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    • 1. 发明申请
    • EFFICIENCY INDICATOR FOR INCREASING EFFICIENCY OF WIRELESS POWER TRANSFER
    • 提高无线电力传输效率的效率指标
    • US20100201513A1
    • 2010-08-12
    • US12580353
    • 2009-10-16
    • Pieter VorenkampReinier Van Der LeeInSun Van Loo
    • Pieter VorenkampReinier Van Der LeeInSun Van Loo
    • G08B1/08H02J7/00G01S1/00
    • H04B5/0031H02J5/005H02J7/025H02J50/12H04B5/0037
    • Techniques are described herein that are capable of using an efficiency indicator for increasing efficiency of a wireless power transfer. A wireless power transfer system includes features that allow the system to be deployed in public spaces such as airports or in commercial establishments such as restaurants or hotels to allow a user to recharge one or more portable electronic devices while away from home. The system may provide an efficiency indicator to a portable electronic device that specifies a recommended position of the portable electronic device. The recommended position may correspond to an efficiency with respect to the wireless power transfer that is greater than an efficiency with respect to the wireless power transfer that corresponds to a position of the portable electronic device. The portable electronic device may generate a sensory signal that indicates the recommended position with reference to the position of the portable electronic device.
    • 本文描述了能够使用效率指示器来提高无线电力传输效率的技术。 无线电力传输系统包括允许将系统部署在诸如机场或诸如餐馆或酒店的商业场所的公共空间中以允许用户在远离家庭的同时对一个或多个便携式电子设备进行充电的特征。 系统可以向指定便携式电子设备的推荐位置的便携式电子设备提供效率指示符。 推荐位置可以对应于无线功率传输的效率,其大于相对于便携式电子设备的位置的无线功率传输的效率。 便携式电子设备可以参考便携式电子设备的位置产生指示推荐位置的感觉信号。
    • 2. 发明申请
    • INCREASING EFFICIENCY OF WIRELESS POWER TRANSFER
    • 提高无线电力传输的效率
    • US20100201313A1
    • 2010-08-12
    • US12580689
    • 2009-10-16
    • Pieter VorenkampReinier Van Der LeeInsun Van Loo
    • Pieter VorenkampReinier Van Der LeeInsun Van Loo
    • H02J7/00H04B5/00
    • H02J7/00B60L11/182H01F38/14H01M10/46H02J5/005H02J7/025H02J17/00H02J50/12
    • Techniques are described herein that are capable of increasing efficiency of wireless power transfer. A wireless power transfer system includes features that allow the system to be deployed in public spaces such as airports or in commercial establishments such as restaurants or hotels to allow a user to recharge one or more portable electronic devices while away from home. To accommodate wireless recharging of a variety of device types and states, the system may receive parameters and/or state information associated with a portable electronic device to be recharged and may control the wireless power transfer in accordance with such parameters and/or state information. For instance, the system may increase efficiency of the wireless power transfer based on such parameters and/or state information. The system may also provide a secure and efficient means for obtaining required payment information from the user prior to the wireless power transfer, thereby facilitating fee-based recharging.
    • 这里描述了能够提高无线电力传输效率的技术。 无线电力传输系统包括允许将系统部署在诸如机场或诸如餐馆或酒店的商业场所的公共空间中以允许用户在远离家庭的同时对一个或多个便携式电子设备进行充电的特征。 为了适应各种设备类型和状态的无线充电,系统可以接收与要再充电的便携式电子设备相关联的参数和/或状态信息,并且可以根据这些参数和/或状态信息来控制无线功率传输。 例如,该系统可以基于这些参数和/或状态信息来提高无线功率传输的效率。 该系统还可以提供用于在无线电力传送之前从用户获得所需支付信息的安全且有效的手段,从而便于基于费用的充电。
    • 3. 发明授权
    • Three state class D amplifier
    • 三级D级放大器
    • US07230485B2
    • 2007-06-12
    • US10548247
    • 2004-03-02
    • Guillaume De CremouxInsun Van Loo
    • Guillaume De CremouxInsun Van Loo
    • H03F3/217
    • H03F3/2173H03F2200/33
    • A three state class D amplifier (100) comprising a first signal path (1) and a second signal path (1′) substantially identical with the first signal path (1). Each of the signal paths (1, 1′) comprises respective first and second low-pass filter means (10, 10′) coupled to respective input signals (Vn, Vp) provided by input means (Inp, In, Ip), first and second ends (A, B) of a load (5) and to an pulse generator (2) providing a signal having a frequency substantially higher than a frequency of the input signals (Vn, Vp) for generating respective first and second low-pass filtered signals (SUP, SDW). The low-pass filtered signals (SUP, SDW) are inputted to respective comparing means (3, 3′). The comparing means (3, 3′) are coupled to a threshold generator (4) coupled to the input means (Inp, In, Ip) and to first and second reference signals (Vmax, Vmin) representing an estimation of a maximum and a minimum signal value through the load (5) and generating an alternating threshold signal (THRES) that is inverse proportional to a difference between the first and second input signals (Vn, Vp) for maintaining a relative high gain of the amplifier in an idle state.
    • 三状态D类放大器(100)包括与第一信号路径(1)基本相同的第一信号路径(1)和第二信号路径(1')。 每个信号路径(1,1')包括耦合到由输入装置(Inp,In,Ip)提供的各个输入信号(Vn,Vp)的相应的第一和第二低通滤波器装置(10,10'),第一 和负载(5)的第二端(A,B)和提供具有基本上高于输入信号(Vn,Vp)的频率的频率的信号的脉冲发生器(2),用于产生相应的第一和第二低通滤波器 经过滤波的信号(SUP,SDW)。 低通滤波信号(SUP,SDW)被输入到各个比较装置(3,3')。 比较装置(3,3')耦合到耦合到输入装置(Inp,In,Ip)的阈值发生器(4)以及表示最大值的估计的第一和第二参考信号(Vmax,Vmin) 通过负载(5)的最小信号值,并产生与第一和第二输入信号(Vn,Vp)之间的差成反比的交替阈值信号(THRES),用于将放大器的相对高增益保持在空闲状态 。
    • 4. 发明授权
    • Power supply management integrated circuit
    • 电源管理集成电路
    • US09052892B2
    • 2015-06-09
    • US12451891
    • 2008-05-27
    • Sasa RisticInSun Van LooPatrick E. G. Smeets
    • Sasa RisticInSun Van LooPatrick E. G. Smeets
    • G06F1/26G06F1/32
    • G06F1/3203G06F1/3234G06F1/3246G06F1/329Y02D10/24Y02D50/20
    • A power management integrated circuit comprises a plurality of power source circuits power received at a power supply input terminal to supply power to a plurality of power supply output terminals. A plurality of power source circuits is coupled between the power supply input terminal and the respective power supply output terminals. The power management integrated circuit comprises an active configuration memory and a communication interface with at least one terminal for uploading configuration data from outside the power management integrated circuit into the configuration memory. A control circuit controls operating parameters of respective ones of the power source circuits dependent on the configuration data from the active configuration memory. Thus, the power management integrated circuit is able to switch between different power supply states in a dynamically configurable way, without requiring external control over the configuration during switching.
    • 电源管理集成电路包括多个电源电路,在电源输入端子处接收电力,以向多个电源输出端子供电。 多个电源电路耦合在电源输入端子和相应的电源输出端子之间。 电源管理集成电路包括主动配置存储器和与至少一个终端的通信接口,用于将配置数据从电源管理集成电路外部上载到配置存储器中。 控制电路根据来自主动配置存储器的配置数据控制各个电源电路的操作参数。 因此,电源管理集成电路能够以动态可配置的方式切换不同的电源状态,而不需要在切换期间对配置进行外部控制。
    • 5. 发明申请
    • Three state class d amplifier
    • 三级D级放大器
    • US20060077007A1
    • 2006-04-13
    • US10548247
    • 2004-03-02
    • Guillaume De CremouxInsun Van Loo
    • Guillaume De CremouxInsun Van Loo
    • H03F3/217
    • H03F3/2173H03F2200/33
    • A three state class D amplifier (100) comprising a first signal path (1) and a second signal path (1′) substantially identical with the first signal path (1). Each of the signal paths (1, 1′) comprises respective first and second low-pass filter means (10, 10′) coupled to respective input signals (Vn, Vp) provided by input means (Inp, In, Ip), first and second ends (A, B) of a load (5) and to an pulse generator (2) providing a signal having a frequency substantially higher than a frequency of the input signals (Vn, Vp) for generating respective first and second low-pass filtered signals (SUP, SDW). The low-pass filtered signals (SUP, SDW) are inputted to respective comparing means (3, 3′). The comparing means (3, 3′) are coupled to a threshold generator (4) coupled to the input means (Inp, In, Ip) and to first and second reference signals (Vmax, Vmin) representing an estimation of a maximum and a minimum signal value through the load (5) and generating an alternating threshold signal (THRES) that is inverse proportional to a difference between the first and second input signals (Vn, Vp) for maintaining a relative high gain of the amplifier in an idle state.
    • 三状态D类放大器(100)包括与第一信号路径(1)基本相同的第一信号路径(1)和第二信号路径(1')。 每个信号路径(1,1')包括耦合到由输入装置(Inp,In,Ip)提供的各个输入信号(Vn,Vp)的相应的第一和第二低通滤波器装置(10,10'),第一 和负载(5)的第二端(A,B)和提供具有基本上高于输入信号(Vn,Vp)的频率的频率的信号的脉冲发生器(2),用于产生相应的第一和第二低通滤波器 经过滤波的信号(SUP,SDW)。 低通滤波信号(SUP,SDW)被输入到各个比较装置(3,3')。 比较装置(3,3')耦合到耦合到输入装置(Inp,In,Ip)的阈值发生器(4)以及表示最大值的估计的第一和第二参考信号(Vmax,Vmin) 通过负载(5)的最小信号值,并产生与第一和第二输入信号(Vn,Vp)之间的差成反比的交替阈值信号(THRES),用于将放大器的相对高增益保持在空闲状态 。
    • 9. 发明授权
    • Increasing efficiency of wireless power transfer
    • 提高无线电力传输的效率
    • US08427100B2
    • 2013-04-23
    • US12580689
    • 2009-10-16
    • Pieter VorenkampReinier Van Der LeeInSun Van Loo
    • Pieter VorenkampReinier Van Der LeeInSun Van Loo
    • H02J7/04H02J7/00
    • H02J7/00B60L11/182H01F38/14H01M10/46H02J5/005H02J7/025H02J17/00H02J50/12
    • Techniques are described herein that are capable of increasing efficiency of wireless power transfer. A wireless power transfer system includes features that allow the system to be deployed in public spaces such as airports or in commercial establishments such as restaurants or hotels to allow a user to recharge one or more portable electronic devices while away from home. To accommodate wireless recharging of a variety of device types and states, the system may receive parameters and/or state information associated with a portable electronic device to be recharged and may control the wireless power transfer in accordance with such parameters and/or state information. For instance, the system may increase efficiency of the wireless power transfer based on such parameters and/or state information. The system may also provide a secure and efficient means for obtaining required payment information from the user prior to the wireless power transfer, thereby facilitating fee-based recharging.
    • 这里描述了能够提高无线电力传输效率的技术。 无线电力传输系统包括允许将系统部署在诸如机场或诸如餐馆或酒店的商业场所的公共空间中以允许用户在远离家庭的同时对一个或多个便携式电子设备进行充电的特征。 为了适应各种设备类型和状态的无线充电,系统可以接收与要再充电的便携式电子设备相关联的参数和/或状态信息,并且可以根据这些参数和/或状态信息来控制无线功率传输。 例如,该系统可以基于这些参数和/或状态信息来提高无线功率传输的效率。 该系统还可以提供用于在无线电力传送之前从用户获得所需支付信息的安全且有效的手段,从而便于基于费用的充电。