公开(公告)号：US06611100B1

公开(公告)日：2003-08-26

申请号：US09621193

申请日：2000-07-21

Applicant: Chad Byron Moore

Inventor： Chad Byron Moore

IPC: H01J1749

CPC classification number: H01J9/241 ,  C03B37/025 ,  C03B37/026 ,  C03B37/03 ,  C03B37/14 ,  C03B37/16 ,  C03C27/06 ,  G02F1/13334 ,  G09G3/344 ,  G09G3/3662 ,  G09G2300/0456 ,  G09G2310/0224 ,  G09G2310/06 ,  G09G2310/063 ,  G09G2310/066 ,  H01J11/00 ,  H01J17/485

Abstract: An electronic display is formed using an array of hollow tubes filled with an electrophoretic material sandwiched between two plates. The hollow tubes have either barrier walls or an electrostatic barrier, which restrict the flow of electrophoretic particles within the hollow tubes. The flow of electrophoretic particles over these barriers is controlled using electric fields, which makes it possible to matrix address the electrophoretic displays. Wire electrodes built into the hollow tubes and electrodes on the two plates are used to address the display. The plates are preferably composed of glass, glass-ceramic, polymer/plastic or metal, while the hollow tubes are preferably composed of glass, polymer/plastic or a combination of glass and polymer/plastic. Color is optionally imparted into the display using colored tubes, adding a color coating to the surface of the tubes, or adding the color to the electrophoretic material. Reflectivity within the display is accomplished by using a reflective material to fabricate the tubes, coating the tubes with a reflective material or coating one of the two plates with a reflective material. The display can also function in a transmissive mode by applying an illuminating back to the display.

Abstract translation: 使用填充有夹在两个板之间的电泳材料的中空管的阵列形成电子显示器。 中空管具有阻挡壁或静电屏障，这限制了中空管内电泳颗粒的流动。 使用电场控制这些屏障上的电泳颗粒的流动，这使得可以将电泳显示器的矩阵寻址。 内置在中空管中的电线电极和两个电极上的电极用于对显示器进行寻址。 这些板优选由玻璃，玻璃 - 陶瓷，聚合物/塑料或金属组成，而中空管优选由玻璃，聚合物/塑料或玻璃和聚合物/塑料的组合构成。 可选地，使用彩色管将颜色赋予显示器，向管表面添加彩色涂层，或将颜色添加到电泳材料中。 通过使用反射材料制造管，用反射材料涂覆管或用反射材料涂覆两个板中的一个来实现显示器内的反射率。 显示器还可以通过将照明应用到显示器而以透射模式起作用。

公开(公告)号：US06600265B1

公开(公告)日：2003-07-29

申请号：US09289583

申请日：1999-04-12

Applicant: Kazumi Ebihara ,  Yoshinori Osaka ,  Kenji Horio

Inventor： Kazumi Ebihara ,  Yoshinori Osaka ,  Kenji Horio

IPC: H01J1749

CPC classification number: H01J9/261

Abstract: The present invention provides an AC memory type plasma display panel comprising a pair of substrates and stacked together via a sealing member so as to have a discharge space therebetween, and discharge electrodes and a dielectric layer covering the discharge electrodes formed on at least one of the substrates. The dielectric layer is formed on the surface of the substrate including a display region and a portion outside the display region in which the sealing member is located. The thickness of the portion for bonding of the sealing member outside the display region is smaller than the thickness of the portion corresponding to the display region.

Abstract translation: 本发明提供一种AC存储器型等离子体显示面板，其包括一对基板，并且经由密封部件堆叠在一起，以在其间具有放电空间，并且放电电极和覆盖形成在至少一个的放电电极的电介质层 底物。 电介质层形成在基板的表面上，该基板的表面包括显示区域和密封部件所在的显示区域外的部分。 密封构件在显示区域外部的接合部分的厚度小于对应于显示区域的部分的厚度。

公开(公告)号：US06586880B2

公开(公告)日：2003-07-01

申请号：US09825962

申请日：2001-04-05

Applicant: Kimio Amemiya ,  Tatsuro Sakai ,  Hiroyuki Ajiki

Inventor： Kimio Amemiya ,  Tatsuro Sakai ,  Hiroyuki Ajiki

IPC: H01J1749

CPC classification number: H01J11/36 ,  H01J11/12

Abstract: Each of partition walls of a plasma display panel has a pair of transverse walls which are disposed in parallel with each other having a space equal to a width of a discharge cell in the column direction, and vertical walls which are disposed between the pair of vertical walls in parallel with each other having a space equal to a width of the discharge cell in the row direction and which are integrally coupled to the pair of transverse walls. Each partition wall defines discharge cells in each line of the plasma display panel, and is formed such that a width of a portion of the transverse wall situated between the adjacent vertical walls is larger than a width of a portion of the transverse wall coupled to the vertical wall.

Abstract translation: 等离子体显示面板的每个分隔壁具有彼此平行设置的一对横壁，其具有与列方向上的放电单元的宽度相等的空间，以及设置在一对垂直方向之间的垂直壁 彼此平行的壁具有与行方向上的放电单元的宽度相等的空间，并且一体地联接到该对横向壁。 每个分隔壁在等离子体显示面板的每一行中限定放电单元，并且形成为使得位于相邻垂直壁之间的横向壁的一部分的宽度大于连接到该等离子体显示面板的横向壁的一部分的宽度 垂直墙。

公开(公告)号：US06577056B1

公开(公告)日：2003-06-10

申请号：US09537777

申请日：2000-03-29

Applicant: Myeong Soo Chang

Inventor： Myeong Soo Chang

IPC: H01J1749

CPC classification number: H01J11/12 ,  H01J11/34 ,  H01J11/44 ,  H01J2211/442

Abstract: A plasma display apparatus having a structure capable of improving a light efficiency is disclosed. The reflecting mirror plane or a metal reflecting film is formed on a back surface of a back plate of the plasma display apparatus, so that the back face light is reflected more than 95%, and thus, the light loss due to the back face light can be minimized, so that the light efficiency of the plasma display apparatus can be heightened. Especially, by forming the reflecting film having almost the same diameter as that of the discharge cell and a predetermined curvature at the positions corresponding to the discharge cells on the rear plate of the plasma display apparatus, the light interference between the discharge cells due to the reflected light can be prevented. Also, since the reflecting film serves as a high frequency blocking film, the loss of high frequency of the high frequency plasma display apparatus can be prevented.

Abstract translation: 公开了具有能够提高光效率的结构的等离子体显示装置。 反射镜面或金属反射膜形成在等离子体显示装置的背板的后表面上，使得背面光反射率大于95％，因此由背面光引起的光损失 可以最小化，从而可以提高等离子体显示装置的光效率。 特别地，通过在与等离子体显示装置的后板上的放电单元对应的位置处形成具有与放电单元几乎相同的直径的反射膜和预定的曲率，由于 可以防止反射光。 此外，由于反射膜用作高频阻挡膜，因此可以防止高频等离子体显示装置的高频损失。

公开(公告)号：US06552486B1

公开(公告)日：2003-04-22

申请号：US09443850

申请日：1999-11-19

Applicant: Koichi Wani ,  Kazunori Hirao ,  Koji Aoto ,  Yoshihito Tahara

Inventor： Koichi Wani ,  Kazunori Hirao ,  Koji Aoto ,  Yoshihito Tahara

IPC: H01J1749

CPC classification number: H01J11/12 ,  H01J11/34 ,  H01J11/44 ,  H01J2211/444

Abstract: A front substrate and a back substrate are placed opposing each other separated by a discharge space. The front substrate is made of a semitransparent material such as a dark color glass with a mean transmittance for visible light of 60 to 80%. On the front substrate, a group of electrodes including pairs of scanning electrodes and sustaining electrodes covered with a dielectric layer and a protective coating are provided. Data electrodes and spacers are formed on the back substrate, and phosphors are provided on the data electrodes towards the side of the spacers. A front filter, which is made of a semitransparent glass sheet with a mean transmittance for visible light of 60 to 80%, is disposed on the front side of the front substrate. The present invention realizes a display with less halation and high contrast. Also, a detection rate of a defect in electrodes, which are formed on the front substrate, improves.

Abstract translation: 前衬底和后衬底彼此相对放置，由放电空间分开。 前基板由半透明材料制成，例如深色玻璃，对于可见光的平均透射率为60-80％。 在前基板上设置包括电介质层和保护涂层的扫描电极和维持电极对的一组电极。 在背面基板上形成数据电极和间隔物，在数据电极上设置磷光体朝向间隔物一侧。 在前面基板的正面设置有由半透明玻璃板制成的前置滤光片，其平均透射率为60〜80％的可见光。 本发明实现了具有较少晕影和高对比度的显示。 此外，形成在前基板上的电极的缺陷的检测率提高。

公开(公告)号：US06545412B1

公开(公告)日：2003-04-08

申请号：US09698024

申请日：2000-10-30

Applicant: Tae-woong Jang

Inventor： Tae-woong Jang

IPC: H01J1749

CPC classification number: H01J11/12 ,  H01J11/44 ,  H01J2211/444 ,  H01J2211/446

Abstract: A plasma display device includes front and rear substrates, strips of a conductive material on the front substrate, and an insulating layer covering the conductive strips, first and second electrodes parallel to each other and disposed on the insulating layer and a dielectric layer covering the first and second electrodes, third electrodes perpendicular to the first and second electrodes on the rear substrate, and a dielectric layer covering an interior surface of the rear substrate and the third electrodes, barrier walls defining discharge spaces on the dielectric layer of the rear substrate, and phosphor coatings between the barrier walls. The plasma display device further includes conductive strips at positions directly opposite the barrier walls on the inner surface of the front substrate, and an insulating layer over the inner surface of the front substrate covering the conductive strips. The first and second electrodes are on the inner surface of the insulating layer, and the conductive strips are grounded.

Abstract translation: 等离子体显示装置包括前基板和后基板，前基板上的导电材料条和覆盖导电条的绝缘层，彼此平行并设置在绝缘层上的第一和第二电极以及覆盖第一 和第二电极，与后基板上的第一和第二电极垂直的第三电极和覆盖后基板和第三电极的内表面的电介质层，限定后基板的电介质层上的放电空间的阻挡壁，以及 阻隔壁之间的磷光体涂层。 等离子体显示装置还包括位于前基板的内表面上与阻挡壁正对的位置处的导电条，以及覆盖导电条的前基板的内表面上的绝缘层。 第一和第二电极位于绝缘层的内表面上，并且导电条接地。

公开(公告)号：US06538381B1

公开(公告)日：2003-03-25

申请号：US09536142

申请日：2000-03-28

Applicant: Mitsuo Ueoka ,  Hiroshi Shiba

Inventor： Mitsuo Ueoka ,  Hiroshi Shiba

IPC: H01J1749

CPC classification number: H01J11/24 ,  H01J11/12

Abstract: A plasma display panel is provided which is capable of suppressing the degradation of the fluorescent material layer by discharge and which ensures a long service life. The plasma display panel is obtained by assembling and airtight sealing of a first substrate provided with a plurality of surface discharge electrode pairs arranged so as to form a matrix with a second substrate provided with separating walls and fluorescent material layers disposed so as to conform with said plurality of surface discharge electrode pairs, wherein electrodes of one side of each electrode pair in said plurality of surface discharge electrode pairs are connected to each line bus wire among a plurality of line bus wires formed extending along the line direction on said first transparent insulating substrate, and the electrodes of the other side of each electrode pair in said plurality of surface discharge electrode pairs are connected to each row bus wire among a plurality of row bus wires disposed along the row direction on said first transparent insulating substrate formed extending along the row direction on said first transparent insulating substrate.

Abstract translation: 提供了能够通过放电来抑制荧光体层的劣化并且确保长的使用寿命的等离子体显示面板。 等离子体显示面板通过组装和气密密封而获得，该第一基板设置有多个表面放电电极对，其布置成形成矩阵，第二基板设置有设置有分隔壁和荧光材料层，第二基板设置为符合所述 多个表面放电电极对，其中在所述多个表面放电电极对中的每个电极对的一侧的电极在沿着所述第一透明绝缘基板上的线方向延伸的多条线路母线之间连接到每条线路母线 并且所述多个表面放电电极对中的每个电极对的另一侧的电极在沿着行方向布置的多个行母线中连接到所述第一透明绝缘衬底上的每行行母线，所述第一透明绝缘衬底沿着所述行 方向在所述第一透明绝缘基板上。

公开(公告)号：US06531819B1

公开(公告)日：2003-03-11

申请号：US09481324

申请日：2000-01-11

Applicant: Masahiro Nakahara ,  Yoshikazu Kanazawa ,  Ryuji Tazume ,  Shinichi Nomura ,  Mitsuhiro Moriyama ,  Yukinori Miyazaki

Inventor： Masahiro Nakahara ,  Yoshikazu Kanazawa ,  Ryuji Tazume ,  Shinichi Nomura ,  Mitsuhiro Moriyama ,  Yukinori Miyazaki

IPC: H01J1749

CPC classification number: H01J11/12 ,  H01J11/24 ,  H01J11/28 ,  H01J2211/245

Abstract: A plasma display panel of a surface discharge type is disclosed, which can positively generate the discharge for display while suppressing the power consumption even when the number of the electrodes is increased for attaining the high definition. A plurality of display electrode pairs are arranged in proximity with each other inside of a pair of substrates opposed to each other with a discharge gap formed therebetween. Each display electrode includes a main pattern extending in one direction, independent discharge patterns each formed for each luminous area corresponding to a display cell, and a plurality of auxiliary patterns for electrically connecting the main pattern and the discharge patterns to each other. The auxiliary patterns are higher in conductivity than the discharge patterns.

Abstract translation: 公开了一种表面放电型的等离子体显示面板，即使增加电极的数量以达到高清晰度，也能够在抑制功耗的同时积极地产生显示放电。 多个显示电极对在彼此相对的一对基板的内部彼此靠近地布置，其间形成有放电间隙。 每个显示电极包括沿一个方向延伸的主图案，对于与显示单元相对应的每个发光区域形成的独立放电图案，以及用于将主图案和放电图案彼此电连接的多个辅助图案。 辅助图案的电导率高于放电图案。

公开(公告)号：US06528944B1

公开(公告)日：2003-03-04

申请号：US09262090

申请日：1999-03-04

Applicant: Hisatoshi Kishi ,  Kazuhisa Hemmi ,  Hironobu Arimoto ,  Atsushi Ito

Inventor： Hisatoshi Kishi ,  Kazuhisa Hemmi ,  Hironobu Arimoto ,  Atsushi Ito

IPC: H01J1749

CPC classification number: H01J11/12 ,  H01J9/261 ,  H01J11/48

Abstract: A flat display panel is provided which can improve the reliability of the contact portion where a flat plate and a back plate are bonded together and can suppress the display dead space. Recessed portions 52 are formed in a glass substrate 60 so that a sealing wall 63 is formed along the outer fringe of a back plate 61. The front plate 54 includes a protrusion 59 protruding outward from the sealing wall 63 on the outer fringe portion thereof. The contact portion between the front plate 54 and the back plate 61 is sealed by depositing fritted glass 62 onto the corner portion defined by the protrusion 59 and the side surface of the back plate 61. In order to improve the sealing effect, the fritted glass 62 is inserted into the gap at the bonding portion. The groove 64 is formed on the top surface of the sealing wall 63 to prevent the fritted glass 62 from intruding in to the discharge space.

Abstract translation: 提供一种能够提高平板和背板接合在一起的接触部的可靠性的平板显示面板，能够抑制显示器死区。 嵌入部分52形成在玻璃基板60中，使得密封壁63沿着背板61的外边缘形成。前板54包括从密封壁63的外边缘部分向外突出的突起59。 前板54和背板61之间的接触部分通过将多孔玻璃62沉积在由突起59和背板61的侧表面限定的角部上而被密封。为了提高密封效果，多孔玻璃 62被插入到接合部分的间隙中。 凹槽64形成在密封壁63的顶表面上，以防止烧结玻璃62侵入放电空间。

公开(公告)号：US06525471B2

公开(公告)日：2003-02-25

申请号：US09853099

申请日：2001-05-10

Applicant: Peter Klaus Bachmann ,  Volker Van Elsbergen ,  Markus Klein ,  Rob Snijkers

Inventor： Peter Klaus Bachmann ,  Volker Van Elsbergen ,  Markus Klein ,  Rob Snijkers

IPC: H01J1749

CPC classification number: H01J11/12 ,  H01J11/40

Abstract: The invention relates to a plasma picture screen with a protective layer (5) made of materials having a low electron affinity and a high resistance to sputtering.