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B-E-HONS in Electrical Electronics Engineering at Birla Institute of Technology and Science, Pilani - K. K. Birla Goa Campus
South Goa, Goa
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About the Specialization
What is Electrical & Electronics Engineering at Birla Institute of Technology and Science, Pilani - K. K. Birla Goa Campus South Goa?
This Electrical & Electronics Engineering program at BITS Pilani, K. K. Birla Goa Campus focuses on fundamental and advanced concepts in electrical power, electronics, communication, control systems, and computing hardware. It is designed to meet the evolving demands of Indian industries, emphasizing innovation and practical application across core sectors like manufacturing, energy, and IT infrastructure. The program is recognized for its comprehensive curriculum and research-oriented approach.
Who Should Apply?
This program is ideal for high school graduates with a strong aptitude in Physics, Chemistry, and Mathematics, aspiring to innovate in electrical and electronic domains. It also suits those looking for a rigorous engineering foundation for careers in core industries, R&D, or further academic pursuits. Individuals passionate about designing smart grids, embedded systems, or advanced communication technologies will find this program deeply engaging and rewarding.
Why Choose This Course?
Graduates of this program can expect diverse India-specific career paths in companies like Siemens, L&T, Infosys, and startups, with entry-level salaries typically ranging from INR 6-12 LPA, growing significantly with experience. Roles include Design Engineer, R&D Engineer, System Analyst, or Consultant. The strong theoretical foundation and practical exposure prepare students for roles in power generation, electronics manufacturing, telecommunications, and IT services.
Student Success Practices
Foundation Stage
Master Core Engineering Sciences- (undefined)
Dedicate significant effort to building a strong foundation in Mathematics, Physics, Chemistry, and basic programming (CS F111). Utilize tutorials, peer study groups, and faculty office hours. Focus on understanding concepts deeply rather than rote learning, as these are prerequisites for advanced courses.
Tools & Resources
Textbooks, Course Handouts, Online platforms like NPTEL for conceptual clarity, Previous Year Papers
Career Connection
A strong foundation ensures academic excellence and readiness for advanced engineering topics, which are crucial for technical interviews and problem-solving in any engineering role.
Develop Programming and Analytical Skills- (undefined)
Engage actively with programming assignments and explore competitive programming platforms to hone problem-solving abilities. Participate in hackathons or coding challenges. For Electrical & Electronics, understanding logic and computational thinking is vital for embedded systems and VLSI.
Tools & Resources
CodeChef, HackerRank, GeeksforGeeks, Python/C++ IDEs, MATLAB
Career Connection
Proficiency in programming is highly valued by recruiters across all engineering disciplines, enabling roles in software, data analytics, and embedded systems development.
Active Participation in Labs and Projects- (undefined)
Approach laboratory sessions with a curious and experimental mindset. Document observations meticulously and understand the theoretical underpinnings of experiments. Take initiative to work on small, personal projects related to electronics or circuits to apply classroom learning.
Tools & Resources
Breadboards, Oscilloscopes, Multimeters, Arduino/Raspberry Pi kits, SPICE simulations
Career Connection
Practical skills gained in labs and projects are critical for core engineering roles, showcasing hands-on experience and problem-solving capabilities to potential employers.
Intermediate Stage
Specialized Skill Development via Electives- (undefined)
Strategically choose discipline electives that align with your career interests (e.g., Power Systems, VLSI, Communications, Control Systems). Aim to complete online certifications or advanced courses in these chosen areas to deepen expertise beyond the curriculum. Engage in group projects related to these specializations.
Tools & Resources
Coursera, edX, Udemy for specialized courses, LinkedIn Learning, company-specific training programs
Career Connection
Specialized skills differentiate you for niche roles in high-demand areas like semiconductor design, renewable energy, or telecommunications, leading to better placements and career growth.
Seek Industry Exposure through Internships (PS-I)- (undefined)
Actively prepare for and secure a Practice School I (PS-I) internship in a relevant industry during the summer after your third year. Focus on understanding real-world engineering challenges, company culture, and networking with professionals. Document your learnings and projects meticulously.
Tools & Resources
BITS Pilani Practice School Division, Internshala, LinkedIn for networking, company career portals
Career Connection
Internships provide invaluable practical experience, enhance your resume, and often lead to pre-placement offers, significantly boosting your chances of securing a good job post-graduation.
Participate in Technical Clubs and Competitions- (undefined)
Join and actively contribute to technical clubs like the Robotics Club, Embedded Systems Club, or IEEE student chapter. Participate in national-level technical competitions like Smart India Hackathon, Electra, or robotics challenges to apply theoretical knowledge and build practical skills in a competitive environment.
Tools & Resources
Club resources, competition platforms, mentors from senior batches or faculty
Career Connection
Club activities and competitions build teamwork, leadership, and project management skills, which are highly valued by employers, and provide demonstrable evidence of your technical prowess.
Advanced Stage
Undertake a Capstone Project or Thesis- (undefined)
Engage deeply in your final year project or thesis (EEE F499). Choose a topic that excites you and has significant real-world impact or research potential. Work closely with your faculty mentor, strive for publications, or develop a working prototype. This showcases your independent research and problem-solving abilities.
Tools & Resources
Research papers, lab equipment, simulation software (MATLAB, Simulink, Altium, Cadence), BITS Pilani Library resources
Career Connection
A strong project/thesis is a powerful resume booster, demonstrating advanced technical skills, innovation, and readiness for R&D roles or higher studies.
Leverage Practice School II for Placement- (undefined)
If chosen, maximize the learning and networking opportunities during Practice School II (PS-II) which often serves as a direct pipeline to full-time employment. Perform exceptionally, seek feedback, and express interest in converting the internship into a pre-placement offer. This is a primary route for BITS students to secure placements.
Tools & Resources
Mentors at internship company, BITS Pilani Placement Unit, internal company resources
Career Connection
PS-II is strategically designed for industry integration and often results in direct job offers, providing a smooth transition from academia to professional life with established companies.
Refine Interview and Professional Skills- (undefined)
Beyond technical skills, develop strong communication, presentation, and interview etiquette. Attend workshops on resume building, group discussions, and mock interviews organized by the placement unit. Understand current industry trends and company requirements for EEE roles.
Tools & Resources
Placement Unit workshops, LinkedIn profiles of professionals, Glassdoor for company insights, interview preparation books
Career Connection
Excellent soft skills combined with technical expertise are crucial for converting interview opportunities into job offers and for long-term career success and leadership roles.
Program Structure and Curriculum
Eligibility:
- Passed 12th examination of 10+2 system with Physics, Chemistry, and Mathematics (or Biology for BITSAT) and adequate proficiency in English. Candidate should have obtained a minimum aggregate of 75% marks in Physics, Chemistry, and Mathematics subjects (or PCB) in 12th examination, with at least 60% marks in each subject. Only students who are appearing for 12th examination in 2024 or who have passed 12th examination in 2023 are eligible to apply.
Duration: 8 semesters / 4 years
Credits: Minimum 160 units (credits) as per BITS Pilani regulations Credits
Assessment: Internal: undefined, External: undefined
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MATH F111 | Mathematics I | Core Science | 4 | Differential Calculus, Integral Calculus, Sequences and Series, Multivariable Calculus Introduction, Applications in Science and Engineering |
| PHY F111 | General Physics I | Core Science | 4 | Mechanics of Particles and Rigid Bodies, Oscillations and Waves, Special Relativity, Thermodynamics Fundamentals, Fluid Mechanics Basics |
| CHEM F110 | General Chemistry | Core Science | 3 | Atomic Structure and Bonding, Chemical Kinetics and Equilibrium, Electrochemistry, Organic Chemistry Fundamentals, Spectroscopy Principles |
| CS F111 | Computer Programming | Core Engineering | 4 | Algorithms and Flowcharts, Data Types and Operators, Control Structures, Functions and Arrays, Pointers and Structures |
| BITS F110 | Engineering Graphics | Core Engineering | 2 | Orthographic Projections, Isometric Projections, Sectional Views, Development of Surfaces, Computer-Aided Drafting Basics |
| HSS F100 | English Language Skills | Core Humanities | 3 | Grammar and Vocabulary, Reading Comprehension, Report Writing, Presentation Skills, Professional Communication Strategies |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| MATH F112 | Mathematics II | Core Science | 4 | Linear Algebra, Vector Calculus, First Order Differential Equations, Higher Order Differential Equations, Partial Differential Equations Introduction |
| PHY F112 | General Physics II | Core Science | 4 | Electromagnetism Fundamentals, Maxwell''''s Equations, Optics, Quantum Mechanics Introduction, Solid State Physics Basics |
| EEE F111 | Electrical Sciences | Core EEE | 4 | DC Circuit Analysis, AC Circuit Analysis, Network Theorems, Magnetic Circuits and Transformers, Basic Semiconductor Devices |
| BIO F111 | General Biology | Core Science | 3 | Cell Structure and Function, Genetics and Molecular Biology, Evolutionary Biology, Diversity of Life, Human Physiology Overview |
| ME F110 | Workshop Practice | Core Engineering | 2 | Machining Processes, Welding Techniques, Carpentry and Joinery, Foundry and Casting, Sheet Metal Working |
| BITS F111 | Introduction to Environmental Studies | Core Humanities | 3 | Ecosystems and Biodiversity, Natural Resources and Their Management, Environmental Pollution and Control, Climate Change and Global Issues, Sustainable Development |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EEE F212 | Signals & Systems | Core EEE | 4 | Continuous and Discrete Time Signals, Linear Time Invariant Systems, Fourier Series and Transform, Laplace Transform, Z-Transform |
| EEE F214 | Analog Electronics | Core EEE | 4 | Diode Circuits, BJT and MOSFET Amplifiers, Feedback Amplifiers, Operational Amplifiers, Filters and Oscillators |
| EEE F215 | Digital Design | Core EEE | 4 | Boolean Algebra and Logic Gates, Combinational Logic Circuits, Sequential Logic Circuits, Memory Elements, FPGA Design Flow and HDL |
| EEE F243 | Electromagnetic Theory I | Core EEE | 4 | Vector Calculus for EM, Electrostatic Fields, Magnetostatic Fields, Poisson''''s and Laplace''''s Equations, Maxwell''''s Equations for Static Fields |
| MATH F211 | Numerical Analysis | Core Science | 4 | Error Analysis, Solution of Nonlinear Equations, Interpolation and Approximation, Numerical Differentiation and Integration, Numerical Solutions of ODEs |
| HSS F2XX | Humanities Elective I | Humanities Elective | 3 | Social Sciences Concepts, Economic Principles, Cultural Studies, Ethics and Values, Communication in Society |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EEE F211 | Electrical Machines | Core EEE | 4 | DC Machines, Transformers, Three-Phase Induction Motors, Synchronous Machines, Special Machines and Their Applications |
| EEE F213 | Electronic Devices | Core EEE | 4 | Semiconductor Physics, PN Junction Diodes, Bipolar Junction Transistors, Field Effect Transistors, Device Fabrication and Characteristics |
| EEE F311 | Control Systems | Core EEE | 4 | System Modeling and Transfer Functions, Block Diagrams and Signal Flow Graphs, Time Domain Analysis, Stability Analysis Techniques, Frequency Domain Analysis and Compensators |
| EEE F341 | Microelectronic Circuits | Core EEE | 4 | MOS Device Characteristics, CMOS Inverter Design, CMOS Logic Gates, Sequential Circuits in CMOS, Memory and Analog IC Design Basics |
| MATH F241 | Probability & Statistics | Core Science | 4 | Axioms of Probability, Random Variables and Distributions, Joint Distributions, Sampling Distributions, Hypothesis Testing and Regression |
| CS F211 | Data Structures & Algorithms | Discipline Elective | 4 | Arrays and Linked Lists, Stacks and Queues, Trees and Graphs, Sorting and Searching Algorithms, Algorithm Complexity Analysis |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EEE F312 | Power Systems | Core EEE | 4 | Power Generation and Load Forecasting, Transmission Line Parameters, Per Unit System, Symmetrical and Unsymmetrical Faults, Power Flow Analysis |
| EEE F314 | Communication Systems | Core EEE | 4 | Amplitude Modulation Techniques, Frequency and Phase Modulation, Noise in Communication Systems, Sampling and Quantization, Digital Modulation Schemes |
| EEE F342 | Power Electronics | Core EEE | 4 | Power Semiconductor Devices, Controlled Rectifiers, DC to DC Converters (Choppers), Inverters, AC Voltage Controllers |
| EEE F344 | Electromagnetic Theory II | Core EEE | 4 | Time-Varying Fields and Maxwell''''s Equations, Plane Wave Propagation, Transmission Lines, Waveguides, Antennas and Radiation |
| INSTR F211 | Instrumentation & Measurement | Discipline Elective | 4 | Measurement Systems Characteristics, Transducers and Sensors, Signal Conditioning, Data Acquisition Systems, Virtual Instrumentation |
| EEE F3XX | Discipline Elective II | Discipline Elective | 4 | Specific advanced topics, Emerging EEE areas, Specialized applications, Design considerations, System integration |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EEE F412 | Digital Signal Processing | Core EEE | 4 | Discrete Fourier Transform, Fast Fourier Transform, FIR Filter Design, IIR Filter Design, Multirate Digital Signal Processing |
| EEE F431 | Introduction to VLSI Design | Core EEE | 4 | CMOS Technology and Fabrication, CMOS Inverter and Logic Gates, Combinational and Sequential Logic Design, Layout Design and Design Rules, VLSI Testing and Verification |
| EEE F433 | Power Electronics | Discipline Elective | 4 | Advanced Power Semiconductor Devices, High-Frequency Converters, Resonant Converters, Pulse Width Modulation Techniques, Applications in Renewable Energy |
| EEE F434 | Advanced Control Systems | Discipline Elective | 4 | State-Space Analysis, Nonlinear Control Systems, Optimal Control Theory, Robust Control Design, Digital Control Systems |
| OPEN FXXX | Open Elective I | Open Elective | 3 | Interdisciplinary concepts, Skill enhancement, Broadening perspectives, Emerging technologies, Personal interest areas |
| BITS F407 | Practice School I | Internship/Project | 5 | Industrial Training, Problem Solving in Industry, Application of Engineering Principles, Report Writing and Presentation, Teamwork and Professional Ethics |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| EEE F499 | Project / Thesis (Part I) | Project | 4 | Problem Identification and Formulation, Literature Review, Methodology and Design, Experimental Setup and Data Collection, Interim Report and Presentation |
| EEE F472 | Optical Fiber Communication | Discipline Elective | 4 | Optical Fiber Structure and Waveguiding, Signal Degradation in Fibers, Optical Sources and Detectors, Fiber Optic Communication Systems, Optical Networks |
| EEE F4XX | Discipline Elective V | Discipline Elective | 4 | Advanced EEE concepts, Research methodologies, Specialized design, Emerging technologies, Industry-specific applications |
| OPEN FXXX | Open Elective II | Open Elective | 3 | Cross-disciplinary learning, Entrepreneurship skills, Project management, Soft skills development, Global trends |
| HSS F3XX | Humanities Elective II | Humanities Elective | 3 | Philosophical thought, Sociological analysis, Literature and arts, Psychology fundamentals, Professional ethics |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BITS F422 | Practice School II | Internship/Project | 20 | Full-time Industrial Internship, Real-world Project Implementation, Advanced Problem Solving, Comprehensive Report and Viva-Voce, Professionalism and Industry Best Practices |
| EEE F499 | Project / Thesis (Part II) | Project | 5 | Advanced Design and Experimentation, Data Analysis and Interpretation, Results and Discussion, Thesis Writing and Defense, Innovation and Research Contribution |
| EEE F4XX | Discipline Elective VI | Discipline Elective | 4 | Emerging technologies in EEE, Advanced simulation techniques, System optimization, Industry standards, Research frontiers |
| EEE F4XX | Discipline Elective VII | Discipline Elective | 4 | Specialized applications, Interdisciplinary projects, Complex system design, Innovation and product development, Future trends in EEE |
