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    • 7. 发明申请
    • ENHANCED PARALLEL PROTECTION CIRCUIT
    • 增强型并联保护电路
    • WO2017131981A1
    • 2017-08-03
    • PCT/US2017/013622
    • 2017-01-16
    • MICROSOFT TECHNOLOGY LICENSING, LLC
    • DUTRA, Jonathan AlanFULLAM, Scott FrancisMEHTA, Agustya RuchirPENNY, Junius MarkLUKOFSKY, David
    • H02H3/05H01M10/00H02H7/18
    • H02J7/0026H01M10/425H01M2010/4271H02H3/05H02H7/18H02J7/0031
    • A system (100) using separate battery packs (102A, 102B) in a parallel configuration is arranged with multiple protection circuit modules (PCMs). The PCMs (111) are configured to detect fault conditions, such as over voltage, under voltage, excess current, excess heat, etc. Individual PCMs can be configured to control associated switches (103A, 103B) and/or other components. When a fault condition is detected by an individual PCM, the individual PCM triggers one or more associated switches to shut down one or more components. In addition, by the use of the techniques disclosed herein, the individual PCM can also trigger switches that are controlled by other PCMs. Configurations disclosed herein mitigate occurrences where a multi-PCM device is operating after at least one PCM has shut down. Configurations disclosed herein provide safeguards and redundant protection in scenarios where a fault event is detected by one PCM and not detected by another PCM in a parallel configuration.
    • 采用并联配置的独立电池组(102A,102B)的系统(100)布置有多个保护电路模块(PCM)。 PCM(111)被配置为检测诸如过电压,欠电压,过电流,过热等的故障状况。单独的PCM可以被配置为控制关联的开关(103A,103B)和/或其他部件。 当单个PCM检测到故障状况时,单个PCM触发一个或多个关联的开关来关闭一个或多个组件。 另外,通过使用这里公开的技术,单独的PCM也可以触发由其他PCM控制的开关。 本文公开的配置减轻了在至少一个PCM已经关闭之后多PCM设备正在工作的情况。 本文公开的配置在由一个PCM检测到故障事件而未由并行配置中的另一PCM检测到的情况下提供保障和冗余保护。
    • 9. 发明申请
    • BATTERY MANAGEMENT SYSTEM
    • 电池管理系统
    • WO2017103617A1
    • 2017-06-22
    • PCT/GB2016/053974
    • 2016-12-16
    • OXIS ENERGY LIMITED
    • KABACIK, Lukasz
    • H02J7/00H01M4/58H01M10/46
    • H02J7/0083H01M4/38H01M10/052H01M10/42H01M2010/4271H02J7/0075H02J7/0081
    • The present application provides a battery management system for a lithium sulphur cell. The battery management system comprises a charging module configured to charge a lithium sulphur cell; and a logical module configured to control the charging module to charge the lithium sulphur cell to a shuttle reduction state of charge. The shuttle reduction state of charge is equal to or lower than a predetermined shuttle state of charge at which a first derivative of a state of charge of the lithium sulphur cell during charging with respect to one of time or charge is within a predetermined first derivative threshold of zero and at which a second derivative of the state of charge of the lithium sulphur cell during charging with respect to one of time or charge is within a predetermined second derivative threshold of zero at the same value of time or charge at which the first derivative is within the predetermined first derivative threshold of zero.
    • 本申请提供了用于锂硫电池的电池管理系统。 该电池管理系统包括:充电模块,被配置为给锂硫电池充电; 以及逻辑模块,被配置为控制充电模块以将锂硫电池充电至穿梭降低充电状态。 梭式还原充电状态等于或低于充电期间锂硫电池的充电状态相对于时间或充电之一的一阶状态在预定一阶导数阈值之内的预定穿梭充电状态 为零,并且在充电期间锂硫电池的充电状态相对于时间或电荷之一的二阶导数在预定的二阶导数阈值内为零,在相同的时间或电荷值下, 在零的预定的一阶导数阈值内。