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B-TECH-M-TECH in Electrical Engineering at Indian Institute of Technology Kanpur
Kanpur Nagar, Uttar Pradesh
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About the Specialization
What is Electrical Engineering at Indian Institute of Technology Kanpur Kanpur Nagar?
This Electrical Engineering B.Tech-M.Tech dual degree program at IIT Kanpur focuses on a comprehensive and advanced understanding of electrical sciences, from fundamental circuits to cutting-edge technologies like VLSI, power systems, communications, and control. It integrates core engineering principles with specialized postgraduate research, preparing students for leadership roles in India''''s rapidly evolving technology landscape. The program emphasizes both theoretical depth and practical application, a critical requirement for innovation and development within the Indian industry.
Who Should Apply?
This program is ideal for high-achieving fresh graduates who have cleared competitive entrance exams like JEE Advanced, seeking an accelerated path to advanced engineering expertise. It also caters to existing B.Tech students with strong academic records at IIT Kanpur looking to deepen their specialization and gain research experience. Aspiring engineers aiming for R&D careers, academia, or advanced technical roles in India''''s core electrical, electronics, and IT sectors will find this program particularly beneficial.
Why Choose This Course?
Graduates of this program can expect to secure high-impact roles in core electrical and electronics companies, power sector, telecommunications, and IT firms across India. Career paths include R&D engineer, design engineer, system architect, and technical consultant. Entry-level salaries for dual degree holders often range from INR 15-30 LPA, with significant growth trajectories in leading Indian and multinational corporations. The dual degree enhances career progression and opens doors to doctoral studies and specialized professional certifications.
Student Success Practices
Foundation Stage
Master Core Science and Math Fundamentals- (Semester 1-2)
Dedicate significant time to understanding the foundational concepts in Physics, Chemistry, Mathematics, and introductory Engineering. These subjects form the bedrock of all advanced Electrical Engineering topics. Regularly practice problems, solve past year papers, and clarify doubts promptly with professors and teaching assistants.
Tools & Resources
NPTEL courses for foundational subjects, Khan Academy, Reference textbooks (e.g., Resnick/Halliday for Physics, NCERT for Chemistry basis), Peer study groups
Career Connection
A strong foundation ensures smooth progression to complex EE concepts, which is crucial for advanced coursework, research, and technical interviews in core engineering roles.
Develop Strong Programming Skills- (Semester 1-3)
Beyond the introductory programming course, consistently practice coding in languages like C/C++ or Python. Focus on data structures, algorithms, and problem-solving. Engage in coding challenges and participate in university coding competitions to enhance logical thinking and implementation abilities.
Tools & Resources
CodeChef, GeeksforGeeks, HackerRank, LeetCode, Online C/C++ or Python tutorials
Career Connection
Programming is vital for modern Electrical Engineering, especially in areas like embedded systems, signal processing, VLSI design, and machine learning, directly impacting placement opportunities in tech and R&D firms.
Build a Foundational Engineering Mindset- (Semester 1-2)
Actively participate in workshops, engineering drawing sessions, and basic lab courses. Focus on understanding the practical aspects of engineering design, measurement, and fabrication. Attend guest lectures and departmental introductory seminars to grasp the breadth of Electrical Engineering applications.
Tools & Resources
Departmental workshops, Engineering drawing software (e.g., AutoCAD), Basic electronics kits, IEEE student chapter events
Career Connection
Cultivating an early engineering mindset helps in connecting theoretical knowledge to real-world problems, essential for internships and project work.
Intermediate Stage
Engage in Departmental Projects and Labs- (Semester 3-5)
Actively seek out opportunities for mini-projects within the Electrical Engineering department or participate in departmental lab sessions with enthusiasm. Apply theoretical knowledge from core EE courses (like Digital Electronics, Control Systems, Analog Circuits) to hands-on experiments and design challenges.
Tools & Resources
Departmental research labs, Circuit simulation software (e.g., LTSpice, MATLAB/Simulink), Microcontroller development boards (e.g., Arduino, Raspberry Pi)
Career Connection
Practical experience gained from projects and labs is highly valued by recruiters for internships and entry-level engineering positions, demonstrating application-oriented skills.
Explore Electives and Specialization Tracks- (Semester 4-6)
As you complete core courses, start exploring the various specialization tracks within Electrical Engineering (e.g., Power, Communications, VLSI, Control, Signal Processing). Attend informational sessions, talk to senior students and faculty, and strategically choose initial professional electives that align with your interests.
Tools & Resources
EE Department website for research areas, Faculty profiles, Course catalogs for elective options, Technical clubs focused on specific domains
Career Connection
Early exploration helps in defining a clear career path, enabling you to build a specialized skill set sought after by niche industries and advanced research labs in India.
Network and Seek Mentorship- (Semester 3-6)
Attend seminars, workshops, and conferences organized by the department or professional bodies like IEEE. Network with faculty members, alumni, and industry professionals. Seek mentorship from professors for academic guidance and from seniors or alumni for career advice and industry insights.
Tools & Resources
LinkedIn, Alumni association events, IEEE student branch activities, Departmental events
Career Connection
Networking opens doors to internships, research opportunities, and placements. Mentorship provides invaluable guidance for academic and professional growth in the Indian context.
Advanced Stage
Undertake Research-Oriented Projects and Internships- (Semester 7-10)
Focus on impactful B.Tech and M.Tech projects (EE490/491, EE690/691) that address real-world challenges or contribute to ongoing research. Seek out R&D internships in reputable Indian companies or academic institutions during summer breaks to gain exposure to industry-level problem-solving and research methodologies.
Tools & Resources
Project proposals and reports, Simulation and analysis software (e.g., MATLAB, ANSYS, Cadence), Access to advanced lab equipment
Career Connection
Strong project work and internships are critical for placements in R&D roles, core engineering firms, and for admission to top PhD programs in India and abroad.
Master Advanced Elective Concepts and Tools- (Semester 9-10)
Dive deep into specialized M.Tech electives that complement your chosen research or career path. Gain proficiency in industry-standard software, tools, and hardware relevant to your specialization (e.g., Cadence for VLSI, OPAL-RT for Power Systems, NS-3 for Communication Networks).
Tools & Resources
Specialized software licenses provided by the institution, Advanced research papers and journals, Online certifications in niche technologies
Career Connection
Expertise in advanced topics and tools makes you a highly competitive candidate for specialized engineering roles and leadership positions in Indian technology companies and research organizations.
Prepare for Placements and Higher Studies- (Semester 8-10)
Actively participate in campus placement drives, honing your interview skills, aptitude, and technical knowledge. For those pursuing higher studies, prepare for competitive exams like GATE (for further M.Tech/PhD in India) or GRE/TOEFL (for abroad). Focus on building a strong resume/CV and developing presentation skills for project defenses.
Tools & Resources
IITK Career Development Centre, Mock interview sessions, Aptitude test practice platforms, GATE/GRE coaching materials, Alumni network for interview tips
Career Connection
Thorough preparation ensures successful placements in top-tier companies or secures admission to prestigious higher education programs, leading to accelerated career growth and impactful contributions.
Program Structure and Curriculum
Eligibility:
- Admission primarily through JEE (Advanced) for fresh intake. Existing B.Tech students may opt for the dual degree based on academic performance after 4th semester.
Duration: 5 years / 10 semesters
Credits: Normally between 290 and 300 credits Credits
Assessment: Internal: Varies by course (quizzes, assignments, mid-semester exams), External: Varies by course (end-semester exams, project evaluations)
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTH101A | Mathematics I | Core | 9 | Single Variable Calculus, Sequences and Series, Multivariable Calculus Introduction, Partial Derivatives, Optimization Problems |
| PHY101A | Physics I | Core | 9 | Classical Mechanics, Special Relativity, Wave Motion, Oscillations, Introduction to Electromagnetism |
| PHY103A | Physics Laboratory I | Lab | 6 | Measurement Techniques, Error Analysis, Basic Physics Experiments, Data Interpretation, Experimental Design |
| CHM101A | Chemistry I | Core | 9 | Atomic Structure, Chemical Bonding, Molecular Structure, Thermodynamics, Electrochemistry |
| TA101A | Engineering Graphics and Drawing | Lab | 6 | Orthographic Projections, Isometric Views, Sectional Views, Computer-Aided Design (CAD), Assembly Drawing |
| HSS I | Humanities and Social Sciences Elective I | Elective | 9 | Selected Topics in Social Sciences, Arts and Culture, Ethics and Philosophy, Literature and Language, Economics Fundamentals |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTH102A | Mathematics II | Core | 9 | Linear Algebra, Vector Spaces, Matrices and Determinants, Eigenvalues and Eigenvectors, Systems of Linear Equations |
| PHY102A | Physics II | Core | 9 | Electricity and Magnetism, Maxwell''''s Equations, Electromagnetic Waves, Optics, Interference and Diffraction |
| PHY104A | Physics Laboratory II | Lab | 6 | Electrical Circuits, Magnetic Fields, Optical Instruments, Spectroscopy, Modern Physics Experiments |
| CHM102A | Chemistry Laboratory I | Lab | 6 | Volumetric Analysis, Gravimetric Analysis, Organic Chemistry Techniques, Spectroscopic Methods, Inorganic Synthesis |
| ESC101A | Introduction to Engineering | Core | 9 | Problem Solving and Algorithms, Programming Fundamentals (C/C++), Data Structures Introduction, Computational Thinking, Engineering Design Process |
| TA201A | Workshop Practice | Lab | 6 | Machining Operations, Welding Techniques, Fitting and Carpentry, Sheet Metal Work, Foundry Practices |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTH201A | Mathematics III | Core | 9 | Differential Equations, Laplace Transforms, Fourier Series, Vector Calculus, Sturm-Liouville Theory |
| EE200A | Introductory Electrical Engineering | Core | 9 | DC and AC Circuits, Network Theorems, Single-Phase AC Systems, Magnetic Circuits, Transformers |
| ESC201A | Signals and Systems | Core | 9 | Continuous-Time Signals, Discrete-Time Signals, LTI Systems, Fourier Analysis, Laplace and Z-Transforms |
| LFS201 | Introduction to Life Sciences | Core | 9 | Cell Biology, Genetics Fundamentals, Biomolecules, Physiology, Biotechnology Applications |
| ESO201A | Thermodynamics | Core | 9 | First Law of Thermodynamics, Second Law of Thermodynamics, Entropy, Thermodynamic Cycles, Heat Engines and Refrigerators |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MTH203A | Complex Analysis | Core | 9 | Complex Numbers and Functions, Analytic Functions, Cauchy-Riemann Equations, Contour Integration, Residue Theorem |
| EE210A | Digital Electronics | Core | 9 | Digital Logic Families, Combinational Logic Design, Sequential Logic Design, Finite State Machines, Memory and Programmable Logic |
| EE250A | Control System Analysis and Design | Core | 9 | System Modeling, Feedback Control, Stability Analysis (Routh-Hurwitz, Nyquist), Root Locus, Controller Design (PID) |
| EE211A | Digital Electronics Laboratory | Lab | 6 | Logic Gates Implementation, Combinational Circuit Design, Sequential Circuit Design, Microcontroller Interfacing, FPGA Prototyping |
| ESO203A | Mechanics of Solids | Core | 9 | Stress and Strain, Elastic Constants, Bending Moments, Shear Force Diagrams, Torsion and Deflection |
| HSS II | Humanities and Social Sciences Elective II | Elective | 9 | Political Science, Sociology, Psychology, Organizational Behavior, Communication Skills |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE301A | Signals, Systems and Networks | Core | 9 | Network Functions, Two-Port Networks, Filter Design, Stability of Systems, State-Space Analysis |
| EE320A | Power Electronics | Core | 9 | Power Semiconductor Devices, AC-DC Converters, DC-DC Converters, DC-AC Inverters, Pulse Width Modulation |
| EE330A | Analog Circuits | Core | 9 | Diode Circuits, BJT and MOSFET Amplifiers, Feedback Amplifiers, Operational Amplifiers, Oscillators and Filters |
| EE331A | Analog Circuits Laboratory | Lab | 6 | Diode Characteristics, Transistor Amplifiers, Op-Amp Applications, Active Filters, Power Amplifiers |
| ESO205A | Introduction to Materials Science | Core | 9 | Atomic Structure and Bonding, Crystal Structures, Defects in Solids, Mechanical Properties, Electrical and Optical Properties |
| HSS III | Humanities and Social Sciences Elective III | Elective | 9 | Introduction to Philosophy, History of Science and Technology, Entrepreneurship, Business Communication, Environmental Studies |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE340A | Electromagnetics | Core | 9 | Electrostatics, Magnetostatics, Maxwell''''s Equations, Plane Wave Propagation, Transmission Lines |
| EE350A | Communication Systems | Core | 9 | Analog Modulation, Digital Modulation, Noise in Communication Systems, Information Theory, Coding Techniques |
| EE360A | Microprocessors | Core | 9 | Microprocessor Architecture, Assembly Language Programming, Memory and I/O Interfacing, Interrupts and DMA, Microcontrollers |
| EE351A | Communication Systems Laboratory | Lab | 6 | Analog Modulation Experiments, Digital Modulation Experiments, Noise Measurement, Error Correction Coding, Software Defined Radio |
| EE361A | Microprocessor Laboratory | Lab | 6 | 8086/ARM Programming, Peripheral Interfacing, Interrupt Handling, ADC/DAC Interfacing, Real-time Applications |
| EE370A | Power System Engineering | Core | 9 | Power System Components, Load Flow Analysis, Fault Analysis, Stability of Power Systems, Power System Protection |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE380A | Electrical Machines | Core | 9 | DC Machines, Synchronous Machines, Induction Machines, Special Machines, Machine Control |
| EE401A | Introduction to VLSI Design | Core | 9 | MOS Transistor Theory, CMOS Logic Gates, Circuit Characterization, VLSI Design Flow, Memory and Array Structures |
| EE410A | Electronic Devices | Core | 9 | Semiconductor Physics, PN Junction Diodes, Bipolar Junction Transistors, MOSFETs, Photonic Devices |
| EE490A | B.Tech. Project Part I | Project | 9 | Literature Review, Problem Formulation, Methodology Design, Preliminary Implementation, Report Writing |
| EE Elective I | Professional Elective I (e.g., EE450A Digital Signal Processing) | Elective | 9 | Discrete-Time Signals, Z-Transform, DFT and FFT, IIR and FIR Filter Design, Adaptive Filters |
| Open Elective I | Open Elective I | Elective | 9 | Interdisciplinary Topics, Management Principles, Data Science Fundamentals, Renewable Energy Basics, Robotics Introduction |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE491A | B.Tech. Project Part II | Project | 9 | System Implementation, Experimental Validation, Performance Analysis, Results Interpretation, Final Thesis Submission |
| EE Elective II | Professional Elective II (e.g., EE420A Electric Drives) | Elective | 9 | Dynamics of Electric Drives, Control of DC Drives, Control of Induction Motor Drives, Control of Synchronous Motor Drives, Stepper Motor Drives |
| EE Elective III | Professional Elective III (e.g., EE440A Antennas and Propagation) | Elective | 9 | Antenna Fundamentals, Radiation Patterns, Antenna Arrays, Microstrip Antennas, Wave Propagation |
| Open Elective II | Open Elective II | Elective | 9 | Computational Biology, Financial Management, Digital Marketing, Cyber Security, Artificial Intelligence |
| HSS IV | Humanities and Social Sciences Elective IV | Elective | 9 | Sociology of Science, Indian Economy, Intellectual Property Rights, Public Speaking, Foreign Language |
Semester 9
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE609 | Research Methodology in Electrical Engineering | Core | 9 | Research Problem Identification, Literature Survey Techniques, Experimental Design and Analysis, Data Interpretation and Reporting, Ethics in Research |
| EE6XX | M.Tech Program Core (e.g., EE601 Advanced Digital Signal Processing) | Core | 9 | Multirate Signal Processing, Wavelets, Spectral Estimation, Array Signal Processing, Adaptive Filter Algorithms |
| EE6XX | M.Tech Program Core (e.g., EE603 Advanced Control Systems) | Core | 9 | State-Space Analysis, Optimal Control, Nonlinear Control Systems, Robust Control, Adaptive Control |
| EE6XX | M.Tech Program Elective (e.g., EE611 Advanced VLSI Design) | Elective | 9 | CMOS Process Technology, Advanced Digital Circuits, Timing and Power Analysis, VLSI Interconnects, Design for Testability |
| EE6XX | M.Tech Program Elective (e.g., EE621 Digital Communication) | Elective | 9 | Matched Filter Reception, M-ary Modulation, Equalization Techniques, Spread Spectrum Communication, OFDM Principles |
| EE690 | M.Tech Project Part I | Project | 18 | Detailed Literature Review, Problem Formulation and Objectives, Methodology Development, Preliminary Simulations/Experiments, Mid-term Project Presentation |
Semester 10
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE6XX | M.Tech Program Core (e.g., EE604 Advanced Power Systems) | Core | 9 | Power System Optimization, Smart Grids, Renewable Energy Integration, High Voltage DC Transmission, Power System Reliability |
| EE6XX | M.Tech Program Core (e.g., EE605 Advanced Microelectronics and VLSI) | Core | 9 | Semiconductor Device Physics, Nanoelectronic Devices, CMOS Fabrication, Memory Technologies, Circuit Simulation |
| EE6XX | M.Tech Program Elective (e.g., EE631 Advanced Analog Integrated Circuits) | Elective | 9 | CMOS Amplifiers, Analog Filters, Data Converters (ADC/DAC), Phase-Locked Loops, Low-Power Analog Design |
| EE6XX | M.Tech Program Elective (e.g., EE641 Photonics and Optical Communication) | Elective | 9 | Optical Fibers, Optical Sources and Detectors, Optical Amplifiers, WDM Systems, Free-Space Optics |
| EE6XX | M.Tech Program Elective (e.g., EE681 Renewable Energy Systems) | Elective | 9 | Solar Photovoltaics, Wind Energy Systems, Battery Energy Storage, Grid Integration of Renewables, Microgrids |
| EE691 | M.Tech Project Part II | Project | 27 | Full-Scale Implementation, Rigorous Testing and Evaluation, Data Analysis and Interpretation, Thesis Writing and Defense, Publication Preparation |
