Curriculum Framework E&TC Engineering
ELECTRONICS & TELECOMMUNICATION ENGINEERING
CURRICULUM FRAMEWORK
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS101 | Mathematics – 1 | 5 |
2. | AS102 / AS103 | Physics / Chemistry | 4 |
3. | EX101 / CV101 | Electrical & Electronics Engg. / Applied Mechanics | 4 |
4. | ME101/ IT101 | Engineering Graphics / Computer Programming | 4 |
5. | HP101 | Language & Communication – I | 2 |
6. | ME102 / ME103 | Experimental Tools & Techniques / Design Thinking | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS104 | Mathematics – 2 | 5 |
2. | AS103 / AS102 | Chemistry / Physics | 4 |
3. | CV101 / EX101 | Applied Mechanics / Electrical& Electronics Engg. | 4 |
4. | ME101/ IT101 | Engineering Graphics / Computer Programming | 4 |
5. | HP102 | Language & Communication – II | 2 |
6. | ME103 / ME102 | Design Thinking / Engineering Tools & Techniques | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | CH201 | Environmental Science | 3 |
2. | AS202 | Applied Mathematics | 4 |
3. | ET201 | System Engineering | 4 |
4. | ET202 | Analog Electronics | 4 |
5. | ET203 | Digital Systems and Applications | 4 |
6. | ET206 | Prototyping | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | HP201 | Psychology | 3 |
2. | IT201 | Engineering Informatics | 4 |
3. | ME201 | Material Engineering | 4 |
4. | ET211 | Signals and Systems | 4 |
5. | ET212 | Network Analysis Techniques | 4 |
6. | ET213 | Minor Project | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET301 | Control Systems | 4 |
2. | ET302 | Analog Communication | 4 |
3. | ET303 | Microcontroller & Application | 4 |
4. | ET31# | Open Elective - Refer Annexure | 4 |
5. | HP301 | Project Management | 2 |
6. | HP303 | Basics of Entrepreneurship | 1 |
7. | ET30# | Skill Development Lab - Refer Annexure | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET321 | Digital Communication | 4 |
2. | ET322 | Digital Signal Processing | 4 |
3. | ET323 | Antenna Theory & Design | 4 |
4. | ET33# | Open Elective - Refer Annexure | 4 |
5. | HP302 | Professional Skills | 2 |
6. | ET324 | Mini Project | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET401 | VLSI Design | 4 |
2. | ET41# | Department Elective - Refer Annexure | 3 |
3. | ET42# | Open Elective - Refer Annexure | 4 |
4. | HP401 | Engineering Economics | 2 |
5. | HP403 / ET403 | Business Strategies/ Programming in Java | 1 |
6. | ET402 | Project – I | 4 |
7. | ET404 | Summer Internship | 4 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET431 | Advanced Communication Systems | 4 |
2. | ET44# | Department Elective - Refer Annexure | 3 |
3. | ET45# | Open Elective - Refer Annexure | 4 |
4. | HP402 | Sociology | 2 |
5. | ET432 | Project – II | 4 |
PROGRAMME EDUCATIONAL OBJECTIVES (PEOS)
SR.NO. | PROGRAMME EDUCATIONAL OBJECTIVES |
PEO 1 | CORE COMPETENCE : Through exposure to multi-faceted learning environment; the graduates will achieve a high level of technical competence, so that they are able to succeed at different positions, in whatever field they decide to pursue, be it an Engineering Practice or Research. |
PEO 2 | MULTIDISCIPLINARY SKILLS : With the diverse skills acquired during the under-graduate program; the graduates will be able to address the complexities of real world engineering problems and will be able to formulate solutions and designs that are technically sound, economically viable, practically feasible and environmentally sustainable. |
PEO 3 | LEADERSHIP QUALITIES : After being exposed to diverse repository; the graduates will pursue lifelong learning, such as graduate work or other professional education, and excel as a leader in professional and personal life. Electronics Engineering |
PROGRAM SPECIFIC OUTCOMES
SR.NO. | PROGRAM SPECIFIC OUTCOMES (PSO) |
PSO 1 | Analyze and simulate diverse problems in the field of communication. |
PSO 2 | Design and analyze a system with applications in signal and image processing. |
PSO 3 | Build, test and evaluate an embedded system with real time constraints. |
PSO 4 | Design and implement a system towards automatic control in varied engineering problems. |