物理学报Issue(5):527-534,8.DOI:10.7498/aps.62.058503
基于Metglas/PFC磁电层状复合材料的电能无线传输系统
Wireless energy transfer system based on metglas/PFC magnetoelectric laminated composites∗
摘要
Abstract
Wireless energy transfer has broad prospective applications. Current researches focus on electromagnetic induction and magnetic resonance. The former approach is sensitive to position and the latter has larger size, both of which affect the broad application of wireless energy transfer. Two layers of magnetostrictive effect materials and one layer of piezoelectric effect material are bound by epoxy resin, which generates magnetoelectric laminated composite. It is the first time that the output voltage, current and magneto-electric factor have been deduced without DC magnetic bias. Three samples are implemented and the wireless energy transfer system based on them is developed. The tests on the samples verify the correctness of the theoretic analysis. Further experiments illustrate that there are double frequency characteristics for the magnetoelectric laminated composites;the resonant frequency is proportional to the reciprocal of the length of the composite;the open circuit voltage of the composite could reach 100 V (rms) under a magnetic field of 20 Oe;the maximum energy transferred is 520 mW, which is the highest record reported up to now, with the energy density 1.21W/cm3 and maximum transfer efficiency 35%;the rotation less than 30◦has little effect on the output of the composites. Theoretical analyses and experimental results suggest that the magnetoelectric laminated composite based on Metglas/PFC is a very interesting approach to small volume and small power wireless energy transfer applications.关键词
磁电复合材料/无线能量传输Key words
magnetoelectric laminated composites/wireless energy transfer引用本文复制引用
于歆杰,吴天逸,李臻..基于Metglas/PFC磁电层状复合材料的电能无线传输系统[J].物理学报,2013,(5):527-534,8.基金项目
国家自然科学基金(批准号:30870582,31070757)资助的课题.Project supported by the National Natural Science Foundation of China (Grant Nos.30870582,31070757) (批准号:30870582,31070757)
