A Master's in Power System Engineering is an advanced professional degree designed to equip electrical engineering graduates with the specialized skills needed to design, analyze, and manage modern electrical grids. As the global energy landscape shifts toward renewable sources and "smart" technologies, these courses focus on bridging the gap between traditional grid operations and future sustainable solutions.

M.Sc. Power System Curriculum Structure 

Year I Semester I 

EG801EE Computer Aided Power System Analysis (3 Credit)
EG802EE Distributed Systems Design and Operation (3 Credit)
EG803EE Extra High Voltage AC Systems (3 Credit) 
EG804EE Power System Dynamics and Stability (4 Credit)
EG--EE Elective I (3 Credit)

Year I Semester II 

EG851EE Power System Reliability and Risk Assessment (4 Credit) 
EG852EE Power Market and Deregulation (3 Credit)
EG853EE Distributed Generation and Grid Integration (3 Credit)
EG854EE Power System Operation and Economics (3 Credit)
EG--EE Elective II (3 Credit)

Year II Semester I 

EG901EE Digital Protection of Power System (3 Credit)
EG--EE Elective III (3 Credit)
EG905EE Research Methodology (3 Credit)
EG906EE *Research Project - Leading to thesis (4 Credit)

Year II Semester II 

EG951EE *Thesis (15 Credit)

Total credits: 60 

ELECTIVE I 
1 [EG805EE] Mathematical Programming 
2 [EG806EE] Operation Research and Optimization Techniques 
ELECTIVE II 
1 [EG855EE] FACTS Devices 
2 [EG856EE] Switchyard Design 
ELECTIVE III 
1 [EG902EE] Power Quality Improvement 
2 [EG903EE] Power Electronics for Renewable Energy Systems 
4 [EG904EE] Condition Monitoring and Fault Diagnostics