公开(公告)号：WO2002086935A3

公开(公告)日：2002-10-31

申请号：PCT/US2002/003289

申请日：2002-02-07

Applicant: PLASMION DISPLAYS, LLC ,  KIM, Steven

Inventor： KIM, Steven

IPC: H01J17/49

Abstract: The present invention discloses a plasma display panel device and a method of fabricating the same including first and second substrates (30,39), a first electrode (31) on the first substrate (30), a third electrode (38) on the second substrate (39), a tape material (33) on the first substrate (30) including the second electrode (31), a plurality of second electrodes (32) completely buried in the tape material (33), a plurality of barrier ribs (37) connecting the first and second substrates (30,39) formed on the second substrate (39), a UV-visible conversion layer (35) on the second substrate (39) including the second substrate between the barrier ribs, and a discharge chamber (36) where discharge occurs between the first and second substrates (30,39), wherein the discharge chamber (36) faces toward the second electrode (31) through a single row of one or more capillaries (34) formed in the tape material (33).

公开(公告)号：WO2002071433A3

公开(公告)日：2002-09-12

申请号：PCT/US2001/043070

申请日：2001-11-13

Applicant: PLASMION DISPLAYS, LLC ,  KIM, Steven ,  YEOM, Geun, Young ,  LEE, Young-Joon

Inventor： KIM, Steven ,  YEOM, Geun, Young ,  LEE, Young-Joon

IPC: H01J9/02

Abstract: A method for fabricating a PDP is disclosed. The method for fabricating a PDP comprising the steps of preparing first (11) and second panels (12) for connecting with each other, forming at least one electrode (13) on the first panel (11), forming a dielectric layer (17) of PbO on the first panel (11), sequentially forming Cr and Ni on the PbO layer (17) as a mask material of the PbO layer (17), performing photolithography and lift-off processes on the Ni/Cr layers to form a mask pattern of Ni/Cr, and etching the PbO layer (17) using the mask pattern of Ni/Cr to form at least one capillary tube (18) within the PbO layer (17) to expose the electrode (13).

公开(公告)号：WO2002071433A2

公开(公告)日：2002-09-12

申请号：PCT/US2001/043070

申请日：2001-11-13

Applicant: PLASMION DISPLAYS, LLC ,  KIM, Steven ,  YEOM, Geun, Young ,  LEE, Young-Joon

Inventor： KIM, Steven ,  YEOM, Geun, Young ,  LEE, Young-Joon

IPC: H01J9/02

CPC classification number: H01J11/12 ,  H01J9/02 ,  H01J11/38

Abstract: A method for fabricating a PDP is disclosed. The method for fabricating a PDP comprising the steps of preparing first and second panels for connecting with each other, forming at least one electrode on the first panel, forming a dielectric layer of PbO on the first panel, sequentially forming Cr and Ni on the PbO layer as a mask material of the PbO layer, performing photolithography and lift-off processes on the Ni/Cr layers to form a mask pattern of Ni/Cr, and etching the PbO layer using the mask pattern of Ni/Cr to form at least one capillary tube within the PbO layer to expose the electrode.

Abstract translation: 公开了一种用于制造PDP的方法。 一种用于制造PDP的方法，包括以下步骤：制备第一和第二面板，用于彼此连接，在第一面板上形成至少一个电极，在第一面板上形成PbO的介电层，在PbO上依次形成Cr和Ni 层作为PbO层的掩模材料，在Ni / Cr层上进行光刻和剥离处理以形成Ni / Cr的掩模图案，并且使用Ni / Cr的掩模图案蚀刻PbO层以至少形成 PbO层内的一根毛细管露出电极。

公开(公告)号：WO2003027996A1

公开(公告)日：2003-04-03

申请号：PCT/US2002/010446

申请日：2002-04-04

Applicant: PLASMION DISPLAYS, LLC ,  SHIN, Bhum, Jae ,  YU, Dong, Woo ,  KIM, Steven ,  MARTIN, Michael, D. ,  KOKONASKI, William

Inventor： SHIN, Bhum, Jae ,  YU, Dong, Woo ,  KIM, Steven ,  MARTIN, Michael, D. ,  KOKONASKI, William

IPC: G09G3/28

CPC classification number: G09G3/2927 ,  G09G3/2932 ,  G09G3/294 ,  H01J2217/49

Abstract: In a method of driving a capillary discharge plasma display panel which comprises front and rear substrates (1, 2) forming a space discharge therein, an addressing electrode (3) on the front substrate (1), a common electrode (11-1,...11-n) and a plurality of scanning electrodes (12-1,...12-n) on the rear substrate (2), and a dielectric layer (7) covering the common electrode (11-1,...11-n) and the scanning electrodes (12-1,...12-n) and having a capillary (8-1, 8-2) corresponding to the common electrode (11-1,...11-n) and each scanning electrode (12-1,...12-n) in the second dielectric layer (7), the method includes the steps of applying an addressing pulse to the addressing electrode (3) and a first pulse to the common electrode (11-1,...11-n), and a second pulse sequentially from a 1st scanning electrode (12-1,...12-n) to an Nth scanning electrode (12-n) during an addressing period for selecting pixels to be turned on, and applying a first sustaining pulse to the common electrode (11-1,...11-n) and a second sustaining pulse from the 1st scanning electrode (12-1) to the Nth scanning electrode (12-n) during a sustaining period, wherein the first and second sustaining pulses are applied for only discharge time duration.

Abstract translation: 在驱动毛细管放电等离子体显示面板的方法中，其包括在其中形成空间放电的前基板和后基板（1,2），前基板（1）上的寻址电极（3），公共电极（11-1， ... 11-n）和后基板（2）上的多个扫描电极（12-1，... 12-n），以及覆盖公共电极（11-1，... 12-n）的电介质层（7）。 11-n）和扫描电极（12-1，... 12-n），并具有对应于公共电极（11-1，... 11-n）的毛细管（8-1,8-2） n）和第二介质层（7）中的每个扫描电极（12-1，... 12-n），所述方法包括以下步骤：将寻址脉冲施加到寻址电极（3），并将第一脉冲施加到 公共电极（11-1，... 11-n）和第二脉冲，在寻址期间从第一扫描电极（12-1，... 12-n）到第N扫描电极（12-n） 用于选择要打开的像素的周期，以及将第一维持脉冲施加到公共电极（11-1） ，... 11-n）和在维持期间从第一扫描电极（12-1）到第N扫描电极（12-n）的第二维持脉冲，其中第一和第二维持脉冲仅施加于仅放电 持续时间

公开(公告)号：WO2003023809A3

公开(公告)日：2003-03-20

申请号：PCT/US2002/001956

申请日：2002-01-24

Applicant: PLASMION DISPLAYS LLC

Inventor： SHIN, Bhum-Jae ,  MARTIN, Michael, D. ,  KIM, Steven

IPC: H01J17/49

Abstract: A capillary discharge plasma display panel having a capillary of double size openings and method of fabricating the same is disclosed in the present invention. More specifically, a plasma display panel includes first and second substrates, a first electrode on the first substrate, a first dielectric layer on the first electrode, at least one second electrode on the second substrate, a second dielectric layer on the second electrode, wherein the second dielectric layer has at least one capillary therein, and the capillary comprises first and second openings and the first opening is greater than the second opening in a horizontal width, and at least one discharge space between the first and second dielectric layers and directly adjacent to the first opening of the capillary, thereby exposing a portion of the second electrode to the discharge space through the first and second openings to generate a continuous plasma discharge from the capillary.