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    • 7. 发明授权
    • Idling stop device, engine start system, and engine start method
    • 怠速停止装置,发动机启动系统和发动机启动方法
    • US08655574B2
    • 2014-02-18
    • US13047171
    • 2011-03-14
    • Ryoh IzumotoMotoki KomiyaYuuichiroh ShimizuYoshinori Shibachi
    • Ryoh IzumotoMotoki KomiyaYuuichiroh ShimizuYoshinori Shibachi
    • F02D29/00F02D29/02F02N15/00
    • F02N11/0866F02N11/0814F02N2011/0885F02N2200/063F02N2250/02
    • An idling stop device is mounted on a vehicle and automatically stops and starts an engine of the vehicle. A microcomputer has an idling stop function of automatically stopping the engine when a predetermined stop condition is established and automatically starting the engine when a predetermined start condition is established during the stopping of the engine. A detecting unit detects that a power voltage of the microcomputer, which is obtained by dropping a voltage of a battery of the vehicle is lower than a minimum operating voltage of the microcomputer. A storage unit stores voltage reduction information irrespective of a state of the microcomputer if the power voltage is lower than the minimum operating voltage. A power control unit causes a capacitor which stores electric charges corresponding to power for driving a starter motor of the engine to supply power to the starter motor when the engine is started, if the voltage reduction information is stored in the storage unit.
    • 怠速停止装置安装在车辆上并自动停止并启动车辆的发动机。 微型计算机具有在建立规定的停止条件时自动停止发动机的怠速停止功能,并且在发动机停止期间建立规定的起动条件时自动启动发动机。 检测单元检测通过使车辆的电池的电压下降而获得的微型计算机的电源电压低于微型计算机的最小工作电压。 如果电源电压低于最小工作电压,则存储单元与微型计算机的状态无关地存储电压降低信息。 电力控制单元,如果电压降低信息被存储在存储单元中,则电容器产生存储对应于用于驱动发动机的起动电动机的电力的电荷,以在发动机起动时向起动电动机供电。
    • 9. 发明申请
    • Control unit, power supply device and electronic apparatus
    • 控制单元,电源装置和电子设备
    • US20080055943A1
    • 2008-03-06
    • US11896259
    • 2007-08-30
    • Motoki Komiya
    • Motoki Komiya
    • H02M3/335
    • H02M3/156
    • A power supply device has a first node to which an input voltage is input, a second node, a third node from which an output voltage is output, a first switching circuit electrically connecting the first node and the second node and a resonance circuit electrically connecting the second node and the third node. The power supply device converts the input voltage into the output voltage through an intermediate voltage of the second node. A first timing circuit is operable to turn on and turn off the first switching circuit. When the intermediate voltage becomes equal to or larger than a first predetermined voltage, the first timing circuit turns on the first switching circuit after a first predetermined time period.
    • 电源装置具有输入电压的第一节点,第二节点,从其输出输出电压的第三节点,电连接第一节点和第二节点的第一开关电路和电连接的谐振电路 第二节点和第三节点。 电源装置通过第二节点的中间电压将输入电压转换成输出电压。 第一定时电路可操作以接通和关断第一开关电路。 当中间电压变得等于或大于第一预定电压时,第一定时电路在第一预定时间段之后导通第一开关电路。
    • 10. 发明申请
    • Half bridge switching regulator and electronic device
    • 半桥开关稳压器和电子设备
    • US20080012545A1
    • 2008-01-17
    • US11819680
    • 2007-06-28
    • Motoki Komiya
    • Motoki Komiya
    • G05F1/00G05F1/10
    • H02M1/34H02M3/1588Y02B70/1466
    • A half bridge step-up switching regulator is configured including an output voltage adjusting switch element Q1 for adjusting an output voltage; a synchronous switch element Q2, connected in series with the output voltage adjusting switch element Q1, that is complementary ON operated when the output voltage adjusting switch element Q1 is turned OFF; a voltage detecting section 10 for detecting the voltage at a connecting node of the switch elements in time of turn-OFF of the synchronous switch element; and a soft switch control section 20 for adjusting the timing of turn-OFF of the synchronous switch element Q2 based on the voltage fluctuation detected by the voltage detecting section 10 to perform zero current switching control.
    • 半桥升压开关稳压器被配置为包括用于调节输出电压的输出电压调节开关元件Q 1; 与输出电压调节用开关元件Q 1串联连接的同步开关元件Q 2,在输出电压调节用开关元件Q1断开的状态下互补接通; 电压检测部分10,用于在同步开关元件断开时检测开关元件的连接节点处的电压; 以及软开关控制部分20,用于基于由电压检测部分10检测的电压波动来调节同步开关元件Q 2的截止时间,以进行零电流切换控制。