M.Tech in Power System Engineering
Programme Educational Objectives (PEOs):
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Design and develop innovative products and services in the field of electrical engineering and allied engineering disciplines
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Apply the knowledge of electrical engineering to solve problems of social relevance, pursue higher education and research
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Work effectively as individuals and as team members in multidisciplinary projects
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Engage in lifelong learning, career enhancement and adopt to changing professional and societal needs
Programme Outcomes (POs):
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Analyze the complex engineering problems by using the first principles of Mathematics and Engineering fundamentals.
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Specify, design and analyze systems that efficiently generate, transmit and distribute electrical power
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Analyze and design modern power electronic circuits
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Understand the principles and construction of electrical machine and determine their performance through testing
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Specify, design and implement analog and digital signal processing systems using the state of the art components and software tools.
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Design controllers for electrical and electronic systems to improve their performance
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Understand how the organizations work, generate wealth, and manage their finances.
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Work in a team using common tools and environments to achieve project objectives and communicate ideas.
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Understand and practice professional ethics in functioning.
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Pursue life-long learning as a means of enhancing the knowledge and skills necessary to contribute to the betterment of their profession and community.
- Course Structure And Syllabus
Department: Electrical Engineering
Programme: M.Tech in Power system & Engineering
Year I Semester I
| Course Code | Course Title | L T P C |
|---|---|---|
| EE-7101 | Power Transmission System | 3 1 0 4 |
| EE-7102 | Reliability Engineering | 3 1 0 4 |
| EE-7103 | Power System Modelling & Control | 3 1 2 5 |
| EE-7104 | Advanced Microprocessor & Applications | 3 1 2 5 |
| EE-70** | Elective-I | 0 2 4 |
| Total 22 |
Semester: I
| Course Code | Course Title | L T P C |
|---|---|---|
| EE-7201 | Switchgear & Protection | 3 1 0 4 |
| EE-7202 | Power System Instrumentation | 3 0 4 5 |
| EE-7203 | Economic Operation of Power System | 4 1 0 4 |
| EE-70** | Elective-II | 3 1 2 5 |
| EE-8090 | Minor Project/Seminar | 0 0 16 8 |
| Total 26 |
Year II
| Course Code | Course Title | L T P C |
|---|---|---|
| EE-8199 | Pre-Submission and Defence of Dissertation (Dissertation to continue) | 0 0 4 2 |
| EE-8299 | Dissertation (to be completed) Post submission and Defence of Dissertation | 0 0 28 14 |
| Total 16 |
List of Electives I and II
| Course Code | Course Title | L T P C |
|---|---|---|
| EE-7001 | Non-Conventional Electrical Energy Systems | 3 0 2 4 |
| EE-7003 | Instrumentation and Control | 3 0 2 4 |
| EE-7004 | Soft Computing Techniques in Power System | 3 0 2 4 |
| EE-7009 | Optimal Control Systems | 3 0 0 3 |
| EE-7010 | Renewable Power Generation Technologies | 3 0 0 3 |
| EE-7011 | Modelling and Analysis of Electrical Machines | 3 0 0 3 |
| EE-7012 | Power Quality | 3 0 0 3 |
| EE-7005 | High Voltage and Insulation Engineering | 3 1 2 5 |
| EE-7006 | Power System Reliability | 3 1 2 5 |
| EE-7007 | Artificial Intelligence Application in Power System | 3 1 2 5 |
| EE-7008 | HVDC & AC Transmission | 3 1 2 5 |
| EE-7013 | Condition Monitoring of High Voltage Equipment | 3 0 0 3 |
| EE-7014 | High Voltage Equipment | 3 0 0 3 |
| EE-7015 | Power System Protection | 3 0 0 3 |
| EE-7016 | Power Electronic Drives | 3 0 0 3 |
| EE-7017 | System Theory | 3 0 0 3 |