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M-TECH in Electrical Engineering at Indian Institute of Technology Roorkee
Haridwar, Uttarakhand
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About the Specialization
What is Electrical Engineering at Indian Institute of Technology Roorkee Haridwar?
This Electrical Engineering program at IIT Roorkee focuses on advanced concepts and research in power systems, control systems, power electronics, instrumentation, and communication systems. In the context of India''''s rapid industrialization and renewable energy thrust, the program prepares engineers for critical roles in modernizing the power grid, developing smart cities, and advancing digital communication infrastructure. Its rigorous curriculum emphasizes both theoretical depth and practical application, a key differentiator in the Indian engineering landscape.
Who Should Apply?
This program is ideal for fresh graduates with a B.Tech in Electrical or related engineering disciplines, seeking entry into core electrical industries or R&D. It also caters to working professionals aiming to upskill in specialized areas like smart grids or advanced control, and career changers transitioning into high-demand sectors such as renewable energy or telecommunications. A strong foundation in undergraduate electrical engineering principles and a valid GATE score are specific prerequisites.
Why Choose This Course?
Graduates of this program can expect diverse career paths in India, ranging from roles in PSUs like NTPC, PGCIL, BHEL, DRDO, to private firms in manufacturing, energy, and telecom sectors. Entry-level salaries typically range from INR 8-15 LPA, with experienced professionals commanding upwards of INR 20-40 LPA. Growth trajectories involve leading R&D teams, project management, or pursuing doctoral studies. The program aligns with certifications in power system operations, industrial automation, and embedded systems.
Student Success Practices
Foundation Stage
Strengthen Core Engineering Concepts- (Semester 1-2)
Actively participate in lectures and labs for subjects like Modern Power Systems and Advanced Control System. Utilize platforms like NPTEL for supplementary learning and solve problems from standard textbooks. This builds a robust technical base essential for tackling complex industry challenges and advanced research projects, directly impacting academic performance and interview readiness.
Tools & Resources
NPTEL, Standard Textbooks, Lecture Notes
Career Connection
Develops foundational knowledge crucial for core engineering roles and excelling in technical interviews.
Develop Practical Lab Skills- (Semester 1-2)
Focus on hands-on experience in Electrical Engineering Lab-I & II. Document experiments thoroughly and explore simulation tools like MATLAB/Simulink and PSCAD beyond lab requirements. This practical expertise is crucial for industrial roles and research, enabling quicker integration into project teams and enhancing problem-solving capabilities.
Tools & Resources
MATLAB/Simulink, PSCAD, Lab Equipment, Lab Journals
Career Connection
Enhances practical application skills, vital for R&D, industrial engineering, and project execution roles.
Engage in Peer Learning & Discussion- (Semester 1-2)
Form study groups with classmates to discuss complex topics, share insights, and prepare for exams. Utilize department seminars and workshops to broaden understanding beyond the curriculum. This collaborative approach fosters a deeper understanding, improves communication skills, and builds a strong professional network invaluable for future career growth.
Tools & Resources
Study Groups, Departmental Seminars, Online Forums
Career Connection
Builds teamwork skills, broadens technical perspectives, and creates networking opportunities within the academic community.
Intermediate Stage
Strategic Elective Selection- (Semester 3)
Carefully choose specialization courses based on career aspirations and research interests (e.g., Power System Deregulation, Optimal Control, Industrial Instrumentation). Consult faculty advisors and industry professionals for guidance. This focused learning allows for deep expertise in a chosen domain, making graduates highly sought after in niche industry segments and for Ph.D. admissions.
Tools & Resources
Faculty Advisors, Department Course Catalog, Industry Professionals
Career Connection
Develops specialized expertise, making graduates attractive to niche industry sectors and facilitating advanced research pursuits.
Initiate Dissertation Research- (Semester 3)
Begin intensive literature review and problem formulation for M.Tech Dissertation Part-I. Actively engage with your faculty supervisor, attend research colloquia, and explore potential industry collaborations. This early research engagement develops critical thinking, research methodology skills, and is a strong differentiator for R&D roles and future academic pursuits.
Tools & Resources
Research Papers (IEEE Xplore, Scopus), Research Colloquia, Supervisor Meetings
Career Connection
Cultivates research acumen and problem-solving skills, highly valued in R&D, product development, and academic roles.
Network with Industry & Academia- (Semester 3)
Attend department-organized industry talks, workshops, and national/international conferences (e.g., IEEE events). Actively participate in discussions and connect with speakers and professionals. These interactions provide insights into industry trends, potential internship opportunities, and build a professional network vital for career placement and mentorship.
Tools & Resources
IEEE Events, Industry Workshops, LinkedIn
Career Connection
Expands professional network, leading to internship and job opportunities, and gaining insights into industry best practices.
Advanced Stage
High-Impact Dissertation Completion- (Semester 4)
Dedicate full effort to M.Tech Dissertation Part-II, focusing on experimental validation, data analysis, and rigorous thesis writing. Aim for high-quality research outcomes potentially leading to publications in peer-reviewed journals. A strong dissertation with potential publications significantly enhances job prospects, especially in R&D, and is crucial for Ph.D. admissions.
Tools & Resources
Research Software, Thesis Writing Guides, Journal Submission Platforms
Career Connection
Showcases advanced research capabilities, crucial for R&D positions, academic careers, and higher studies.
Targeted Placement Preparation- (Semester 4)
Actively participate in campus placement drives. Prepare thoroughly for technical interviews by revisiting core concepts, solving aptitude problems, and practicing presentation skills. Utilize IIT Roorkee''''s Career Development Centre resources for mock interviews and resume building. This focused preparation ensures securing desirable roles in top-tier companies and PSUs, aligning skills with industry demands.
Tools & Resources
Career Development Centre, Mock Interviews, Aptitude Test Books, Company-specific Prep
Career Connection
Maximizes chances of securing high-value placements in leading companies and public sector undertakings.
Explore Entrepreneurship & Innovation- (Semester 4)
For those interested, leverage IIT Roorkee''''s incubation center and innovation ecosystem. Develop viable project ideas, participate in business plan competitions, and seek mentorship from startup founders. This fosters an entrepreneurial mindset, potentially leading to innovative ventures or leadership roles in technology-driven companies.
Tools & Resources
IIT Roorkee Incubation Center, Business Plan Competitions, Startup Mentors
Career Connection
Cultivates an innovative and entrepreneurial spirit, opening doors to startup careers or leadership roles in dynamic tech firms.
Program Structure and Curriculum
Eligibility:
- Bachelor’s degree in Electrical Engineering/ Electrical & Electronics Engineering/ Electrical & Instrumentation Engineering/ Instrumentation & Control Engineering/ Instrumentation Engineering/ Electronics & Communication Engineering/ Electronics & Telecommunication Engineering/ Electronics Engineering or equivalent discipline. Valid GATE score in Electrical Engineering (EE)/ Electronics & Communication Engineering (EC)/ Instrumentation Engineering (IN). Or, CGPA/CPI >= 6.0 (or 60% marks) from IITs/NITs/IIITs/BITS (Pilani)/other CFTIs/other Govt. Engg. Colleges/Centrally funded universities.
Duration: 2 years (4 semesters)
Credits: 60 Credits
Assessment: Assessment pattern not specified
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EEC-501 | Modern Power Systems | Core | 3 | Power System Planning & Operation, Power System Protection, Smart Grid Technologies, Power System Stability, Deregulated Power System |
| EEC-502 | Advanced Control System | Core | 3 | State Space Analysis, Linear System Stability, Optimal Control, Adaptive Control, Nonlinear Control |
| EEC-503 | Advanced Digital Signal Processing | Core | 3 | Discrete-time systems, DFT/FFT, Digital filter design, Multirate DSP, Adaptive filters |
| EEL-501 | Electrical Engineering Lab-I | Lab | 2 | Power system concepts, Control system experiments, Digital signal processing applications, Hands-on simulation tools, Data acquisition systems |
| EEC-511 | Optimal Control | Elective (Control System) | 3 | Calculus of variations, Pontryagin''''s maximum principle, Dynamic programming, Linear quadratic regulator, State and output feedback |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EEC-504 | Advanced Power Electronics | Core | 3 | Power Semiconductor Devices, DC-DC Converters, AC-DC Converters, DC-AC Inverters, Resonant Converters |
| EEC-505 | Advanced Communication Systems | Core | 3 | Digital Modulation, Channel Coding, MIMO Systems, Optical Communication, Satellite Communication |
| EEL-502 | Electrical Engineering Lab-II | Lab | 2 | Power electronics applications, Communication system design, Advanced electrical measurements, Microcontroller-based systems, Industrial automation |
| EEP-511 | Power System Deregulation | Elective (Power System) | 3 | Power Market Models, Independent System Operator, Ancillary Services, Transmission Pricing, Congestion Management, Regulatory Frameworks |
| EED-511 | Special Electrical Machines & Drives | Elective (Power Electronics & Drives) | 3 | Stepper motors, Switched reluctance motors, Brushless DC motors, Permanent magnet synchronous motors, Linear induction motors |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EED-601 | M.Tech. Dissertation Part – I | Project/Dissertation | 10 | Literature review, Problem formulation, Methodology development, Preliminary results, Report writing |
| EEP-512 | Power System Dynamics and Control | Elective (Power System) | 3 | Synchronous machine modeling, Excitation systems, Power system stabilizers, Voltage stability, Transient stability |
| EEC-512 | Adaptive Control | Elective (Control System) | 3 | Model reference adaptive control, Self-tuning regulators, Parameter estimation, Robust adaptive control, Stability analysis |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EED-602 | M.Tech. Dissertation Part – II | Project/Dissertation | 16 | Experimental validation, Data analysis, Thesis writing, Research publication, Presentation |
Semester courses
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EEP-513 | Advanced Power System Protection | Elective (Power System) | 3 | Digital protection relays, Protection of transmission lines, Transformer protection, Generator protection, Substation automation |
| EEP-514 | Smart Grid | Elective (Power System) | 3 | Smart grid architecture, Advanced metering infrastructure, Distributed generation, Electric vehicles, Cybersecurity in smart grid |
| EEP-515 | Renewable Energy Systems | Elective (Power System) | 3 | Solar photovoltaic systems, Wind energy conversion, Hydroelectric power, Biomass energy, Grid integration of renewables |
| EEP-516 | HVDC and FACTS | Elective (Power System) | 3 | HVDC transmission systems, FACTS controllers, Series compensation, Shunt compensation, Power quality improvement |
| EEP-517 | Power System Transients | Elective (Power System) | 3 | Lightning overvoltages, Switching surges, Transient recovery voltages, EMTP simulations, Insulation coordination |
| EEP-518 | Electric Power Quality | Elective (Power System) | 3 | Voltage sags and swells, Harmonics, Flicker, Power factor correction, Active filters |
| EEP-519 | Advanced Energy Conversion | Elective (Power System) | 3 | Thermoelectric generators, Fuel cells, Battery energy storage, Supercapacitors, Hybrid energy systems |
| EEP-520 | Computer Aided Power System Analysis | Elective (Power System) | 3 | Load flow studies, Fault analysis, Economic dispatch, Contingency analysis, Transient stability analysis |
| EEP-521 | Distributed Generation & Microgrid | Elective (Power System) | 3 | Distributed energy resources, Microgrid control strategies, Islanded operation, Grid-connected operation, Power management in microgrids |
| EEP-522 | Optimization Techniques in Power Systems | Elective (Power System) | 3 | Linear programming, Non-linear programming, Dynamic programming, Genetic algorithms, Particle swarm optimization |
| EEP-523 | Energy Management Systems | Elective (Power System) | 3 | SCADA systems, State estimation, Security assessment, Voltage/VAR control, Forecasting techniques |
| EEP-524 | Application of AI in Power Systems | Elective (Power System) | 3 | Neural networks for forecasting, Fuzzy logic for control, Expert systems for diagnosis, Machine learning for grid optimization, AI in smart grid operations |
| EEP-525 | Operation and Control of Power System | Elective (Power System) | 3 | Load frequency control, Automatic generation control, Voltage and reactive power control, Unit commitment, Economic dispatch |
| EEP-526 | Machine Learning for Power Systems | Elective (Power System) | 3 | Regression and classification, Clustering techniques, Deep learning for power systems, Anomaly detection, Predictive maintenance |
| EEI-511 | Advanced Transducers | Elective (Instrumentation & Measurement) | 3 | Smart sensors, Micro-electro-mechanical systems (MEMS), Fiber optic sensors, Chemical and biosensors, Wireless sensor networks |
| EEI-512 | Virtual Instrumentation | Elective (Instrumentation & Measurement) | 3 | LabVIEW programming, Data acquisition systems, GPIB and serial communication, Virtual instrument design, Real-time control applications |
| EEI-513 | Biomedical Instrumentation | Elective (Instrumentation & Measurement) | 3 | Electrocardiography (ECG), Electroencephalography (EEG), Medical imaging systems, Physiological transducers, Biomedical signal processing |
| EEI-514 | Industrial Instrumentation | Elective (Instrumentation & Measurement) | 3 | Pressure, temperature, flow measurement, Level measurement, Analytical instrumentation, Control valves, Process automation |
| EEI-515 | Signal Processing for Instrumentation | Elective (Instrumentation & Measurement) | 3 | Digital filters for noise reduction, Time-frequency analysis, Wavelet transforms, Adaptive signal processing, Measurement uncertainty |
| EEI-516 | Analytical Instrumentation | Elective (Instrumentation & Measurement) | 3 | Spectroscopy techniques, Chromatography, pH and conductivity meters, Gas analyzers, Mass spectrometry |
| EEI-517 | Optical Instrumentation | Elective (Instrumentation & Measurement) | 3 | Lasers and detectors, Fiber optics in sensing, Interferometry, Optical coherence tomography, Spectroscopic instrumentation |
| EEI-518 | Robotics & Automation | Elective (Instrumentation & Measurement) | 3 | Robot kinematics, Robot dynamics, Robot control, Sensors for robotics, Industrial automation techniques |
| EEI-519 | Smart Sensors and IoT | Elective (Instrumentation & Measurement) | 3 | Sensor principles, IoT architecture, Data analytics for sensors, Wireless sensor networks, Cloud integration for IoT |
| EEI-520 | Image Processing for Measurement | Elective (Instrumentation & Measurement) | 3 | Image acquisition, Image enhancement, Feature extraction, Pattern recognition, Machine vision applications |
| EEI-521 | Non-Destructive Testing | Elective (Instrumentation & Measurement) | 3 | Ultrasonic testing, Radiographic testing, Eddy current testing, Magnetic particle testing, Visual inspection techniques |
| EEI-522 | Advanced Measurement Techniques | Elective (Instrumentation & Measurement) | 3 | Precision measurements, Uncertainty analysis, High-frequency measurements, Quantum measurements, Nano-scale measurements |
| EEI-523 | Design of Electronic Instruments | Elective (Instrumentation & Measurement) | 3 | Analog front-end design, Digital signal conditioning, Microcontroller interfacing, Power supply design, EMI/EMC considerations |
| EEC-513 | Robust Control | Elective (Control System) | 3 | Uncertainty modeling, Small gain theorem, H-infinity control, Mu-synthesis, Quantitative feedback theory |
| EEC-514 | Non-Linear Control Systems | Elective (Control System) | 3 | Phase plane analysis, Describing functions, Lyapunov stability theory, Sliding mode control, Feedback linearization |
| EEC-515 | Digital Control Systems | Elective (Control System) | 3 | Sampling and reconstruction, Z-transform, Digital filter design, State space digital control, Microprocessor-based control |
| EEC-516 | System Identification | Elective (Control System) | 3 | Parametric and non-parametric methods, Least squares estimation, Recursive identification, Input-output models, Model validation |
| EEC-517 | Process Control & Automation | Elective (Control System) | 3 | PID controllers, Cascade control, Feedforward control, Distributed control systems, Programmable logic controllers |
| EEC-518 | Fuzzy Logic & Neural Networks | Elective (Control System) | 3 | Fuzzy set theory, Fuzzy inference systems, Artificial neural networks, Backpropagation algorithm, Neuro-fuzzy systems |
| EEC-519 | Control of Electric Drives | Elective (Control System) | 3 | DC motor drives, Induction motor drives, Permanent magnet motor drives, Vector control, Sensorless control |
| EEC-520 | Distributed Control Systems | Elective (Control System) | 3 | Networked control systems, Multi-agent systems, Consensus protocols, Event-triggered control, Cyber-physical systems |
| EEC-521 | Model Predictive Control | Elective (Control System) | 3 | Receding horizon control, Optimization in control, Constraints handling, Nonlinear MPC, Economic MPC |
| EEC-522 | Control System Design | Elective (Control System) | 3 | Frequency domain design, State-space design, Root locus method, Controller tuning, Robust performance analysis |
| EEC-523 | Hybrid Control Systems | Elective (Control System) | 3 | Switched systems, Impulsive systems, Reachability analysis, Stability of hybrid systems, Control synthesis for hybrid systems |
| EED-512 | Electric Drives | Elective (Power Electronics & Drives) | 3 | Modeling of electrical machines, Converter fed DC drives, V/f control of induction motor, Vector control of induction motor, Synchronous motor drives |
| EED-513 | Advanced Power Converters | Elective (Power Electronics & Drives) | 3 | Multilevel inverters, Matrix converters, Modular multilevel converters, Soft switching converters, Wide bandgap devices |
| EED-514 | PWM Techniques for Power Converters | Elective (Power Electronics & Drives) | 3 | Space vector modulation, Sinusoidal PWM, Selective harmonic elimination, Hysteresis control, Random PWM |
| EED-515 | Control of Power Converters | Elective (Power Electronics & Drives) | 3 | Current mode control, Voltage mode control, Sliding mode control of converters, Fuzzy logic control for converters, Adaptive control in power electronics |
| EED-516 | HVDC Transmission Systems | Elective (Power Electronics & Drives) | 3 | HVDC system configurations, Converter types, Control of HVDC converters, Harmonics in HVDC, Multi-terminal HVDC |
| EED-517 | FACTS Devices | Elective (Power Electronics & Drives) | 3 | Series compensators (SSSC), Shunt compensators (STATCOM), Unified Power Flow Controller (UPFC), Thyristor-based FACTS, Voltage stability enhancement |
| EED-518 | Renewable Energy Integration | Elective (Power Electronics & Drives) | 3 | Grid codes for renewables, Power electronic converters for PV, Converters for wind turbines, Storage systems integration, Microgrid control for renewables |
| EED-519 | Power Quality Improvement Techniques | Elective (Power Electronics & Drives) | 3 | Harmonic filters, Dynamic voltage restorers, Unified Power Quality Conditioners (UPQC), Shunt active filters, Series active filters |
| EED-520 | Microgrid and Smart Grid Applications | Elective (Power Electronics & Drives) | 3 | Microgrid architectures, Energy management systems for microgrids, Smart grid communication, Cybersecurity in smart grid, Demand side management |
| EED-521 | Modelling and Simulation of Power Electronic Systems | Elective (Power Electronics & Drives) | 3 | Device modeling, Converter simulation techniques, MATLAB/Simulink, PSIM/PSpice simulation, Real-time simulation |
| EED-522 | Power Electronics for Electric Vehicles | Elective (Power Electronics & Drives) | 3 | EV powertrain components, Battery chargers, Motor drives for EVs, Auxiliary power units, Vehicle-to-grid (V2G) systems |
| EEF-511 | Information Theory and Coding | Elective (Communication System) | 3 | Entropy and mutual information, Channel capacity, Source coding, Linear block codes, Convolutional codes |
| EEF-512 | Advanced Digital Communication | Elective (Communication System) | 3 | Digital modulation schemes, Equalization techniques, Spread spectrum communication, Orthogonal frequency-division multiplexing (OFDM), Synchronization |
| EEF-513 | Wireless Communication | Elective (Communication System) | 3 | Radio propagation characteristics, Fading channels, Diversity techniques, Cellular system concepts, Multiple access techniques |
| EEF-514 | Optical Communication Systems | Elective (Communication System) | 3 | Optical fibers and waveguides, Optical sources and detectors, Optical amplifiers, Wavelength division multiplexing, Coherent optical communication |
| EEF-515 | Satellite Communication | Elective (Communication System) | 3 | Satellite orbits, Link design, Multiple access in satellites, Earth station technology, VSAT systems |
| EEF-516 | Data Communication Networks | Elective (Communication System) | 3 | OSI model, TCP/IP protocol suite, Local area networks, Routing algorithms, Network security |
| EEF-517 | Signal Detection and Estimation Theory | Elective (Communication System) | 3 | Hypothesis testing, Bayesian estimation, Maximum likelihood estimation, Kalman filters, Wiener filters |
| EEF-518 | MIMO Systems | Elective (Communication System) | 3 | MIMO channel models, Spatial multiplexing, Diversity coding, Space-time coding, Massive MIMO |
| EEF-519 | Cognitive Radio | Elective (Communication System) | 3 | Spectrum sensing, Spectrum management, Dynamic spectrum access, CR architectures, Standardization in CR |
| EEF-520 | 5G and Beyond Communication | Elective (Communication System) | 3 | 5G requirements and use cases, Millimeter wave communication, Massive MIMO and beamforming, Network slicing, IoT integration in 5G |
| EEF-521 | Internet of Things | Elective (Communication System) | 3 | IoT architecture, IoT protocols, Sensor technologies, Data analytics for IoT, Security in IoT |
| EEF-522 | Machine Learning for Communications | Elective (Communication System) | 3 | ML for signal detection, Resource allocation using ML, Channel estimation with ML, Reinforcement learning for networks, Deep learning in physical layer |
| EEF-523 | RF and Microwave Engineering | Elective (Communication System) | 3 | Transmission lines, S-parameters, Microwave components, Antenna theory, RF circuit design |
