Manuscript received May 20, 2025; accepted September 7, 2025; published October 17, 2025.
Abstract—An effective way to solve the problem of insufficient transmission efficiency and stability of wireless power transfer systems is to introduce a compensation topology into the system. However, the traditional compensation topology makes it difficult to balance the system transmission efficiency and stability. To enhance the comprehensive performance of wireless power transfer systems with compensation topology, this paper provides a thorough review of the topology performance enhancement methods that have been proposed for wireless power transfer systems. These methods are classified into basic compensation topology, higher-order compensation topology, hybrid compensation topology, and integrated compensation topology. Based on the published research results, it can be found that the above methods can bring new problems and challenges while achieving comprehensive performance improvement. Typical problems and challenges include four main aspects: insufficient system misalignment tolerance, difficult parameter design, insufficient topological performance of dynamic wireless power transfer systems, and difficult suppression of electromagnetic radiation from wireless power transfer systems. Finally, four key issues that still need to be addressed in the above types of compensation topologies are discussed, and reasonable development suggestions are given in light of the future development of wireless power transfer technology, to solve the problem of insufficiently integrated performance of the topologies of wireless power transfer systems.
Keywords—wireless power transfer, compensation topology, transmission efficiency
Cite: Hanjie Wang, "Comprehensive Performance Improvement Method for Wireless Power Transfer Compensation Network," International Journal of Engineering and Technology, vol. 17, no. 4, pp. 189-193, 2025.
Copyright © 2025 by the authors. This is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited (
CC BY 4.0). 
