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    • 1. 发明申请
    • WIRELESS BATTERY-POWERED DAYLIGHT SENSOR
    • 无线电池供电的DAYLIGHT传感器
    • WO2010111256A2
    • 2010-09-30
    • PCT/US2010/028298
    • 2010-03-23
    • LUTRON ELECTRONICS CO., INC.STEINER, James, P.SLOAN, Greg, Edward
    • STEINER, James, P.SLOAN, Greg, Edward
    • G01J1/02G01J1/32G01J1/16H05B39/04H05B37/02
    • H05B37/0218G01J1/02G01J1/0219G01J1/0228G01J1/0247G01J1/16G01J1/32G01J1/44H05B37/02H05B37/0272Y02B20/46
    • A wireless battery-powered daylight sensor for measuring a total light intensity in a space is operable to transmit wireless signals using a variable transmission rate that is dependent upon the total light intensity in the space. The sensor comprises a photosensitive circuit, a wireless transmitter for transmitting the wireless signals, a controller coupled to the photosensitive circuit and the wireless transmitter, and a battery for powering the photosensitive circuit, the wireless transmitter, and the controller. The photosensitive circuit is operable to generate a light intensity control signal in response to the total light intensity in the space. The controller transmits the wireless signals in response to the light intensity control signal using the variable transmission rate that is dependent upon the total light intensity in the space. The variable transmission rate may be dependent upon an amount of change of the total light intensity in the space. In addition, the variable transmission rate may be further dependent upon a rate of change of the total light intensity in the space.
    • 用于测量空间中的总光强度的无线电池供电的日光传感器可操作以使用取决于空间中的总光强度的可变传输速率来发送无线信号。 传感器包括光敏电路,用于发送无线信号的无线发射器,耦合到感光电路和无线发射器的控制器,以及用于给感光电路,无线发射器和控制器供电的电池。 感光电路可操作以响应于空间中的总光强度而产生光强度控制信号。 控制器使用取决于空间中的总光强度的可变传输速率响应于光强度控制信号来发送无线信号。 可变传输速率可以取决于空间中总光强度的变化量。 此外,可变传输速率可以进一步取决于空间中的总光强度的变化率。
    • 3. 发明申请
    • MULTIPLE LOCATION LOAD CONTROL SYSTEM
    • 多位置负载控制系统
    • WO2008133879A2
    • 2008-11-06
    • PCT/US2008005187
    • 2008-04-23
    • LUTRON ELECTRONICS COSTEINER JAMES PCYRIL BABYBUCK CHRISTOPHERCARMEN DANIEL F
    • STEINER JAMES PCYRIL BABYBUCK CHRISTOPHERCARMEN DANIEL F
    • H05B37/02
    • H05B37/0245H05B37/02H05B37/0254H05B37/0263H05B39/041H05B39/044Y10T307/753
    • A multiple location load control system comprises a main device and remote devices, which do not require neutral connections, but allow for visual and audible feedback at the main device and the remote devices. The main device and the remote devices are adapted to be coupled in series electrical connection between an AC power source and an electrical load, and to be further coupled together via an accessory wiring. The remote devices can be wired on the line side and the load side of the load control system, such that the main device is wired "in the middle" of the load control system. The main device is operable to enable a charging path to allow the remote devices to charge power supplies through the accessory wiring during a first time period of a half-cycle of the AC power source. The main device and the remote devices are operable to communicate with each other via the accessory wiring during a second time period of the half-cycle.
    • 多位置负载控制系统包括主设备和远程设备,其不需要中立连接,但允许在主设备和远程设备处的视觉和听觉反馈。 主设备和远程设备适于在AC电源和电负载之间串联电连接,并且通过附件布线进一步耦合在一起。 远程设备可以连接在负载控制系统的线路侧和负载侧,使得主设备被布线在负载控制系统的“中间”。 主装置可操作以使充电路径能够在AC电源的半周期的第一时间段期间允许远程装置通过附件布线对电源充电。 主设备和远程设备可操作以在半周期的第二时间段期间经由附件布线彼此通信。
    • 5. 发明申请
    • METHOD AND APPARATUS FOR QUIET FAN SPEED CONTROL
    • 用于静音风扇速度控制的方法和设备
    • WO2007061901A2
    • 2007-05-31
    • PCT/US2006/044786
    • 2006-11-17
    • LUTRON ELECTRONICS CO., INC.STEINER, JAMES P.DOBBINS, AaronWU, CHEN MING
    • STEINER, JAMES P.DOBBINS, AaronWU, CHEN MING
    • H02P1/24H02P7/288
    • An AC motor speed controller includes a plurality of capacitors that may be selectively switched, by means of controllably conductive switches, into series electrical connection with an AC motor and an AC voltage source to control the speed of the motor. To change the speed of the motor, a control circuit renders a first switch conductive, in response to a first detected AC voltage zero crossing, to charge a first capacitor to a predetermined voltage. The control circuit then renders a second switch conductive, in response to a subsequent second detected AC voltage zero crossing, to charge a second capacitor to the predetermined voltage. The control circuit then renders both switches simultaneously conductive at a predetermined time after a subsequent third detected AC voltage zero crossing. The capacitors will thereby be charged to the same voltage prior to being switched into series with the motor, thereby resulting in reduced acoustic noise when changing motor speeds.
    • 交流电动机速度控制器包括多个电容器,所述电容器可以通过可控导电开关选择性地切换成与AC电动机和AC电压源的串联电连接以控制 发动机。 为了改变电机的速度,响应于第一检测到的交流电压过零点,控制电路使第一开关导通,以将第一电容器充电到预定电压。 响应于随后的第二检测AC电压过零点,控制电路使第二开关导通,以将第二电容器充电到预定电压。 控制电路然后使得两个开关在随后的第三检测AC电压过零点之后的预定时间同时导通。 因此,电容器在与电动机串联之前将被充电到相同的电压,从而在改变电动机速度时导致降低的噪音。
    • 7. 发明申请
    • MULTIPLE LOCATION LOAD CONTROL SYSTEM
    • 多位置负载控制系统
    • WO2008133879A3
    • 2008-12-18
    • PCT/US2008005187
    • 2008-04-23
    • LUTRON ELECTRONICS COSTEINER JAMES PCYRIL BABYBUCK CHRISTOPHERCARMEN DANIEL F
    • STEINER JAMES PCYRIL BABYBUCK CHRISTOPHERCARMEN DANIEL F
    • H05B37/02
    • H05B37/0245H05B37/02H05B37/0254H05B37/0263H05B39/041H05B39/044Y10T307/753
    • A multiple location load control system comprises a main device and remote devices, which do not require neutral connections, but allow for visual and audible feedback at the main device and the remote devices. The main device and the remote devices are adapted to be coupled in series electrical connection between an AC power source and an electrical load, and to be further coupled together via an accessory wiring. The remote devices can be wired on the line side and the load side of the load control system, such that the main device is wired "in the middle" of the load control system. The main device is operable to enable a charging path to allow the remote devices to charge power supplies through the accessory wiring during a first time period of a half-cycle of the AC power source. The main device and the remote devices are operable to communicate with each other via the accessory wiring during a second time period of the half-cycle.
    • 多位置负载控制系统包括主设备和远程设备,其不需要中性连接,但允许在主设备和远程设备处进行视觉和听觉反馈。 主设备和远程设备适合于在AC电源和电负载之间串联电连接,并且通过附件配线进一步耦合在一起。 远程设备可以在负载控制系统的线路侧和负载侧接线,使得主设备在负载控制系统的“中间”接线。 主设备可操作以启用充电路径以允许远程设备在AC电源的半周期的第一时间段期间通过配件布线对电源充电。 主设备和远程设备可操作以在半周期的第二时间段期间经由附件布线彼此通信。