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    • 1. 发明授权
    • Luminescent lamp lighting device
    • 发光灯照明装置
    • US07888887B2
    • 2011-02-15
    • US11997025
    • 2006-03-30
    • Mizuki UtsunoKazushige HirataToru AshikagaToyotomo Morita
    • Mizuki UtsunoKazushige HirataToru AshikagaToyotomo Morita
    • G05F1/00
    • H05B41/2827
    • A luminescent lamp lighting device includes a plurality of switch circuits 3, 4 each connected to each of luminescent lamps 5, 6 in series under one-to-one correspondence, a plurality of optical coupling circuits 9, 10 each connected to each of the switch circuits under one-to-one correspondence to turn on/off the switch circuits and a plurality of current detecting circuits 7, 8 each connected to each of the luminescent lamps in series under one-to-one correspondence to detect currents flowing the luminescent lamps. The device determines whether the luminescent lamps are turned on or not, based on the currents detected by the current detecting circuits and controls the optical coupling circuits based on the determination result so as to allow all of the luminescent lamps but a luminescent lamp requiring a highest lighting voltage to be turned on in order of low lighting voltage, next allow the lighted luminescent lamps to be turned lighted off, and allow all of the remaining luminescent lamps to be turned on again after turning on the luminescent lamp requiring the highest lighting voltage.
    • 发光灯照明装置包括多个开关电路3,4,每个开关电路3,4分别以一一对应的方式串联连接到发光灯5,6中,多个光耦合电路9,10分别连接到每个开关 电路以一一对应的方式打开/关闭开关电路,以及多个电流检测电路7,8,每个电流检测电路7,8以一一对应的方式串联连接到每个发光灯,以检测流过发光灯的电流 。 该装置基于由电流检测电路检测到的电流来确定发光灯是否导通,并且基于确定结果控制光耦合电路,以便允许所有发光灯,但是需要最高的发光灯 照亮电压按照低照明电压的顺序接通,接着允许点亮的发光灯被点亮,并且在打开需要最高点亮电压的发光灯后,允许所有剩余的发光灯再次打开。
    • 2. 发明申请
    • LUMINESCENT LAMP LIGHTING DEVICE
    • 发光灯照明装置
    • US20100171433A1
    • 2010-07-08
    • US11997025
    • 2006-03-30
    • Mizuki UtsunoKazushige HirataToru AshikagaToyotomo Morita
    • Mizuki UtsunoKazushige HirataToru AshikagaToyotomo Morita
    • H05B41/36
    • H05B41/2827
    • A luminescent lamp lighting device includes a plurality of switch circuits 3, 4 each connected to each of luminescent lamps 5, 6 in series under one-to-one correspondence, a plurality of optical coupling circuits 9, 10 each connected to each of the switch circuits under one-to-one correspondence to turn on/off the switch circuits and a plurality of current detecting circuits 7, 8 each connected to each of the luminescent lamps in series under one-to-one correspondence to detect currents flowing the luminescent lamps. The device determines whether the luminescent lamps are turned on or not, based on the currents detected by the current detecting circuits and controls the optical coupling circuits based on the determination result so as to allow all of the luminescent lamps but a luminescent lamp requiring a highest lighting voltage to be turned on in order of low lighting voltage, next allow the lighted luminescent lamps to be turned lighted off, and allow all of the remaining luminescent lamps to be turned on again after turning on the luminescent lamp requiring the highest lighting voltage.
    • 发光灯照明装置包括多个开关电路3,4,每个开关电路3,4分别以一一对应的方式串联连接到发光灯5,6中,多个光耦合电路9,10分别连接到每个开关 电路以一一对应的方式打开/关闭开关电路,以及多个电流检测电路7,8,每个电流检测电路7,8以一一对应的方式串联连接到每个发光灯,以检测流过发光灯的电流 。 该装置基于由电流检测电路检测到的电流来确定发光灯是否导通,并且基于确定结果控制光耦合电路,以便允许所有发光灯,但是需要最高的发光灯 照亮电压按照低照明电压的顺序接通,接着允许点亮的发光灯被点亮,并且在打开需要最高点亮电压的发光灯后,允许所有剩余的发光灯再次打开。
    • 4. 发明授权
    • DC power source apparatus
    • 直流电源装置
    • US08248824B2
    • 2012-08-21
    • US12476735
    • 2009-06-02
    • Mizuki UtsunoMasayuki WatanabeHideto SugiuraEri Tamegai
    • Mizuki UtsunoMasayuki WatanabeHideto SugiuraEri Tamegai
    • H02M3/22
    • H02M3/33507H01F27/2823H01F27/306H01F27/38H01F30/06H01F41/082
    • A DC power source apparatus converts a DC input voltage into high-frequency power by turning on/off a switching element connected to a primary winding of a transformer and converts the high-frequency power transmitted to a secondary winding of the transformer into a DC output voltage. The primary and secondary windings of the transformer include a core winding set having a primary winding P1 wound around a leg of a core defining a closed magnetic path and a secondary winding externally wound around the primary winding and another core winding set having a primary winding P2 wound around a leg of the core and a secondary winding externally wound around the primary winding. The primary winding of each of the two core winding sets has a plurality of winding layers among which a lowermost one that is closest to the core is connected to the switching element.
    • 直流电源装置通过接通/断开连接到变压器的初级绕组的开关元件将直流输入电压转换为高频电力,并将传输到变压器的次级绕组的高频功率转换为直流输出 电压。 变压器的初级和次级绕组包括:芯绕组,其具有卷绕在限定闭合磁路的芯的腿部上的初级绕组P1和在初级绕组外部缠绕的次级绕组,以及具有初级绕组P2的另一个绕组组 缠绕在芯的一条腿上,并且绕在一次绕组外部缠绕一个次级绕组。 两个芯线绕组中的每一个的初级绕组具有多个绕组层,其中最靠近芯的最下面的绕组层连接到开关元件。
    • 5. 发明申请
    • SWITCHING POWER SOURCE DEVICE
    • 切换电源设备
    • US20100182808A1
    • 2010-07-22
    • US12664649
    • 2008-03-12
    • Makoto SatoMizuki Utsuno
    • Makoto SatoMizuki Utsuno
    • H02M3/335
    • H02M3/33592Y02B70/1433Y02B70/1475
    • A pseudo-resonant switching power source device is provided which comprises a primary winding 2a of a transformer 2 and a main MOS-FET 3 connected in series to a DC power source 1, a voltage-resonant capacitor 12 connected in parallel to main MOS-FET 3, a rectification smoother 4 connected to a secondary winding 2b of transformer 2 and having a rectification MOS-FET 51 and a smoothing capacitor 6, a synchronized rectification controller 52 for turning rectification MOS-FET 51 on after turning-off of main MOS-FET 3 and turning rectification MOS-FET 51 off before turning-on of main MOS-FET 3, a pulse width elongation circuit 55 for extending on-pulse width of rectification MOS-FET 51, and a main control circuit 8 for producing main drive signals to turn main MOS-FET 3 off and on with operation frequency responsive to on-pulse width of rectification MOS-FET 51 extended by pulse width elongation circuit 55 to vary operation frequency of main MOS-FET 3 so as to restrain noise by high frequency components in main drive signals from main control circuit 8.
    • 提供了一种模拟谐振开关电源装置,其包括变压器2的初级绕组2a和与直流电源1串联连接的主MOS-FET 3,与主MOS-FET并联连接的电压 - 谐振电容器12, FET3,与变压器2的次级绕组2b连接并具有整流MOS-FET51和平滑电容器6的整流平滑器4,用于在主MOS闭合之后使整流MOS-FET51导通的同步整流控制器52 在主MOS-FET 3的导通之前,FETFET3和转向整流MOS-FET51截止,用于延长整流MOS-FET51的脉冲宽度的脉冲宽度延长电路55以及用于产生主MOS-FET3的主控制电路8 驱动信号,使脉冲宽度延长电路55延长的整流MOS-FET51的脉冲宽度响应于操作频率而使主MOS-FET3断开和接通,以改变主MOS-FET 3的工作频率,从而抑制噪声 高频率 来自主控制电路8的主驱动信号中的ncy分量。
    • 6. 发明授权
    • Power source apparatus
    • 电源设备
    • US07154762B2
    • 2006-12-26
    • US10530339
    • 2003-01-10
    • Ryuichi FurukoshiMizuki Utsuno
    • Ryuichi FurukoshiMizuki Utsuno
    • H02M3/335
    • H02M3/156H02M3/33523H02M2001/0032H02M2001/0041Y02B70/16
    • An input voltage is applied by an NMOS transistor (34) driven by an oscillation circuit (60) to a primary winding (32a) of a transformer (32) intermittently. A voltage induced in a secondary winding (32b) is rectified and smoothed by an output circuit (91) to be an output voltage. In a normal mode where no standby signal is supplied, the oscillation circuit (60) controls the NMOS transistor (34) so that the output voltage is stabilized at a predetermined first value. When a standby signal is supplied, a detection circuit (100) detects the standby signal and transmits the detection to a starting circuit (40). The starting circuit (40) starts the oscillation circuit (60) when a voltage of a capacitor (33) reaches an upper limit, and stops the oscillation circuit (60) when this voltage lowers below a lower limit. This upper limit is lower than an upper limit at which the starting circuit (40) starts the oscillation circuit (60) in the normal mode.
    • 由振荡电路(60)驱动的NMOS晶体管(34)将间歇地施加到变压器(32)的初级绕组(32a)的输入电压。 在次级绕组(32b)中感应的电压被输出电路(91)整流和平滑化为输出电压。 在没有提供待机信号的正常模式下,振荡电路(60)控制NMOS晶体管(34),使得输出电压稳定在预定的第一值。 当提供待机信号时,检测电路(100)检测待机信号,并将该检测发送到启动电路(40)。 当电容器(33)的电压达到上限时,启动电路(40)启动振荡电路(60),并且当该电压降低到低于下限时停止振荡电路(60)。 该上限低于起动电路(40)在正常模式下启动振荡电路(60)的上限。
    • 7. 发明申请
    • Power source apparatus
    • 电源设备
    • US20050219864A1
    • 2005-10-06
    • US10530339
    • 2003-01-10
    • Ryuichi FurukoshiMizuki Utsuno
    • Ryuichi FurukoshiMizuki Utsuno
    • H02M3/28H02M3/155H02M3/156H02M3/335
    • H02M3/156H02M3/33523H02M2001/0032H02M2001/0041Y02B70/16
    • An input voltage is applied by an NMOS transistor (34) driven by an oscillation circuit (60) to a primary winding (32a) of a transformer (32) intermittently. A voltage induced in a secondary winding (32b) is rectified and smoothed by an output circuit (91) to be an output voltage. In a normal mode where no standby signal is supplied, the oscillation circuit (60) controls the NMOS transistor (34) so that the output voltage is stabilized at a predetermined first value. When a standby signal is supplied, a detection circuit (100) detects the standby signal and transmits the detection to a starting circuit (40). The starting circuit (40) starts the oscillation circuit (60) when a voltage of a capacitor (33) reaches an upper limit, and stops the oscillation circuit (60) when this voltage lowers below a lower limit. This upper limit is lower than an upper limit at which the starting circuit (40) starts the oscillation circuit (60) in the normal mode.
    • 由振荡电路(60)驱动的NMOS晶体管(34)将间歇地施加到变压器(32)的初级绕组(32a)的输入电压。 在次级绕组(32b)中感应的电压被输出电路(91)整流和平滑化为输出电压。 在没有提供待机信号的正常模式下,振荡电路(60)控制NMOS晶体管(34),使得输出电压稳定在预定的第一值。 当提供待机信号时,检测电路(100)检测待机信号,并将该检测发送到启动电路(40)。 当电容器(33)的电压达到上限时,启动电路(40)启动振荡电路(60),并且当该电压降低到低于下限时停止振荡电路(60)。 该上限低于起动电路(40)在正常模式下启动振荡电路(60)的上限。
    • 8. 发明授权
    • Switching power source device
    • 开关电源设备
    • US08437152B2
    • 2013-05-07
    • US12664649
    • 2008-03-12
    • Makoto SatoMizuki Utsuno
    • Makoto SatoMizuki Utsuno
    • H02M3/335
    • H02M3/33592Y02B70/1433Y02B70/1475
    • A pseudo-resonant switching power source device is provided which comprises a primary winding 2a of a transformer 2 and a main MOS-FET 3 connected in series to a DC power source 1, a voltage-resonant capacitor 12 connected in parallel to main MOS-FET 3, a rectification smoother 4 connected to a secondary winding 2b of transformer 2 and having a rectification MOS-FET 51 and a smoothing capacitor 6, a synchronized rectification controller 52 for turning rectification MOS-FET 51 on after turning-off of main MOS-FET 3 and turning rectification MOS-FET 51 off before turning-on of main MOS-FET 3, a pulse width elongation circuit 55 for extending on-pulse width of rectification MOS-FET 51, and a main control circuit 8 for producing main drive signals to turn main MOS-FET 3 off and on with operation frequency responsive to on-pulse width of rectification MOS-FET 51 extended by pulse width elongation circuit 55 to vary operation frequency of main MOS-FET 3 so as to restrain noise by high frequency components in main drive signals from main control circuit 8.
    • 提供了一种模拟谐振开关电源装置,其包括变压器2的初级绕组2a和与直流电源1串联连接的主MOS-FET 3,与主MOS-FET3并联连接的电压 - 谐振电容器12, FET3,与变压器2的次级绕组2b连接并具有整流MOS-FET51和平滑电容器6的整流平滑器4,用于在主MOS断开之后使整流MOS-FET51导通的同步整流控制器52 在主MOS-FET 3的导通之前,FETFET3和转向整流MOS-FET51截止,用于延长整流MOS-FET51的脉冲宽度的脉冲宽度延长电路55以及用于产生主MOS-FET3的主控制电路8 驱动信号,使脉冲宽度延长电路55延长的整流MOS-FET51的脉冲宽度响应于操作频率而使主MOS-FET3断开和接通,以改变主MOS-FET 3的工作频率,从而抑制噪声 高频率 来自主控制电路8的主驱动信号中的ncy分量。
    • 9. 发明授权
    • Inductance part
    • 电感部分
    • US08009007B2
    • 2011-08-30
    • US12618475
    • 2009-11-13
    • Mizuki UtsunoTomohiro MiyataSadahiro YamazakiShigenori Ishii
    • Mizuki UtsunoTomohiro MiyataSadahiro YamazakiShigenori Ishii
    • H01F5/00
    • H01F27/2866H01F27/2804H01F27/2828H01F2027/2809H01F2027/2819
    • Since there exists a draw-out portion of a triple insulated wire in a winding structure of a transformer in which the triple insulated wire is used as a secondary winding, the thickness of the transformer is increased by an amount corresponding to the wire diameter of the draw-out portion. Further, when reduction of the thickness of the transformer is prioritized, the secondary winding can be provided only on one side, making it impossible to achieve the sandwich structure. Thus, the coupling between the primary and secondary windings has been sacrificed. An inductance part provided with a magnetic core, two or more sheet coils, and a winding includes: a bobbin constituted by at least two or more sheet coils; and a winding formed by winding a triple insulated wire between the two or more sheet coils constituting the bobbin. A triple insulated wire draw-out portion on the center side of the winding is drawn out to one outer surface side of the bobbin.
    • 由于在将三重绝缘线用作次级绕组的变压器的绕组结构中存在三重绝缘线的拉出部分,所以变压器的厚度增加相当于 抽出部分。 此外,当将变压器的厚度减小时,可以仅在一侧提供次级绕组,使得不可能实现夹层结构。 因此,已经牺牲了初级和次级绕组之间的耦合。 设置有磁芯,两个或多个片状线圈和绕组的电感部分包括:由至少两个或更多个片状线圈构成的线轴; 以及通过在构成线轴的两个或更多个片状线圈之间缠绕三重绝缘线而形成的绕组。 绕组中心侧的三层绝缘线引出部分被抽出到线轴的一个外表面侧。
    • 10. 发明授权
    • DC power source apparatus
    • 直流电源装置
    • US07145784B2
    • 2006-12-05
    • US11208069
    • 2005-08-19
    • Mizuki UtsunoYoshikazu TakahashiHiroyuki ChikashigeHiromi Koiwai
    • Mizuki UtsunoYoshikazu TakahashiHiroyuki ChikashigeHiromi Koiwai
    • H02M3/335H01F5/00
    • H01F27/38H01F27/2823H01F27/36H01F41/082H01F2038/026H02M3/33523H02M2001/123
    • A DC power source apparatus has a DC power source for supplying a DC voltage, a transformer, and a switching element connected to a primary winding of the transformer. The switching element carries out ON/OFF operations to convert the DC voltage from the DC power source into high-frequency power, which is transferred to a secondary winding of the transformer and is converted into a DC output voltage. The primary winding of the transformer consists of a first primary winding made of a plurality of winding layers and a second primary winding made of a plurality of winding layers. The first and second primary windings are connected in parallel. The first primary winding is arranged on an inner side of the secondary winding, and the second primary winding is arranged on an outer side of the secondary winding. A terminal of a winding layer farthest from the secondary winding among the winding layers of each of the first and second primary windings is connected to the switching element.
    • 直流电源装置具有用于提供直流电压的直流电源,变压器和连接到变压器的初级绕组的开关元件。 开关元件进行ON / OFF动作,将来自直流电源的直流电压转换为高频电力,将其传送到变压器的次级绕组,并转换为直流输出电压。 变压器的初级绕组包括由多个绕组层构成的第一初级绕组和由多个绕组层制成的第二初级绕组。 第一和第二初级绕组并联连接。 第一初级绕组布置在次级绕组的内侧,第二初级绕组布置在次级绕组的外侧。 在第一和第二初级绕组中的每一个的绕组层中与次级绕组最远的绕组层的端子连接到开关元件。