A comparison on simulated, analytic, and measured impedance values for an inductive power transfer system | Zendy

Marius Hassler | Zendy; Oğuz Atasoy | Zendy; Karl Twelker | Zendy; Morris Kesler | Zendy; Johannes Birkendahl | Zendy; Josef Krammer | Zendy

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A comparison on simulated, analytic, and measured impedance values for an inductive power transfer system

Author(s) -

Marius Hassler,

Oğuz Atasoy,

Karl Twelker,

Morris Kesler,

Johannes Birkendahl,

Josef Krammer

Publication year - 2020

Publication title -

wireless power transfer

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.275

H-Index - 11

ISSN - 2052-8418

DOI - 10.1017/wpt.2020.6

Subject(s) - electrical impedance , maximum power transfer theorem , power (physics) , transfer (computing) , mathematics , electrical engineering , computer science , physics , engineering , thermodynamics , parallel computing

Studies on inductive power transfer (IPT) systems are most times either theoretical or experimental. In this paper, we want to bring theoretical models and experimental data together using the impedance based interface proposed in SAE J2954. This proposal characterizes the IPT system by impedances at both coil terminals. We show how the experimental data was retrieved at the interface and use it to validate an analytical model and a Simulink model described within this study. Such models can support the design and development process and therefore a comparison with reality is necessary.

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