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基于阵列换能器的水下抗错位超声无线传能系统
An Underwater Anti-Misalignment UPT System Based on Array Transducers
| 作者 | Baidong Peng · Kehan Zhang · Zhengchao Yan · Jipan Wang · Zhaoyong Mao |
| 期刊 | IEEE Journal of Emerging and Selected Topics in Power Electronics |
| 出版日期 | 2024年10月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 |
| 相关度评分 | ★★★★ 4.0 / 5.0 |
| 关键词 | 超声无线电能传输 水下航行器 阵列换能器 多对一结构 传输效率 |
语言:
中文摘要
超声无线传能(WPT)技术可穿透金属介质进行能量传输,且不产生电磁干扰与涡流损耗,在水下航行器供电中具有广阔应用前景。本文建立了声场数学模型并引入指向性函数,仿真分析了阵列参数对声束聚焦性能的影响。针对单元件超声传能系统的局限性,提出一种多对一结构的阵列换能器,提升了系统的抗错位能力。设计了一种含LC阻抗匹配网络的新型UPT系统,并实验分析了多对一阵列换能器间角度偏差的影响。相比一对一结构,该结构不仅将系统传输效率提升至72.4%,还能有效抑制接收端偏移引起的能量损耗。
English Abstract
Ultrasonic wireless power transfer (WPT) technology can penetrate metal media for power transfer without generating electromagnetic interference and eddy current loss, which has promising applications in WPT for underwater vehicles. This article establishes a mathematical model of the sound field and introduces the directional function. The impact of the array parameters on beam focusing performance is simulated and analyzed. To address the shortcoming of single-element ultrasonic power transfer (UPT) systems, an array transducer with a multi-to-one structure is proposed, which improves anti-misalignment capability of the system. A novel UPT system with the LC impedance matching network is designed. The experimental results on the angle deviation between the transducer array of the multi-to-one structure are analyzed. Compared to the one-to-one structure, the multi-to-one structure not only improves the transfer efficiency of the system to 72.4%, but also effectively suppresses the loss caused by receiver offsets on the system.
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SunView 深度解读
该水下超声无线传能技术对阳光电源海洋能源装备和特殊场景储能系统具有创新启发价值。其阵列换能器抗错位设计理念可借鉴至PowerTitan储能系统的模块化连接方案,提升恶劣环境下的能量传输稳定性。LC阻抗匹配网络设计思路可应用于ST系列储能变流器的功率传输优化,降低传输损耗。多对一阵列结构的容错机制对海上光伏电站、水下储能舱等新兴场景的无线充电方案具有参考意义,可拓展阳光电源在海洋新能源领域的技术储备。该技术的72.4%传输效率及抗偏移特性,为开发适应动态工况的无线充电系统提供了新思路,可应用于水下机器人、海洋监测设备等特种电源解决方案。