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    • 1. 发明申请
    • METHOD FOR MEASURING LUMINANCE OF LIGHT-EMITTING DISPLAY PANEL
    • 用于测量发光显示面板发光的方法
    • US20130088589A1
    • 2013-04-11
    • US13688352
    • 2012-11-29
    • Panasonic Corporation
    • Yasunori NEGOROYasuo SEGAWA
    • G01J1/42G01M11/02
    • G01J1/42G01J1/04G01J1/0411G01J1/4228G01M11/02G02F1/1309H01J9/42H01J11/00
    • Disclosed is a method for measuring luminance of each of entire pixels two-dimensionally arranged in a light-emitting display panel at regular intervals, using an image sensor in which light receiving elements are two-dimensionally arranged at regular intervals, the method including: providing an optical lens between the light-emitting display panel and the image sensor, and adjusting distances between the light-emitting display panel, the image sensor, and the optical lens by setting intervals of images of the entire pixels to be N times as large as intervals of the light receiving pixels, where N is a natural number, the images being to be formed on a light receiving surface of the image sensor through the optical lens; displaying, on the light-emitting display panel, a display pattern in which predetermined pixels from among the entire pixels produce a luminescence; and measuring the luminance of the predetermined pixels, using the light receiving elements.
    • 本发明公开了一种使用以规则间隔二维排列光接收元件的图像传感器,以规则的间隔测量二维布置在发光显示面板中的整个像素的亮度的方法,所述方法包括:提供 在发光显示面板和图像传感器之间的光学透镜,并且通过将整个像素的图像的间隔设置为N倍的N倍,来调整发光显示面板,图像传感器和光学透镜之间的距离 其中N是自然数的光接收像素的间隔,图像将通过光学透镜形成在图像传感器的光接收表面上; 在发光显示面板上显示其中整个像素中的预定像素产生发光的显示图案; 并使用光接收元件测量预定像素的亮度。
    • 3. 发明申请
    • Lighting element with luminescent surface
    • 具有发光面的照明元件
    • US20050213325A1
    • 2005-09-29
    • US10518937
    • 2003-06-11
    • Robin FurneauxKaram KangWalter Hotz
    • Robin FurneauxKaram KangWalter Hotz
    • H01J9/24H01J9/00H01J17/49H01J29/86H01J31/12H01J61/067H01J61/30H01J61/92H01J63/06H01J65/04H01L51/52H05B33/12F21V33/00
    • H01J11/00H01J61/067H01J61/305H01J61/92H01J63/06H01J65/046H01L51/52
    • A lighting element (1) containing a dielectric layer (5) of a metal oxide with a front surface and a back surface, where the dielectric layer (5) contains an arrangement of elongated pores (8) extending between front and back surfaces through the dielectric layer (5) and the pores (8) are open to the front surface, and a base electrode (7) made from an electrically conductive material is arranged on the back surface, and in the pores (8) are arranged emitter rods (4) of an electrically conductive material, and a translucent layer of counter-electrode (2) of an electrically conductive material is arranged over the front surface of the dielectric layer (5), and a layer of luminescent material (3) is arranged between the dielectric layer (5) and the base electrode (7). The layer of counter-electrode (2) is a part of the layer system of the lighting element (1), where the dielectric layer (5) has the function of a spacer and separates the base electrode (7) from the counter-electrode (2).
    • 1.一种照明元件(1),其包含具有前表面和后表面的金属氧化物的电介质层(5),其中所述电介质层(5)包含通过所述电介质层(5)在前表面和后表面之间延伸的细孔 电介质层(5)和孔(8)向前表面开口,并且由背面形成由导电材料制成的基极(7),并且在孔(8)中布置有发射极棒 4)和导电材料的对电极(2)的半透明层布置在电介质层(5)的前表面上,并且发光材料层(3)布置在介电层 介电层(5)和基极(7)。 对置电极层(2)是照明元件(1)的层系统的一部分,其中介电层(5)具有间隔物的功能,并将基极(7)与对电极 (2)。
    • 4. 发明申请
    • PLASMA PANEL
    • 等离子面板
    • US20040245927A1
    • 2004-12-09
    • US10709162
    • 2004-04-19
    • Yao-Ching SuYih- Jer Lin
    • H01J017/49
    • H01J11/00H01J11/36H01J2217/4025
    • A plasma panel used as a light source of a display panel includes a first substrate having a first surface, a second substrate positioned above the first substrate, a plurality of electrode pairs extending along a first direction on the first surface, and a plurality of conductive spacers. Each of the electrode pairs includes a first electrode and a second electrode. The conductive spacers are formed on the first electrode and the second electrode for performing a discharge of opposed electrodes and supporting the second substrate.
    • 用作显示面板的光源的等离子体面板包括具有第一表面的第一基板,位于第一基板上方的第二基板,沿着第一表面沿着第一方向延伸的多个电极对,以及多个导电 间隔物 每个电极对包括第一电极和第二电极。 导电间隔物形成在第一电极和第二电极上,用于执行相对电极的放电并支撑第二衬底。
    • 5. 发明申请
    • Drive control system for a fiber-based plasma display
    • 用于光纤等离子体显示器的驱动控制系统
    • US20040233126A1
    • 2004-11-25
    • US10024931
    • 2001-12-19
    • Chad Byron Moore
    • G09G003/28
    • H01J11/00C03B37/025C03B37/026C03B37/03C03B37/14C03B37/15C03B37/16C03C17/007C03C27/06G02F1/13334H01J9/241H01J2211/36H01J2211/38
    • A full color fiber plasma display device includes two glass plates sandwiched around a top fiber array and a bottom fiber array. The top and bottom fiber arrays are substantially orthogonal and define a structure of the display, with the top fiber array disposed on a side facing towards a viewer. The top fiber array includes identical top fibers, each top fiber including two sustain electrodes located near a surface of the top fiber on a side facing away from the viewer. A thin dielectric layer separates the sustain electrodes from the plasma channel formed by a bottom fiber array. The bottom fiber array includes three alternating bottom fibers, each bottom fiber including a pair of barrier ribs that define the plasma channel, an address electrode located near a surface of the plasma channel, and a phosphor layer coating on the surface of the plasma channel, wherein a luminescent color of the phosphor coating in each of the three alternating bottom fibers represents a subpixel color of the plasma display. Each subpixel is formed by a crossing of one top fiber and one corresponding bottom fiber. The plasma display is hermetically sealed with a glass frit. The sustain and address electrodes are brought out through the glass frit for direct connection to a drive control system.
    • 全色光纤等离子体显示装置包括夹在顶部光纤阵列和底部光纤阵列之间的两个玻璃板。 顶部和底部光纤阵列基本上是正交的并且限定了显示器的结构,顶部光纤阵列设置在面向观察者的一侧。 顶部光纤阵列包括相同的顶部光纤,每个顶部光纤包括两个维持电极,位于靠近观察者的一侧的顶部光纤的表面附近。 薄介电层将维持电极与由底部光纤阵列形成的等离子体通道分离。 底部纤维阵列包括三个交替的底部纤维,每个底部纤维包括限定等离子体通道的一对阻挡肋,位于等离子体通道表面附近的寻址电极和在等离子体通道的表面上的荧光体层, 其中,所述三个交替的底部纤维中的每一个中的所述荧光体涂层的发光颜色表示所述等离子体显示器的子像素颜色。 每个子像素由一个顶部光纤和一个对应的底部光纤的交叉形成。 等离子体显示器用玻璃料气密密封。 维持电极和寻址电极通过玻璃料引出,用于直接连接到驱动控制系统。
    • 7. 发明授权
    • Flat panel displays and process
    • 平板显示和过程
    • US5457356A
    • 1995-10-10
    • US104781
    • 1993-08-11
    • Themis Parodos
    • Themis Parodos
    • G02F1/1345G02F1/1362H01J17/49
    • G02F1/13454G02F1/1345H01J11/00H01J2329/00
    • A flat panel display, such as a head mounted display, and a process for its manufacture are disclosed. Essentially, the flat panel display comprises separately manufactured flat panels including a display material and driver chips that are bump-bonded to the flat panels preferably by using flip chip technology. The flat panel display is particularly applicable to miniature display applications and is characterized by being rugged yet reliable, in color but with good luminescence across the spectrum of the primary colors of red, blue and green. Pixels preferably are addressed by passive matrix activation. Preferably, the display material of the flat panels is a thin film electroluminescent material, a passive matrix liquid crystal material, a plasma display material or a field emission display material.
    • 公开了诸如头戴式显示器的平板显示器及其制造方法。 本质上,平板显示器包括单独制造的平板显示器,其包括显示材料和驱动芯片,优选地通过使用倒装芯片技术将凸块焊接到平板上。 平板显示器特别适用于微型显示应用,其特征在于具有坚固耐用且可靠的颜色,但是在红色,蓝色和绿色原色的光谱上具有良好的发光。 像素优选地通过被动矩阵激活来寻址。 优选地,平板显示材料是薄膜电致发光材料,无源矩阵液晶材料,等离子体显示材料或场发射显示材料。