电工技术学报2025,Vol.40Issue(10):3056-3070,15.DOI:10.19595/j.cnki.1000-6753.tces.L11050
基于坡印廷定理的无线电能传输系统电磁能流与耦合特性研究
Research on Electromagnetic Energy Flow and Coupling Characteristics of Wireless Power Transmission System Based on Poynting's Theorem
摘要
Abstract
This paper analyzes the electromagnetic energy flow and coupling characteristics in wireless power transmission(WPT)systems.Addressing the complexities in accurately depicting the electromagnetic energy transformation within WPT systems,the research overcomes challenges associated with the intricate mathematical methods and the absence of models capable of characterizing spatial energy flow distribution. A model for electromagnetic energy flow in WPT under sinusoidal excitation is established based on Poynting's theorem.A reduced-order mathematical model is developed by analyzing common electromagnetic energy flow characteristics of basic electrical components.This model qualitatively explores the energy coupling in the transmission space.The coexistence of inductive and capacitive coupling in WPT systems is discussed,emphasizing the significance of enhancing near-field electromagnetic coupling for overall system performance.The working mode of WPT in the electromagnetic near-field region is presented from the perspective of the energy flow mechanism.An experimental platform is constructed to verify the inductive and the capacitive coupling methods. The electromagnetic energy flow characteristics of conductors,transformers,and capacitors are analyzed,facilitating power transmission through the electromagnetic fields in their vicinity rather than by themselves.The electromagnetic energy flow characteristics of WPT systems are discussed as a combination of multiple RLC circuits.It is found that electromagnetic power is partly stored in the electromagnetic fields of individual circuits(self-energy)and partly in the fields between circuits(mutual energy).The analysis is simplified by considering a system with two RLC series circuits,revealing that WPT relies on mutual coupling between the primary and secondary sides for contactless power transfer. The paper also discusses typical magnetic resonant WPT systems using the image method to analyze the field strength distribution in the coupling space.The symmetry between inductive and capacitive coupling characteristics is revealed,offering guidance for practical engineering design.Experiments are conducted to verify the coexistence of inductive and capacitive couplings and to analyze their frequency characteristics.Results indicate that as the operating frequency increases,the ratio of capacitive coupling to inductive coupling increases,which is significant for understanding WPT technology. In conclusion,the paper analyzes the electromagnetic energy flow and coupling characteristics in WPT systems,offering valuable insights for the theoretical research and practical application of WPT technology.It highlights the importance of understanding the coexistence of inductive and capacitive couplings and their frequency characteristics to enhance the performance of WPT systems.关键词
无线电能传输/电磁能流/电磁近区/感性耦合/容性耦合Key words
Wireless power transfer/electromagnetic energy flow/electromagnetic near-field/inductive coupling/capacitive coupling分类
动力与电气工程引用本文复制引用
王奉献,周依桐,张献,杨庆新,厉光耀..基于坡印廷定理的无线电能传输系统电磁能流与耦合特性研究[J].电工技术学报,2025,40(10):3056-3070,15.基金项目
国家自然科学基金(52477005)、国家留学基金委高水平公派留学生项目(CSC202406700014)、天津市自然科学基金(22JCZDJC00620)、河北省中央引导地方科技发展资金(236Z5201G)、河北省高等学校科学研究项目合作专项(CXY2024010)和河北省燕赵青年科学家项目(E2024202109)资助. (52477005)
