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    • 2. 发明申请
    • VOLTAGE CONVERSION APPARATUS
    • 电压转换装置
    • US20160268902A1
    • 2016-09-15
    • US15041515
    • 2016-02-11
    • Takashi YamaguchiAkihiro KinoshitaShinji Horio
    • Takashi YamaguchiAkihiro KinoshitaShinji Horio
    • H02M3/158H02M1/32
    • H02M1/32H02M3/156H02M2001/0048Y02B70/1491
    • A voltage conversion apparatus includes a booster circuit, a boost stop circuit, a Zener diode, and a capacitor. The boost stop circuit includes a transistor. When an overvoltage equal to or larger than a breakdown voltage of the Zener diode is output to an output line of the booster circuit 11, the Zener diode is turned on. Accordingly, the transistor is turned on and a switching element is turned off to stop a boost operation. Further, the capacitor is charged through the Zener diode. Even when the Zener diode is turned off due to a drop in the output voltage after the stop of the boost operation, the transistor maintains its on state for a certain time by discharge of the capacitor. Thus, the stop of the boost operation is continued.
    • 电压转换装置包括升压电路,升压停止电路,齐纳二极管和电容器。 升压停止电路包括晶体管。 当等于或大于齐纳二极管的击穿电压的过电压被输出到升压电路11的输出线时,齐纳二极管导通。 因此,晶体管导通,并且开关元件被断开以停止升压操作。 此外,电容器通过齐纳二极管充电。 即使由于在升压操作停止之后输出电压下降而使齐纳二极管截止,晶体管通过电容器放电而保持其导通状态一段时间。 因此,继续进行升压动作的停止。
    • 3. 发明申请
    • DC-DC CONVERTER
    • DC-DC转换器
    • US20150130440A1
    • 2015-05-14
    • US14539274
    • 2014-11-12
    • Akihiro KinoshitaShinji Horio
    • Akihiro KinoshitaShinji Horio
    • H02M1/32H02M3/158
    • H02M1/32H02M3/158H02M3/1582H02M2001/325H02M2001/327
    • A DC-DC converter includes a voltage conversion circuit boosting a voltage of a DC power supply and supplying the voltage to a load, a bypass circuit provided in parallel to the voltage conversion circuit, a drive circuit turning on and off a switching element of the bypass circuit, and a controller outputting a control signal for controlling the voltage conversion circuit and the drive circuit. A diode is connected in parallel to the switching element so as to be oriented toward a forward direction with respect to the DC power supply. A temperature detector of the drive circuit detects temperature of the diode. The drive circuit maintains the switching element in the on state irrespective of the control signal of the controller when the temperature detector detects a temperature greater than or equal to a predetermined value.
    • DC-DC转换器包括升压直流电源的电压并将电压提供给负载的电压转换电路,与电压转换电路并联设置的旁路电路,驱动电路接通和断开开关元件 旁路电路以及输出用于控制电压转换电路和驱动电路的控制信号的控制器。 二极管与开关元件并联连接,以相对于直流电源朝向正方向。 驱动电路的温度检测器检测二极管的温度。 当温度检测器检测到大于或等于预定值的温度时,驱动电路将开关元件保持在接通状态,而与控制器的控制信号无关。
    • 6. 发明申请
    • POWER-SUPPLY DEVICE
    • 电源设备
    • US20130200699A1
    • 2013-08-08
    • US13763230
    • 2013-02-08
    • Toshinori OriganeMasayuki MiyashitaKazushi KodairaShinji Horio
    • Toshinori OriganeMasayuki MiyashitaKazushi KodairaShinji Horio
    • H02J1/04B60R16/03
    • H02J1/04B60R16/03F02N11/0814F02N11/087F02N11/10F02N2011/0888F02N2250/02H02M3/155Y02T10/48
    • The present invention provides a power-supply device, which can continuously supply a voltage from a power supply to a load even if a breakdown of a circuit is generated. The power-supply device includes a booster circuit, a normally-closed bypass relay, a CPU, and a switching circuit. A first switch of the switching circuit is turned on by a switching signal from the CPU, and a second switch is turned on by a boosting request signal from a boosting request signal generator. In the case that one of or both the switching signal and the boosting request signal are not input to the switching circuit 14, because a coil of a bypass relay is not energized, a contact turns on, and a voltage is supplied from a DC power supply to the load through the contact. When both the switching signal and the boosting request signal are input to the switching circuit, the coil is energized to turn off the contact, and a voltage supply path to the load is switched from the side of the bypass relay to the side of the booster circuit.
    • 本发明提供一种供电装置,其即使产生电路故障,也能够从电源向负载连续地供给电压。 电源装置包括升压电路,常闭旁路继电器,CPU和开关电路。 开关电路的第一开关由来自CPU的开关信号导通,并且第二开关由来自升压请求信号发生器的升压请求信号导通。 在切换信号和升压请求信号中的一方或两者不输入到切换电路14的情况下,由于旁路继电器的线圈未被通电,所以触点导通,并且从直流电力供给电压 通过触点提供给负载。 当切换信号和升压请求信号都被输入到开关电路时,线圈被通电以关断触点,并且到负载的电压供应路径从旁路继电器侧切换到升压器侧 电路。
    • 7. 发明授权
    • Power supply device
    • 电源设备
    • US09263889B2
    • 2016-02-16
    • US13763230
    • 2013-02-08
    • Toshinori OriganeMasayuki MiyashitaKazushi KodairaShinji Horio
    • Toshinori OriganeMasayuki MiyashitaKazushi KodairaShinji Horio
    • H02J1/04B60R16/03F02N11/08F02N11/10H02M3/155
    • H02J1/04B60R16/03F02N11/0814F02N11/087F02N11/10F02N2011/0888F02N2250/02H02M3/155Y02T10/48
    • The present invention provides a power-supply device, which can continuously supply a voltage from a power supply to a load even if a breakdown of a circuit is generated. The power-supply device includes a booster circuit, a normally-closed bypass relay, a CPU, and a switching circuit. A first switch of the switching circuit is turned on by a switching signal from the CPU, and a second switch is turned on by a boosting request signal from a boosting request signal generator. In the case that one of or both the switching signal and the boosting request signal are not input to the switching circuit 14, because a coil of a bypass relay is not energized, a contact turns on, and a voltage is supplied from a DC power supply to the load through the contact. When both the switching signal and the boosting request signal are input to the switching circuit, the coil is energized to turn off the contact, and a voltage supply path to the load is switched from the side of the bypass relay to the side of the booster circuit.
    • 本发明提供一种供电装置,其即使产生电路故障,也能够从电源向负载连续地供给电压。 电源装置包括升压电路,常闭旁路继电器,CPU和开关电路。 开关电路的第一开关由来自CPU的开关信号导通,并且第二开关由来自升压请求信号发生器的升压请求信号导通。 在切换信号和升压请求信号中的一方或两者不输入到切换电路14的情况下,由于旁路继电器的线圈未被通电,所以触点导通,并且从直流电力供给电压 通过触点提供给负载。 当切换信号和升压请求信号都被输入到开关电路时,线圈被通电以关断触点,并且到负载的电压供应路径从旁路继电器侧切换到升压器侧 电路。