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    • 2. 发明授权
    • Battery
    • 电池
    • US07740965B2
    • 2010-06-22
    • US10633339
    • 2003-08-01
    • Thomas RichardsAndrew G. GilicinskiRobert Pavlinsky
    • Thomas RichardsAndrew G. GilicinskiRobert Pavlinsky
    • H01M6/02H01M6/30H01M6/38
    • H01M10/425H01M2/0255H01M2/1223H01M2/1229H01M6/5077H01M10/42H01M12/04H01M12/06H01M12/08Y02E60/128
    • A battery includes a battery can housing an cell that supplies electrical energy at terminals of the cell by an electro-chemical reaction with oxygen, the can including, a first member having at least one hole that is exposed to air; and a second member. The battery also includes a mechanism coupled to one of the first and second members to move the one of the first and second members such that when current is drawn from the battery, the opening in the member allows air to pass into the battery, and to move the one of the first and second members such that when current is not drawn from the battery, the opening in the member is not in registration to inhibit air to pass into the battery. The battery also includes a circuit to control the mechanism. In one embodiment the circuit monitors levels of O2 in a air plenum that surrounds the cell. The circuit to monitor levels of O2 in the air plenum includes a florescent detector/sensor that senses and responds to changes in O2 in the plenum by using the “quenching effect” of oxygen on a fluorescent material.
    • 电池包括容纳通过与氧的电化学反应在电池的端子处提供电能的电池的电池壳,所述罐包括具有至少一个暴露于空气的孔的第一构件; 和第二个成员。 电池还包括联接到第一和第二构件中的一个的机构,以移动第一和第二构件中的一个,使得当电池从电池抽出时,构件中的开口允许空气进入电池,并且 移动第一和第二构件中的一个,使得当电流没有从电池中抽出时,构件中的开口不被对准以阻止空气进入电池。 电池还包括一个控制机构的电路。 在一个实施例中,电路监测围绕电池的空气压力室中的氧气的水平。 用于监测空气增压室中的氧气水平的电路包括荧光检测器/传感器,其通过使用荧光材料上的氧的“淬灭效应”来感测并响应气室中的氧气变化。
    • 4. 发明申请
    • BATTERY
    • 电池
    • US20100108909A1
    • 2010-05-06
    • US12685255
    • 2010-01-11
    • Thomas RichardsAndrew G. GilicinskiRobert Pavlinsky
    • Thomas RichardsAndrew G. GilicinskiRobert Pavlinsky
    • G01N21/64
    • H01M10/425H01M2/0255H01M2/1223H01M2/1229H01M6/5077H01M10/42H01M12/04H01M12/06H01M12/08Y02E60/128
    • A battery includes a battery can housing an cell that supplies electrical energy at terminals of the cell by an electro-chemical reaction with oxygen, the can including, a first member having at least one hole that is exposed to air; and a second member. The battery also includes a mechanism coupled to one of the first and second members to move the one of the first and second members such that when current is drawn from the battery, the opening in the member allows air to pass into the battery, and to move the one of the first and second members such that when current is not drawn from the battery, the opening in the member is not in registration to inhibit air to pass into the battery. The battery also includes a circuit to control the mechanism. In one embodiment the circuit monitors levels of O2 in a air plenum that surrounds the cell. The circuit to monitor levels of O2 in the air plenum includes a florescent detector/sensor that senses and responds to changes in O2 in the plenum by using the “quenching effect” of oxygen on a fluorescent material
    • 电池包括容纳通过与氧的电化学反应在电池的端子处提供电能的电池的电池壳,所述罐包括具有至少一个暴露于空气的孔的第一构件; 和第二个成员。 电池还包括联接到第一和第二构件中的一个的机构,以移动第一和第二构件中的一个,使得当电池从电池抽出时,构件中的开口允许空气进入电池,并且 移动第一和第二构件中的一个,使得当电流没有从电池中抽出时,构件中的开口不被对准以阻止空气进入电池。 电池还包括一个控制机构的电路。 在一个实施例中,电路监测围绕电池的空气压力室中的氧气的水平。 用于监测空气增压室中的O2水平的电路包括荧光检测器/传感器,其通过使用荧光材料上的氧的“淬火效应”来感测并响应气室中的氧气变化
    • 5. 发明申请
    • Charging of Li-ion Batteries
    • 锂离子电池充电
    • US20130002199A1
    • 2013-01-03
    • US13171721
    • 2011-06-29
    • Ran HuElik DvorkinRobert Pavlinsky
    • Ran HuElik DvorkinRobert Pavlinsky
    • H02J7/04H02J7/00
    • H02J7/0004H02J7/0072H02J7/045
    • Techniques for charging a rechargeable battery having at least one rechargeable cell are described. A battery charger applies a constant current to charge the rechargeable cell and periodically measures a value of voltage of the rechargeable cell. The value of voltage is tracked over a time period required to charge the rechargeable cell to have the measured value of voltage be substantially equal to a crossover value of voltage for the rechargeable cell. A constant voltage is applied substantially equal to the crossover voltage for a second period of time, with the second period of time selected based on the tracked time period. The charging is terminated after the second period of charging time has elapsed.
    • 描述了对具有至少一个可再充电电池的可充电电池充电的技术。 电池充电器施加恒定电流以对可再充电电池充电并周期性地测量可再充电电池的电压值。 在对可再充电电池充电以使电压的测量值基本上等于可再充电电池的电压的交叉值所需的时间段内跟踪电压值。 基本上等于交叉电压的恒定电压施加第二时间段,其中基于跟踪的时间段选择第二时间段。 在第二次充电时间过后,终止充电。