面向最优效率的潜标耦合电能传输系统
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TM72 TH766

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山东省重点研发计划(2019GHY112072,2019GHY112051)、精密测试技术及仪器国家重点实验室开放基金(pilab1906)项目资助


Submerged buoy coupling power transfer system for optimal efficiency
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    摘要:

    将耦合电能传输技术应用于潜标系统,能够为其携带的通信信标,提供无电气接触的充电功能。 但由于信标与潜标的 间距会发生变化,导致系统处于偏谐振状态,系统效率降低。 本文首先分析耦合线圈随间距变化的规律,并对系统进行建模,分 析系统偏谐振状态下线圈耦合效率与频率的关系;利用仿真验证了通过搜索算法调整工作频率,实现系统效率提升的可行性; 建立线圈间距可变的系统样机,验证搜索算法对于系统效率提升的有效性。 实验表明,当线圈间距变化时,搜索算法能够实现 系统效率的提升。 粒子群搜索算法的最大效率相对定步长扰动观测法提升 3% ,并且受到初始中心频率的选择影响较小,具有 很好的鲁棒性,能够用于提升系统在线圈间距变化时的传输效率。

    Abstract:

    When the coupling power transfer ( CPT) is applied in the submerged buoy system, it can provide power for the communication beacon without electrical contact. However, the distance between the beacon and the submerged buoy will change. The system may be in the deviating resonance state and its efficiency will be reduced. In this article, the law of the coupling coil with the distance is analyzed. The model of the CPT system is formulated. The relationship between the coil efficiency and frequency in the deviating resonance state is studied. The system efficiency can be improved by using the search algorithm, which is evaluated by simulation. A prototype of the CPT system with variable distance is established to evaluate the search algorithm. Experimental results show that the search algorithm can improve the system efficiency under the change of the coil distance. Compared with the fixed-step perturbation observation algorithm, the maximum efficiency of the particle swarm optimization (PSO) is increased by 3% , which is less affected by the choice of the initial center frequency. The efficiency of the CPT system can be improved when the coil distance changes by using PSO.

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徐佳毅,李洪宇,谢子铭,李醒飞.面向最优效率的潜标耦合电能传输系统[J].仪器仪表学报,2021,(4):75-82

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  • 在线发布日期: 2023-06-28
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