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1.发明申请Non-contact power transmission system, receiving apparatus and transmitting apparatus 有权非接触式电力传输系统,接收装置和发送装置公开(公告)号:US20120235508A1
公开(公告)日:2012-09-20
申请号:US13417716
申请日:2012-03-12
申请人: Katsuei ICHIKAWA
发明人: Katsuei ICHIKAWA
IPC分类号: H02J17/00
CPC分类号: H02J50/12 , H02J5/005 , H02J7/0021 , H02J7/025 , H02J17/00 , H02J50/40 , H02J50/80 , H02J2007/0001 , H04B5/0025 , H04B5/0031 , H04B5/0037 , H04B5/0075 , H04B5/0081 , H04B5/0087 , H04B5/0093 , Y02T10/7055
摘要: A non-contact power transmission system comprises: a primary coil including a power supply coil and a magnetic resonance coil; and a secondary coil including a load coil, thereby transmitting an electric power from the power supply coil at a self-resonating frequency of the magnetic resonance coil, which is determined by a parasitic capacitance between wound wires of the coil and a self inductance of the coil, and taking out the electric power supplied, from the load coil of the secondary coil through magnetic coupling, with non-contact, wherein the electric power is transmitted, with non-contact, with applying magnetic coupling in coupling between the power supply coil and the magnetic resonance coil and coupling between the magnetic resonance coil and the load coil.
摘要翻译: 非接触式电力传输系统包括:初级线圈,其包括电源线圈和磁共振线圈; 以及包括负载线圈的次级线圈,从而以磁共振线圈的自谐振频率从电源线圈发送电力,其由线圈的绕组线之间的寄生电容和 线圈,并且通过磁耦合从所述次级线圈的负载线圈提供的电力以非接触的方式从所述次级线圈的负载线圈中取出,其中所述电力以非接触的方式传输,在所述电源线圈 磁共振线圈和磁共振线圈与负载线圈之间的耦合。
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2.发明申请WIRELESS POWER TRANSFER SYSTEM AND A LOAD APPARATUS IN THE SAME WIRELESS POWER TRANSFER SYSTEM 有权无线电力传输系统和相关无线电力传输系统中的负载设备公开(公告)号:US20100164295A1
公开(公告)日:2010-07-01
申请号:US12619019
申请日:2009-11-16
申请人: Katsuei ICHIKAWA , Taku Takaki
发明人: Katsuei ICHIKAWA , Taku Takaki
IPC分类号: H02J17/00
摘要: In wireless power transfer with applying magnetic resonance therein, for suppressing deterioration of transfer efficiency, with lessening fluctuation of the resonance frequency when a distance between coils is close to, coils are so position that a supply-side power supply coil 101 and a load-side power supply coil 102 are inserted between a supply-side magnetic resonance coil 1 and a load-side magnetic resonance coil 2.
摘要翻译: 在其中施加磁共振的无线电力传输中,为了抑制转印效率的劣化,当线圈间距离接近时,随着共振频率的波动减小,线圈的位置使得供电侧电源线圈101和负载 - 侧供电线圈102插入在供电侧磁共振线圈1和负载侧磁共振线圈2之间。
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