ME Power Systems and Power Electronics

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Master of Engineering in Power Systems and Power Electronics

Duration

2 Years

Level

Post Graduation

Type

Degree

Eligibility

Graduation

ME Power Systems and Power Electronics or Master of Engineering in Power Systems and Power Electronics is a postgraduate Power Electronics program. The Power Systems and Power Electronics course focus on developing sophisticated power management converters for battery-powered, portable, or laptop power management applications using power integrated circuit technology and integrated passives technology.

This Master of Engineering course in Power Systems and Power Electronics covers cutting-edge methodologies in power system analysis, planning, dependability, and forecasting. The Power Systems and Power Electronics course also include topics such as high voltage DC transmission, industrial electronics and controls, power electronics and drives, wind and solar energy electric conversion systems, and advanced topics in microprocessors and microcontrollers, all of which are essential for today's power system engineers.

ME Power Systems and Power Electronics Eligibility        

  • Aspiring students should have cleared their Bachelor's degrees such as a BE / BTech degree or its equivalent qualification from a recognized University
  • The candidates should have secured at least 50% aggregate marks or equivalent in their Bachelor's.
  • Reputed institutes conduct an entrance examination for admission.

ME Power Systems and Power Electronics Syllabus

Syllabus of Power Systems and Power Electronics Course as prescribed by various Universities and Colleges.

ME Power Systems and Power Electronics Semester-I

Sr. No. 

Subjects of Study

1

Advanced Power System Analysis

2

Applied Mathematics for Electrical Engineers

3

Electrical Transients in Power Systems

4

Power System Operation and Control

5

System Theory

6

Power System Simulation Lab

7

Elective-I

  • Analysis of Electrical Machines
  • Analysis and Design of Inverters
  • Microcontroller-Based System Design

ME Power Systems and Power Electronics Semester-II

1

Advanced Power System Protection

2

Flexible AC Transmission Systems

3

Power System Dynamics

4

Restructured Power System

5

Advanced Power System Simulation Lab

6

Elective-II

  • Optimization Techniques
  • Power Quality
  • Soft Computing Techniques

7

Elective-III

  • Advanced Digital Signal Processing
  • Distributed Generation and Micro Grid
  • Energy Management and Auditing

ME Power Systems and Power Electronics Semester-III

1

Project Work Phase-I

2

Elective-IV

  • High Voltage Direct Current Transmission
  • Industrial Power System Analysis and Design
  • Solar and Energy Storage Systems

3

Elective-V

  • Advanced Power System Dynamics
  • Smart Grid
  • Wind Energy Conversion Systems

4

Elective-VI

  • Application of MEMS Technology
  • Power System Planning and Reliability
  • Power Electronics for Renewable Energy Systems

ME Power Systems and Power Electronics Semester-IV

1

Project Work Phase-II

 

ME Power Systems and Power Electronics Colleges

ME Power Systems and Power Electronics Course Suitability

  • Candidates must have a creative and imaginative mind, as well as an interest in physics and mathematics, to pursue this hard job.
  • The Master of Engineering in Power Systems and Power Electronics program is designed for students who desire to gain a thorough grasp of the technologies and scientific disciplines involved in converting electric energy using power electronic converters and electric machines.
  • Applicants must have exceptional design abilities to fulfill client requirements as well as the capacity to differentiate power systems from the competition.

How is the ME Power Systems and Power Electronics Course Beneficial?

  • The Master of Engineering in Power Systems and Power Electronics program will help you conceive, build, operate, and test power electronic converters and drives in the lab.
  • The Master's degree program in Power Systems and Power Electronics also provides a solid foundation for those interested in furthering their research studies or becoming college/university lecturers.
  • The course teaches students how to build, model, simulate, and synthesize power converter-based systems utilized for electric energy conversion.

ME Power Systems and Power Electronics Employment Areas

  • Civil Services
  • Colleges & Universities
  • Energy Supply Corporations
  • Industrial Research and Development Labs
  • Research & Development Institutes 
  • Software and Services Companies
  • Technical Monitoring Agencies

ME Power Systems and Power Electronics Job Types

  • Assistant Chemist
  • Engineering Executive
  • Power Electronics Designer
  • Regulatory Officer
  • Scientist
  • Sales Engineer
  • Senior Management Staff / Senior Application Engineering
  • Trainee

Advanced Courses in ME Power Systems and Power Electronics