M.E - Electrical Engineering

Overview :

A Master of Engineering (M.E.) in Electrical Engineering is a postgraduate program that teaches students about the main disciplines of electrical engineering. The program typically covers topics such as:
microelectronics, microprocessors, signal processing, power generation, radiofrequency design, control systems, communications, and electrical machines.
ME - Electrical Engineering Course | Master of Engineering ...
Electrical engineering is the study and application of electricity, electronics, and electromagnetism. Electrical engineers work on a variety of projects, from designing microchips to working on power grids

Some Highlights M.E Electrical Engineering:

Top Colleges Offering  M.E  Electrical Engineering  In India :

• IIT Kharagpur
  
• IIT Roorkee
  
• IIT Bombay
  
• IIT Delhi
  
• IIT Guwahati
  
• IIT Kanpur
  
• IIT Madras
  
• IIT Hyderabad
  
• NIT Rourkela
  

Why Choose M.E  Electrical Engineering?

Pursuing an M.E. in Electrical Engineering offers numerous advantages and opportunities for those passionate about the field. Here are some compelling reasons to consider this path:

• In-Depth Knowledge and Expertise:An M.E. program provides advanced knowledge and specialization in various areas of electrical engineering, such as power systems, electronics, control systems, telecommunications, and signal processing. You'll gain a deep understanding of both theoretical concepts and practical applications.
  
• Diverse Career Opportunities:Graduates can explore a wide range of career paths in industries such as power generation, electronics manufacturing, telecommunications, aerospace, automotive, and renewable energy. Roles include Electrical Engineer, Power Systems Engineer, Control Systems Engineer, and Research Scientist.
  
• High Demand for Skilled Professionals:There is a strong demand for skilled electrical engineers due to the rapid advancement of technology and the increasing reliance on electrical and electronic systems. This demand ensures excellent job prospects and career stability.
  
• Cutting-Edge Technology:The field of electrical engineering is constantly evolving with innovations in renewable energy, smart grids, electric vehicles, and advanced communication systems. Staying updated with cutting-edge technologies enhances your expertise and keeps you at the forefront of innovation.
  
• Practical and Hands-On Training:The program emphasizes practical training and hands-on experience with modern electrical systems and technologies. This practical experience is invaluable for applying theoretical knowledge to real-world problems.
  
• Research and Innovation:The field offers extensive opportunities for research and innovation. You can work on cutting-edge projects, develop new technologies, and contribute to advancements in areas such as power electronics, microelectronics, and telecommunications.
  
• Financial Stability:Electrical engineers often enjoy competitive salaries and benefits. The financial rewards reflect the specialized skills and knowledge required for the role.
  
• Interdisciplinary Collaboration:You’ll have the opportunity to work alongside professionals from various fields, including computer science, mechanical engineering, and materials science. This interdisciplinary approach enhances your problem-solving skills and broadens your professional network.
  
• Contribution to Society:Electrical engineers play a crucial role in developing technologies that improve the quality of life. From renewable energy solutions to advanced communication networks, your work can have a significant impact on society.
  
• Global Opportunities:An M.E. in Electrical Engineering is recognized worldwide, offering opportunities to work in different countries and diverse industries. This global recognition ensures versatility in your career.
  
• Leadership and Management Skills:In addition to technical expertise, you'll develop leadership and management skills essential for overseeing projects, leading teams, and making strategic decisions in the engineering sector.
  
• Personal Fulfillment:The satisfaction derived from solving complex engineering problems, developing innovative solutions, and contributing to technological advancements provides a deep sense of personal and professional fulfillment.
  

If you have a passion for electrical engineering, enjoy problem-solving, and are committed to continuous learning and innovation, pursuing an M.E. in Electrical Engineering can be an excellent choice

Admission Procedure For M.E  Electrical Engineering:

• Candidate need to register with their login details
  
• Fill in the form with all basic details after going through all the instructions
  
• Upload the documents and pay the fees as mentioned in the form through online mode of payment
  
• Candidate need to appear for the entrance exam on the given date
  
• Wait for the result and shortlisted candidates will then have to attend the counselling for final seat allotment.

Eligibility For M.E Electrical Engineering:

• Bachelor's Degree in Engineering or Technology from any recognized college with at least 55% marks.
  
• Should clear GATE with required cut-off marks or Colleges own entrance exams.
  

Career Opportunities for M.E  Electrical Engineering:

Jobs Opportunities After M.E  Electrical Engineering:

• Control engineering
  
• Electronics engineer
  
• Systems engineering
  
• Design Engineer
  
• Electrical Engineer
  
• Project Engineer
  
• Electrical Design Engineer
  
• Instrumentation and control engineering
  
• Project Manager

Top Recruiters of M.E  Electrical Engineering:

• TCS
  
• Amazon
  
• Infosys
  
• Wipro
  
• Cognizant
  
• IBM
  
• Havells India Limited
  
• Crompton Greaves
  
• Jindal Steel & Power Limited
  
• Bajaj Electricals Limited
  
• Alstom India Limited
  
• General Electric (GE)
  
• Philips
  
  
  

Syllabus For M.E  Electrical Engineering:

Semester I

Modern Control System
Power System Modeling and Simulation
Advanced Power Electronics
Simulation Laboratory
Core Lab. - 1
Communication and Research Interdisciplinary Electives 1 - Energy Management
Elective Subjects ( Modern System Protection, Electrical Drives, Architecture, Advanced Micro, Nonlinear Control System )
Interdisciplinary Electives 1 - Energy Management

Semester II

Advanced Electrical Machines
Digital Signal Processing
Principal of Management
Core Lab. - 2
Elective Subjects - 2 ( Digital Control System, Power system Dynamics, and Control, Digital Image Processing, Power Quality )
Elective Subjects - 3 ( Modeling and Simulation of Dynamics, Flexible AC Transmission System, Embedded System Design )
Interdisciplinary Elective Subjects 2 - Electric Power Utilization
Laboratory Practise

Semester III

Power Electronics and Drives Simulation Lab
Power System Simulation Lab
Control System Simulation Lab
Elective Subjects - 4 ( HDVC Transmission, Special Electromechanical Drives, Digital Signal Processing and Applications, Static Reactive Power Control and Facts )
Thesis

Semester  IV
Thesis
-
-