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    • 1. 发明申请
    • METHODS FOR FABRICATING STEP-FORMED PATTERNED LAYER AND FRBRICATING RIB OF PLASMA DISPLAY PANEL
    • 用于制作步进成形图案和等离子显示面板的制版方法
    • US20070096652A1
    • 2007-05-03
    • US11163715
    • 2005-10-28
    • Chao-Jen ChangWen-Yu LiuChien-Hsiu HsuLu-Yi Yang
    • Chao-Jen ChangWen-Yu LiuChien-Hsiu HsuLu-Yi Yang
    • H01J17/49G02F1/1339
    • H01J9/242H01J2211/36
    • A method for fabricating a step-formed patterned layer is provided. First, a first patterned photo-resist dry film is formed on a first material layer. Next, a second material layer is formed on the first material layer and covers the first patterned photo-resist dry film. A second patterned photo-resist dry film is then formed on a second material layer, and the patterns of the first patterned photo-resist dry film and the second patterned photo-resist dry film are different and the second patterned photo-resist dry film further exposes the second material layer over the first patterned photo-resist dry film. Subsequently, the first material layer and the second material layer are partially removed by using the first patterned photo-resist dry film and the second patterned photo-resist dry film as a mask. The first patterned photo-resist dry film and the second patterned photo-resist dry film are then removed.
    • 提供了一种制造阶梯形图案层的方法。 首先,在第一材料层上形成第一图案的光致抗蚀剂干膜。 接下来,在第一材料层上形成第二材料层并覆盖第一图案化光致抗蚀剂干膜。 然后在第二材料层上形成第二图案化光致抗蚀剂干膜,并且第一图案化光致抗蚀剂干膜和第二图案化光致抗蚀剂干膜的图案不同,并且第二图案化光致抗蚀剂干膜进一步 将第二材料层暴露在第一图案化光致抗蚀剂干膜上。 随后,通过使用第一图案化抗蚀剂干膜和第二图案化光致抗蚀剂干膜作为掩模来部分地去除第一材料层和第二材料层。 然后除去第一图案光刻胶干膜和第二图案光刻胶干膜。
    • 2. 发明申请
    • LIQUID CRYSTAL DISPLAY PANEL
    • 液晶显示面板
    • US20110043734A1
    • 2011-02-24
    • US12611081
    • 2009-11-02
    • Chao-Jen Chang
    • Chao-Jen Chang
    • G02F1/1333G02F1/1335G02F1/1339
    • G02F1/1339
    • A liquid crystal display panel is disclosed. The liquid crystal display panel includes a first substrate, a second substrate, and a liquid crystal layer disposed between the first substrate and the second substrate. The first substrate has a flat plate, an active area, and a sealant supporting element disposed on a surface of the flat plate. The active area is encircled by the sealant supporting element. In addition, the sealant supporting element includes a top surface and a sealant trench concaving the top surface. A sealant is disposed in the sealant trench, and first substrate is connected to the second substrate by the sealant. Furthermore, the sealant is formed in the sealant trench for isolating the sealant from the liquid crystal layer.
    • 公开了一种液晶显示面板。 液晶显示面板包括第一基板,第二基板和设置在第一基板和第二基板之间的液晶层。 第一基板具有设置在平板的表面上的平板,有源区和密封剂支撑元件。 有源区域由密封剂支撑元件环绕。 此外,密封剂支撑元件包括顶表面和凹陷顶表面的密封剂沟槽。 密封剂设置在密封剂沟槽中,第一基底通过密封剂连接到第二基底。 此外,密封剂形成在用于将密封剂与液晶层隔离的密封剂沟槽中。
    • 5. 发明申请
    • FLAT LIGHT SOURCE AND FABRICATING METHOD THEREOF
    • 平板光源及其制作方法
    • US20070138935A1
    • 2007-06-21
    • US11306104
    • 2005-12-16
    • Chao-Jen ChangChu-Chi TingSu-Chiu Lee
    • Chao-Jen ChangChu-Chi TingSu-Chiu Lee
    • H01J1/62H01J63/04
    • H01J9/248H01J61/305
    • A flat light source including a first substrate, a second substrate, a sealant, several sets of dielectric pattern and a phosphor layer is provided. The first substrate has electrodes thereon. The sealant is disposed between the first and second substrates to form a space between the first and second substrates and the sealant. These sets of dielectric pattern are formed in the space between the first and second substrates. Each set of dielectric pattern has at least two dielectric strips, and each dielectric strip covers one of the electrodes correspondingly. Each dielectric strip has a top surface and two side surfaces, and the top surface has an uneven contour. The phosphor layer is disposed between the two dielectric strips of each set of dielectric pattern, and the phosphor layer is further disposed on the top surface of the dielectric strips.
    • 提供了包括第一基板,第二基板,密封剂,多组电介质图案和荧光体层的平坦光源。 第一基板上具有电极。 密封剂设置在第一和第二基底之间以在第一和第二基底和密封剂之间形成空间。 这些介电图案组形成在第一和第二基板之间的空间中。 每组介电图案具有至少两个介质条,并且每个介质条相应地覆盖电极之一。 每个介质条具有顶表面和两个侧表面,并且顶表面具有不均匀的轮廓。 荧光体层设置在每组介电图案的两个介质条之间,荧光体层进一步设置在介质条的顶表面上。
    • 7. 发明授权
    • Flat light source
    • 平面光源
    • US07710011B2
    • 2010-05-04
    • US11306104
    • 2005-12-16
    • Chao-Jen ChangChu-Chi TingSu-Chiu Lee
    • Chao-Jen ChangChu-Chi TingSu-Chiu Lee
    • H01J1/62H01J63/04
    • H01J9/248H01J61/305
    • A flat light source including a first substrate, a second substrate, a sealant, several sets of dielectric pattern and a phosphor layer is provided. The first substrate has electrodes thereon. The sealant is disposed between the first and second substrates to form a space between the first and second substrates and the sealant. These sets of dielectric pattern are formed in the space between the first and second substrates. Each set of dielectric pattern has at least two dielectric strips, and each dielectric strip covers one of the electrodes correspondingly. Each dielectric strip has a top surface and two side surfaces, and the top surface has an uneven contour. The phosphor layer is disposed between the two dielectric strips of each set of dielectric pattern, and the phosphor layer is further disposed on the top surface of the dielectric strips.
    • 提供了包括第一基板,第二基板,密封剂,多组电介质图案和荧光体层的平坦光源。 第一基板上具有电极。 密封剂设置在第一和第二基底之间以在第一和第二基底和密封剂之间形成空间。 这些介电图案组形成在第一和第二基板之间的空间中。 每组介电图案具有至少两个介质条,并且每个介质条相应地覆盖电极之一。 每个介质条具有顶表面和两个侧表面,并且顶表面具有不均匀的轮廓。 荧光体层设置在每组介电图案的两个介质条之间,荧光体层进一步设置在介质条的顶表面上。
    • 9. 发明申请
    • LIQUID CRYSTAL DISPLAY DEVICE
    • 液晶显示装置
    • US20100225851A1
    • 2010-09-09
    • US12544229
    • 2009-08-20
    • Chao-Jen Chang
    • Chao-Jen Chang
    • G02F1/13357
    • G02F1/133617G02F1/133555
    • A transflective mode liquid crystal display (LCD) combines advantages of a transmissive mode display and a reflective mode display, and has high display quality under different indoor and outdoor ambient lights. But the transflective mode LCD brings problems of non-uniform brightness, poor contrast ratio, and non-uniform color between a transmissive area and a reflective area if light rays passing through the transmissive area and the reflective area in the transflective mode LCD are improperly controlled. Thus, an overall transmissive and reflective mode LCD is provided, which not only has all the advantages of the transmissive mode display and the reflective mode display, but also improves a brightness of a panel, and solves the problems of non-uniform brightness, poor contrast ratio, and non-uniform color.
    • 半透半反模式液晶显示器(LCD)结合了透射模式显示和反射模式显示的优点,并且在不同的室内和室外环境光下具有高显示质量。 但是如果穿透透反射区域的透射区域和透反射模式LCD中的反射区域被不正确地控制,则透反射模式LCD会带来不均匀的亮度,差的对比度以及透射区域和反射区域之间的不均匀的问题 。 因此,提供了一种全透光和反射模式LCD,其不仅具有透射模式显示和反射模式显示的所有优点,而且还提高了面板的亮度,并且解决了亮度不均匀,差的问题 对比度和不均匀的颜色。
    • 10. 发明申请
    • Back plate structure of plasma display panel
    • 等离子显示面板的背板结构
    • US20080169761A1
    • 2008-07-17
    • US11979895
    • 2007-11-09
    • Chao-Jen Chang
    • Chao-Jen Chang
    • H01J17/49
    • H01J11/36H01J11/12H01J2211/363H01J2211/365
    • A back plate structure of the plasma display panel is provided. The horizontal barrier ribs and the vertical barrier ribs are crossed over to form the I at t i c e - Ii k e discharge cells. The horizontal barrier ribs or the vertical barr i e r r i b s have t h e projections p rot rude d to t h e discharge cells, which can make the air exhaust from the sides of the projections during the printing of the phosphor paste. The nonuniform-thickness phenomenon caused by the bubbles in the phosphor material printed on the bottom-surface of the discharge cell is improved, and so flicker-noises on the display panel are eliminated. Furthermore, the discharge space is increased owing to the increased packing-density of the phosphor material. Therefore, the illumination efficiency of the PDP is promoted. Besides, the horizontal barrier rib and the vertical barrier rib may also be designed to have a height difference to improve the exhausting efficiency during the printing process of the phosphor paste.
    • 提供了等离子体显示面板的背板结构。 水平障壁和垂直障肋横穿,以形成放电单元中的I。 水平隔壁或垂直挡板具有突出的凹凸,以使得在印刷荧光体浆料期间使排气从突起的侧面排出。 印刷在放电单元的底面上的荧光体材料中的气泡引起的不均匀厚度现象得到改善,消除了显示面板上的闪烁噪声。 此外,由于荧光体材料的填充密度增加,放电空间增加。 因此,提高了PDP的照明效率。 此外,水平障壁和垂直隔壁也可以被设计成具有高度差,以提高在磷光体膏的印刷过程中的排气效率。