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B-TECH-HONS in Electrical Engineering at Indian Institute of Technology Kharagpur
Paschim Medinipur, West Bengal
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About the Specialization
What is Electrical Engineering at Indian Institute of Technology Kharagpur Paschim Medinipur?
This Electrical Engineering program at Indian Institute of Technology Kharagpur focuses on core electrical sciences, encompassing power systems, electronics, control systems, and communication. It aims to develop a strong theoretical foundation coupled with practical application, addressing critical needs of India''''s rapidly evolving industrial and technological landscape. The program emphasizes innovation and problem-solving relevant to national infrastructure and digital transformation.
Who Should Apply?
This program is ideal for aspiring engineers with a strong aptitude for mathematics and physics, seeking entry into core electrical and electronics industries. It also suits graduates aiming for higher studies (M.Tech, PhD) in specialized fields like power, VLSI, and signal processing. Career changers looking to transition into research or R&D roles within India''''s tech sector, particularly in automation and smart grids, will find this curriculum beneficial.
Why Choose This Course?
Graduates of this program can expect diverse India-specific career paths in PSUs like NTPC, BHEL, DRDO, or private sector giants like Tata Power, Reliance, and L&T. Entry-level salaries typically range from INR 8-15 LPA, with experienced professionals earning INR 20-50+ LPA. Growth trajectories include technical leadership, R&D, and entrepreneurial ventures, aligning with India''''s focus on indigenous technology and manufacturing.
Student Success Practices
Foundation Stage
Master Core Engineering Fundamentals- (Semester 1-2)
Dedicate significant effort to understanding fundamental concepts in Mathematics, Physics, Chemistry, and Basic Electrical/Electronics. These are the building blocks for all advanced EE courses. Focus on problem-solving from standard textbooks and question banks.
Tools & Resources
NPTEL lectures, Khan Academy, Schaum''''s outlines, Peer study groups
Career Connection
Strong fundamentals are crucial for cracking competitive exams (GATE, UPSC ESE) and securing core engineering roles.
Develop Strong Programming Skills- (Semester 1-2)
Beyond mandatory courses, practice competitive programming and actively participate in coding contests. Understanding data structures and algorithms is vital for modern electrical engineering applications (e.g., embedded systems, signal processing).
Tools & Resources
HackerRank, LeetCode, CodeChef, GeeksforGeeks
Career Connection
Enhances employability in tech roles, embedded systems, and for developing simulation/control software.
Engage in Early Project-Based Learning- (Semester 1-2)
Seek opportunities for mini-projects or join faculty-led research groups even in the first year. This builds practical skills, familiarizes with lab equipment, and cultivates a research mindset.
Tools & Resources
Department labs, Arduino/Raspberry Pi, Faculty mentorship, Student clubs
Career Connection
Provides hands-on experience, strengthens resume for internships, and helps identify areas of interest.
Intermediate Stage
Deep Dive into Core EE Subjects- (Semester 3-5)
Focus on understanding the interconnections between subjects like Network Theory, Analog/Digital Electronics, Signals & Systems, and Electrical Machines. Solve challenging problems and pursue advanced topics beyond classroom teaching.
Tools & Resources
Advanced textbooks, Research papers, MATLAB, PSPICE
Career Connection
Essential for excelling in core EE roles, M.Tech specializations, and R&D positions.
Seek Industry Internships and Workshops- (Summer breaks after Semesters 4 and 6)
Actively apply for summer internships at PSUs, private power companies, electronics manufacturers, or start-ups. Attend industry workshops and technical seminars to bridge academic knowledge with practical industry requirements.
Tools & Resources
Career Development Centre (CDC), LinkedIn, Industry contacts
Career Connection
Provides crucial industry exposure, networking opportunities, and often leads to pre-placement offers.
Participate in Technical Competitions & Societies- (Semester 3-5)
Join IEEE, IET student chapters, and participate in technical competitions (e.g., hackathons, robotics challenges, circuit design contests). This enhances teamwork, problem-solving, and practical application skills.
Tools & Resources
Student technical societies, Departmental funding, University workshops
Career Connection
Builds a strong portfolio, demonstrates practical aptitude to recruiters, and develops leadership skills.
Advanced Stage
Specialize through Electives & Projects- (Semester 7-8)
Carefully choose department and open electives to specialize in areas like Power Systems, VLSI, Control, or Communications, based on career aspirations. Undertake a substantial B.Tech project (Project I & II) that addresses a real-world problem.
Tools & Resources
Faculty advisors, Advanced lab facilities, Research journals, Industry mentors
Career Connection
Develops deep expertise, crucial for high-impact placements, research careers, or entrepreneurial ventures.
Focus on Placement and Higher Studies Preparation- (Semester 7-8)
Engage in rigorous interview preparation, including technical rounds, aptitude tests, and soft skills training. For higher studies, prepare for GATE/GRE/TOEFL with dedicated study plans and mock tests.
Tools & Resources
CDC workshops, Alumni network, Online interview platforms, Coaching centers
Career Connection
Directly impacts success in securing desired jobs or admissions to top graduate programs in India and abroad.
Develop Professional Networking & Mentorship- (Throughout the program, intensified in Semester 6-8)
Build a strong professional network by interacting with alumni, industry experts, and faculty. Seek out mentors who can provide guidance on career paths, skill development, and industry insights.
Tools & Resources
LinkedIn, Alumni events, Industry conferences, Departmental mentorship programs
Career Connection
Opens doors to unexpected opportunities, valuable advice, and continuous professional growth beyond graduation.
Program Structure and Curriculum
Eligibility:
- Admission through JEE Advanced. Candidates must have passed 10+2 or equivalent examination with Physics, Chemistry, and Mathematics. Additionally, candidates must satisfy the minimum performance criteria in 10+2 (typically top 20 percentile or 75% aggregate for General/OBC, 65% for SC/ST/PwD).
Duration: 4 years / 8 semesters
Credits: 178 Credits
Assessment: Internal: Variable, External: Variable (Specific weightages for internal components like assignments, quizzes, mid-semester, and end-semester examinations are decided by individual instructors for each subject at the beginning of the semester)
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MA10001 | Mathematics I: Calculus and Differential Equations | Core | 4 | Functions of several variables, Sequences and series, Ordinary differential equations, Laplace transform, Vector calculus |
| PH11001 | Physics I | Core | 4 | Newtonian mechanics, Special Theory of Relativity, Wave motion, Modern Physics, Quantum Mechanics |
| CH10001 | Chemistry | Core | 4 | Atomic structure, Chemical bonding, Thermodynamics, Electrochemistry, Kinetics |
| EC10001 | Basic Electronics | Core | 3 | Semiconductor diodes, BJT and FET characteristics, Rectifiers and regulators, Op-Amp basics, Digital logic fundamentals |
| EC19001 | Basic Electronics Lab | Lab | 2 | Diode characteristics, Transistor biasing circuits, Rectifier circuits, Logic gate implementation |
| ME10001 | Engineering Drawing & Computer Graphics | Core | 3 | Orthographic projections, Sectional views, Isometric drawings, Introduction to CAD software |
| HS13001 | English for Communication | Core | 2 | Grammar and vocabulary, Reading comprehension, Essay writing, Public speaking, Technical communication |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MA10002 | Mathematics II: Linear Algebra, Complex Analysis & Probability | Core | 4 | Matrices and determinants, Vector spaces, Complex numbers and functions, Probability theory, Random variables and distributions |
| PH11002 | Physics II | Core | 4 | Electromagnetism, Maxwell''''s equations, Optics, Lasers, Solid state physics |
| CS10001 | Programming and Data Structures | Core | 3 | C programming fundamentals, Arrays and pointers, Linked lists and stacks, Trees and graphs, Searching and sorting algorithms |
| CS19001 | Programming and Data Structures Lab | Lab | 2 | C programming exercises, Implementation of data structures, Algorithm design and testing |
| BT10001 | Introduction to Bio-Science and Technology | Core | 2 | Cell biology, Genetics, Metabolism, Environmental biotechnology, Biomedical engineering applications |
| ME10002 | Engineering Mechanics | Core | 3 | Forces and equilibrium, Friction, Kinematics of particles and rigid bodies, Kinetics of particles and rigid bodies, Work-energy principle |
| EE11001 | Basic Electrical Engineering | Core | 3 | DC circuits and network theorems, AC circuits and phasor analysis, Three-phase systems, Transformers, DC and AC machines basics |
| EE19001 | Basic Electrical Engineering Lab | Lab | 2 | Verification of circuit theorems, AC circuit measurements, Transformer characteristics, Measurement of power and energy |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE21001 | Electromagnetic Theory | Core | 4 | Electrostatics and magnetostatics, Maxwell''''s equations, Wave propagation in different media, Transmission lines, Waveguides |
| EE21003 | Network Theory | Core | 4 | Network theorems, Transient analysis of RLC circuits, Two-port networks, Frequency domain analysis, Filters and attenuators |
| EE21005 | Analog Electronic Circuits | Core | 4 | Diode circuits and rectifiers, BJT and MOSFET amplifiers, Feedback amplifiers, Operational amplifier applications, Oscillators |
| EE21007 | Electrical & Electronic Measurements | Core | 4 | Measurement principles and standards, AC/DC bridges, Transducers and sensors, Digital multimeters and oscilloscopes, Data acquisition systems |
| MA20003 | Numerical Analysis | Core | 4 | Error analysis, Roots of nonlinear equations, Interpolation and approximation, Numerical integration and differentiation, Numerical solutions of differential equations |
| EE29001 | Electrical & Electronic Measurements Lab | Lab | 2 | Measurement of resistance, inductance, capacitance, Bridge circuits, Transducer characterization, Use of digital measuring instruments |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE21002 | Signals & Systems | Core | 4 | Continuous and discrete-time signals, Linear time-invariant systems, Fourier series and transform, Laplace transform, Z-transform |
| EE21004 | Digital Electronic Circuits | Core | 4 | Boolean algebra and logic gates, Combinational logic circuits, Sequential logic circuits, Memory elements, Analog-to-Digital and Digital-to-Analog converters |
| EE21006 | Power Systems I | Core | 4 | Power generation principles, Transmission and distribution systems, Transmission line parameters, Per-unit system, Introduction to load flow |
| EE21008 | Electrical Machines I | Core | 4 | DC machines: construction, operation, characteristics, Transformers: equivalent circuit, testing, regulation, Three-phase induction motors, Single-phase induction motors |
| HS20XXX | Humanities Elective I | Elective | 3 | Selected from a range of humanities and social science disciplines, Focus on interdisciplinary perspectives |
| EE29002 | Analog Electronic Circuits Lab | Lab | 2 | Design and testing of BJT/MOSFET amplifiers, Op-Amp based circuit design, Feedback amplifier characteristics, Oscillator circuits |
| EE29004 | Digital Electronic Circuits Lab | Lab | 2 | Implementation of combinational circuits, Sequential circuit design, Flip-flops and counters, Microprocessor interfacing basics |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE31001 | Power Electronics | Core | 4 | Power semiconductor devices (SCR, MOSFET, IGBT), AC-DC converters (Rectifiers), DC-DC converters (Choppers), DC-AC converters (Inverters), AC-AC converters |
| EE31003 | Control Systems | Core | 4 | Open loop and closed loop systems, Transfer functions and state space models, Time domain analysis, Frequency domain analysis (Bode, Nyquist), Stability analysis (Routh-Hurwitz, Root Locus) |
| EE31005 | Microprocessors & Microcontrollers | Core | 4 | 8085/8086 microprocessor architecture, Assembly language programming, Memory and I/O interfacing, Interrupts and DMA, Microcontroller basics and applications |
| EE31007 | Power Systems II | Core | 4 | Symmetrical components, Fault analysis in power systems, Power system stability, Protective relays and switchgear, HVDC transmission |
| EE39001 | Power Electronics Lab | Lab | 2 | Characteristics of power semiconductor devices, Rectifier circuits, Chopper and inverter operation, Thyristor-based power control |
| EE39003 | Control Systems Lab | Lab | 2 | Time domain analysis of control systems, Frequency response analysis, PID controller tuning, Servo motor control experiments |
| EE39005 | Microprocessors & Microcontrollers Lab | Lab | 2 | Assembly language programming, Interfacing I/O devices, Timer and interrupt programming, Microcontroller based projects |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE31002 | Digital Signal Processing | Core | 4 | Discrete Fourier Transform (DFT) and FFT, Z-transform, Digital filter design (FIR and IIR), Multirate signal processing, Applications of DSP |
| EE31004 | Electrical Machines II | Core | 4 | Synchronous machines: generators and motors, Parallel operation of alternators, Special machines: stepper, servo, linear motors, Permanent magnet synchronous machines, Introduction to machine control |
| EE31006 | Power System Operation & Control | Core | 4 | Economic operation of power systems, Load frequency control, Reactive power and voltage control, SCADA systems, Smart Grid concepts |
| EE31008 | Communication Systems | Core | 4 | Analog modulation techniques (AM, FM, PM), Noise in communication systems, Digital modulation techniques (ASK, FSK, PSK), Information theory and coding, Multiplexing techniques |
| HS30XXX | Humanities Elective II | Elective | 3 | Selected from a diverse range of social sciences and arts, Developing critical thinking and broader perspectives |
| EE39002 | Digital Signal Processing Lab | Lab | 2 | Implementation of DSP algorithms (DFT, FFT), Digital filter design (FIR, IIR), Audio signal processing, Image processing fundamentals |
| EE39004 | Electrical Machines II Lab | Lab | 2 | Performance characteristics of synchronous machines, Testing of special electrical machines, Machine control experiments |
| EE39006 | Communication Systems Lab | Lab | 2 | Experiments on analog modulation/demodulation, Digital modulation techniques, Noise effects in communication channels |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE41001 | Project I | Project | 5 | Problem identification and literature survey, System design and methodology, Simulation and analysis, Preliminary implementation and results, Report writing and presentation |
| EE41003 | VLSI Design | Core | 4 | CMOS technology and fabrication, VLSI circuit design, Memory and logic array design, Design flow and CAD tools, Testing and verification |
| EE41005 | High Voltage Engineering | Core | 4 | Generation and measurement of high voltages, Breakdown mechanisms in dielectrics, Insulation coordination, Overvoltages and protection, HVDC technology |
| EE40XXX | Department Elective I | Elective | 4 | Advanced topics in power systems, Advanced control theory, Digital IC design, Renewable energy systems, Industrial automation |
| EE40XXX | Department Elective II | Elective | 4 | Machine learning for electrical engineering, Power system deregulation, Embedded system design, Flexible AC transmission systems (FACTS), Optical communication |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EE41002 | Project II | Project | 8 | Advanced system implementation, Testing and performance evaluation, Optimization and innovation, Comprehensive technical report, Final presentation and demonstration |
| EE40XXX | Department Elective III | Elective | 4 | Smart grid technologies, Advanced electric drives, Microwave engineering, Power system dynamics and control, RF and analog IC design |
| EE40XXX | Department Elective IV | Elective | 4 | Digital image processing, Robotics and automation, Internet of Things (IoT) in EE, Electric vehicles, Entrepreneurship in engineering |
| IT49XXX | Open Elective I | Elective | 4 | Electives from other engineering or management departments, Broadening interdisciplinary knowledge, Developing complementary skills |
