公开(公告)号：US08890430B2

公开(公告)日：2014-11-18

申请号：US13577294

申请日：2011-07-15

Applicant: Tailiang Guo ,  Jianmin Yao ,  Zhixian Lin ,  Yun Ye ,  Zhilong Chen ,  Yongai Zhang ,  Sheng Xu ,  Liqin Hu

Inventor： Tailiang Guo ,  Jianmin Yao ,  Zhixian Lin ,  Yun Ye ,  Zhilong Chen ,  Yongai Zhang ,  Sheng Xu ,  Liqin Hu

IPC: H01J21/10 ,  H01J19/38 ,  G09G3/22 ,  H01J29/48 ,  H01J31/12

CPC classification number: H01J21/10 ,  G09G3/22 ,  G09G2230/00 ,  H01J19/38 ,  H01J29/481 ,  H01J31/127

Abstract: The present invention relates to display manufacturing technology, especially for a dielectric-free triode field emission display device based on double-gate/single-cathode type electron emission units and the device drive methods. This device comprises parallelly positioned anode and cathode/gate plates, during production, gate/cathode/gate electron emission units are set on the cathode/gate plate side by side. The spacing between cathode and gate electrodes is vacuum circumstance. For each cathode, an anode is positioned on the anode plate, facing the cathode. And the voltages applied on the cathode and gate electrodes are to scan and the anode voltage is to adjust the signal. When the electrodes on the cathode/gate plate take on fixed roles, fixed voltages are used to drive the device. When these electrodes on the cathode/gate plate can be used interchangeably as cathode or gate electrodes, respectively, pulse scanning method is used to drive the device.

Abstract translation: 本发明涉及显示器制造技术，特别涉及一种基于双栅/单阴极型电子发射单元的无电介质三极管场致发射显示器件及器件驱动方法。 该装置包括平行放置的阳极和阴极/栅极板，在制造期间，栅极/阴极/栅极电子发射单元并排设置在阴极/栅极板上。 阴极和栅电极之间的间距是真空环境。 对于每个阴极，阳极位于阳极板上，面向阴极。 并且施加在阴极和栅电极上的电压是扫描的，并且阳极电压是调整信号。 当阴极/栅极板上的电极发挥固定作用时，使用固定电压来驱动器件。 当阴极/栅极板上的这些电极可以分别用作阴极或栅电极时，使用脉冲扫描方法驱动器件。

公开(公告)号：US08803413B2

公开(公告)日：2014-08-12

申请号：US13502484

申请日：2011-08-12

Applicant: Tailiang Guo ,  Yun Ye ,  Zhixian Lin ,  Yongai Zhang ,  Liqin Jiu ,  Yuxiang You

Inventor： Tailiang Guo ,  Yun Ye ,  Zhixian Lin ,  Yongai Zhang ,  Liqin Jiu ,  Yuxiang You

IPC: H01J1/62 ,  H01J63/04 ,  H01J29/08 ,  H01J31/12

CPC classification number: H01J63/04 ,  H01J29/08 ,  H01J29/467 ,  H01J29/481 ,  H01J31/127 ,  H01J2329/08 ,  H01J2329/4604 ,  H01J2329/4608 ,  H01J2329/4634 ,  H01J2329/4669 ,  H01J2329/4673 ,  H01J2329/4682

Abstract: The present invention relates to a symmetric quadrupole structured field emission display without spacer comprising the upper and under substrates with a dielectric layer in between, wherein comb-like dielectric layer with lateral connection belts and a number of longitudinal working belts and longitudinal anodes are arranged on the upper substrate, bus electrodes are arranged longitudinally along the center on each anode, on the top, longitudinal alternating phosphor layer and dielectric layer for isolation on anode, gate electrodes are arranged on both sides of each longitudinal work belts, with the bus electrode as symmetry center, forming interdigital gate electrodes, horizontal cathode electrodes and longitudinal auxiliary electrodes are on the under substrate, resistor layer for current limiting and dielectric layer for cathode protection are arranged alternating horizontally on each cathode electrode, each intersect of the auxiliary electrode and cathode is isolated by the dielectric layer for cathode.

Abstract translation: 本发明涉及一种没有间隔器的对称四极结构场发射显示器，其包括在其间具有介电层的上和下基板，其中具有侧向连接带的梳状电介质层和多个纵向工作带和纵向阳极设置在 上基板，总线电极沿着每个阳极的中心纵向布置，在顶部，纵向交替的荧光体层和介电层上用于在阳极上隔离，栅电极布置在每个纵向工作带的两侧，总线电极为 对称中心，形成叉指栅电极，水平阴极电极和纵向辅助电极位于下基板上，用于限流电阻层和阴极保护用电介质层在每个阴极电极上水平交替布置，辅助电极和阴极的每个相交 被枯隔绝 阴极层。

公开(公告)号：US20140111083A1

公开(公告)日：2014-04-24

申请号：US13502484

申请日：2011-08-12

Applicant: Tailiang Guo ,  Yun Ye ,  Zhixian Lin ,  Yongai Zhang ,  Liqin Jiu ,  Yuxiang You

Inventor： Tailiang Guo ,  Yun Ye ,  Zhixian Lin ,  Yongai Zhang ,  Liqin Jiu ,  Yuxiang You

IPC: H01J63/04

CPC classification number: H01J63/04 ,  H01J29/08 ,  H01J29/467 ,  H01J29/481 ,  H01J31/127 ,  H01J2329/08 ,  H01J2329/4604 ,  H01J2329/4608 ,  H01J2329/4634 ,  H01J2329/4669 ,  H01J2329/4673 ,  H01J2329/4682

Abstract: The present invention relates to a symmetric quadrupole structured field emission display without spacer comprising the upper and under substrates with a dielectric layer in between, wherein comb-like dielectric layer with lateral connection belts and a number of longitudinal working belts and longitudinal anodes are arranged on the upper substrate, bus electrodes are arranged longitudinally along the center on each anode, on the top, longitudinal alternating phosphor layer and dielectric layer for isolation on anode, gate electrodes are arranged on both sides of each longitudinal work belts, with the bus electrode as symmetry center, forming interdigital gate electrodes, horizontal cathode electrodes and longitudinal auxiliary electrodes are on the under substrate, resistor layer for current limiting and dielectric layer for cathode protection are arranged alternating horizontally on each cathode electrode, each intersect of the auxiliary electrode and cathode is isolated by the dielectric layer for cathode

Abstract translation: 本发明涉及一种没有间隔器的对称四极结构场发射显示器，其包括在其间具有介电层的上和下基板，其中具有侧向连接带的梳状电介质层和多个纵向工作带和纵向阳极设置在 上基板，总线电极沿着每个阳极的中心纵向布置，在顶部，纵向交替的荧光体层和介电层上用于在阳极上隔离，栅电极布置在每个纵向工作带的两侧，总线电极为 对称中心，形成叉指栅电极，水平阴极电极和纵向辅助电极位于下基板上，用于限流电阻层和阴极保护用电介质层在每个阴极电极上水平交替布置，辅助电极和阴极的每个相交 被枯隔绝 阴极层

公开(公告)号：US20130026906A1

公开(公告)日：2013-01-31

申请号：US13511698

申请日：2011-08-12

Applicant: Tailiang Guo ,  Yongai Zhang ,  Zhixian Lin ,  Liqin Hu ,  Yun Ye ,  Yuxiang You

Inventor： Tailiang Guo ,  Yongai Zhang ,  Zhixian Lin ,  Liqin Hu ,  Yun Ye ,  Yuxiang You

IPC: H01J19/32

CPC classification number: H01J29/085 ,  H01J29/467 ,  H01J31/127 ,  H01J2329/4634

Abstract: The present invention relates to a triode field emission display with anode and gate on the same substrate, comprising anode-gate substrate and cathode substrate, parallel and adapted in the size; a number of strip-like cathode conducting layers arranged alternating on the cathode substrate; resistor layer for current limiting and dielectric layer for cathode protection are arranged alternately on the cathode conducting layer in the longitudinal direction; the electron emission materials are arranged on the resistor layer for current limiting; wherein the strip-like anode conducting layer and strip-like gate conducting layer on the anode-gate substrate are perpendicular to the strip-like cathode conducting layer on the cathode substrate, dielectric layer for isolation is arranged between the anode-gate and the cathode substrates, one end of the dielectric layer for isolation is connected to the dielectric layer for gate protection, the other end is connected to the dielectric layer for cathode protection.

公开(公告)号：US20150192780A1

公开(公告)日：2015-07-09

申请号：US14118426

申请日：2012-04-26

Applicant: Tailiang Guo ,  Yongai Zhang ,  Xiongtu Zhou ,  Yun Ye ,  Jianmin Yao ,  Zhixian Lin ,  Liqin Hu ,  Sheng Xu

Inventor： Tailiang Guo ,  Yongai Zhang ,  Xiongtu Zhou ,  Yun Ye ,  Jianmin Yao ,  Zhixian Lin ,  Liqin Hu ,  Sheng Xu

IPC: G02B27/22 ,  B05D5/06 ,  B05D3/12 ,  B05D1/00 ,  B05D3/14

CPC classification number: G02B27/2214 ,  B05D1/00 ,  B05D3/12 ,  B05D3/14 ,  B05D5/06 ,  G02B5/005 ,  G02B7/028 ,  G09G3/003 ,  G09G3/32 ,  H04N13/305 ,  H04N13/31

Abstract: This invention presents a stereoscopic LED display with dual barriers, comprising a LED display panel, a heat shield, a first barrier, a second barrier, a protection layer, a packaging layer. The first barrier is placed between the LED panel and the second barrier, making the centers of the LED sub-pixels on the same levels laterally and longitudinally. The second barrier is placed between the first barrier and the protection layer for the stereoscopic light splitting. This invention provides an effective solution for the alignment problem of the LED by controlling the positions of the first barrier and the second barrier, which is favorable for the realization of large scale, high brightness naked LED 3D display, furthermore, this method is simple and low-cost.

Abstract translation: 本发明提供一种具有双重屏障的立体LED显示屏，包括LED显示屏，隔热屏，第一屏障，第二屏障，保护层，包装层。 第一屏障位于LED面板和第二屏障之间，使得LED子像素的中心横向和纵向处于相同的水平。 第二屏障被放置在用于立体分光的第一屏障和保护层之间。 本发明通过控制第一屏障和第二屏障的位置，为LED的对准问题提供了有效的解决方案，有利于实现大规模，高亮度的裸光LED 3D显示，此外，该方法简单， 低成本。

公开(公告)号：US20130241434A1

公开(公告)日：2013-09-19

申请号：US13577294

申请日：2011-07-15

Applicant: Tailiang Guo ,  Jianmin Yao ,  Zhixian Lin ,  Yun Ye ,  Zhilong Chen ,  Yongai Zhang ,  Sheng Xu ,  Liqin Hu

Inventor： Tailiang Guo ,  Jianmin Yao ,  Zhixian Lin ,  Yun Ye ,  Zhilong Chen ,  Yongai Zhang ,  Sheng Xu ,  Liqin Hu

IPC: H01J21/10 ,  H01J19/38

CPC classification number: H01J21/10 ,  G09G3/22 ,  G09G2230/00 ,  H01J19/38 ,  H01J29/481 ,  H01J31/127

Abstract: The present invention relates to display manufacturing technology, especially for a dielectric-free triode field emission display device based on double-gate/single-cathode type electron emission units and the device drive methods. This device comprises parallelly positioned anode and cathode/gate plates, during production, gate/cathode/gate electron emission units are set on the cathode/gate plate side by side. The spacing between cathode and gate electrodes is vacuum circumstance. For each cathode, an anode is positioned on the anode plate, facing the cathode. And the voltages applied on the cathode and gate electrodes are to scan and the anode voltage is to adjust the signal. When the electrodes on the cathode/gate plate take on fixed roles, fixed voltages are used to drive the device. When these electrodes on the cathode/gate plate can be used interchangeably as cathode or gate electrodes, respectively, pulse scanning method is used to drive the device.

Abstract translation: 本发明涉及显示器制造技术，特别涉及一种基于双栅/单阴极型电子发射单元的无电介质三极管场致发射显示器件及器件驱动方法。 该装置包括平行放置的阳极和阴极/栅极板，在制造期间，栅极/阴极/栅极电子发射单元并排设置在阴极/栅极板上。 阴极和栅电极之间的间距是真空环境。 对于每个阴极，阳极位于阳极板上，面向阴极。 并且施加在阴极和栅电极上的电压是扫描的，并且阳极电压是调整信号。 当阴极/栅极板上的电极发挥固定作用时，使用固定电压来驱动器件。 当阴极/栅极板上的这些电极可以分别用作阴极或栅电极时，使用脉冲扫描方法驱动器件。

公开(公告)号：US08476819B2

公开(公告)日：2013-07-02

申请号：US13511698

申请日：2011-08-12

Applicant: Tailiang Guo ,  Yongai Zhang ,  Zhixian Lin ,  Liqin Hu ,  Yun Ye ,  Yuxiang You

Inventor： Tailiang Guo ,  Yongai Zhang ,  Zhixian Lin ,  Liqin Hu ,  Yun Ye ,  Yuxiang You

IPC: H01J29/32 ,  H01J29/08

CPC classification number: H01J29/085 ,  H01J29/467 ,  H01J31/127 ,  H01J2329/4634

Abstract: The present invention relates to a triode field emission display with anode and gate on the same substrate, comprising anode-gate substrate and cathode substrate, parallel and adapted in the size; a number of strip-like cathode conducting layers arranged alternating on the cathode substrate; resistor layer for current limiting and dielectric layer for cathode protection are arranged alternately on the cathode conducting layer in the longitudinal direction; the electron emission materials are arranged on the resistor layer for current limiting; wherein the strip-like anode conducting layer and strip-like gate conducting layer on the anode-gate substrate are perpendicular to the strip-like cathode conducting layer on the cathode substrate, dielectric layer for isolation is arranged between the anode-gate and the cathode substrates, one end of the dielectric layer for isolation is connected to the dielectric layer for gate protection, the other end is connected to the dielectric layer for cathode protection.

Abstract translation: 本发明涉及在同一基板上具有阳极和栅极的三极管场发射显示器，其包括平行并适应尺寸的阳极栅极基板和阴极基板; 在阴极基板上交替设置的多个条状阴极导电层; 用于电流限制的电阻层和用于阴极保护的电介质层在纵向上交替地布置在阴极导电层上; 电子发射材料布置在电阻层上用于限流; 其中在阳极 - 栅极衬底上的带状阳极导电层和条状栅极导电层垂直于阴极衬底上的带状阴极导电层，用于隔离的电介质层设置在阳极 - 栅极和阴极之间 衬底，用于隔离的电介质层的一端连接到用于栅极保护的电介质层，另一端连接到用于阴极保护的电介质层。

公开(公告)号：US20120182329A1

公开(公告)日：2012-07-19

申请号：US13394894

申请日：2011-03-16

Applicant: Zhixian Lin ,  Tailiang Guo ,  Sheng Xu ,  Yongai Zhang

Inventor： Zhixian Lin ,  Tailiang Guo ,  Sheng Xu ,  Yongai Zhang

IPC: G09G5/10

CPC classification number: G09G3/22 ,  G09G3/2029 ,  G09G3/2059 ,  G09G2320/02

Abstract: This invention is involved with the discipline of the display manufacturing technique, especially a low grey enhancement method for the FED system based on a SRD grey modulation driving technique. The feature is which based on the sub-row grey modulation of the SRD technique, apply low grey enhancement to eliminate the low grey loss in the low grey image information. In addition, the low grey loss is modified by the time compensation, and the display quality of the image is improved.

Abstract translation: 本发明涉及显示制造技术的学科，特别是基于SRD灰度调制驱动技术的FED系统的低灰度增强方法。 特征是基于SRD技术的子行灰度调制，应用低灰度增强以消除低灰度图像信息中的低灰度损失。 此外，通过时间补偿修改低灰度损失，并且提高了图像的显示质量。