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    • 2. 发明申请
    • NON-RESONANT AND QUASI-RESONANT SYSTEM FOR WIRELESS POWER TRANSMISSION TO MULTIPLE RECEIVERS
    • 用于多个接收器的无线电力传输的非共振和准谐振系统
    • US20120169136A1
    • 2012-07-05
    • US13329924
    • 2011-12-19
    • Gianpaolo LisiGerard G. SocciAli DjabbariKosha Mahmodieh
    • Gianpaolo LisiGerard G. SocciAli DjabbariKosha Mahmodieh
    • H01F38/14
    • H04B5/0037H02J5/005H02J7/025H02J50/12H02J50/40H04B5/0081
    • A wireless power transfer system includes: a non-resonant transmitter, or a transmitter with a resonant circuit; and a non-resonant receiver, or a receiver with a resonant circuit. In some implementations, a transmitter with a resonant circuit is operated away from its resonance frequency. In some implementations, a receiver with a resonant circuit is operated away from the transmitter resonance frequency and/or the transmitter operating frequency. In some implementations, the selection of receiver resonance frequency is based on receiver power requirements. Thus, wireless power transfer may be accomplished by operating away from resonance in a quasi-resonant or non-resonant mode, and further may be accomplished using a non-resonant transmitter and/or a non-resonant receiver. Effective power transfer may also be achieved between a transmitter and multiple receivers. A combination of resonant and non-resonant transmitter and receiver(s) may be used for power transfer.
    • 无线电力传输系统包括:非谐振发射器或具有谐振电路的发射器; 和非谐振接收器,或具有谐振电路的接收器。 在一些实施方式中,具有谐振电路的发射机的作用远离其谐振频率。 在一些实施方式中,具有谐振电路的接收器远离发射机谐振频率和/或发射机工作频率操作。 在一些实现中,接收机谐振频率的选择基于接收机功率要求。 因此,无线功率传输可以通过远离共振或非谐振模式的谐振来实现,并且还可以使用非谐振发射器和/或非谐振接收器来实现。 也可以在发射机和多个接收机之间实现有效的功率传输。 谐振和非谐振发射器和接收器的组合可用于功率传输。
    • 5. 发明授权
    • Non-resonant and quasi-resonant system for wireless power transmission to multiple receivers
    • 用于无线电力传输到多个接收器的非谐振和准谐振系统
    • US09088307B2
    • 2015-07-21
    • US13329924
    • 2011-12-19
    • Gianpaolo LisiGerard G. SocciAli DjabbariKosha Mahmodieh
    • Gianpaolo LisiGerard G. SocciAli DjabbariKosha Mahmodieh
    • H01F27/42H04B5/00H02J5/00H02J7/02
    • H04B5/0037H02J5/005H02J7/025H02J50/12H02J50/40H04B5/0081
    • A wireless power transfer system includes: a non-resonant transmitter, or a transmitter with a resonant circuit; and a non-resonant receiver, or a receiver with a resonant circuit. In some implementations, a transmitter with a resonant circuit is operated away from its resonance frequency. In some implementations, a receiver with a resonant circuit is operated away from the transmitter resonance frequency and/or the transmitter operating frequency. In some implementations, the selection of receiver resonance frequency is based on receiver power requirements. Thus, wireless power transfer may be accomplished by operating away from resonance in a quasi-resonant or non-resonant mode, and further may be accomplished using a non-resonant transmitter and/or a non-resonant receiver. Effective power transfer may also be achieved between a transmitter and multiple receivers. A combination of resonant and non-resonant transmitter and receiver(s) may be used for power transfer.
    • 无线电力传输系统包括:非谐振发射器或具有谐振电路的发射器; 和非谐振接收器,或具有谐振电路的接收器。 在一些实施方式中,具有谐振电路的发射机的作用远离其谐振频率。 在一些实施方式中,具有谐振电路的接收器远离发射机谐振频率和/或发射机工作频率操作。 在一些实现中,接收机谐振频率的选择基于接收机功率要求。 因此,无线功率传输可以通过远离共振或非谐振模式的谐振来实现,并且还可以使用非谐振发射器和/或非谐振接收器来实现。 也可以在发射机和多个接收机之间实现有效的功率传输。 谐振和非谐振发射器和接收器的组合可用于功率传输。
    • 10. 发明申请
    • Method and system for providing local converters to provide maximum power point tracking in an energy generating system
    • 用于提供本地转换器以在能量产生系统中提供最大功率点跟踪的方法和系统
    • US20090284240A1
    • 2009-11-19
    • US12152491
    • 2008-05-14
    • Jianhui ZhangAli DjabbariGianpaolo Lisi
    • Jianhui ZhangAli DjabbariGianpaolo Lisi
    • G05F1/00
    • G05F1/67H02M3/1582
    • A method for providing maximum power point tracking for an energy generating device using a local buck-boost converter coupled to the device is provided. The method includes operating in a tracking mode, which includes initializing a conversion ratio for the buck-boost converter based on a previous optimum conversion ratio. A device power associated with the initialized conversion ratio is calculated. The conversion ratio is repeatedly modified and a device power associated with each of the modified conversion ratios is calculated. A current optimum conversion ratio for the buck-boost converter is identified based on the calculated device powers. The current optimum conversion ratio corresponds to one of a buck mode, a boost mode and a buck-boost mode for the buck-boost converter.
    • 提供了一种使用耦合到该器件的局部降压 - 升压转换器为能量产生装置提供最大功率点跟踪的方法。 该方法包括在跟踪模式下操作,其包括基于先前的最佳转换比来初始化降压 - 升压转换器的转换比。 计算与初始化的转换比相关联的设备功率。 转换比率被重复修改,并且计算与每个修改的转换比率相关联的设备功率。 基于所计算的器件功率来识别用于降压 - 升压转换器的当前最佳转换比。 当前的最佳转换比对应于降压 - 升压转换器的降压模式,升压模式和降压 - 升压模式之一。