JNTUA M.Tech R25 Electrical Power Systems Course Structure and Syllabus

The JNTUA M.Tech R25 Electrical Power Systems (EPS) program is designed to provide advanced knowledge in modern power generation, transmission, distribution, and smart energy systems. The syllabus focuses on both theoretical understanding and practical applications to prepare students for careers in power utilities, renewable energy industries, research organizations, and higher studies. The R25 regulation has been introduced for students admitted from the academic year 2025–26 onwards.

In the first year first semester, students study core subjects such as Advanced Power System Analysis and Economic Operation of Power Systems. Elective subjects include Smart Grid Technologies, HVDC Transmission, Sustainable Energy Solutions, and Electric Vehicle Technologies. The curriculum also includes Research Methodology & Intellectual Property Rights, along with laboratory sessions like Power Systems Computation Lab and Advanced Power Systems Lab.

During the second semester, the syllabus emphasizes Digital Protection of Power Systems and Power System Dynamics. Students can choose electives like Power Quality Improvement Techniques, EHV AC Transmission, Data Science Applications in Power Engineering, and Real-Time Control of Power Systems. Mini projects, seminars, and protection laboratories help students gain practical exposure and industry-oriented skills.

The second year mainly focuses on dissertation work, research activities, seminars, and project reviews. Students are encouraged to work on innovative technologies related to renewable energy integration, smart grids, power electronics, and intelligent energy management systems. The course structure is designed to improve analytical, computational, and research capabilities in electrical power engineering.

Overall, the JNTUA M.Tech R25 Electrical Power Systems syllabus provides strong technical foundations along with modern industry-oriented subjects. It helps students build expertise in advanced electrical systems, digital protection techniques, energy optimization, and sustainable power technologies required in today’s evolving power sector.