Maximum Efficiency Tracking for Dynamic WPT System Based on Optimal Input Voltage Matching

Maximum Efficiency Tracking for Dynamic WPT System Based on Optimal Input Voltage Matching

Wireless power transfer (WPT) technology has drawn much attention due to its advantages such as safety, convenience, and non-contact. For some movable devices such as intelligent inspection robot, the constant output voltage is very important to ensure its normal operation. In order to improve the s...

Full description

Bibliographic Details
Main Authors: Hao He, Songcen Wang, Youwei Liu, Cheng Jiang, Xiaokang Wu, Bin Wei, Bingwei Jiang
Format: Article
Language:English
Published: IEEE 2020-01-01
Series:IEEE Access
Subjects:
Wireless power transfer
optimal input voltage matching
maximum efficiency tracking
Online Access:https://ieeexplore.ieee.org/document/9274305/
id doaj-0bec740fc0fb422e8b0e42c8934352a0
record_format Article
spelling doaj-0bec740fc0fb422e8b0e42c8934352a02021-03-30T03:51:37ZengIEEEIEEE Access2169-35362020-01-01821522421523410.1109/ACCESS.2020.30417699274305Maximum Efficiency Tracking for Dynamic WPT System Based on Optimal Input Voltage MatchingHao He0https://orcid.org/0000-0003-0067-8586Songcen Wang1Youwei Liu2Cheng Jiang3Xiaokang Wu4Bin Wei5Bingwei Jiang6China Electric Power Research Institute, Beijing, ChinaChina Electric Power Research Institute, Beijing, ChinaChina Electric Power Research Institute, Beijing, ChinaChina Electric Power Research Institute, Beijing, ChinaChina Electric Power Research Institute, Beijing, ChinaChina Electric Power Research Institute, Beijing, ChinaChina Electric Power Research Institute, Beijing, ChinaWireless power transfer (WPT) technology has drawn much attention due to its advantages such as safety, convenience, and non-contact. For some movable devices such as intelligent inspection robot, the constant output voltage is very important to ensure its normal operation. In order to improve the system efficiency and steadiness of output voltage, a maximum efficiency tracking and constant voltage charging method is proposed for the dynamic WPT system. In this method, the mutual inductance and optimal input voltage can be estimated accurately no matter the coupling coefficient and equivalent load change or not. The simulation and experimental results have shown that the WPT system realize maximum efficiency tracking and constant voltage charging when the resistance is changed from 10Ω to 5Ω, and the same result was achieved when the mutual inductance is altered from 20μH to 10μH.https://ieeexplore.ieee.org/document/9274305/Wireless power transferoptimal input voltage matchingmaximum efficiency tracking
collection DOAJ
language English
format Article
sources DOAJ
author Hao He
Songcen Wang
Youwei Liu
Cheng Jiang
Xiaokang Wu
Bin Wei
Bingwei Jiang
spellingShingle Hao He
Songcen Wang
Youwei Liu
Cheng Jiang
Xiaokang Wu
Bin Wei
Bingwei Jiang
Maximum Efficiency Tracking for Dynamic WPT System Based on Optimal Input Voltage Matching
IEEE Access
Wireless power transfer
optimal input voltage matching
maximum efficiency tracking
author_facet Hao He
Songcen Wang
Youwei Liu
Cheng Jiang
Xiaokang Wu
Bin Wei
Bingwei Jiang
author_sort Hao He
title Maximum Efficiency Tracking for Dynamic WPT System Based on Optimal Input Voltage Matching
title_short Maximum Efficiency Tracking for Dynamic WPT System Based on Optimal Input Voltage Matching
title_full Maximum Efficiency Tracking for Dynamic WPT System Based on Optimal Input Voltage Matching
title_fullStr Maximum Efficiency Tracking for Dynamic WPT System Based on Optimal Input Voltage Matching
title_full_unstemmed Maximum Efficiency Tracking for Dynamic WPT System Based on Optimal Input Voltage Matching
title_sort maximum efficiency tracking for dynamic wpt system based on optimal input voltage matching
publisher IEEE
series IEEE Access
issn 2169-3536
publishDate 2020-01-01
description Wireless power transfer (WPT) technology has drawn much attention due to its advantages such as safety, convenience, and non-contact. For some movable devices such as intelligent inspection robot, the constant output voltage is very important to ensure its normal operation. In order to improve the system efficiency and steadiness of output voltage, a maximum efficiency tracking and constant voltage charging method is proposed for the dynamic WPT system. In this method, the mutual inductance and optimal input voltage can be estimated accurately no matter the coupling coefficient and equivalent load change or not. The simulation and experimental results have shown that the WPT system realize maximum efficiency tracking and constant voltage charging when the resistance is changed from 10Ω to 5Ω, and the same result was achieved when the mutual inductance is altered from 20μH to 10μH.
topic Wireless power transfer
optimal input voltage matching
maximum efficiency tracking
url https://ieeexplore.ieee.org/document/9274305/
work_keys_str_mv AT haohe maximumefficiencytrackingfordynamicwptsystembasedonoptimalinputvoltagematching
AT songcenwang maximumefficiencytrackingfordynamicwptsystembasedonoptimalinputvoltagematching
AT youweiliu maximumefficiencytrackingfordynamicwptsystembasedonoptimalinputvoltagematching
AT chengjiang maximumefficiencytrackingfordynamicwptsystembasedonoptimalinputvoltagematching
AT xiaokangwu maximumefficiencytrackingfordynamicwptsystembasedonoptimalinputvoltagematching
AT binwei maximumefficiencytrackingfordynamicwptsystembasedonoptimalinputvoltagematching
AT bingweijiang maximumefficiencytrackingfordynamicwptsystembasedonoptimalinputvoltagematching
_version_ 1724182712270454784

Similar Items