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磁耦合谐振式无线电能传输频率跟踪控制研究 总被引:1,自引:0,他引:1
采用频率为100~500 kHz的高频逆变器为无线电能传输(WPT)提供高频交流电源,并基于此研究了WPT的频率跟踪控制以解决频率失谐带来的不良影响。通过理论分析得出,当磁耦合谐振式WPT采用SS或SP拓扑时,可以直接跟踪发射端电流频率,而对于接收端电流,需先将其经过一定处理才可作为被跟踪的信号。经过仿真得出,即使起振频率偏离系统固有谐振频率,直接跟踪发射端频率后也能使电路的工作频率稳定在固有谐振频率,而直接跟踪接收端电流时,电路的工作频率偏离固有谐振频率较远。在理论分析和仿真研究的基础上,实验验证了直接跟踪发射端电流频率的WPT。 相似文献
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Scaling Law of Coupling Coefficient and Coil Size in Wireless Power Transfer Design via Magnetic Coupling 下载免费PDF全文
CHIAKI NAGAI KENJI INUKAI MASATO KOBAYASHI TATSUYA TANAKA KENSHO ABUMI TAKEHIRO IMURA YOICHI HORI 《Electrical Engineering in Japan》2018,202(4):21-30
Wireless Power Transfer (WPT), such as magnetic resonant coupling using a magnetic field, is being studied and discussed for a wide variety of applications. When the transmission distances are large, very large transmitters and receivers need to be considered. However, in the early stages of an investigation, it might be prohibitive to manufacture and evaluate coils of such a large size. To reduce costs and effort, a scaling law can be used to estimate the WPT efficiency of very large coils using the results of smaller coils. In this paper, a scaling law is proposed that relates the coil size to the coupling coefficient, assuming the ratio between the coil diameter and coil length remains constant. The coupling coefficient is one of the parameters that determine the maximum efficiency of magnetic field WPT. The proposed method was verified by an electromagnetic field simulator and experiment. The results of this study provide an easy method for estimating the WPT efficiency of very large coils. 相似文献
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随着磁耦合无线电能传输(wirelesspowertransfer,WPT)系统的应用推广,异物检测技术的研究越来越受到关注。该文综述国内外磁耦合WPT系统异物检测技术的研究现状,首先总结各文献中有关异物和异物检测技术的概念和定义,介绍研究异物检测技术的主要团队,重点分析目前金属异物对磁耦合WPT系统的影响机理、影响规律和金属异物影响下磁耦合WPT系统的建模方法及异物检测方法方面所取得的主要研究成果,给出几种常用的异物检测方法的优缺点和适用范围,论述异物检测技术的未来研究方向。 相似文献
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采用磁耦合谐振技术提供了一种新型无线电能传输方式,其安全、可靠、灵活的特点受到广泛关注。为进一步扩展无线电能传输的应用领域,设计较大功率的无线电能传输系统是十分必要的。基于串并结构谐振电路等效模型,通过电路理论推导出补偿电容、电压增益、效率等表达式,应用Matlab软件对系统的谐振频率进行了仿真分析,得出谐振频率偏移对系统性能影响规律。在此基础上设计了一套无线电能传输实验平台,传输距离为1~7 cm,该装置负载端获得功率可达200 W,最高传输效率为80%。 相似文献
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传统的由发射–接收线圈谐振器组成的基于磁谐振耦合的无线功率传输系统只能短距离的传输能量,在发射端和接收端之间适当的位置插入中继线圈谐振器可以有效的提高传输距离。该文对插入单中继线圈的磁耦合谐振式无线功率接力传输系统进行了研究,得出临界耦合条件和最大功率传输条件。研究了发射线圈和接收线圈之间的交叉耦合系数k13对系统的影响,并得到避免其不利影响的设计准则。数值仿真和实验表明,恰当的使用中继线圈不但能显著提高传输距离,并且因为系统的传输效率和负载功率对中继线圈的横向偏移和角度倾斜变化不敏感,因此还能提高设计的灵活性。 相似文献
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The in‐wheel motor (IWM) is the most preferred driving mechanism of electric vehicles for its advantages of vehicle motion control, energy efficiency, and vehicle design flexibility. One of the technical problems of the IWM is the reliability of power and the signal wires. Wireless power transfer technology is the best solution to this problem. In this paper, a bidirectional wireless power transfer circuit using a primary inverter and a secondary converter is proposed. We propose a control method for both the inverter and the converter to stabilize the secondary dc‐link voltage. The proposed method is verified by simulation and experiment using simulated test equipment. 相似文献
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Novel Transmitting Power Control Method without Signal Communication for Wireless Power Transfer via Magnetic Resonance Coupling 下载免费PDF全文
Wireless power transfer (WPT) via magnetic resonance coupling has been widely studied for vehicle applications, particularly the stationary and dynamic charging of electric vehicles. Our research group previously proposed a wireless in‐wheel motor to improve the reliability and safety of in‐wheel motors. Transmit power control is necessary to achieve stable WPT. We proposed a control method that uses a feedforward controller on the primary side and a feedback controller on the secondary side. However, the control method may cause shortfalls in the transmission power owing to modeling error, coupling coefficient variation, and signal communication delay. In this paper, we propose a novel feedback control method for the primary side based on conversion ratio estimation. The effectiveness of the proposed method was verified by simulations and experiments on the load current control of a constant voltage load and load voltage control of a constant power load. 相似文献
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This paper provides a fundamental analysis of a power supply and rectifiers for wireless power transfer using magnetic resonant coupling (MRC). MRC enables efficient wireless power transfer over middle‐range transfer distances. MRC for wireless power transfer should operate at a high frequency in the industry science medical band, such as 13.56 MHz, because the size of the transfer device decreases at higher transfer frequencies. Therefore, the output frequency of the power supply on the transmitting side should be 13.56 MHz. In addition, the rectifier on the receiving side is operated at a high frequency. This paper focuses on the reflected power in the power supply and rectifiers. Thus, the parametric design method is clarified for the power supply, including a low‐pass filter to match the output, the impedance of the power supply with the characteristic impedance of the transmission line. In addition, the effects on the rectifiers of silicon carbide and gallium nitride diodes are confirmed by performing an experiment and a loss analysis. 相似文献
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磁耦合谐振三线圈无线电能传输的交叉耦合效应及电抗补偿 总被引:1,自引:0,他引:1
在具有中继线圈的磁谐振耦合无线电能传输系统中,非相邻线圈的交叉耦合有可能对系统的工作状态产生扰动,这通常导致系统传输功率和效率的降低。针对单中继线圈的无线电能传输系统,从其等效电路归一化模型入手,详细分析发射线圈和接收线圈之间的交叉耦合对各回路电流和系统传输功率、效率的影响。给出了交叉耦合效应是否可忽略的判定条件,并提出了一种简便的在各回路中通过附加串联电抗以补偿三线圈(发射—中继—接收)无线电能传输系统交叉耦合效应的方法,通过数值仿真计算和实验证明了该方法的可行性。 相似文献
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非铁磁性金属影响下的磁共振耦合电能传输系统建模与分析 总被引:1,自引:0,他引:1
磁共振耦合无线电能传输通道周围存在非铁磁性金属物体时,交变磁场与金属导体相互作用,传输性能受到影响。针对该问题,文中建立了金属物体影响下的非接触电能传输系统模型,推导出任意状态下的功率、效率计算式。理论分析结合实验手段研究金属物体对系统传输性能的影响规律,结果表明:非铁磁性金属物体影响下的共振系统包含无金属干扰系统所具有的共振频率分叉、功率与效率最佳工作频率点往往不重合等基本特性,另外,金属物体的存在还会引起原系统共振频率向上偏移,且传输通道周围的金属物体并不一定总是对系统传输性能产生负面影响,在收发端弱耦合条件下可能对功率或效率传输起到改善作用。分析指出造成系统传输性能变化的根本原因是电涡流参数引起驱动源激励下的系统总等效阻抗及等效负载阻抗的变化所致。理论分析结论与实验结果相吻合。 相似文献
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针对线圈偏置对磁耦合谐振式无线电能传输系统传输效率的影响问题,首先,应用电路理论建立了无线电能传输系统的等效电路模型,并通过求解电路方程得到了系统传输效率的表达式;其次,根据线圈互感与空间位置的关系分析了线圈偏置对线圈互感的直接影响以及对传输效率的间接影响;得出了系统线圈偏置分为无方向性偏置与有方向性偏置两种;最后,设计了一套效率优化流程以补偿因线圈偏置而降低的传输效率。通过仿真实验验证了理论分析的正确性,为移动式无线充电系统的设计与优化提供了参考和借鉴。 相似文献
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基于磁耦合谐振的无线能量传输的实验研究 总被引:2,自引:0,他引:2
磁耦合谐振技术作为中距离高效无线能量传输技术,与传统无线能量传输技术相比具有传输效率高、条件要求低等明显优势,目前国内对此技术的研究大都处于探索阶段。为了准确把握技术核心以及关键点,本文首先建立了无线电能传输模型,并在此基础上利用互感原理和耦合理论对传输效率进行了推导,得出了谐振频率、线圈互感、线圈品质因数等影响传输效率的关键因素。随后,通过大量实验验证了上述理论分析结论,并且对理论推导结论中未体现的因素进行了实验探索,所得结果对原有理论进行了有益补充,在实验室条件下实现了传输效率为60%、接收功率为2W的电能传输。另外,在对发射谐振频率和接收谐振频率与系统谐振频率的关系分析中,利用互感理论解释了接收端谐振频率与系统谐振频率相同的必要性。最后,总结了在磁耦合谐振式无线能量传输技术应用过程中提高传输效率和有效传输距离的若干方法。 相似文献