Results 251 to 260 of about 142,653 (288)
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A Dynamic Multivariable State-Space Model for Bidirectional Inductive Power Transfer Systems
IEEE Transactions on Power Electronics, 2012Bidirectional inductive power transfer (IPT) systems facilitate contactless power transfer between two sides, which are separated by an air gap, through weak magnetic coupling. Typical bidirectional IPT systems are essentially high-order resonant circuits and, therefore, difficult to both design and control without an accurate mathematical model, which
Akshya Swain, Duleepa J Thrimawithana
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A Comparison of Transmitter Connection for Dynamic Inductive Power Transfer Application
2022 25th International Conference on Electrical Machines and Systems (ICEMS), 2022Nattapong Hatchavanich +2 more
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Hybrid Inductive Power Transfer Topologies for Dynamic Wireless Power Transfer
Computers and Electrical EngineeringShibajee Nath
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Auto-Segment Control System With High Spatially Average Power for Dynamic Inductive Power Transfer
IEEE Transactions on Transportation Electrification, 2023Ying Luo, Yi Song, Ruikun Mai
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Dynamic Wireless Charging for Inductive Power Transfer Systems in Electric Vehicles
ECS Transactions, 2022The charging plate creates magnetic fluxing. The charging plate and the adjacent coil can induce current without any contact. By the new trends, wireless charging got more social attention to the outside world as an alternative method for primitive wired charging.
Ponmani Raja M +4 more
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Analysis of Dynamic Charging Performances of Optimized Inductive Power Transfer Couplers
2021 IEEE 19th International Power Electronics and Motion Control Conference (PEMC), 2021This paper aims to investigate the dynamic charging performance of an 11 kW dynamic inductive power transfer (DIPT) system. First, a multi-objective optimization (MOO) method is proposed to find the Pareto front of the DD charging pad. Then, the optimal design with a 96.82% efficiency is selected as the target design for the DIPT system.
Shi, W. (author) +5 more
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Inductive wireless power transfer for electric vehicle dynamic charging
2016 IEEE PELS Workshop on Emerging Technologies: Wireless Power Transfer (WoW), 2016The aim of the paper is to present an overview of inductive wireless power transfer (WPT) technologies for the application of electric vehicles (EVs) wireless charging. The basic principles of this technology are introduced followed by a classification of power electronic architectures and the magnetic coupler design.
Mustapha Debbou, Frangois Colet
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A dynamic model for bi-directional Inductive Power Transfer systems
IECON 2011 - 37th Annual Conference of the IEEE Industrial Electronics Society, 2011Bi-directional Inductive Power Transfer (IPT) systems facilitate contactless power transfer between two sides and across an air-gap, through weak magnetic coupling. These systems constitute a 6th order resonant circuit and, as such, are difficult to design and control.
Akshya K Swain +3 more
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Design and Validation of a Dynamic Inductive Power Transfer System for EV Battery Charging
2022 Second International Conference on Sustainable Mobility Applications, Renewables and Technology (SMART), 2022In this paper, a Dynamic Resonant Inductive Power Transfer (DRIPT) System for the Electric Vehicle (EV) battery charging is proposed. In particular, the aim of the work is the general design of the whole system and its validation, with particular attention to the power electronic converters and their control. For the transmitter side, a DC/AC converter
Busacca A. +5 more
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Design and characterization of a meander type dynamic inductively coupled power transfer coil
2016 IEEE Energy Conversion Congress and Exposition (ECCE), 2016The aim of this paper is to present an alternative coil topology for ICPT (Inductively Coupled Power Transmission) links, called meander type coil, specifically for dynamic charging. The analysis is carried out using FEM software FLUX® supported by Matlab®. The goal is to design an inductive link in such a way that the coupling keeps constant while the
Ugaitz Iruretagoyena +4 more
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