Pan Sun scite author profile

The wireless power transmission (WPT) of an autonomous underwater vehicle (AUV) tends to have non-negligible eddy current loss with increasing frequency or coil current due to the conductivity of seawater. In this paper, the inductor-capacitor-capacitor and parallel (LCC-P) topology and the magnetic coupler with an H-shaped receiver structure are chosen to achieve a compact system on the receiving side. The conditions for constant current output of the LCC-P topology are analyzed based on the cascaded circuit analysis method. The traditional parameter design method does not consider the influence of eddy current loss on the system circuit model, by introducing the equivalent eddy current loss resistance at both the transmitting side and receiving side, a modified circuit model of the WPT system in the seawater condition was obtained. Afterward, a nonlinear programming model with the optimal efficiency of the constant current mode as the objective function is established, and the genetic algorithm is used to obtain the optimal system parameters. An underwater AUV-WPT prototype was built and the finite element simulation and experimental results verified the theoretical analysis.

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Analytical Calculation of Performance of Line-Start Permanent-Magnet Synchronous Motors Based on Multidamping-Circuit Model

Zhou

Huang

Sun

et al. 2021

IEEE Trans. Power Electron.

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Modular Parallel Multi-Inverter System for High-Power Inductive Power Transfer

Deng

Sun

et al. 2019

IEEE Trans. Power Electron.

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Pan Sun

Eddy current loss analysis and frequency optimization design of double-sided LCC-IPT system in seawater environment

Parameter design and verification of inductive contactless power transfer system based on double-sided LCCL resonance

Design of LCC-P Constant Current Topology Parameters for AUV Wireless Power Transfer

Analytical Calculation of Performance of Line-Start Permanent-Magnet Synchronous Motors Based on Multidamping-Circuit Model

Modular Parallel Multi-Inverter System for High-Power Inductive Power Transfer

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