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    • 4. 发明授权
    • Oxygen atom containing film for a thin-film electroluminescent element
    • 用于薄膜电致发光元件的含氧原子的膜
    • US4188565A
    • 1980-02-12
    • US884475
    • 1978-03-08
    • Etsuo MizukamiHiroshi KishishitaMasashi KawaguchiYoshihiro EndoKinichi Isaka
    • Etsuo MizukamiHiroshi KishishitaMasashi KawaguchiYoshihiro EndoKinichi Isaka
    • H05B33/22H05B33/02
    • H05B33/22
    • At least one silicon-oxynitride film is deposited on an electroluminescence layer for providing a uniform and stable dielectric layer for an electroluminescence display panel. The silicon-oxynitride film is deposited using a sputtering technique by mixing a small amount (1 mol%) of nitrous oxide (N.sub.2 O) gas into a sputtering gas such as nitrogen (N.sub.2) gas. Oxygen (O.sub.2) gas may be substituted for the N.sub.2 O gas mingled within the sputtering gas in the amount of five mol%. A target for sputtering is a pure silicon or sintered Si.sub.3 N.sub.4 plate. An R.F. discharge is provided so that the power flux density on the target becomes several to several ten W. The silicon-oxynitride film is derived by means of the reaction between ion sputtering and the sputtering gas. A dielectric layer is further provided for establishing high reliabiltiy high dielectric properties of the electroluminescence display panel, the dielectric layer being disposed together with the silicon-oxynitride film and being one of the group consisting of Al.sub.2 O.sub.3, SiO.sub.2, Ta.sub.2 O.sub.5, Si.sub.3 N.sub.4 and Y.sub.2 O.sub.3. The silicon-oxynitride flm which is injected by suitable ions such as P.sup.+, H.sup.+, He.sup.+, Ne.sup.+, or Ar.sup.+ may be further provided as the dielectric layer.
    • 在电致发光层上沉积至少一个氧氮化硅膜,为电致发光显示面板提供均匀稳定的电介质层。 通过将少量(1mol%)的一氧化二氮(N 2 O)气体混合到诸如氮气(N 2)的溅射气体中,使用溅射技术沉积氮氧化硅膜。 氧(O 2)气体可以以5mol%的量代替溅射气体内混合的N2O气体。 溅射靶是纯硅或烧结Si3N4板。 一个R.F. 提供放电,使得靶上的功率通量密度达到数十至几十W.通过离子溅射和溅射气体之间的反应导出氧氮化硅膜。 还提供了一种用于建立电致发光显示面板的高可靠性高介电特性的电介质层,该电介质层与氧氮化硅膜一起设置,并且是由Al 2 O 3,SiO 2,Ta 2 O 5,Si 3 N 4和Y 2 O 3组成的组之一。 可以进一步提供由适当的离子如P +,H +,He +,Ne +或Ar +注入的氧氮化硅flm作为电介质层。
    • 5. 发明授权
    • Thin-film electroluminescent display panel sealed by glass substrates
and the fabrication method thereof
    • 由玻璃基板密封的薄膜电致发光显示面板及其制造方法
    • US4213074A
    • 1980-07-15
    • US915447
    • 1978-06-14
    • Masashi KawaguchiHiroshi KishishitaEtsuo MizukamiYoshiharu Kanatani
    • Masashi KawaguchiHiroshi KishishitaEtsuo MizukamiYoshiharu Kanatani
    • H05B33/10B65B3/04H05B33/04
    • H05B33/04
    • A thin-film electroluminescent display panel is sealed by a pair of glass substrates for protecting itself from the environment. A protective liquid is introduced between a counter glass substrate and a substrate for supporting the electroluminescent display panel. The protective liquid comprises silicon oil or grease which assures the thin-film electroluminescent panel of preservation of the electroluminescent display panel. The counter glass substrate is bonded to the substrate through an adhesive of, for example, photocuring resin. A capillary tube is provided within the substrate for injecting the liquid under vacuum conditions. The counter glass substrate can be plate-shaped thereby eliminating a spacer. The liquid has the ability of spreading into pin holes generated on dielectric layers, and is resistant to high voltage, high humidity and high temperature, and is inert to layers constituting the thin-film electroluminescent display panel and has a small vapor pressure and a small coefficient of thermal expansion.
    • 薄膜电致发光显示面板由一对玻璃基板密封,以保护自身免受环境影响。 在对置玻璃基板和用于支撑电致发光显示面板的基板之间引入保护液。 保护液体包括硅油或润滑脂,其确保了电致发光显示面板的保存的薄膜电致发光面板。 反玻璃基板通过例如光固化树脂的粘合剂粘合到基板上。 在衬底内设置毛细管,用于在真空条件下注入液体。 反玻璃基板可以是板状的,从而消除间隔件。 该液体具有扩展到在电介质层上产生的针孔的能力,并且耐高压,高湿度和高温,并且对构成薄膜电致发光显示面板的层是惰性的,并且具有小的蒸气压和小的 热膨胀系数。
    • 6. 发明授权
    • Photo-image memory panel and activating method thereof
    • 照相图像存储器面板及其激活方法
    • US3967112A
    • 1976-06-29
    • US478614
    • 1974-06-12
    • Yoshiharu KanataniMasahiro IseEtsuo Mizukami
    • Yoshiharu KanataniMasahiro IseEtsuo Mizukami
    • G03G5/024H01J31/50
    • G03G5/024
    • Disclosed is a photo-image memory panel composed of an electroluminescent element which exhibits electrical polarization effects upon light excitation. Under the conditions when the panel is biased by DC voltage or DC offset voltage, light irradiation is applied to the panel to establish a light-activated polarized electric field of which the intensity is controllable in dependence upon a photo-image desired to be written into the panel. Then, the photo-image written into the panel is held while maintaining the polarized electric field. Thereafter, application of a predetermined voltage pulse enables the reading out of the photo-image in the form of light emission. Alternatively, in case of an electroluminescent element of which the light emission versus applied voltage characteristics involve the hysteresis phenomenon, a train of alternating current pulses are employed as reading-out pulses to maintain light emission corresponding to the read-out image.
    • 公开了一种由电致发光元件组成的光图像存储面板,其在光激发时具有电极化效应。 在面板被直流电压或直流偏移电压偏置的条件下,对面板施加光照射,以建立光活化极化电场,其强度可根据期望写入的光电图像而被控制 面板。 然后,在保持极化电场的同时保持写入面板的照片图像。 此后,施加预定的电压脉冲使得能够以光发射的形式读出照片。 或者,在发光与施加电压特性包含滞后现象的电致发光元件的情况下,采用一系列交流脉冲作为读出脉冲,以维持对应于读出图像的发光。
    • 7. 发明授权
    • Drive system for memory matrix panel
    • 内存矩阵面板驱动系统
    • US3946371A
    • 1976-03-23
    • US544337
    • 1975-01-27
    • Kenzoo InazakiYoshiharu KanataniMasahiro IseEtsuo MizukamiChuji Suzuki
    • Kenzoo InazakiYoshiharu KanataniMasahiro IseEtsuo MizukamiChuji Suzuki
    • G09G3/30G11C11/28
    • G09G3/30
    • The present disclosure is directed toward a drive method and circuit for a memory matrix panel which comprises a light-emitting body having hysteresis behavior responsive to application of a desired AC voltage, a plurality of horizontal electrodes disposed on a first major surface of the light-emitting body and a plurality of vertical electrodes disposed on a second major surface of the light-emitting body, each cross point of the both electrodes providing a light-emitting unit point in a matrix array. A period of the applied AC voltage includes at least three sections wherein, prior to the writing, erasing or reading of information, a horizontal maintenance pulse having an amplitude necessary to maintain light emittance is applied to the plurality of horizontal electrodes during the first section thereof and a vertical maintenance pulse having an amplitude necessary to maintain light emittance is applied to the vertical electrodes during the second section thereof. In order to perform the writing, erasing or reading of information on a selected cross point, the vertical (or horizontal) electrode associated with such point receives an enable pulse having the shape identical with that of the horizontal maintenance pulse but the phase shifted into the third section, whereas the associated horizontal (or vertical) electrode receives write, erase or read out each having a predetermined amplitude necessary to perform the write, erase or read operation, the respective amplitude being superimposed on the enable pulse.
    • 本公开涉及一种用于存储矩阵面板的驱动方法和电路,其包括响应于所需AC电压的施加而具有滞后行为的发光体,设置在所述发光体的第一主表面上的多个水平电极, 发光体和布置在所述发光体的第二主表面上的多个垂直电极,所述两个电极的每个交叉点提供矩阵阵列中的发光单元点。 所施加的AC电压的周期包括至少三个部分,其中在写入,擦除或读取信息之前,在多个水平电极的第一部分期间施加具有维持光发射所需的幅度的水平维持脉冲 并且在垂直电极的第二部分期间,向垂直电极施加具有维持光发射所必需的幅度的垂直维持脉冲。 为了执行对所选交叉点的信息的写入,擦除或读取,与该点相关联的垂直(或水平)电极接收具有与水平维持脉冲的形状相同形状的使能脉冲,但是移相到 而相关联的水平(或垂直)电极接收写入,擦除或读出,每个具有执行写入,擦除或读取操作所需的预定幅度,相应的幅度叠加在使能脉冲上。
    • 8. 发明授权
    • Photo-image memory panel and activating method therefor
    • 照片存储面板及其激活方法
    • US4024389A
    • 1977-05-17
    • US602669
    • 1975-08-07
    • Yoshiharu KanataniMasahiro IseEtsuo Mizukami
    • Yoshiharu KanataniMasahiro IseEtsuo Mizukami
    • G03G5/024G11C13/04H05B33/12H01J31/50
    • H05B33/12G03G5/024G11C13/047
    • Disclosed is a photo-image memory panel composed of an electroluminescent element which exhibits electrical polarization effects upon light excitation. Under the conditions when the panel is biased by DC voltage or DC offset voltage, light irradiation is applied to the panel to establish a light-activated polarized electric field of which the intensity is controllable in dependence upon a photo-image desired to be written into the panel. Then, the photo-image written into the panel is held while maintaining the polarized electric field. Thereafter, application of a predetermined voltage pulse enables the reading out of the photo-image in the form of light emission. Alternatively, in case of an electroluminescent element of which the light emission versus applied voltage characteristics involve the hysteresis phenomenon, a train of alternating current pulses are employed as reading-out pulses to maintain light emission corresponding to the read-out image.
    • 公开了一种由电致发光元件组成的光图像存储面板,其在光激发时具有电极化效应。 在面板被直流电压或直流偏移电压偏置的条件下,对面板施加光照射,以建立光活化极化电场,其强度可根据期望写入的光电图像而被控制 面板。 然后,在保持极化电场的同时保持写入面板的照片图像。 此后,施加预定的电压脉冲使得能够以光发射的形式读出照片。 或者,在发光与施加电压特性包含滞后现象的电致发光元件的情况下,采用一系列交流脉冲作为读出脉冲,以维持对应于读出图像的发光。
    • 9. 发明授权
    • Driving method for a thin-film electroluminescent element of a
three-layer construction
    • 三层结构的薄膜电致发光元件的驱动方法
    • US3975661A
    • 1976-08-17
    • US480723
    • 1974-06-19
    • Yoshiharu KanataniMasahiro IseEtsuo MizukamiChuji Suzuki
    • Yoshiharu KanataniMasahiro IseEtsuo MizukamiChuji Suzuki
    • G09G3/12G09G3/30H05B33/08H05B33/12H05B33/22H05B37/00
    • H05B33/08Y02B20/325
    • Disclosed is a driving method for a thin-film electroluminescent element of a three-layer construction which emits light and exhibits the hysteresis phenomenon within the light emission versus applied voltage characteristics. The light intensity is maintained and memorized at a predetermined value in the element by the application of a train of sustaining pulses of alternating voltage, the amplitude thereof being chosen at the voltage level appearing at the point in the hysteresis loop characteristics where the difference between the maximum light brightness on the voltage decreasing curve and the minimum light brightness on the voltage increasing curve is considerably large. The sustaining light brightness is controlled by varying the amplitude or the pulse width of the sustaining pulses. The information may be written, memorized and eliminated in the EL element as variations of the light brightness. To write or eliminate the information in the EL element, it is also effective to utilize external light excitation.
    • 公开了一种三层结构的薄膜电致发光元件的驱动方法,其发光并在发光与施加的电压特性之间表现出滞后现象。 通过施加一串交流电压的维持脉冲将光强度维持并存储在元件中的预定值处,其幅度在出现在磁滞回线特性中的点处的电压电平下选择,其中, 降压曲线上的最大光亮度和电压上升曲线上的最小光亮度相当大。 通过改变维持脉冲的幅度或脉冲宽度来控制维持光亮度。 信息可以在EL元件中写入,存储和消除,作为光亮度的变化。 为了写入或消除EL元件中的信息,使用外部光激发也是有效的。