As the key electromagnetic equipment for energy transmission and consumption, the transformers play important roles in the fields of power systems, measurement equipment and automatic control systems, etc. With the development of technology, they have achieved admirable performance. However, as the requirements of system integration and improvements of parameters such as voltage level, frequency and capacity, advanced design, analysis and control of transformers with high quality and reliability have become the key issue to popularize their applications.
To achieve high quality and reliability of transformers, from the point of view of design and analysis, the approaches include, but not limited to, topological structure, application of new materials, and intelligent optimization method considering the coupling factors of multiple physical fields From the control point of view, the methods include, but are not limited to, control strategy, hardware circuit, and application of novel power electronics. In particular, it is also necessary to consider the fault-tolerant design, vibration and noise suppression, fault diagnosis and health management to meet the requirements of high-performance applications.
This Research Topic of Frontiers in Energy Research will provide a path for researchers and engineers from industry and academia to present the latest achievements and discoveries on the topic of high-quality and reliability of transformers, including topology, analysis methods, control strategies, applications, etc. The guest editorial team invites and encourages scholars to submit original manuscripts of innovative academic and engineering research results. Topics of interest within the scope of transformers include, but are not limited to:
- Novel topology design
- Advanced design methods
- Advanced modeling and analysis approaches
- Multiphysics coupling analysis
- Multi-objective optimization techniques
- New material and device applications
- Advanced control strategies
- Vibration and noise suppression
- Fault-tolerant design
- Fault diagnosis and health management
As the key electromagnetic equipment for energy transmission and consumption, the transformers play important roles in the fields of power systems, measurement equipment and automatic control systems, etc. With the development of technology, they have achieved admirable performance. However, as the requirements of system integration and improvements of parameters such as voltage level, frequency and capacity, advanced design, analysis and control of transformers with high quality and reliability have become the key issue to popularize their applications.
To achieve high quality and reliability of transformers, from the point of view of design and analysis, the approaches include, but not limited to, topological structure, application of new materials, and intelligent optimization method considering the coupling factors of multiple physical fields From the control point of view, the methods include, but are not limited to, control strategy, hardware circuit, and application of novel power electronics. In particular, it is also necessary to consider the fault-tolerant design, vibration and noise suppression, fault diagnosis and health management to meet the requirements of high-performance applications.
This Research Topic of Frontiers in Energy Research will provide a path for researchers and engineers from industry and academia to present the latest achievements and discoveries on the topic of high-quality and reliability of transformers, including topology, analysis methods, control strategies, applications, etc. The guest editorial team invites and encourages scholars to submit original manuscripts of innovative academic and engineering research results. Topics of interest within the scope of transformers include, but are not limited to:
- Novel topology design
- Advanced design methods
- Advanced modeling and analysis approaches
- Multiphysics coupling analysis
- Multi-objective optimization techniques
- New material and device applications
- Advanced control strategies
- Vibration and noise suppression
- Fault-tolerant design
- Fault diagnosis and health management