[1]梁奋强、黄靖、黄晓生、 刘丽桑、林抒毅、孔毅鹏.并联电路E类逆变器软开关特性研究[J].福建工程学院学报,2019,17(03):272-278.[doi:10.3969/j.issn.1672-4348.2019.03.012]
 LIANG Fenqiang,HUANG Jing,HUANG Xiaosheng,et al.Research on soft-switching behavior of Class-E inverters in parallel circuits[J].Journal of FuJian University of Technology,2019,17(03):272-278.[doi:10.3969/j.issn.1672-4348.2019.03.012]
点击复制

并联电路E类逆变器软开关特性研究()
分享到:

《福建工程学院学报》[ISSN:2097-3853/CN:35-1351/Z]

卷:
第17卷
期数:
2019年03期
页码:
272-278
栏目:
出版日期:
2019-06-25

文章信息/Info

Title:
Research on soft-switching behavior of Class-E inverters in parallel circuits
作者:
梁奋强、黄靖、黄晓生、 刘丽桑、林抒毅、孔毅鹏
福建工程学院信息科学与工程学院
Author(s):
LIANG FenqiangHUANG JingHUANG XiaoshengLIU LisangLIN ShuyiKONG Yipeng
School of Information Science and Engineering, Fujian University of Technology
关键词:
无线电能传输并联电路E类逆变器非线性漏-源寄生电容等效线性电容
Keywords:
wireless power transfer parallel circuits Class-E inverter nonlinear drain-to-source parasitic capacitance equivalent linear capacitance
分类号:
TM46
DOI:
10.3969/j.issn.1672-4348.2019.03.012
文献标志码:
A
摘要:
采用电荷充电原理和电容充能原理,推导出两个原理下不同的等效线性电容表达式;然后在3种不同频率下,分别对无寄生电容、两种不同的等效线性寄生电容这3个状态进行PSPICE仿真实验;最后通过搭建4MHz样机进行验证。结果表明在高频状态下考虑MOSFET漏极-源极寄生电容,能够有效改善E类逆变器软开关特性,且通过电荷充电原理推导出的等效线性电容更加合理准确。
Abstract:
Based on the electronic charge principle and the capacitor charge principle, different expressions of equivalent linear capacitance were derived. Then, at three different frequencies, the PSPICE simulation experiments were carried out for three states, namely, no parasitic capacitance and two different equivalent linear parasitic capacitances. Finally, verification was carried out by building a 4 MHz prototype. Results show that considering the MOSFET drain-source parasitic capacitance in the high frequency state, the soft switching characteristics of Class E inverters can be effectively improved, and the equivalent linear capacitance derived by the electronic charge principle is more reasonable and accurate.

参考文献/References:

[1]KURS A, KARALIS A, MOFFATT R, et al. Wireless power transfer via strongly coupled magnetic resonances[J]. Science, 2007, 317(5834): 83-86.[2] 杨庆新, 章鹏程, 祝丽花, 等. 无线电能传输技术的关键基础与技术瓶颈问题[J]. 电工技术学报, 2015, 30(5): 1-8.[3] 范兴明, 莫小勇, 张鑫. 无线电能传输技术的研究现状与应用[J]. 中国电机工程学报, 2015, 35(10): 2584-2600.[4] 〖JP3〗李甜, 肖文勋, 张波, 等. ZVSE类逆变器的磁谐振无线输电系统参数分析和设计[J]. 电源学报, 2017, 15(3): 100-106.[5] 周佳丽, 张波, 谢帆. 磁谐振无线输电系统e类逆变电路分析[J]. 北京交通大学学报, 2015, 39(5): 112-117.[6] ZULINSKI R, STEADMAN J. Class e power amplifiers and frequency multipliers with finite dcfeed inductance[J]. IEEE Transactions on Circuits and Systems, 1987, 34(9): 1074-1087.[7] GREBENNIKOV A V, JAEGER H. Class e with parallel circuita new challenge for highefficiency RF and microwave power amplifiers[C]/〖KG-*4〗/2002 IEEE MTTS International Microwave Symposium Digest(Cat. No.02CH37278), 2002: 1627-1630.[8] MILOSEVIC D, VAN DER TANG J, VAN ROERMUND A. Explicit design equations for classe power amplifiers with small dcfeed inductance[C]/〖KG-*4〗/Proceedings of the 2005 European Conference on Circuit Theory and Design, 2005: 101-104.[9] ACAR M, ANNEMA A J, NAUTA B. Generalized design equations for classe power amplifiers with finite dc feed inductance[C]/〖KG-*4〗/2006 European Microwave Conference, 2006: 1308-1311.[10]SUETSUGU T, KAZIMIERCZUK M K. Analysis and design of class e amplifier with shunt capacitance composed of nonlinear and linear capacitances[J]. IEEE Transactions on Circuits and Systems I: Regular Papers, 2004, 51(7): 1261-1268.[11] SUETSUGU T, KAZIMIERCZUK M K. Comparison of classe amplifier with nonlinear and linear shunt capacitance[J]. IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications, 2003, 50(8): 1089-1097.[12] SEKIYA H, ARIFUKU Y, HASE H, et al. Design of class e amplifier with any output q and nonlinear capacitance on mosfet[C]/〖KG-*4〗/Proceedings of the 2005 European Conference on Circuit Theory and Design, 2005: 105-108.[13] HAYATI M, LOTFI A, KAZIMIERCZUK M K, et al. Analysis, design, and implementation of the classe zvs power amplifier with MOSFET nonlinear draintosource parasitic capacitance at any grading coefficient[J]. IEEE Tpower Electr, 2014, 29(9): 4989-4999.

相似文献/References:

[1]林抒毅,黄晓生.无线电能传输TS-S型补偿网络的建模与设计[J].福建工程学院学报,2016,14(03):269.[doi:10.3969/j.issn.1672-4348.2016.03.012]
 Lin Shuyi,Huang Xiaosheng.Modelling and design of TS-S compensation networks for WPT system[J].Journal of FuJian University of Technology,2016,14(03):269.[doi:10.3969/j.issn.1672-4348.2016.03.012]
[2]黄晓生,林抒毅.一种WPT系统E类高频逆变器的无载保护控制[J].福建工程学院学报,2017,15(04):378.[doi:10.3969/j.issn.1672-4348.2017.04.014]
 Huang Xiaosheng,Lin Shuyi.A non-load protection control method of high-frequency class-E inverter in WPT system[J].Journal of FuJian University of Technology,2017,15(03):378.[doi:10.3969/j.issn.1672-4348.2017.04.014]
[3]林抒毅、田源、黄晓生、孔毅鹏、俞智坤.四线圈WPT系统非理想耦合及等效解耦方法[J].福建工程学院学报,2020,18(03):260.[doi:10.3969/j.issn.1672-4348.2020.03.011]
 LIN Shuyi,TIAN Yuan,HUANG Xiaosheng,et al.Non-ideal coupling and equivalent decoupling method of four-coil wireless power transfer[J].Journal of FuJian University of Technology,2020,18(03):260.[doi:10.3969/j.issn.1672-4348.2020.03.011]
[4]仇逸,汪凤翔,黄卫东,等.LCL-S型无线电能传输系统负载与互感辨识方法[J].福建工程学院学报,2022,20(03):275.[doi:10.3969/j.issn.1672-4348.2022.03.012]
 QIU Yi,WANG Fengxiang,HUANG Weidong,et al.Identification method of load and mutual inductance in LCL-S 〖JZ〗wireless power transmission system[J].Journal of FuJian University of Technology,2022,20(03):275.[doi:10.3969/j.issn.1672-4348.2022.03.012]
[5]肖伟号,黄旭红.基于S-P结构的非线性宇称时间对称分析[J].福建工程学院学报,2022,20(03):288.[doi:10.3969/j.issn.1672-4348.2022.03.014]
 XIAO Weihao,HUANG Xuhong.Time symmetry analysis of nonlinear parity based on S-P structure[J].Journal of FuJian University of Technology,2022,20(03):288.[doi:10.3969/j.issn.1672-4348.2022.03.014]

更新日期/Last Update: 2019-06-25