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    DRIVING CIRCUIT FOR IGBT MODULE
    1.
    发明申请
    DRIVING CIRCUIT FOR IGBT MODULE 审中-公开
    IGBT模块驱动电路

    公开(公告)号:WO2014101878A1

    公开(公告)日:2014-07-03

    申请号:PCT/CN2013/091041

    申请日:2013-12-31

    Applicant: SHENZHEN BYD AUTO R&D COMPANY LIMITED BYD COMPANY LIMITED

    Inventor: LAN, Chengyu YANG, Qinyao CHEN, Gang

    IPC: H03K17/567

    CPC classification number: H03K17/567 H03K17/14 H03K17/168 H03K17/785

    Abstract: A driving circuit for an IGBT module (U4) is provided. The driving circuit includes: a gate driving resistor (R5) connected with the IGBT module (U4); a driving module connected with the gate driving resistor (R5); an integrating circuit connected with the driving module, in which the integrating circuit comprises an equivalent resistor and a first capacitor (C1) connected in series with the equivalent resistor, and a time constant of the integrating circuit is adjusted by changing a resistance of the equivalent resistor; a first optical coupler (U2) connected with the integrating circuit; and a micro control unit (U1), connected with the first optical coupler (U2).

    Abstract translation: 提供了IGBT模块(U4)的驱动电路。 驱动电路包括:与IGBT模块(U4)连接的栅极驱动电阻(R5); 与所述栅极驱动电阻器(R5)连接的驱动模块; 与驱动模块连接的积分电路,其中积分电路包括等效电阻器和与等效电阻器串联连接的第一电容器(C1),并且通过改变等效电阻器的电阻来调整积分电路的时间常数 电阻器; 与所述积分电路连接的第一光耦合器(U2); 以及与第一光耦合器(U2)连接的微控制单元(U1)。

    BATTERY HEATING CIRCUIT
    8.
    发明申请
    BATTERY HEATING CIRCUIT 审中-公开
    电池加热电路

    公开(公告)号:WO2012013068A1

    公开(公告)日:2012-02-02

    申请号:PCT/CN2011/074442

    申请日:2011-05-20

    Applicant: BYD COMPANY LIMITED XU, Wenhui HAN, Yaochuan FENG, Wei YANG, Qinyao XIA, Wenjin LI, Xianyin

    Inventor: XU, Wenhui HAN, Yaochuan FENG, Wei YANG, Qinyao XIA, Wenjin LI, Xianyin

    IPC: H01M10/42 H01M10/50 H05B3/00 H02J7/00

    CPC classification number: H01L23/345 H01L2924/0002 H01M10/615 H01M10/625 H01M10/651 H01M10/657 H01M10/6571 H01M10/6572 H02J7/0014 H02J7/0054 H02J7/0075 H02J7/0091 H02J7/0093 H02M3/158 Y02E60/12 Y02T10/7055 H01L2924/00

    Abstract: The present invention discloses a battery heating circuit, wherein, the battery comprises a battery E1 and a battery E2, the heating circuit comprises: a first charging/discharging circuit, which is connected with the battery E1, and comprises a damping element R1, a current storage element L1, a first switch unit (1) and a charge storage element C, all of which are connected in series to each other; and a second charging/discharging circuit, which is connected to the battery E2, and comprises a damping element R2, a current storage element L2, a second switch unit (2) and the charge storage element C, all of which are connected in series with each other. The battery heating unit provided in the present invention is applicable to multiple batteries, and can be used to heat up multiple batteries together or separately, and achieve electric quantity balance among the batteries.

    Abstract translation: 本发明公开了一种电池加热电路,其中电池包括电池E1和电池E2,加热电路包括:与电池E1连接的第一充电/放电电路,包括阻尼元件R1, 电流存储元件L1,第一开关单元(1)和电荷存储元件C,它们都彼此串联连接; 以及连接到电池E2的第二充电/放电电路,包括阻尼元件R2,电流存储元件L2,第二开关单元(2)和电荷存储元件C,它们都串联连接 与彼此。 本发明提供的电池加热单元可应用于多个电池,并且可以一起或分开地加热多个电池,并且在电池之间实现电量平衡。

    BATTERY HEATING CIRCUIT
    9.
    发明申请
    BATTERY HEATING CIRCUIT 审中-公开
    电池加热电路

    公开(公告)号:WO2012013065A1

    公开(公告)日:2012-02-02

    申请号:PCT/CN2011/074436

    申请日:2011-05-20

    Applicant: BYD COMPANY LIMITED XU, Wenhui HAN, Yaochuan FENG, Wei YANG, Qinyao XIA, Wenjin MA, Shibin

    Inventor: XU, Wenhui HAN, Yaochuan FENG, Wei YANG, Qinyao XIA, Wenjin MA, Shibin

    IPC: H01M10/42 H01M10/50 H05B3/00 H02J7/00

    CPC classification number: H01M10/5006 H01M10/615 H01M10/625 H01M10/657 H01M10/6571 H02J7/0057 Y02E60/12

    Abstract: A battery heating circuit is provided, wherein the battery comprises a first battery (E1) and a second battery (E2), and the heating circuit comprises a first switch unit (10), a second switch unit (20), a damping element R1, a damping element R2, a current storage element L3, a current storage element L4, a switching control module (100) and an energy storage element V1. The first battery (E1), the damping element R1, the current storage element L3, the energy storage element V1 and the first switch unit (10) are connected in series to constitute a first charging/discharging circuit. The second battery (E2), the damping element R2, the current storage element L4, the energy storage element V1 and the second switch unit (20) are connected in series to constitute a second charging/discharging circuit. When the energy storage element VI is charged or discharges, the direction of charging/discharging current in the second charging/discharging circuit is reverse to the direction of charging/discharging current in the first charging/discharging circuit. The switching control module (100) is electrically connected with the first switch unit (10) and the second switch unit (20) to switch on in alternate, so as to control the electric energy to flow among the first battery (E1), the energy storage element V1 and the second battery (E2). The battery heating circuit can achieve high heating efficiency.

    Abstract translation: 提供了一种电池加热电路,其中电池包括第一电池(E1)和第二电池(E2),加热电路包括第一开关单元(10),第二开关单元(20),阻尼元件R1 阻尼元件R2,电流存储元件L3,电流存储元件L4,开关控制模块(100)和能量存储元件V1。 第一电池(E1),阻尼元件R1,电流存储元件L3,能量存储元件V1和第一开关单元(10)串联连接以构成第一充电/放电电路。 第二电池(E2),阻尼元件R2,电流存储元件L4,能量存储元件V1和第二开关单元(20)串联连接以构成第二充电/放电电路。 当能量存储元件VI被充电或放电时,第二充电/放电电路中的充电/放电电流的方向与第一充电/放电电路中的充电/放电电流的方向相反。 切换控制模块(100)与第一开关单元(10)和第二开关单元(20)电连接以交替接通,以便控制电能在第一电池(E1),第 储能元件V1和第二电池(E2)。 电池加热电路可以实现高加热效率。

    BATTERY HEATING CIRCUIT
    10.
    发明申请
    BATTERY HEATING CIRCUIT 审中-公开
    电池加热电路

    公开(公告)号:WO2012013081A1

    公开(公告)日:2012-02-02

    申请号:PCT/CN2011/074531

    申请日:2011-05-23

    Applicant: BYD COMPANY LIMITED HAN, Yaochuan XU, Wenhui FENG, Wei YANG, Qinyao XIA, Wenjin LI, Xianyin

    Inventor: HAN, Yaochuan XU, Wenhui FENG, Wei YANG, Qinyao XIA, Wenjin LI, Xianyin

    IPC: H01M10/42 H01M10/50 H05B3/00 H02J7/00

    CPC classification number: H01L23/345 H01L2924/0002 H01M10/615 H01M10/625 H01M10/651 H01M10/657 H01M10/6571 H01M10/6572 H02J7/0014 H02J7/0054 H02J7/0075 H02J7/0091 H02J7/0093 H02M3/158 Y02E60/12 Y02T10/7055 H01L2924/00

    Abstract: A battery heating circuit is provided, which comprises a switch unit (1), a switching control module (100), a damping element R1, an energy storage circuit and an energy superposition unit. The energy storage circuit is connected with the battery and comprises a current storage element L1 and a charge storage element C1. The damping element R1, the switch unit (1), the current storage element L1 and the charge storage element C1 are connected in series. The switching control module (100) is connected with the switch unit (1) and is designed to control ON/OFF of the switch unit (1), so as to control the energy flowing between the battery and the energy storage circuit. The energy superposition unit is connected with the energy storage circuit and is designed to superpose the energy in the energy storage circuit with the energy in the battery when the switch unit (1) switches on and then switches off. The switching control module (100) is also designed to control the switch unit (1) to switch off after the first positive half cycle of current flows through the switch unit (1) after the switch (1) switches on and the voltage applied to the switch unit (1) at the time the switch unit (1) switches off is lower than the voltage rating of the switch unit (1).

    Abstract translation: 提供了一种电池加热电路,其包括开关单元(1),开关控制模块(100),阻尼元件R1,能量存储电路和能量叠加单元。 能量存储电路与电池连接,包括电流存储元件L1和电荷存储元件C1。 阻尼元件R1,开关单元(1),电流存储元件L1和电荷存储元件C1串联连接。 切换控制模块(100)与开关单元(1)连接,并被设计成控制开关单元(1)的接通/断开,以便控制电池和能量存储电路之间的能量流动。 能量叠加单元与能量存储电路连接,并且设计成当开关单元(1)接通然后断开时,将能量存储电路中的能量与电池中的能量叠加。 开关控制模块(100)还被设计成在开关(1)接通之后流经开关单元(1)的电流的第一正半周期之后控制开关单元(1)关闭,并且施加到 开关单元(1)关断时的开关单元(1)低于开关单元(1)的额定电压。

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