.png&w=1920&q=75)
B-TECH in Electronics Communication Engineering at Dr. Om Prakash Institute of Management & Technology
Farrukhabad, Uttar Pradesh
.png&w=1920&q=75)
About the Specialization
What is Electronics & Communication Engineering at Dr. Om Prakash Institute of Management & Technology Farrukhabad?
This Electronics & Communication Engineering (ECE) program at Dr. Om Prakash Institute of Management & Technology focuses on designing, developing, and testing electronic equipment for various applications. With India''''s rapidly expanding electronics manufacturing and digital communication sectors, this specialization is highly relevant. The program emphasizes both theoretical foundations and practical applications, preparing students for the evolving demands of the Indian tech landscape by integrating core ECE concepts with emerging technologies.
Who Should Apply?
This program is ideal for fresh 10+2 graduates with a strong aptitude in Physics, Mathematics, and logical reasoning, aspiring to build careers in the electronics and telecommunication industries. It also suits individuals passionate about hardware design, embedded systems, and communication networks, who seek a robust engineering foundation. Prerequisites typically include qualifying scores in national or state-level engineering entrance examinations like JEE Main or UPSEE, along with the specified academic performance in senior secondary school.
Why Choose This Course?
Graduates of this program can expect diverse career paths in India, including roles in R&D, manufacturing, design, and service in sectors like telecom, consumer electronics, defense, and IT. Entry-level salaries typically range from INR 3.5 to 6 LPA, with experienced professionals earning significantly more. Growth trajectories include becoming design engineers, network specialists, embedded system developers, or VLSI engineers in companies like TCS, Wipro, Intel (India), and Indian PSUs, aligning with professional certifications in IoT or embedded systems.
Student Success Practices
Foundation Stage
Strengthen Core Scientific & Mathematical Foundations- (Semester 1-2)
Dedicate extra time to mastering Engineering Physics, Chemistry, and Mathematics-I & II. These subjects form the bedrock for advanced ECE concepts. Form study groups to solve problems collaboratively and regularly revisit concepts, ensuring a deep understanding rather than rote learning.
Tools & Resources
NPTEL courses for basic engineering sciences, Khan Academy for math concepts, Peer study groups
Career Connection
A strong foundation ensures easier grasp of complex ECE subjects in later semesters, crucial for academic excellence and cracking competitive exams for higher studies or core job roles.
Excel in Programming for Problem Solving- (Semester 1-2)
Develop strong C/C++ programming skills, as it''''s fundamental for embedded systems and digital signal processing. Practice coding regularly, solve problems on online platforms, and actively participate in programming labs to convert theoretical knowledge into practical application.
Tools & Resources
HackerRank, GeeksforGeeks, CodeChef, NPTEL''''s Programming in C course
Career Connection
Proficiency in programming is highly valued by IT and embedded system companies, significantly boosting internship and placement opportunities in roles like software development for hardware.
Engage Actively in Basic Engineering Labs & Workshops- (Semester 1-2)
Utilize manufacturing practices workshops and basic electrical engineering labs to gain hands-on experience. Understand the working principles of machines and circuits. Maintain detailed lab records and seek to understand the ''''why'''' behind each experiment, not just the ''''how''''.
Tools & Resources
Lab manuals, Online tutorials for basic circuit simulations (e.g., TinkerCAD), Faculty guidance
Career Connection
Practical skills are essential for core engineering roles. This early exposure helps in developing problem-solving abilities vital for future projects and industry roles.
Intermediate Stage
Deep Dive into Digital and Analog Systems- (Semester 3-5)
Focus intently on Digital System Design, Electronics Devices and Circuits, and Analog Circuits. Build small projects using breadboards or simulation software to reinforce understanding. Participate in circuit design competitions to apply knowledge in real-world scenarios.
Tools & Resources
LTspice for circuit simulation, Proteus/Multisim for digital circuits, Arduino/Raspberry Pi for simple projects
Career Connection
Mastery in these areas opens doors to roles in IC design, embedded systems, and hardware development, which are core to the ECE industry in India.
Explore Microcontrollers and Communication Systems- (Semester 3-5)
Gain hands-on experience with microcontrollers (e.g., 8051) through dedicated lab sessions and personal projects. Simultaneously, understand the nuances of analog and digital communication by building simple communication links and exploring modulation techniques.
Tools & Resources
8051 development kits, MATLAB/Octave for signal processing simulations, SDR (Software Defined Radio) kits for communication exploration
Career Connection
Skills in microcontrollers are critical for embedded systems and IoT, while communication system knowledge is paramount for telecom and networking companies, both booming sectors in India.
Network with Peers and Faculty for Project Ideas- (Semester 3-5)
Actively participate in departmental clubs and technical societies. Collaborate with peers on mini-projects and seek guidance from faculty for innovative ideas. Attend workshops and seminars to understand emerging trends and identify areas for specialization.
Tools & Resources
Institute''''s ECE association, LinkedIn for professional networking, Departmental project exhibition forums
Career Connection
Building a strong network provides mentorship, project collaboration opportunities, and insights into industry demands, improving chances for relevant internships and placements.
Advanced Stage
Specialize through Electives and Advanced Projects- (Semester 6-8)
Carefully select departmental electives aligned with your career interests (e.g., VLSI Design, IoT, Digital Image Processing). Pursue a significant final-year project that integrates knowledge from multiple subjects, aiming for a prototype or published paper. Attend hackathons focusing on embedded systems or communication.
Tools & Resources
Xilinx Vivado/Altera Quartus for VLSI, IoT development platforms (e.g., ESP32), OpenCV for image processing, IEEE/ACM publications
Career Connection
Specialized knowledge and a strong project portfolio are crucial for securing roles in niche ECE domains and can lead to immediate impactful contributions in R&D or advanced manufacturing.
Undergo Intensive Industrial Training & Internships- (Semester 7)
Seek out and complete industrial training or internships in reputable companies relevant to ECE. Focus on gaining practical skills, understanding industry workflows, and building professional contacts. Document your learning diligently and apply theoretical knowledge to real-world problems.
Tools & Resources
College placement cell, Internshala, Company career pages, Mentors from industry
Career Connection
Internships are often a direct gateway to pre-placement offers in India, providing invaluable experience and making you job-ready for core ECE companies.
Focus on Placement Preparation and Soft Skills- (Semester 7-8)
Actively engage in placement preparation activities, including aptitude tests, technical interviews, and group discussions. Practice communication skills, build a professional resume, and prepare a strong portfolio of projects. Attend mock interviews conducted by the college''''s placement cell.
Tools & Resources
Online aptitude platforms, InterviewBit, Glassdoor for company interview experiences, Career services workshops
Career Connection
Effective placement preparation significantly enhances your chances of securing a desirable job offer from top Indian and multinational companies, ensuring a smooth transition from academics to professional life.
Program Structure and Curriculum
Eligibility:
- 10+2 with Physics and Mathematics as compulsory subjects, along with one of Chemistry/Biotechnology/Biology/Technical Vocational subject. Minimum 45% marks (40% for reserved category) in the above subjects combined. Admission through UPSEE / JEE MAIN score.
Duration: 4 years / 8 semesters
Credits: 153 Credits
Assessment: Internal: 30% (for theory subjects), 50% (for practical subjects), External: 70% (for theory subjects), 50% (for practical subjects)
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KAS101T | Engineering Physics | Core | 4 | Relativistic Mechanics, Electromagnetic Field Theory, Quantum Mechanics, Wave Optics, Fiber Optics and Laser |
| KAS103T | Engineering Mathematics-I | Core | 4 | Matrices, Differential Calculus, Mean Value Theorem, Functions of Several Variables, Multiple Integrals |
| KCS101T | Programming for Problem Solving | Core | 3 | Introduction to Programming, Operators and Expressions, Control Flow, Functions and Arrays, Pointers and Structures |
| KEE101T | Basic Electrical Engineering | Core | 4 | DC Circuits, AC Circuits, Three-Phase AC Circuits, Transformers, Electrical Machines |
| KAS151P | Engineering Physics Lab | Lab | 1 | Lasers and Optics, Semiconductor Devices, Magnetic Fields, Measurement Techniques, Error Analysis |
| KCS151P | Programming for Problem Solving Lab | Lab | 1 | C Programming Basics, Conditional Statements, Loops and Functions, Array and String Operations, File Handling |
| KEE151P | Basic Electrical Engineering Lab | Lab | 1 | Verification of Circuit Laws, Superposition Theorem, Transient Response, Measurement of Power, Transformer Characteristics |
| KGC101P | Computer Aided Engineering Graphics | Lab | 1.5 | Introduction to Engineering Graphics, Orthographic Projections, Isometric Projections, Sectional Views, AutoCAD Tools |
| KNC101 | Environmental Science | Non-Credit | 0 | Ecosystems, Natural Resources, Pollution and Control, Environmental Laws, Sustainable Development |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KAS202T | Engineering Chemistry | Core | 4 | Water Technology, Corrosion and its Control, Polymer Chemistry, Spectroscopic Techniques, Engineering Materials |
| KAS203T | Engineering Mathematics-II | Core | 4 | Ordinary Differential Equations, Laplace Transforms, Vector Calculus, Complex Numbers, Complex Integration |
| KAS204T | Professional Communication | Core | 2 | Communication Process, Oral Communication, Written Communication, Non-Verbal Communication, Group Discussion & Presentation |
| KME201T | Elements of Mechanical Engineering | Core | 4 | Thermodynamics, Power Plants, I.C. Engines, Refrigeration and Air Conditioning, Manufacturing Processes |
| KAS252P | Engineering Chemistry Lab | Lab | 1 | Titration Techniques, Spectrophotometry, Viscosity Measurement, Conductometry, Chemical Synthesis |
| KAS254P | Professional Communication Lab | Lab | 1 | Public Speaking, Interview Skills, Resume Writing, Presentation Skills, Role Plays |
| KME251P | Manufacturing Practices Workshop | Lab | 1 | Carpentry, Fitting, Welding, Sheet Metal, Foundry |
| KGC201P | Computer Aided Engineering Graphics | Lab | 1.5 | Projections of Points, Projections of Lines, Projections of Planes, Sectioning of Solids, Development of Surfaces |
| KNC202 | Universal Human Values | Non-Credit | 0 | Introduction to Value Education, Understanding Harmony, Harmony in Society, Harmony with Nature, Professional Ethics |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KAS301T | Engineering Mathematics-III | Core | 4 | Fourier Series, Partial Differential Equations, Applications of PDEs, Complex Analysis, Statistical Techniques |
| KEC301 | Digital System Design | Core | 3 | Digital Logic Families, Combinational Circuits, Sequential Circuits, Memories and PLDs, State Machine Design |
| KEC302 | Electronics Devices and Circuits | Core | 3 | Semiconductor Diodes, Bipolar Junction Transistors, Field Effect Transistors, Transistor Biasing, Transistor Amplifiers |
| KEC303 | Network Analysis and Synthesis | Core | 3 | Network Theorems, Transient Analysis, Two-Port Networks, Filters and Attenuators, Network Synthesis |
| KEC304 | Signals and Systems | Core | 3 | Signal Classification, System Properties, Fourier Series and Transform, Laplace Transform, Z-Transform |
| KEC351 | Digital System Design Lab | Lab | 1 | Logic Gates Implementation, Combinational Logic Circuits, Flip-Flops, Counters and Registers, Multiplexers and Demultiplexers |
| KEC352 | Electronics Devices and Circuits Lab | Lab | 1 | Diode Characteristics, Rectifiers and Filters, Transistor Biasing, Common Emitter Amplifier, FET Characteristics |
| KEC353 | Network Analysis and Synthesis Lab | Lab | 1 | Network Theorems Verification, Frequency Response of RLC, Two-Port Network Parameters, Filter Design, Transient Response Measurement |
| KEC354 | Signals and Systems Lab | Lab | 1 | Introduction to MATLAB/Scilab, Signal Generation, Convolution and Correlation, Fourier Transform, System Response |
| KNC301/KNC302 | Computer System Security / Constitution of India | Non-Credit | 0 | Cybercrime, Network Security, Indian Constitution, Fundamental Rights, Directive Principles |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KAS401T | Engineering Mathematics-IV | Core | 4 | Probability and Statistics, Regression and Correlation, Numerical Methods, Solution of ODEs, Integral Equations |
| KEC401 | Analog Circuits | Core | 3 | Op-Amp Characteristics, Op-Amp Applications, Linear ICs, Waveform Generators, Voltage Regulators |
| KEC402 | Analog and Digital Communication | Core | 3 | Amplitude Modulation, Frequency Modulation, Pulse Modulation, Digital Modulation Techniques, Information Theory |
| KEC403 | Microcontrollers | Core | 3 | 8051 Architecture, Instruction Set, Programming the 8051, Timers and Interrupts, Interfacing with Peripherals |
| KEC404 | Electromagnetic Field Theory | Core | 3 | Vector Calculus, Electrostatics, Magnetostatics, Maxwell''''s Equations, Wave Propagation |
| KEC451 | Analog Circuits Lab | Lab | 1 | Op-Amp as Amplifier, Active Filters, Multivibrators, Phase Locked Loops, Voltage Regulators |
| KEC452 | Analog and Digital Communication Lab | Lab | 1 | AM/FM Modulation & Demodulation, Sampling and Reconstruction, PCM Generation, ASK/FSK/PSK Modulation, Spread Spectrum |
| KEC453 | Microcontrollers Lab | Lab | 1 | 8051 Assembly Language, Interfacing LEDs and Switches, LCD Interfacing, Keypad Interfacing, ADC/DAC Interfacing |
| KEC454 | PCB Design Lab | Lab | 1 | Introduction to PCB Design, Schematic Capture, Layout Design, Gerber File Generation, Fabrication Process |
| KNC401/KNC402 | Artificial Intelligence / Blockchain Architecture | Non-Credit | 0 | AI Foundations, Machine Learning, Blockchain Basics, Cryptocurrency, Smart Contracts |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KEC501 | Integrated Circuits | Core | 3 | Operational Amplifiers, Linear Applications of Op-Amp, Non-Linear Applications of Op-Amp, Active Filters, Data Converters |
| KEC502 | Digital Signal Processing | Core | 3 | Discrete Fourier Transform, Fast Fourier Transform, IIR Filter Design, FIR Filter Design, DSP Processors |
| KEC503 | Computer Architecture and Organization | Core | 3 | Computer Organization Basics, Instruction Set Architecture, CPU Design, Memory Organization, I/O Organization |
| KEC504/KEC505 | Industrial Psychology / Industrial Sociology | Professional Elective-1 | 3 | Work Motivation, Leadership, Organizational Behavior, Social Systems, Industrial Relations |
| KEC05X | Departmental Elective I | Elective | 3 | Topics depend on chosen elective from: Microprocessor and Microcontroller, Introduction to MEMS, Advance Semiconductor Devices, Optical Fiber Communication |
| KEC551 | Integrated Circuits Lab | Lab | 1 | Op-Amp Integrator/Differentiator, Precision Rectifiers, Voltage-Controlled Oscillator, Analog to Digital Converter, Digital to Analog Converter |
| KEC552 | Digital Signal Processing Lab | Lab | 1 | DFT and FFT Implementation, FIR Filter Design, IIR Filter Design, Wavelet Transforms, Multirate Signal Processing |
| KEC553 | CAD for Electronics Lab | Lab | 1 | PSpice Simulation, VLSI Design Tools, Verilog/VHDL for Digital Systems, Layout Design, Verification Techniques |
| KNC501/KNC502 | Cyber Security / Introduction to Soft Computing | Non-Credit | 0 | Cyber Attacks, Information Security, Fuzzy Logic, Neural Networks, Genetic Algorithms |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KEC601 | VLSI Design | Core | 3 | MOSFET Fundamentals, CMOS Logic Circuits, VLSI Fabrication, Sequential Circuit Design, Design Tools and Methodologies |
| KEC602 | Antenna and Wave Propagation | Core | 3 | Antenna Fundamentals, Antenna Types, Antenna Arrays, Radio Wave Propagation, Ground and Space Wave Propagation |
| KEC603 | Wireless Communication | Core | 3 | Cellular Concept, Wireless Channel Characterization, Multiple Access Techniques, Wireless Systems, 5G Communication |
| KEC06X | Departmental Elective II | Elective | 3 | Topics depend on chosen elective from: Digital Image Processing, Power Electronics, Embedded Systems, Satellite Communication |
| KOE0XX | Open Elective I | Open Elective | 3 | Topics depend on chosen open elective from various departments |
| KEC651 | VLSI Design Lab | Lab | 1 | CMOS Inverter Design, Logic Gate Implementation in CMOS, Sequential Circuit Design using CAD, Layout Design and Simulation, FPGA/CPLD Programming |
| KEC652 | Antenna and Wave Propagation Lab | Lab | 1 | Antenna Characteristics Measurement, Radiation Pattern, Return Loss Measurement, Standing Wave Ratio, Frequency Response Analysis |
| KEC653 | Digital Communication Lab | Lab | 1 | Line Coding Techniques, Error Detection & Correction, Matched Filter, Spread Spectrum Communication, Optical Communication Link |
| KNC601/KNC602 | Human Computer Interaction / Cloud Computing | Non-Credit | 0 | User Interface Design, Usability Principles, Cloud Service Models, Virtualization, Cloud Security |
Semester 7
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KEC701 | Opto-electronics and Optical Communication | Core | 3 | Optical Fiber Principles, Optical Sources & Detectors, Optical Amplifiers, WDM Systems, Optical Networks |
| KEC07X | Departmental Elective III | Elective | 3 | Topics depend on chosen elective from: Advance Digital Signal Processing, IoT, Neural Networks & Deep Learning, Radar Engineering |
| KEC07Y | Departmental Elective IV | Elective | 3 | Topics depend on chosen elective from: Advance Wireless Communication, Biomedical Instrumentation, Robotics, Speech Processing |
| KOE0YY | Open Elective II | Open Elective | 3 | Topics depend on chosen open elective from various departments |
| KEC751 | Industrial Training | Project | 2 | Practical Industry Exposure, Application of Engineering Principles, Project Documentation, Presentation Skills, Professional Etiquette |
| KEC752 | Project | Project | 4 | Project Planning and Design, Hardware/Software Implementation, Testing and Debugging, Report Writing, Project Presentation |
Semester 8
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| KEC08X | Departmental Elective V | Elective | 3 | Topics depend on chosen elective from: Mobile Ad-hoc Network, Low Power VLSI Design, Image & Video Processing, Quantum Computing |
| KOE0ZZ | Open Elective III | Open Elective | 3 | Topics depend on chosen open elective from various departments |
| KEC851 | Project | Project | 10 | Advanced Research and Development, Innovative System Design, Extensive Implementation, Comprehensive Report & Viva, Problem Solving and Critical Thinking |
| KEC852 | Seminar | Seminar | 2 | Literature Review, Technical Presentation, Communication Skills, Recent Trends in ECE, Research Methodology |
