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    • 6. 发明授权
    • Charge balancing topology
    • 电荷平衡拓扑
    • US08816639B2
    • 2014-08-26
    • US13151694
    • 2011-06-02
    • Cheng-Yi LuErich H. Soendker
    • Cheng-Yi LuErich H. Soendker
    • H02J7/00
    • H02J7/0016
    • A rechargeable battery assembly provides load balancing for individual battery cells making up a battery assembly. The battery assembly includes a plurality of series-connected battery cell assemblies. Each battery cell assembly includes a battery cell and a charge bypass load connected in parallel with the battery cell. A cell supervisory circuits (CSCs) and battery interface unit (BUI) interface between the battery cell assembly and a battery charge/discharge circuit to provide load balancing by comparing the voltages monitored with respect to each battery cell assembly to an end of charge voltage (EOCV) threshold and in response to the monitored voltage equaling the EOCV threshold issues a charge bypass command to the CSC to activate the charge bypass load.
    • 可充电电池组件为组成电池组件的各个电池单元提供负载平衡。 电池组件包括多个串联连接的电池组件。 每个电池单元组件包括与电池单元并联连接的电池单元和充电旁路负载。 电池单元组件和电池充电/放电电路之间的电池监视电路(CSC)和电池接口单元(BUI)接口,用于通过将针对每个电池单元组件监测的电压与充电电压结束进行比较来提供负载平衡( EOCV)阈值,并且响应等于EOCV阈值的监视电压,向CSC发出充电旁路命令以激活充电旁路负载。
    • 8. 发明申请
    • CHARGE BALANCING TOPOLOGY
    • 收费平衡拓扑学
    • US20120306448A1
    • 2012-12-06
    • US13151694
    • 2011-06-02
    • Cheng-Yi LuErich H. Soendker
    • Cheng-Yi LuErich H. Soendker
    • H02J7/04H02J7/00
    • H02J7/0016
    • A rechargeable battery assembly provides load balancing for individual battery cells making up a battery assembly. The battery assembly includes a plurality of series-connected battery cell assemblies. Each battery cell assembly includes a battery cell and a charge bypass load connected in parallel with the battery cell. A cell supervisory circuits (CSCs) and battery interface unit (BUI) interface between the battery cell assembly and a battery charge/discharge circuit to provide load balancing by comparing the voltages monitored with respect to each battery cell assembly to an end of charge voltage (EOCV) threshold and in response to the monitored voltage equaling the EOCV threshold issues a charge bypass command to the CSC to activate the charge bypass load.
    • 可充电电池组件为组成电池组件的各个电池单元提供负载平衡。 电池组件包括多个串联连接的电池组件。 每个电池单元组件包括与电池单元并联连接的电池单元和充电旁路负载。 电池单元组件和电池充电/放电电路之间的电池监视电路(CSC)和电池接口单元(BUI)接口,用于通过将针对每个电池单元组件监测的电压与充电电压结束进行比较来提供负载平衡( EOCV)阈值,并且响应等于EOCV阈值的监视电压,向CSC发出充电旁路命令以激活充电旁路负载。
    • 10. 发明申请
    • GAS AND LIQUID RECOVERY FROM REGOLITH
    • 气体和液体从REGOLITH恢复
    • US20120155966A1
    • 2012-06-21
    • US12974199
    • 2010-12-21
    • Andrew J. ZillmerCheng-Yi Lu
    • Andrew J. ZillmerCheng-Yi Lu
    • B01D57/00
    • B64G4/00
    • A resource recovery system includes a capture container located at a desired surface defining a capture volume between the surface and an interior of the capture container. One or more hole-making devices are configured to excavate soil from at least one hole in the surface. One or more energy emitters direct energy toward the excavated soil to heat the excavated soil thereby releasing one or more compounds. The capture container is configured to capture gas and/or liquid compounds released from the excavated soil. A method of resource extraction from soil includes covering a desired surface with a capture container defining a capture volume between the desired surface and an interior of the capture container. Soil is excavated from a hole in the desired surface into the capture volume. The excavated soil is heated via one or more energy emitters thereby releasing one or more compounds into the capture volume.
    • 资源回收系统包括位于所需表面处的捕获容器,其限定捕获容器的表面和内部之间的捕获体积。 一个或多个制孔装置构造成从表面中的至少一个孔挖掘土壤。 一个或多个能量发射器将能量引向挖掘的土壤以加热挖掘的土壤,从而释放一种或多种化合物。 捕获容器被配置为捕获从挖掘的土壤释放的气体和/或液体化合物。 从土壤中提取资源的方法包括用捕获容器覆盖所需的表面,所述捕获容器在所述捕获容器的所需表面和内部之间限定捕获体积。 土壤从所需表面的孔挖掘到捕获体积中。 挖掘的土壤通过一个或多个能量发射器加热,从而将一种或多种化合物释放到捕获体积中。