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    • 1. 发明申请
    • GLASS-SUPPORTED ELECTROLUMINESCENT NIXELS AND ELEMENTS WITH SINGLE-SIDED ELECTRICAL CONTACTS
    • 玻璃支持的电致发光单体和单面电气接触元件
    • WO2009049395A1
    • 2009-04-23
    • PCT/CA2007/001833
    • 2007-10-16
    • NANOLUMENS ACQUISITION, INC.KITAI, Adrian H.LIU, Guo
    • KITAI, Adrian H.LIU, Guo
    • H05B33/12H05B33/14H05B33/26
    • H05B33/14C09K11/574C09K11/588C09K11/666C09K11/7729C09K11/7734
    • Systems and methods are provided for electroluminescent display elements which are glass supported. These electroluminescent display elements include an EL element or nixel structure that makes use of two rear or substantially same-sided electrodes that are electrically separated by a small gap or other non-conductive (e.g., insulating) material, but that generally cover the rear area of the EL element or nixel laminate. This EL element has a glass plate applied on the other side of the EL element. These EL elements may be made by growing the layers one on top of the other on one side on the glass plate, or a free standing EL element may be made using a ceramic substrate having a front surface onto which the layers are deposited. The back surface of the ceramic substrate may then be ground down to be thinner and the two back electrodes applied to this back surface, after which a glass plate is applied to the other side of the element.
    • 为玻璃支撑的电致发光显示元件提供了系统和方法。 这些电致发光显示元件包括EL元件或元件结构,其利用由小间隙或其它非导电(例如绝缘)材料电隔离的两个后或基本相同的电极,但是通常覆盖后区 的EL元件或子像素层压板。 该EL元件具有应用于EL元件另一侧的玻璃板。 这些EL元件可以通过在玻璃板的一侧上生长层之间的一个层来制造,或者可以使用具有其上沉积有其前表面的陶瓷基板来制造自立式EL元件。 然后可以将陶瓷基板的背面磨碎成更薄,并且将两个后电极施加到该后表面,之后将玻璃板施加到元件的另一侧。
    • 2. 发明申请
    • HEAT DISSIPATION SYSTEM FOR A MINIATURIZED FORM FACTOR COMMUNICATIONS CARD
    • 用于微型形式因子通信卡的散热系统
    • WO2007122521A2
    • 2007-11-01
    • PCT/IB2007050901
    • 2007-03-15
    • UTSTARCOM INCLIU GUO TAOBAO SHANQUANLE TAOJINHUANG BILLTAN MENG-EN
    • LIU GUO TAOBAO SHANQUANLE TAOJINHUANG BILLTAN MENG-EN
    • H05K7/20
    • H05K1/0207H05K1/0206H05K1/141H05K7/205H05K2201/0919H05K2201/09309H05K2201/09781
    • A heat dissipation system for a miniaturized form factor card allows a communications system for mobile information devices contained in the card to operate with high heat loads by employing a high conductivity pad on the printed circuit board of the mobile information device which contacts the case of the miniaturized form factor card. Additionally, heat dissipation plugs are integrated into the edge of the PCB with emitting surfaces adjacent radiation holes in the case of the mobile information device adjacent the PCB. Heat convection channels through layers of the PCB allow transfer of heat from the pad to other conductive layers in the PCB. High thermal conductivity packing in the miniaturized form factor card conducts heat from the internal components to the case of the card in contact with the high conductivity. Placement of high heat generation components within the card case adjacent the contact interface with the high conductivity pad is also employed for maximum heat dissipation. A high conductivity membrane is provided on the card case for increased conductivity from the case into the pad on the PCB.
    • 用于小型化形状因子卡的散热系统允许包含在卡中的移动信息设备的通信系统通过在移动信息设备的印刷电路板上使用高电导率焊盘来操作,具有高热负荷,该电导板接触到 小型化外形尺寸卡。 此外,在移动信息设备邻近PCB的情况下,散热塞被集成到PCB的边缘中,发射表面邻近辐射孔。 通过PCB层的热对流通道允许热量从焊盘传递到PCB中的其他导电层。 小型化形状卡中的高导热性填料将热量从内部组件传导到与高导电性接触的卡的情况。 也可采用与高电导率焊盘相邻的接触界面内的卡壳内的高发热部件的放置,以实现最大的散热。 在卡盒上提供高导电性膜,以增加从壳体到PCB上的焊盘的导电性。
    • 7. 发明申请
    • DOPED AMORPHOUS AND CRYSTALLINE GALLIUM OXIDES, ALKALINE EARTH GALLATES AND DOPED ZINC GERMANATE PHOSPHORS AS ELECTROLUMINESCENT MATERIALS
    • 不锈钢和晶体氧化铝,碱土金属和镀锌锌化合物磷光体作为电致发光材料
    • WO1997002721A1
    • 1997-01-23
    • PCT/CA1996000444
    • 1996-07-04
    • KITAI, Adrian, H.XIAO, TianLIU, Guo
    • H05B33/14
    • H05B33/14C09K11/662C09K11/666C09K11/7701C09K11/7703C09K11/7729C09K11/7731C09K11/7744C09K11/7746C09K11/7767C09K11/7768C09K11/7784C09K11/7786H05B33/10
    • New oxide phosphors based on doped gallium oxides, alkaline earth gallates and germanates for electroluminescent display materials. Bright orange red electroluminescence has been obtained in amorphous and crystalline oxides Ga2O3:Eu for the first time. SrGa2O4 and SrGa4O9 doped with 1-8 mole % of Eu and Tb, CaGa2O4, Ca3Ga2O6 and CaGa4O7 doped with 1-4 mole % of Eu, Tb, Pr and Dy, BaGa2O4 doped with 1-2 mole % of Eu and Tb, have been prepared using RF magnetron sputtering onto ceramic dielectric substrates and annealed at 600 DEG C - 950 DEG C in air or Ar for 1-2 hours. Bright electroluminescent (EL) emission was obtained with wavelengths covering the visible sprectrum from 400 to 700 nm, and infrared emission above 700 nm with spectral peaks characteristic of rare earth transitions. The films of CaGa2O4 with 1 mole % Eu achieved 22 fL (75 cd/m ) at 60 Hz and had a maximum efficiency of 0.2 lm/w for red emission. An amorphous thin film of Ca3Ga2O6 with 2 mole % Eu achieved 34 fL in red EL at 60 Hz when annealed at 600 DEG C. SrGa2O4 with 1 mole % Eu and 4 mole % Tb yielded "white" phosphor having red, green and blue emission (13 fL at 60 Hz), and SrGa2O4 with 8 mole % Tb resulted in a blue and green phosphor measuring 30 fL at 60 Hz. Zn2Si0.5Ge0.5O4 containing Mn was sputtered using magnetron RF sputtering onto ceramic dielectric substrates and annealed at 700 DEG C for 1 hour in air or argon. Bright green (540 nm) emission was obtained in electroluminescence: 110 fL (377 cd/m ) at 60 Hz with a maximum efficiency of 0.9 l/w. Moderately bright red emission (640 nm) was also obtained.
    • 用于电致发光显示材料的基于掺杂的镓氧化物,碱土金属镓盐和锗酸盐的新型氧化物荧光体。 在无定形和结晶氧化物Ga2O3:Eu中首次获得了明亮的橙红色电致发光。 掺杂有1-8摩尔%Eu和Tb,CaGa2O4,Ca3Ga2O6和掺杂有1-4摩尔%的Eu,Tb,Pr和Dy的CaGa 4 O 7的SrGa 2 O 4和SrGa 4 O 9,掺杂有1-2摩尔%的Eu和Tb的BaGa 2 O 4具有 使用射频磁控溅射法制备在陶瓷电介质基片上,并在600℃〜950℃的空气或Ar中退火1-2小时。 获得了具有覆盖400至700nm的可见光束的波长和高于700nm的红外发射的具有稀土跃迁特征的光谱峰的亮电场发光(EL)发射。 具有1摩尔%Eu的CaGa 2 O 4膜在60Hz下实现了22fL(75cd / m 2),对于红色发射具有0.2lm / w的最大效率。 具有2摩尔%Eu的Ca 3 Ga 2 O 6的非晶薄膜在600℃退火时在60Hz的红色EL中达到34fL。具有1摩尔%Eu和4摩尔%Tb的SrGa 2 O 4产生具有红色,绿色和蓝色发射的“白色”荧光体 (13fL,60Hz)和具有8mol%Tb的SrGa 2 O 4产生在60Hz下测量30fL的蓝色和绿色荧光体。 将含Mn的Zn2Si0.5Ge0.5O4用磁控溅射溅射到陶瓷电介质基片上,在空气或氩气中于700℃退火1小时。 在60Hz的电致发光中获得了明亮的绿色(540nm)发光:110fL(377cd / m 2),最大效率为0.9l / w。 也获得了中等亮度的红色发射(640nm)。