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    • 2. 发明申请
    • MULTIPLE LOCATION LOAD CONTROL SYSTEM
    • 多位置负载控制系统
    • WO2017070604A1
    • 2017-04-27
    • PCT/US2016/058301
    • 2016-10-21
    • LUTRON ELECTRONICS CO., INC.
    • DADASHNIALEHI, EhsanNEWMAN, Robert, C.RANERI, Daniel, CurtisSHUKLA, Jaykrishna, A.
    • H05B37/02H05B39/08
    • H05B37/0272G06F3/041H04R1/028H05B33/0815H05B33/0845H05B37/0254H05B39/086
    • 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 together via an accessory wiring. The main device can be wired on the line side and the load side of the load control system. The main device is configured 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 configured to communicate with each other via the accessory wiring during a second time period of the half cycle, for example, by actively pulling-up and actively pulling-down the accessory wiring to communicate using tri-state logic.
    • 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通过附件配线连接在一起。 主设备可以连接在负载控制系统的线路侧和负载侧。 主设备被配置为启用充电路径以允许远程设备在AC电源的半个周期的第一时间段期间通过配件布线对电源充电。 主设备和远程设备被配置为在半周期的第二时间段期间经由附件布线彼此进行通信,例如通过主动拉升并主动拉下辅助布线以使用三态进行通信 逻辑。
    • 3. 发明申请
    • LIGHTING CONTROL METHOD
    • 照明控制方法
    • WO2014053843A3
    • 2014-07-24
    • PCT/GB2013052581
    • 2013-10-03
    • CP ELECTRONICS LTD
    • MANS PAULMILNER MERLIN
    • H05B37/02H05B39/08
    • H05B37/0218H05B37/0227H05B37/0272H05B39/088Y02B20/44Y02B20/46
    • A method for controlling a light, comprising: providing a first sensor device (11) comprising a first transmitter and a first occupancy sensor;providing a lighting controller (1) comprising a receiver and a second sensor; and transmitting an occupancy signal from the first transmitter to the receiver. The occupancy signal comprises a repeated cycle of transmission phases and silent phases, such that during a transmission phase the transmitter transmits and during a silent phase the transmitter does not transmit. The method further comprises activating the light when the second sensor is triggered; and deactivating the light after a period of time, the length of the period being determined at least in part by the occupancy signal transmitted by the first transmitter.
    • 1。一种用于控制光的方法,包括:提供包括第一发射器和第一占用传感器的第一传感器装置(11);提供包括接收器和第二传感器的照明控制器(1) 以及从第一发送器向接收器发送占用信号。 占用信号包括发送阶段和无声阶段的重复循环,使得在发送阶段发送器发送并且在无声阶段期间发送器不发送。 该方法还包括当第二传感器被触发时激活灯; 以及在一段时间之后去激活所述光,所述时段的长度至少部分由所述第一发射器发射的所述占用信号确定。
    • 4. 发明申请
    • DETECTING A PRESENCE OF AN OPERATING DIMMER
    • 检测操作调光器的存在
    • WO2014106795A1
    • 2014-07-10
    • PCT/IB2013/061303
    • 2013-12-24
    • KONINKLIJKE PHILIPS N.V.PHILIPS DEUTSCHLAND GMBH
    • RADERMACHER, Harald Josef Günther
    • H05B33/08H05B39/08
    • H05B33/0884G01N27/028G01R31/44H05B33/0815H05B33/0845H05B39/08
    • Detection circuits (1, 2) for detecting presences of operating dimmers arranged to dim lamps (14) comprise first circuits (1) for measuring impedances at couplings (12) arranged to carry possibly dimmed feeding signals for the lamps (14). The first circuits (1) provide first output signals defining the measured impedances that comprise impedances at frequencies larger than mains frequencies. The detection circuits (1, 2) further comprise second circuits (2) for analyzing the first output signals. The second circuits (2) provide second output signals defining the operating dimmers being present or not. The impedance may be measured several times per time-interval. A change in the measured impedance of a certain minimum deviation or more within the time-interval may be indicative for the presence of an operating dimmer. The second circuits (2) may comprise filters (21), averaging circuits (22), threshold circuits (23), comparators (24) and controllers (25).
    • 用于检测布置成变暗灯(14)的操作调光器的存在的检测电路(1,2)包括用于测量联接件(12)上的阻抗的第一电路(1),所述耦合件布置成携带用于灯(14)的可能变暗的馈送信号。 第一电路(1)提供定义测量阻抗的第一输出信号,该阻抗包括频率大于电源频率的阻抗。 检测电路(1,2)还包括用于分析第一输出信号的第二电路(2)。 第二电路(2)提供限定正在运行的调光器的第二输出信号。 每个时间间隔可以测量几次阻抗。 在时间间隔内某一最小偏差或更大的测量阻抗的变化可以指示操作调光器的存在。 第二电路(2)可以包括滤波器(21),平均电路(22),阈值电路(23),比较器(24)和控制器(25)。
    • 7. 发明申请
    • DIMMER SWITCH WITH ADJUSTABLE HIGH-END TRIM
    • 带可调高端TRIM的DIMMER开关
    • WO2007145943A1
    • 2007-12-21
    • PCT/US2007/013235
    • 2007-06-05
    • LUTRON ELECTRONICS CO., INC.GEHMAN, Jackson
    • GEHMAN, Jackson
    • H05B39/08H01H23/02
    • H05B39/085H01H23/02Y10T307/944
    • A dimmer switch has a user adjustable high-end trim. The dimmer switch includes a bidirectional semiconductor switch, such as a triac, for controlling the amount of power delivered from a source of alternating current power to a lighting load, such as an electric lamp. A user-adjustable timing circuit controls the conduction time of the triac from a minimum time to a maximum time. The maximum possible conduction time of the triac is the high-end trim. The minimum possible conduction time of the triac is the low-end trim. The timing circuit includes a user-accessible switch that allows a user to reduce the high-end trim from a first nominal level to a second reduced level, lower than the first level, without substantially affecting the low-end trim. The switch allows a user to switch a transient voltage suppressor into and out of parallel connection with a resistor that is part of an RC timing circuit for the triac. The dimmer switch advantageously uses less energy and the lifetime of the lamp is extended when the second reduced level of the high-end trim is selected.
    • 调光开关具有用户可调节的高端装饰。 调光器开关包括双向半导体开关,例如三端双向可控硅开关,用于控制从交流电源传送到照明负载(例如电灯)的功率量。 用户可调定时电路控制三端双向可控硅开关元件的导通时间从最小时间到最大时间。 三端双向可控硅开关元件的最大可能导通时间是高端微调。 三端双向可控硅开关板的最小可能导通时间是低端微调。 定时电路包括用户可访问的开关,其允许用户将高端修剪从第一标称电平减小到低于第一电平的第二降低电平,而不会基本上影响低端修整。 该开关允许用户使用作为三端双向可控硅开关元件的RC定时电路的一部分的电阻将瞬态电压抑制器切换到并联连接。 调光开关有利地使用更少的能量,并且当选择高端饰边的第二降低水平时,灯的寿命延长。
    • 9. 发明申请
    • LOAD CONTROL CIRCUIT AND METHOD FOR ACHIEVING REDUCED ACOUSTIC NOISE
    • 负载控制电路和实现减少噪声的方法
    • WO2006057862A1
    • 2006-06-01
    • PCT/US2005/041380
    • 2005-11-16
    • LUTRON ELECTRONICS CO., INC.WEIGHTMAN, Russell
    • WEIGHTMAN, Russell
    • H05B39/08
    • H05B39/08
    • A load control circuit having first and second terminals for connection in series with a controlled load comprises a bidirectional semiconductor switch for switching at least a portion of both positive and negative half cycles of an alternating current source waveform to the load. The bidirectional semiconductor switch has a control electrode. The load control circuit includes a phase angle setting circuit, including a timing circuit, which sets the phase angle during each half cycle of the AC source waveform when the bidirectional semiconductor switch conducts. The phase angle setting circuit includes a voltage threshold trigger device connected in series with the control electrode of the switch. The phase angle setting circuit further comprises a rectifier bridge connected in series between an output of the timing circuit and the control electrode of the semiconductor switch, wherein the rectifier bridge has a first pair of terminals and a second pair of terminals, the first pair of terminals connected in series between an output of the timing circuit and the control electrode of the semiconductor switch, and the second pair of terminals connected to the voltage threshold trigger device. The load control circuit further includes an impedance in series electrical connection with the semiconductor switch control electrode. Acoustic noise generated in the load connected in series with the load control circuit is reduced, particularly when the load is a toroidal transformer driving a magnetic low voltage lamp and the load control circuit is a two-wire dimmer.
    • 具有用于与受控负载串联连接的第一和第二端子的负载控制电路包括用于将交流电源波形的正半周期和负半周期的至少一部分的至少一部分切换到负载的双向半导体开关。 双向半导体开关具有控制电极。 负载控制电路包括相位角设定电路,包括定时电路,该定时电路在双向半导体开关导通时,设定交流电源波形的每半周期期间的相位角。 相位角设定电路包括与开关的控制电极串联连接的电压阈值触发装置。 相位角设定电路还包括串联连接在定时电路的输出端和半导体开关的控制电极之间的整流桥,其中整流器桥具有第一对端子和第二对端子,第一对端子 串联连接在定时电路的输出端和半导体开关的控制电极之间的端子,以及与电压阈值触发装置连接的第二对端子。 负载控制电路还包括与半导体开关控制电极串联电连接的阻抗。 在与负载控制电路串联的负载中产生的声音噪声减小,特别是当负载是驱动磁性低压灯的环形变压器并且负载控制电路是双线调光器时。
    • 10. 发明申请
    • VARIABLE POWER CONTROL LAMP ADAPTER
    • 可变功率控制灯适配器
    • WO00057678A1
    • 2000-09-28
    • PCT/US1999/006091
    • 1999-03-19
    • H05B39/00H05B39/08H05B37/02
    • H05B39/08H05B39/00
    • A variable power lamp control adapter (100) has a circuit construction achieved by utilization of the Surface Mount Technology disciplines of PolymerThick Film and Chip on Board technologies. The adapter circuitry (100) is constructed and held on a uniquely dissimilar type of substrate than that used in prior art, and assembled into housings (56) that contain unique interengaging mating parts (58, 30) for a more rapid assembly process than the assembly processes used in prior art construction. In the present invention an overall improvement in the organization, arrangement of all components, housings and assembly is achieved for a reliable power control operation.
    • 可变电源灯控制适配器(100)具有通过使用PolymerThick Film和Chip on Board技术的表面贴装技术学科实现的电路结构。 适配器电路(100)被构造和保持在与现有技术中所使用的独特类型的基板上,并且被组装到包含独特的相互接合配合部件(58,30)的壳体(56)中,以用于比 现有技术结构中使用的装配工艺。 在本发明中,实现了可靠的功率控制操作的组织结构,所有部件的布置,外壳和组装的整体改进。