公开(公告)号：US06441563B1

公开(公告)日：2002-08-27

申请号：US09859398

申请日：2001-05-18

Applicant: Shiuh-Bin Kao ,  Yi-Sheng Yu ,  Kuang-Lang Chen ,  Ching-Hui Lin

Inventor： Shiuh-Bin Kao ,  Yi-Sheng Yu ,  Kuang-Lang Chen ,  Ching-Hui Lin

IPC: G09G310

CPC classification number: G09G3/2003 ,  G09G3/298 ,  G09G2320/0242 ,  G09G2320/041 ,  G09G2320/0666

Abstract: A dynamic color temperature and color deviation calibration method is provided for eliminating problems associated with color temperature change and color deviation caused by an emissivity change of red, green and blue phosphor layers of a plasma display panel (PDP). The method comprises the steps of utilizing laws of color matching for calculating an emissivity change of a pixel of the PDP in response to a brightness change of one of red, green, and blue lights emitted by a corresponding one of red, green and blue discharge cells of the PDP through a numeric operation; dynamically adjusting brightness of one of the emitted red, green, and blue lights by increasing or decreasing strength of input video signal of each of the discharge cells; and eliminating a color temperature and a color deviation of the PDP due to an emissivity change. This can render an image having an optimum color purity and color temperature by eliminating adverse effects on PDP due to emissivity change.

Abstract translation: 提供了一种动态色温校正方法，用于消除由等离子体显示面板（PDP）的红色，绿色和蓝色荧光体层的发射率变化引起的色温变化和颜色偏差相关的问题。 该方法包括以下步骤：利用颜色匹配定律来响应由红色，绿色和蓝色放电中对应的红色，绿色和蓝色放电发出的红色，绿色和蓝色光中的一种的亮度变化来计算PDP的像素的发射率变化 通过数字操作的PDP单元; 通过增加或减少每个放电单元的输入视频信号的强度来动态地调节发射的红色，绿色和蓝色光之一的亮度; 并且消除由于发射率变化引起的PDP的色温和颜色偏差。 这可以通过消除由于发射率变化对PDP的不利影响而使具有最佳色纯度和色温的图像。

公开(公告)号：US07597604B2

公开(公告)日：2009-10-06

申请号：US11783139

申请日：2007-04-06

Applicant: Hsu-Pin Kao ,  Chung-Wang Chou ,  Ching-Hui Lin ,  Sheng-Wen Hsu

Inventor： Hsu-Pin Kao ,  Chung-Wang Chou ,  Ching-Hui Lin ,  Sheng-Wen Hsu

IPC: H01J9/00

CPC classification number: H01J9/242 ,  H01J11/12 ,  H01J11/36 ,  H01J2211/365

Abstract: The present invention provides a PDP structure including a first substrate, a second substrate and a Waffle barrier rib structure located between the first and second substrate. The Waffle barrier rib structure includes three first barrier ribs having different width and a plurality of second barrier ribs perpendicular to the first barrier ribs. The second barrier ribs are located between the two first barrier ribs, and connect the wider structure of the two first barrier ribs. Therefore, discharge spaces are formed. Because of different width, the height difference of the barrier rib structure is formed after thermal process. Hence, gas can pass through the barrier ribs structure between the front and the back substrate sealed together.

Abstract translation: 本发明提供一种PDP结构，其包括位于第一和第二基板之间的第一基板，第二基板和华夫饼状障碍肋结构。 楔形障壁结构包括具有不同宽度的三个第一阻挡肋和垂直于第一阻挡肋的多个第二阻挡肋。 第二阻挡肋位于两个第一隔壁之间，并且连接两个第一隔壁的较宽结构。 因此，形成放电空间。 由于宽度不同，隔热层结构的高差形成热处理后。 因此，气体可以通过密封在一起的正面和背面基板之间的隔板结构。

公开(公告)号：US07238463B2

公开(公告)日：2007-07-03

申请号：US10907832

申请日：2005-04-18

Applicant: Ching-Hui Lin

Inventor： Ching-Hui Lin

IPC: H01J9/227

CPC classification number: G03F7/0007 ,  G03F7/095 ,  G03F7/40 ,  H01J9/02 ,  H01J11/12 ,  H01J11/22 ,  H01J2211/245 ,  H01J2211/265

Abstract: A method for manufacturing electrodes of a plasma display panel includes providing a front transparent substrate including transparent electrodes on the front transparent substrate, coating a black photosensitive paste film and a main photosensitive conductive paste film of negative-working type on the transparent electrodes, exposing the black photosensitive paste film and main photosensitive conductive paste film to define bus electrodes on the transparent electrodes, wherein exposure energy acting on main regions of the bus electrodes is greater than exposure energy acting on edge regions of the bus electrodes, developing the black photosensitive paste film and main photosensitive conductive paste film to form the bus electrodes, in which a thickness of the edge regions of the bus electrodes is less than a thickness of the main regions of the bus electrodes, and firing the black photosensitive paste film and main photosensitive conductive paste film.

Abstract translation: 一种用于制造等离子体显示面板的电极的方法，包括在透明基板上设置包括透明电极的前透明基板，在透明电极上涂布负色工作型黑色感光胶片和主感光导电糊胶膜， 黑色感光胶片和主感光导电膏膜，以在透明电极上限定总线电极，其中作用在总线电极的主要区域上的曝光能量大于作用在总线电极的边缘区域上的曝光能量，显影黑色感光胶片 和主感光导电膏膜，以形成总线电极，其中总线电极的边缘区域的厚度小于总线电极的主要区域的厚度，并且烧制黑色感光膏膜和主感光导电膏 电影。

公开(公告)号：US20050017636A1

公开(公告)日：2005-01-27

申请号：US10866083

申请日：2004-06-14

Applicant: Chun-Hsu Lin ,  Hsu-Pin Kao ,  Ching-Hui Lin

Inventor： Chun-Hsu Lin ,  Hsu-Pin Kao ,  Ching-Hui Lin

IPC: H01J17/49

CPC classification number: H01J11/12 ,  H01J11/24 ,  H01J11/32 ,  H01J2211/245 ,  H01J2211/323

Abstract: A front panel structure of Plasma Display Panel (PDP) is disclosed sequentially comprising a first electrode, a second electrode and a third electrode, wherein the second electrode has transparent electrodes located on both top and bottom sides of a bus electrode. A first discharge center is formed between a transparent electrode of the first electrode and one transparent electrode of the second electrode. A second discharge center is formed between the other transparent electrode of the second electrode and a transparent electrode of the third electrode. Therefore, an emitting cell of PDP has two discharge centers. To make the discharge more stable, we choose the first electrode and the third electrode to become the scan electrodes, or to form a thicker dielectric layer or discharge deactivation film below the second bus electrode as a scan electrode.

Abstract translation: 公开了等离子体显示面板（PDP）的前面板结构，其包括第一电极，第二电极和第三电极，其中第二电极具有位于总线电极的顶部和底部两侧的透明电极。 在第一电极的透明电极和第二电极的一个透明电极之间形成第一放电中心。 在第二电极的另一透明电极和第三电极的透明电极之间形成第二放电中心。 因此，PDP的发光单元具有两个放电中心。 为了使放电更稳定，我们选择第一电极和第三电极成为扫描电极，或者在作为扫描电极的第二总线电极之下形成较厚的介电层或放电去活化膜。

公开(公告)号：US06720732B2

公开(公告)日：2004-04-13

申请号：US10106494

申请日：2002-03-27

Applicant: Hsu-Pin Kao ,  Yi-Sheng Yu ,  Ching-Hui Lin ,  Kuang-Lang Chen ,  Sheng-Chi Lee

Inventor： Hsu-Pin Kao ,  Yi-Sheng Yu ,  Ching-Hui Lin ,  Kuang-Lang Chen ,  Sheng-Chi Lee

IPC: H01J1749

CPC classification number: H01J11/12 ,  H01J11/36 ,  H01J2211/365

Abstract: A barrier rib structure for a plasma display panel is described. The barrier rib structure formed on a back substrate has a plurality of parallel barrier ribs. Each barrier rib has a plurality of nodes composed of two side-expanded trapezoid bulges. The barrier ribs are arranged according to the nodes to form a plurality of discharge spaces between the barrier ribs and a plurality of gas channels between the nodes to connect the discharge space.

Abstract translation: 描述了用于等离子体显示面板的隔壁结构。 形成在背面基板上的障壁结构具有多个平行的障壁。 每个障壁具有由两个侧向膨胀梯形凸起组成的多个节点。 阻挡肋根据节点布置，以形成阻挡肋之间的多个放电空间和节点之间的多个气体通道，以连接放电空间。

公开(公告)号：US07403174B2

公开(公告)日：2008-07-22

申请号：US10248711

申请日：2003-02-12

Applicant: Chun-Hsu Lin ,  Hui-Chen Lin ,  Ching-Hui Lin ,  Kuang-Lang Chen

Inventor： Chun-Hsu Lin ,  Hui-Chen Lin ,  Ching-Hui Lin ,  Kuang-Lang Chen

IPC: G09G3/28

CPC classification number: G09G3/2051 ,  G09G3/2029 ,  G09G3/2077 ,  G09G3/288 ,  G09G2320/0271

Abstract: A method and an apparatus for improving the gray-scale linearity of a plasma display. At least two types of gray-scale allocations are mixed for forming the original gray scale, or different gray scales are mixed to derive the original gray scale, so as to obtain the required brightness. Therefore, by using multiple combinations to adjust the original gray scale, the required brightness is obtained, and the gray scale linearity for all the gray scales is improved.

Abstract translation: 一种用于改善等离子体显示器的灰度线性的方法和装置。 混合至少两种类型的灰度分配以形成原始灰度级，或者混合不同的灰度级以导出原始灰度级，以获得所需的亮度。 因此，通过使用多个组合来调整原始灰度级，可以获得所需的亮度，并提高所有灰度级的灰度级线性。

公开(公告)号：US20070184746A1

公开(公告)日：2007-08-09

申请号：US11783139

申请日：2007-04-06

Applicant: Hsu-Pin Kao ,  Chung-Wang Chou ,  Ching-Hui Lin ,  Sheng-Wen Hsu

Inventor： Hsu-Pin Kao ,  Chung-Wang Chou ,  Ching-Hui Lin ,  Sheng-Wen Hsu

IPC: H01J9/24 ,  H01J9/00

CPC classification number: H01J9/242 ,  H01J11/12 ,  H01J11/36 ,  H01J2211/365

Abstract: The present invention provides a PDP structure including a first substrate, a second substrate and a Waffle barrier rib structure located between the first and second substrate. The Waffle barrier rib structure includes three first barrier ribs having different width and a plurality of second barrier ribs perpendicular to the first barrier ribs. The second barrier ribs are located between the two first barrier ribs, and connect the wider structure of the two first barrier ribs. Therefore, discharge spaces are formed. Because of different width, the height difference of the barrier rib structure is formed after thermal process. Hence, gas can pass through the barrier ribs structure between the front and the back substrate sealed together.

Abstract translation: 本发明提供一种PDP结构，其包括位于第一和第二基板之间的第一基板，第二基板和华夫饼状障壁结构。 楔形障壁结构包括具有不同宽度的三个第一阻挡肋和垂直于第一阻挡肋的多个第二阻挡肋。 第二阻挡肋位于两个第一隔壁之间，并且连接两个第一隔壁的较宽结构。 因此，形成放电空间。 由于宽度不同，隔热层结构的高差形成热处理后。 因此，气体可以通过密封在一起的正面和背面基板之间的隔板结构。

公开(公告)号：US20070138958A1

公开(公告)日：2007-06-21

申请号：US11306258

申请日：2005-12-21

Applicant: Ching-Hui Lin

Inventor： Ching-Hui Lin

IPC: H01J17/49

CPC classification number: H01J11/24 ,  H01J11/12 ,  H01J2211/245 ,  H01J2211/365

Abstract: A honeycomb type plasma display panel has a honeycombed barrier rib structure which defines a plurality of cells, and a plurality of scan electrodes and a plurality of maintain electrodes arranged alternately in a first direction. Each scan electrode has a first bus electrode and a plurality of first protrusions, and each maintain electrode has a second bus electrode and a plurality of second protrusions. The first bus electrodes, the first protrusions, the second bus electrodes, and the second protrusions are metal electrodes.

Abstract translation: 蜂窝型等离子体显示面板具有限定多个单元的蜂窝状障壁结构，以及沿第一方向交替布置的多个扫描电极和多个维持电极。 每个扫描电极具有第一总线电极和多个第一突起，并且每个扫描电极保持电极具有第二总线电极和多个第二突起。 第一总线电极，第一突起，第二总线电极和第二突起是金属电极。

公开(公告)号：US06794819B2

公开(公告)日：2004-09-21

申请号：US10315541

申请日：2002-12-10

Applicant: Hsu-Pin Kao ,  Yen-Ting Shen ,  Yi-Sheng Yu ,  Ching-Hui Lin ,  Kuang-Lang Chen

Inventor： Hsu-Pin Kao ,  Yen-Ting Shen ,  Yi-Sheng Yu ,  Ching-Hui Lin ,  Kuang-Lang Chen

IPC: H01J1749

CPC classification number: H01J11/12 ,  H01J11/24 ,  H01J2211/245

Abstract: An electrode structure with white balance adjustment for plasma display panel is described. The electrode structure has a comb electrode, a first transparent electrode and a second transparent electrode. The first transparent electrode and the second transparent electrode are separated from the comb electrode, respectively. Changing the profile of the first transparent electrode and the second transparent electrode increases the flexibility of the transparent electrodes. Further, the width of the first electrodes responsive to the luminous regions is adjusted to control the luminance through the first transparent electrode so that white balance of the plasma display panel is precisely corrected.

Abstract translation: 描述了具有用于等离子体显示面板的白平衡调整的电极结构。 电极结构具有梳状电极，第一透明电极和第二透明电极。 第一透明电极和第二透明电极分别与梳状电极分离。 改变第一透明电极和第二透明电极的轮廓增加了透明电极的柔性。 此外，调整响应于发光区域的第一电极的宽度以通过第一透明电极控制亮度，从而精确地校正等离子体显示面板的白平衡。

公开(公告)号：US06630918B2

公开(公告)日：2003-10-07

申请号：US09859401

申请日：2001-05-18

Applicant: Shiuh-Bin Kao ,  Yao-Hung Lai ,  Kuang-Lang Chen ,  Ching-Hui Lin

Inventor： Shiuh-Bin Kao ,  Yao-Hung Lai ,  Kuang-Lang Chen ,  Ching-Hui Lin

IPC: G09G328

CPC classification number: G09G3/2003 ,  G09G3/298 ,  G09G2300/0426 ,  G09G2320/0242 ,  G09G2320/0626 ,  G09G2320/0666 ,  H04N9/73

Abstract: A compensation process for improving color saturation and image quality of a plasma display panel (PDP) is provided, wherein a brightness of light generated from each of red, green, and blue discharge cells of each pixel on said PDP is calculated through a numeric operation according to laws of color matching. The process comprises the step of increasing or decreasing the strength of input image signals of each of the red, green, and blue discharge cells in accordance with the calculation result for adjusting brightness of the generated red, green, and blue lights so as to subtract a visible light generated by gas in each of the red, green, and blue discharge cells during gas discharging, thereby eliminating an adverse effect of the visible light on color purity and color temperature of the PDP during gas discharging. This can obtain an image on PDP having an optimum color purity and color temperature and reduce the manufacturing cost.