B.Tech - Electronics and Communication Engineering

B.Tech - Electronics and Communication Engineering

B.Tech - Electronics and Communication Engineering

Course Overview

This program builds a strong foundation in electronic devices, microprocessors, communication systems, signal processing, and VLSI. Students also explore emerging technologies such as IoT and embedded systems through labs and project-based learning.

Course Objectives

  • To impart knowledge in electronics fundamentals and communication technologies.
  • To provide hands-on experience with circuits, communication tools, and embedded systems.
  • To develop analytical and problem-solving skills for designing electronic systems.
  • To prepare students for careers in electronics design and telecommunications.

Learning Outcomes

Graduates will be able to

  • Design, analyze, and optimize electronic and communication circuits.
  • Work with microcontrollers, wireless systems, and embedded platforms.
  • Apply IoT concepts for smart system development.
  • Troubleshoot and improve electronic hardware and communication networks.
  • Take up roles in telecom, electronics manufacturing, and R&D.

Curriculum

Semester 1

Practical
  • Physics Lab
  • Chemistry Lab
  • Programming Lab (Python/C)
  • Workshop Practices
  • Electrical and Electronics Engineering
Theory
  • Communication Skills I
  • Mathematics I (Calculus and Linear Algebra)
  • Physics for Electronics and Communication Engineers
  • Environmental Science
  • Introduction to Electronics and Communication Engineering
  • Introduction to Programming (Python/C)

Semester 2

Practical
  • Electronic Devices and Circuits Lab
  • Data Structures Lab
  • Communication Skills Lab
Theory
  • Communication Skills II
  • Mathematics II (Probability and Statistics)
  • Applied Physics for Semiconductor Devices
  • Network Analysis and Synthesis
  • Data Structures and Algorithms
  • Engineering Graphics

Semester 3

Practical
  • Digital Electronics Lab
  • Analog Circuits Lab
  • Signals and Systems
Theory
  • Mathematics III (Fourier and Laplace Transforms)
  • Digital Electronics
  • Signals and Systems
  • Analog Circuits
  • Electromagnetic Theory
  • Economics for Engineers

Semester 4

Practical
  • Microprocessors and Microcontrollers Lab
  • Analog Communication Systems Lab
  • Control Systems Lab
Theory
  • Microprocessors and Microcontrollers
  • Analog Communication Systems
  • Control Systems
  • Electronic Measurements and Instrumentation
  • Analog Integrated Circuits
  • Professional Ethics and Human Values

Semester 5

Practical
  • DSP Lab
  • Digital Integrated Circuits Lab
  • Antennas and Digital Communication Lab
Theory
  • Digital Signal Processing (DSP)
  • Digital Communication
  • Digital Integrated Circuits
  • Antennas and Wave Propagation
  • Professional Elective I (e.g., IoT, Robotics)
  • Open Elective I (e.g., Environmental Studies, Green Energy)

Semester 6

Practical
  • Embedded Systems Lab
  • Wireless Communication Lab
  • Optical Communication Lab
Theory
  • Embedded Systems
  • Wireless Communication
  • Optical Communication
  • VLSI Design
  • Professional Elective II (e.g., Satellite Communication, Biomedical Signal Processing)
  • Open Elective II (e.g., Machine Learning, Data Science)

Semester 7

Practical
  • Project Phase I
  • IoT Lab
Theory
  • Advanced Communication Networks
  • Internet of Things (IoT)
  • Professional Elective III (e.g., Advanced VLSI, Cognitive Radio)
  • Open Elective III (e.g., Entrepreneurship Development, Smart Grid Systems)
  • Professional Elective IV (e.g., MEMS, Quantum Electronics)

Semester 8

Project
  • Project Phase II

Admissions Open for 2026-2027

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