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水下自主航行器非接触式充电系统频率控制 被引量:6

Research on frequency control of contactless charging system of AUV
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摘要 水下自主航行器(AUV)非接触式充电系统通过补偿电容与系统电感的谐振作用,使系统的功率因数达到最大,以实现电能的高效传输。在深海环境下,系统初、次级磁芯在受到水流冲击后会产生偏心和间隙,引起耦合系数发生变化,系统的谐振频率点也会发生改变,充电能力下降。本文研究在水流冲击作用下,通过频率控制使系统始终在谐振频率点运行以提高系统的传输能力,并提出了基于锁相环控制的AUV非接触式充电系统的频率控制实现方式。 Through resonance oscillation between compensating capacitor and system inductance, the power factor of the contactless charging system of AUV is maximized, and thus the realization the high-efficient transmission of electrical energy. In deep-sea environment, eccentricity and space will be created in the primary and secondary magnetic core of the system under the impact of water, which result in the change of coupling factor and the resonant frequency, and untimately lead to the decrease of charging author tries to study how to maintain the running of the charging system through the impact of water,and thus the improvement of the transmission capacity ;what's more the methods to realize the frequency control of contactless charging system of AUV capability. In this thesis, the control of frequecy under the ,the author also puts forward under the control of PLL.
作者 唐凡 张克涵 严卫生 宋保维
机构地区 西北工业大学航海学院
出处 《舰船科学技术》 北大核心 2013年第2期43-46,76,共5页 Ship Science and Technology
关键词 非接触式 频率控制 水流冲击 频率 锁相环 contactless frequency control water impact frequency PLL
分类号 TM762 [电气工程—电力系统及自动化]
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参考文献6

二级参考文献15

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  • 2韩腾,卓放,闫军凯,刘涛,王兆安.非接触电能传输系统频率分叉现象研究[J].电工电能新技术,2005,24(2):44-47. 被引量:47
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舰船科学技术
2013年 第2期

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