Curriculum Framework Electronics Engineering
ELECTRONICS ENGINEERING CURRICULUM FRAMEWORK
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS101 | Mathematics – I | 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 | Engineering Tools & Techniques / Design Thinking | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS104 | Mathematics – II | 5 |
2. | AS103 / AS102 | Chemistry / Physics | 4 |
3. | CV101 / EX101 | Applied Mechanics / Electrical & Electronics Engg. | 4 |
4. | IT101 / ME101 | Computer Programming / Engineering Graphics | 4 |
5. | HP101 | 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. | EX202 | pplied Digital Circuits | 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. | EX211 | Analog and Digital Communication | 4 |
5. | EX212 | Circuit Theory | 4 |
6. | EX213 | Minor Project | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX301 | Embedded System Design | 4 |
2. | ET301 | Control Systems | 4 |
3. | EX303 | Computer Network | 4 |
4. | ET311 | Embedded System Programming | 4 |
ET312 | IoT Architecture and Sensors | ||
EX311 | Fundamentals of Robotics | ||
5. | HP301 | Project Management | 2 |
6. | HP303 | Basics of Entrepreneurship | 1 |
7. | ET304 | Graphical Programming Lab | 2 |
ET305 | MATLAB | ||
EX304 | Embedded Linux |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX321 | Real Time Operating System | 4 |
2. | EX322 | Digital Signal Processing | 4 |
3. | EX323 | Power Electronics & Application | 4 |
4. | ET331 | Embedded Processor | 4 |
ET332 | IoT Network & Protocols | ||
EX331 | Kinematics and Dynamics | ||
5. | HP302 | Professional Skills | 2 |
6. | EX324 | Mini Project | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET401 | VLSI Design | 4 |
2. | ET411 | Digital Image Processing | 3 |
ET412 | Microwave Engineering | ||
ET413 | RISC Processors | ||
ET414 | Machine Learning | ||
3. | ET421 | Low-Power SoC Architecture & Applications | 4 |
ET422 | Privacy and Security in IoT | ||
EX421 | Robotics Vision | ||
4. | HP401 | Engineering Economics | 2 |
5. | HP403 / ET403 | Business Strategies/ Programming in Java | 1 |
6. | EX402 | Project – I | 4 |
7. | EX404 | Summer Internship | 4 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX431 | Consumer Electronics | 4 |
2. | EX441 | Biomedical Engineering | 3 |
ET442 | Artificial Intelligence | ||
ET443 | Wireless Sensor Network | ||
ET444 | Speech Signal Processing | ||
3. | ET451 | Real-Time Embedded System | 4 |
ET452 | Energy Management for IoT Devices | ||
EX451 | Intelligent and High Performance Robotics | ||
4. | HP402 | Sociology | 2 |
5. | EX432 | Project – II | 4 |
SEMESTER: VIII (With Semester Long Internship)
SR. NO | COURSE CODE | COURSE NAME | CREDIT | |
1. | EX431 | Consumer Electronics | 4 | |
2. | ET445 | Embedded System Design with ARM | 3 | |
ET446 | Programming, Data structures and Algorithms using Python | |||
3. | ET451 | Real-Time Embedded System | 4 | |
ET452 | Energy Management for IoT Devices | |||
EX451 | Intelligent and High Performance Robotics | |||
4. | ET433 | SEMESTER LONG INTERNSHIP – Project Design | 3 | |
5. | ET434 | SEMESTER LONG INTERNSHIP – Project Implementation | 3 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS101 | Mathematics – I | 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 | Engineering Tools & Techniques / Design Thinking | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS104 | Mathematics – II | 5 |
2. | AS103 / AS102 | Chemistry / Physics | 4 |
3. | CV101 / EX101 | Applied Mechanics / Electrical & Electronics Engg. | 4 |
4. | IT101 / ME101 | Computer Programming / Engineering Graphics | 4 |
5. | HP102 | Language & Communication – II | 2 |
6. | ME103 / ME102 | Design Thinking/ Experimental 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. | EX202 | Applied Digital Circuits | 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. | EX211 | Analog and Digital Communication | 4 |
5. | EX212 | Circuit Theory | 4 |
6. | EX213 | Minor Project | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX301 | Embedded System Design | 4 |
2. | ET301 | Control Systems | 4 |
3. | EX303 | Computer Network | 4 |
4. | ET311 | Embedded System Programming | 4 |
ET312 | IoT Architecture and Sensors | ||
EX311 | Fundamentals of Robotics | ||
5. | HP301 | Project Management | 2 |
6. | HP303 | Basics of Entrepreneurship | 1 |
7. | ET304 | Graphical Programming Lab | 2 |
ET305 | MATLAB | ||
EX304 | Embedded Linux |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX321 | Real Time Operating System | 4 |
2. | EX322 | Digital Signal Processing | 4 |
3. | EX323 | Power Electronics & Application | 4 |
4. | ET331 | Embedded Processor | 4 |
ET332 | IoT Network & Protocols | ||
EX331 | Kinematics and Dynamics | ||
5. | HP302 | Professional Skills | 2 |
6. | ET324 | Mini Project | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET401 | VLSI Design | 4 |
2. | ET411 | Digital Image Processing | 3 |
ET412 | Microwave Engineering | ||
ET413 | RISC Processors | ||
ET414 | Machine Learning | ||
3. | ET421 | Low-Power SoC Architecture & Applications | 4 |
ET422 | Privacy and Security in IoT | ||
EX421 | Robotics Vision | ||
4. | HP401 | Engineering Economics | 2 |
5. | HP403 / ET403 | Business Strategies/ Programming in Java | 1 |
6. | EX402 | Project – I | 4 |
7. | EX404 | Summer Internship | 4 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX431 | Consumer Electronics | 4 |
2. | EX441 | Biomedical Engineering | 3 |
ET442 | Artificial Intelligence | ||
ET443 | Wireless Sensor Network | ||
ET444 | Speech Signal Processing | ||
3. | ET451 | Real-Time Embedded System | 4 |
ET452 | Energy Management for IoT Devices | ||
EX451 | Intelligent and High Performance Robotics | ||
4. | HP402 | Sociology | 2 |
5. | EX432 | Project – II | 4 |
SEMESTER VIII (With Semester long internship)
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX431 | Consumer Electronics | 4 |
2. | ET445 | Embedded System Design with ARM | 3 |
ET446 | Programming, Data structures and Algorithms using Python | ||
3. | ET451 | Real-Time Embedded System | 4 |
ET452 | Energy Management for IoT Devices | ||
EX451 | Intelligent and High Performance Robotics | ||
4. | ET433 | SEMESTER LONG INTERNSHIP – Project Design | 3 |
5. | ET434 | SEMESTER LONG INTERNSHIP – Project Implementation | 3 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS101 | Mathematics – I | 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 | Engineering Tools & Techniques / Design Thinking | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS104 | Mathematics – II | 5 |
2. | AS103 / AS102 | Chemistry / Physics | 4 |
3. | CV101 / EX101 | Applied Mechanics / Electrical& Electronics Engg. | 4 |
4. | IT101 / ME101 / | Computer Programming / Engineering Graphics | 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. | EX202 | Applied Digital Circuits | 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 | 3 |
5. | ET212 | Network Analysis Techniques | 4 |
6. | ET214 | Data Structures and Algorithms | 1 |
7. | ET213 | Minor Project | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX301 | Embedded System Design | 4 |
2. | ET301 | Control Systems | 4 |
3. | EX303 | Computer Network | 4 |
4. | ET311 | Embedded System Programming | 4 |
ET312 | IoT Architecture and Sensors | ||
EX311 | Fundamentals of Robotics | ||
5. | HP301 | Project Management | 2 |
6. | HP303 | Basics of Entrepreneurship | 1 |
7. | ET304 | Graphical Programming Lab | 2 |
ET305 | MATLAB | ||
EX304 | Embedded Linux |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX321 | Real Time Operating System | 4 |
2. | EX322 | Digital Signal Processing | 4 |
3. | EX323 | Power Electronics & Application | 4 |
4. | ET331 | Embedded Processor | 4 |
ET332 | IoT Network & Protocols | ||
EX331 | Kinematics and Dynamics | ||
5. | HP302 | Professional Skills | 2 |
6. | EX324 | Mini Project | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET401 | VLSI Design | 4 |
2. | ET411 | Digital Image Processing | 3 |
ET412 | Microwave Engineering | ||
ET413 | RISC Processors | ||
ET414 | Machine Learning | ||
3. | ET421 | Low-Power SoC Architecture & Applications | 4 |
ET422 | Privacy and Security in IoT | ||
EX421 | Robotics Vision | ||
4. | HP401 | Engineering Economics | 2 |
5. | HP403 / ET403 | Business Strategies/ Programming in Java | 1 |
6. | EX402 | Project – I | 4 |
7. | EX404 | Summer Internship | 4 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX431 | Consumer Electronics | 4 |
2. | EX441 | Biomedical Engineering | 3 |
ET442 | Artificial Intelligence | ||
ET443 | Wireless Sensor Network | ||
ET444 | Speech Signal Processing | ||
3. | ET451 | Real-Time Embedded System | 4 |
ET452 | Energy Management for IoT Devices | ||
EX451 | Intelligent and High Performance Robotics | ||
4. | HP402 | Sociology | 2 |
5. | ET432 | Project – II | 4 |
SEMESTER VIII (With Semester long internship)
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX431 | Consumer Electronics | 4 |
2. | ET445 | Embedded System Design with ARM | 3 |
ET446 | Programming, Data structures and Algorithms using Python | ||
3. | ET451 | Real-Time Embedded System | 4 |
ET452 | Energy Management for IoT Devices | ||
EX451 | Intelligent and High Performance Robotics | ||
4. | ET433 | SEMESTER LONG INTERNSHIP – Project Design | 3 |
5. | ET434 | SEMESTER LONG INTERNSHIP – Project Implementation | 3 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS105 | Calculus and Differential Equations | 4 |
2. | AS106 | Engineering Physics | 4 |
3. | EX102 | Electrical and Electronics Engineering | 4 |
4. | ME104 | Engineering Graphics | 4 |
5. | CS101 | Logic Development-C Programming | 3 |
6. | ME105 | Experimental Tools and Techniques | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS107 | Statistics and Integral Calculus | 4 |
2. | CH101 | Science of Nature | 4 |
3. | CV102 | Applied Mechanics | 4 |
4. | HP103/4/5 | English for Engineers /(German/Japanese) | 2 |
5. | CS102 | Applications Programming -Python | 3 |
6. | ME106 | Design Thinking | 2 |
7. | HP106 | Indian Constitution | Audit |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS204 | Applied Mathematics | 4 |
2. | ET221 | Electronic Devices and Circuits | 4 |
3. | ET222 | Digital Systems and Applications | 4 |
4. | ET223 | Signals & Systems | 4 |
5. | ET224 | Digital Prototyping | 3 |
6. | ET230 | Minor Project Design | 1 |
6. | ET226 | Skill Development Course Data Structures & Algorithms | 2 |
7. | CV203 | Environmental Sciences | Audit |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | IT221 | Engineering Informatics | 4 |
2. | ET231 | Electromagnetic Theory and Applications | 3 |
3. | ET232 | Network Analysis Techniques | 4 |
4. | ET233 | Microcontroller & Interfacing | 4 |
5. | EX232 | Circuit Simulation Tools and Techniques | 1 |
6. | ET235 | Rapid Prototyping | 2 |
7. | ET236 | Minor Project Implementation | 1 |
8. | HP202 | Professional Communication | 2 |
9. | HP203 | Liberal Learning | Audit |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET341 | Control System | 4 |
2. | EX341 | Computer N / W | 3 |
3. | ET342 | Digital Signal Processing | 4 |
4. | ET35# / EX35# | Open Elective | 4 |
5. | HP304 | Project Management | 2 |
6. | ET343 | Skill Development Course OOP JAVA / C++ | 1 |
7. | ET344 | Mini Project Design | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET361 | VLSI Design | 4 |
2. | EX362 | Power Electronics & Application | 4 |
3. | EX361 | Electronic Communication Systems | 3 |
4. | ET37# / EX37# | Open Elective | 4 |
5. | ET364 | Skill Development Course 3 Networking ( CCNA ) | 2 |
6. | ET365 | Mini Project Implementation | 2 |
7. | HP305 | Professional Skills | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX461 | MEMS | 4 |
2. | ET462 | Machine Learning | 4 |
3. | ET47# / EX47# | Open Elective | 4 |
4. | ET463 | Skill Development Course 2 Embedded Linux | 2 |
5. | HP405 / HP406 | Engineering Economics / Psychology | 2 |
6. | ET464 | Major Project Design | 2 |
7. | ET465 | Summer Internship | 4 |
SEMESTER VIII (Part A)
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET48# / EX48# | Discipline Elective | 3 |
2. | ET49# / EX49# | Discipline Elective | 3 |
3. | HP406 / HP405 | Psychology / Engineering Economics | 2 |
4. | ET466 | Major Project Implementation | 6 |
SEMESTER VIII (Part B SEMESTER LONG INTERNSHIP)
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET48# / EX48# | Discipline Elective | 3 |
2. | ET49# / EX49# | Discipline Elective | 3 |
3. | ET467 | Semester Long Internship Design | 4 |
4. | ET468 | Semester Long Internship Implementation | 4 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS105 | Calculus and Differential Equations | 4 |
2. | AS106 | Engineering Physics | 4 |
3. | EX102 | Electrical and Electronics Engineering | 4 |
4. | ME104 | Engineering Graphics | 4 |
5. | CS101 | Logic Development-C Programming | 3 |
6. | ME105 | Experimental Tools and Techniques | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS107 | Statistics and Integral Calculus | 4 |
2. | CH101 | Science of Nature | 4 |
3. | CV102 | Applied Mechanics | 4 |
4. | HP103/4/5 | English for Engineers /(German/Japanese) | 2 |
5. | CS102 | Applications Programming -Python | 3 |
6. | ME106 | Design Thinking | 2 |
7. | HP106 | Indian Constitution | Audit |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | AS204 | Applied Mathematics | 4 |
2. | ET221 | Electronic Devices and Circuits | 3 |
3. | ET222 | Digital Systems and Applications | 4 |
4. | ET223 | Signals & Systems | 4 |
5. | ET224 | Digital Prototyping | 2 |
6. | ET230 | Minor Project Design | 1 |
7. | ET226 | Skill Development Course Data Structures & Algorithms | 2 |
8. | CV203 | Environmental Sciences | Audit |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | IT221 | Engineering Informatics | 4 |
2. | ET231 | Electromagnetic Theory and Applications | 3 |
3. | ET232 | Network Analysis Techniques | 4 |
4. | ET233 | Microcontroller & Appl. | 4 |
5. | EX232 | Advanced Simulation Tools | 1 |
6. | ET235 | Rapid Prototyping | 2 |
7. | ET236 | Minor Project Implementation | 1 |
8. | HP202 | Professional Communication | 2 |
9. | HP203 | Liberal Learning | Audit |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET341 | Control System | 4 |
2. | EX341 | Computer N / W | 3 |
3. | ET342 | Digital Signal Processing | 4 |
4. | ET351 | Embedded System Programming (ESP ) | 4 |
ET352 | IoT Architecture & Sensors | ||
EX351 | Fundamentals of Robotics | ||
5. | HP304 | Project Management | 2 |
6. | ET343 | Skill Development Course OOP JAVA / C++ | 2 |
7. | ET344 | Mini Project Design | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET361 | VLSI Design | 4 |
2. | EX362 | Power Electronics & Application | 4 |
3. | EX361 | Electronic Communication Systems | 3 |
4. | ET371 | Embedded Processors | 4 |
ET372 | IoT Network & Protocols | ||
EX371 | Robot Dynamics & Control | ||
5. | ET364 | Skill Development Course 3 Networking ( CCNA ) | 2 |
6. | ET365 | Mini Project Implementation | 2 |
7. | HP305 | Professional Skills | 2 |
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | EX461 | MEMS | 4 |
2. | ET462 | Machine Learning | 4 |
3. | ET471 | RTOS | 4 |
ET472 | Data Management & Analytics | ||
EX471 | Robotics Vision | ||
4. | ET463 | Skill Development Course 2 Embedded Linux | 2 |
5. | HP405 / HP406 | Engineering Economics / Psychology | 2 |
6. | ET464 | Major Project Design | 2 |
7. | ET465 | Summer Internship | 4 |
SEMESTER VIII (Part A)
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET481 | Digital Image Processing | 3 |
ET482 | Microwave Engineering | ||
ET483 | RISC Processors | ||
ET484 | Deep Learning | ||
ET485 | Fiber optic communications | ||
ET486 | Statistical Signal Processing | ||
ET487 | EMI/EMC | ||
2. | EX491 | Biomedical Engineering | 3 |
ET491 | Natural Language Processing | ||
ET492 | Internet of Things | ||
ET493 | Electric Vehicle | ||
EX492 | Speech Signal Processing | ||
ET494 | System Programming & Operating System | ||
ET495 | SKADA Systems | ||
EX493 | Industrial Networks | ||
3. | HP406 / HP405 | Psychology / Engineering Economics | 2 |
4. | ET466 | Major Project Implementation | 6 |
SEMESTER VIII (Part B SEMESTER LONG INTERNSHIP)
SR. NO | COURSE CODE | COURSE NAME | CREDIT |
1. | ET481 | Digital Image Processing | 3 |
ET482 | Microwave Engineering | ||
ET483 | RISC Processors | ||
ET484 | Deep Learning | ||
ET485 | Fiber optic communications | ||
ET486 | Statistical Signal Processing | ||
ET487 | EMI/EMC | ||
2. | EX491 | Biomedical Engineering | 3 |
ET491 | Natural Language Processing | ||
ET492 | Internet of Things | ||
ET493 | Electric Vehicle | ||
EX492 | Speech Signal Processing | ||
ET494 | System Programming & Operating System | ||
ET495 | SKADA Systems | ||
EX493 | Industrial Networks | ||
3. | ET467 | Semester Long Internship Design | 4 |
4. | ET468 | Semester Long Internship Implementation | 4 |
PROGRAMME OUTCOMES
SR.NO. | PROGRAMME OUTCOMES (POS) |
PO 1 | Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization to the solution of complex engineering problems. |
PO 2 | 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. |
PO 3 | 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. |
PO 4 | 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. |
PO 5 | 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. |
PO 6 | 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. |
PO 7 | 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. |
PO 8 | Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice. |
PO 9 | Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings. |
PO 10 | 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. |
PO 11 | 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. |
PO 12 | 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. |
PROGRAM SPECIFIC OUTCOMES
SR.NO. | PROGRAM SPECIFIC OUTCOMES (PSO) |
PSO 1 | Design building blocks of real time applications and automation by using modern engineering tools and multidisciplinary concepts. |
PSO 2 | Build confidence to participate and succeed in competitive examinations and technical competitions. |
PSO 3 | Broaden the knowledge in various administrative skill sets, exposure to entrepreneurial setup and society outreach program as a whole |
PROGRAMME EDUCATIONAL OBJECTIVES (PEOs)
SR.NO. | PROGRAMME EDUCATIONAL OBJECTIVES (PEOs) |
PEO 1 | Fundamental Competency : The graduate students from the Electronics Engineering program will have a comprehensive knowledge of electronic devices & circuits, mathematical analysis of signals and other basic engineering sciences and also develop an ability to apply this knowledge for problem solving. |
PEO 2 | Core Competency : The graduating students will be able to design and implement the electronics system, and control the industrial process parameters taking into consideration the specifications and required operating environmental conditions. |
PEO 3 | Multi Disciplinary Competency : The graduating students will be capable of understanding and implementing the building blocks of real time applications using integrated development environment and modern engineering tools for automation in the field of Electronics Engineering. The graduating students will take up higher studies in electronics and allied areas in engineering & management. |
PEO 4 | Design & Development : The graduating students will use their skills in ethical and professional manner to contribute to design & develop products and applications. |