M.Tech Electrical Engineering

Enhance your expertise in Electrical Engineering by developing advanced skills and knowledge in power systems


Fresh graduates must pursue post-graduation for better opportunities. M.Tech. (Master of Technology) in Electrical Engineering is  a postgraduate degree program focused on advanced studies as well as research in the field of electrical engineering. It is designed to provide students with in-depth knowledge, technical skills and research expertise in various aspects of electrical engineering.

The program offers various specialisations within the field of electrical engineering such as power systems, control systems, electronics, telecommunications, signal processing, power electronics, renewable energy and more. Moreover, the graduates of M.Tech. Electrical Engineering has diverse career opportunities. 

Aspirants can work in industries related to power generation and distribution, telecommunications, electronics, renewable energy, automation, robotics, research and development, consulting firms as well as government organisations. They can also pursue teaching and research positions in academia


The core subjects in an M.Tech. Electrical Engineering programs can vary depending on the university and specialisation chosen. However, here are some common core subjects that are typically covered in M.Tech. Electrical Engineering programs:

  • Advanced Power Systems
  • Advanced Control Systems
  • Power Electronics and Drives
  • Electrical Machine Design
  • Digital Signal Processing
  • Advanced Electromagnetic Theory
  • Advanced Communication Systems
  • Renewable Energy Systems
  • Advanced Microprocessors and Microcontrollers

These core subjects provide a strong foundation in electrical engineering principles, theories and advanced technical knowledge. They cover various aspects of electrical engineering including power systems, control systems, electronics, signal processing and more

Practical Learning

The practical learning component of an M.Tech Electrical Engineering program plays a crucial role in bridging the gap between theoretical concepts and real-world applications. It allows students to apply their knowledge, develop technical skills as well as gain hands-on experience in various aspects of electrical engineering. Here are some key aspects of practical learning in M.Tech Electrical Engineering:

  • Laboratory Experiments
  • Simulation and Modeling
  • Design Projects
  • Research Projects
  • Industry Internships
  • Workshops and Seminars

Overall, practical learning in M.Tech. Electrical Engineering programs enhance students' problem-solving skills, technical competence and ability to apply theoretical knowledge in practical scenarios. It prepares them for careers in industries, research organisations as well as academia by equipping them with the necessary skills to tackle real-world challenges in the field of electrical engineering

Course Curriculum

The specific course curriculum of an M.Tech. program in Electrical Engineering can vary between different universities and institutes. However, I can provide you with a general overview of the typical year-wise course structure for M.Tech. Electrical Engineering.

First Year 

  • Advanced Mathematics for Engineers
  • Advanced Electromagnetic Theory
  • Advanced Power Systems
  • Advanced Control Systems
  • Specialisation Elective 1
  • Advanced Digital Signal Processing
  • Advanced Electrical Machines
  • Advanced Power Electronics
  • Specialisation Elective 2
  • Elective 1 

Second Year 

  • Research Methodology
  • Specialisation Elective 3
  • Elective 2 
  • Elective 3 
  • Project Work (Phase I)
  • Thesis/Project Work (Phase II)

Top Institutes

The engineering institutions offer various specialised M.Tech. programs in numerous fields of Electrical Engineering, allowing students to focus on their areas of interest and gain in-depth knowledge along with expertise. 

  • Indian Institute of Technology (IIT), Delhi
  • Indian Institute of Technology (IIT), Bombay
  • Indian Institute of Technology (IIT), Kanpur
  • Indian Institute of Technology (IIT), Madras
  • Indian Institute of Technology (IIT), Kharagpur
  • Indian Institute of Technology (IIT), Roorkee
  • Indian Institute of Technology (IIT), Guwahati
  • Indian Institute of Technology (IIT), Hyderabad
  • Indian Institute of Technology (IIT), Gandhinagar
  • National Institute of Technology (NIT), Trichy
  • National Institute of Technology (NIT), Warangal
  • National Institute of Technology (NIT), Calicut
  • Jadavpur University, Kolkata

Moreover, admission to these institutes is highly competitive and applicants are selected based on their performance in national-level entrance exams like GATE (Graduate Aptitude Test in Engineering) or the institute-specific selection criteria

Career Growth

The career advancement options for M.Tech. Electrical Engineering graduates are promising, with ample opportunities for professional growth as well as higher positions in their chosen field. Here are some aspects of career growth for M.Tech. Electrical Engineering graduates:

  • Specialisation
  • Professional Development
  • Research and Publications
  • Advanced Job Roles
  • Management Positions
  • Entrepreneurship
  • Higher Education and Teaching
  • International Opportunities
  • Industry Demand

By staying updated with the latest industry trends, networking with professionals and demonstrating a commitment towards professional growth, M.Tech Electrical Engineering graduates can pave the way to a successful and fulfilling career journey


The scope of M.Tech. Electrical Engineering is vast and offers numerous opportunities for professional growth and career advancement. Here are some key areas where M.Tech. Electrical Engineering graduates can find employment and contribute their expertise:

  • Research and Development (R&D)
  • Power and Energy Sector
  • Electronics and Telecommunications
  • Control Systems and Automation
  • Instrumentation and Measurement
  • Consulting and Advisory Services
  • Academia and Teaching
  • Entrepreneurship

Additionally, M.Tech. Electrical Engineering graduates can also explore opportunities in government organisations, defenc