一种基于磁耦合共振式的无线取能电流互感器电源设计
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摘要
针对现有电子式电流互感器高压侧取能电源设计中存在的电源复杂、寿命短等问题,提出了一种基于磁耦合共振式的无线取能电源设计方法。建立了能量传输模型,推导出了输出功率表达式,通过分析电压、频率、互感对功率的影响,为硬件电路的参数设计提供了理论参考。通过对供电装置和绝缘子采用一体化设计并采用环氧树脂填充完成了系统的样机制作。结果表明,该取能电源在保证有效绝缘距离的前提下,可实现长时间的稳定供能,验证了本设计的有效性。研究成果可为磁耦合共振式的无线取能电流互感器的电源设计提供参考。
In view of the problems of complex power supply and short life in the design of high voltage side power supply power supply for current electronic current transformer,this paper presents a design method of wireless power supply power supply based on magnetic coupling resonance.The energy transmission model is established,and the expression of output power is derived.The theoretical reference for design of hardware circuit parameters is provided by analyzing the influence of voltage,frequency and mutual inductance on power.The prototype of the system is completed through the integrated design of the power supply device and insulator and the epoxy resin filling.The experimental results show that the power supply can achieve a long-time stable energy supply on the premise of ensuring the effective insulation distance,and the effectiveness of the design is verified.The research results provide a reference for design of magnetic coupling resonant power supply of wireless power transformers.
In view of the problems of complex power supply and short life in the design of high voltage side power supply power supply for current electronic current transformer,this paper presents a design method of wireless power supply power supply based on magnetic coupling resonance.The energy transmission model is established,and the expression of output power is derived.The theoretical reference for design of hardware circuit parameters is provided by analyzing the influence of voltage,frequency and mutual inductance on power.The prototype of the system is completed through the integrated design of the power supply device and insulator and the epoxy resin filling.The experimental results show that the power supply can achieve a long-time stable energy supply on the premise of ensuring the effective insulation distance,and the effectiveness of the design is verified.The research results provide a reference for design of magnetic coupling resonant power supply of wireless power transformers.
引文
[1]王玮,贾明娜,张新慧,等.一种电子式电流互感器的高压侧设计[J].自动化仪表,2016,37(1):81-84.
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[10]周雯琪.感应耦合电能传输系统的特性与设计研究[D].杭州:浙江大学,2008.
[2]钱政.有源电子式电流互感器中高压侧电路的供能方法[J].高压电器,2004,40(2):135-138.
[3]杨庆新,张献,李阳,等.无线电能传输技术及其应用[M].北京:机械工业出版社,2014:17.
[4]陆洪伟.一种谐振式强磁耦合型无线充电系统的研究[D].上海:上海交通大学,2012.
[5]傅文珍,张波,丘东元,等.自谐振线圈耦合式电能无线传输的最大效率分析与设计[J].中国电机工程学报,2009,29(18):21-26.
[6]戴欣,孙跃,唐春森,等.无线电能传输技术[M].北京:科学出版社,2017:22-26.
[7] Hu A P,Boys J T,Covic G A.Dynamic ZVS Direct On-line Start up of Current Fed Resonant Converter Using Initially Forced DC Current[C]//Proceedings of the 2000IEEE International Symposium on Industrial Electronics,Puebla(Mexico),2000.
[8] Hu A P,Hu P,A Low Cost Portable Car Heater Based on a Novel Current-fed Push-pull Inverter[C]//Australasian Universities Power Engineering Conference(AUPEC),2004.
[9]石新智,祁昶,屈美玲,等.基于磁共振的无线能量传输系统接收模块参数研究[J].电工技术学报,2014,29(2):204-211.
[10]周雯琪.感应耦合电能传输系统的特性与设计研究[D].杭州:浙江大学,2008.