DEPARTMENT OF ELECTRONICS ENGINEERING
The Department of Electronics Engineering was established in 2013 and operates under the academic guidelines of the State Board of Technical Education (SBTE), Kerala, offering a curriculum designed to meet industry standards.
The department will strive to achieve excellence in education so as to enable students to establish themselves as world-class technicians and practicing engineer. The department has vibrant infrastructure and with advanced labs in the field of microcontroller, embedded system and communication systems etc. to empower them with the proficiency and knowledge required to excel in the dynamic field of Electronics and Technology to pursue higher education. It also imparts technical knowledge and skills to students towards continuous improvement in education and placement and prepare the students to meet the challenges in the technical advancement to serve the community.
VISION
To be a centre of technological excellence in the field of Electronics to enable students for higher education, employment and entrepreneurship.
MISSION
To impart professional education to students from all sectors of the society to mould them to be competent, committed, research oriented and socially responsible citizens capable of deploying technology for the goodwill of society.
Faculty Profile
Mr.T.S.Sarath Sankar
Head of The Department
Ms.U.Lolitha
Lecturer
Mr.K.Jishnu
Lecturer
Mr.O.P.Sunoj
Demonstrator
| Program Educational Objectives (PEOs) | |||||
| PEO1 | To acquire a strong background in basic science &mathematics & develop abilities to use these tools in electronics engineering. | ||||
| PEO2 | To develop the ability to apply technical competence in the fields of electronics engineering. | ||||
| PEO3 | To attain professional excellence through lifelong learning | ||||
| PEO4 | To attain the professional qualities useful in industry. | ||||
| PEO5 | To produce graduates possessing ethical & moral behaviour. | ||||
| Program Specific Outcomes (PSOs) | |||||
| PSO1 | State the fundamentals of the electronic material, components & devices. | ||||
| PSO2 | Develop the ability to organize test set up & operate the equipment. | ||||
| PSO3 | Develop the ability to organize test set up & operate the equipment. | ||||
| PSO4 | Design & simulate electronic circuits & systems for solving real time problems & applications. | ||||
| Program Outcomes (POs) | |||||
| 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 sustainability: 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 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. | ||||
CURRICULUM - REVISION 2021
| SEMESTER 1 | ||
| SL. No. | Course Code | Course Name |
| 1 | 1001 | Communication Skills in English |
| 2 | 1002 | Mathematics I |
| 3 | 1003 | Applied Physics I |
| 4 | 1004 | Applied Chemistry |
| 5 | 1005 | Engineering Graphics |
| 6 | 2006 | Applied Physics Lab |
| 7 | 1007 | Applied Chemistry Lab |
| 8 | 1008 | Introduction to IT systems Lab |
| 9 | 2009 | Engineering Workshop Practice |
| 10 | 1009 | Sports and Yoga |
| SEMESTER 2 | ||
| SL. No. | Course Code | Course Name |
| 1 | 2002 | Mathematics II |
| 2 | 2003 | Applied Physics II |
| 3 | 2001 | Environmental Science |
| 4 | 2031 | Fundamentals of Electrical & Electronics Engineering |
| 5 | 2041 | Basic Electronics |
| 6 | 2008 | Communication Skills in English Lab |
| 7 | 2006 | Applied Physics Lab, |
| 8 | 2039 | Fundamentals of Eletrical & Electronics Engineering Lab |
| 9 | 2038 | Engineering Graphics Using CAD Software |
| 10 | 2049 | Electronics Thinkering Workshop |
| 11 | 3009 | Internship I |
| SEMESTER 3 | ||
| SL. No. | Course Code | Course Name |
| 1 | 3041 | Electric Circuits & Networks |
| 2 | 3042 | Principles of Electronic Communication |
| 3 | 3043 | Electronic Circuits |
| 4 | 3044 | Digital Electronics |
| 5 | 3045 | Fundamentals of C Programming |
| 6 | 3046 | Principles of Electronic Communication Lab |
| 7 | 3047 | Electronic Circuits Lab |
| 8 | 3048 | Digital Electronics Lab |
| 9 | 3049 | Fundamentals of C Programming Lab |
| SEMESTER 4 | ||
| SL. No. | Course Code | Course Name |
| 1 | 4041 | Microcontroller and Applications |
| 2 | 4042 | Electronic Measurements and Instrumentation |
| 3 | 4043 | Linear Integrated Circuits |
| 4 | 4001 | Community Skills in Indian knowledge system |
| 5 | 4046 | Microcontroller and Applications Lab |
| 6 | 4047 | Linear Integrated Circuits Lab |
| 7 | 4048 | PCB and Prototying Workshop |
| 8 | 4049 | Python Programming Lab |
| 9 | 4009 | Minor Project |
| SEMESTER 5 | ||
| SL. No. | Course Code | Course Name |
| 1 | 5001 | Industrial Management and Safety |
| 2 | 5041 | Embedded System |
| 3 | 5042 | Industrial Automation |
| 4 | 5043A | Optical Communication and Networking |
| 5 | 5043B | Microwave Devices and Radar |
| 6 | 5043C | Advanced /microprocessor |
| 7 | 5043D | Digital Communication |
| 8 | 5043E | Telecommunication Networks |
| 9 | 5047 | Embedded System Lab |
| 10 | 5048 | Industrial Automation Lab |
| 11 | 5049A | Microwave Engineering Lab |
| 12 | 5049B | Digital Communication Lab |
| 13 | 5049C | Telecommunication Networks Lab |
| 14 | 5008 | Seminar |
| 15 | 6009 | Major Project |
| SEMESTER 6 | ||
| SL.No | Course Code | Course Name |
| 1 | 6001 | Entrepreneurhip and Startup |
| 2 | 6041A | Medical Electronics |
| 3 | 6041B | Verilog HDL & Programmable Logic Devices |
| 4 | 6041C | Consumer Electronics |
| 5 | 6042A | Concepts of IoT |
| 6 | 6042B | Contemporary Electronis |
| 7 | 6042C | Introduction to Hybrid and Electric Vehicles |
| 8 | 6042D | Introduction to Multimedia |
| 9 | 6002 | Indian Constitution |
| 10 | 6047 | Simulation Lab with Numerical software |
| 11 | 6048 | Computer Hardware and data communication Lab |
| 12 | 6049A | Medical Electronics Lab |
| 13 | 6049B | Verilog HDL & PLD Lab |
| 14 | 6009 | Major Projects |