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B-E in Name Electronics Communication Engineering Seats 60 at Shri Madhwa Vadiraja Institute of Technology & Management
Udupi, Karnataka
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About the Specialization
What is {"name": "Electronics & Communication Engineering", "seats": 60} at Shri Madhwa Vadiraja Institute of Technology & Management Udupi?
This Electronics & Communication Engineering program at Shri Madhwa Vadiraja Institute of Technology and Management focuses on equipping students with a robust foundation in electronics, telecommunications, signal processing, and embedded systems. The curriculum, aligned with industry trends, prepares engineers to innovate in diverse fields, catering to the significant demand for skilled professionals in India''''s rapidly expanding electronics manufacturing and digital communication sectors. The program emphasizes practical skills and theoretical depth.
Who Should Apply?
This program is ideal for aspiring engineers who possess a strong aptitude for mathematics and physics, coupled with an interest in designing and developing electronic systems. It suits fresh 10+2 graduates keen on contributing to technological advancements, as well as those seeking a challenging and rewarding career in core engineering. Individuals passionate about communication technologies, embedded systems, and VLSI design will find this specialization particularly engaging.
Why Choose This Course?
Graduates of this program can expect diverse career paths in India''''s leading tech hubs like Bangalore, Hyderabad, and Pune. Roles include R&D engineer, design engineer, network engineer, and embedded systems developer, with entry-level salaries typically ranging from INR 3-6 LPA, growing significantly with experience. Opportunities also extend to public sector undertakings and entrepreneurship, aligning with ''''Make in India'''' and ''''Digital India'''' initiatives.
Student Success Practices
Foundation Stage
Master Core Engineering Fundamentals- (Semester 1-2)
Focus intensely on understanding the foundational concepts of Engineering Mathematics, Physics, Chemistry, and Basic Electrical Engineering. Form study groups to discuss complex topics and clarify doubts, building a strong academic base essential for advanced ECE subjects. Utilize online platforms like NPTEL for supplementary learning materials.
Tools & Resources
NPTEL courses, Khan Academy, Peer Study Groups
Career Connection
A solid foundation is crucial for excelling in advanced ECE subjects, enabling better problem-solving skills which are highly valued in recruitment for core engineering roles.
Develop Programming and CAD Skills Early- (Semester 1-2)
Actively engage in programming assignments (C/Python) and Computer-Aided Engineering Graphics labs. Practice regularly to become proficient in logical thinking and technical drawing tools. Consider participating in basic coding challenges on platforms like HackerRank to sharpen your problem-solving abilities.
Tools & Resources
HackerRank, GeeksforGeeks, AutoCAD/SolidWorks tutorials
Career Connection
Proficiency in programming and design software is a prerequisite for many entry-level engineering positions, especially in embedded systems and design, making you job-ready.
Engage in Value-Added Skill Enhancement- (Semester 1-2)
Participate actively in skill development programs like ''''Sankalpa'''' and extracurricular activities (NCC/NSS/Sports). These build critical soft skills such as teamwork, communication, and leadership, which are vital for holistic professional growth and future managerial roles.
Tools & Resources
College Clubs and Societies, Leadership Workshops
Career Connection
Beyond technical skills, soft skills enhance your employability and distinguish you in interviews, preparing you for leadership and team-based industry environments.
Intermediate Stage
Strengthen Core ECE Concepts with Practical Application- (Semester 3-5)
Deepen understanding of Network Theory, Analog/Digital Electronics, and Microcontrollers. Actively participate in lab sessions, build circuits, and debug code. Start working on small projects using microcontrollers like Arduino/Raspberry Pi to apply theoretical knowledge.
Tools & Resources
Arduino/Raspberry Pi Kits, Circuit Simulation Software (LTspice), Electronics Hobby Kits
Career Connection
Hands-on experience with core ECE concepts and microcontroller programming is essential for roles in embedded systems design, hardware development, and IoT, leading to better internship and job offers.
Explore Specializations through Electives and Mini Projects- (Semester 5)
Choose professional and open electives wisely based on your interests (e.g., VLSI, Communication Systems, AI/ML). Use mini-projects as an opportunity to delve deeper into these areas, collaborating with faculty or seniors. Attend departmental seminars and workshops.
Tools & Resources
Professional Elective Guides, Departmental Project Repository, IEEE/ACM Student Chapters
Career Connection
Specialized knowledge gained through electives and projects helps you identify your niche, making you a more attractive candidate for companies seeking specific skill sets in advanced ECE domains.
Seek Industry Exposure and Networking- (Semester 3-5)
Actively look for short-term internships or industrial visits during semester breaks. Attend industry conferences, tech talks, and network with professionals. Utilize platforms like LinkedIn to connect with alumni and industry leaders, gaining insights into career opportunities.
Tools & Resources
LinkedIn, College Career Services, Industry Conferences (e.g., IETE, IEEE events)
Career Connection
Early industry exposure and networking open doors to valuable internships and direct placement opportunities, providing a competitive edge in the job market and career mentorship.
Advanced Stage
Undertake Impactful Project Work and Research- (Semester 7-8)
Dedicate significant effort to your final year project, aiming for innovative solutions or research contributions. Consider publishing your work in conferences or journals. This demonstrates advanced problem-solving capabilities and domain expertise.
Tools & Resources
Research Papers, Faculty Mentors, University Library Resources, Simulation Software
Career Connection
A strong final year project is a powerful resume booster, showcasing your technical prowess and ability to undertake complex engineering challenges, crucial for R&D roles and higher studies.
Intensify Placement and Career Preparation- (Semester 7-8)
Engage in rigorous aptitude training, technical interview preparation, and soft skill development sessions. Practice mock interviews and group discussions. Prepare a compelling resume and portfolio showcasing your projects and skills. Focus on refining your chosen specialization for targeted roles.
Tools & Resources
Training & Placement Cell, Online Aptitude Tests, Interview Prep Platforms (e.g., LeetCode, InterviewBit)
Career Connection
Comprehensive preparation ensures you ace campus placements, securing desirable job offers in your chosen field, leading to a smooth transition from academics to a professional career.
Leverage Internships for Full-Time Opportunities- (Semester 6-7)
Perform exceptionally well during your mandatory internships (Semester 6 and 7). Treat it as an extended interview, demonstrating your skills, professionalism, and teamwork. Many companies offer Pre-Placement Offers (PPOs) based on internship performance.
Tools & Resources
Internship Mentors, Company Performance Reviews, Professional Networking during internship
Career Connection
Successful internships often convert into full-time job offers, providing a direct pathway to employment with reputable companies and reducing job search efforts post-graduation.
Program Structure and Curriculum
Eligibility:
- Passed 10+2 examination with Physics and Mathematics as compulsory subjects along with one of the Chemistry/Biotechnology/Biology/Technical Vocational subject and obtained at least 45% marks (40% in case of candidate belonging to reserved category) in the above subjects taken together.
Duration: 8 semesters / 4 years
Credits: 150 Credits
Assessment: Internal: 50%, External: 50%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BPHYE101/201 | Engineering Physics | Core | 4 | Quantum Mechanics, Solid State Physics, Lasers and Applications, Optical Fibers, Nanotechnology |
| BMATE101/201 | Engineering Mathematics-I | Core | 4 | Differential Calculus, Integral Calculus, Partial Derivatives, Multiple Integrals, Vector Calculus |
| BELCE101/201 | Basic Electrical Engineering | Core | 3 | DC Circuits, AC Circuits, Transformers, DC Machines, Three-Phase Systems |
| BCADCE101/201 | Computer Aided Engineering Graphics | Core | 3 | Engineering Curves, Orthographic Projections, Isometric Projections, Section of Solids, Development of Surfaces |
| BHUME101/201 | Professional Communication and English | Core | 2 | Communication Skills, Technical Writing, Vocabulary and Grammar, Public Speaking, Report Writing |
| BPHYE101L/201L | Engineering Physics Laboratory | Lab | 1 | Optical Experiments, Electrical Measurements, Semiconductor Devices, Material Characterization |
| BELCE101L/201L | Basic Electrical Engineering Laboratory | Lab | 1 | Circuit Laws Verification, AC Circuit Analysis, Motor Testing, Power Measurement |
| BCADCE101L/201L | Computer Aided Engineering Graphics Lab | Lab | 1 | CAD Software Operations, 2D Drawing Practice, 3D Modeling Basics |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| BCHEE101/201 | Engineering Chemistry | Core | 4 | Electrochemistry, Corrosion, Fuels and Combustion, Water Technology, Polymer Chemistry |
| BMATE101/201 | Engineering Mathematics-II | Core | 4 | Differential Equations, Laplace Transforms, Linear Algebra, Vector Spaces, Numerical Methods |
| BPLCE101/201 | Programming for Problem Solving | Core | 3 | C Programming Fundamentals, Data Types and Operators, Control Structures, Functions and Arrays, Pointers and Structures |
| BCVECE101/201 | Elements of Civil Engineering and Mechanics | Core | 3 | Building Materials, Surveying, Stress and Strain, Equilibrium of Bodies, Friction |
| BEXPE101/201 | Engineering Exploration | Core | 2 | Design Thinking, Problem Identification, Project Based Learning, Introduction to Engineering Disciplines |
| BCHEE101L/201L | Engineering Chemistry Laboratory | Lab | 1 | Volumetric Analysis, Water Quality Testing, Fuel Property Determination |
| BPLCE101L/201L | Programming for Problem Solving Lab | Lab | 1 | C Programming Exercises, Algorithm Implementation, Debugging Techniques |
| BCADME101/201 | Computer Aided Machine Drawing | Lab | 1 | Machine Component Drawings, Assembly Drawings, Sectional Views, Production Drawings |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22MA31 | Engineering Mathematics-III | Core | 3 | Fourier Series, Fourier Transforms, Z-Transforms, Probability Theory, Random Variables |
| 22EC32 | Network Theory | Core | 4 | Circuit Analysis Techniques, Network Theorems, Transient Analysis, Two-Port Networks, Resonance and Coupled Circuits |
| 22EC33 | Analog Electronics | Core | 4 | Diode Circuits, BJT Amplifiers, FET Amplifiers, Feedback Amplifiers, Oscillators |
| 22EC34 | Digital System Design | Core | 4 | Boolean Algebra and Logic Gates, Combinational Logic Design, Sequential Logic Design, Registers and Counters, Finite State Machines |
| 22UHV35/45 | Universal Human Values and Professional Ethics | Core | 1 | Human Values, Ethics in Engineering, Harmony in Society, Professionalism, Social Responsibility |
| 22ECL36 | Analog Electronics Laboratory | Lab | 1 | Diode Characteristics, BJT Amplifier Circuits, Op-Amp Applications, Filter Design |
| 22ECL37 | Digital System Design Laboratory | Lab | 1 | Logic Gates Implementation, Combinational Circuits, Sequential Circuits, Hardware Description Language (HDL) |
| 22FC38 | VBC/NCC/NSS/YF/SPORTS | Core | 1 | Value Based Education, Community Service Activities, Physical Fitness, Youth Empowerment |
| 22SK39 | Sankalpa (Skill Development) | Core | 1 | Problem Solving Skills, Critical Thinking, Teamwork and Collaboration, Communication Skills |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22MA41 | Engineering Mathematics-IV | Core | 3 | Complex Analysis, Conformal Mapping, Probability Distributions, Stochastic Processes, Queuing Theory |
| 22EC42 | Analog and Digital Communication | Core | 4 | Amplitude Modulation, Frequency Modulation, Pulse Modulation, Digital Modulation Techniques, Noise in Communication Systems |
| 22EC43 | Linear Integrated Circuits | Core | 4 | Operational Amplifiers, Op-Amp Applications, Comparators, Active Filters, Timers and Voltage Regulators |
| 22EC44 | Microcontrollers and Embedded Systems | Core | 4 | 8051 Microcontroller Architecture, ARM Processors, Embedded System Design, Interfacing Techniques, Real-Time Operating Systems (RTOS) |
| 22CIV45/55 | Environmental Studies and Sustainable Engineering | Core | 1 | Ecosystems and Biodiversity, Environmental Pollution Control, Renewable Energy Sources, Environmental Impact Assessment, Sustainable Development Practices |
| 22ECL46 | Analog and Digital Communication Lab | Lab | 1 | AM/FM Modulation & Demodulation, Pulse Modulation, Sampling Theorem, Digital Modulation Experiments |
| 22ECL47 | Microcontrollers and Embedded Systems Lab | Lab | 1 | 8051 Programming, Interfacing Peripherals, ARM Processor Experiments, Embedded System Project Development |
| 22FC48 | VBC/NCC/NSS/YF/SPORTS | Core | 1 | Value Based Education, Community Service Activities, Physical Fitness, Youth Empowerment |
| 22KAN49/59 | Vyavaharika Kannada / Balake Kannada | Core | 1 | Basic Kannada Language Skills, Conversational Kannada, Kannada Culture and Literature |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22EC51 | Digital Signal Processing | Core | 4 | Discrete-Time Signals and Systems, Z-Transforms, Discrete Fourier Transform (DFT), Fast Fourier Transform (FFT), Digital Filter Design |
| 22EC52 | Principles of Communication Systems | Core | 3 | Noise in Communication Systems, Digital Carrier Modulation, Information Theory, Error Control Coding, Spread Spectrum Communication |
| 22EC53 | Electromagnetics and Antennas | Core | 3 | Maxwell''''s Equations, Wave Propagation, Transmission Lines, Waveguides, Antenna Theory and Design |
| 22EC54 | Data Communication | Core | 3 | Data Transmission Fundamentals, Network Models (OSI/TCP-IP), Error Detection and Correction, Flow Control, Network Devices |
| 22EC551 | Professional Elective - I (Microelectronic Circuits) | Elective | 3 | IC Fabrication Technology, CMOS Inverter Characteristics, CMOS Logic Gate Design, Memory Architectures, Analog VLSI Design |
| 22OE56X | Open Elective - I (e.g., Introduction to AI and ML) | Elective | 3 | AI Concepts, Machine Learning Algorithms, Supervised Learning, Unsupervised Learning, Neural Networks Basics |
| 22ECL57 | Digital Signal Processing Laboratory | Lab | 1 | DSP Software Tools (MATLAB/Python), FIR/IIR Filter Implementation, Audio Processing, Spectrum Analysis |
| 22ECL58 | Principles of Communication Systems Laboratory | Lab | 1 | AM/FM Modulation using SDR, Digital Modulation Techniques, Noise Analysis, Fiber Optic Communication Experiments |
| 22ECP59 | Mini Project | Project | 1 | Project Planning, Hardware/Software Implementation, Testing and Debugging, Report Writing |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22EC61 | VLSI Design | Core | 4 | MOS Transistor Theory, CMOS Logic Circuits, VLSI Design Flow, Layout Design Rules, ASIC Design Concepts |
| 22EC62 | Microwave and Millimeter Wave Communication | Core | 4 | Microwave Devices, RF System Design, Waveguide Components, Microwave Antennas, Radar Systems |
| 22EC63 | Computer Networks | Core | 3 | OSI and TCP/IP Models, Routing Protocols, Network Security Basics, Wireless and Mobile Networks, Network Management |
| 22EC643 | Professional Elective - II (Optical Fiber Communication) | Elective | 3 | Optical Fiber Characteristics, Light Sources and Detectors, Optical Amplifiers, Wavelength Division Multiplexing (WDM), Fiber Optic Network Components |
| 22OE65X | Open Elective - II (e.g., Additive Manufacturing) | Elective | 3 | 3D Printing Technologies, Additive Manufacturing Materials, Process Parameters, Applications in Industry |
| 22ECL66 | VLSI Design Lab | Lab | 1 | EDA Tools (e.g., Cadence/Synopsys), CMOS Layout Design, Digital Circuit Simulation, FPGA Implementation |
| 22ECL67 | Computer Networks Lab | Lab | 1 | Network Configuration, Protocol Analysis, Socket Programming, Wireless Network Experiments |
| 22ECI68 | Internship | Core | 1 | Industry Exposure, Practical Skill Development, Professional Etiquette, Project Management |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22EC71 | AI and Machine Learning for EC Engineers | Core | 4 | Fundamentals of Neural Networks, Deep Learning Architectures, Supervised and Unsupervised Learning, Reinforcement Learning, Applications in Signal Processing |
| 22EC723 | Professional Elective - III (Wireless Communication) | Elective | 3 | Cellular System Design, MIMO Systems, OFDM Principles, 5G Technologies, Cognitive Radio |
| 22EC731 | Professional Elective - IV (Digital Image Processing) | Elective | 3 | Image Transforms, Image Enhancement Techniques, Image Segmentation, Feature Extraction, Object Recognition |
| 22ECP74 | Project Work Phase - I | Project | 2 | Problem Definition, Literature Review, System Design, Methodology Development, Feasibility Study |
| 22ECI75 | Internship | Core | 2 | Advanced Industry Exposure, Specialized Skill Application, Professional Development, Project Execution |
| 22ECL76 | AI and Machine Learning for EC Engineers Lab | Lab | 1 | Python Programming for ML, TensorFlow/PyTorch, Implementing DL Models, Data Preprocessing, Model Evaluation |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| 22EC811 | Professional Elective - V (Low Power VLSI Design) | Elective | 3 | Power Dissipation in CMOS Circuits, Low Power Design Techniques, Low Power Architectures, Leakage Power Reduction, Dynamic Power Management |
| 22ECP82 | Project Work Phase - II | Project | 6 | Hardware/Software Implementation, Testing and Validation, Results Analysis, Technical Report Writing, Project Presentation |
| 22ECS83 | Technical Seminar | Core | 3 | Research Skill Development, Technical Topic Presentation, Literature Survey, Public Speaking, Report Compilation |
