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    • 43. 发明授权
    • Dynamic power consumption control for a computer or other electronic apparatus
    • 电脑或其他电子设备的动态功耗控制
    • US06574740B1
    • 2003-06-03
    • US09455661
    • 1999-12-07
    • Shigefumi OdaohharaArimasa Naitoh
    • Shigefumi OdaohharaArimasa Naitoh
    • G06F130
    • G06F1/3265G06F1/32Y02D10/153
    • Disclosed is a method and apparatus for controlling power consumption of the PC, which is provided with base loads comprising a plurality of components, as well as a CPU including operation modes of “throttling” and “clock-down”. Actual power consumption 103 of the CPU in a certain operation mode varies heavily or widely within a range of maximum power consumption of the CPU. A variation of actual power consumption 101 of the base loads is relatively gentle or mild. Predicted maximum power consumption (Pmax) of the PC is obtained from actual power consumption of the base loads and maximum power consumption in the current operation mode of the CPU. Reference power vales 121, 123, 125 are set up such that they are compared with the Pmax for changing an operation mode to another operation mode. When the Pmax exceeds a reference power vale, the operation mode of the CPU is changed for controlling actual power consumption of the PC.
    • 公开了一种用于控制PC的功耗的方法和装置,其具有包括多个部件的基本负载,以及包括“节流”和“下降”的操作模式的CPU。 在某一操作模式下,CPU的实际功耗103在CPU的最大功耗范围内变化很大或广泛。 基本负载的实际功耗101的变化相对温和或温和。 PC的预计最大功耗(Pmax)由CPU的当前运行模式下的基本负载的实际功耗和最大功耗获得。 参考功率值121,123,125被设置为使得它们与用于将操作模式改变为另一操作模式的Pmax进行比较。 当Pmax超过参考功率值时,改变CPU的操作模式以控制PC的实际功耗。
    • 45. 发明授权
    • Method and apparatus for controlling battery charging current
    • 控制电池充电电流的方法和装置
    • US06288522B1
    • 2001-09-11
    • US09571430
    • 2000-05-15
    • Shigefumi OdaohharaKeiji Suzuki
    • Shigefumi OdaohharaKeiji Suzuki
    • H02J700
    • H02J7/0055
    • A method and apparatus for controlling battery charging current selectively receive electrical power from either a first external power source or a second external power source and outputs part of the power source to a charger for charging a battery. A reference value supplying apparatus gives a first reference value equivalent to the output current capability of the first external power source when a charging-current controller is connected to the first external power source and gives a second reference value equivalent to the current capability of the second external power source when the charging-current controller is connected to the second external power source. A current detection circuit detects current that the charging-current controller receives from either the first external power source or the second external power source and a charging current control circuit controls a charging current in the charger so that the charging current does not exceed the first or second reference value detected by the current detection circuit.
    • 用于控制电池充电电流的方法和装置选择性地从第一外部电源或第二外部电源接收电力,并将一部分电源输出到用于对电池充电的充电器。 当充电电流控制器连接到第一外部电源时,参考值提供装置给出与第一外部电源的输出电流能力相当的第一参考值,并给出等于第二外部电源的当前能力的第二参考值 当充电电流控制器连接到第二外部电源时,外部电源。 电流检测电路检测充电电流控制器从第一外部电源或第二外部电源接收的电流,并且充电电流控制电路控制充电器中的充电电流,使得充电电流不超过第一或 由电流检测电路检测的第二基准值。
    • 48. 发明授权
    • Surface temperature dependent battery cell charging system
    • 表面温度依赖电池充电系统
    • US08203314B2
    • 2012-06-19
    • US12234381
    • 2008-09-19
    • Shigefumi Odaohhara
    • Shigefumi Odaohhara
    • H02J7/04H02J7/00
    • H02J7/0091
    • A charging system capable of charging a battery cell so that the surface temperature of the battery cell does not exceed an upper temperature limit, is provided. A battery charger is configured in a manner such that a setting current is variable during charging. The battery charger starts charging of a secondary battery with a setting voltage set to a minimum charging current value. The surface temperature of the secondary battery is measured during charging. An estimated temperature value is calculated which is a surface temperature of the secondary battery, at which the secondary battery is charged up until a charging amount corresponding to the maximum surface temperature under assumption that the charging is performed with a present charging current value. The setting current is increased when the estimated temperature value is lower than the target temperature range and is reduced when the estimated temperature value is higher than the target temperature range. When the estimated temperature value belongs to the target temperature range, a present setting current is maintained.
    • 提供一种能够对电池单元充电以使得电池单元的表面温度不超过上限温度的充电系统。 电池充电器被配置成使得在充电期间设定电流是可变的。 电池充电器以设定为最小充电电流值的二次电池开始充电。 在充电期间测量二次电池的表面温度。 计算作为二次电池的表面温度的估计温度值,二次电池在假定以当前充电电流值进行充电的情况下充电直到对应于最大表面温度的充电量。 当估计温度值低于目标温度范围时,设定电流增加,当估计温度值高于目标温度范围时,设定电流降低。 当估计温度值属于目标温度范围时,保持当前的设定电流。