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    • 4. 发明申请
    • LATERAL FIELD EMISSION DEVICE
    • 侧场发射装置
    • US20100244661A1
    • 2010-09-30
    • US11477938
    • 2006-06-30
    • Jung-Yu LiShih-Pu ChenYi-Ping LinWei-Chin Lin
    • Jung-Yu LiShih-Pu ChenYi-Ping LinWei-Chin Lin
    • H01J1/62
    • H01J1/74H01J29/04H01J29/08H01J31/127H01J2329/0407H01J2329/08H01J2329/18
    • A field emission device has pixels with cathode and anode provided on the same plane, so that electrons directly penetrate an independently provided fluorescent powder layer to produce light, giving the display the advantages of easy focusing, no dark spots, high brightness, and enhanced light emitting performance. Since the light produced by the fluorescent powder layer is not blocked by the anode, the problem of charge accumulation on the fluorescent powder layer is avoided, and it is not necessary to use expensive light-transmittable conducting glass as the anode. With the cathode and the anode located at the same plane, it is not necessary to use a high precision spacer to maintain a fixed distance between the cathode and the anode, enabling the device to be manufactured at reduced cost and high good yield.
    • 场发射器件具有设置在同一平面上的阴极和阳极的像素,使得电子直接穿透独立提供的荧光粉层以产生光,使显示器具有容易聚焦,无黑点,高亮度和增强的光的优点 发射性能。 由于由荧光粉层产生的光不被阳极阻挡,所以避免了荧光粉层上的电荷积聚的问题,并且不需要昂贵的透光导电玻璃作为阳极。 在阴极和阳极位于同一平面上的情况下,不需要使用高精度间隔物来保持阴极和阳极之间的固定距离,从而能够以降低的成本和高的良率获得器件的制造。
    • 6. 发明申请
    • Electron emitting device, electron source, image display apparatus and image receiving display apparatus
    • 电子发射器件,电子源,图像显示装置和图像接收显示装置
    • US20060214561A1
    • 2006-09-28
    • US11313717
    • 2005-12-22
    • Kazushi NomuraHidehiko Nakajima
    • Kazushi NomuraHidehiko Nakajima
    • H01J1/62
    • H01J1/304H01J1/316H01J3/021H01J29/04H01J31/127H01J2201/316H01J2329/0407H01J2329/0486H01J2329/4604
    • An electron emitting device comprising on a substrate: an electrode extracting electrons from the electron emitting portion, the electrode applied with a voltage higher then the cathode electrode; and an deflecting electrode deflecting the electrons extracted from the electron emitting portion by the extraction electrode, the deflecting electrode applied with the voltage lower than the voltage of the extraction electrode; wherein the electron emitting device is disposed so as to be opposed to an anode electrode, and the extraction electrode is disposed between the cathode electrode and the deflecting electrode, and wherein the deflecting electrode comprises a portion opposed to the electron emitting portion, and other portions disposed to nip a region between the electron emitting portion and said portion in a direction crossing the direction along which the portion and the electron emitting portion are opposed.
    • 一种电子发射器件,包括在基底上:从电子发射部分提取电子的电极,施加电压高于阴极电极的电极; 以及偏转电极,通过所述引出电极偏转从所述电子发射部分提取的电子,所述偏转电极施加的电压低于所述提取电极的电压; 其中所述电子发射器件被设置为与阳极电极相对,并且所述引出电极设置在所述阴极和所述偏转电极之间,并且其中所述偏转电极包括与所述电子发射部分相对的部分,以及其它部分 被设置为沿与所述部分和所述电子发射部分相对的方向交叉的方向夹持所述电子发射部分和所述部分之间的区域。
    • 7. 发明申请
    • Field emission device and field emission display including dual cathode electrodes
    • 场发射器件和场发射显示器,包括双阴极电极
    • US20050194887A1
    • 2005-09-08
    • US11059437
    • 2005-02-17
    • Pil-soo AhnHang-woo Lee
    • Pil-soo AhnHang-woo Lee
    • H01J1/304H01J1/62H01J63/04
    • H01J29/04H01J3/021H01J29/481H01J31/127H01J2329/0407
    • A field emission device and a field emission display (FED) having dual cathode electrodes. The field emission device includes a substrate; a first cathode electrode formed on the substrate; a cathode insulating layer formed on the first cathode electrode, and having a first cavity that exposes a portion of the first cathode electrode; an electron emission source disposed on the first cathode electrode and being exposed by the first cavity; a second cathode electrode formed on the cathode insulating layer, and including a cathode hole aligned with the first cavity; a gate insulating layer formed on the second cathode electrode, and having a second cavity aligned with the first cavity; and a gate electrode formed on the gate insulating layer, and having a gate hole aligned with the second cavity.
    • 具有双阴极电极的场发射器件和场致发射显示器(FED)。 场致发射器件包括衬底; 形成在所述基板上的第一阴极电极; 阴极绝缘层,形成在所述第一阴极电极上,并且具有暴露所述第一阴极电极的一部分的第一腔; 电子发射源,设置在第一阴极电极上并被第一腔暴露; 形成在所述阴极绝缘层上的第二阴极,并且包括与所述第一腔对准的阴极孔; 栅极绝缘层,形成在所述第二阴极电极上,并且具有与所述第一空腔对准的第二空腔; 以及形成在所述栅极绝缘层上并具有与所述第二腔对准的栅极孔的栅电极。
    • 9. 发明授权
    • Lateral field emission device
    • 侧面场发射装置
    • US07839070B2
    • 2010-11-23
    • US11477938
    • 2006-06-30
    • Jung-Yu LiShih-Pu ChenYi-Ping LinWei-Chih Lin
    • Jung-Yu LiShih-Pu ChenYi-Ping LinWei-Chih Lin
    • H01J63/04
    • H01J1/74H01J29/04H01J29/08H01J31/127H01J2329/0407H01J2329/08H01J2329/18
    • A field emission device has pixels with cathode and anode provided on the same plane, so that electrons directly penetrate an independently provided fluorescent powder layer to produce light, giving the display the advantages of easy focusing, no dark spots, high brightness, and enhanced light emitting performance. Since the light produced by the fluorescent powder layer is not blocked by the anode, the problem of charge accumulation on the fluorescent powder layer is avoided, and it is not necessary to use expensive light-transmittable conducting glass as the anode. With the cathode and the anode located at the same plane, it is not necessary to use a high precision spacer to maintain a fixed distance between the cathode and the anode, enabling the device to be manufactured at reduced cost and high good yield.
    • 场发射器件具有设置在同一平面上的阴极和阳极的像素,使得电子直接穿透独立提供的荧光粉层以产生光,使显示器具有容易聚焦,无黑点,高亮度和增强的光的优点 发射性能。 由于由荧光粉层产生的光不被阳极阻挡,所以避免了荧光粉层上的电荷积聚的问题,并且不需要昂贵的透光导电玻璃作为阳极。 在阴极和阳极位于同一平面上的情况下,不需要使用高精度间隔物来保持阴极和阳极之间的固定距离,从而能够以降低的成本和高的良率获得器件的制造。
    • 10. 发明授权
    • Electron emitting device, electron source, image display apparatus and image receiving display apparatus
    • 电子发射器件,电子源,图像显示装置和图像接收显示装置
    • US07456565B2
    • 2008-11-25
    • US11313717
    • 2005-12-22
    • Kazushi NomuraHidehiko Nakajima
    • Kazushi NomuraHidehiko Nakajima
    • H01J1/88H01J1/30
    • H01J1/304H01J1/316H01J3/021H01J29/04H01J31/127H01J2201/316H01J2329/0407H01J2329/0486H01J2329/4604
    • An electron emitting device comprising on a substrate: an electrode extracting electrons from the electron emitting portion, the electrode applied with a voltage higher then the cathode electrode; and an deflecting electrode deflecting the electrons extracted from the electron emitting portion by the extraction electrode, the deflecting electrode applied with the voltage lower than the voltage of the extraction electrode; wherein the electron emitting device is disposed so as to be opposed to an anode electrode, and the extraction electrode is disposed between the cathode electrode and the deflecting electrode, and wherein the deflecting electrode comprises a portion opposed to the electron emitting portion, and other portions disposed to nip a region between the electron emitting portion and said portion in a direction crossing the direction along which the portion and the electron emitting portion are opposed.
    • 一种电子发射器件,包括在基底上:从电子发射部分提取电子的电极,施加电压高于阴极电极的电极; 以及偏转电极,通过所述引出电极偏转从所述电子发射部分提取的电子,所述偏转电极施加的电压低于所述提取电极的电压; 其中所述电子发射器件被设置为与阳极电极相对,并且所述引出电极设置在所述阴极和所述偏转电极之间,并且其中所述偏转电极包括与所述电子发射部分相对的部分,以及其它部分 被设置为沿与所述部分和所述电子发射部分相对的方向交叉的方向夹持所述电子发射部分和所述部分之间的区域。