B.Tech in Electronics & Communication Engineering Bangalore - REVA University
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B. Tech. in Electronics & Communication Engineering - REVA University
B. Tech. in Electronics & Communication Engineering
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B. Tech. in Electronics & Communication Engineering

Electronics and Communication Engineering is an engineering discipline involved design, development, manufacture and deployment of Electronic and Communication systems. It deals with electronic devices, circuits, communication equipment like transmitter, receiver, integrated circuits (IC), analog and digital transmission and reception of data, voice and video, microprocessors, satellite communication, microwave engineering, antennae and wave progression. Signal and Image processing, Communication Technologies, Embedded Systems, VLSI Systems are some of the specialized areas available in electronics for further study.

Electronics began with the invention of vacuum diode by J.A. Fleming, in 1897; and, after that, a vacuum triode was implemented by Lee De Forest to amplify electrical signals. This led to the introduction of tetrode and pentode tubes that dominated the world until the World War II. The transistor era began with the junction transistor invention in 1948 and this invention got a Nobel Prize. The subsequent years witnessed the invention of the integrated circuits (ICs) that drastically changed the electronic circuits’ nature as the entire electronic circuit got integrated on a single chip, which resulted in low: cost, size and weight electronic devices. The years 1958 to 1975 marked the introduction of IC with enlarged capabilities of over several thousand components on a single chip such as small-scale integration, medium-large scale and very-large scale integration ICs. Digital integrated circuits were yet another robust IC development that changed the overall architecture of computers. These ICs were developed with Transistor-transistor logic (TTL), integrated injection logic (I2L) and emitter coupled logic (ECL) technologies. Later these digital ICs employed PMOS, NMOS, and CMOS fabrication design technologies.

All these radical changes in all these components led to the introduction of microprocessor in 1969 by Intel. Soon after, the analog integrated circuits were developed that introduced an operational amplifier for an analog signal processing. These analog circuits include analog multipliers, ADC and DAC converters and analog filters.

In this 21st century, every day we are dealing with the electronic circuits and devices in some or the other forms because gadgets, home appliances, computers, transport systems, cell phones, cameras, TV, etc. all have electronic components and devices. Today’s world of electronics has made deep inroads in several areas, such as healthcare, medical diagnosis, automobiles, industries, electronics projects etc. and convinced everyone that without electronics, it is really impossible to work. The rapid development that is taking place world over in new technology areas like IoT, Artificial Intelligence, and Robotics have placed greater demand for electronics and communication engineers in days to come.

The School of Electronics and Communication Engineering at REVA UNIVERSITY offers B. Tech., Electronics and Communication Engineering –an undergraduate programme to create motivated, innovative, creative and thinking graduates to fill the roles of Electronic and Communication Engineers who can conceptualize, design, analyse, develop and produce electronic and communication systems to meet the modern day requirements.

The B. Tech., in Electronics and Communication Engineering curriculum developed by the faculty at the School of Electronics and Communication Engineering, is outcome based and it comprises required theoretical concepts and practical skills in the domain. By undergoing this programme, students develop critical, innovative, creative thinking and problem solving abilities for a smooth transition from academic to real-life work environment. In addition, students are trained in interdisciplinary topics and attitudinal skills to enhance their scope. The above mentioned features of the programme, advanced teaching and learning resources, and experience of the faculty members with their strong connections with Electronics and Communications sector makes this programme unique.

Programme Educational Objectives (PEOs)

The programme helps to develop critical, analytical, innovative, creative and problem solving abilities amongst its graduates. The programme makes the graduates employable as Electronics and communication engineers in manufacturing, agriculture and services sector particularly ICT sector. With further education and earning of higher level degrees help the graduates to pursue a career in academics or scientific organisations as researchers.

The Programme Educational Objectives are to prepare the students to:

  • be electronics and communication engineers to work in economy sectors like manufacturing, power and energy, electronics, telecommunication, IT and other services
  • act as administrators in public, private and government organisations or business administrators or entrepreneurs with further training and education
  • pursue masters and doctoral research degrees to work in colleges, universities as professors or as scientists in research establishments

Programme Outcomes (POs)

After undergoing this programme, a student will be able to:

  • Ability to apply knowledge of mathematics, science, and Engineering fundamentals to solve complex problems in Electronics and Communication engineering
  • Ability to analyse Electronics and Communication engineering problems, interpret data and arrive at meaningfulconclusions involving mathematical inferences
  • Ability to design Electronics and Communication engineering system, component, or process to meet desired needs considering public health and safety, and the cultural, societal, and environmental considerations
  • Ability to understand and solve complex Electronics and Communication engineering problems by conducting experimental investigations
  • Ability to apply appropriate tools and techniques and understand utilization of resources appropriately to complex Electronics and Communication engineering activities
  • Ability to understand the effect of engineering solutions on legal, cultural, social and public health and safety aspects
  • Ability to develop sustainable solutions and understand their effect on society and environment
  • Ability to apply ethical principles to engineering practices and professional responsibilities
  • Ability to work as a member of a team, to plan and to integrate knowledge of various engineering disciplines and to lead teams in multidisciplinary settings
  • Ability to make effective oral presentations and communicate technical ideas to abroad audience using written and oral means
  • Ability to lead and manage multidisciplinary teams by applying engineering and management principles
  • Ability to adapt to the changes and advancements in technology and engage in independent and life-long learning

Course Curriculum

First Year

Semester I
Sr. No Course Title
1 Engineering Mathematics-I
2 Engineering Physics
3 Elements of Mechanical Engineering
4 Basic Electrical and Electronics
5 Computer Concepts and C Programming (I)
6 Constitution of India and Professional Ethics
7 Technical English-1
8 Basic Electrical and Electronics Lab
9 Engineering Physics Lab
Semester II
Sr. No Course Title
1 Engineering Mathematics-II
2 Engineering Chemistry
3 Analog Electronics
4 Python Programming (I)
5 Environmental Sciences
6 Technical English -2
7 Computer Aided Engineering Drawing
8 Analog Electronics lab
9 Chemistry Lab

Second Year

Semester III
Sr. No Course Title
1 Engineering Mathematics-III
2 Linear Integrated Circuits
3 Digital Electronics & VHDL
4 Signals & Systems(I)
5 Network Theory
6 Soft Core I: (Click here)
7 Linear Integrated Circuits Lab
8 DE + VHDL Lab
9 Soft Skill - 1
Semester IV
Sr. No Course Title
1 Engineering Mathematics-IV
2 Analog Communication
3 Electromagnetic field Theory
4 Microcontrollers and Applications
5 Control systems (I)
6 Soft Core I: (Click here)
7 Microcontrollers and applications Lab
8 Analog Communication lab
9 Soft Skill-2
10 Skill Development

Third Year

Semester V
Sr. No Course Title
1 Digital Communication
2 RF and Microwave Engineering
3 Digital Signal Processing(I)
4 Entrepreneurship innovator skills
5 Soft Core I: (Click here)
6 Soft Core II: (Click here)
7 Soft Core III: (Click here)
8 RF and Microwave Lab
9 Digital Communication Lab
10 Soft Skill-3
Semester VI
Sr. No Course Title
1 Antenna and wave Propagation
2 CMOS VLSI Circuits
3 Computer Communication and Networks(I)
4 Soft Core I: (Click here)
5 Soft Core II: (Click here)
6 Soft Core III : (Click here)
7 Antenna Lab
8 CMOS VLSI Circuits Lab
9 Soft Skill -4

Fourth Year

Semester VII
Sr. No Course Title
1 IOT and Cyber physical systems
2 Soft Core I: (Click here)
3 Soft Core II: (Click here)
4 Soft Core III: (Click here)
5 Open Elective : (Click here)
6 Project Dissertation Phase-I
Semester VIII
Sr. No Course Title
1 Internship/Global Certification Program/ Soft Core-12
  • Low power VLSI
  • Parallel Processing
  • Ad-hoc Networks
  • Avionics
2 Internship/Global Certification Program/ Soft Core : (Click here)
3 Project & Dissertation Phase - II

Career Opportunities

The graduates in Electronics and Communication Engineering have various career opportunities in defence services, telecommunications services, embedded systems development, electronic and hardware manufacturing, VLSI design, software development, power sector, TV industry, music industry, automobiles, space communications, IT, home appliances development, electronic security systems, mobile phones testing and development, communication protocols development, optical communications development, etc


B. Tech. (Regular) :
  • Pass in PUC / 10+2 examination with Physics and Mathematics as compulsory subjects along with one of the Chemistry / Biotechnology / Biology / Computer Science / Electronics / Technical Vocational subjects and obtained at least 45% marks (40% in case of candidate belonging to SC/ST category) in the above subjects taken together, of any Board recognized by the respective State Governments / Central Government / Union Territories or any other qualification recognized as equivalent there to.
  • Good score in REVA University Engineering Entrance Test (REVA EET ) or CET / COMED-K or any other equivalent examination conducted by recognized Institute / Agency. (for lateral entry and for more details log on to University website www.reva.edu.in

Course Duration: 8 Semesters (4 Years)



How to Apply?

Contact for Admissions
Office of Admissions,
REVA University, Rukmini Knowledge Park Kattigenahalli, Yelahanka,
Bangalore – 560 064
Karnataka, India
+91 95388 74444
Application Fee
Course Application Fee
Indian / SAARC Nationals
Foreign Nationals
B. Tech. in Electronics & Communication Engineering 1000 2000 50
Hostel Fee
Transportation Fee
Transportation Route