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    • 51. 发明授权
    • Luminous discharge display device
    • 发光放电显示装置
    • US3956667A
    • 1976-05-11
    • US558495
    • 1975-03-14
    • Werner Veith
    • Werner Veith
    • H04N5/66H01J15/00H01J17/49H01J31/15H01J61/42H04N3/16H05B37/00
    • H01J17/498H01J61/42
    • A luminous discharge device having a gas filled, gas tight envelope. A cathode is disposed at one side interiorly of the envelope and a luminescent target is disposed at the opposite side of the envelope. An insulating substrate is perforated in the form of a matrix and is positioned intermediate of the cathode and the luminescent target. The insulating plate has a series of rows of anodes disposed on one side thereof and a series of columns of controlled electrodes arranged at the other side thereof in a direction which is generally perpendicular to the anodes. The spacing between the anodes and the cathode is of such a value as to induce a normal gas discharge therebetween while the spacing between the controlled electrodes and the luminescent target is arranged to be such as to prevent a normal gas discharge. By applying a suitable signal to develop a gas discharge adjacent to a given row of anodes and simultaneously applying a selected positive voltage to at least one of the control electrode columns, an electron flow can be induced through a specific one of the holes in the matrix to impinge upon a predetermined spot on the luminous target and thereby produce a video response.
    • 一种具有充气气封的发光放电装置。 阴极设置在外壳的内侧的一侧,发光靶设置在外壳的相对侧。 绝缘基板以矩阵的形式穿孔,并且位于阴极和发光靶之间。 绝缘板具有一排设置在其一侧上的一排阳极和一排控制电极,其排列在大体垂直于阳极的方向的另一侧。 阳极和阴极之间的间隔具有引起其间的正常气体放电的值,而控制电极和发光靶之间的间隔设置为防止正常的气体放电。 通过施加合适的信号以形成与给定行的阳极相邻的气体放电并且同时将选定的正电压施加到至少一个控制电极柱,可以通过矩阵中的特定一个孔诱导电子流 撞击发光目标上的预定点,从而产生视频响应。
    • 52. 发明授权
    • Luminescent display tube anode assembly comprising anode structures having channel-shaped conductive layers
    • 包含具有通道形导电层的阳极结构的发光显示管阳极组件
    • US3864591A
    • 1975-02-04
    • US46829474
    • 1974-05-08
    • NIPPON ELECTRIC KAGOSHIMA LIMI
    • AKAHANE FUMITAKEKOBAYAKAWA MASAKIYAWATA KAZUFUMI
    • H01J31/15H01J1/66H01J63/02
    • H01J31/15
    • An anode assembly for a luminescent display tube includes a substrate having a number of recesses of predetermined configuration formed in one major surface. An anode structure is formed in each of these recesses so that the anode structure conforms substantially to the shape of the recess. Each anode structure includes a layer of conductive material disposed on the bottom surface of the recess and projecting members or ridges of conductive material which are contiguous with the layer of conductive material and extend upward along the opposed side surfaces of the recess. When the anode structure is formed in an elongated recess, a channel shaped conductive layer results which is made up of the conductive layer on the bottom of the recess and the projecting members extending along the opposed sides of the recess.
    • 用于发光显示管的阳极组件包括在一个主表面上形成有多个具有预定构型的凹槽的基板。 在这些凹部的每一个中形成阳极结构,使得阳极结构基本上符合凹部的形状。 每个阳极结构包括设置在凹部的底表面上的导电材料层和与导电材料层邻接并且沿凹槽的相对侧表面向上延伸的导电材料的突出构件或脊。 当阳极结构形成在细长的凹槽中时,形成通道形状的导电层,其由凹槽底部的导电层构成,并且突出构件沿凹槽的相对侧延伸。
    • 58. 发明申请
    • ELECTRON BEAM DISPLAY
    • 电子束显示
    • US20120091878A1
    • 2012-04-19
    • US13248373
    • 2011-09-29
    • Minoru Ookoba
    • Minoru Ookoba
    • H01J31/15
    • H01J29/187H01J29/34H01J31/127
    • In an electron beam display in which electron-emitting devices 10 each emit an electron beam 5 that is non-uniform on the electron beam 5 irradiation surface of a corresponding pixel 7, the present invention allows possible luminance unevenness to be prevented while maintaining the brightness of a screen. The electron beam display includes light transmission suppressing portions 12 configured to cover respective light-transmitting apertures 8 each formed in the corresponding pixel 7 in order to allow light to be derived through the aperture, corresponding to a position on the electron beam 5 irradiation surface where the pixel 7 irradiated with the electron beam 5 by the electron-emitting device 10 exhibits the highest current density; and to have 10% to 28% of the aperture 8 in area.
    • 在电子束显示器中,电子发射器件10各自发射对应像素7的电子束5照射表面上不均匀的电子束5,本发明允许在保持亮度的同时防止可能的亮度不均匀 的屏幕。 电子束显示器包括光透射抑制部分12,其被配置为覆盖各自形成在对应的像素7中的各个透光孔8,以便允许光通过孔径导出,对应于电子束5照射表面上的位置 由电子发射器件10照射电子束5的像素7具有最高的电流密度; 并具有面积的10%至28%的孔径8。
    • 59. 发明授权
    • Vacuum fluorescent display having slit like openings
    • 具有狭缝状开口的真空荧光显示器
    • US06965194B2
    • 2005-11-15
    • US09933984
    • 2001-08-20
    • Sashiro UemuraJunko YotaniTakeshi NagasakoKazuo KobayashiHiroyuki Kurachi
    • Sashiro UemuraJunko YotaniTakeshi NagasakoKazuo KobayashiHiroyuki Kurachi
    • H01J29/04H01J31/12H01J31/15H01J1/88H01J1/304H01J1/62
    • H01J31/125Y10S977/952
    • A vacuum fluorescent display includes a front glass member, substrate, phosphor film, an electron-emitting portion, electron extracting electrode, and insulating support member. The front glass member has light transmission properties at least partly. The substrate opposes the front glass member through a vacuum space. The phosphor film is formed on that surface of the front glass member which opposes the substrate and has a predetermined display pattern. The electron-emitting portion is mounted on the substrate to oppose the phosphor film, and has an electron-emitting surface corresponding to the display pattern. The electron extracting electrode is arranged in the vacuum space between the electron-emitting portion and the phosphor film to be spaced apart from the electron-emitting portion by a predetermined distance. The insulating support member is formed on the substrate and adapted to support the electron extracting electrode and divide the electron-emitting surface of the electron-emitting portion into a plurality of regions.
    • 真空荧光显示器包括前玻璃构件,基板,荧光膜,电子发射部分,电子提取电极和绝缘支撑构件。 前玻璃构件至少部分具有透光性。 基板通过真空空间与前玻璃构件相对。 荧光体膜形成在前玻璃构件的与基板相对的表面上并且具有预定的显示图案。 电子发射部分安装在基板上以与荧光膜相对,并且具有对应于显示图案的电子发射表面。 电子提取电极被布置在电子发射部分和荧光膜之间的真空空间中,以与电子发射部分隔开预定距离。 绝缘支撑构件形成在基板上并且适于支撑电子提取电极并且将电子发射部分的电子发射表面分成多个区域。