公开(公告)号：US07112918B2

公开(公告)日：2006-09-26

申请号：US10047469

申请日：2002-01-15

Applicant: J. Gary Eden ,  Sung-Jin Park ,  Jack Chen ,  Chang Liu

Inventor： J. Gary Eden ,  Sung-Jin Park ,  Jack Chen ,  Chang Liu

IPC: H01J1/00

CPC classification number: H01J61/09 ,  H01J11/18 ,  H01J17/066 ,  H01J17/10 ,  H01J17/49 ,  H01J61/62

Abstract: A microdischarge device has a semiconductor layer, an intermediate layer, and a conductive layer. A tapered cavity is disposed in at least the semiconductor layer.

公开(公告)号：US08026657B2

公开(公告)日：2011-09-27

申请号：US11958391

申请日：2007-12-18

Applicant: Jung-Yu Li ,  Shih-Pu Chen ,  Yi-Ping Lin ,  Wei-Chih Lin ,  Lian-Yi Cho

Inventor： Jung-Yu Li ,  Shih-Pu Chen ,  Yi-Ping Lin ,  Wei-Chih Lin ,  Lian-Yi Cho

IPC: H01J63/04

CPC classification number: H01J61/62 ,  H01J63/08

Abstract: An electron emission light-emitting device includes a cathode structure, an anode structure, a fluorescent layer, and a low-pressure gas layer. The fluorescent layer is located between the cathode structure and the anode structure. The low-pressure gas layer is filled between the cathode structure and the anode structure, having a function of inducing the cathode to emit electron uniformly. The low-pressure gas layer has an electron mean free path, allowing at least sufficient amount of electrons to directly impinge the fluorescent layer under an operation voltage.

Abstract translation: 电子发射发光器件包括阴极结构，阳极结构，荧光层和低压气体层。 荧光层位于阴极结构和阳极结构之间。 低压气体层被填充在阴极结构和阳极结构之间，具有使阴极均匀地发射电子的功能。 低压气体层具有电子平均自由程，允许至少足够量的电子在操作电压下直接照射荧光层。

公开(公告)号：US07638937B2

公开(公告)日：2009-12-29

申请号：US11070100

申请日：2005-03-01

Applicant: J. Gary Eden ,  Sung-Jin Park ,  Clark J. Wagner

Inventor： J. Gary Eden ,  Sung-Jin Park ,  Clark J. Wagner

IPC: H01J63/04 ,  H01J61/09 ,  H01J13/46

CPC classification number: H01J17/49 ,  H01J1/025 ,  H01J9/00 ,  H01J9/02 ,  H01J25/50 ,  H01J61/09 ,  H01J61/305 ,  H01J61/62 ,  H01J63/04 ,  H01J65/046

Abstract: Roll to roll fabrication methods of the invention enable low cost mass production of microdischarge devices and arrays. A preferred embodiment method of fabricating a discharge device includes providing a dielectric layer sheet, a first electrode, and a second electrode sheet. A cavity is provided through at least a portion of the dielectric layer sheet. At least the dielectric layer sheet and second electrode sheet are rolled together. Another preferred embodiment method of fabrication a discharge device includes method of fabricating a discharge device includes providing a dielectric layer sheet and a cavity through at least a portion of the dielectric layer sheet. A first electrode is disposed as a film of conducting material on the dielectric layer sheet around a rim of the cavity. A second electrode sheet is provided. The dielectric layer sheet is rolled together with first electrode and second electrode sheets.

Abstract translation: 本发明的卷对卷制造方法能够实现微量放电装置和阵列的低成本批量生产。 制造放电装置的优选实施例的方法包括提供介电层片，第一电极和第二电极片。 通过介电层片材的至少一部分提供空腔。 至少将电介质层片和第二电极片卷成一体。 制造放电器件的另一个优选实施例的方法包括制造放电器件的方法包括通过至少一部分电介质层片提供介电层片和空腔。 第一电极作为导电材料的膜设置在该空腔的边缘周围的介电层片上。 提供第二电极片。 介电层片与第一电极和第二电极片一起卷绕。

公开(公告)号：US20080157652A1

公开(公告)日：2008-07-03

申请号：US11958393

申请日：2007-12-18

Applicant: Jung-Yu Li ,  Shih-Pu Chen ,  Yi-Ping Lin ,  Wei-Chih Lin ,  Lian-Yi Cho

Inventor： Jung-Yu Li ,  Shih-Pu Chen ,  Yi-Ping Lin ,  Wei-Chih Lin ,  Lian-Yi Cho

IPC: H01J1/62

CPC classification number: H01J63/08 ,  H01J29/04 ,  H01J29/94 ,  H01J31/123 ,  H01J61/62 ,  H01J2201/30469 ,  H01J2201/32

Abstract: A pixel structure of display apparatus includes a first substrate and a second substrate. Several cathode structure layers are disposed on the first substrate. The second substrate is a light-transmissive material. Several anode structure layers are disposed on the second substrate, and are light-transmissive conductive materials. The first substrate faces to the second substrate, so that the cathode structure layers are respectively aligned with the anode structure layers. A separation structure is disposed between the first substrate and the second substrate, for respective partitioning the anode structure layers and the cathode structure layers to form several spaces. Several fluorescent layers are respectively disposed between the anode structure layers and the cathode structure layers. A low-pressure gas is respectively filled into the spaces. The low-pressure gas has an electron mean free path, allowing at least sufficient amount of electrons to directly impinge the fluorescent layer under an operation voltage.

Abstract translation: 显示装置的像素结构包括第一基板和第二基板。 多个阴极结构层设置在第一基板上。 第二基板是透光材料。 多个阳极结构层设置在第二基板上，并且是透光导电材料。 第一衬底面向第二衬底，使得阴极结构层分别与阳极结构层对准。 分离结构设置在第一基板和第二基板之间，用于相应地分隔阳极结构层和阴极结构层以形成几个空间。 阳极结构层和阴极结构层之间分别设置有几个荧光层。 低压气体分别装入空间。 低压气体具有电子平均自由程，允许至少足够量的电子在操作电压下直接冲击荧光层。

公开(公告)号：US20080143241A1

公开(公告)日：2008-06-19

申请号：US11674159

申请日：2007-02-13

Applicant: Jung-Yu Li ,  Shih-Pu Chen ,  Yi-Ping Lin ,  Wei-Chih Lin ,  Lian-Yi Cho

Inventor： Jung-Yu Li ,  Shih-Pu Chen ,  Yi-Ping Lin ,  Wei-Chih Lin ,  Lian-Yi Cho

IPC: H01J1/62

CPC classification number: H01J61/62 ,  H01J63/06 ,  H01J63/08

Abstract: A discharge field emission device including a cathode an anode, a conductive gas, and a phosphor is provided. The conductive gas is disposed between the cathode and the anode for inducing electrons from the cathode, wherein the conductive gas has a gas pressure between 10−1 torr and 10−3 torr. In addition, the phosphor is disposed on the moving path of the electrons to react with the electrons and emit light. The discharge field emission device has the advantages of high luminescence efficiency and low cost. A light source apparatus and a display apparatus applying the discharge field emission device are also provided.

Abstract translation: 提供了包括阴极，负极，导电气体和荧光体的放电场发射器件。 导电气体设置在阴极和阳极之间用于从阴极诱导电子，其中导电气体具有在10乇和10 -3乇之间的气体压力 。 此外，荧光体设置在电子的移动路径上与电子反应并发光。 放电场发射器件具有发光效率高，成本低的优点。 还提供了一种施加放电场发射装置的光源装置和显示装置。

公开(公告)号：US20050148270A1

公开(公告)日：2005-07-07

申请号：US11070100

申请日：2005-03-01

Applicant: J. Eden ,  Sung-Jin Park ,  Clark Wagner

Inventor： J. Eden ,  Sung-Jin Park ,  Clark Wagner

IPC: G09G3/10 ,  H01J1/02 ,  H01J1/62 ,  H01J9/00 ,  H01J9/24 ,  H01J17/04 ,  H01J25/50 ,  H01J61/06 ,  H01J61/62 ,  H01J63/04 ,  H01J65/04

CPC classification number: H01J17/49 ,  H01J1/025 ,  H01J9/00 ,  H01J9/02 ,  H01J25/50 ,  H01J61/09 ,  H01J61/305 ,  H01J61/62 ,  H01J63/04 ,  H01J65/046

Abstract: A discharge device is described that contains an anode, a cathode, and an insulating layer disposed between the anode and the cathode. A cavity is extends entirely through at least one of the anode or cathode and penetrates the dielectric layer. At least one of the anode or cathode may include a screen or the dielectric layer may have a plurality of films with at least two different dielectric constants. The voltage differences between the anode and cathode in each of multiple devices electrically connected together may be limited.

公开(公告)号：US20040227469A1

公开(公告)日：2004-11-18

申请号：US10684591

申请日：2003-10-15

Inventor： Karl Schoenbach ,  Wenhui Shi

IPC: H01K001/62

CPC classification number: H01J61/09 ,  H01J61/62 ,  H01J61/82

Abstract: A discharge device generates stable direct current glow discharges at high gas pressures. The discharge device has a flat cathode that does not utilize microhollows, and has an anode containing an arbitrarily shaped opening. A dielectric having a minimum thickness separates the anode and the cathode by a by a distance of less than one millimeter. The discharge device may be included in a discharge chamber for maintaining the device at a predetermined pressure.

Abstract translation: 放电装置在高气压下产生稳定的直流辉光放电。 放电装置具有不使用微型炉的扁平阴极，并且具有包含任意形状的开口的阳极。 具有最小厚度的电介质将阳极和阴极隔开一个小于1毫米的距离。 放电装置可以包括在用于将装置保持在预定压力的放电室中。

公开(公告)号：US20100140511A1

公开(公告)日：2010-06-10

申请号：US12596069

申请日：2008-04-17

Applicant: Guillaume Auday ,  Laurent Joulaud ,  Jingwei Zhang ,  Philippe Guillot ,  Philippe Belenguer

Inventor： Guillaume Auday ,  Laurent Joulaud ,  Jingwei Zhang ,  Philippe Guillot ,  Philippe Belenguer

IPC: H01J65/00 ,  H01J61/42 ,  F21S8/04 ,  A47F11/10 ,  F21V33/00 ,  G09F13/08 ,  F27D21/02 ,  B64D47/02 ,  B60Q1/00 ,  A47B97/00 ,  G21K5/00

CPC classification number: H01J61/62 ,  H01J61/305 ,  H01J65/046

Abstract: The present invention relates to a flat discharge lamp (1000) that transmits in the visible and/or UV comprising first and second dielectric walls (2, 3) that are facing each other, kept parallel and sealed at the periphery (8), that thus define an internal space (10) filled with a plasma gas and comprising a source of UV and/or visible light (6); and first and second electrodes (4, 5) in separate planes parallel to the first and second walls, the first electrode (4) being at a potential V0 higher than the potential V1 of the second electrode, and the first electrode being arranged in the internal space and closer to the first dielectric wall than the second electrode. And the first electrode is spaced apart from the first dielectric wall by the gas, the first and second electrodes are separated by a flat electrical insulator (7) with at least one main face (71, 72), known as a perforated face, equipped with through-holes (73), at least one of the first and second electrodes is in contact with the main perforated face and has discontinuities at least in the extension of said holes.

Abstract translation: 本发明涉及一种平面放电灯（1000），其在包括第一和第二电介质壁（2,3）的可见光和/或紫外线中透射，所述第一和第二电介质壁彼此面对，在外围（8）保持平行和密封， 从而限定填充有等离子体气体并包括UV和/或可见光源（6）的内部空间（10）; 以及在与第一和第二壁平行的分立平面中的第一和第二电极（4,5），第一电极（4）处于高于第二电极的电位V1的电位V0，并且第一电极被布置在 内部空间并且比第二电极更靠近第一电介质壁。 并且第一电极通过气体与第一电介质壁间隔开，第一和第二电极被平坦的电绝缘体（7）隔开，至少一个主面（71,72）被称为穿孔面 具有通孔（73），所述第一和第二电极中的至少一个与所述主穿孔面接触，并且至少在所述孔的延伸部中具有不连续性。

公开(公告)号：US20080211377A1

公开(公告)日：2008-09-04

申请号：US12039751

申请日：2008-02-29

Applicant: Yi-Ping Lin ,  Jung-Yu Li ,  Shih-Pu Chen ,  Wei-Chih Lin ,  Lian-Yi Cho

Inventor： Yi-Ping Lin ,  Jung-Yu Li ,  Shih-Pu Chen ,  Wei-Chih Lin ,  Lian-Yi Cho

IPC: H01J1/62 ,  H05B41/36

CPC classification number: H01J63/06 ,  H01J61/62 ,  H01J63/02

Abstract: A light source apparatus applicable to a backlight module includes a cathode structure, an anode structure, a fluorescent layer, a secondary electron generation layer, and a low-pressure gas layer. The fluorescent layer is located between the cathode structure and the anode structure. The low-pressure gas layer is filled between the cathode structure and the anode structure. The secondary electron generation layer is disposed on the cathode structure and can generate additional secondary electrons to hit the fluorescent layer for improving the luminous efficiency.

Abstract translation: 适用于背光模块的光源装置包括阴极结构，阳极结构，荧光层，二次电子发生层和低压气体层。 荧光层位于阴极结构和阳极结构之间。 低压气体层被填充在阴极结构和阳极结构之间。 二次电子发生层设置在阴极结构上，并且可以产生额外的二次电子以触发荧光层以提高发光效率。

公开(公告)号：US20080119105A1

公开(公告)日：2008-05-22

申请号：US11981412

申请日：2007-10-31

Applicant: J. Gary Eden ,  Sung-Jin Park ,  Clark J. Wagner

Inventor： J. Gary Eden ,  Sung-Jin Park ,  Clark J. Wagner

IPC: H01J9/02

CPC classification number: H01J17/49 ,  H01J1/025 ,  H01J9/00 ,  H01J9/02 ,  H01J25/50 ,  H01J61/09 ,  H01J61/305 ,  H01J61/62 ,  H01J63/04 ,  H01J65/046

Abstract: The invention provides methods of making arrays of thin sheet microdischarge devices. In a preferred method of fabricating an array of microdischarge devices, a multi-layer dielectric layer thin sheet is position with respect to a first thin electrode. A second electrode thin sheet is joined on the dielectric layer sheet. An array of microcavities is provided through at least a portion of the dielectric layer sheet. The method can produce thin large arrays inexpensively. In preferred embodiments, each of the multi-layer dielectric layer thin sheet, the first thin electrode and the second electrode thin sheet have a thickness of less than less than 100 μm. In preferred embodiments, the multi-layer dielectric is formed of polymer, and in other embodiments from oxides and/or nitrides. In a particular preferred embodiment, the multilayer dielectric is formed from oxide and nitride films.

Abstract translation: 本发明提供了制备薄片微放电器件阵列的方法。 在制造微放电器件阵列的优选方法中，多层介电层薄片相对于第一薄电极位置。 第二电极薄片接合在电介质层片上。 通过介电层片材的至少一部分提供微腔阵列。 该方法可以廉价地生产薄的大阵列。 在优选实施例中，多层介电层薄片，第一薄电极和第二电极薄片中的每一个具有小于小于100μm的厚度。 在优选实施例中，多层电介质由聚合物形成，在其它实施例中由氧化物和/或氮化物形成。 在特别优选的实施例中，多层电介质由氧化物和氮化物膜形成。