Pedagogy
Effective and Innovative pedagogy plays an important role in improving the quality of teaching-learning and ensures attainment of learning objectives. The Institute has well-defined policies and internal quality assurance system to achieve quality in teaching-learning process. At the Department level, a well-defined system is in place to design the content and monitor delivery of the same. ICT tools are used extensively to support, enhance, and optimise the teaching and learning experience. Lectures, tutorials and laboratory sessions form the essential components of pedagogy. Emphasis is also on project based learning in the form of minor and major projects, where students work on live problem definitions and research ideas. Industrial visits, a fraction of courses taught by industry experts and internships give students a flavor of the current practices and advancements in the industry.
Assessment
The evaluation process has mainly three components, Continuous Evaluation (CE), Laboratory and Practical Work (LPW), Project Work (PW) and Semester End Examination (SEE). The components may vary depending on the nature of the course. These components effectively lead to the attainment of course outcomes and hence the POs and PSOs.
| Course Code | Course Name |
| 2MA102 | Calculus and Differential Equations |
| 2CY102 | Chemistry2 |
| 2PY103 | Physics1 |
| 2CL103 | Environment Studies1 |
| 2CE104 | Computer Programming1 |
| 2ME103 | Engineering Graphics2 |
| 2EE103 | Elements of Electrical and Electronics Engineering1 |
| 2HS101B/2HS101I* | English Communication2 |
| 2ME104 | Mechanical Workshop2 |
| 2EE104 | Electrical Workshop1 |
Gr-1 A to G Divisions; Gr-2 H to N Divisions
*HS101B & HS101I English Communication would be offered to Vernacular & English medium students respectively
| Course Code | Course Name |
| 2MA202 | Linear Algebra |
| 2CY102 | Chemistry1 |
| 2PY103 | Physics2 |
| 2CL103 | Environment Studies2 |
| 2CE104 | Computer Programming2 |
| 2ME103 | Engineering Graphics1 |
| 2EE103 | Elements of Electrical and Electronics Engineering2 |
| 2HS101B/2HS101I* | English Communication1 |
| 2EE105 | Introduction to Electrical Engineering |
| 2ME104 | Mechanical Workshop1 |
| 2EE104 | Electrical Workshop2 |
| Course Code | Course Name |
| 2EE301 | Network Analysis and Synthesis |
| 2EE302 | Signals and Systems |
| 2EE303 | Electromagnetic Field Theory |
| 2EE304 | Analog and Digital Electronics |
| 2EE305 | Analog and Digital Electronics Laboratory |
| 2MA303 | Applied Mathematics for Electrical Engineering |
| Course Code | Course Name |
| 2EE401 | Control Systems Engineering |
| 2EE402 | Electrical Measurements and Transducers |
| 2EE403 | Fundamentals of Power System |
| 2EE404 | Transformers and DC Machines |
| 2EE405 | Power Electronic Converters and Applications |
| 2EE406 | Power Electronics Laboratory |
| Course Code | Course Name |
| 2EE501 | Rotating AC Machines |
| 2EE502 | Electrical Power System Analysis |
| 2EE503 | Microprocessor and Microcontrollers |
| 2EEDE01 | Electrical Power Supply Design |
| 2EEDE02 | Modern Control Theory |
| 2EEDE03 | Utilization of Electric Power |
| 2EEDE51 | DC Drives |
| 2EEDE52 | High Voltage Engineering |
| 2EEDE53 | Data Structures and Algorithms |
2EEDE57Power Electronics in Renewable Energy Conversion
| Course Code | Course Name |
| 2EE601 | Power System Protection and Switchgear |
| 2EE602 | Electric Drives |
| 2EE603 | Electronic System Design Laboratory |
| 2EEDE04 | Modelling of Electrical Machines |
| 2EEDE05 | Distributed Generation and Microgrid |
| 2EEDE06 | Analog and Digital Communications |
| 2EEDE07 | Smart Grid |
| 2EEDE08 | Electrical Distribution and Automation |
| 2EEDE09 | Multi – Level Inverters |
| 2EEDE54 | Special Electrical Machines |
| 2EEDE55 | Advanced Controllers in Power Electronic Systems |
| 2EEDE56 | Testing and Commissioning of Electrical Equipment |
| 2EEDE57 | Power Electronics in Renewable Energy Conversion |
| 2EEDE58 | Advanced Microcontrollers |
| Course Code | Course Name |
| EE701 | Electrical Machine Design |
| EE702 | Digital Signal Processors for Electrical Engineering |
| EE703 | Power System Protection and Switchgear |
| EE704 | Minor Project |
| EE713 | Applications of Power Electronics in Power System |
| EE723 | Design of Permanent Magnet Brushless and Reluctance Motors |
| EE733 | Computer Techniques in Power System |
| EE714 | Electromagnetic Interference and Electromagnetic Compatibility |
| EE724 | Control of Electric Drives |
| EE734 | Advanced Electrical Power System |
| EE744 | Electric Vehicles |
| SS701 | Organizational Behavior |
| Course Code | Course Name |
| EE801 | Major Project (Full-Time) |
| Course Code | Course Name |
| 3EE2109 | Power System Dynamics |
| 3EE2110 | Power System Analysis |
| 3EE2111 | Power Electronics in Power System |
| 3EE2112 | Renewable Energy Technology |
| 3EE2113 | Protective Relaying and Switchgear |
| Course Code | Course Name |
| 3EE22D101 | Power System Transients |
| 3EE22D102 | Advances in High Voltage Engineering |
| 3EE22D103 | Applications of AI and Optimization in Power Systems |
| 3EE22D201 | Electrical Distribution Systems |
| 3EE22D202 | Restructured Power Systems |
| 3EE22D203 | Distributed Power Generation |
| 3EE22D204 | Advanced Electrical Machine |
| 3EE22D301 | Substation-Engineering |
| 3EE22D302 | Smart Grid Technologies |
| 3EE22D303 | EHV-AC Transmission and FACTS |
| 3EE2210 | Power System Stability and Control |
| 3EE2211 | Minor Project |
| 3SS1201 | Research Methodology |
| Course Code | Course Name |
| 3EE2302 | Major Project Part – I |
| Course Code | Course Name |
| 3EE2402 | Major Project Part – II |
