The Master of Technology (M.Tech.) in Power Electronics is a specialized program designed to equip students with the knowledge and skills needed to excel in the field of power electronics and electrical systems. Power electronics is a crucial technology that plays a pivotal role in the efficient conversion and control of electrical energy, impacting a wide range of industries, from renewable energy to transportation and consumer electronics.
The syllabus of this program is thoughtfully structured to provide a comprehensive understanding of power electronic converters, semiconductor devices, control systems, and their applications. Students delve into theoretical concepts and engage in practical exercises, gaining expertise in designing and implementing power electronic circuits. They also explore emerging trends such as renewable energy integration, electric vehicles, and smart grids.
Throughout the program, students work on real-world projects and collaborate with industry experts to solve complex challenges in power electronics. They learn about advanced topics like power semiconductor devices, electromagnetic compatibility, and digital control techniques.
Upon completing this program, graduates are well-prepared for careers in power electronics research and development, power system design, and the renewable energy sector. They contribute to innovations that enhance the efficiency and sustainability of electrical systems, making a significant impact on the global energy landscape.
Here is an overview of the syllabus and subjects typically covered in the M.Tech. in Power Electronics program:
S.no | Subjects |
1 | Power Conversion Techniques |
2 | Intelligent Control Techniques |
3 | Industrial Control Electronics |
4 | Switched Mode Power Conversion |
2nd Year OR 3rd & 4th Semester Syllabus of Master of Technology (M.Tech.) in Power Electronics
S.No | Subjects |
1 | HVDC Transmission |
2 | EHV AC/DC Transmission System |
3 | Digital Controller Application in Power Converters |
4 | Optimization Algorithms |
5 | Modern Control Theory |
6 | PWM Converters and Applications |
7 | Dissertation |