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    • 3. 发明申请
    • ELECTRICAL POWER TRANSMISSION SYSTEM AND ELECTRICAL POWER OUTPUT DEVICE
    • 电力传输系统和电力输出装置
    • US20110316349A1
    • 2011-12-29
    • US13255589
    • 2010-03-10
    • Takaaki HashiguchiHirotsugu WadaKenichi Fujimaki
    • Takaaki HashiguchiHirotsugu WadaKenichi Fujimaki
    • H02J17/00
    • H02J50/12H01F2038/143H02J5/005H02J50/50H04B5/0037H04B5/0093
    • In an electrical power transmission system according to the present invention, a frequency generator outputs electrical power of an electrical signal having approximately the same frequency component as a resonant frequency of a resonant element to the resonant element via a driven element. The resonant element is an element having impedance and capacitance and generates a magnetic field by the electrical signal from the frequency generator. A magnetic field coupling circuit is a circuit having the same resonant frequency as the resonant element and becomes coupled by magnetic field resonance with the resonant element. The magnetic field coupling circuit causes magnetic field coupling even with another resonant element and transmits electrical power from the resonant element to the other resonant element. The other resonant element outputs electrical power transmitted through the magnetic field coupling circuit to a rectifier circuit via a driven element.
    • 在根据本发明的电力传输系统中,频率发生器经由从动元件将具有与谐振元件的谐振频率大致相同的频率分量的电信号的功率输出到谐振元件。 谐振元件是具有阻抗和电容的元件,并且通过来自频率发生器的电信号产生磁场。 磁场耦合电路是具有与谐振元件相同的谐振频率的电路,并且通过与谐振元件的磁场谐振耦合。 磁场耦合电路即使用另一个谐振元件也引起磁场耦合,并将电功率从谐振元件传输到另一谐振元件。 另一个谐振元件通过驱动元件将通过磁场耦合电路传输的电力输出到整流器电路。
    • 7. 发明申请
    • WIRELESS CHARGING DEVICE AND WIRELESS CHARGING SYSTEM
    • 无线充电装置和无线充电系统
    • US20120007549A1
    • 2012-01-12
    • US13155461
    • 2011-06-08
    • Yuji MurayamaKenichi Fujimaki
    • Yuji MurayamaKenichi Fujimaki
    • H02J7/00
    • H02J7/025H02J50/12H02J50/80H02J50/90
    • Disclosed herein is a wireless charging device including: a feeding device capable of feeding power on a wireless basis; and a display device, the feeding device including a power generating section configured to generate the power to be fed, a power transmitting element section configured to transmit the power generated by the power generating section, and a wireless communicating section capable of wireless data transmission and reception, and the display device being capable of displaying at least one of data transferred from a charging object device and received through the wireless communicating section and information on charging conditions, the information on the charging conditions being received as a response to the power transmitted for charging.
    • 本文公开了一种无线充电装置,包括:能够以无线方式供电的馈电装置; 以及显示装置,所述馈送装置包括被配置为产生要馈送的电力的发电部,被配置为发送由所述发电部生成的电力的电力发送部,以及能够进行无线数据发送的无线通信部, 接收,并且显示装置能够显示从计费对象装置传送并通过无线通信部分接收的数据和关于充电条件的信息的数据中的至少一个,关于充电条件的信息作为响应于为 充电。
    • 8. 发明申请
    • NONCONTACT POWER FEED SYSTEM, NONCONTACT RELAY APPARATUS, NONCONTACT POWER RECEPTION APPARATUS, AND NONCONTACT POWER FEED METHOD
    • 非接线电源馈电系统,非接线电源接收装置,非接线电源馈电装置
    • US20110018359A1
    • 2011-01-27
    • US12820330
    • 2010-06-22
    • Hirotsugu WADAKenichi FUJIMAKI
    • Hirotsugu WADAKenichi FUJIMAKI
    • H02J17/00
    • H02J50/12B60L11/182H02J5/005H02J7/025H02J17/00H02J50/40Y02T10/7005Y02T10/7072Y02T90/122Y02T90/14
    • A noncontact power feed system includes: a noncontact power feed apparatus including a power feed resonance device to supply alternate-current power to an electronic apparatus by resonance in a noncontact manner, and an alternate-current power source section to generate the alternate-current power and supply it to the power feed resonance device; a noncontact relay apparatus including a relay resonance device to receive the alternate-current power and relay it to another electronic apparatus by resonance in a noncontact manner, a relay-side rectifier circuit to form direct-current power for output, and a movement means for moving the noncontact relay apparatus by the direct-current power; and at least one noncontact power reception apparatus including a power reception resonance device to receive the alternate-current power by magnetic field resonance in a noncontact manner, a power-reception-side rectifier circuit to form direct-current power for output, and a load means driven by the direct-current power.
    • 非接触供电系统包括:非接触式供电装置,其包括通过非接触式的谐振向电子设备提供交流电力的供电谐振装置和用于产生交流电力的交流电源部分 并将其提供给馈电共振装置; 一种非接触式继电器装置,包括用于接收交流电力并通过非接触式的谐振将其继电到另一电子装置的继电器共振装置,形成用于输出的直流电力的中继侧整流电路,以及用于 通过直流电源移动非接触式中继装置; 以及至少一个非接触式电力接收装置,包括:以非接触方式通过磁场谐振接收交流电力的受电共振装置,形成用于输出的直流电力的受电侧整流电路;负载 意味着由直流电源驱动。