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    • 2. 发明申请
    • Light emitting device with optical enhancement structure
    • 具有光学增强结构的发光器件
    • US20070182319A1
    • 2007-08-09
    • US11649494
    • 2007-01-03
    • An-Chi WeiHeng-Long YangHan-Ping Shieh
    • An-Chi WeiHeng-Long YangHan-Ping Shieh
    • H01J1/62H01J63/04
    • H01L51/5262H01J1/62H01J1/70H01J2211/44H01L51/5275H01L2251/5315
    • A light emitting device with optical enhancement structure. The light emitting device includes a light emitting element and an optical enhancement structure. Some of the light from the light emitting element is emitted in a diverging manner. The optical enhancement structure is optically coupled to the light emitting element, said optical enhancement structure having a light emerging surface that includes a central surface that is orthogonal to the normal and corner surfaces having profiles that are not orthogonal to the normal. The optical enhancement structure is a single structure for changing the normal angle of the first light emerging surface to increase light output efficiency. The optical enhancement structure have an optical characteristic that directs diverging light from the light emitting element along a path within the optical enhancement structure in a direction towards a normal of the pixel.
    • 具有光学增强结构的发光器件。 发光器件包括发光元件和光学增强结构。 来自发光元件的一些光以发散的方式发射。 光学增强结构光学耦合到发光元件,所述光学增强结构具有光出射表面,该光学增强结构包括正交于具有与法线不正交的轮廓的法线和角面的中心表面。 光学增强结构是用于改变第一光出射表面的法线角度以提高光输出效率的单一结构。 光学增强结构具有光学特性,该光学特性指向沿着光学增强结构内沿着像素法线方向的发光元件的发散光。
    • 3. 发明申请
    • Three-Dimensional Luminescent Display and Method for Using the Same
    • 三维发光显示器及其使用方法
    • US20070114907A1
    • 2007-05-24
    • US11559915
    • 2006-11-15
    • Whe-Yi ChiangTa-Ching Pong
    • Whe-Yi ChiangTa-Ching Pong
    • H01J1/62
    • H01J31/123H01J29/89H01J2211/44H01J2329/897H04N13/305
    • This invention provides a three-dimensional luminescent display, comprising: a first substrate, a second substrate, a plurality of light emitting devices provided between the first substrate and the second substrate, and a plurality of lenticular lenses to show 3D image. Each light emitting device comprises a pixel and has a square shape, and the pixels are provided to form an N by M matrix (N and M are integers) and have a pitch of Xp inch (distance between two neighboring pixels along either the N direction or the M direction). The lenticular lenses form a linear array and the pitch of the lenticular lenses is Plens per inch (lines per inch; LPI). The light emitting devices are provided at the focal plane of the lenticular lenses. Moreover, Xp and Plens satisfy the following equation: 3*k*Xp*Plens=1 in which k is an integer greater than or equal to 1.
    • 本发明提供了一种三维发光显示器,包括:第一基板,第二基板,设置在第一基板和第二基板之间的多个发光器件,以及多个透镜,用于显示3D图像。 每个发光器件包括像素并且具有正方形形状,并且提供像素以形成N×M矩阵(N和M为整数),并且具有X平方英寸的间距( 沿N方向或M方向的两个相邻像素)。 双凸透镜形成线性阵列,双凸透镜的间距为每英寸(每英寸行数(LPI))的P 。 发光装置设置在双凸透镜的焦平面处。 此外,X> P&P>和P>透镜满足以下等式:3 * k * X< P> * P透镜< 1,其中k是大于或等于1的整数。
    • 6. 发明申请
    • Application of multi-layer antistatic/antireflective coating to video display screen by sputtering
    • 通过溅射将多层抗静电/抗反射涂层应用于视频显示屏
    • US20050221097A1
    • 2005-10-06
    • US11138529
    • 2005-05-26
    • Yueh-Ming Teng
    • Yueh-Ming Teng
    • B32B17/06C03C17/34C23C14/34H01J9/20H01J29/86H01J29/89
    • C03C17/3452C03C17/3417C23C14/3464H01J9/20H01J29/868H01J29/896H01J2211/44
    • A multi-layer antistatic/antireflective coating having high electrical conductivity (103 ohms) and low reflectivity (0.7%) is applied to the outer surface of a video display screen by sputtering. The multi-layer coating includes an inner antistatic layer deposited directly on the video display screen and comprised of ITO, TiO2, etc., having a light refractive index in the range of 1.8-2.2 and a thickness in the range of 18-35 nm. The outer antireflective layer is comprised of SiO2, MgO, etc., having a light refractive index in the range of 1.3-1.47 and a thickness in the range of 110-140 nm. The multi-layer coating is applied using a sputtering apparatus having a dual vacuum chamber, a diffusion pump connected to one of the chambers, and plural vacuum pumps connected to the diffusion pump and to the dual vacuum chamber with various gauges and valves for monitoring and controlling the sputtering operation.
    • 通过溅射将具有高导电性(10欧姆欧姆)和低反射率(0.7%))的多层抗静电/抗反射涂层施加到视频显示屏的外表面。 多层涂层包括直接沉积在视频显示屏上并由ITO,TiO 2等组成的内部抗静电层,其具有在1.8-2.2范围内的光折射率和厚度 在18-35nm的范围内。 外部抗反射层由SiO 2 SiO 2,MgO等组成,其光折射率在1.3-1.47范围内,厚度在110-140nm范围内。 使用具有双重真空室的溅射装置,连接到一个室的扩散泵和连接到扩散泵的多个真空泵和具有用于监测的各种量规和阀的双重真空室的溅射装置来施加多层涂层, 控制溅射操作。
    • 10. 发明申请
    • Color filter substrate, method for fabricating the color filter substrate, and display device
    • 滤色器基板,滤色器基板的制造方法以及显示装置
    • US20040130253A1
    • 2004-07-08
    • US10740861
    • 2003-12-22
    • SHARP KABUSHIKI KAISHA
    • Morihide OhsakiToshihide TsubataTsuyoshi TokudaYoshinori Shimada
    • H01K001/26H01J061/40H01J005/16
    • G02F1/133514G02B5/201G02F1/133512G02F2001/133388H01J2211/44
    • A color filter substrate includes a transparent substrate with first and second opposed edges, a color filter layer including color filters of first, second and third types extending in a first direction with the third type interposed between the first and second types, and an opaque layer including opaque portions extending in the first direction and another opaque portion connected to the other opaque portions along the second edge. The color filter substrate is fabricated by (a) forming the opaque layer on the transparent substrate, and then (b) forming the color filter layer thereon. The step (a) includes forming an opening between one end of each color filter of the third type and the second edge. The step (b) includes attaching and rolling a dry film in the first direction on the transparent substrate after the color filters of the first and second types have been provided thereon.
    • 滤色器基板包括具有第一和第二相对边缘的透明基板,滤色器层包括第一,第二和第三类型的滤色器,第一和第三类型在第一方向上延伸,第三类型插入在第一和第二类型之间,不透明层 包括在第一方向上延伸的不透明部分和沿第二边缘连接到其它不透明部分的另一不透明部分。 通过(a)在透明基板上形成不透明层,然后(b)在其上形成滤色器层来制造滤色器基板。 步骤(a)包括在第三类型的每个滤色器的一端和第二边缘之间形成开口。 步骤(b)包括在其上设置有第一和第二类型的滤色器之后,在透明基板上沿第一方向安装和滚动干膜。