会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Power supply for a load control
    • 负载控制装置的电源
    • US07564227B2
    • 2009-07-21
    • US12140648
    • 2008-06-17
    • Aaron DobbinsRussell WeightmanDavid PerreaultJames P. SteinerChen Ming Wu
    • Aaron DobbinsRussell WeightmanDavid PerreaultJames P. SteinerChen Ming Wu
    • G05F1/455H02J3/12
    • H02M5/257H02M5/2573H02M2001/0006H05B39/08
    • A power supply adapted to be coupled in series electrical connection between an AC voltage source and an electrical load for generating a DC voltage, the power supply comprising an energy storage capacitor, the DC voltage produced across the capacitor; a charging circuit adapted to be coupled in series electrical connection between the source and the load and to conduct a load current from the source to the load, the charging circuit coupled to the energy storage capacitor for charging the energy storage capacitor; a controllably conductive device coupled in parallel electrical connection with the charging circuit and having a control input for rendering the controllably conductive device conductive, the controllably conductive device adapted to carry the load current from the source to the load when the controllably conductive device is conductive; and a triggering circuit coupled to the control input of the controllably conductive device for causing the controllably conductive device to become conductive when the energy storage capacitor has charged to a desired maximum value; wherein the charging circuit is adapted to conduct the load current from the source to the load when the controllably conductive device is non-conductive, the charging circuit imposing a low voltage drop relative to the peak value of an AC voltage of the AC voltage source, such that substantially all of the AC voltage is available to the load during the time when the controllably conductive device is non-conductive.
    • 一种适于在AC电压源和用于产生DC电压的电负载之间串联连接的电源,所述电源包括储能电容器,所述电容器两端产生的直流电压; 充电电路,其适于在所述源极和所述负载之间串联电连接并且将负载电流从所述源极传递到所述负载,所述充电电路耦合到所述储能电容器,用于对所述储能电容器充电; 可控导电装置,其与所述充电电路并联电连接并且具有用于使所述可控制导电装置导电的控制输入,所述可控制导电装置适于在所述可控导电装置导电时将所述负载电流从所述源运载到所述负载; 以及触发电路,其耦合到所述可控导电装置的控制输入端,用于当所述储能电容器已经充电至期望的最大值时使所述可控导电器件导通; 其中所述充电电路适于在所述可控导电器件不导通时将来自所述源极的负载电流传导到所述负载,所述充电电路相对于所述AC电压源的AC电压的峰值施加低电压降, 使得在可控导电器件不导电的时间内基本上所有的交流电压都可用于负载。
    • 3. 发明申请
    • POWER SUPPLY FOR A LOAD CONTROL
    • 用于负载控制的电源
    • US20080246451A1
    • 2008-10-09
    • US12140648
    • 2008-06-17
    • Aaron DobbinsRussell WeightmanDavid J. PerreaultJames P. SteinerChen Ming Wu
    • Aaron DobbinsRussell WeightmanDavid J. PerreaultJames P. SteinerChen Ming Wu
    • G05F1/455
    • H02M5/257H02M5/2573H02M2001/0006H05B39/08
    • A power supply adapted to be coupled in series electrical connection between an AC voltage source and an electrical load for generating a DC voltage, the power supply comprising an energy storage capacitor, the DC voltage produced across the capacitor; a charging circuit adapted to be coupled in series electrical connection between the source and the load and to conduct a load current from the source to the load, the charging circuit coupled to the energy storage capacitor for charging the energy storage capacitor; a controllably conductive device coupled in parallel electrical connection with the charging circuit and having a control input for rendering the controllably conductive device conductive, the controllably conductive device adapted to carry the load current from the source to the load when the controllably conductive device is conductive; and a triggering circuit coupled to the control input of the controllably conductive device for causing the controllably conductive device to become conductive when the energy storage capacitor has charged to a desired maximum value; wherein the charging circuit is adapted to conduct the load current from the source to the load when the controllably conductive device is non-conductive, the charging circuit imposing a low voltage drop relative to the peak value of an AC voltage of the AC voltage source, such that substantially all of the AC voltage is available to the load during the time when the controllably conductive device is non-conductive.
    • 一种适于在AC电压源和用于产生DC电压的电负载之间串联连接的电源,所述电源包括储能电容器,所述电容器两端产生的直流电压; 充电电路,其适于在所述源极和所述负载之间串联电连接并且将负载电流从所述源极传递到所述负载,所述充电电路耦合到所述储能电容器,用于对所述储能电容器充电; 可控导电装置,其与所述充电电路并联电连接并且具有用于使所述可控制导电装置导电的控制输入,所述可控制导电装置适于在所述可控导电装置导电时将所述负载电流从所述源运载到所述负载; 以及触发电路,其耦合到所述可控导电装置的控制输入端,用于当所述储能电容器已经充电至期望的最大值时使所述可控导电器件导通; 其中所述充电电路适于在所述可控导电器件不导通时将来自所述源极的负载电流传导到所述负载,所述充电电路相对于所述AC电压源的AC电压的峰值施加低电压降, 使得在可控导电器件不导电的时间内基本上所有的交流电压都可用于负载。
    • 4. 发明授权
    • Power supply for a load control device
    • 负载控制装置的电源
    • US07423413B2
    • 2008-09-09
    • US11447489
    • 2006-06-06
    • Aaron DobbinsRussell WeightmanDavid J PerreaultJames P SteinerChen Ming Wu
    • Aaron DobbinsRussell WeightmanDavid J PerreaultJames P SteinerChen Ming Wu
    • G05F1/455H02J3/12
    • H02M5/257H02M5/2573H02M2001/0006H05B39/08
    • A power supply for a load control device is disposed in series with an AC voltage source and a load and generates a substantially DC voltage for powering a controller of the load control device. The power supply is operable to provide substantially all voltage provided by the AC voltage source to the load and includes a controllably conductive device, a triggering device, and a charging circuit. The charging circuit is operable to charge an energy storage device and to conduct current to the load when the controllably conductive device is non-conductive. The controllably conductive device begins conducting the full load current when the energy storage device has charged to a predetermined amount of energy. Before the controllably conductive device begins to conduct, only a minimal voltage, which is substantially the same as the break-over voltage of the triggering circuit, develops across the power supply to allow the energy storage device to charge.
    • 用于负载控制装置的电源与AC电压源和负载串联设置,并且产生用于为负载控制装置的控制器供电的基本上的DC电压。 电源可操作以将交流电压源提供的基本上所有电压提供给负载,并且包括可控导电器件,触发器件和充电电路。 充电电路可操作地对能量存储装置充电,并且当可控导电装置不导电时,将电流传导到负载。 当能量存储装置已经充电到预定量的能量时,可控导电装置开始传导满载电流。 在可控制导电器件开始导通之前,只有最小电压(其与触发电路的断开电压基本相同)在电源上形成,以使能​​量存储器件充电。
    • 6. 发明申请
    • Power supply for a load control device
    • 负载控制装置的电源
    • US20060273775A1
    • 2006-12-07
    • US11447489
    • 2006-06-06
    • Aaron DobbinsRussell WeightmanDavid PerreaultJames SteinerChen Wu
    • Aaron DobbinsRussell WeightmanDavid PerreaultJames SteinerChen Wu
    • G05F1/00
    • H02M5/257H02M5/2573H02M2001/0006H05B39/08
    • A power supply for a load control device is disposed in series with an AC voltage source and a load and generates a substantially DC voltage for powering a controller of the load control device. The power supply is operable to provide substantially all voltage provided by the AC voltage source to the load and includes a controllably conductive device, a triggering device, and a charging circuit. The charging circuit is operable to charge an energy storage device and to conduct current to the load when the controllably conductive device is non-conductive. The controllably conductive device begins conducting the full load current when the energy storage device has charged to a predetermined amount of energy. Before the controllably conductive device begins to conduct, only a minimal voltage, which is substantially the same as the break-over voltage of the triggering circuit, develops across the power supply to allow the energy storage device to charge.
    • 用于负载控制装置的电源与AC电压源和负载串联设置,并且产生用于为负载控制装置的控制器供电的基本上的DC电压。 电源可操作以将交流电压源提供的基本上所有电压提供给负载,并且包括可控导电器件,触发器件和充电电路。 充电电路可操作地对能量存储装置充电,并且当可控导电装置不导电时,将电流传导到负载。 当能量存储装置已经充电到预定量的能量时,可控导电装置开始传导满载电流。 在可控制导电器件开始导通之前,只有最小电压(其与触发电路的断开电压基本相同)在电源上形成,以使能​​量存储器件充电。
    • 7. 发明申请
    • TWO-WIRE DIMMER CIRCUIT FOR A SCREW-IN COMPACT FLUORESCENT LAMP
    • 用于螺丝紧凑型荧光灯的双线调光电路
    • US20120280633A1
    • 2012-11-08
    • US13553188
    • 2012-07-19
    • Russell WeightmanMark S. Taipale
    • Russell WeightmanMark S. Taipale
    • H05B41/36
    • H05B39/08H05B41/3924Y02B20/19Y10S315/04
    • A dimmer switch for controlling the intensity of a dimmable screw-in compact fluorescent lamp provides smooth dimming of the fluorescent lamp and prevents flickering of the lamp due to multiple re-strikes. The dimmer switch prevents multiple re-strikes by avoiding multiple firings of a controllably conductive switching device of the dimmer circuit by limiting the high-end light intensity of the fluorescent lamp. Specifically, the dimmer switch limits the length of a conduction interval of the controllably conductive switching device to less than approximately 75% of each half-cycle. The dimmer switch may include a user-accessible adjustment actuator for changing the dimmer switch between an incandescent operating mode and a screw-in compact fluorescent mode. The dimmer switch may also be operable to automatically change the dimmer switch between the incandescent operating mode and the screw-in compact fluorescent mode by detecting the occurrence of the multiple firings of the controllably conductive switching device.
    • 用于控制可调光螺丝紧凑型荧光灯的强度的调光开关提供荧光灯的平滑调光,并防止由于多次重击而使灯闪烁。 调光器开关通过限制荧光灯的高端光强度来避免调光器电路的可控导通开关器件的多次发光,从而防止多次重击。 具体地,调光开关将可控导通开关器件的导通间隔的长度限制在每个半周期的小于约75%。 调光开关可以包括用户可接近的调节致动器,用于在白炽操作模式和螺旋式紧凑型荧光模式之间改变调光开关。 调光器开关也可操作以通过检测可控导通的开关装置的多次发射的发生来自动地改变白炽操作模式和螺旋式紧凑型荧光模式之间的调光开关。
    • 8. 发明申请
    • TWO-WIRE DIMMER CIRCUIT FOR A SCREW-IN COMPACT FLUORESCENT LAMP
    • 用于螺丝紧凑型荧光灯的双线调光电路
    • US20110084626A1
    • 2011-04-14
    • US12971412
    • 2010-12-17
    • Russell WeightmanMark S. Taipale
    • Russell WeightmanMark S. Taipale
    • H05B37/02
    • H05B39/08H05B41/3924Y02B20/19Y10S315/04
    • A dimmer switch for controlling the intensity of a dimmable screw-in compact fluorescent lamp provides smooth dimming of the fluorescent lamp and prevents flickering of the lamp due to multiple re-strikes. The dimmer switch prevents multiple re-strikes by avoiding multiple firings of a controllably conductive switching device of the dimmer circuit by limiting the high-end light intensity of the fluorescent lamp. Specifically, the dimmer switch limits the length of a conduction interval of the controllably conductive switching device to less than approximately 75% of each half-cycle. The dimmer switch may include a user-accessible adjustment actuator for changing the dimmer switch between an incandescent operating mode and a screw-in compact fluorescent mode. The dimmer switch may also be operable to automatically change the dimmer switch between the incandescent operating mode and the screw-in compact fluorescent mode by detecting the occurrence of the multiple firings of the controllably conductive switching device.
    • 用于控制可调光螺丝紧凑型荧光灯的强度的调光开关提供荧光灯的平滑调光,并防止由于多次重击而使灯闪烁。 调光器开关通过限制荧光灯的高端光强度来避免调光器电路的可控导通开关器件的多次发光,从而防止多次重击。 具体地,调光开关将可控导通开关器件的导通间隔的长度限制在每个半周期的小于约75%。 调光开关可以包括用户可接近的调节致动器,用于在白炽操作模式和螺旋式紧凑型荧光模式之间改变调光开关。 调光器开关也可操作以通过检测可控导通的开关装置的多次发射的发生来自动地改变白炽操作模式和螺旋式紧凑型荧光模式之间的调光开关。
    • 9. 发明申请
    • TWO-WIRE DIMMER CIRCUIT FOR A SCREW-IN COMPACT FLUORESCENT LAMP
    • 用于螺丝紧凑型荧光灯的双线调光电路
    • US20090108765A1
    • 2009-04-30
    • US11932130
    • 2007-10-31
    • Russell WeightmanMark S. Taipale
    • Russell WeightmanMark S. Taipale
    • H05B39/04H05B41/24
    • H05B39/08H05B41/3924Y02B20/19Y10S315/04
    • A dimmer switch for controlling the intensity of a dimmable screw-in compact fluorescent lamp provides smooth dimming of the fluorescent lamp and prevents flickering of the lamp due to multiple re-strikes. The dimmer switch prevents multiple re-strikes by avoiding multiple firings of a controllably conductive switching device of the dimmer circuit by limiting the high-end light intensity of the fluorescent lamp. Specifically, the dimmer switch limits the length of a conduction interval of the controllably conductive switching device to less than approximately 75% of each half-cycle. The dimmer switch may include a user-accessible adjustment actuator for changing the dimmer switch between an incandescent operating mode and a screw-in compact fluorescent mode. The dimmer switch may also be operable to automatically change the dimmer switch between the incandescent operating mode and the screw-in compact fluorescent mode by detecting the occurrence of the multiple firings of the controllably conductive switching device.
    • 用于控制可调光螺丝紧凑型荧光灯的强度的调光开关提供荧光灯的平滑调光,并防止由于多次重击而使灯闪烁。 调光器开关通过限制荧光灯的高端光强度来避免调光器电路的可控导通开关器件的多次发光,从而防止多次重击。 具体地,调光开关将可控导通开关器件的导通间隔的长度限制在每个半周期的小于约75%。 调光开关可以包括用户可接近的调节致动器,用于在白炽操作模式和螺旋式紧凑型荧光模式之间改变调光开关。 调光器开关也可操作以通过检测可控导通的开关装置的多次发射的发生来自动地改变白炽操作模式和螺旋式紧凑型荧光模式之间的调光开关。
    • 10. 发明授权
    • Two-wire dimmer circuit for a screw-in compact fluorescent lamp
    • 双线调光电路,用于螺丝式紧凑型荧光灯
    • US08704459B2
    • 2014-04-22
    • US13553188
    • 2012-07-19
    • Russell WeightmanMark S. Taipale
    • Russell WeightmanMark S. Taipale
    • H05B41/36
    • H05B39/08H05B41/3924Y02B20/19Y10S315/04
    • A dimmer switch for controlling the intensity of a dimmable screw-in compact fluorescent lamp provides smooth dimming of the fluorescent lamp and prevents flickering of the lamp due to multiple re-strikes. The dimmer switch prevents multiple re-strikes by avoiding multiple firings of a controllably conductive switching device of the dimmer circuit by limiting the high-end light intensity of the fluorescent lamp. Specifically, the dimmer switch limits the length of a conduction interval of the controllably conductive switching device to less than approximately 75% of each half-cycle. The dimmer switch may include a user-accessible adjustment actuator for changing the dimmer switch between an incandescent operating mode and a screw-in compact fluorescent mode. The dimmer switch may also be operable to automatically change the dimmer switch between the incandescent operating mode and the screw-in compact fluorescent mode by detecting the occurrence of the multiple firings of the controllably conductive switching device.
    • 用于控制可调光螺丝紧凑型荧光灯的强度的调光开关提供荧光灯的平滑调光,并防止由于多次重击而使灯闪烁。 调光器开关通过限制荧光灯的高端光强度来避免调光器电路的可控导通开关器件的多次发光,从而防止多次重击。 具体地,调光开关将可控导通开关器件的导通间隔的长度限制在每个半周期的小于约75%。 调光开关可以包括用户可接近的调节致动器,用于在白炽操作模式和螺旋式紧凑型荧光模式之间改变调光开关。 调光器开关也可操作以通过检测可控导通的开关装置的多次发射的发生来自动地改变白炽操作模式和螺旋式紧凑型荧光模式之间的调光开关。