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    • 31. 发明公开
    • POWER RELAY ASSEMBLY DRIVING APPARATUS AND DRIVING METHOD THEREOF
    • 阿根廷民主主义人民共和国民族解放思想观察团
    • EP2722218A2
    • 2014-04-23
    • EP12800203.7
    • 2012-06-14
    • Yura Corporation Co., Ltd.
    • KIM, Ho KyungLEE, Sang Ryong
    • B60L11/18B60W20/00B60W10/08B60W10/24
    • H02J7/0065B60L3/0023B60L3/04B60L11/1803H02J7/0029H02J7/007Y02T10/7005
    • According to one embodiment of the present invention, a power relay assembly driving apparatus comprises: a first relay unit which switches a connection between a first terminal of a battery unit and a first terminal of an inverter unit having a capacitor; a second relay unit which switches a connection between a second terminal of the battery unit and a second terminal of the inverter unit; a first switching unit connected in parallel to the second relay unit between the second terminal of the battery unit and the second terminal of the inverter unit; a second switching unit connected in parallel to the second relay unit between the second terminal of the battery unit and the second terminal of the inverter unit; and a battery management system (BMS) which controls the first relay unit and the first switching unit in order to pre-charge the capacitor with the power of the battery unit, controls the second relay unit in order to normal-charge the capacitor with the power of the battery unit and then controls the first switching unit in order to end the pre-charging of the capacitor, controls the second switching unit upon a power cutoff of the battery unit in order to form an equipotential between the second relay unit and the second terminal of the inverter unit, and controls the second relay unit in order to electrically separate the second terminal of the battery unit and the second terminal of the inverter unit from each other.
    • 根据本发明的一个实施例,功率继电器组件驱动装置包括:第一中继单元,其切换电池单元的第一端子和具有电容器的逆变器单元的第一端子之间的连接; 第二继电器单元,其切换所述电池单元的第二端子和所述逆变器单元的第二端子之间的连接; 第一开关单元,与电池单元的第二端子和逆变器单元的第二端子之间的第二继电器单元并联连接; 第二开关单元,与电池单元的第二端子和逆变器单元的第二端子之间的第二继电器单元并联连接; 以及控制第一中继单元和第一开关单元以便用电池单元的电力对电容器预充电的电池管理系统(BMS),控制第二中继单元以便对电容器进行正常充电 电池单元的功率,然后控制第一开关单元以结束电容器的预充电,在电池单元的电源切断时控制第二开关单元,以便在第二中继单元和第二开关单元之间形成等电位 逆变器单元的第二端子,并且控制第二中继单元,以将电池单元的第二端子和逆变器单元的第二端子彼此电分离。
    • 34. 发明公开
    • SYSTEM ZUM LADEN EINES ENERGIESPEICHERS UND VERFAHREN ZUM BETRIEB DES LADESYSTEMS
    • SYSTEM ZUM LADEN EINES ENERGIES PEICHERS ANDD VERFAHREN ZUM BETRIEB DES LADESYSTEMS
    • EP2673160A1
    • 2013-12-18
    • EP11805539.1
    • 2011-12-29
    • Robert Bosch GmbH
    • FEUERSTACK, PeterWEISSENBORN, ErikKESSLER, Martin
    • B60L11/18H02J7/00H02M7/49
    • H02J5/00B60L11/1814H02J7/0024H02J7/0065H02J7/1492H02J2007/0059H02J2007/0067H02M2007/4835H02P27/06Y02T10/642Y02T10/7005Y02T10/7055Y02T10/7072Y02T10/92Y02T90/127Y02T90/14
    • The invention relates to a system for charging at least one energy storing cell (5) in a controllable energy store (2) that is used to control and supply electric energy to an n-phase electric machine (1), wherein n >=1. The controllable energy store (2) has n parallel energy supply branches (3-1, 3-2, 3-3), each of which has at least two serially connected energy storing modules (4), each said energy storing module comprising at least one electric energy storing cell (5) with a corresponding controllable coupling unit (6). The energy supply branches (3-1, 3-2, 3-3) can be connected to a reference bus (T-), and each energy supply branch can be connected to a phase (U, V, W) of the electric machine (1). The coupling units (6) bridge the respective corresponding energy storing cells (5) or connect same into the respective energy supply branch (3-1, 3-2; 3-3) dependent on control signals. The aim of the invention is to allow at least one energy storing cell (5) to be charged. This is achieved in that a neutral point (S) of the electric machine (1) and the reference bus (T-) can be connected to a secondary side (9) of a charging transformer (10).
    • 本发明涉及一种用于对可控储能器(2)中的至少一个能量储存单元(5)进行充电的系统,该可控储能器用于控制和供应电能给n相电机(1),其中n≥1 。 可控储能器(2)具有n个并联的能量供应分支(3-1,3-2,3-3),每个能量供应分支具有至少两个串联连接的能量储存模块(4),每个所述能量储存模块包括 至少一个电能存储单元(5)和相应的可控耦合单元(6)。 能量供应分支(3-1,3-2,3-3)可以连接到基准总线(T-),并且每个能量供应分支可以连接到电气的相位(U,V,W) 机器(1)。 耦合单元(6)根据控制信号桥接相应的能量存储单元(5)或将其连接到相应的能量供给分支(3-1,3-2; 3-3)中。 本发明的目的是允许至少一个能量存储单元(5)被充电。 这通过电机(1)和参考母线(T-)的中性点(S)可以连接到充电变压器(10)的次级侧(9)来实现。
    • 38. 发明公开
    • Mobile terminal and power management unit thereof
    • TragbaresEndgerätund Stromverwaltungseinheitdafür
    • EP2568565A2
    • 2013-03-13
    • EP12001316.4
    • 2012-02-28
    • LG ELECTRONICS INC.
    • Lee, KyuhoKoh, EunkwangHyun, Ansun
    • H02J7/00
    • H02J7/0065G09G3/20G09G3/3696G09G2330/021H02J7/0063H02M3/155H02M2001/008
    • A power management unit (210) of a mobile terminal (200). The power management unit (210) includes a DC-DC converter (212) configured to convert an input voltage into first and second output voltages, the mobile terminal also includes a first boosting circuit (214) configured to boost the first output voltage to a first boosting voltage having a first polarity and to selectively apply the first boosting voltage to a display module (240) of the mobile terminal (200). The mobile terminal (200) also includes a second boosting circuit (216) configured to boost the second output voltage to a second boosting voltage having a second polarity that is opposite to the first polarity of the first boosting voltage, and to selectively apply the second boosting voltage to the display module (240) of the mobile terminal (200).
    • 一种移动终端(200)的电源管理单元(210)。 电源管理单元(210)包括被配置为将输入电压转换为第一和第二输出电压的DC-DC转换器(212),移动终端还包括第一升压电路(214),其被配置为将第一输出电压升压到 具有第一极性的第一升压电压并且选择性地将第一升压电压施加到移动终端(200)的显示模块(240)。 移动终端(200)还包括第二升压电路(216),其被配置为将第二输出电压升压到具有与第一升压电压的第一极性相反的第二极性的第二升压电压,并且选择性地施加第二升压电压 提升电压到移动终端(200)的显示模块(240)。
    • 39. 发明公开
    • System power integrated circuit and architecture, management circuit, power supply arrangement, and portable apparatus
    • Systemleistungsintegrierte Schaltung und Architektur,Managementschaltung,Stromversorgungsanordnung und tragbare Vorrichtung
    • EP2562920A2
    • 2013-02-27
    • EP12175045.9
    • 2012-07-05
    • HTC Corporation
    • Chen, Yueh-HsiangTsai, Chien-ShenChuang, Hsun-Hsin
    • H02M3/04
    • H02J7/0065H02M2001/007Y10T307/406
    • According to one embodiment, a management circuit for a portable device includes an input terminal, a first step-up converter, a first step-down converter, and a second step-down converter. The input terminal is coupled to receive a supply voltage from a power supply. The first step-up converter, coupled to the input terminal, selectively converts the supply voltage to a boosted voltage. The first step-down converter, coupled to the first step-up converter, selectively provides a first output power voltage to a first radio frequency (RF) module. The second step-down converter, coupled to the first step-up converter, selectively provides a second output power voltage to a second radio frequency (RF) module. The first step-up converter performs the conversion of the supply voltage when the supply voltage is under a threshold voltage.
    • 根据一个实施例,用于便携式设备的管理电路包括输入端子,第一升压转换器,第一降压转换器和第二降压转换器。 输入端子被耦合以从电源接收电源电压。 耦合到输入端的第一升压转换器选择性地将电源电压转换为升压电压。 耦合到第一升压转换器的第一降压转换器选择性地向第一射频(RF)模块提供第一输出功率电压。 耦合到第一升压转换器的第二降压转换器选择性地向第二射频(RF)模块提供第二输出功率电压。 当电源电压低于阈值电压时,第一升压转换器执行电源电压的转换。