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    • 2. 发明授权
    • Battery state monitoring circuit and battery device
    • 电池状态监测电路和电池装置
    • US08138719B2
    • 2012-03-20
    • US12699593
    • 2010-02-03
    • Kazuaki SanoWataru SakamotoToshiyuki KoikeMuneharu Kawana
    • Kazuaki SanoWataru SakamotoToshiyuki KoikeMuneharu Kawana
    • H02J7/00
    • H02J7/0016H02J7/0021H02J7/0026
    • Provided are a battery state monitoring circuit and a battery device which are capable of inhibiting discharge without enabling an overdischarge cell balance function when an overcurrent detection circuit detects a discharge overcurrent, without the need for an additional terminal of the battery state monitoring circuit. A detection signal of the overcurrent detection circuit is input to each of a communication terminal for overdischarge signal and a communication terminal for overcharge signal included in the battery state monitoring circuit provided on a side of the overcurrent detection circuit. An overdischarge cell balance circuit outputs a cell balance signal when an overdischarge detection signal indicates an overdischarge non-detected state, an overdischarge signal indicates an overdischarge detected state, and an overcharge signal indicates an overcharge non-detected state.
    • 提供一种电池状态监视电路和电池装置,其能够在过电流检测电路检测到放电过电流时能够抑制放电,而不需要过放电电池平衡功能,而不需要电池状态监视电路的附加端子。 过电流检测电路的检测信号输入到过放电信号的通信端子和设置在过电流检测电路一侧的电池状态监视电路中的过充电信号的通信端子。 当过放电检测信号表示过放电未检测状态,过放电信号表示过放电检测状态,过充电单元平衡电路输出单元平衡信号,过充电信号表示过充电未检测状态。
    • 7. 发明申请
    • BATTERY STATE MONITORING CIRCUIT AND BATTERY DEVICE
    • 电池状态监测电路和电池装置
    • US20100194343A1
    • 2010-08-05
    • US12699593
    • 2010-02-03
    • Kazuaki SanoWataru SakamotoToshiyuki KoikeMuneharu Kawana
    • Kazuaki SanoWataru SakamotoToshiyuki KoikeMuneharu Kawana
    • H02J7/00
    • H02J7/0016H02J7/0021H02J7/0026
    • Provided are a battery state monitoring circuit and a battery device which are capable of inhibiting discharge without enabling an overdischarge cell balance function when an overcurrent detection circuit detects a discharge overcurrent, without the need for an additional terminal of the battery state monitoring circuit. A detection signal of the overcurrent detection circuit is input to each of a communication terminal for overdischarge signal and a communication terminal for overcharge signal included in the battery state monitoring circuit provided on a side of the overcurrent detection circuit. An overdischarge cell balance circuit outputs a cell balance signal when an overdischarge detection signal indicates an overdischarge non-detected state, an overdischarge signal indicates an overdischarge detected state, and an overcharge signal indicates an overcharge non-detected state.
    • 提供一种电池状态监视电路和电池装置,其能够在过电流检测电路检测到放电过电流时能够抑制放电,而不需要过放电电池平衡功能,而不需要电池状态监视电路的附加端子。 过电流检测电路的检测信号输入到过放电信号的通信端子和设置在过电流检测电路一侧的电池状态监视电路中的过充电信号的通信端子。 当过放电检测信号表示过放电未检测状态,过放电信号表示过放电检测状态,过充电单元平衡电路输出单元平衡信号,过充电信号表示过充电未检测状态。
    • 8. 发明授权
    • Charge/discharge control circuit and battery device
    • 充放电控制电路和电池装置
    • US09065281B2
    • 2015-06-23
    • US13208753
    • 2011-08-12
    • Atsushi SakuraiToshiyuki KoikeKazuaki SanoFumihiko Maetani
    • Atsushi SakuraiToshiyuki KoikeKazuaki SanoFumihiko Maetani
    • H02J7/00
    • H02J7/0034
    • Provided is a battery device for controlling charge/discharge of a secondary battery by a single bidirectionally conductive field effect transistor, a charge/discharge control circuit with which a leakage current of the bidirectionally conductive field effect transistor is reduced to perform stable operation. The charge/discharge control circuit includes: a switch circuit for controlling a gate of the bidirectionally conductive field effect transistor based on an output of a control circuit for controlling the charge/discharge of the secondary battery; and two MOS transistors for preventing back-flow of a charge current and a discharge current. The first MOS transistor has a drain and a back gate which are connected to each other, and a source connected to a drain of the bidirectionally conductive field effect transistor. The second MOS transistor has a drain and a back gate which are connected to each other, and a source connected to a source of the bidirectionally conductive field effect transistor.
    • 提供一种用于通过单个双向导电场效应晶体管控制二次电池的充电/放电的电池装置,具有双向导电场效应晶体管的漏电流被减小以执行稳定操作的充放电控制电路。 充放电控制电路包括:开关电路,用于基于用于控制二次电池的充电/放电的控制电路的输出来控制双向传导场效应晶体管的栅极; 以及用于防止充电电流和放电电流的反向流动的两个MOS晶体管。 第一MOS晶体管具有彼此连接的漏极和背栅极,以及连接到双向导电场效应晶体管的漏极的源极。 第二MOS晶体管具有彼此连接的漏极和背栅极,以及连接到双向导电场效应晶体管的源极的源极。
    • 9. 发明申请
    • CELL BALANCE DEVICE AND BATTERY SYSTEM
    • 细胞平衡装置和电池系统
    • US20120139493A1
    • 2012-06-07
    • US13292482
    • 2011-11-09
    • Atsushi SakuraiKazuaki SanoHiroshi Saito
    • Atsushi SakuraiKazuaki SanoHiroshi Saito
    • H02J7/00
    • H02J7/0016
    • Provided are a cell balance device with high cell balance performance and high cell balance speed and requiring no high voltage process, and a battery system including the cell balance devices. The cell balance device includes: three terminals to be connected to secondary batteries; one terminal to be connected to a voltage hold device; three switches provided between the three terminals and the one terminal; and a receiving terminal and a transmitting terminal for a synchronization signal. Alternatively, the cell balance device includes: four terminals to be connected to secondary batteries; two terminals to be connected to a voltage hold device; six switches provided between the four terminals and the two terminals; and a receiving terminal and a transmitting terminal for a synchronization signal. The battery system includes: a plurality of secondary batteries; a plurality of voltage hold devices; a plurality of cell balance devices; and a clock generation circuit.
    • 提供了具有高电池平衡性能和高电池平衡速度并且不需要高电压处理的电池平衡装置,以及包括电池平衡装置的电池系统。 电池平衡装置包括:三个要连接到二次电池的端子; 一个端子连接到电压保持装置; 三个开关设置在三个端子和一个端子之间; 以及用于同步信号的接收终端和发送终端。 或者,电池平衡装置包括:四个要连接到二次电池的端子; 两个端子连接到电压保持装置; 六个开关设置在四个端子和两个端子之间; 以及用于同步信号的接收终端和发送终端。 电池系统包括:多个二次电池; 多个电压保持装置; 多个电池平衡装置; 和时钟发生电路。