NONAQUEOUS ELECTROLYTE TYPE LITHIUM ION SECONDARY BATTERY SYSTEM, METHOD OF DETERMINING LITHIUM DEPOSITION IN THE SYSTEM, AND VEHICLE MOUNTING THE SYSTEM
    2.
    发明申请
    NONAQUEOUS ELECTROLYTE TYPE LITHIUM ION SECONDARY BATTERY SYSTEM, METHOD OF DETERMINING LITHIUM DEPOSITION IN THE SYSTEM, AND VEHICLE MOUNTING THE SYSTEM 有权
    非电解电解质锂离子二次电池系统,确定系统中锂离子沉积的方法和车辆安装系统

    公开(公告)号:US20120179398A1

    公开(公告)日:2012-07-12

    申请号:US13055738

    申请日:2009-10-01

    IPC分类号: G01R31/36

    摘要: It is arranged to obtain charging voltage when charging voltage is applied to a nonaqueous electrolyte type lithium ion secondary battery and discharging voltage when a discharging current is generated by the battery. A coefficient of a quadratic term of an approximated curve of a quadratic function with respect to changes in value within a sampling period for each of the charging voltage and the discharging voltage is calculated. This calculation is repeated over a plurality of the sampling periods. Based on occurrence situations of symmetry phenomenon and intersection phenomenon in the calculated coefficients, it can be determined whether or not there is a possibility of lithium deposition without disassembling the battery.

    摘要翻译: 当对非水电解质型锂离子二次电池施加充电电压并且当电池产生放电电流时,其放电电压被设置为获得充电电压。 计算相对于每个充电电压和放电电压的采样周期内的值的变化的二次函数的近似曲线的二次项的系数。 在多个采样周期中重复该计算。 根据计算出的系数中的对称现象和交点现象的发生情况,可以确定在不拆卸电池的情况下是否存在锂沉积的可能性。

    Nonaqueous electrolyte type lithium ion secondary battery system, method of determining lithium deposition in the system, and vehicle mounting the system
    4.
    发明授权
    Nonaqueous electrolyte type lithium ion secondary battery system, method of determining lithium deposition in the system, and vehicle mounting the system 有权
    非水电解质型锂离子二次电池系统,确定系统中锂沉积的方法,以及车辆安装系统

    公开(公告)号:US08538711B2

    公开(公告)日:2013-09-17

    申请号:US13055738

    申请日:2009-10-01

    IPC分类号: G01R31/36

    摘要: It is arranged to obtain charging voltage when charging voltage is applied to a nonaqueous electrolyte type lithium ion secondary battery and discharging voltage when a discharging current is generated by the battery. A coefficient of a quadratic term of an approximated curve of a quadratic function with respect to changes in value within a sampling period for each of the charging voltage and the discharging voltage is calculated. This calculation is repeated over a plurality of the sampling periods. Based on occurrence situations of symmetry phenomenon and intersection phenomenon in the calculated coefficients, it can be determined whether or not there is a possibility of lithium deposition without disassembling the battery.

    摘要翻译: 当对非水电解质型锂离子二次电池施加充电电压并且当电池产生放电电流时,其放电电压被设置为获得充电电压。 计算相对于每个充电电压和放电电压的采样周期内的值的变化的二次函数的近似曲线的二次项的系数。 在多个采样周期中重复该计算。 根据计算出的系数中的对称现象和交点现象的发生情况,可以确定在不拆卸电池的情况下是否存在锂沉积的可能性。

    LITHIUM SECONDARY BATTERY AND MANUFACTURING METHOD THEREFOR
    5.
    发明申请
    LITHIUM SECONDARY BATTERY AND MANUFACTURING METHOD THEREFOR 审中-公开
    锂二次电池及其制造方法

    公开(公告)号:US20120251878A1

    公开(公告)日:2012-10-04

    申请号:US13498362

    申请日:2009-09-28

    IPC分类号: H01M4/64 H01M10/04

    摘要: The lithium secondary battery provided by the present invention includes a negative electrode having a negative electrode collector and a negative electrode layer including a negative electrode active material and formed on the surface of the negative electrode collector, and is characterized in that the negative electrode layer comprises a negative electrode active material layer composed primarily of a negative electrode active material, and an insulating layer composed primarily of an insulating filler and formed on the negative electrode active material layer, and the ratio (Sb/Sa) of a pore specific surface area of the insulating layer (Sb: m2/g) to a pore specific surface area of the negative electrode active material layer (Sa: m2/g), as measured by a mercury porosimeter, satisfies the relationship 1.2≦(Sb/Sa)≦2.5.

    摘要翻译: 本发明提供的锂二次电池包括具有负极集电体的负极和包含负极活性物质的负极层,并形成在负极集电体的表面上,其特征在于,负极层包含 主要由负极活性物质构成的负极活性物质层和形成在负极活性物质层上的主要由绝缘性填料构成的绝缘层,和比表面积的比(Sb / Sa) 通过水银孔率计测定的绝缘层(Sb:m2 / g)与负极活性物质层的孔比表面积(Sa:m2 / g)满足关系1.2≦̸(Sb / Sa)&nlE ; 2.5。