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B-TECH in Electronics Communication Engineering at Sirsa College of Science & Technology
Bareilly, Uttar Pradesh
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About the Specialization
What is Electronics & Communication Engineering at Sirsa College of Science & Technology Bareilly?
This B.Tech in Electronics & Communication Engineering (ECE) program at Sirsa College of Science & Technology focuses on developing a strong foundation in electronic circuits, communication systems, signal processing, and embedded systems. The curriculum, aligned with AKTU guidelines, emphasizes both theoretical knowledge and practical application, preparing students for diverse roles in India''''s rapidly evolving technology sector, from telecommunications to consumer electronics and IoT. It equips students with the skills needed to design, develop, and maintain advanced electronic systems.
Who Should Apply?
This program is ideal for high school graduates with a strong aptitude for Physics, Chemistry, and Mathematics who aspire to build a career in hardware design, telecommunications, or embedded software. It is also suitable for students interested in cutting-edge fields like IoT, VLSI, and signal processing. Fresh graduates seeking entry into the electronics manufacturing, telecom, or IT industries (for embedded roles) will find this program highly beneficial, providing a solid launchpad for their professional journey.
Why Choose This Course?
Graduates of this program can expect to pursue rewarding India-specific career paths as Electronics Engineers, Communication Engineers, Embedded System Developers, VLSI Design Engineers, or Network Engineers. Entry-level salaries typically range from INR 3.5 to 6 LPA, with significant growth trajectories reaching INR 10-20+ LPA for experienced professionals in leading Indian and multinational companies. The skills acquired also align with professional certifications in areas like IoT, embedded C, and digital signal processing, enhancing career prospects.
Student Success Practices
Foundation Stage
Strengthen Engineering Fundamentals- (Semester 1-2)
Focus intensely on core subjects like Engineering Mathematics, Physics, and Basic Electrical/Electronic Engineering. Utilize online platforms like Khan Academy and NPTEL for supplementary learning and problem-solving practice to build a robust conceptual base critical for advanced ECE subjects.
Tools & Resources
NPTEL courses, Khan Academy, Reference textbooks (e.g., NCERT, basic engineering series)
Career Connection
A strong foundation is essential for understanding advanced ECE concepts, excelling in subsequent semesters, and cracking technical aptitude tests for internships and placements in core companies.
Develop Programming and Problem-Solving Skills- (Semester 1-2)
Engage actively in programming for problem-solving using C and later Python. Practice coding challenges on platforms like HackerRank or GeeksforGeeks. Participate in college-level coding competitions to hone logical thinking and algorithmic skills.
Tools & Resources
GeeksforGeeks, HackerRank, CodeBlocks IDE, Python IDLE
Career Connection
Proficiency in programming is crucial for embedded systems, automation, and data analysis roles in ECE. It''''s a key skill evaluated during technical interviews for IT and core engineering companies.
Master Basic Lab Techniques and Documentation- (Semester 1-2)
Pay close attention to all lab sessions for Physics, Chemistry, and Basic Electrical/Electronics. Understand the working principles of equipment (oscilloscopes, multimeters) and components. Practice meticulous lab report writing and data analysis, which are vital for practical engineering work.
Tools & Resources
Lab manuals, Simulation software (e.g., LTSpice, TinkerCAD for basic circuits), Microsoft Excel for data analysis
Career Connection
Hands-on experience and good documentation skills are highly valued in R&D, manufacturing, and testing roles, demonstrating practical readiness for industry challenges.
Intermediate Stage
Engage in Circuit Design & Simulation- (Semester 3-5)
Beyond theoretical understanding, actively design and simulate circuits using specialized software. Experiment with Op-Amps, digital logic, and microcontroller programming. Participate in electronics club activities or build small projects to apply concepts.
Tools & Resources
Proteus, LTSpice, Eagle (for PCB design), Arduino/Raspberry Pi starter kits
Career Connection
Practical design skills are indispensable for roles in VLSI, embedded systems, and product development. This directly enhances your project portfolio for job applications and interviews.
Seek Early Industry Exposure and Mentorship- (Semester 3-5)
Attend industry workshops, guest lectures, and seminars organized by the college or local professional bodies. Network with alumni and industry professionals. Look for short-term internships or summer training programs to gain insights into real-world engineering challenges.
Tools & Resources
LinkedIn, College placement cell, IEEE/IETE student chapters
Career Connection
Early exposure helps clarify career goals, build a professional network, and provides valuable experience that makes you a more attractive candidate for future internships and full-time positions.
Specialize and Build a Project Portfolio- (Semester 4-6)
Identify areas of interest within ECE (e.g., communication, embedded, VLSI, signal processing) and take elective subjects accordingly. Start working on a significant project related to your chosen area, leveraging your microcontroller or DSP knowledge. Document your projects thoroughly.
Tools & Resources
GitHub (for project code), Technical blogs/journals, Specific hardware kits (e.g., FPGA, DSP boards)
Career Connection
A focused specialization and a strong project portfolio demonstrate initiative and expertise, significantly boosting your chances for niche roles and competitive placements in your chosen ECE domain.
Advanced Stage
Intensive Placement Preparation & Mock Interviews- (Semester 6-8)
Dedicate significant time to placement preparation, covering technical concepts, aptitude, and soft skills. Participate in mock interviews (technical and HR) conducted by the placement cell or external agencies. Revise all core ECE subjects and common algorithms.
Tools & Resources
Company-specific interview guides, Placement preparation books (e.g., RS Aggarwal for aptitude), Online interview platforms
Career Connection
Thorough preparation directly translates into higher success rates in campus placements, securing desirable roles in reputed companies and ensuring a smooth transition into professional life.
Undertake a Comprehensive Major Project/Industrial Internship- (Semester 7-8)
Work on a substantial final year project (individually or in a team) that demonstrates problem-solving, design, and implementation skills. Ideally, pursue a long-term industrial internship to gain extensive practical experience and network within an organization.
Tools & Resources
Academic supervisors, Industry mentors, Advanced simulation/design software (e.g., MATLAB, ANSYS HFSS, Cadence)
Career Connection
A strong major project or industrial internship provides invaluable real-world experience, often leading to pre-placement offers, and serves as a powerful talking point in job interviews.
Cultivate Professional Communication & Leadership- (Semester 6-8)
Actively participate in technical presentations, group discussions, and seminars. Practice articulating complex ideas clearly and concisely. Take on leadership roles in student organizations or project teams to develop managerial and teamwork skills, essential for career growth.
Tools & Resources
Toastmasters International (if available), College debate/presentation clubs, Professional communication workshops
Career Connection
Excellent communication and leadership skills are vital for career advancement, client interaction, and team management, opening doors to leadership and managerial positions in the long run.
Program Structure and Curriculum
Eligibility:
- Passed 10+2 examination with Physics, Chemistry, and Mathematics (PCM) as compulsory subjects, or equivalent, from a recognized board/university with a minimum of 45% aggregate marks (40% for SC/ST category candidates). Admissions are typically based on JEE Main scores.
Duration: 4 years / 8 semesters
Credits: 160 Credits
Assessment: Internal: 30% (Sessional for theory subjects), 33% (Sessional for practical subjects), External: 70% (End Semester Exam for theory subjects), 67% (End Semester Exam for practical subjects)
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KAS101T | Engineering Physics | Core | 3 | Wave Optics, Quantum Mechanics, Laser and Fibre Optics, Relativity and EM Waves, Solid State Physics |
| KAS101P | Engineering Physics Lab | Lab | 1 | Verification of Ohm''''s law, PN Junction characteristics, Zener diode characteristics, Optical fiber attenuation, Laser diffraction |
| KAS102T | Engineering Chemistry | Core | 3 | Water Treatment, Polymer Chemistry, Electrochemistry & Corrosion, Fuels & Combustion, Spectroscopic Techniques |
| KAS102P | Engineering Chemistry Lab | Lab | 1 | Alkalinity of water, Hardness of water, Viscosity of a lubricant, Flash and fire point, Conductometric titrations |
| KAS103T | Professional English | Core | 2 | Communication Skills, Grammar & Vocabulary, Reading Comprehension, Writing Skills, Presentation Skills |
| KAS103P | Professional English Lab | Lab | 1 | Phonetics practice, Role-plays, Group discussions, Public speaking, Listening skills |
| KMC101 | AI for Engineering | Core | 0 | Introduction to AI, Problem Solving, Search Algorithms, Machine Learning Basics, AI Applications |
| KMC102 | Environmental Science/Disaster Management | Core | 0 | Ecosystems, Environmental Pollution, Natural Resources, Disaster Management Cycle, Environmental Policies |
| KEC101T | Basic Electrical Engineering | Core | 3 | DC Circuits, AC Circuits, Transformers, DC Machines, AC Machines |
| KEC101P | Basic Electrical Engineering Lab | Lab | 1 | Verification of circuit laws, Study of R-L-C circuits, Transformer characteristics, Motor speed control, Power measurement |
| KME101P | Manufacturing Practices Workshop | Lab | 1 | Carpentry, Fitting, Welding, Sheet Metal, Foundry |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KAS201T | Engineering Mathematics-II | Core | 3 | Vector Calculus, Differential Equations, Laplace Transforms, Fourier Series, Partial Differential Equations |
| KAS202T | Engineering Physics | Core | 3 | Wave Optics, Quantum Mechanics, Laser and Fibre Optics, Relativity and EM Waves, Solid State Physics |
| KAS202P | Engineering Physics Lab | Lab | 1 | Verification of Ohm''''s law, PN Junction characteristics, Zener diode characteristics, Optical fiber attenuation, Laser diffraction |
| KCS201T | Programming for Problem Solving | Core | 3 | Programming Fundamentals (C), Control Structures, Functions, Arrays and Pointers, Structures and Unions |
| KCS201P | Programming for Problem Solving Lab | Lab | 1 | Basic C programs, Conditional statements, Looping constructs, Array manipulation, Function implementation |
| KEE201T | Basic Electrical Engineering | Core | 3 | DC Circuits, AC Circuits, Transformers, DC Machines, AC Machines |
| KEE201P | Basic Electrical Engineering Lab | Lab | 1 | Verification of circuit laws, Study of R-L-C circuits, Transformer characteristics, Motor speed control, Power measurement |
| KMC201 | Environmental Science/Disaster Management | Core | 0 | Ecosystems, Environmental Pollution, Natural Resources, Disaster Management Cycle, Environmental Policies |
| KMC202 | AI for Engineering | Core | 0 | Introduction to AI, Problem Solving, Search Algorithms, Machine Learning Basics, AI Applications |
| KCE201P | Engineering Graphics & Design Lab | Lab | 1 | Lines, Planes and Solids, Orthographic Projections, Isometric Projections, Sectional Views, CAD Introduction |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KAS301 | Engineering Mathematics-III | Core | 3 | Functions of Complex Variable, Statistical Techniques, Probability Distributions, Numerical Methods, Special Functions |
| KEC301 | Digital System Design | Core | 3 | Number Systems, Boolean Algebra, Combinational Circuits, Sequential Circuits, Memory and Programmable Logic |
| KEC302 | Electronic Devices & Circuits | Core | 3 | Semiconductor Diodes, Bipolar Junction Transistors, FETs, Transistor Biasing, Small Signal Amplifiers |
| KEC303 | Network Analysis and Synthesis | Core | 3 | Network Theorems, Transient Analysis, Laplace Transform Applications, Two-Port Networks, Network Synthesis |
| KVE301 | Universal Human Values | Core | 2 | Self-Exploration, Harmony in the Family, Harmony in Society, Harmony in Nature, Professional Ethics |
| KEC351 | Digital System Design Lab | Lab | 1 | Logic Gates, Adders/Subtractors, Multiplexers/Demultiplexers, Flip-Flops, Counters |
| KEC352 | Electronic Devices & Circuits Lab | Lab | 1 | Diode characteristics, Rectifiers, Transistor characteristics, Amplifier biasing, FET characteristics |
| KEC353 | Network Analysis and Synthesis Lab | Lab | 1 | Verification of network theorems, Transient response of RLC circuits, Measurement of two-port network parameters, Frequency response of passive filters, Resonance in series and parallel RLC circuits |
| KNC301 | Computer System Security | Ability Enhancement Compulsory Course | 0 | Network Security Concepts, Cryptography, Malware and Viruses, Security Policies, Firewalls and VPNs |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KAS401 | Engineering Mathematics-IV | Core | 3 | Probability and Statistics, Stochastic Processes, Optimization Techniques, Linear Programming, Queuing Theory |
| KEC401 | Analog Circuits | Core | 3 | Op-Amps and Applications, Active Filters, Feedback Amplifiers, Oscillators, Wave Shaping Circuits |
| KEC402 | Electromagnetic Field Theory | Core | 3 | Vector Calculus, Electrostatics, Magnetostatics, Maxwell''''s Equations, Wave Propagation |
| KEC403 | Signals & Systems | Core | 3 | Signals Classification, Systems Classification, Fourier Series & Transform, Laplace Transform, Z-Transform |
| KEC404 | Microcontrollers | Core | 3 | 8051 Architecture, Instruction Set, Assembly Language Programming, Peripherals & Interfacing, Timers and Interrupts |
| KEC451 | Analog Circuits Lab | Lab | 1 | Op-Amp characteristics, Inverting/Non-inverting amplifier, Active filters, RC phase shift oscillator, Waveform generation |
| KEC452 | Microcontrollers Lab | Lab | 1 | 8051 assembly programming, GPIO interfacing, LED/LCD interfacing, ADC/DAC interfacing, Serial communication |
| KEC453 | Programming in Python | Lab | 1 | Python Basics, Data Structures, Functions & Modules, File Handling, Numpy/Pandas introduction |
| KNC401 | Indian Tradition, Culture and Society | Ability Enhancement Compulsory Course | 0 | Indian Philosophy, Art & Architecture, Science & Technology in Ancient India, Indian Social System, Culture and Values |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KEC501 | Analog & Digital Communication | Core | 3 | Amplitude Modulation, Angle Modulation, Sampling & Quantization, Digital Modulation Techniques, Noise in Communication Systems |
| KEC502 | Integrated Circuits | Core | 3 | IC Fabrication, Op-Amp Applications, Voltage Regulators, Timer IC (555), Data Converters |
| KEC503 | Control Systems | Core | 3 | System Modeling, Block Diagram Reduction, Stability Analysis (Routh-Hurwitz), Root Locus, Frequency Response Analysis (Bode, Nyquist) |
| KECDE-E5xx | Departmental Elective-I (Example: Industrial Electronics) | Elective | 3 | Power Semiconductor Devices, Controlled Rectifiers, Choppers, Inverters, Industrial Applications |
| KOE05x | Open Elective-I (Example: Engineering Economics) | Elective | 3 | Micro & Macro Economics, Demand and Supply, Cost Analysis, Market Structures, Financial Management |
| KEC551 | Analog & Digital Communication Lab | Lab | 1 | AM/FM modulation/demodulation, Sampling theorem, PCM generation, ASK/FSK/PSK modulation, TDM/FDM |
| KEC552 | Integrated Circuits Lab | Lab | 1 | Op-Amp as adder/subtractor, Precision rectifiers, Active filters design, Timer IC (555) applications, ADC/DAC experiments |
| KEC553 | Control Systems Lab | Lab | 1 | Transfer function of DC motor, Stability analysis using Routh-Hurwitz, Time domain analysis of first/second order systems, PID controller design, Lead-Lag compensator design |
| KNC501 | Constitution of India, Law & Engineering | Ability Enhancement Compulsory Course | 0 | Preamble and Basic Structure, Fundamental Rights, Directive Principles, Parliamentary System, Cyber Law and IPR |
| KEC550 | Project Based Learning (PBL)/Industrial Training | Project | 2 | Problem Identification, Literature Review, Design & Implementation, Testing & Evaluation, Report Writing & Presentation |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KEC601 | Digital Signal Processing | Core | 3 | Discrete Time Signals & Systems, Z-Transform, DFT and FFT, IIR Filter Design, FIR Filter Design |
| KEC602 | Antennas & Propagation | Core | 3 | Antenna Fundamentals, Radiation Patterns, Antenna Types (Dipole, Yagi, Horn), Antenna Arrays, Wave Propagation Mechanisms |
| KEC603 | VLSI Design | Core | 3 | MOSFET Fundamentals, CMOS Logic Circuits, Layout Design Rules, VLSI Design Flow, FPGA Architectures |
| KECDE-E6xx | Departmental Elective-II (Example: Optical Communication) | Elective | 3 | Optical Fiber Structure, Light Sources & Detectors, Optical Transmitters & Receivers, Optical Network Components, WDM Systems |
| KOE06x | Open Elective-II (Example: Industrial Psychology) | Elective | 3 | Work Motivation, Leadership Theories, Group Dynamics, Stress Management, Organizational Culture |
| KEC651 | Digital Signal Processing Lab | Lab | 1 | DFT/FFT computation, FIR filter design, IIR filter design, Audio signal processing, Image processing fundamentals |
| KEC652 | VLSI Design Lab | Lab | 1 | CMOS inverter design, Logic gate layout, Verilog/VHDL programming, FPGA synthesis, Static Timing Analysis |
| KEC653 | Minor Project | Project | 2 | Project Planning, Design & Simulation, Hardware/Software Implementation, Testing & Debugging, Technical Report |
| KNC601 | Essence of Indian Traditional Knowledge | Ability Enhancement Compulsory Course | 0 | Vedas and Upanishads, Yoga and Ayurveda, Indian Systems of Education, Traditional Arts & Crafts, Indian Ethical Values |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KEC701 | Microwave Engineering | Core | 3 | Microwave Transmission Lines, Waveguides, Microwave Devices (Klystron, Magnetron), Microwave Components (Couplers, Isolators), Microwave Measurements |
| KEC702 | Embedded System Design | Core | 3 | Embedded Processors, Real-Time Operating Systems, Memory Interfacing, Peripheral Interfacing, Embedded Software Development |
| KECDE-E7xx | Departmental Elective-III (Example: Wireless Communication) | Elective | 3 | Cellular Concept, Mobile Radio Propagation, Multiple Access Techniques, Wireless Standards (GSM, LTE), 5G Communication |
| KECDE-E7xx | Departmental Elective-IV (Example: Fiber Optic Communication) | Elective | 3 | Optical Fiber Fundamentals, Losses in Fiber, Optical Sources and Detectors, Optical Amplifiers, Optical Communication Systems |
| KOE07x | Open Elective-III (Example: Entrepreneurship Development) | Elective | 3 | Entrepreneurial Process, Business Plan Development, Marketing Strategies, Financial Management for Startups, Legal Aspects of Business |
| KEC751 | Microwave Engineering Lab | Lab | 1 | VSWR measurement, Characterization of microwave components, Measurement of antenna parameters, Study of Klystron/Gunn diode, Fiber optic link characteristics |
| KEC752 | Embedded System Design Lab | Lab | 1 | Interfacing sensors/actuators, RTOS tasks and scheduling, Communication protocols (UART, SPI, I2C), Embedded C programming, Mini-project using embedded boards |
| KEC753 | Project | Project | 6 | Research & Analysis, System Design, Prototyping & Development, Testing & Validation, Technical Documentation |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KEC801 | Internet of Things | Core | 3 | IoT Architecture, Sensors & Actuators, Communication Protocols (MQTT, CoAP), Cloud Platforms for IoT, IoT Security and Applications |
| KECDE-E8xx | Departmental Elective-V (Example: Advanced Digital Signal Processing) | Elective | 3 | Multirate Signal Processing, Adaptive Filters, Wavelet Transforms, Speech Processing, Image Processing |
| KECDE-E8xx | Departmental Elective-VI (Example: Satellite Communication) | Elective | 3 | Orbital Mechanics, Satellite Subsystems, Earth Station Technology, Link Design, Satellite Multiple Access Techniques |
| KOE08x | Open Elective-IV (Example: Product Design & Development) | Elective | 3 | Design Thinking, Product Lifecycle, Conceptual Design, Prototyping, Market Analysis |
| KEC851 | Industrial Project/Dissertation/Internship | Project | 10 | Industry Problem Solving, Advanced Research, System Development, Professional Report Writing, Presentation & Defense |
| KEC852 | Comprehensive Viva | Core | 2 | Overall ECE Concepts, Problem-Solving Skills, Communication Skills, Technical Aptitude, General Engineering Knowledge |
