9 |
| GN5003 | Personal and Professional Growth | 1-0-0-0 | 0 |
Core Courses Basket (Minimum 45 credits required)
EE5110 - Probability Foundations for Electrical Engineers (12)
EE5120 - Applied Linear Algebra I for EE (12)
EE5130 - Digital Signal Processing (12)
EE5151 - Communication Techniques (12)
EE5140 - Digital Modulation and Coding (12)
EE5150 - Communication Networks (12)
EE5505 - Wave Propagation in Communications (12)
EE5500 - Introduction to Photonics (12)
EE5142 - Introduction to Information Theory and Coding (12)
EE5153 - Foundations of Optical Networking (12)
EE5143 - Information Theory (9)
Elective Requirements
- 60 credits of electives required
- 48 credits from Electrical Engineering at 5000-level or higher
- 12 credits from any department at 5000-level or higher
EE2: Power Systems and Power Electronics
Semester 1 (27 Credits)
| Course Code | Course Name | L-T-E-P | Credits |
|---|---|---|---|
| EE5200 | Power Converter Analysis and Design | 3-0-0-0 | 9 |
| EE5201 | Modeling and Analysis of Electric Machines | 3-0-0-0 | 9 |
| EE5253 | Computer Methods in Power System Analysis | 3-0-0-0 | 9 |
| GN5003 | Personal and Professional Growth | 1-0-0-0 | 0 |
Semester 2 (33 Credits)
| Course Code | Course Name | L-T-E-P | Credits |
|---|---|---|---|
| EE5254 | High Voltage Engineering | 3-0-0-0 | 9 |
| EE5262 | Distributed Generation and Microgrid Systems | 3-0-0-0 | 9 |
| EE6255 | Power System Protection | 3-0-0-0 | 9 |
| EE5702 | Laboratory (Power) | 0-0-0-3 | 6 |
Elective Requirements
- Minimum 45 credits of electives
- At least 27 credits from EE2 elective list
- 18 credits from any institute course at 5000-level or higher
Suggested EE2 Electives
EE5202 - Computer Aided Design of Electrical Machines (9)
EE5203 - Switched Mode Power Conversion (9)
EE5212 - Digital Control of Power Electronics (9)
EE5257 - Energy Management Systems and SCADA (9)
EE5260 - Power Quality (9)
EE5261 - Flexible AC Transmission Systems (9)
EE6010 - Smart Power Grids (9)
EE6200 - Power Electronic Control of Electrical Machines (9)
EE6203 - Power Electronic System Design (9)
EE6253 - Power System Stability and Control (9)
EE6254 - Advanced Topics in Insulation (9)
EE6258 - DC Power Transmission (9)
EE6260 - Digital Simulation of Power Systems (9)
EE6261 - Restructured Power Systems (9)
EE6262 - Advanced Motor Control (9)
EE6265 - Power System Operation and Planning (9)
EE3: Microelectronics and VLSI Design
Semester 1 (24 Credits)
| Course Code | Course Name | L-T-E-P | Credits |
|---|---|---|---|
| EE5313 | Semiconductor Device Modeling | 4-0-0-0 | 12 |
| EE5312 | VLSI Technology | 4-0-0-0 | 12 |
| GN5003 | Personal and Professional Growth | 1-0-0-0 | 0 |
Semester 2 (6 Credits)
| Course Code | Course Name | L-T-E-P | Credits |
|---|---|---|---|
| EE5314 | Microelectronics Lab | 0-0-0-3 | 6 |
Elective Requirements
- Minimum 75 credits of electives
- 27 credits from Materials and Devices basket
- 27 credits from Circuits and Systems basket
Materials and Devices Basket
EE5340 - Microelectromechanical Systems (9)
EE5341 - MOS Device Modeling & Characterization (9)
EE5342 - Compound Semiconductors (9)
EE5343 - Solar Cell Device Physics and Material Tech (9)
EE5345 - Semiconductor Power Devices (9)
EE5347 - Electronic and Photonic Nano Devices (9)
EE6346 - Advanced CMOS devices & technology (9)
EE6500 - Integrated Optoelectronic Devices (9)
Circuits and Systems Basket
EE5311 - Digital IC Design (9)
EE5130 - Digital Signal Processing (9)
EE5310 - Analog Electronic Circuits (9)
EE5320 - Analog IC Design (9)
EE5323 - Advanced Electrical Networks (9)
EE5325 - VLSI Power Management Circuits (9)
EE5350 - Linear Algebra for data analysis (9)
EE6320 - RF Integrated Circuits (9)
EE4: Electronic System Design and Instrumentation
Semester 1 (48 Credits)
| Course Code | Course Name | L-T-E-P | Credits |
|---|---|---|---|
| EE5400 | Analog and Digital Systems | 2-0-0-3 | 12 |
| EE5412 | Mathematical Methods in Systems Engg. | 4-0-0-0 | 12 |
| Core I | Core Course I | - | 12 |
| Core II | Core Course II | - | 12 |
| GN5003 | Personal and Professional Growth | 1-0-0-0 | 0 |
Core Basket I
EE5411 - Synthesis of Control Systems (12)
EE5412 - Mathematical Methods in Systems Engg. (12)
EE5413 - Linear Dynamical Systems (12)
EE6415 - Nonlinear Systems Analysis (12)
Core Basket II
EE5410 - Introduction to Digital Signal Processing (12)
EE5130 - Digital Signal Processing (12)
EE5120 - Applied Linear Algebra I for EE (12)
EE5011 - Computer Methods in Electrical Engineering (12)
EE5110 - Probability Foundations for Electrical Engineers (12)
EE5500 - Introduction to Photonics (9)
Elective Requirements
- 60 credits of electives required
- 40 credits from Electrical Engineering at 5000-level or higher
- 20 credits from any department at 5000-level or higher
EE5: RF and Photonics
Semester 1 (36 Credits)
| Course Code | Course Name | L-T-E-P | Credits |
|---|---|---|---|
| EE5500 | Introduction to photonics | 3-1-0-0 | 9 |
| EE5505 | Wave propagation in communication | 3-1-0-0 | 9 |
| EE5400 | Analog and Digital Circuits | 2-0-0-3 | 12 |
| EE5501 | Photonics Laboratory | 0-0-0-3 | 6 |
| GN5003 | Personal and Professional Growth | 1-0-0-0 | 0 |
Semester 2 (9 Credits)
| Course Code | Course Name | L-T-E-P | Credits |
|---|---|---|---|
| EE5507 | RF Systems Laboratory | 0-0-0-3 | 6 |
| EE6000 | Seminar | 1-0-0-0 | 3 |
Elective Requirements
- 60 credits of electives required
- All elective credits at 5000-level or higher
- Approval of faculty advisor required
Suggested Electives
EE5502 - Optical Engineering (12)
EE5504 - Fibre Optic Communication Technology (12)
EE6500 - Integrated Optoelectronic Devices and Circuits (12)
EE6501 - Optical Sensors (9)
EE6700 - Advanced Photonics Laboratory (9)
EE6505 - Waveguides, microwave circuits and antennas (12)
ED5316 - Antenna Theory and Design (10)
EE6320 - RF Integrated Circuits (9)
EE6: Integrated Circuits & Systems
Semester 1 (24 Credits)
| Course Code | Course Name | L-T-E-P | Credits |
|---|---|---|---|
| EE5310 | Analog Electronic Circuits | 4-0-0-0 | 12 |
| EE5311 | Digital IC Design | 4-0-0-0 | 12 |
| GN5003 | Personal and Professional Growth | 1-0-0-0 | 0 |
Elective Requirements
- 81 credits of electives required
- 48 credits from specified EE6 elective basket
- 24 credits from any EE course at 5000-level or higher
- All coursework must be completed in first two semesters
EE6 Elective Basket
EE5130 - Digital Signal Processing (12)
EE5410 - Introduction to DSP (12)
EE5110 - Probability Foundations for Electrical Engineers (12)
EE5330 - Computer-Aided Design and Analysis of Digital ICs (12)
EE5331 - DSP Architectures & Embedded Systems (12)
EE5332 - Mapping Signal Processing Algorithms to DSP Architectures (12)
EE5320 - Analog IC Design (12)
EE5321 - Active Filter Design (12)
EE5323 - Advanced Electrical Networks (12)
EE5325 - Power Management Integrated Circuits (12)
EE7: Control and Optimization
Semester 1 (39 Credits)
| Course Code | Course Name | L-T-E-P | Credits |
|---|---|---|---|
| Core 1 | M.Tech Core 1 | 4-0-0-0 | 12 |
| Core 2 | M.Tech Core 2 | 4-0-0-0 | 12 |
| Core 3 | M.Tech Core 3 | 3-0-0-0 | 9 |
| GN5003 | Personal and Professional Growth | 1-0-0-0 | 0 |
Semester 2 (6 Credits)
| Course Code | Course Name | L-T-E-P | Credits |
|---|---|---|---|
| EE5419 | Advanced Control Laboratory | 0-0-0-3 | 6 |
Core Basket (Minimum 33 credits required)
EE5413 - Linear Dynamical Systems (12)
EE5412 - Mathematical Methods in Systems Engineering (12)
EE6412 - Optimal Control (12)
EE6415 - Nonlinear Systems Analysis (12)
EE6430 - Fundamentals of Linear Optimization (9)
EE5411 - Synthesis of Control Systems (12)
Elective Requirements
- Minimum 48 credits from core basket and suggested electives
- Up to 18 credits from any department at 5000-level or higher
- Faculty advisor approval required
Suggested EE Electives
EE6432 - Stochastic Control (12)
EE6433 - Distributed Optimization for Control (12)
EE6417 - Allied topics in Control Systems (9)
EE6419 - Geometric Nonlinear Control Theory (9)
EE6418 - Dynamic Games - Theory and Applications (9)
EE6431 - Nonsmooth Analysis in Control and Optimization (9)
EE5110 - Probability Foundations for Electrical Engineers (12)
EE5121 - Convex Optimization (12)
M.Tech Project Options
All M.Tech streams follow one of these project options:
Option 1: Standard Project
- Summer: No internship
- Semester 3: EE6905 (45 credits) + courses if needed
- Semester 4: EE6904 (40 credits)
- Total Project Credits: 85 credits
Option 2: Summer Internship (Coursework completed)
- Prerequisite: ≥105 credits completed by end of 1st year
- Summer: Internship/Project
- Semester 3: EE6905 (45 credits)
- Semester 4: EE6904 (40 credits)
- Total Project Credits: 85 credits
Option 3: Summer Internship (Coursework ongoing)
- Prerequisite: <105 credits completed by end of 1st year
- Summer: Internship EE6902 (20 credits) + courses
- Semester 3: EE6904 (40 credits) + EE courses
- Total Project Credits: 60 credits