Double-Sided LCC Compensation Topology with Semi-Bridgeless Rectifier for Wireless Power Transfer System

Cha, Hwa-Rang; Park, Kyungho; Choi, Yeong-Jun; Kim, Rae-Young

doi:10.23919/icpe2019-ecceasia42246.2019.8796908

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Basics Of Lcc-compensation Topologies1

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Cited by 9 publications

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“…In order to achieve efficient transmission behavior, the compensation networks on both sides must be designed individually by one resonant condition of the LCC topologies. To operate in a resonance state, the remaining LCC compensation circuit values were calculated as follows [16]:…”

Section: Basics Of Lcc-compensation Topologiesmentioning

confidence: 99%

A Wireless Multicoil Charging System for Low-Voltage Electric Vehicle Applications

Elbracht

Noeren

Parspour

2021

WEVJ

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In order to inductively charge electric vehicles, which are based on a low-voltage drive train, high currents have to be overcome. This work describes a simulative approach to charge 48 V-based electric vehicles wirelessly with high power. A system was designed on the basis of various boundary conditions and validated by simulation. In order to increase the transmittable power, the system was investigated for an extendable approach and was examined for modularity. In particular, the influences of the secondary coils on each other must be taken into account. Finally, the entire system was evaluated by physical and electrical simulation.

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Section: Basics Of Lcc-compensation Topologiesmentioning

confidence: 99%