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    • 1. 发明申请
    • Step-up power supply device
    • 升压电源装置
    • US20080074158A1
    • 2008-03-27
    • US11898701
    • 2007-09-14
    • Takashi RyuTakuya IshiiMikio MotomoriKazuhito KimuraSatoshi WadaRumi Nakai
    • Takashi RyuTakuya IshiiMikio MotomoriKazuhito KimuraSatoshi WadaRumi Nakai
    • H03L7/00
    • H02M1/36Y10S323/901
    • A step-up power supply device includes: a step-up converter; a startup circuit which controls the on/off operation of a switch element of the step-up converter when an output voltage of the device is smaller than a reference voltage; and a control circuit which operates in substitution for the startup circuit when the output voltage is higher than the reference voltage to control the on/off operation of the switch element such that the output voltage reaches a target value. The startup circuit includes an oscillation circuit for generating a pulse signal which has a predetermined on/off ratio, a current comparison circuit for comparing a current of the switch element with a predetermined restriction value, and a drive circuit for generating a drive signal based on which the switch element is turned on/off, the drive signal being generated from the pulse signal to turn on the switch element, and the drive signal being generated from the output of the current comparison circuit or the pulse signal to turn off the switch element.
    • 升压电源装置包括:升压转换器; 启动电路,当所述器件的输出电压小于参考电压时,控制所述升压转换器的开关元件的接通/断开操作; 以及控制电路,其在输出电压高于基准电压时代替启动电路,以控制开关元件的导通/截止操作,使得输出电压达到目标值。 启动电路包括用于产生具有预定的导通/关断比的脉冲信号的振荡电路,用于将开关元件的电流与预定限制值进行比较的电流比较电路,以及用于产生基于 所述开关元件被接通/断开,所述驱动信号从所述脉冲信号产生,以接通所述开关元件,并且所述驱动信号是从所述当前比较电路的输出或所述脉冲信号产生的,以将所述开关元件 。
    • 3. 发明授权
    • DC-DC converter
    • DC-DC转换器
    • US07075275B2
    • 2006-07-11
    • US11280314
    • 2005-11-17
    • Mikio MotomoriTakuya IshiiTakashi RyuHiroki AkashiHirohisa TanabeMakoto IshimaruTomoya Shigemi
    • Mikio MotomoriTakuya IshiiTakashi RyuHiroki AkashiHirohisa TanabeMakoto IshimaruTomoya Shigemi
    • G05F1/70H05B4/24
    • H02M3/1588H02M2001/0025H02M2001/0029Y02B70/1466
    • A DC-DC converter has switching means which generates a continuous switching voltage having a specified period from an input voltage and outputs the generated switching voltage, output voltage generating means which receives the switching voltage at an inductor and generates an output voltage obtained by rectifying and smoothing a voltage generated in the inductor, lamp signal generating means which generates a lamp signal and outputs the generated lamp signal, and control means which performs an arithmetic operation using a current signal relative to a current flowing in the inductor, an error signal relative to the output voltage, and the lamp signal to generate a control signal for controlling the operation of the switching means and outputs the generated control signal to the switching means. The lamp signal generating means includes first signal generating means for generating a first output signal based on a frequency divided signal having first and second periods obtained by dividing the time of a clock signal having the specified period and second signal generating means for generating a second output signal having a phase 180 degrees different from the phase of the first output signal based on the frequency divided signal, generates the lamp signal which rises after being held at a constant value for a specified time period in each of the first and second periods, and outputs the generated lamp signal.
    • DC-DC转换器具有切换装置,其从输入电压产生具有指定周期的连续切换电压,并输出产生的开关电压,输出电压产生装置,其接收电感器的开关电压,并产生通过整流和 平滑电感器中产生的电压,产生灯信号的灯信号产生装置并输出所产生的灯信号;以及控制装置,其使用相对于在电感器中流动的电流的电流信号进行算术运算,相对于 输出电压和灯信号,以产生用于控制开关装置的操作的控制信号,并将所生成的控制信号输出到开关装置。 灯信号产生装置包括第一信号产生装置,用于根据具有通过划分具有指定周期的时钟信号的时间获得的第一和第二周期的分频信号产生第一输出信号,以及用于产生第二输出的第二信号产生装置 基于分频信号具有与第一输出信号的相位相差180度的信号的信号,产生在第一和第二周期中的每个中保持恒定值一定时间后上升的灯信号,以及 输出生成的灯信号。
    • 4. 发明申请
    • Overcurrent protection device
    • 过电流保护装置
    • US20050111149A1
    • 2005-05-26
    • US10992104
    • 2004-11-19
    • Mikio Motomori
    • Mikio Motomori
    • H02H7/12H02M1/00H02M3/158H02H3/08
    • H02H7/1213H02M1/32H02M3/158H02M2001/0009
    • The switching regulator comprises a main switch, a rectifier switch, an RS-flipflop, a judging unit, an edge pulse generator, a second prohibiting unit, a reference voltage source, and such. When a voltage drop caused due to an on-resistance of the main switch exceeds a predetermined value, the judging unit sets a set signal of the RS-flipflop at a high level, and thereby an overcurrent is cut off. The edge pulse generator monitors a gate voltage of the rectifier switch, and sets a prohibition signal at a high level for a predetermined time period from the trailing edge. Then, the second prohibiting unit sets the set signal at a low level, and prohibits cutting the overcurrent off. Herewith, the likelihood that the main switch will be destroyed by the overcurrent can be reduced.
    • 开关调节器包括主开关,整流开关,RS触发器,判断单元,边沿脉冲发生器,第二禁止单元,参考电压源等。 当由于主开关的导通电阻引起的电压降超过预定值时,判断单元将RS触发器的设定信号设定在高电平,从而切断过电流。 边沿脉冲发生器监视整流器开关的栅极电压,并且在从后沿开始的预定时间段内将禁止信号设置在高电平。 然后,第二禁止单元将设定信号设定在低电平,并且禁止切断过电流。 因此,可以减少主开关被过电流破坏的可能性。
    • 5. 发明授权
    • Current limiting circuit
    • 限流电路
    • US08004256B2
    • 2011-08-23
    • US12726791
    • 2010-03-18
    • Katsuyuki TabataMikio Motomori
    • Katsuyuki TabataMikio Motomori
    • G05F1/00
    • H02M1/32H02M3/158H02M2001/0009
    • A current limiting circuit for a boost converter includes a voltage divider circuit between a main switch which flows a current to an inductor and a comparator included in a current detecting circuit. The voltage divider circuit includes two transistors of the same type as that of the main switch, which are connected in series. One of the two transistors is a sub-switch which is connected between a voltage division point and a drain terminal of the main switch, and is turned on/off in synchronization with the main switch in accordance with an output signal of a control circuit. The other transistor is a detection resistance transistor which is connected between the voltage division point and a source terminal of the main switch, and whose gate terminal is connected to a bias voltage so that the detection resistance transistor is always on.
    • 用于升压转换器的限流电路包括在电流流向电感器的主开关和包括在电流检测电路中的比较器之间的分压器电路。 分压器电路包括与主开关相同类型的两个串联的晶体管。 两个晶体管中的一个是子开关,其连接在主开关的分压点和漏极端子之间,并且根据控制电路的输出信号与主开关同步地导通/截止。 另一个晶体管是连接在主开关的分压点和源极端子之间的检测电阻晶体管,其栅极端子连接到偏置电压,使得检测电阻晶体管总是导通。
    • 8. 发明授权
    • Performance controller for a step down current mode switching regulator
    • 用于降压电流模式开关稳压器的性能控制器
    • US07282900B2
    • 2007-10-16
    • US11206977
    • 2005-08-19
    • Richard K. OswaldTamotsu YamamotoTakashi RyuMikio MotomoriTakuya Ishii
    • Richard K. OswaldTamotsu YamamotoTakashi RyuMikio MotomoriTakuya Ishii
    • G05F1/40
    • H02M3/1588Y02B70/1466
    • A method of regulating an output voltage by utilizing a switching regulator, where the switching regulator includes a high side switch, a low side switch having an active diode, a controller coupled to the high side switch and the low side switch, and a current measuring circuit coupled to the high side switch. The method includes the steps of: measuring the output voltage and if the output voltage is below a desired level, activating the high side switch so as to provide current to a load capacitor via a load inductor, if the voltage is above the desired level, activating the low side switch so as to sink current from the load capacitor via the load inductor; and utilizing the current measuring circuit to measure the current flowing through the high side switch in either a positive direction or a negative direction, where the controller is operable for controlling the current measuring circuit and disabling active components contained in the current measuring circuit and the active diode when the active components are not utilized during operation of the switching regulator so as to reduce operational power requirements of the switching regulator.
    • 一种通过利用开关调节器调节输出电压的方法,其中开关调节器包括高侧开关,具有有源二极管的低侧开关,耦合到高侧开关和低侧开关的控制器以及电流测量 电路耦合到高侧开关。 该方法包括以下步骤:测量输出电压,并且如果输出电压低于期望电平,则激活高侧开关以便通过负载电感器向负载电容器提供电流,如果电压高于所需电平, 激活低侧开关,以便经由负载电感器从负载电容器吸收电流; 并利用电流测量电路来测量在正方向或负方向上流过高侧开关的电流,其中控制器可操作用于控制电流测量电路并禁用包含在电流测量电路中的有源元件和有源 当在开关调节器的操作期间不使用有源组件以减少开关调节器的操作功率需求时,二极管。
    • 10. 发明授权
    • Semiconductor light source lighting circuit and vehicular lamp
    • 半导体光源照明电路和车灯
    • US08970136B2
    • 2015-03-03
    • US14197571
    • 2014-03-05
    • Satoshi KikuchiTakanori NambaMasayasu ItoDaijiro ArisawaMikio Motomori
    • Satoshi KikuchiTakanori NambaMasayasu ItoDaijiro ArisawaMikio Motomori
    • H05B37/02H05B33/08B60Q1/00
    • H05B33/0815B60Q1/00H05B33/0848Y02B20/346
    • A semiconductor light source lighting circuit includes a voltage step-down unit configured to generate a drive voltage lower than an input voltage by turning on or off a first switching element in a voltage step-down mode, a voltage step-up unit configured to generate the drive voltage higher than the input voltage by turning on or off a second switching element in a voltage step-up mode, and a controller. The controller includes a charge pump unit configured to repeat charging from the drive voltage to a second capacitor and discharging from the charged second capacitor to the first capacitor in the voltage step-up mode, and a switch drive unit configured to apply a voltage higher than the voltage at the other end of the first switching element to the control terminal of the first switching element by using a voltage of the charged first capacitor.
    • 一种半导体光源照明电路,包括:降压单元,被配置为通过以降压模式接通或关闭第一开关元件来产生低于输入电压的驱动电压;电压升压单元,被配置为产生 通过以升压模式接通或关闭第二开关元件,驱动电压高于输入电压,以及控制器。 所述控制器包括:电荷泵单元,被配置为在所述升压模式下,从所述驱动电压向所述第二电容器重复充电并从所述充电的第二电容器向所述第一电容器放电;以及开关驱动单元,被配置为施加高于 通过使用充电的第一电容器的电压将第一开关元件的另一端的电压提供给第一开关元件的控制端子。