Programme Overview

Step into the world of innovation with our B.E. in Electronics and Communication Engineering (ECE) — a programme designed to build the next generation of technology leaders. This course blends the power of hardware and software, focusing on key areas like telecommunications, electronics, and embedded systems. Over four years and eight semesters, students gain strong theoretical knowledge and hands-on experience through labs, projects, and practical assessments. The curriculum nurtures analytical thinking and creativity, empowering learners to design, develop, and optimize communication systems and electronic devices that drive modern technology. Key subjects include Analog & Digital Communication, Signals and Systems, Modern Logic Circuits, Microprocessors, and Coding Techniques, ensuring a perfect balance of core concepts and emerging technologies.

  • 4 Years

    Duration of programme

  • UG

    Level of Study

Key Highlights

Modern labs with advanced simulation tools
Regular use of ICT and digital learning resources
Dedicated workstations for project innovation
Skilled guidance by a certified TOT trainer
Advanced Robotics Lab for practical exposure

How will you benefit

Diverse Career Opportunities: Unlock careers in telecommunications, electronics, IT, aerospace, automation, and manufacturing sectors.
Strong Technical Foundation: Gain in-depth knowledge of electronics, communication systems, signal processing, and microelectronics.
Innovative Problem-Solving: Build strong analytical and critical thinking skills to tackle real-world engineering challenges.
Entrepreneurial Edge: Develop the confidence and expertise to launch your own tech ventures in electronics and communication.

What will you study

Embedded Systems & IoT: Learn how smart devices communicate and interact, integrating sensors, controllers, and cloud connectivity.

Digital Signal Processing & AI Integration: Master techniques to process and analyze signals using modern tools and intelligent algorithms.

Wireless Communication & 5G Technologies: Explore the evolution of communication systems, from traditional networks to high-speed 5G and beyond.

VLSI Design & Microelectronics: Understand how advanced chips and integrated circuits power today’s electronics.

  • PSO-1: Apply principles of basic sciences and mathematics to analyze and solve complex engineering problems.
  • PSO-2: Gather requirements, design, develop, and test efficient electronic systems and components.
  • PSO-3: Utilize modern EDA (Electronic Design Automation) tools for designing linear and digital integrated circuits.
  • PSO-4: Design and test reliable power supply systems, including battery management units and power amplifiers.
  • PSO-5: Analyze, design, and optimize noise-free analog and digital communication systems.
  • PSO-6: Evaluate emerging technologies and assess the strengths and limitations of state-of-the-art communication systems.
  • PSO-7: Choose appropriate partitioning and implementation techniques for wired and wireless communication networks.
  • PSO-8: Demonstrate awareness of and commitment to professional and ethical responsibilities.
  • PSO-9: Collaborate effectively in multidisciplinary teams using technical knowledge and common engineering tools to achieve project goals.
  • PSO-10: Communicate ideas and technical information clearly and effectively with peers, professionals, and stakeholders.
  • PSO-11: Understand organizational structures, apply optimization strategies, and develop financial and managerial competencies.
  • PSO-12: Engage in lifelong learning to continuously upgrade technical knowledge and professional skills.

  • PO-1: Equip students with strong technical and interpersonal skills for successful careers in industry, academia, and government organizations, while nurturing a foundation for lifelong learning and innovation.
  • PO-2: Encourage leadership and excellence in research, design, and development within the field of electronics and allied engineering domains.
  • PO-3: Enable graduates to provide technical expertise, strategic guidance, and professional support to industries, research institutions, and society at large.

The B.E. in Electronics and Communication Engineering programme aims to provide students with a strong academic foundation and the ability to address complex challenges in today’s rapidly evolving technological and social landscape.

  • PEO-1: Build a strong foundation in engineering fundamentals with the ability to apply knowledge effectively in practical and innovative ways.
  • PEO-2: Develop the competence to identify, analyze, and solve real-world engineering problems using multidisciplinary approaches.
  • PEO-3: Acquire hands-on experience in analytical methods, laboratory practices, and modern simulation and design tools.
  • PEO-4: Gain broad-based knowledge of engineering design, development, and management in global and industrial contexts.
  • PEO-5: Cultivate teamwork, adaptability, and collaboration across diverse professional and cultural environments.
  • PEO-6: Strengthen oral and written communication skills for effective professional and technical documentation.
  • PEO-7: Foster a culture of lifelong learning, encouraging continuous self-improvement and professional growth.
  • PEO-8: Develop a strong sense of ethics, social responsibility, and awareness of technology’s impact on society.

Curriculum

  • Engineering Chemistry
  • Mathematics-I
  • Engineering Graphics
  • Basic Electrical Engineering
  • Basic Computer Engineering
  • Manufacturing Practices
  • Entrepreneurship development

  • Engineering Physics
  • Mathematics-II
  • Basic Mechanical Engineering
  • Basic Civil & Engg Mechanics
  • Communication Skills
  • Health, Hygiene & Yoga
  • Rural Outreach

  • Mathematics-III
  • Digital Circuits & Systems
  • Network Analysis
  • Electronics Devices & Circuits
  • Measurement & Instrumentation
  • Software Lab-I
  • Skill Elective-I (Hardware/Networking)

  • Energy & Environmental Engineering
  • Signals & Systems
  • IC and its Applications
  • Communication System-I
  • Control Systems
  • Software Lab-II
  • Skill Elective-II (Home appliances Repairing or House Wiring)

  • Solid State Devices
  • Communication System-II
  • Microprocessor & Microcontrollers
  • Communication Network and Transmission Lines
  • Electromagnetic Theory
  • Software Lab-III
  • Skill Elective-III (Linux-Unix or Embedded Systems)

  • Industrial Electronics
  • Digital Signal Processing
  • Antenna and Wave Propagation
  • VLSI Circuits & Systems
  • Cellular Mobile Communication
  • Software Lab-IV
  • Skill Elective-IV (Python or App Development)

  • Professional Elective – I --(A) Wireless Communication ,(B) Information Theory & Coding ,(C) Nano Technology
  • Optical Communication
  • Microwave Engineering
  • Digital Image Processing
  • Satellite Communication
  • Minor Project
  • Industrial Training/Internship/IPR

  • Professional Elective – II -- (A) Adhoc & Sensor Network ,(B) Principle of Biomedical Instrumentation, (C) Communication Switching Techniques
  • Computer Networks
  • TV & RADAR Engineering
  • Open Elective --(A)Principle of Management & Managerial Economics ,(B) Soft Computing ,(C) Web Engineering, (D) Industrial Robotics
  • Major Project
  • Seminar

CAREERS AND EMPLOYABILITY

Communication Systems Specialist
Network Infrastructure Expert
Robotics & Automation Engineer
VLSI Design Professional

ELIGIBILITY CRITERIA

12th with Mathematics

Diploma in any Discipline

 

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Rabindranath Tagore University,

Rabindranath Tagore University, Mendua, Post: Bhojpur, Near - Bangrasiya chouraha, Bhopal-Chiklod Road, District: Raisen,(M.P.)

07552700401 | 07552700447 |

info@rntu.ac.in

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