河南理工大学学报:自然科学版
河南理工大學學報:自然科學版
하남리공대학학보:자연과학판
JOURNAL OF HENAN POLYTECHNIC UNIVERSITY
2011年
5期
585-589
,共5页
无接触变压器%补偿方法%传输性能
無接觸變壓器%補償方法%傳輸性能
무접촉변압기%보상방법%전수성능
eontactless transformer%compensation method%transmission performance
无接触变压器是非接触电能传输系统的核心部分,其原边线圈和副边线圈构成一种松耦合电磁感应关系,传输性能比较低.通过无接触变压器互感模型分析电路结构,可以得到原、副边不同的电容补偿方法.根据不同的电路补偿结构,分析系统的负载输出功率,对于优化电路参数和提高传输性能具有重要意义.
無接觸變壓器是非接觸電能傳輸繫統的覈心部分,其原邊線圈和副邊線圈構成一種鬆耦閤電磁感應關繫,傳輸性能比較低.通過無接觸變壓器互感模型分析電路結構,可以得到原、副邊不同的電容補償方法.根據不同的電路補償結構,分析繫統的負載輸齣功率,對于優化電路參數和提高傳輸性能具有重要意義.
무접촉변압기시비접촉전능전수계통적핵심부분,기원변선권화부변선권구성일충송우합전자감응관계,전수성능비교저.통과무접촉변압기호감모형분석전로결구,가이득도원、부변불동적전용보상방법.근거불동적전로보상결구,분석계통적부재수출공솔,대우우화전로삼수화제고전수성능구유중요의의.
The contactless transformer is the core of the contactless electrical energy transmission system, the primary coil and secondary coil of contactless transformer form a loosely coupled electromagnetic induction relationship, its transmission performance is relatively low. When we use the mutual inductance model of contactless transformer to analyze the circuit structure, we can get diferent capacitor compensation methods of primary and secondary side. According to the different circuit compensation structures, analyze the system's load output power. There is a great significance for us to optimize the circuit parameters and improve the transmission performance.
