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一种无无人机侧补偿和铁氧体的轻量双向无线能量载体
A Lightweight Bidirectional Wireless Energy Carrier Without Drone-Side Compensation and Ferrite for Devices in Inaccessible Places
| 作者 | Yiming Zhang · Xingpeng Yu · Yi Chen · Qiliang Liu · Peiyao Rao · Yizhan Zhuang |
| 期刊 | IEEE Transactions on Industrial Electronics |
| 出版日期 | 2025年7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 | 无人机 无线充电 供电解决方案 无补偿双向系统 难达地点设备充电 |
语言:
中文摘要
针对恶劣与危险环境中电子设备的供电难题,本文提出利用无人机作为能量载体进行无线充电的解决方案。无人机在地面站无线充电后,飞至目标位置对设备实施无线供电。为实现轻量化与紧凑结构,无人机端采用无补偿元件及铁氧体的螺旋耦合器,构建了无人机侧无补偿的双向无线充电系统。地面端配置补偿电容与电感以实现零相位角。研究了系统的抗偏移性能与恒压输出特性。实验结果验证了该方案在难以接近区域设备充电应用中的可行性与竞争力。
English Abstract
The power supply issue for electrical devices in harsh and dangerous environments is challenging. This letter proposes a power supply solution using drones as an energy carrier to charge such devices. The drone is wirelessly charged at the ground-side station and then flies to the target place to charge the devices wirelessly. To achieve a compact and lightweight structure, the helical coupler is designed without compensation components and ferrite on the drone side. Thus, a drone-side uncompensated bidirectional wireless charging system is formed. Compensation capacitors and inductors are employed on the ground side to achieve zero phase angle. The antioffset performance and the constant-voltage output characteristic of the system are investigated. The experimental results verified that the proposed approach can be a competitive solution for charging devices in inaccessible places.
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SunView 深度解读
该轻量化双向无线充电技术对阳光电源储能与充电业务具有创新启发价值。其无补偿、无铁氧体的螺旋耦合器设计可应用于:1)PowerTitan储能系统的模块化维护场景,通过无人机对高位或密闭空间的BMS模块进行非接触式供电与数据传输;2)光伏电站iSolarCloud智能运维中,为偏远山地或屋顶的监测传感器提供应急充电方案;3)充电桩产品线可借鉴其地面侧补偿拓扑实现恒压输出与抗偏移特性,优化电动汽车无线充电的功率传输效率。该技术的双向能量流与轻量化设计理念,可推动阳光电源在极端环境供电与智能运维领域的技术突破。