Department of Electronics and Communication Engineering
Overview
Electronics and Communication Engineering as the name implies deals with the use of electronics concepts and principles transfer the information from one place to other. Electronics and Communication engineering utilizes science and mathematical concepts applied to the practical problems opening new avenues to create new product to make the human lead a comfortable life. The development of ICT and its penetration has row revolutionized the new area such as health care, automation, remote sensing, advanced communication etc. This program prepares the student for both hardware and software industries such as system engineers, research and development, academicians, software Engineers, network engineers, maintenance engineers, etc...
Job opportunities in India and Abroad. ( Both Public & Private Sectors)
Defence, space and large research organization employ electronics engineers in design and development of complex device and systems for signal processing and communication.
Industries are also involved in design and fabrication of device, integrated circuits, embedded system and IOT for various applications.
Public sector such as Railways, BSNL, Electricity board, BEL, HAL, ONGC, DRDO, ISRO, SAIL, GAIL etc... provide job opportunities to Electronics and Communication Engineers. In addition to MNC’s under IT Sector namely TCS, INFOSYS, CTS, HCL, WIPRO, ACCENTURE, IBM, INTEL, etc...
Programme
Vision
To be a centre of excellence for transforming students into proficient Electronics and Communication Engineers, through sustainable practices.
Mission
M1. Impart core fundamental knowledge and necessary skills in Electronics and Communication Engineering, through innovative teaching and learning methodology
M2. Inculcate critical thinking, ethics, lifelong learning and creativity needed for industry and society
M3. Cultivate the students with all-round competencies, for career, higher education and self Employability
PEOs / PSOs / PO
Programme Educational Objectives (PEOs)
| PEO1. | Graduates will be prepared for designing Electronics and Communication components and systems with creativity and sustainability |
| PEO2. | Graduates will be skilled in the use of modern tools for critical problem solving and analyzing industrial and societal requirements |
| PEO3. | Graduates will be prepared with managerial and leadership skills for career and starting up own firms |
Program Specific Outcomes (PSOs)
Engineering Graduates will be able to
| PSO1. | Apply the acquired knowledge in analyze, develop and test creative solutions for Electronics and Communication Systems and its application |
| PSO2. | Provide cost effective and eco-friendly solutions for real time problems of Industrial and societal needs using Embedded & IOT tools |
Programme Outcomes (PO)
| PO1. | Engineering Knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an 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 the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice. |
| PO7. | Environment and Sustain ability: Understand the impact of the 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 the engineering practice. |
| PO9. | Individual and Team Work: Function effectively as an individual, and as a member or leader in diverse teams, and in multi disciplinary 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 multi disciplinary 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
Faculty
Academics
Anna university Regulation, Syllabus
| BE - 2021 Syllabus |  |
| BE - 2017 Syllabus | |
| BE - 2017 Open Electives | |
2021 Regulation Course Materials
| S.No. | Subject Code | Subject Name | Lesson Plan | Question Bank | Lecture Notes | ICT Tools | |
|---|---|---|---|---|---|---|---|
Semester III |
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| 1 | EC3351 | Control Systems | View | View | View | View | |
| 2 | EC3352 | Digital Systems Design | View | View | View | View | |
| 3 | EC3353 | Electronic Devices and Circuit | View | View | View | View | |
| 4 | EC3354 | Signals and Systems | View | View | View | View | |
| 5 | CS3353 | C Programming & Data Structures | View | View | View | View | |
| 6 | MA3355 | Random Processes and Linear Algebra | View | View | View | View | |
Semester IV |
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| 7 | EC3452 | Electromagnetic Fields | View | View | View | View | |
| 8 | EC3401 | Networks and Security | View | View | View | View | |
| 9 | EC3451 | Linear Integrated Circuits | View | View | View | View | |
| 10 | EC3492 | Digital Signal Processing | View | View | View | View | |
| 11 | EC3491 | Communication Systems | View | View | View | View | |
| 12 | GE3451 | Environmental Sciences and Sustainability | View | View | View | View | |
Semester V |
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| 13 | EC3501 | Wireless Communication | View | View | View | View | |
| 14 | EC3552 | VLSI and Chip Design | View | View | View | View | |
| 15 | EC3551 | Transmission lines and RF Systems | View | View | View | View | |
| 16 | CEC370 | Low Power IC Design | View | View | View | View | |
| 17 | CEC366 | Image Processing | View | View | View | View | |
| 18 | CEC367 | Industrial IoT and Industry 4.0 | View | View | View | View | |
Value Added Courses
| Academic Year : 2019-2020 | ||
| Sl.No | Name of the Value Added Course | Duration |
| 1 | LABVIEW | 45 hours |
| 2 | Embedded & IOT | 45 hours |
| 3 | Introduction to IOT -CISCO | 20 hours |
| 4 | Robotic Process Automation | 20 hours |
| 5 | Amazon AWS Beginners | 35 hours |
| Academic Year : 2018-2019 | ||
| 1 | PCB Design – EMB WARE | 50 hours |
| 2 | CCNA - CISCO | 50 hours |
| 3 | JAVA/ Python Programming | 45 hours |
| Academic Year : 2017-2018 | ||
| 1 | PCB Design – EMB WARE | 50 hours |
| 2 | Embedded System | 50 hours |
| 3 | Java Full Stack ICT Academy | 40 hours |
| Academic Year : 2016- 2017 | ||
| 1 | C,C++ | 50 hours |
| 2 | CCNA | 70 hours |
| 3 | Java | 40 hours |
| Academic Year : 2015- 2016 | ||
| 1 | C, C++ | 50 hours |
| 2 | CCNA | 70 hours |
| 3 | Java | 40 hours |
2017 Regulation Course Materials
| S.No. | Subject Code | Subject Name | Lesson Plan | Question Bank | Lecture Notes | ICT Tools | |
|---|---|---|---|---|---|---|---|
| 1 | EC8452 | Electronic Circuits II | View | View | View | View | |
| 2 | EC8491 | Communication Theory | View | View | View | View | |
| 3 | EC8451 | Electromagnetic Fields | View | View | View | View | |
| 4 | EC8453 | Linear Integrated Circuits | View | View | View | View | |
| 5 | MA8451 | Probability & Random Processes | View | View | View | View | |
| 6 | GE8291 | Environmental Science & Engineering | View | View | View | View | |
| 7 | EC8501 | Digital Communication | View | View | View | View | |
| 8 | EC8553 | Discrete-Time Signal Processing | View | View | View | View | |
| 9 | EC8552 | Computer Architecture and Organization | View | View | View | View | |
| 10 | EC8551 | Communication Networks | View | View | View | View | |
| 11 | EC8073 | Medical Electronics | View | View | View | View | |
| 12 | OR0551 | Renewable Energy Sources | View | View | View | View | |
| 13 | EC8691 | Microprocessors and Microcontrollers | View | View | View | View | |
| 14 | EC8095 | VLSI Design | View | View | View | View | |
| 15 | EC8652 | Wireless Communication | View | View | View | View | |
| 16 | EC8651 | Transmission Lines and RF Systems | View | View | View | View | |
| 17 | EC8002 | Multimedia Compression and Communication | View | View | View | View | |
| 18 | EC8701 | Antennas and Microwave Engineering | View | View | View | View | |
| 19 | EC8751 | Optical Communication | View | View | View | View | |
| 20 | EC8791 | Embedded and Real Time Systems | View | View | View | View | |
| 21 | EC8702 | Ad hoc and Wireless Sensor Networks | View | View | View | View | |
| 22 | OMF751 | Lean Six Sigma | View | View | View | View | |
| 23 | EC8093 | Digital Image Processing | View | View | View | View | |
| 24 | EC8094 | Satellite Communication | View | View | View | View | |
Value Added Courses
| Academic Year : 2019-2020 | ||
| Sl.No | Name of the Value Added Course | Duration |
| 1 | LABVIEW | 45 hours |
| 2 | Embedded & IOT | 45 hours |
| 3 | Introduction to IOT -CISCO | 20 hours |
| 4 | Robotic Process Automation | 20 hours |
| 5 | Amazon AWS Beginners | 35 hours |
| Academic Year : 2018-2019 | ||
| 1 | PCB Design – EMB WARE | 50 hours |
| 2 | CCNA - CISCO | 50 hours |
| 3 | JAVA/ Python Programming | 45 hours |
| Academic Year : 2017-2018 | ||
| 1 | PCB Design – EMB WARE | 50 hours |
| 2 | Embedded System | 50 hours |
| 3 | Java Full Stack ICT Academy | 40 hours |
| Academic Year : 2016- 2017 | ||
| 1 | C,C++ | 50 hours |
| 2 | CCNA | 70 hours |
| 3 | Java | 40 hours |
| Academic Year : 2015- 2016 | ||
| 1 | C, C++ | 50 hours |
| 2 | CCNA | 70 hours |
| 3 | Java | 40 hours |
Innovation Teaching Methods
| S.No. | Subject Code | Subject Name | ITM Tool | |
|---|---|---|---|---|
| 1 | CEC370 | Low Power IC Design | Role Play | |
| 2 | EC3354 | Signal and Systems | Mind Map | |
| 3 | CS3691 | Embedded Systems and IoT | Role Play | |
| 4 | EC3353 | Electronics Devices and Circuits | Mind Map | |
| 5 | EC3351 | Control Systems | Group Projects | |
| 6 | EC3352 | Digital Systems Design | Quiz | |
| 7 | EC8501 | Digital Communication | Quiz | |
| 8 | EC8553 | Discrete Time Signal Processing | Mini Projects | |
| 9 | EC8073 | Medical Electronics | Case Studies | |
| 10 | OR0551 | Renewable Energy Source | Quiz | |
| 11 | EC8701 | Antenna and Microwave Communication | Quiz | |
| 12 | EC8751 | Optical Communication Networks | Role Play | |
| 13 | EC8791 | Embedded & Real Time Systems | Mind Map | |
| 14 | EC8702 | Adhoc and Wireless Sensor Networks | Team Quiz | |
| 15 | OMF751 | Lean Six Sigma | Poster Presentation | |
| 16 | EC3452 | Electromagnetic Fields | ICT Enabled Learning | |
| 17 | EC3451 | Linear Integrated Circuits | Virtual Lab Demo | |
| 18 | EC3492 | Digital Signal Processing | Mini Projects | |
| 19 | EC3491 | Communication Systems | Mini Projects | |
| 20 | GE3451 | Environmental Science | Mistake–Led Teaching | |
| 21 | EC8691 | Microprocessors and Microcontrollers | Role Play | |
| 22 | EC8652 | Wireless Communication | Group Project | |
| 23 | EC8651 | Transmission Lines and Waveguides | Case Studies | |
| 24 | EC8094 | Satellite Communication | Role Play | |
2017 Regulation Course Materials
| S.No. | Subject Code | Subject Name | Lesson Plan | Question Bank | Lecture Notes | ICT Tools | |
|---|---|---|---|---|---|---|---|
| 1 | EC8452 | Electronic Circuits II | View | View | View | View | |
| 2 | EC8491 | Communication Theory | View | View | View | View | |
| 3 | EC8451 | Electromagnetic Fields | View | View | View | View | |
| 4 | EC8453 | Linear Integrated Circuits | View | View | View | View | |
| 5 | MA8451 | Probability & Random Processes | View | View | View | View | |
| 6 | GE8291 | Environmental Science & Engineering | View | View | View | View | |
| 7 | EC8501 | Digital Communication | View | View | View | View | |
| 8 | EC8553 | Discrete-Time Signal Processing | View | View | View | View | |
| 9 | EC8552 | Computer Architecture and Organization | View | View | View | View | |
| 10 | EC8551 | Communication Networks | View | View | View | View | |
| 11 | EC8073 | Medical Electronics | View | View | View | View | |
| 12 | OR0551 | Renewable Energy Sources | View | View | View | View | |
| 13 | EC8691 | Microprocessors and Microcontrollers | View | View | View | View | |
| 14 | EC8095 | VLSI Design | View | View | View | View | |
| 15 | EC8652 | Wireless Communication | View | View | View | View | |
| 16 | EC8651 | Transmission Lines and RF Systems | View | View | View | View | |
| 17 | EC8002 | Multimedia Compression and Communication | View | View | View | View | |
| 18 | EC8701 | Antennas and Microwave Engineering | View | View | View | View | |
| 19 | EC8751 | Optical Communication | View | View | View | View | |
| 20 | EC8791 | Embedded and Real Time Systems | View | View | View | View | |
| 21 | EC8702 | Ad hoc and Wireless Sensor Networks | View | View | View | View | |
| 22 | OMF751 | Lean Six Sigma | View | View | View | View | |
| 23 | EC8093 | Digital Image Processing | View | View | View | View | |
| 24 | EC8094 | Satellite Communication | View | View | View | View | |
PLACEMENT DETAILS
Placement Details List 2016 to 2022 |
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Research
MOU Details |
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Industrial Projects |
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Publications |
Patent Details |
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FDP Attended Details |
NEWS & EVENTS
List of Events Conducted Details |
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Student Activities
Co Curricular Activities
| Internship Details | |
| Industrial Visits | |
| Professional Society Activities | |
Extra Curricular Activities
| Extra Curricular Activities | |
Members of Alumni Association
Registered Alumni Details |
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Alumni Scholarship |
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Alumni Activity |
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