BTech Electronics and Telecommunication Engineering Syllabus Structure (4 Years)
The BTech Electronics and Telecommunication Engineering (ETC) syllabus is designed to build strong knowledge in electronics, communication systems, wireless networks, and telecom infrastructure.
It includes theoretical concepts along with labs, communication experiments, networking basics, and industrial training.
Students develop skills in circuits, signals, digital transmission, 4G/5G communication, optical fiber, and embedded systems.
Year 1: Foundation & Engineering Basics
The first year covers engineering fundamentals and introduces the basics of electrical and electronics concepts.
It builds a strong base for communication engineering subjects in later semesters.
Semester 1
- Engineering Mathematics I: Calculus, differentiation, integration fundamentals.
- Engineering Physics: Semiconductor basics, waves, and applied physics concepts.
- Basic Electrical Engineering: Electrical circuits, measurements, and fundamentals.
- Communication Skills: Technical writing and professional communication.
Semester 2
- Engineering Mathematics II: Probability, statistics, and matrices fundamentals.
- Engineering Chemistry: Materials science and chemical basics for engineering.
- Programming Fundamentals: C / Python basics and logic development.
- Environmental Studies: Sustainability and engineering awareness.
Year 2: Core Electronics
The second year introduces core electronics subjects that form the foundation of telecom systems.
Students learn digital and analog electronics and build skills in circuit design.
Semester 3
- Electronic Devices & Circuits: Diodes, transistors, amplifiers, circuit fundamentals.
- Analog Electronics: Operational amplifiers, oscillators, analog circuit design.
- Network Theory: AC/DC circuit analysis and filters basics.
- Signals & Systems: Signal properties, system analysis, and transformations.
Semester 4
- Digital Electronics: Logic gates, counters, flip-flops, digital designing.
- Microprocessors & Microcontrollers: Embedded fundamentals and microprocessor basics.
- Electromagnetic Theory: Fields, waves, and basics of transmission systems.
- Control Systems: Feedback systems and stability concepts.
Year 3: Communication & Networking
The third year focuses on core telecommunication and networking systems.
Students learn how communication networks transmit data across wired and wireless channels.
Semester 5
- Analog Communication: AM/FM modulation, demodulation, signal transmission basics.
- Digital Communication: Encoding, data transmission, error control techniques.
- Digital Signal Processing (DSP): Filtering, sampling, signal processing fundamentals.
- Mini Project: Communication system or embedded-based mini project.
Semester 6
- Mobile Communication: Cellular networks, 4G/5G basics and technologies.
- Microwave Engineering: Microwave circuits, antennas, RF communication fundamentals.
- Optical Fiber Communication: Fiber cables, transmission, network fundamentals.
- Network Engineering Basics: Computer networks, routing, switching basics.
Year 4: Advanced Telecom & Industry Training
The final year focuses on advanced telecommunications systems, industry exposure, and final-year projects.
Students gain specialization through electives and internship training.
Semester 7
- Wireless & Satellite Communication: Wireless transmission and satellite communication systems.
- RF and Antenna Design Basics: RF systems, antenna design and analysis.
- Elective Subject: IoT / Advanced Networking / VLSI / Cyber Security (varies).
- Internship / Industrial Training: Training in telecom companies or network industries.
Semester 8
- Major Project: Telecom network, wireless communication, or embedded system project.
- Project Viva Voce: Final project presentation and evaluation.
- Telecom Network Planning: Planning telecom systems and infrastructure development.
- Seminar / Research Presentation: Technical seminar and report submission.
Recommended Books for BTech Electronics and Telecommunication Engineering
| Subject |
Book Title |
Author |
| Analog Communication |
Communication Systems |
Simon Haykin |
| Digital Communication |
Digital Communications |
John G. Proakis |
| Microwave Engineering |
Microwave Engineering |
David M. Pozar |
| Optical Fiber |
Optical Fiber Communications |
Gerd Keiser |
BTech Electronics and Telecommunication Engineering Syllabus FAQs
Q1: What is the syllabus structure of BTech Electronics and Telecommunication Engineering and how is it divided across 8 semesters in 4 years?
BTech ETC is a 4-year program divided into 8 semesters.
The first year focuses on engineering basics and programming fundamentals.
The second year covers electronics circuits and digital systems subjects.
The final years focus on telecom, networking, internships, and major project work.
Q2: Which core subjects in BTech ETC syllabus are most important for building strong fundamentals in communication and telecom systems?
Analog and digital communication are the most important core subjects.
Signals and systems and DSP build strong understanding of signal transmission.
Microwave engineering and mobile communication are essential for telecom technology.
These subjects help students prepare for core communication job roles.
Q3: Does BTech ETC syllabus include 4G/5G mobile communication and what concepts are covered in this subject?
Yes, mobile communication is an important subject in most ETC programs.
Students learn cellular network structure, frequency reuse, and mobile transmission systems.
The syllabus covers basic 4G and 5G technology concepts.
It helps students build knowledge for telecom and wireless careers.
Q4: Is optical fiber communication part of BTech ETC syllabus and why is it important for modern network infrastructure?
Yes, optical fiber communication is a key subject in ETC.
Students learn about fiber cables, signal transmission, and network systems.
Optical fiber is widely used for high-speed internet and telecom backbone networks.
This subject is essential for telecom infrastructure and networking jobs.
Q5: Are microwave engineering and RF concepts included in BTech ETC syllabus and which careers require these skills?
Yes, microwave engineering and RF basics are included in the third year syllabus.
Students learn antennas, microwave transmission, and RF systems.
These skills are required for RF engineer, telecom planning, and wireless network roles.
RF knowledge is also useful for satellite and defense communication jobs.
Q6: Is lab practical training compulsory in BTech Electronics and Telecommunication Engineering and what type of experiments are performed?
Yes, practical labs are compulsory in ETC courses.
Students perform modulation/demodulation experiments and digital transmission testing.
Networking labs teach routing and switching basics.
Lab performance plays an important role in building practical telecom skills.
Q7: What elective subjects can students choose in the final year of BTech ETC and how should they select them for better jobs?
Electives vary by institute but may include:
- Advanced Wireless Communication
- IoT and Embedded Systems
- Cyber Security and Network Protection
- Advanced VLSI Design
- Cloud Networking Basics
Students should choose electives based on career goals and industry demand.
Q8: Is internship and final-year project compulsory in BTech Electronics and Telecommunication Engineering and how does it help placements?
Yes, internships and major projects are important parts of the final year.
Students get practical exposure in telecom companies, networking firms, or embedded industries.
Final projects build real-world problem-solving and technical skills.
Internship experience helps students get better placements and higher salary packages.
Q9: What are the best books and resources for BTech ETC students to prepare communication subjects effectively and score well in exams?
Simon Haykin is useful for analog communication concepts and Proakis for digital communication.
Pozar is widely used for microwave engineering subject preparation.
Keiser provides strong understanding of optical fiber communication.
Lab manuals and class notes are also important for scoring high marks.
