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    • 11. 发明申请
    • OMNI REFLECTIVE OPTICS FOR WIDE ANGLE EMISSION LED LIGHT BULB
    • OMNI反射光学用于宽角度发射LED灯泡
    • US20120300453A1
    • 2012-11-29
    • US13426627
    • 2012-03-22
    • Li ZhouKai Chiu WuEnboa Wu
    • Li ZhouKai Chiu WuEnboa Wu
    • F21V7/00F21V29/00
    • F21V29/505F21K9/232F21K9/60F21K9/61F21K9/64F21V3/00F21V3/063F21V3/12F21V13/02F21V29/773F21V29/86F21Y2115/10
    • A structure is provided to create an efficient light pattern conversion from a narrow angular light beam pattern of a light emitting source to a wide angle light intensity distribution for an omnidirectional lighting assembly. A heat conductive substrate includes an LED array with at least one central and at least one surrounding LED. A hollow light diverting component is positioned over the LED array; a central LED is within the hollow component while surrounding LEDs are positioned outside. Light emitted by the central LED is reflected off inner surfaces of the hollow component to be discharged from an upper opening. The outer component surface is configured to reflect light from the surrounding LEDs in azimuthal and circumferential directions towards a region below the upper opening. In this manner, plural LEDs are used to form a wide angle emission pattern suitable for use in conventional light bulb replacement devices.
    • 提供一种结构以产生从发光源的窄角度光束图案到全向照明组件的广角光强度分布的有效的光图案转换。 导热基板包括具有至少一个中心和至少一个周围LED的LED阵列。 中空光转向部件位于LED阵列上方; 中央LED在中空部件内,而周围的LED位于外部。 由中央LED发射的光从中空部件的内表面反射,从上部开口排出。 外部部件表面被配置为将方位角和圆周方向上的周围LED的光反射到上部开口下方的区域。 以这种方式,使用多个LED来形成适用于常规灯泡更换装置的广角发射图案。
    • 12. 发明授权
    • Remote control lighting assembly and use thereof
    • 遥控照明组件及其使用
    • US08013347B2
    • 2011-09-06
    • US11727714
    • 2007-03-28
    • Zhikuan ZhangMing LuLydia LeungKelvin LiEnboa Wu
    • Zhikuan ZhangMing LuLydia LeungKelvin LiEnboa Wu
    • H01L33/00
    • H05B33/0803F21K9/00F21V23/0435F21V23/0442F21V29/503F21V29/86F21V29/89F21Y2115/10H05B33/0857
    • A remote-controllable lighting device comprising a first substrate and an adjacent second substrate maintained in a spaced apart relationship to allow airflow therebetween and at least partly overlapping each other, at least the second substrates carrying thereon at least one emission sources, the first substrate being located towards a proximal end of the device and the second substrate being located towards a distal end of the device; said first substrate being arranged so as to allow light generated by the at least one located second light emission source to pass thereby in a direction defining a primary light emission direction and said first light emission source located so as to emit light in said primary light emission direction; said first and second substrate being in thermal communication so as to allow heat generated by the at least one light emission sources to flow between the substrates so as to provide thermal distribution between the substrates, the first and second substrate being formed of a thermally conductive material suitable for convection of the generated heat therefrom; a signal detector for receiving a wirelessly transmitted control signal from a remote control device; said signal receiver being located proximal of the first substrate in the primary light emission direction; and a controller in communication with said signal detector and the light emission sources and for controlling at least one characteristic of at least one light emission source responsive to said control signal.
    • 遥控照明装置,包括第一基板和相邻的第二基板,所述第一基板和相邻的第二基板保持间隔开的关系,以允许至少部分地彼此重叠的气流,至少在其上承载有至少一个排放源的第二基板,第一基板 朝向装置的近端定位,并且第二基板朝向装置的远端定位; 所述第一衬底布置成允许由所述至少一个位于第二发光源产生的光在限定初级发光方向的方向上通过,并且所述第一发光源被定位成在所述初级发光中发光 方向; 所述第一和第二基板是热连通的,以便允许至少一个发光源产生的热量在基板之间流动,从而在基板之间提供热分布,第一和第二基板由导热材料 适于从其产生的热量对流; 信号检测器,用于从遥控装置接收无线发送的控制信号; 所述信号接收器位于所述第一基板的初始发光方向的近侧; 以及与所述信号检测器和所述发光源通信并用于响应于所述控制信号来控制至少一个发光源的至少一个特性的控制器。
    • 13. 发明申请
    • Remote control lighting assembly and use thereof
    • 遥控照明组件及其使用
    • US20080211369A1
    • 2008-09-04
    • US11727714
    • 2007-03-28
    • Zhikuan ZhangMing LuLydia LeungKelvin LlEnboa Wu
    • Zhikuan ZhangMing LuLydia LeungKelvin LlEnboa Wu
    • H01J7/24
    • H05B33/0803F21K9/00F21V23/0435F21V23/0442F21V29/503F21V29/86F21V29/89F21Y2115/10H05B33/0857
    • A remote-controllable lighting device comprising a first substrate and an adjacent second substrate maintained in a spaced apart relationship to allow airflow therebetween and at least partly overlapping each other, at least the second substrates carrying thereon at least one emission sources, the first substrate being located towards a proximal end of the device and the second substrate being located towards a distal end of the device; said first substrate being arranged so as to allow light generated by the at least one located second light emission source to pass thereby in a direction defining a primary light emission direction and said first light emission source located so as to emit light in said primary light emission direction; said first and second substrate being in thermal communication so as to allow heat generated by the at least one light emission sources to flow between the substrates so as to provide thermal distribution between the substrates, the first and second substrate being formed of a thermally conductive material suitable for convection of the generated heat therefrom; a signal detector for receiving a wirelessly transmitted control signal from a remote control device; said signal receiver being located proximal of the first substrate in the primary light emission direction; and a controller in communication with said signal detector and the light emission sources and for controlling at least one characteristic of at least one light emission source responsive to said control signal.
    • 遥控照明装置,包括第一基板和相邻的第二基板,所述第一基板和相邻的第二基板保持间隔开的关系,以允许至少部分地彼此重叠的气流,至少在其上承载有至少一个排放源的第二基板,第一基板 朝向装置的近端定位,并且第二基板朝向装置的远端定位; 所述第一衬底布置成允许由所述至少一个位于第二发光源产生的光在限定初级发光方向的方向上通过,并且所述第一发光源被定位成在所述初级发光中发光 方向; 所述第一和第二基板是热连通的,以便允许至少一个发光源产生的热量在基板之间流动,从而在基板之间提供热分布,第一和第二基板由导热材料 适于从其产生的热量对流; 信号检测器,用于从遥控装置接收无线发送的控制信号; 所述信号接收器位于所述第一基板的初始发光方向的近侧; 以及与所述信号检测器和所述发光源通信并用于响应于所述控制信号来控制至少一个发光源的至少一个特性的控制器。
    • 14. 发明申请
    • Light emitting diode matrix
    • 发光二极管阵列
    • US20080099772A1
    • 2008-05-01
    • US11589705
    • 2006-10-30
    • Geoffrey Wen-Tai ShuyEnboa WuMing Lu
    • Geoffrey Wen-Tai ShuyEnboa WuMing Lu
    • H01L33/00H01L29/207
    • H01L27/156H01L33/385H01L33/62H01L2224/48137H01L2224/48139H01L2224/49113
    • A light source includes a light emitting diode (LED) module having a continuous substrate, a layer of n-type semiconductor material formed above the substrate, and a layer of p-type semiconductor material formed above the n-type semiconductor material. A p-n junction is formed between the p-type and n-type semiconductor materials. The p-type and n-type semiconductor materials are selected to emit light at the p-n junction when an electric current flows through the p-n junction. The LED module includes a plurality of electric contacts connected to the p-type semiconductor material, and at least one electric contact connected to the n-type semiconductor material. The electric contacts are configured to pass electric current through a plurality of regions in the p-n junction such that the plurality of regions have higher electric current densities and emit light brighter than areas outside of the plurality of regions.
    • 光源包括具有连续衬底的发光二极管(LED)模块,在衬底上形成的n型半导体材料层和形成在n型半导体材料上方的p型半导体材料层。 在p型和n型半导体材料之间形成p-n结。 当电流流过p-n结时,选择p型和n型半导体材料在p-n结处发光。 LED模块包括连接到p型半导体材料的多个电触点和连接到n型半导体材料的至少一个电触点。 电触点被配置为使电流通过p-n结中的多个区域,使得多个区域具有较高的电流密度并且发射比多个区域外的区域更亮的光。
    • 15. 发明授权
    • Method for wafer level package of sensor chip
    • 传感器芯片晶圆级封装方法
    • US07351609B2
    • 2008-04-01
    • US11385882
    • 2006-03-22
    • Enboa WuRou-Ching Yang
    • Enboa WuRou-Ching Yang
    • H01L21/00
    • H01L27/14618H01L23/3114H01L2924/0002H01L2924/00
    • A method for wafer level package (WLP) of sensor chips is provided, including the steps of: providing a wafer, the wafer including a plurality of die regions, each the die region on a first surface of the wafer comprising an active area and a pad surrounding the active area; bounding a transparent protective layer to the first surface of the wafer; forming a stress buffer on a second surface of the wafer; using etching or laser drill to form a via hole at the location between two neighboring die regions through the stress buffer and the wafer to expose the pad or a conductive line between two neighboring pads; and forming a plurality of bump electrodes on the stress buffer for electrical connection to the pads through the via holes. The method can prevent pollution of the die, improve the convenience of package, reduce the manufacture cost, increase the package reliability, and solve the stress problem caused by attaching the die directly to the PCB.
    • 提供了一种用于传感器芯片的晶片级封装(WLP)的方法,包括以下步骤:提供晶片,晶片包括多个管芯区域,每个管芯区域在晶片的第一表面上包括有源区和 围绕活动区域的垫; 将透明保护层限定在晶片的第一表面上; 在所述晶片的第二表面上形成应力缓冲器; 使用蚀刻或激光钻孔在通过应力缓冲器和晶片的两个相邻管芯区域之间的位置处形成通孔,以暴露焊盘或两个相邻焊盘之间的导电线; 以及在所述应力缓冲器上形成多个凸起电极,以通过所述通孔与所述焊盘电连接。 该方法可以防止模具污染,提高包装的便利性,降低制造成本,提高包装可靠性,解决将模具直接连接到PCB所引起的应力问题。
    • 16. 发明授权
    • Light emitting diode covered with a reflective layer and method for fabricating the same
    • 用反射层覆盖的发光二极管及其制造方法
    • US07271020B2
    • 2007-09-18
    • US11234223
    • 2005-09-26
    • Enboa WuXing-Xiang LiuChia-Shou Chang
    • Enboa WuXing-Xiang LiuChia-Shou Chang
    • H01L21/00
    • H01L33/46H01L2924/0002H01L2924/00
    • A light emitting diode (LED) covered with a reflective layer by imprinting process is provided. The imprinting process includes coating a plastic layer on a mold to form an imprinting substrate; coating a reflective layer on the plastic layer and modifying the shape of the reflective layer to fit the shape of outer surfaces of the light emitting diode; softening the plastic layer and impressing the mold covered with the reflective layer upon the LED structure so that the reflective layer adheres to the surfaces of LED; and removing the mold. Because the reflective layer has high reflectivity, the light emitted from the top surface and side surfaces of LED is reflected back to the light extraction direction, and thereby the light extraction efficiency is enhanced.
    • 提供了通过压印工艺覆盖有反射层的发光二极管(LED)。 压印方法包括在模具上涂覆塑料层以形成压印基板; 在塑料层上涂覆反射层并改变反射层的形状以适应发光二极管外表面的形状; 软化塑料层并将覆盖有反射层的模具压印在LED结构上,使得反射层粘附到LED的表面; 并移除模具。 由于反射层具有高反射率,所以从LED的顶表面和侧表面发射的光被反射回到光提取方向,从而提高了光提取效率。
    • 17. 发明授权
    • Optical subassembly of optical transceiver
    • 光收发器光组件
    • US07203426B2
    • 2007-04-10
    • US11144720
    • 2005-06-04
    • Enboa WuYing-Ching Shih
    • Enboa WuYing-Ching Shih
    • H04B10/00
    • G02B6/4214G02B6/29361G02B6/4246
    • A transceiver module comprised of a multiplexing/demultiplexing optical subassembly is provided. The optical subassembly includes either a transmitter module or a receiver module or both. The transmitter module has laser diodes emitting optical signals, which are reflected by reflectors, and coupled together by thin film filter. The receiver module includes thin film filters that decouple a received optical signal into constituent components. These components are reflected by reflectors to photo detectors by which the optical signals are converted into electrical signals. The reflector are capable of dual axis adjustment for adjustment of inclination thereof to effect active alignment. Further, the transmitter module and the receiver module define positioning recesses to position the laser diodes and photo detectors. The recesses are sized in accordance with the wavelengths associated with the laser diodes and photo detectors to effect passive alignment.
    • 提供了由复用/解复用光学子组件组成的收发器模块。 光学子组件包括发射器模块或接收器模块或两者。 发射器模块具有发射光信号的激光二极管,其被反射器反射并通过薄膜滤波器耦合在一起。 接收器模块包括将接收的光信号分离成组成部件的薄膜滤波器。 这些部件被反射器反射到光电检测器,光信号将被转换成电信号。 反射器能够进行双轴调节,以调整其倾斜度以实现主动对准。 此外,发射器模块和接收器模块限定定位凹槽以定位激光二极管和光电检测器。 根据与激光二极管和光电检测器相关联的波长来调整凹槽的大小,以实现被动对准。
    • 19. 发明申请
    • Optical subassembly of optical transceiver
    • 光收发器光组件
    • US20060274999A1
    • 2006-12-07
    • US11144720
    • 2005-06-04
    • Enboa WuYing-Ching Shih
    • Enboa WuYing-Ching Shih
    • G02B6/42
    • G02B6/4214G02B6/29361G02B6/4246
    • A transceiver module comprised of a multiplexing/demultiplexing optical subassembly is provided. The optical subassembly includes either a transmitter module or a receiver module or both. The transmitter module has laser diodes emitting optical signals, which are reflected by reflectors, and coupled together by thin film filter. The receiver module includes thin film filters that decouple a received optical signal into constituent components. These components are reflected by reflectors to photo detectors by which the optical signals are converted into electrical signals. The reflector are capable of dual axis adjustment for adjustment of inclination thereof to effect active alignment. Further, the transmitter module and the receiver module define positioning recesses to position the laser diodes and photo detectors. The recesses are sized in accordance with the wavelengths associated with the laser diodes and photo detectors to effect passive alignment.
    • 提供了由复用/解复用光学子组件组成的收发器模块。 光学子组件包括发射器模块或接收器模块或两者。 发射器模块具有发射光信号的激光二极管,其被反射器反射并通过薄膜滤波器耦合在一起。 接收器模块包括将接收的光信号分离成组成部件的薄膜滤波器。 这些部件被反射器反射到光电检测器,光信号将被转换成电信号。 反射器能够进行双轴调节,以调整其倾斜度以实现主动对准。 此外,发射器模块和接收器模块限定定位凹槽以定位激光二极管和光电检测器。 根据与激光二极管和光电检测器相关联的波长来调整凹槽的大小,以实现被动对准。
    • 20. 发明授权
    • Tunable long period fiber grating structure and fabrication method
    • 可调谐长周期光纤光栅结构及制作方法
    • US07013066B1
    • 2006-03-14
    • US11038321
    • 2005-01-19
    • Enboa WuRou-Ching YangKuo-Ching San
    • Enboa WuRou-Ching YangKuo-Ching San
    • G02B6/34
    • G02B6/02071G02B6/022
    • The invention discloses a tunable long period fiber grating structure and fabrication method, which produces an expected microbending deformation by adjusting the temperature and making use of the unmatched coefficients of thermal expansion between different materials, and thus creating a phenomenon of mode coupling effect occurred in traditional optical gratings in order to provide the structure and fabrication method for having an effect of tuning spectra by controlling the temperature. This invention not only can be applied to the optical communications and wavelength dependent multiplexed devices and equipments, but also can be applied to the temperature and deformation detection. The tunable long period fiber grating structure in accordance to the present invention comprises a substrate; a periodic structure being disposed thereon and having a first coefficient of thermal expansion; a coupling agent, having a second coefficient of thermal expansion for fixing a fiber to the periodic structure; wherein the first and second coefficients of thermal expansion are different.
    • 本发明公开了一种可调谐长周期光纤光栅结构及其制造方法,通过调节温度并利用不同材料之间的不匹配的热膨胀系数产生预期的微弯曲变形,从而产生传统的模式耦合效应现象 光栅,以提供通过控制温度来调节光谱的效果的结构和制造方法。 本发明不仅可以应用于光通信和波长依赖多路复用装置和设备,而且可以应用于温度和变形检测。 根据本发明的可调谐长周期光纤光栅结构包括基板; 周期性结构设置在其上并具有第一热膨胀系数; 具有用于将纤维固定到周期性结构的第二热膨胀系数的偶联剂; 其中所述第一和第二热膨胀系数不同。