B. Tech Electronics & Communication Engineering

Duration
4 Years
Eligibility

Eligibility Norms for Admission to B. Tech Programs:

Passed 10+2 examination with Physics/ Mathematics Compulsory along with Chemistry/ Computer Science/ Electronics/ Information Technology/ Biology/ Informatics Practices/ Biotechnology/ Technical Vocational subject/ Agriculture/ Engineering Graphics/ Business Studies Obtained at least 45% marks (40% marks in case of candidates belonging to reserved category) in the above subjects taken together.



Eligibility Norms for Admission to B. Tech Programs (Lateral):

Passed Minimum THREE years / TWO years (Lateral Entry) Diploma examination with at least 45% marks (40% marks in case of candidates belonging to reserved category) in relevant branch of Engineering and Technology as mentioned in the AICTE APH 2024-25.
OR
Passed B.Sc. Degree from a recognized University as defined by UGC, with at least 45% marks (40% marks in case of candidates belonging to reserved category) and passed 10+2 examination with Mathematics as a subject.
OR
Passed B.Voc/3-year D.Voc. Stream in the same or allied sector. (The Universities will offer suitable bridge courses such as Mathematics, Physics, Engineering drawing, etc., for the students coming from diverse backgrounds to achieve desired learning outcomes of the programme)

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The availability of affordable means of communication has been one of the greatest contributions of electronics to human society. The telephone, radio, satellite communications, the Internet, and mobile phones have revolutionized the way we live and the way we think about our world. New technologies continuously emerge, with 4G mobile phones offering the possibility of real-time high-quality video. DSL and broadband wireless systems provide multi-fold the capacity of modems, bringing an increased amount of information into our homes. Other examples include advanced wavelength-division multiplexing schemes, promising a vast reduction in the cost of long-distance data transmission. Fifth-generation systems will unify all these technologies, and users will be able to receive and transmit anything, anytime, anywhere. In view of the increasing demand for communication services, including but not limited to space communication and telecommunication, in the business world, capable of influencing effective managerial decision-making. Graduates in Electronics and Communication Engineering would have no difficulty in finding appropriate career opportunities for themselves in the industry. Career options are Electronics Engineering, Telecommunications engineer, Design engineer etc.

B. Tech Electronics & Communication Engineering

Programme Overview

The B. Tech in Electronics & Communication Engineering program focuses on the technological advancements that have revolutionized communication, including innovations like mobile phones, the Internet, radio, satellite communications, and more. Students explore emerging technologies such as 4G mobile phones, DSL, broadband wireless systems, and advanced wavelength-division multiplexing, which enhance communication capacity and data transmission. The program helps students become more proficient in designing integrated circuits employing VLSI technology and embedded systems for a variety of applications. The program prepares graduates for the growing demand in the communications industry, including areas like space communication, telecommunication, and managerial decision-making. Career opportunities for graduates include roles as Electronics Engineers, Telecommunications Engineers, Embedded Engineers, and VLSI Design Engineers. 

Course Curriculum

  • 01Calculus and Differential Equations - MAT2301
  • 02Foundations of Integrated Engineering - CIV1200
  • 03Basics of Electrical and Electronics Engineering - EEE1200
  • 04Basics of Electrical and Electronics Engineering Lab - EEE1250
  • 05Applied Chemistry for Engineers - CHE2503
  • 06Applied Chemistry for Engineers Lab - CHE2504
  • 07Computational Thinking using Python - CSE1500
  • 08English for Technical Communication - ENG1900
  • 09Indian Constitution - LAW1007
  • 10Industry Readiness Program – I - PPS1025
  • 01Transform Techniques, PDEs and Complex Variables - MAT2302
  • 02Engineering Graphics - MEC1006
  • 03Advanced Materials and Quantum Physics for Engineers - PHY2502
  • 04Advanced Materials and Quantum Physics Lab - PHY2505
  • 05Digital Electronics - ECE2021
  • 06Digital Electronics Lab - ECE2051
  • 07Introduction to Design Thinking - DES1146
  • 08Advanced English - ENG2501
  • 09Design Workshop - ECE1511
  • 10Environmental Studies - CHE7601
  • 11Industry Readiness Program – II - PPS1026
  • 01Linear Algebra and Vector Calculus - MAT2503
  • 02Network Theory - EEE2500
  • 03Signals and Systems - ECE2500
  • 04Essentials of Finance - FIN1002
  • 05C Programming and Data Structures - CSE2280
  • 06Signals and Systems Lab - ECE2550
  • 07Analog Communication - ECE2502
  • 08Analog Communication Lab - ECE2552
  • 09C Programming and Data Structures Lab - CSE2281
  • 10Universal Human Values and Ethics - CIV7601
  • 11Introduction to Aptitude - APT4002
  • 01Numerical Methods, Probability and Sampling - MAT2504
  • 02Electromagnetic Field Theory - EEE2502
  • 03Digital Signal Processing - ECE2520
  • 04Digital Signal Processing Lab - ECE2570
  • 05Control Systems - EEE2504
  • 06Embedded Systems using Microcontrollers - ECE2521
  • 07Embedded Systems Lab - ECE2571
  • 08Linear Integrated Circuits - ECE2501
  • 09Linear Integrated Circuits Lab - ECE2551
  • 10Aptitude Training – Intermediate - APT4004
  • 01Digital Communication - ECE2503
  • 02Digital Communication Lab - ECE2553
  • 03Computer Organization and Architecture - CSE2257
  • 04CMOS VLSI Design - ECE2522
  • 05CMOS VLSI Design Lab - ECE2572
  • 06Essentials of AI - CSE1700
  • 07Professional Elective - I - ECEXXXX
  • 08Professional Elective - II - ECEXXXX
  • 09Essentials of AI Lab - CSE1701
  • 10Logical and Critical Thinking - APT4006
  • 01Mobile Communication - ECE2527
  • 02Digital VLSI Design - ECE2523
  • 03Transmission Lines and Waveguides - ECE2505
  • 04Professional Elective - III - ECEXXXX
  • 05Professional Elective - IV - ECEXXXX
  • 06Open Elective - I - XXXXXXX
  • 07Digital VLSI Design Lab - ECE2573
  • 08Minor Project - ECE7100
  • 09Aptitude for Employability - APT4005
  • 01Microwave Antenna and Wave Propagation - ECE2504
  • 02Data Communication and Networking - ECE2524
  • 03Professional Elective - V - ECEXXXX
  • 04Professional Elective - VI - ECEXXXX
  • 05Microwave Antenna and Wave Propagation Lab - ECE2554
  • 06Open Elective - II - XXXXXXX
  • 07Internship - ECE7000
  • 08Preparedness for Interview - PPS3018
  • 01Capstone Project – ECE7300

Programme Educational Objectives

The Electronics and Communication Engineering Graduates from Presidency University after 4 years of completion of the program shall:

PEO-1: Demonstrate as a successful ECE Professional with innovative skills and with moral and ethical values.

PEO-2: Engage in life-long learning through research and professional development.

PEO-3: Serve as a leader in the profession through consultancy and entrepreneurship.

Programme Outcomes (POs)

Graduates of the B. Tech. Program in Electronics and Communication Engineering will be able to:

PO1: Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and engineering specialization to the solution of complex engineering problems.

PO2: Problem analysis: Identify, formulate, review research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences.

PO3: Design/development of solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for the public health and safety, and the cultural, societal, and environmental considerations.

PO4: Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions.

PO5: Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations.

PO6: The engineer and society: Apply reasoning informed by contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to professional engineering practice.

PO7: Environment and sustainability: Understand the impact of professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development.

PO8: Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of engineering practice.

PO9: Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings.

PO10: Communication: Communicate effectively on complex engineering activities with the engineering community and with society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions.

PO11: Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments.

PO12: Life-long learning: Recognize the need for and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change.

Programme Specific Outcomes

After the successful completion of the program, the graduate shall have:

PSO1: An ability to be a successful engineer by applying knowledge of signal processing, embedded systems and antenna design.

PSO2: An ability to be a successful entrepreneur by understanding the impact of wireless communication, networking and providing solutions to real world problems related to global, environmental and socio-economic context.

PSO3: An ability to be a successful researcher by identifying, formulating and solving security, Defense and VLSI Design related problems.

PSO4: An ability to identify, formulate and solve communication engineering problems from knowledge gained during the course to work in a team as well as to lead a team.

Student handbook

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USP

  • Comprehensive Curriculum covering VLSI design, embedded systems, wireless communication, IoT, and AI-driven electronics.
  • State-of-the-Art Laboratories equipped with advanced microcontrollers, signal processing tools, and RF communication systems.
  • Expert Faculty & Industry Mentorship providing real-world insights into modern communication and electronic technologies.
  • Hands-On Learning through live projects, circuit design, robotics, industrial training, and case studies.
  • Global Internship & Study Abroad Opportunities for international exposure and career advancement.
  • Strong Industry Collaborations with top semiconductor, telecom, and automation firms for research projects and internships.
  • Certifications & Training including MATLAB, VLSI, IoT, PCB Design, and 5G Communication for enhanced technical expertise.
  • Excellent Placement Records with top recruiters in telecommunications, embedded systems, consumer electronics, and semiconductor industries.

Career Opportunities

  • Telecommunications & Networking

    Telecommunications Engineer

    Network Engineer

  • Embedded & VLSI

    Embedded Systems Engineer

    VLSI Design Engineer

  • Design & Development

    Electronics Design Engineer

    Software Developer

  • Control & Signal Processing

    Control Systems Engineer

    Signal Processing Engineer

  • Research & Support

    R&D Engineer

    Technical Support Engineer

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Begin an extraordinary journey with Presidency University.

FAQs

Electronics and Communication Engineering (ECE) is a branch of engineering that deals with the design, development, and application of electronic devices, circuits, and communication equipment.

Electronics and Communication Engineering (ECE) graduates are hired across a wide range of industries that rely on electronics, communication systems, and embedded technologies such as:

- Electronics and Semiconductor Industry

- Telecommunications

- Aerospace and Defense

- Automation and Robotics

- Information Technology (IT) and Software

- Internet of Things (IoT) & Smart Devices

- Healthcare and Medical Electronics

- Manufacturing and Industrial Automation

- Satellite and Space Communication

- Government and Public Sector

Yes, ECE is quite relevant for careers in industries like IoT, robotics, and AI. As ECE graduates are specialised in embedded systems, sensors, control systems, and communication technologies, they can work on smart devices, automation, and AI applications like computer vision and edge computing.

Electrical Engineering (EE) deals primarily with the generation, transmission, and distribution of electrical power. It focuses on power systems, machines, control systems, and energy technologies.

Electronics and Communication Engineering (ECE) focuses on electronic devices, circuits, and communication systems such as mobile networks, satellite communication, and embedded systems.

The average salary for B.Tech. ECE graduates is between ₹3.5 to ₹6 LPA.

ECE students should focus on C/C++ and Python as core languages, while MATLAB, Verilog, and Assembly are crucial for specialized domains like embedded systems, signal processing, and VLSI.

ECE graduates are in high demand in the defense and aerospace sectors for their expertise in communication, control systems, and electronics. With the rise in indigenous defense projects and space missions, the scope is expanding rapidly.