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    • 1. 发明授权
    • Reference supply voltage circuit using more than two reference supply voltages
    • 参考电源电压电路使用两个以上的参考电源电压
    • US07508254B2
    • 2009-03-24
    • US11723530
    • 2007-03-20
    • Yoshiaki HachiyaRyutaro ArakawaTakashi KunimatsuMinoru Fukui
    • Yoshiaki HachiyaRyutaro ArakawaTakashi KunimatsuMinoru Fukui
    • G05F1/10
    • G05F3/24
    • A reference supply voltage circuit includes a detecting device for detecting a first reference voltage, a comparator, and a preventing circuit for preventing any false operation during pre-operation indefinite time interval. The comparator outputs a signal which controls an operation circuit whose supply voltage is a second reference voltage equal to or lower than the first reference voltage. The preventing circuit maintains the second reference voltage to a circuit reference potential when the first reference voltage is lower than a first predetermined voltage, sets the second reference voltage to a voltage equal to the first reference voltage when the first reference voltage is equal to or higher than the first predetermined voltage and lower than a second predetermined voltage, and sets the second reference voltage to a voltage proportional to the first reference voltage when the first reference voltage is equal to or higher than the second predetermined voltage.
    • 参考电源电压电路包括用于检测第一参考电压的检测装置,比较器和防止电路,用于在预先操作的不确定时间间隔期间防止任何假操作。 比较器输出控制其电源电压为第一参考电压等于或低于第一参考电压的运算电路的信号。 当第一参考电压低于第一预定电压时,防止电路将第二参考电压保持为电路参考电位,当第一参考电压等于或等于更高时,将第二参考电压设置为等于第一参考电压的电压 并且当第一参考电压等于或高于第二预定电压时,将第二参考电压设置为与第一参考电压成比例的电压。
    • 2. 发明授权
    • Switching power supply device
    • 开关电源装置
    • US07348766B2
    • 2008-03-25
    • US11441374
    • 2006-05-25
    • Yoshiaki HachiyaRyutaro ArakawaMinoru FukuiTakashi Kunimatsu
    • Yoshiaki HachiyaRyutaro ArakawaMinoru FukuiTakashi Kunimatsu
    • G05F1/575G05F1/656
    • B23K9/1056Y10T307/74
    • The peak current flowing to the switching device drops in a no-load state with PWM control, but because the number of switching operations is constant regardless of the load, further reducing power consumption is difficult. The switching power supply device has a PWM signal generator for generating a PWM signal, a switching device Q1 for switching the first supply voltage VIN based on the PWM signal, converters for outputting the difference between a second supply voltage and a reference voltage as a difference signal, and an intermittent oscillation control circuit for stopping the switching operation of the first switching device when the difference signal is less than a predetermined first threshold value (Vp1). The PWM signal generator changes the pulse width based on the difference signal to generate the PWM signal.
    • 流入开关装置的峰值电流在空载状态下通过PWM控制下降,但由于不管负载如何,切换次数都是恒定的,所以进一步降低功耗是困难的。 开关电源装置具有用于产生PWM信号的PWM信号发生器,用于基于PWM信号切换第一电源电压VIN的开关器件Q1,用于将第二电源电压和参考电压之间的差作为输出的转换器,作为 差分信号和用于当差信号小于预定的第一阈值(Vp 1)时停止第一开关装置的开关操作的间歇振荡控制电路。 PWM信号发生器根据差分信号改变脉冲宽度,产生PWM信号。
    • 4. 发明授权
    • Light emitting diode drive apparatus
    • 发光二极管驱动装置
    • US07638954B2
    • 2009-12-29
    • US11623363
    • 2007-01-16
    • Takashi KunimatsuRyutaro ArakawaYoshiaki HachiyaMinoru Fukui
    • Takashi KunimatsuRyutaro ArakawaYoshiaki HachiyaMinoru Fukui
    • G05F1/00
    • H05B33/0815H05B33/0809
    • There is provided a light emitting diode drive apparatus which decreases a conducted emission. The light emitting diode drive apparatus includes a light emitting diode to which a voltage is applied from a voltage source, a choke coil connected in series to the light emitting diode, a rectifier diode connected in parallel to the light emitting diode and the choke coil to supply a back electromotive force generated in the choke coil to the light emitting diode, and a switching drive circuit including a switching element and a control circuit block. The switching element determines whether a current is applied or not applied to the light emitting diode. The control circuit block controls on/off timing of the switching element to control the current flowing into the light emitting diode. The choke coil is connected between the light emitting diode and the switching element.
    • 提供了减少传导发射的发光二极管驱动装置。 发光二极管驱动装置包括从电压源施加电压的发光二极管,与发光二极管串联连接的扼流线圈,并联连接到发光二极管和扼流线圈的整流二极管, 将在扼流线圈中产生的反电动势提供给发光二极管,以及包括开关元件和控制电路块的开关驱动电路。 开关元件确定电流是施加还是不施加到发光二极管。 控制电路块控制开关元件的开/关定时以控制流入发光二极管的电流。 扼流线圈连接在发光二极管和开关元件之间。
    • 5. 发明申请
    • Reference supply voltage circuit using more than two reference supply voltages
    • 参考电源电压电路使用两个以上的参考电源电压
    • US20070229148A1
    • 2007-10-04
    • US11723530
    • 2007-03-20
    • Yoshiaki HachiyaRyutaro ArakawaTakashi KunimatsuMinoru Fukui
    • Yoshiaki HachiyaRyutaro ArakawaTakashi KunimatsuMinoru Fukui
    • G05F1/10
    • G05F3/24
    • A reference supply voltage circuit includes a detecting device for detecting a first reference voltage, a comparator, and a preventing circuit for preventing any false operation during pre-operation indefinite time interval. The comparator outputs a signal which controls an operation circuit whose supply voltage is a second reference voltage equal to or lower than the first reference voltage. The preventing circuit maintains the second reference voltage to a circuit reference potential when the first reference voltage is lower than a first predetermined voltage, sets the second reference voltage to a voltage equal to the first reference voltage when the first reference voltage is equal to or higher than the first predetermined voltage and lower than a second predetermined voltage, and sets the second reference voltage to a voltage proportional to the first reference voltage when the first reference voltage is equal to or higher than the second predetermined voltage.
    • 参考电源电压电路包括用于检测第一参考电压的检测装置,比较器和防止电路,用于在预先操作的不确定时间间隔期间防止任何假操作。 比较器输出控制其电源电压为第一参考电压等于或低于第一参考电压的运算电路的信号。 当第一参考电压低于第一预定电压时,防止电路将第二参考电压保持为电路参考电位,当第一参考电压等于或等于更高时,将第二参考电压设置为等于第一参考电压的电压 并且当第一参考电压等于或高于第二预定电压时,将第二参考电压设置为与第一参考电压成比例的电压。
    • 6. 发明申请
    • LIGHT EMITTING DIODE DRIVE APPARATUS
    • 发光二极管驱动装置
    • US20070170874A1
    • 2007-07-26
    • US11623363
    • 2007-01-16
    • Takashi KUNIMATSURyutaro ArakawaYoshiaki HachiyaMinoru Fukui
    • Takashi KUNIMATSURyutaro ArakawaYoshiaki HachiyaMinoru Fukui
    • H05B41/36
    • H05B33/0815H05B33/0809
    • There is provided a light emitting diode drive apparatus which decreases a conducted emission. The light emitting diode drive apparatus includes a light emitting diode to which a voltage is applied from a voltage source, a choke coil connected in series to the light emitting diode, a rectifier diode connected in parallel to the light emitting diode and the choke coil to supply a back electromotive force generated in the choke coil to the light emitting diode, and a switching drive circuit including a switching element and a control circuit block. The switching element determines whether a current is applied or not applied to the light emitting diode. The control circuit block controls on/off timing of the switching element to control the current flowing into the light emitting diode. The choke coil is connected between the light emitting diode and the switching element.
    • 提供了减少传导发射的发光二极管驱动装置。 发光二极管驱动装置包括从电压源施加电压的发光二极管,与发光二极管串联连接的扼流线圈,并联连接到发光二极管和扼流线圈的整流二极管, 将在扼流线圈中产生的反电动势提供给发光二极管,以及包括开关元件和控制电路块的开关驱动电路。 开关元件确定电流是施加还是不施加到发光二极管。 控制电路块控制开关元件的开/关定时以控制流入发光二极管的电流。 扼流线圈连接在发光二极管和开关元件之间。
    • 7. 发明申请
    • Switching power supply device
    • 开关电源装置
    • US20060273662A1
    • 2006-12-07
    • US11441374
    • 2006-05-25
    • Yoshiaki HachiyaRyutaro ArakawaMinoru FukuiTakashi Kunimatsu
    • Yoshiaki HachiyaRyutaro ArakawaMinoru FukuiTakashi Kunimatsu
    • B23K11/24
    • B23K9/1056Y10T307/74
    • The peak current flowing to the switching device drops in a no-load state with PWM control, but because the number of switching operations is constant regardless of the load, further reducing power consumption is difficult. The switching power supply device has a PWM signal generator for generating a PWM signal, a switching device Q1 for switching the first supply voltage VIN based on the PWM signal, converters for outputting the difference between a second supply voltage and a reference voltage as a difference signal, and an intermittent oscillation control circuit for stopping the switching operation of the first switching device when the difference signal is less than a predetermined first threshold value (Vp1). The PWM signal generator changes the pulse width based on the difference signal to generate the PWM signal.
    • 流入开关装置的峰值电流在空载状态下通过PWM控制下降,但由于不管负载如何,切换次数都是恒定的,所以进一步降低功耗是困难的。 开关电源装置具有用于产生PWM信号的PWM信号发生器,用于基于PWM信号切换第一电源电压VIN的开关器件Q1,用于将第二电源电压和参考电压之间的差作为输出的转换器,作为 差分信号和用于当差信号小于预定的第一阈值(Vp 1)时停止第一开关装置的开关操作的间歇振荡控制电路。 PWM信号发生器根据差分信号改变脉冲宽度,产生PWM信号。
    • 8. 发明申请
    • Semiconductor Device For Driving Led, And Led Driving
    • 用于驱动LED和LED驱动的半导体器件
    • US20080018267A1
    • 2008-01-24
    • US11795152
    • 2006-01-12
    • Ryutaro ArakawaYoshiaki HachiyaTakashi Kunimatsu
    • Ryutaro ArakawaYoshiaki HachiyaTakashi Kunimatsu
    • H01L33/00
    • H05B33/0848H05B33/0815H05B33/0854H05B33/0887
    • An LED driving semiconductor apparatus having a larger electric power conversion efficiency and is suitable for miniaturization, and an LED driving apparatus using the same are provided. The LED driving semiconductor apparatus for driving at least one LED includes an input terminal, an output terminal, a switching element block and a controller. The input terminal is connected to a high voltage side of a rectifying circuit for rectifying an alternating current voltage, and inputs the voltage from the rectifying circuit. The output terminal is provided for supplying a current to the LED. The switching element block is connected between the input terminal and the output terminal, and has a first switching element. The controller includes a regulator for generating a power source voltage for driving and controlling the switching element block, and a drain current detector for detecting a drain current of the switching element block, and performs on/off control of the first switching element to block the drain current of the switching element block when the drain current reaches a predetermined threshold.
    • 提供具有较大电力转换效率并适于小型化的LED驱动半导体装置,以及使用该LED驱动装置的LED驱动装置。 用于驱动至少一个LED的LED驱动半导体装置包括输入端子,输出端子,开关元件块和控制器。 输入端子连接到整流电路的高压侧,用于整流交流电压,并输入来自整流电路的电压。 输出端子用于向LED提供电流。 开关元件块连接在输入端子和输出端子之间,并具有第一开关元件。 控制器包括用于产生用于驱动和控制开关元件块的电源电压的调节器和用于检测开关元件块的漏极电流的漏极电流检测器,并且执行第一开关元件的接通/断开控制以阻止 当漏极电流达到预定阈值时开关元件块的漏极电流。
    • 9. 发明授权
    • Switching control circuit with off period adjustment
    • 开关控制电路具有关闭周期调整功能
    • US07439719B2
    • 2008-10-21
    • US11525128
    • 2006-09-22
    • Yoshiaki HachiyaRyutarou ArakawaTakashi KunimatsuMinoru Fukui
    • Yoshiaki HachiyaRyutarou ArakawaTakashi KunimatsuMinoru Fukui
    • G05F1/56
    • H02M3/33507
    • A switching control circuit is provided which can increase the off period of a switching element when the on period of the switching element is equal to the sum of the minimum pulse period (blanking period (a fixed period during which drain current is not detected after the switching element is turned on)) and a detection delay period (a period from when the drain current is equal to or higher than a detection criterion to when the switching element is actually turned off) and PWM control is disabled. An off period adjusting circuit generates, when the on period of the switching element is equal to the minimum pulse period, an adjusting signal OFF_C for increasing the off period of the switching element and supplies the signal to an on/off circuit for controlling the periodic on/off operation of the switching element.
    • 提供了一种开关控制电路,当开关元件的导通周期等于最小脉冲周期的总和(消隐周期(在该周期之后没有检测到漏极电流的固定周期)时,可以增加开关元件的关断周期 开关元件导通))和检测延迟期间(从漏电流等于或大于检测准则到开关元件实际截止时的周期),并且禁止PWM控制。 关闭周期调整电路当开关元件的接通周期等于最小脉冲周期时,产生用于增加开关元件的截止周期的调整信号OFF_C,并将该信号提供给控制周期性的导通/截止电路 开关元件的开/关操作。
    • 10. 发明申请
    • Switching control circuit
    • 开关控制电路
    • US20070176583A1
    • 2007-08-02
    • US11525128
    • 2006-09-22
    • Yoshiaki HachiyaRyutarou ArakawaTakashi KunimatsuMinoru Fukui
    • Yoshiaki HachiyaRyutarou ArakawaTakashi KunimatsuMinoru Fukui
    • G05F1/00
    • H02M3/33507
    • A switching control circuit is provided which can increase the off period of a switching element when the on period of the switching element is equal to the sum of the minimum pulse period (blanking period (a fixed period during which drain current is not detected after the switching element is turned on)) and a detection delay period (a period from when the drain current is equal to or higher than a detection criterion to when the switching element is actually turned off) and PWM control is disabled. An off period adjusting circuit generates, when the on period of the switching element is equal to the minimum pulse period, an adjusting signal OFF_C for increasing the off period of the switching element and supplies the signal to an on/off circuit for controlling the periodic on/off operation of the switching element.
    • 提供了一种开关控制电路,当开关元件的导通周期等于最小脉冲周期的总和(消隐周期(在该周期之后没有检测到漏极电流的固定周期)时,可以增加开关元件的关断周期 开关元件导通))和检测延迟期间(从漏电流等于或大于检测准则到开关元件实际截止时的周期),并且禁止PWM控制。 关闭周期调整电路当开关元件的接通周期等于最小脉冲周期时,产生用于增加开关元件的截止周期的调整信号OFF_C,并将该信号提供给控制周期性的导通/截止电路 开关元件的开/关操作。