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    • 1. 发明申请
    • LIGHTING DEVICE
    • 照明设备
    • US20090169215A1
    • 2009-07-02
    • US12280707
    • 2007-02-20
    • Georg SauerlanderBart Andre Salters
    • Georg SauerlanderBart Andre Salters
    • H04B10/00G09G3/30
    • H04B10/1149H04B10/116H05B37/0272
    • The invention relates to A method for a lighting device, in particular for a display device such as a LCD-TV, projector etc., generating radiation including at least visible light for illumination with at least one light-emitting element (1) being a LED (1) or an OLED, emitting radiation comprising an average light intensity for illumination purpose, a controller (2) coupled to the light-emitting element (1) modulating said radiation for a data transfer simultaneously to the illumination purpose, wherein the controller (2) is configured in such a way, that simultaneously data signals are transmitted via the generated radiation of said light-emitting element (1) and said modulation is not visible by an observer, wherein the data signals are transmitted to a detecting unit (3).
    • 本发明涉及一种用于照明装置的方法,特别是对于诸如LCD-TV,投影仪等的显示装置,产生包括至少一个可见光的辐射的照明装置,所述至少一个发光元件(1)是至少一个发光元件 LED(1)或OLED,其发射包括用于照明目的的平均光强度的辐射;耦合到发光元件(1)的控制器(2),其将所述辐射调制以同时进行照明目的的数据传输,其中所述控制器 (2)以这样的方式配置,即同时通过所产生的所述发光元件(1)的辐射传输数据信号,并且观察者不可见所述调制,其中数据信号被发送到检测单元( 3)。
    • 2. 发明授权
    • Lighting device
    • 照明设备
    • US08150269B2
    • 2012-04-03
    • US12280707
    • 2007-02-20
    • Georg SauerlanderBart Andre Salters
    • Georg SauerlanderBart Andre Salters
    • H04B10/00
    • H04B10/1149H04B10/116H05B37/0272
    • The invention relates to A method for a lighting device, in particular for a display device such as a LCD-TV, projector etc., generating radiation including at least visible light for illumination with at least one light-emitting element (1) being a LED (1) or an OLED, emitting radiation comprising an average light intensity for illumination purpose, a controller (2) coupled to the light-emitting element (1) modulating said radiation for a data transfer simultaneously to the illumination purpose, wherein the controller (2) is configured in such a way, that simultaneously data signals are transmitted via the generated radiation of said light-emitting element (1) and said modulation is not visible by an observer, wherein the data signals are transmitted to a detecting unit (3).
    • 本发明涉及一种用于照明装置的方法,特别是对于诸如LCD-TV,投影仪等的显示装置,产生包括至少一个可见光的辐射的照明装置,所述至少一个发光元件(1)是至少一个发光元件 LED(1)或OLED,其发射包括用于照明目的的平均光强度的辐射;耦合到发光元件(1)的控制器(2),其将所述辐射调制以同时进行照明目的的数据传输,其中所述控制器 (2)以这样的方式配置,即同时通过所产生的所述发光元件(1)的辐射传输数据信号,并且观察者不可见所述调制,其中数据信号被发送到检测单元( 3)。
    • 4. 发明申请
    • CODED LIGHT EMITTING DEVICE
    • 编码发光装置
    • US20130272716A1
    • 2013-10-17
    • US13822309
    • 2011-09-08
    • Toni LopezGeorg Sauerlander
    • Toni LopezGeorg Sauerlander
    • H04B10/116
    • H04B10/116H04B10/1141H05B33/0842H05B37/0272
    • The invention relates to an illumination device for embedding data symbols of a data signal into a luminance output of the illumination device. The device includes a LED comprising at least two segments which have a common electrode and are individually controllable. The LED is configured to generate the luminance output in response to a drive signal. The device further includes a controller configured for switching one of the segments on or off in response to the data signal to embed data symbols of the data signal into the light output of the device. One advantage of such an approach is that the proposed device is compatible with conventional LED drivers since no additional electronics for modulating the drive signal are necessary, which enables simple implementation and reduced costs.
    • 本发明涉及一种用于将数据信号的数据符号嵌入照明装置的亮度输出中的照明装置。 该装置包括LED,其包括至少两个具有公共电极并且可单独控制的区段。 LED被配置为响应于驱动信号产生亮度输出。 该装置还包括控制器,其被配置为响应于该数据信号而切换该片段中的一个,以将该数据信号的数据符号嵌入该设备的光输出。 这种方法的一个优点是所提出的装置与常规LED驱动器兼容,因为不需要用于调制驱动信号的附加电子装置,这使得能够简单实现并降低成本。
    • 5. 发明授权
    • Light emitting diode circuit and arrangement and device
    • 发光二极管电路及布置及装置
    • US08076872B2
    • 2011-12-13
    • US12298795
    • 2007-04-20
    • Georg SauerlanderBernd Ackermann
    • Georg SauerlanderBernd Ackermann
    • H05B39/06
    • H05B33/0803H05B33/0818H05B33/0866Y02B20/346
    • Disclosed are light emitting diode circuits employing first sub-circuits including first light emitting diodes and connected in parallel with second sub-circuits including second light emitting diodes and switches for, in conducting states, switching on the second light emitting diodes and switching off the first light emitting diodes and for, in non-conducting states, switching off the second light emitting diodes and switching on the first light emitting diodes. The first sub-circuits and the second sub-circuits have different signal characteristics such as different minimum threshold voltages to be realized by using different kinds of light emitting diodes, by using different total numbers of serial light emitting diodes, or by adding threshold voltage elements to the first sub-circuits.
    • 公开了采用包括第一发光二极管的第一子电路并与第二子电路并联连接的发光二极管电路,第二子电路包括第二发光二极管和开关,用于在导通状态下接通第二发光二极管并切断第一发光二极管 在非导通状态下,关闭第二发光二极管并接通第一发光二极管。 第一子电路和第二子电路具有不同的信号特性,例如通过使用不同种类的发光二极管实现的不同的最小阈值电压,通过使用不同的总数量的串联发光二极管,或者通过添加阈值电压元件 到第一个子电路。
    • 6. 发明申请
    • ARRANGEMENT AND METHOD FOR DEACTIVATING ELECTRICAL ELEMENTS WHEN MALFUNCTIONING
    • 失效时电击元件的布置和方法
    • US20090310269A1
    • 2009-12-17
    • US12373792
    • 2007-07-10
    • Georg SauerlanderGian Hoogzaad
    • Georg SauerlanderGian Hoogzaad
    • H02H3/00
    • H05B33/083H05B33/0824
    • Arrangements (1) are provided with electrical elements (11,21) for, in a feeding mode, receiving feeding signals and, in a non-feeding mode, not receiving the feeding signals, and with circuits (12,22) for, in the feeding mode, detecting malfunctions of the electrical elements (11,21). The circuits (12,22) comprise active switches (13,23) for, in response to detection results, deactivating the electrical elements (11,21) in both modes, in other words in the feeding mode as well as the non-feeding mode. The electrical elements (11,21) for example comprise light emitting diodes, incandescent lights or loudspeakers etc. The active switches (13,23) for example comprise bistable micro-relays or semiconductor switches such as non-volatile power semiconductor switches such as one time programmable flash power MOSFETs etc. Preferably, the arrangements (1) are integrated arrangements.
    • 安排(1)设置有电气元件(11,21),用于在馈电模式下接收馈送信号,并且在非馈电模式下,不接收馈送信号,并且具有电路(12,22),用于 馈送模式,检测电气元件(11,21)的故障。 电路(12,22)包括有源开关(13,23),用于响应于检测结果,在两种模式下,换句话说,在馈电模式以及不馈电中,电激励元件(11,21) 模式。 电气元件(11,21)例如包括发光二极管,白炽灯或扬声器等。有源开关(13,23)例如包括双稳态微型继电器或诸如非易失性功率半导体开关的半导体开关,例如一个 时间可编程闪存功率MOSFET等。优选地,布置(1)是集成布置。
    • 7. 发明申请
    • Wireless Powering Device, an Energiable Load, a Wireless System and a Method For a Wireless Energy Transfer
    • 无线供电装置,能量负载,无线系统和无线能量传输的方法
    • US20070222426A1
    • 2007-09-27
    • US11568473
    • 2005-04-28
    • Eberhard WaffenschmidtHarald ReiterCarsten DeppeGeorg SauerlanderBernd Ackermann
    • Eberhard WaffenschmidtHarald ReiterCarsten DeppeGeorg SauerlanderBernd Ackermann
    • H01F38/14
    • H01F38/14H02J5/005H02J7/025H02J50/12H02J50/80H02J50/90H02M3/337
    • A wireless resonant powering device 1 according to the invention comprises a first inductor winding 3, which is arranged to form a transformer 9 with the inductor winding 13 of the energizable load 11. The first inductor winding 3 is arranged to form a resonant circuit 5, which may comprise a suitable plurality of electric capacitances and coils. The components of the resonant circuit 5 are selected such that the magnetic energy received by the inductor winding 13 damps the energy flow in the resonant circuit so that the induced voltage in the inductor winding 13 is substantially constant and is independent of the magnetic coupling between the first inductor winding 3 and the inductor winding 13 at the operating frequency of the driving means 6. The resonant circuit is driven by the driving means 6, comprising a control unit 6c arranged to induce an alternating voltage between a first semiconductor switch 6a and a second semiconductor switch 6b. At the output of the transformer 9 an alternating voltage is generated, which is rectified to a DC-voltage by a diode rectifier, filtered by an output capacitance. The resonant circuit 5 is operable on its coupling independent point by the driving means 6. This figure schematically illustrates a situation, where a variable coupling between the first inductor winding 3 and the inductor winding 13 exists. The invention further relates to a wireless inductive powering device, an energizable load, a wireless system and a method for wireless power transfer.
    • 根据本发明的无线谐振供电装置1包括第一电感器绕组3,其被布置成与可激励负载11的电感器绕组13形成变压器9。 第一电感器绕组3被布置成形成谐振电路5,其可以包括适当的多个电容和线圈。 谐振电路5的组件被选择成使得由电感器绕组13接收的磁能阻止谐振电路中的能量流,使得电感器绕组13中的感应电压基本上是恒定的,并且独立于 第一电感绕组3和电感绕组13处于驱动装置6的工作频率。 谐振电路由驱动装置6驱动,包括布置成在第一半导体开关6a和第二半导体开关6b之间引起交流电压的控制单元6c。 在变压器9的输出端产生交流电压,其由二极管整流器整流为直流电压,由输出电容滤波。 谐振电路5可通过驱动装置6在其耦合独立点上操作。 该图示意性地示出了存在第一电感器绕组3和电感器绕组13之间的可变耦合的情况。 本发明还涉及无线感应供电装置,可激励负载,无线系统和无线电力传送方法。
    • 8. 发明申请
    • Circuit arrangement and methods for a remote control receiver having a photodiode
    • 具有光电二极管的遥控接收器的电路布置和方法
    • US20060127095A1
    • 2006-06-15
    • US10541980
    • 2003-12-15
    • Carsten DeppeThomas DurbaumGeorg Sauerlander
    • Carsten DeppeThomas DurbaumGeorg Sauerlander
    • H04B10/00
    • H03F3/087G08C23/04
    • A control unit (2) of a remote control receiver sets the forward or reverse direction operating mode of the photodiode (1) as a function of the useful signal level of its output signal, and to be precise, during standby, the photovoltaic operating mode (forward mode), since in this mode no external bias current is required. If the useful signal level of the photodiode (1) exceeds a predefined threshold, the reverse mode is set, and this brings with it a higher sensitivity. A series circuit (A) of a number of identical photodiodes DA1 DAn in the forward mode allows the realization of a controlled current source (6) having a transistor (T), since the permissible diode voltage (Ud) of the overall arrangement may have n times the value of the operating voltage of an individual photodiode. Thus at the same time the voltage across the individual diodes can be set to a very low value and a favorable operating range for the current source can be set. The possible sensitivity of the receiver module having diodes in this operating mode can thereby be considerably increased.
    • 遥控接收器的控制单元(2)根据其输出信号的有用信号电平来设置光电二极管(1)的正向或反向操作模式,并且准确地说,在待机期间,光伏操作模式 (正向模式),因为在此模式下不需要外部偏置电流。 如果光电二极管(1)的有用信号电平超过预定义的阈值,则反向模式被设置,并带来更高的灵敏度。 正向模式下的多个相同光电二极管DA1 DAn的串联电路(A)允许实现具有晶体管(T)的受控电流源(6),因为整体布置的容许二极管电压(Ud)可以具有 n倍于单个光电二极管的工作电压值。 因此,同时,可以将各个二极管两端的电压设置为非常低的值,并且可以设置用于电流源的有利的工作范围。 因此,可以显着增加在该操作模式中具有二极管的接收器模块的可能灵敏度。
    • 10. 发明申请
    • Multi-Resonance Converter
    • 多谐振转换器
    • US20070297199A1
    • 2007-12-27
    • US11719919
    • 2005-11-21
    • Georg SauerlanderReinhold ElferichCornelis SchettersHumphrey De Groot
    • Georg SauerlanderReinhold ElferichCornelis SchettersHumphrey De Groot
    • H02M3/335
    • H02M3/3382
    • In a multi-resonance converter for converting a first DC voltage into a second DC voltage, wherein the output of a half-bridge comprising semiconductor switches is connected through a resonance capacitor to the primary winding of a transformer and the secondary winding of the transformer, together with rectifier elements, an output inductor and an output capacitor, forms a current output, it is proposed that a controller, which can be supplied which the voltage across the output capacitor and a reference voltage, should control the semiconductor switches alternately so that one of the semiconductor switches is respectively turned on at a predetermined time after the other semiconductor switch is turned off. Preferably, the frequency is controlled in an upper range of the drawn power while in a lower range of the drawn power, the mark-space ratio is controlled for selected respectively constant frequencies.
    • 在用于将第一直流电压转换为第二直流电压的多谐振转换器中,其中包括半导体开关的半桥的输出通过谐振电容器连接到变压器的初级绕组和变压器的次级绕组, 与整流器元件,输出电感器和输出电容器一起形成电流输出,提出可以提供输出电容器两端的电压和参考电压的控制器,交替地控制半导体开关,使得一个 的半导体开关分别在另一半导体开关断开之后的预定时间导通。 优选地,在拉伸功率的较低范围内将频率控制在拉制功率的上限范围内,对所选择的分别恒定频率控制标记空间比。