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    • 1. 发明授权
    • Battery pack having a processor controlled battery operating system
    • 具有处理器控制的电池操作系统的电池组
    • US5652502A
    • 1997-07-29
    • US473340
    • 1995-06-07
    • Duong van PhuocRudi WieczorekElmar ZeisingLouis W. HruskaAlwyn H. TaylorDaniel D. FrielMatthew P. Hull
    • Duong van PhuocRudi WieczorekElmar ZeisingLouis W. HruskaAlwyn H. TaylorDaniel D. FrielMatthew P. Hull
    • G01R31/36H01M6/50H01M10/42H01M10/44H02J7/00H02J7/02H02J7/04H02J9/06
    • H01M6/5011G01R31/3655G01R31/3658H01M10/42H01M10/4257H01M10/44H02J7/0003H02J7/0004H02J7/0011H02J9/061Y10S320/13
    • A smart battery device which provides electrical power and which reports predefined battery parameters to an external device having a power management system, includes: at least one rechargeable cell connected to a pair of terminals to provide electrical power to an external device during a discharge mode and to receive electrical power during a charge mode, as provided or determined by the remote device; a data bus for reporting predefined battery identification and charge parameters to the external device; analog devices for generating analog signals representative of battery voltage and current at said terminals, and an analog signal representative of battery temperature at said cell; a hybrid integrated circuit (IC) having a microprocessor for receiving the analog signals and converting them to digital signals representative of battery voltage, current and temperature, and calculating actual charge parameters over time from the digital signals, the calculations including one calculation according to the following algorithm;CAP.sub.rem =CAP.sub.FC -.SIGMA.I.sub.d .DELTA.t.sub.d -.SIGMA.I.sub.s .DELTA.t+.SIGMA..epsilon..sub.c I.sub.c .DELTA.t.sub.cwherein .epsilon..sub.c is a function of battery current and temperature; and I.sub.s is a function of battery temperature and CAP.sub.FC. Superimposed on this equation is reset logic, that self corrects the value of CAP.sub.FC with a capacity calculation at each full charge (EOC) and each end of full discharge.
    • 提供电力并且向具有电力管理系统的外部设备报告预定义的电池参数的智能电池装置包括:连接到一对终端的至少一个可充电电池,以在放电模式期间向外部装置提供电力;以及 以在远程设备提供或确定的充电模式期间接收电力; 用于向外部设备报告预定义的电池识别和充电参数的数据总线; 用于产生表示所述端子处的电池电压和电流的模拟信号的模拟装置,以及表示所述电池处的电池温度的模拟信号; 具有微处理器的混合集成电路(IC),用于接收模拟信号并将其转换为代表电池电压,电流和温度的数字信号,以及从数字信号中随时间计算实际电荷参数,所述计算包括根据 以下算法; CAPrem = CAPFC-SIGMA Id DELTA td-SIGMA是DELTA t + SIGMA epsilon cIc DELTA tc其中εc是电池电流和温度的函数; 而Is是电池温度和CAPFC的函数。 在该方程上叠加的是复位逻辑,其自身通过在每个完全充电(EOC)和每次完全放电结束时的容量计算来校正CAPFC的值。
    • 5. 发明授权
    • Smart battery algorithm for reporting battery parameters to an external
device
    • 用于向外部设备报告电池参数的智能电池算法
    • US5606242A
    • 1997-02-25
    • US318004
    • 1994-10-04
    • Matthew P. HullAlwyn H. TaylorLouis W. HruskaDaniel D. Friel
    • Matthew P. HullAlwyn H. TaylorLouis W. HruskaDaniel D. Friel
    • G01R31/36H01M10/42H01M10/48H02J7/00H02J7/02H02J7/04H02J7/10
    • H02J7/0091H02J7/0004H02J7/008
    • A smart battery which provides electrical power and which reports predefined battery parameters to an external device having a power management system, includes: at least one rechargeable cell connected to a pair of terminals to provide electrical power to an external device during a discharge mode and to receive electrical power during a charge mode, as provided or determined by the remote device; a data bus for reporting predefined battery identification and charge parameters to the external device; analog devices for generating analog signals representative of battery voltage and current at said terminals, and an analog signal representative of battery temperature at said cell; a hybrid integrated circuit (IC) having a microprocessor for receiving the analog signals and converting them to digital signals representative of battery voltage, current and temperature, and calculating actual charge parameters over time from the digital signals, the calculations including one calculation according to the following algorithm;CAP.sub.rem =CAP.sub.FC -.SIGMA.I.sub.d .DELTA.t.sub.d -.SIGMA.I.sub.s .DELTA.t+.SIGMA..epsilon..sub.c I.sub.c .DELTA.t.sub.cwherein .epsilon..sub.c is a function of battery current and temperature; and I.sub.s is a function of battery temperature and CAP.sub.FC. Superimposed on this equation is reset logic, that self corrects the value of CAP.sub.FC with a capacity calculation at each full charge (EOC) and each end of full discharge.
    • 提供电力并且向具有电力管理系统的外部设备报告预定义的电池参数的智能电池包括:连接到一对端子的至少一个可再充电电池,以在放电模式期间向外部设备提供电力,并且 在远程设备提供或确定的充电模式期间接收电力; 用于向外部设备报告预定义的电池识别和充电参数的数据总线; 用于产生表示所述端子处的电池电压和电流的模拟信号的模拟装置,以及表示所述电池处的电池温度的模拟信号; 具有微处理器的混合集成电路(IC),用于接收模拟信号并将其转换为代表电池电压,电流和温度的数字信号,以及从数字信号中随时间计算实际电荷参数,所述计算包括根据 以下算法; CAPrem = CAPFC-SIGMA Id DELTA td-SIGMA是DELTA t + SIGMA epsilon cIc DELTA tc其中εc是电池电流和温度的函数; 而Is是电池温度和CAPFC的函数。 在该方程上叠加的是复位逻辑,其自身通过在每个完全充电(EOC)和每次完全放电结束时的容量计算来校正CAPFC的值。