IEEE Journal of Emerging and Selected Topics in Power Electronics 杂志-刊鹿论文编译

Load-Independent Voltage and Current Transfer Characteristics of High-Order Resonant Network in IPT System

Abstract:

Load-independent output characteristics of an inductive power transfer (IPT) system are of increasing interest in electric vehicle and LED lighting applications. All compensation networks in the IPT system are actually high-order resonant circuits. In a high-order resonant network, there are multiple resonant frequencies to get load-independent voltage output and current output. It is critical to analyze the resonant conditions to achieve high efficiency in both load-independent voltage output and current output modes. This paper proposed a general modeling method for arbitrary high-order resonant networks to get both the load-independent voltage and current transfer characteristics. A high-order circuit can be modeled as a combination of an LC network, a multistage T-circuit, and/or multistage $\\Pi $ -circuit in series. The proposed method is verified by applying to voltage-fed double-sided inductor–capacitor–capacitor (LCC), series–series (SS), S-SP, LCC-S, and current-fed CLC-LC compensation networks in the IPT system. The MATLAB simulation and the experimental prototype of a constant voltage-fed double-sided LCC compensated IPT system with up to 3.3-kW power transfer are built. The efficiency of the double-sided LCC compensated IPT system is up to 92.9% and 90.6% when the IPT system operates at resonant frequencies that achieve constant current output and constant voltage output, respectively, which are compliance with the frequency requirement by SAE J2954 standard.

Author Listing： Jianghua Lu;Guorong Zhu;Deyan Lin;Siu-Chung Wong;Jin Jiang

Volume： 7

Pages： 422-436

DOI： 10.1109/JESTPE.2018.2823782

Language： English

Journal： IEEE Journal of Emerging and Selected Topics in Power Electronics

IEEE Journal of Emerging and Selected Topics in Power Electronics

IEEE J EM SEL TOP P

影响因子：4.6

是否综述期刊：是

是否OA：否

是否预警：不在预警名单内

发行时间：-

ISSN：2168-6777

发刊频率：-

收录数据库：SCIE/Scopus收录

出版国家/地区：UNITED STATES

出版社：Institute of Electrical and Electronics Engineers Inc.

期刊介绍

The aim of the journal is to enable the power electronics community to address the emerging and selected topics in power electronics in an agile fashion. It is a forum where multidisciplinary and discriminating technologies and applications are discussed by and for both practitioners and researchers on timely topics in power electronics from components to systems.

该杂志的目的是使电力电子社区能够以灵活的方式解决电力电子领域的新兴和选定主题。它是一个论坛，在这里，从业人员和研究人员就从元件到系统的电力电子领域的适时主题讨论多学科和有区别的技术和应用。

年发文量	499
国人发稿量	296
国人发文占比	59.32%
自引率	6.5%
平均录取率	-
平均审稿周期	-
版面费	US$2195
偏重研究方向	ENGINEERING, ELECTRICAL & ELECTRONIC-
期刊官网	http://www.ieee-pels.org/publications/jstpe
投稿链接	http://mc.manuscriptcentral.com/jestpe-ieee

质量指标占比

研究类文章占比	OA被引用占比	撤稿占比	出版后修正文章占比
99.31%	4.51%	0.00%	0.00%

预警情况

时间	预警情况
2024年02月发布的2024版	不在预警名单中
2023年01月发布的2023版	不在预警名单中
2021年12月发布的2021版	不在预警名单中
2020年12月发布的2020版	不在预警名单中

JCR分区 WOS分区等级：Q1区

版本	按学科	分区
WOS期刊SCI分区（2021-2022年最新版）
	ENGINEERING, ELECTRICAL & ELECTRONIC	Q1

中科院分区

版本	大类学科	小类学科	Top期刊	综述期刊
	工程技术 1区	ENGINEERING, ELECTRICAL & ELECTRONIC 工程：电子与电气 2区	否	是
2021年12月基础版	工程技术 2区	ENGINEERING, ELECTRICAL & ELECTRONIC 工程：电子与电气 2区	否	否
2021年12月升级版	工程技术 2区	ENGINEERING, ELECTRICAL & ELECTRONIC 工程：电子与电气 2区	否	否
2020年12月旧的升级版	工程技术 2区	ENGINEERING, ELECTRICAL & ELECTRONIC 工程：电子与电气 2区	否	否
2022年12月最新升级版	工程技术 2区	ENGINEERING, ELECTRICAL & ELECTRONIC 工程：电子与电气 2区	否	是