An Underwater Inductive Power Transfer System with a Compact Receiver and Reduced Eddy Current Loss

Zhang, Yan; Zhao, Chenxu; Hu, Qianyu; Wu, Min; Qiao, Lin; Zhang, Kehan; Hu, Yuli

doi:10.3390/jmse10121900

Cited by 3 publications

(1 citation statement)

References 22 publications

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“…However, these couplers can affect the hydrodynamic performance of AUVs. In order to enhance system efficiency in a seawater environment, Yan conducted research on a square coupler that utilizes planar ferrite cores with single-sided compensation [16]. The use of the SN topology in this system ensures that the phase-angle difference between the two coils is larger than 90 degrees, resulting in a significant reduction in eddy-current loss within the conductive medium.…”

Section: System Overviewmentioning

confidence: 99%

Development of a Radially Coupled Wireless Charging System for Torpedo-Shaped Autonomous Underwater Vehicles

Lin

et al. 2023

JMSE

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Spiral coaxial coils are widely used in wireless charging systems for autonomous underwater vehicles (AUVs). However, these coils can generate axial electromagnetic interference that may adversely affect the electronic components contained within the AUV. In order to overcome this issue, this paper introduced a pair of radially coupled coils which implement distributed ferrite cores. The mathematical model of the curly coils was derived, and its geometry parameters were optimized through the use of genetic algorithms. ANSYS Maxwell was used to analyze and optimize the layout of the ferrite cores. A prototype of the AUV wireless charging system was presented, demonstrating a maximum efficiency of 94% at 2.2 kW in salt water. The rotation adaptivity of the system was also tested, revealing stable output performance within the possible roll-angle variations of the AUV.

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Section: System Overviewmentioning

confidence: 99%

Development of a Radially Coupled Wireless Charging System for Torpedo-Shaped Autonomous Underwater Vehicles

Lin

et al. 2023

JMSE

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Research on Efficient High-Power Density Shore WPT System Based on S-N Topology

Shiqiang,

Long,

Renlong

et al. 2023

2023 IEEE 6th International Conference on Automation, Electronics and Electrical Engineering (AUTEEE)

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Enhancing Power Transmission Stability of AUV’s Wireless Power Transfer System with Compact Planar Magnetic Coupler

Wen

Zhang

et al. 2023

JMSE

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In this paper, a wireless power transfer (WPT) system with a compact planar magnetic coupler for an autonomous underwater vehicle (AUV) is proposed. A passive induction (PI) coil is integrated into the circular transmitter (Tx) coil to build a uniform magnetic field (UMF), which can guarantee the stable output of the WPT system under uncertain radial and axial misalignments for AUV. Based on normalized magnetic induction intensity distribution analysis, a UMF constructing method with a PI coil is given, aiming to eliminate the fluctuation of magnetic field intensity, and the PI coil design principles and flow chart are obtained. The theoretical analysis shows the proposed integrated coil can effectively enhance the radial misalignment tolerance compared with a conventional circular spiral coil. The zero-phase angle (ZPA) input condition can be achieved by adjusting the series capacitor connected with the Tx coil in S-S compensation topology. Experimental results show that the proposed magnetic coupler containing an integrated coil significantly improves the stability of output power and power transfer efficiency within the possible radial and axial misalignments compared with a conventional coupler. It was demonstrated that the output power changes less than 5.5% and the power transfer efficiency maintains at approximately 84.5% in arbitrary radial positions within the possible working region with an axial transfer distance of 50 mm in saltwater.

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An Underwater Inductive Power Transfer System with a Compact Receiver and Reduced Eddy Current Loss

Cited by 3 publications

References 22 publications

Development of a Radially Coupled Wireless Charging System for Torpedo-Shaped Autonomous Underwater Vehicles

Development of a Radially Coupled Wireless Charging System for Torpedo-Shaped Autonomous Underwater Vehicles

Research on Efficient High-Power Density Shore WPT System Based on S-N Topology

Enhancing Power Transmission Stability of AUV’s Wireless Power Transfer System with Compact Planar Magnetic Coupler

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