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    • 1. 发明申请
    • Method of testing a battery pack by purposeful charge/discharge operations
    • 通过有目的的充电/放电操作测试电池组的方法
    • US20050156603A1
    • 2005-07-21
    • US11065590
    • 2005-02-25
    • Hsin-An LinKuo-Hsien Tsai
    • Hsin-An LinKuo-Hsien Tsai
    • G01R31/36H02J7/00
    • H02J7/0068G01R31/386H02J7/0047
    • A method of testing a battery pack, wherein a load is connected to a charger and the battery pack, and receives power supply from either the external charger or the battery pack. When the external power line is normally supplied to the load through the charger, the battery pack is purposely enabled to start its discharge and to supply power to the load. When the output voltage of the battery pack drops below a threshold level or the discharging time exceeds a preset limit, the charger re-supplies its output voltage to the load and to charge the battery pack. By the purposeful charge/discharge operations, characteristic data of the battery pack are collected and recorded for estimation of the battery pack capacity and the remaining service life.
    • 一种测试电池组的方法,其中负载连接到充电器和电池组,并且从外部充电器或电池组接收电力供应。 当外部电源线通过充电器正常提供给负载时,电池组有意地启动放电并向负载供电。 当电池组的输出电压低于阈值电平或放电时间超过预设限制时,充电器将其输出电压重新提供给负载,并对电池组充电。 通过有目的的充放电操作,收集和记录电池组的特征数据,以估计电池组容量和剩余使用寿命。
    • 2. 发明授权
    • Modular backup power housing
    • 模块化备用电源外壳
    • US06650539B1
    • 2003-11-18
    • US10173712
    • 2002-06-19
    • Hsin-An LinKuo-Hsien Tsai
    • Hsin-An LinKuo-Hsien Tsai
    • H05K720
    • H05K5/0021
    • A modular backup power housing consists of at least one module and a base. Additional modules may be stacked to accommodate a larger bank of power cells. Each module has a cuboid frame, multiple top rails and multiple bottom tracks. The top rails and the bottom tracks are attached to top and bottom surfaces of the cuboid frame respectively and mate with the top rails and bottom tracks of adjacent modules or the base. By virtue of the interlocking top rails and bottom tracks, the total height of the modular backup power housing is less than a conventional housing, and the strength and stability of the modular backup power housing is improved.
    • 模块化备用电源外壳由至少一个模块和底座组成。 可以堆叠附加模块以容纳较大的一组电力单元。 每个模块都有一个长方体框架,多个顶部轨道和多个底部轨道。 顶部轨道和底部轨道分别连接到长方体框架的顶部和底部表面,并与相邻模块或基座的顶部轨道和底部轨道配合。 通过互锁的顶部轨道和底部轨道,模块化备用电源壳体的总高度小于常规外壳,并且提高了模块化后备电源壳体的强度和稳定性。
    • 3. 发明申请
    • UNINTERRUPTIBLE POWER SYSTEM WITH TWO CURRENT CONVERSION UNITS
    • 具有两个电流转换单元的不间断电源系统
    • US20050116547A1
    • 2005-06-02
    • US10725032
    • 2003-12-02
    • Hsin-An LinKuo-Hsien Tsai
    • Hsin-An LinKuo-Hsien Tsai
    • H02J9/06H02M7/48H02M7/493H02H7/10
    • H02M7/493H02J9/062Y10T307/615Y10T307/625
    • An uninterruptible power system has two current conversion units coupled between a line voltage and a load in parallel, wherein each current conversion unit has a rectifier and an inverter connected in series. The two rectifiers and inverters are further connected to form a cross configuration. At least one battery set is coupled to the output terminals of the two rectifiers, wherein a battery monitor controller is applied to monitor the battery information which is then transferred to a remote host. When either inverter or rectifier is faulty in one of said current conversion modules, the normal inverter or rectifier in the same module is still operated and controlled by the other current conversion module.
    • 不间断电力系统具有并联在线路电压和负载之间的两个电流转换单元,其中每个电流转换单元具有串联连接的整流器和逆变器。 两个整流器和逆变器进一步连接形成交叉配置。 至少一个电池组耦合到两个整流器的输出端子,其中应用电池监视器控制器来监视电池信息,然后将其传送到远程主机。 当其中一个电流转换模块中的任一个变频器或整流器发生故障时,同一模块中的正常逆变器或整流器仍由另一个电流转换模块进行操作和控制。
    • 5. 发明授权
    • Uninterruptible power system with two current conversion units
    • 具有两个电流转换单元的不间断电源系统
    • US06906435B1
    • 2005-06-14
    • US10725032
    • 2003-12-02
    • Hsin-An LinKuo-Hsien Tsai
    • Hsin-An LinKuo-Hsien Tsai
    • H02J9/06H02M7/48H02M7/493H02J7/00
    • H02M7/493H02J9/062Y10T307/615Y10T307/625
    • An uninterruptible power system has two current conversion units coupled between a line voltage and a load in parallel, wherein each current conversion unit has a rectifier and an inverter connected in series. The two rectifiers and inverters are further connected to form a cross configuration. At least one battery set is coupled to the output terminals of the two rectifiers, wherein a battery monitor controller is applied to monitor the battery information which is then transferred to a remote host. When either inverter or rectifier is faulty in one of said current conversion modules, the normal inverter or rectifier in the same module is still operated and controlled by the other current conversion module.
    • 不间断电力系统具有并联在线路电压和负载之间的两个电流转换单元,其中每个电流转换单元具有串联连接的整流器和逆变器。 两个整流器和逆变器进一步连接形成交叉配置。 至少一个电池组耦合到两个整流器的输出端子,其中应用电池监视器控制器来监视电池信息,然后将其传送到远程主机。 当其中一个电流转换模块中的任一个变频器或整流器发生故障时,同一模块中的正常逆变器或整流器仍由另一个电流转换模块进行操作和控制。
    • 6. 发明授权
    • Method for checking power status of batteries
    • 检查电池电源状态的方法
    • US06850036B2
    • 2005-02-01
    • US10373033
    • 2003-02-26
    • Hsin-An LinKuo-Hsien Tsai
    • Hsin-An LinKuo-Hsien Tsai
    • G01R31/36H02J7/00
    • G01R31/3648
    • A method of checking power status of the batteries is disclosed. New batteries are first prepared for discharge tests with different discharge rates, and the standard discharge data for different types of batteries are recorded in a data base for use in power estimation. Afterwards, the battery set installed in an uninterrupted power supply (UPS) system is connected to a monitoring device for continuous monitoring of the test discharge data and discharging time in repeated random discharge tests. The characteristic data including current output, operating temperature, and terminal voltage of the tested battery are then collected and compared with the relevant standard discharge data retrieved from the data base to produce a true estimation of the remaining power of the tested battery.
    • 公开了一种检查电池电源状态的方法。 新电池首先准备用于不同放电率的放电试验,不同类型电池的标准放电数据记录在用于功率估计的数据库中。 然后,将安装在不间断电源(UPS)系统中的电池组连接到监视设备,以连续监视重复随机放电测试中的测试放电数据和放电时间。 然后收集包括测试电池的电流输出,工作温度和端子电压的特性数据,并与从数据库检索的相关标准放电数据进行比较,以产生对被测电池的剩余电量的真实估计。