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    • 1. 发明授权
    • State-of-charge estimation method, state-of-charge estimation device, and secondary-battery power system
    • 充电状态估算方法,充电状态估算装置和二次电池电力系统
    • US08903667B2
    • 2014-12-02
    • US13616792
    • 2012-09-14
    • Etsuzo SatoNoriyasu Iwane
    • Etsuzo SatoNoriyasu Iwane
    • G01R31/36
    • G01R31/362
    • There is provided a state-of-charge estimation method, a state-of-charge estimation device, and a secondary-battery power system that may quickly and stably determine the convergence value of an adjustment parameter of a voltage characteristic formula that may approximate change over time of an open-circuit voltage of a secondary battery with high precision by appropriately setting the initial value of the adjustment parameter. At step S14, a selected voltage measurement values V1, VMbi ((i=1 to (n−1)), and VMm are used to calculate an initial value A0i (i=1 to n) of an adjustment parameter Ai (i=1 to n). In addition, at step S15, an integer string bi (i=1 to (n−1)) and a real number C are used to calculate an initial value B01 (i=1 to n) of an adjustment parameter Bi (i=1 to n).
    • 提供了充电状态估计方法,充电状态估计装置和二次电池电力系统,其可以快速且稳定地确定可以近似改变的电压特性公式的调整参数的收敛值 通过适当地设定调整参数的初始值,随着时间的推移高精度的二次电池的开路电压。 在步骤S14中,使用所选择的电压测量值V1,VMbi((i = 1〜(n-1))和VMm来计算调整参数Ai(i = 另外,在步骤S15中,使用整数串bi(i = 1〜(n-1))和实数C来计算调整的初始值B01(i = 1〜n) 参数Bi(i = 1〜n)。
    • 2. 发明申请
    • STATE-OF-CHARGE ESTIMATION METHOD, STATE-OF-CHARGE ESTIMATION DEVICE, AND SECONDARY-BATTERY POWER SYSTEM
    • 充电状态估算方法,充电状态估算装置和二次电池电力系统
    • US20130013237A1
    • 2013-01-10
    • US13616792
    • 2012-09-14
    • Etsuzo SATONoriyasu IWANE
    • Etsuzo SATONoriyasu IWANE
    • G01N27/416G06F19/00
    • G01R31/362
    • There is provided a state-of-charge estimation method, a state-of-charge estimation device, and a secondary-battery power system that may quickly and stably determine the convergence value of an adjustment parameter of a voltage characteristic formula that may approximate change over time of an open-circuit voltage of a secondary battery with high precision by appropriately setting the initial value of the adjustment parameter. At step S14, a selected voltage measurement values V1, VMbi ((i=1 to (n−1)), and VMm are used to calculate an initial value A0i (i=1 to n) of an adjustment parameter Ai (i=1 to n). In addition, at step S15, an integer string bi (i=1 to (n−1)) and a real number C are used to calculate an initial value B01 (i=1 to n) of an adjustment parameter Bi (i=1 to n).
    • 提供了充电状态估计方法,充电状态估计装置和二次电池电力系统,其可以快速且稳定地确定可以近似改变的电压特性公式的调整参数的收敛值 通过适当地设定调整参数的初始值,随着时间的推移高精度的二次电池的开路电压。 在步骤S14中,使用所选择的电压测量值V1,VMbi((i = 1〜(n-1))和VMm来计算调整参数Ai(i = 另外,在步骤S15中,使用整数串bi(i = 1〜(n-1))和实数C来计算调整的初始值B01(i = 1〜n) 参数Bi(i = 1〜n)。
    • 3. 发明授权
    • Method and device for determining state of health of the battery, and battery power supply system
    • 用于确定电池的健康状况的方法和装置以及电池供电系统
    • US07788052B2
    • 2010-08-31
    • US12328234
    • 2008-12-04
    • Noriyasu IwaneFumikazu IwahanaAtsushi Kimura
    • Noriyasu IwaneFumikazu IwahanaAtsushi Kimura
    • G01R31/36
    • G01R31/3679
    • A method and the device are provided for determining state of health of the battery, in addition to the power supply system using the device, to reduce operational and processing load by expanding the data sampled at the time when the battery is caused to discharge square wave pulses into the square wave is provided. The method includes determining state of health of a battery by causing the battery to discharge square wave pulses with a prescribed cycle at a prescribed current value. Response voltages are sampled at a time of a pulse-discharge. The sampled response voltages are sampled into orthogonal square wave components. An amplitude of the square wave component is divided by the current value of the pulse-discharge to obtain a pseudo-impedance. A state of health of the battery based on the pseudo-impedance is determined.
    • 提供一种用于确定电池的健康状况的方法和装置,除了使用该装置的电源系统之外,通过扩展在电池放电方波时采样的数据来减少操作和处理负载 提供了进入方波的脉冲。 该方法包括通过使电池以规定的电流值以规定的周期放电方波脉冲来确定电池的健康状态。 在脉冲放电时采样响应电压。 将采样的响应电压采样成正交方波分量。 将方波分量的振幅除以脉冲放电的电流值,得到伪阻抗。 确定基于伪阻抗的电池的健康状态。
    • 4. 发明授权
    • Method for determining deterioration of accumulator battery, method for measuring internal impedance of secondary battery, equipment for measuring internal impedance of secondary battery, equipment for determining deterioration of secondary battery, and power supply system
    • 蓄电池的劣化判定方法,二次电池的内部阻抗测定方法,二次电池的内部阻抗测定装置,二次电池的劣化判定装置以及电力供给系统
    • US07362074B2
    • 2008-04-22
    • US11317286
    • 2005-12-27
    • Noriyasu IwaneYuichi WatanabeTakezo SugimuraToshiyuki SatohAtsushi KimuraFumikazu IwahanaKatsumi InaniwaTetsuya Kanou
    • Noriyasu IwaneYuichi WatanabeTakezo SugimuraToshiyuki SatohAtsushi KimuraFumikazu IwahanaKatsumi InaniwaTetsuya Kanou
    • H01M10/44H01M10/46
    • G01R31/3662G01R31/3675G01R31/3679
    • A method for determining deterioration of accumulator battery hooked up with loads in a system based on results of measuring internal resistances of an accumulator battery, the method comprising the steps of; predetermining as a specified temperature a temperature at which the deterioration of the accumulator battery is determined; calculating in advance temperature correction coefficients of the internal resistances from changes of the internal resistances depending on temperatures; predetermining resistance-voltage conversion factors to convert between the internal resistances at the specified temperature and terminal discharge voltages of the accumulator battery which are obtained at the specified temperature under a condition of flowing predetermined discharge currents from the accumulator battery; measuring the internal resistances of the accumulator battery and temperature of the accumulator battery at an internal resistance measurement; converting the measured internal resistance values into the internal resistance values at the specified temperature with use of the temperature correction coefficients of the internal resistances; converting the internal resistance values at the specified temperature into the terminal discharge voltage values of the accumulator battery at the specified temperature with use of the resistance-voltage conversion factors; and determining whether the accumulator battery is deteriorated or not by means of comparison of the terminal discharge voltage values of the accumulator battery at the specified temperature and a predetermined threshold value as a deterioration judgment standard.
    • 一种用于基于测量蓄电池的内部电阻的结果来确定在系统中负载耦合的蓄电池的劣化的方法,所述方法包括以下步骤: 预先确定蓄电池电池劣化的温度为指定温度; 根据温度从内部电阻的变化中预先计算内部电阻的温度校正系数; 预先确定电阻 - 电压转换系数,以在从蓄电池流动预定的放电电流的条件下,在规定温度下获得的内部电阻和蓄电池的终端放电电压之间转换; 在内部电阻测量时测量蓄电池的内部电阻和蓄电池的温度; 使用内部电阻的温度校正系数将所测量的内部电阻值转换为指定温度下的内部电阻值; 使用电阻 - 电压转换因子将指定温度下的内部电阻值转换为指定温度下蓄电池的端子放电电压值; 并且通过将在规定温度下的蓄电池的端子排出电压值与预定阈值进行比较来判定蓄电池是否劣化为劣化判定基准。
    • 7. 发明申请
    • METHOD AND DEVICE FOR DETERMINING STATE OF HEALTH OF THE BATTERY, AND BATTERY POWER SUPPLY SYSTEM
    • 用于确定电池健康状况的方法和装置以及电池电源系统
    • US20090140744A1
    • 2009-06-04
    • US12328234
    • 2008-12-04
    • Noriyasu IWANEFumikazu IWAHANAAtsushi KIMURA
    • Noriyasu IWANEFumikazu IWAHANAAtsushi KIMURA
    • G01R31/36
    • G01R31/3679
    • A method and the device are provided for determining state of health of the battery, in addition to the power supply system using the device, to reduce operational and processing load by expanding the data sampled at the time when the battery is caused to discharge square wave pulses into the square wave is provided. The method includes determining state of health of a battery by causing the battery to discharge square wave pulses with a prescribed cycle at a prescribed current value. Response voltages are sampled at a time of a pulse-discharge. The sampled response voltages are sampled into orthogonal square wave components. An amplitude of the square wave component is divided by the current value of the pulse-discharge to obtain a pseudo-impedance. A state of health of the battery based on the pseudo-impedance is determined.
    • 提供一种用于确定电池的健康状况的方法和装置,除了使用该装置的电源系统之外,通过扩展在电池放电方波时采样的数据来减少操作和处理负载 提供了进入方波的脉冲。 该方法包括通过使电池以规定的电流值以规定的周期放电方波脉冲来确定电池的健康状态。 在脉冲放电时采样响应电压。 将采样的响应电压采样成正交方波分量。 将方波分量的振幅除以脉冲放电的电流值,得到伪阻抗。 确定基于伪阻抗的电池的健康状态。
    • 9. 发明申请
    • METHOD AND DEVICE FOR ESTIMATING BATTERY RESIDUAL CAPACITY, AND BATTERY POWER SUPPLY SYSTEM
    • 用于估算电池剩余容量的方法和装置,以及电池电源系统
    • US20080243405A1
    • 2008-10-02
    • US12041972
    • 2008-03-04
    • Noriyasu IWANE
    • Noriyasu IWANE
    • G01R31/36G06F19/00
    • G01R31/3651G01R31/362
    • In the method for estimating battery residual capacity of the present invention, the voltage measurement values are obtained (step S2). And once it is finished, using the initial values of the coefficients set at the step S3 as starting, the optimization is progressed with renewing each value of the coefficients on the following iterating calculations (step S4). Once the optimum value of each coefficient in the approximation is determined at the step S4, the stable open circuit voltage is calculated by the optimized reciprocal function using thereof at the step S5. And then based thereon, the battery residual capacity is calculated by the predetermined conversion method (step S6).
    • 在本发明的电池剩余容量的估计方法中,获得电压测量值(步骤S2)。 一旦完成,使用在步骤S3设定的系数的初始值作为开始,则通过在随后的迭代计算中更新系数的每个值来进行优化(步骤S 4)。 一旦在步骤S 4中确定了近似值中的每个系数的最佳值,则在步骤S 5中利用其优化的互逆函数来计算稳定的开路电压。 然后基于此,通过预定的转换方法计算电池剩余容量(步骤S6)。
    • 10. 发明申请
    • Method for determining deterioration of accumulator battery, method for measuring internal impedance of secondary battery, equipment for measuring internal impedance of secondary battery, equipment for determining deterioration of secondary battery, and power supply system
    • 蓄电池的劣化判定方法,二次电池的内部阻抗测定方法,二次电池的内部阻抗测定装置,二次电池的劣化判定装置以及电力供给系统
    • US20060186890A1
    • 2006-08-24
    • US11317286
    • 2005-12-27
    • Noriyasu IwaneYuichi WatanabeTakezo SugimuraToshiyuki SatohAtsushi KimuraFumikazu IwahanaKatsumi InaniwaTetsuya Kanou
    • Noriyasu IwaneYuichi WatanabeTakezo SugimuraToshiyuki SatohAtsushi KimuraFumikazu IwahanaKatsumi InaniwaTetsuya Kanou
    • G01N27/416
    • G01R31/3662G01R31/3675G01R31/3679
    • A method for determining deterioration of accumulator battery hooked up with loads in a system based on results of measuring internal resistances of an accumulator battery, the method comprising the steps of; predetermining as a specified temperature a temperature at which the deterioration of the accumulator battery is determined; calculating in advance temperature correction coefficients of the internal resistances from changes of the internal resistances depending on temperatures; predetermining resistance-voltage conversion factors to convert between the internal resistances at the specified temperature and terminal discharge voltages of the accumulator battery which are obtained at the specified temperature under a condition of flowing predetermined discharge currents from the accumulator battery; measuring the internal resistances of the accumulator battery and temperature of the accumulator battery at an internal resistance measurement; converting the measured internal resistance values into the internal resistance values at the specified temperature with use of the temperature correction coefficients of the internal resistances; converting the internal resistance values at the specified temperature into the terminal discharge voltage values of the accumulator battery at the specified temperature with use of the resistance-voltage conversion factors; and determining whether the accumulator battery is deteriorated or not by means of comparison of the terminal discharge voltage values of the accumulator battery at the specified temperature and a predetermined threshold value as a deterioration judgment standard.
    • 一种用于基于测量蓄电池的内部电阻的结果来确定在系统中负载耦合的蓄电池的劣化的方法,所述方法包括以下步骤: 预先确定蓄电池电池劣化的温度为指定温度; 根据温度从内部电阻的变化中预先计算内部电阻的温度校正系数; 预先确定电阻 - 电压转换系数,以在从蓄电池流动预定的放电电流的条件下,在规定温度下获得的内部电阻和蓄电池的终端放电电压之间转换; 在内部电阻测量时测量蓄电池的内部电阻和蓄电池的温度; 使用内部电阻的温度校正系数将所测量的内部电阻值转换为指定温度下的内部电阻值; 使用电阻 - 电压转换因子将指定温度下的内部电阻值转换为指定温度下蓄电池的端子放电电压值; 并且通过将在规定温度下的蓄电池的端子排出电压值与预定阈值进行比较来判定蓄电池是否劣化为劣化判定基准。