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    • 51. 再颁专利
    • Image display and a manufacturing method of the same
    • 图像显示及其制造方法
    • USRE41828E1
    • 2010-10-19
    • US11088221
    • 2000-09-04
    • Mutsumi SuzukiMasakazu SagawaToshiaki Kusunoki
    • Mutsumi SuzukiMasakazu SagawaToshiaki Kusunoki
    • G09G3/10
    • B82Y10/00H01J1/312H01J31/127H01J2201/319H01J2329/00
    • The present invention provides an image display capable of enhancing a production yield. The image display comprises a display device including a first plate which has a plurality of electron-emitter elements each having a structure comprised of a base electrode, an insulating layer and a top electrode stacked on one another in this order, the electron-emitter element emitting electrons from the surface of the top electrode when a voltage of positive polarity is applied to the top electrode; a plurality of first electrodes for respectively applying driving voltages to the base electrodes of the electron-emitter elements lying in a row (or column) direction; and a plurality of second electrodes for respectively applying driving voltages to the top electrodes of the electron-emitter elements lying in the column (or row) direction, a frame component, and a second plate having phosphors, wherein a space surrounded by the first plate, the frame component and the second plate is brought into vacuum. In the display apparatus, the at least one electron-emitter element includes the base electrode and the top electrode, at least one of which is connected to the first electrode or the second electrode through a resistor element.
    • 本发明提供能够提高产量的图像显示装置。 图像显示器包括显示装置,该显示装置包括具有多个电子发射元件的第一板,每个电子发射元件具有依次层叠的基极,绝缘层和顶电极的结构,电子发射元件 当向顶部电极施加正极性的电压时,从顶部电极的表面发射电子; 多个第一电极,用于分别向位于行(或列)方向的电子发射体元件的基极施加驱动电压; 以及多个第二电极,用于分别向位于列(或行)方向的电子发射体元件的顶电极,框架部件和具有荧光体的第二板分别施加驱动电压,其中由第一板 ,使框架部件和第二板件成为真空。 在显示装置中,至少一个电子发射体元件包括基极和顶电极,其中至少一个通过电阻元件连接到第一电极或第二电极。
    • 53. 发明授权
    • Display device having a thin film electron source array
    • 具有薄膜电子源阵​​列的显示装置
    • US07385355B2
    • 2008-06-10
    • US11501745
    • 2006-08-10
    • Toshiaki KusunokiMasakazu SagawaMutsumi Suzuki
    • Toshiaki KusunokiMasakazu SagawaMutsumi Suzuki
    • G09G3/10
    • H01J31/127B82Y10/00H01J1/312Y10S345/905
    • The invention provides a display device using thin film type electron sources having a structure that can be formed in a simple manufacturing process. A lower electrode, a protective insulating layer and an interlayer film are formed on a cathode substrate. An upper bus electrode made from a laminated film of a metal film lower layer and a metal film upper layer is provided further on the interlayer film. A film of an upper electrode of a thin film type electron source for each pixel constituted by an insulating layer serving as an electron accelerating layer on the lower electrode and the upper electrode is formed on two stripe electrodes of the upper bus electrode in that pixel and another upper bus electrode in an adjacent pixel by sputtering. Then, the upper electrode is separated by self-alignment due to a setback portion of the metal film lower layer and an appentice of the metal film upper layer of the corresponding upper bus electrode. Thus, a thin film type electron source separated in accordance with each pixel is formed.
    • 本发明提供一种使用薄膜型电子源的显示装置,其具有能够以简单的制造工艺形成的结构。 在阴极基板上形成下电极,保护绝缘层和中间膜。 在层间膜上还设置由金属膜下层和金属膜上层的叠层膜制成的上部总线电极。 在该像素中的上部总线电极的两个条状电极上形成由用于在下部电极和上部电极上的电子加速层的绝缘层构成的每个像素的薄膜型电子源的上部电极的膜, 通过溅射在相邻像素中的另一个上总线电极。 然后,由于金属膜下层的后退部分和相应的上部总线电极的金属膜上层的附着,上部电极由于自对准而分离。 因此,形成根据每个像素分离的薄膜型电子源。
    • 55. 发明授权
    • Display device
    • 显示设备
    • US07298080B2
    • 2007-11-20
    • US10929602
    • 2004-08-31
    • Yoshie KoderaMasakazu SagawaToshiaki KusunokiTetsu OhishiYuichi Sawai
    • Yoshie KoderaMasakazu SagawaToshiaki KusunokiTetsu OhishiYuichi Sawai
    • H01J63/04H01J1/62
    • H01J29/864H01J29/085H01J31/127H01J2329/8625
    • A flat type display device is provided which is capable of accurately and easily assembling a spacer when arranging the spacer while reducing the danger of damaging the metal back. In the display device, a plurality of fine holes each having a fluorescent materials are formed on a light transparency substrate and a metal sheet is arranged by a black oxide film formed on the surface of the light transparency substrate side so as to obtain a light absorbing layer. A plurality of concave portions are provided on a surface of the metal sheet of the rear substrate side. A metal back having an openings corresponding to predetermined areas containing each of the concave portions is superimposed on the metal sheet, thereby constituting an acceleration electrode of two-layer structure. The spacer is inserted into the concave portion on the metal sheet exposed in the opening of the metal back.
    • 提供一种扁平型显示装置,其能够在布置间隔物的同时准确且容易地组装间隔物,同时减少损坏金属背的危险。 在显示装置中,在透光性基板上形成有多个具有荧光材料的细孔,并且通过在透光性基板侧的表面上形成的黑色氧化膜配置金属片,以获得光吸收 层。 在后基板侧的金属板的表面上设置有多个凹部。 具有对应于包含每个凹部的预定区域的开口的金属背部叠加在金属片上,从而构成两层结构的加速电极。 将间隔件插入暴露在金属背的开口中的金属片上的凹部中。
    • 58. 发明申请
    • Image display device and the manufacturing method therefor
    • 图像显示装置及其制造方法
    • US20060216873A1
    • 2006-09-28
    • US11325551
    • 2006-01-05
    • Masakazu SagawaToshiaki KusunokiTomoki Nakamura
    • Masakazu SagawaToshiaki KusunokiTomoki Nakamura
    • H01L21/84H01L21/00
    • H01J29/04H01J1/30H01J31/127
    • The present invention provides an image display device, by which it is possible to prevent oxidation of a terminal in anodic oxidation processing of a bottom electrode (data line) to make up a thin-film type electron source, to improve production yield and high reliability, and to increase the thickness of an interlayer insulator formed at the same time. A resist pattern 18 to form a terminal 40A of data line is limited to the bus line of the terminal 40A. Width of the resist pattern 18 is set to a value approximately equal to a value of the width of the bus line of the terminal 40A so that the resist pattern may not be present on the glass substrate, which is positioned between bus lines. The resist pattern is discontinuously formed by providing a slit 18A in extending direction of the bus line of the terminal 40A. The size of the resist pattern 18 is set to a value to match the width of the electron source based on the above results.
    • 本发明提供一种图像显示装置,通过该图像显示装置,可以防止底部电极(数据线)的阳极氧化处理中的端子的氧化,以构成薄膜型电子源,以提高生产率和高可靠性 并且增加同时形成的层间绝缘体的厚度。 形成数据线的端子40A的抗蚀剂图案18被限制在端子40A的总线上。抗蚀剂图案18的宽度被设定为大致等于其中的总线的宽度的值 端子40A,使得抗蚀剂图案可以不存在于位于总线之间的玻璃基板上。 通过在端子40A的总线的延伸方向上设置狭缝18A来不连续地形成抗蚀剂图案。根据上述结果,将抗蚀剂图案18的尺寸设定为与电子源的宽度相匹配的值 。
    • 60. 发明申请
    • Image display device
    • 图像显示装置
    • US20060065895A1
    • 2006-03-30
    • US11237785
    • 2005-09-29
    • Toshiaki KusunokiMasakazu SagawaKazutaka Tsuji
    • Toshiaki KusunokiMasakazu SagawaKazutaka Tsuji
    • H01L29/76
    • H01J29/481H01J9/027
    • An interlayer insulator with a low taper angle is formed as a laminated film in which a silicon nitride film is formed on a silicon oxide film formed on the glass substrate side (field insulator side). Thus, an upper electrode of a cathode formed on the interlayer insulator is prevented from being broken, while a crossing portion between the upper electrode and a base electrode of the cathode is made low in capacitance. At the same time, sodium separated from glass of the substrate is blocked. Disconnection of the upper electrode is prevented due to the low taper angle of the interlayer insulator. Low capacitance is attained by increasing the film thickness of the interlayer insulator. The cathode is prevented from being contaminated with sodium separated from glass of the substrate.
    • 形成具有低锥角的层间绝缘体作为形成在玻璃基板侧(场绝缘体侧)上的氧化硅膜上形成氮化硅膜的层叠膜。 因此,防止形成在层间绝缘体上的阴极的上电极破坏,同时阴极的上电极和基极之间的交叉部分的电容变小。 同时,与基板玻璃分离的钠被阻断。 由于层间绝缘体的锥角较小,防止了上电极的断开。 通过增加层间绝缘体的膜厚可实现低电容。 防止阴极被与基板玻璃分离的钠污染。