Optimal Design of Magnetic Resonance Wireless Charging Coil for Unmanned Aerial Vehicles1

机译： 1 无人机磁共振无线充电线圈的优化设计

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In this paper, an optimal design of magnetic resonance wireless charging coil for unmanned aerial vehicles (UAV s) is proposed to optimally design the structure of charging coupled transmitting coils and vehicle-carrying receiving coils for UAVs¹. A parallel matrix double-layer coil superposition structure is adopted through transmitting coils and the size parameters of vehicle-carrying receiving coils are optimized to match the transmitting coil array, thereby ensuring a relatively high coupling coefficient between the receiving coils and transmitting platform when UAVs are located in any area of the charging platform, so as to improve the transmission efficiency of the UAV wireless charging system. The experiment results show that the transmission efficiency of the optimized designed coupled coil system can be kept stable with the horizontal movement of the receiving coils and transmitting coils.

机译：针对无人机的磁共振无线充电线圈，提出了一种优化设计，以对无人机的发射耦合发射线圈和车载接收线圈进行充电设计。 ^{1
。发射线圈采用平行矩阵双层线圈叠加结构，优化了车载接收线圈的尺寸参数以匹配发射线圈阵列，从而确保了无人机在接收线圈与发射平台之间的耦合系数较高。位于充电平台的任何区域，以提高无人机无线充电系统的传输效率。实验结果表明，优化设计的耦合线圈系统的传输效率可以随着接收线圈和发送线圈的水平运动而保持稳定。}

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来源
《International Conference on Smart City and Systems Engineering》|2018年|469-472|共4页
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作者
Li Qiong; Wang Huayun; Wang Wenbin; Meng Tianqi; Wang Yongyue;
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Couplings; Magnetic fields; Inductive charging; Inductance; Unmanned aerial vehicles; Magnetic resonance; Wireless communication;

机译：联轴器;磁场;感应充电;电感;无人机;磁谐振;无线通信;

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Optimal Design of Magnetic Resonance Wireless Charging Coil for Unmanned Aerial Vehicles1

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