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    ENERGY MANAGEMENT CONTROL FOR SOLAR-POWERED LIGHTING DEVICES
    3.
    发明申请
    ENERGY MANAGEMENT CONTROL FOR SOLAR-POWERED LIGHTING DEVICES 审中-公开
    太阳能照明设备的能源管理控制

    公开(公告)号:US20120293077A1

    公开(公告)日:2012-11-22

    申请号:US13574805

    申请日:2011-01-31

    申请人: Robertus Leonardus Tousain Jan-Ivo Blankestijn Bertrand Johan Edward Hontele

    发明人: Robertus Leonardus Tousain Jan-Ivo Blankestijn Bertrand Johan Edward Hontele

    IPC分类号: H05B37/00

    CPC分类号: H05B37/00 H02J3/383 H02J7/00 H05B37/0227 H05B37/0281 Y02A30/12 Y02B20/42 Y02E10/563

    摘要: This invention relates to a method of controlling the light output of a solar-powered lighting device. The lighting device comprises a light source, a battery connected to the light source, a solar-power generator including a charger connected to the battery, and a control unit for performing the light output control. The method comprises:—charging the battery while solar-power is generated;—acquiring local day-light data;—repeatedly:—acquiring, at predetermined time intervals, local weather fore-cast data covering a predetermined time period, and determining a lighting output profile for the predetermined time period; and—driving the lighting device according to the lighting output profile, wherein said determining a lighting output profile comprises:—predicting a lighting demand for the predetermined time period on basis of first environment light data, which first environment light data comprises the local day-light data;—predicting a battery capacity for the predetermined time period on basis of a present energy storage level and second environment light data, which second environment light data comprises the weather forecast data and the local day-light data; and—determining the lighting output profile on basis of the lighting demand and the battery capacity under consideration of keeping the energy storage level above a predetermined minimum level during the predetermined time period.

    摘要翻译: 本发明涉及一种控制太阳能照明装置的光输出的方法。 照明装置包括光源,连接到光源的电池,包括连接到电池的充电器的太阳能发电机和用于执行光输出控制的控制单元。 该方法包括:在生成太阳能的同时对电池充电; - 获取本地日光数据; - 重复地: - 以预定的时间间隔获取覆盖预定时间段的本地天气预报数据,以及确定照明 输出曲线预定时间段; 并且根据所述照明输出配置来驱动所述照明装置,其中所述确定照明输出配置文件包括: - 基于第一环境光数据预测所述预定时间段内的照明需求,所述第一环境光数据包括所述本地日 - 光数据; - 基于当前能量存储水平和第二环境光数据预测电池容量达预定时间段,该第二环境光数据包括天气预报数据和当地日光数据; 并且在所述预定时间段期间,考虑将所述能量存储水平保持在预定最小水平以下的方式,基于所述照明需求和所述电池容量确定所述照明输出曲线。

    Energy management control for solar-powered lighting devices
    4.
    发明授权
    Energy management control for solar-powered lighting devices 有权

    公开(公告)号:US10123390B2

    公开(公告)日:2018-11-06

    申请号:US13574805

    申请日:2011-01-31

    申请人: Robertus Leonardus Tousain Jan-Ivo Blankestijn Bertrand Johan Edward Hontele

    发明人: Robertus Leonardus Tousain Jan-Ivo Blankestijn Bertrand Johan Edward Hontele

    IPC分类号: H05B37/00 H02J7/00 H05B37/02 H02J3/38

    摘要: This invention relates to a method of controlling the light output of a solar-powered lighting device. The lighting device comprises a light source, a battery connected to the light source, a solar-power generator including a charger connected to the battery, and a control unit for performing the light output control. The method comprises: —charging the battery while solar-power is generated; —acquiring local day-light data; —repeatedly: —acquiring, at predetermined time intervals, local weather forecast data covering a predetermined time period, and determining a lighting output profile for the predetermined time period; and —driving the lighting device according to the lighting output profile, wherein said determining a lighting output profile comprises: —predicting a lighting demand for the predetermined time period on basis of first environment light data, which first environment light data comprises the local day-light data; —predicting a battery capacity for the predetermined time period on basis of a present energy storage level and second environment light data, which second environment light data comprises the weather forecast data and the local day-light data; and —determining the lighting output profile on basis of the lighting demand and the battery capacity under consideration of keeping the energy storage level above a predetermined minimum level during the predetermined time period.

    Light generating device
    5.
    发明授权
    Light generating device 有权
    发光装置

    公开(公告)号:US09301356B2

    公开(公告)日:2016-03-29

    申请号:US14117391

    申请日:2012-05-11

    申请人: Christian Hattrup Henricus Marius Joseph Maria Kahlman Ralph Kurt Georg Sauerländer Bertrand Johan Edward Hontele Haimin Tao

    发明人: Christian Hattrup Henricus Marius Joseph Maria Kahlman Ralph Kurt Georg Sauerländer Bertrand Johan Edward Hontele Haimin Tao

    IPC分类号: H05B37/02 H05B33/08

    CPC分类号: H05B33/0824 H05B33/0809 H05B33/0815 H05B33/083 Y02B20/347

    摘要: A light generating device (1) is provided with at least a voltage input (21) adapted for receiving a variable voltage, at least three LED circuits (10), coupled with said voltage input (21), wherein each LED circuit (10) comprises a LED unit (14) and controllable current regulator (15) to control the current through said LED circuit (10). The light generating device (1) further comprises a controllable switch matrix (30) comprising a plurality of switches (25, 26, 27), said switch matrix (30) is configured to operate in at least three different switching modes and a controller (50), connected at least with said switch matrix (30), configured to determine said variable operating voltage and to control the switching mode of said switch matrix (30) in dependence of the determined operating voltage. To provide an efficient operation of such device (1) with a variable operating voltage, such as an AC voltage, in a first switching mode, said LED units (10) are connected parallel to each other, in a second switching mode, at least two of said LED units (10) are connected in series and in a third switching mode, said LED units 10 are connected in series with each other.

    摘要翻译: 光发生装置(1)至少设置有用于接收可变电压的电压输入(21),与所述电压输入(21)耦合的至少三个LED电路(10),其中每个LED电路(10) 包括LED单元(14)和可控电流调节器(15),以控制通过所述LED电路(10)的电流。 光产生装置(1)还包括可控开关矩阵(30),其包括多个开关(25,26,27),所述开关矩阵(30)被配置为以至少三种不同的开关模式操作,以及控制器 至少与所述开关矩阵(30)相连接,被配置为确定所述可变工作电压并且根据所确定的工作电压来控制所述开关矩阵(30)的开关模式。 为了在第一开关模式中提供具有诸如AC电压的可变工作电压的这种装置(1)的有效操作,所述LED单元(10)在第二开关模式中至少并联连接 两个所述LED单元(10)串联连接,在第三开关模式下,所述LED单元10彼此串联连接。

    Driver for a solid state lamp
    6.
    发明授权
    Driver for a solid state lamp 有权
    驱动器为固态灯

    公开(公告)号:US09137865B2

    公开(公告)日:2015-09-15

    申请号:US13512409

    申请日:2010-11-30

    申请人: Bertrand Johan Edward Hontele

    发明人: Bertrand Johan Edward Hontele

    IPC分类号: H05B41/16 H05B33/08 H05B39/08

    CPC分类号: H05B33/0815 H05B39/08 Y02B20/19 Y02B20/383

    摘要: A driver (32) for a solid state lamp (31) receives phase-cut AV supply voltage (PCACV). The lamp is operated at a dimmed light output (LA) on the basis of the phase angle (φ) of the phase-cut AV supply voltage (PCACV). The driver comprises a memory (39) containing information defining a function (F). In a normal mode, the driver monitors the supply voltage and calculates the momentary value of the dim factor (β) from the momentary value of the phase angle (φ) according to a formula β=F(φ). In a learning mode, the driver detects the lowest value (φMIN) and the highest value (φMAx) assumed by the phase angle (φ), and updates the said information in said memory (39) such that the dim factor will have its minimum value and maximum value (βMIN, βMAx) corresponding to the minimum value and maximum value (φMiN, φMAX) of the phase angle (φ), respectively.

    摘要翻译: 用于固态灯(31)的驱动器(32)接收相切AV电源电压(PCACV)。 基于相切AV电源电压(PCACV)的相位角(&phgr),灯以暗光输出(LA)运行。 驱动器包括一个包含定义功能(F)的信息的存储器(39)。 在正常模式下,驱动器监视电源电压,并根据公式&bgr = F(&phgr。)从相位角(&phgr。)的瞬时值计算亮度因子(&bgr)的瞬时值。 在学习模式中,驾驶员检测由相位角(&phgr)假设的最低值(&phgr; MIN)和最高值(&phgr; MAx),并更新所述存储器(39)中的所述信息,使得暗 因子将分别与相位角(&phgr。)的最小值和最大值(&phgr; MiN,&phgr; MAX)相对应的最小值和最大值(&bgr; MIN,&bgr; MAx)。

    System for driving a lamp
    7.
    发明授权
    System for driving a lamp 有权
    驾驶灯的系统

    公开(公告)号:US08847519B2

    公开(公告)日:2014-09-30

    申请号:US13264160

    申请日:2010-04-16

    申请人: Bertrand Johan Edward Hontele

    发明人: Bertrand Johan Edward Hontele

    IPC分类号: H05B41/36 H05B33/08

    CPC分类号: H05B33/0815 H05B33/0848

    摘要: A driver (10) for driving a LED (2) comprises: an ACDC converter (5) receiving AC mains voltage and generating DC output current; a chopper (6) receiving the DC output current and provide a regularly interrupted output current; a clock generator (20) generating a clock signal (SCL); a controller (50) receiving a user input signal (SU) indicating a dimming level, receiving the clock signal, receiving a mains signal (SM) representing the actual phase of the mains voltage, and generating a control signal (SC) for the chopper. The chopper is responsive to the controller's control signal as regards the switching moments of the output current.The controller calculates the required duty cycle on the basis of the user input signal.The controller synchronizes its control signal with the mains signal.The controller sets an arbitrary value for the phase difference of the output control signal with respect to the input mains signal.

    摘要翻译: 用于驱动LED(2)的驱动器(10)包括:ACDC转换器(5),其接收AC电源电压并产生DC输出电流; 接收直流输出电流并提供定期中断的输出电流的斩波器(6); 产生时钟信号(SCL)的时钟发生器(20); 接收指示调光电平的用户输入信号(SU)的控制器(50),接收时钟信号,接收表示电源电压的实际相位的电源信号(SM),并产生用于斩波器的控制信号(SC) 。 切断器对输出电流的切换时刻响应控制器的控制信号。 控制器根据用户输入信号计算所需的占空比。 控制器将其控制信号与电源信号同步。 控制器设置输出控制信号相对于输入电源信号的相位差的任意值。

    DEVICE FOR IMPROVING COMPATIBILITY OF SOLID STATE LIGHT SOURCES WITH PHASE-CUT DIMMERS
    8.
    发明申请
    DEVICE FOR IMPROVING COMPATIBILITY OF SOLID STATE LIGHT SOURCES WITH PHASE-CUT DIMMERS 审中-公开
    用于提高固体状态光源与相切切割器相容性的装置

    公开(公告)号:US20140191683A1

    公开(公告)日:2014-07-10

    申请号:US14239548

    申请日:2012-09-06

    申请人: James M. Gaines H. Andrew Mayo Bertrand Johan Edward Hontele

    发明人: James M. Gaines H. Andrew Mayo Bertrand Johan Edward Hontele

    IPC分类号: H05B33/08

    CPC分类号: H05B33/08 H05B33/0812 Y02B20/343 Y02B20/383

    摘要: A device suppresses flicker and improves compatibility of a lamp including at least one solid state light source, the lamp being operably connected to a control circuit, such as a dimmer circuit. The device includes a connector enabling connection of the solid state light source to a lamp socket configured to receive an incandescent light source, and an adapter circuit connected in parallel with the at least one solid state light source when the solid state light source is connected to the socket via the connector. The adapter circuit provides a resistive path for current to pass through the lamp, during all or part of the AC mains cycle.

    摘要翻译: 装置抑制闪烁并提高包括至少一个固态光源的灯的兼容性,该灯可操作地连接到诸如调光器电路的控制电路。 该装置包括能够将固态光源连接到被配置为接收白炽光源的灯插座的连接器,以及当固态光源连接到该固态光源时与该至少一个固态光源并联连接的适配器电路 插座通过连接器。 在全部或部分交流电源周期期间,适配器电路提供电流通过灯的电阻路径。

    DRIVER FOR A SOLID STATE LAMP
    9.
    发明申请
    DRIVER FOR A SOLID STATE LAMP 有权
    驱动固态灯

    公开(公告)号:US20120235594A1

    公开(公告)日:2012-09-20

    申请号:US13512409

    申请日:2010-11-30

    申请人: Bertrand Johan Edward Hontele

    发明人: Bertrand Johan Edward Hontele

    IPC分类号: H05B37/00

    CPC分类号: H05B33/0815 H05B39/08 Y02B20/19 Y02B20/383

    摘要: A driver (32) for a solid state lamp (31) receives phase-cut AV supply voltage (PCACV). The lamp is operated at a dimmed light output (LA) on the basis of the phase angle (φ) of the phase-cut AV supply voltage (PCACV). The driver comprises a memory (39) containing information defining a function (F). In a normal mode, the driver monitors the supply voltage and calculates the momentary value of the dim factor (β) from the momentary value of the phase angle (φ) according to a formula β=F(φ). In a learning mode, the driver detects the lowest value (φMIN) and the highest value (φMAx) assumed by the phase angle (φ), and updates the said information in said memory (39) such that the dim factor will have its minimum value and maximum value (βMIN, βMAx) corresponding to the minimum value and maximum value (φMiN, φMAX) of the phase angle (φ), respectively.

    摘要翻译: 用于固态灯(31)的驱动器(32)接收相切AV电源电压(PCACV)。 基于相切AV电源电压(PCACV)的相位角(&phgr),灯以暗光输出(LA)运行。 驱动器包括一个包含定义功能(F)的信息的存储器(39)。 在正常模式下,驱动器监视电源电压,并根据公式&bgr = F(&phgr。)从相位角(&phgr。)的瞬时值计算亮度因子(&bgr)的瞬时值。 在学习模式中,驾驶员检测由相位角(&phgr)假设的最低值(&phgr; MIN)和最高值(&phgr; MAx),并更新所述存储器(39)中的所述信息,使得暗 因子将分别与相位角(&phgr。)的最小值和最大值(&phgr; MiN,&phgr; MAX)相对应的最小值和最大值(&bgr; MIN,&bgr; MAx)。