- Programme Description
- Programme Structure
- Programme Enquiry
Programme Educational Objectives (PEOs)
PEO1: Ability to identify, analyze, design and solve complex and emerging problems of Power Electronics and Drives.
PEO2: Attain intellectual leadership skills to cater to the changing needs of power electronic industry, academia, society and environment.
PEO3: Engage in life-long learning through independent study, projects, research and to work in multidisciplinary teams.
Programme Specific Outcomes (PSOs)
PSO1: Apply technical knowledge, skills and analytical ability to design, develop and test power electronic converters and drives using modern tools and technologies.
PSO2: Solve the real world problems in the emerging fields like smart grid, renewable energy interfaces, and electric vehicles and to develop innovative technologies relevant to social, ethical, economic and environmental issues.
Programme Outcomes (POs)
PO1: Ability to evaluate and analyse problems related to Power Electronic Systems and incorporate the principles in the state of art systems for further improvement.
PO2: Design and conduct experiments, as well as analyze the power electronic converters & drives and interpret the data.
PO3: Function on multidisciplinary technological issues assimilating power electronics advancements.
PO4: Identify, formulate and model the power electronic systems as a solution to the problems in allied disciplines.
PO5: Communicate effectively on complex engineering activities with the engineering community and with society at large.
PO6: Recognize the need for and engage in life-long learning to update with or develop technologies to meet the growing and changing needs of society.
PO7: Use the techniques, skills, and modern engineering simulation tools necessary for the design and development of power converter topologies.
PO8: Propose, plan and execute projects subjected to financial, personnel and time constraints in allied fields assimilating power electronics advancements.
|I Year||I Semester|
|20PE001||Emerging Power Electronic Devices and Converters||3||-||2||4|
|20PE003||Modeling And Analysis Of Electrical Machines||3||-||-||3|
|20PE007||Artificial Intelligent Systems||3||-||-||3|
|Elective Course - I||3||3|
|20AD001||Audit Course - 1||1||-||-||-|
|Total Semester Credits||19|
|I Year||II Semester|
|20PE005||Switched Mode Power Supplies And Ups||3||-||2||4|
|20PE006||Digital Control Of Power Electronics And Drive Systems||3||-||3||4|
|Elective Course - II||3||3|
|Elective Course - III||3||3|
|20RM001||Research Methodology & IPR||2||-||-||2|
|20AD002||Audit Course- 2||1||-||-||-|
|20EP001||Employment Orientation Program||2||-||-||2|
|Total Semester Credits||20|
|II Year||III Semester|
|20OC001||MOOCs Course- 1(Inter disciplinary Nature)||3||-||-||3|
|20OC002||MOOCs Course- 2(Inter disciplinary Nature)||3||-||-||3|
|Total Semester Credits||6|
|II Year||IV Semester|
|20PR001||Project / Internship Phase-1||-||-||20||10|
|20PR002||Project / Internship Phase-2||-||-||32||16|
|Total Semester Credits||26|
|20PE008||Processor Applications in Electrical Engineering||3||-||-||3|
|20PE009||Energy Storage Technologies||3||-||-||3|
|20PE010||Modern Control Theory||3||-||-||3|
|20PE012||Energy Conservation Systems||3||-||-||3|
|20PE013||Programmable Logic Controllers and their Applications||3||-||-||3|
|20PE014||High Voltage DC Transmission||3||-||-||3|
|20PE015||Analysis of Inverters||3||-||-||3|
|20PE016||Power Semiconductor Devices and Passive Components||3||-||-||3|
|20PE017||Smart Power Grids||3||-||-||3|
|20PE018||Solar Energy Conversion||3||-||-||3|
|20PE019||Energy Audit, Conservation and Management||3||-||-||3|
|20PE021||Green Energy Technologies||3||-||-||3|
|20PE022||Flexible of AC Transmission Systems||3||-||-||3|
|Programme Name||M.Tech in Power electronics and Drives|
|Programme Specific Enquiries||0863-2344740|
|Admission Enrollment and General Enquiries||0863-2344777, 1800-425-2529
|HoD Contact Number||9966214663|