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    • 1. 发明公开
    • FLUORESCENT LAMP AND IMAGE DISPLAY DEVICE
    • 荧光素酶在BILDANZEIGEVORRICHTUNG
    • EP2487706A1
    • 2012-08-15
    • EP10821761.3
    • 2010-02-23
    • Hitachi, Ltd.
    • SAGAWA, MasakazuIMAMURA, ShinKUSUNOKI, Toshiaki
    • H01J63/08H01J17/49H01J61/16H01J61/30
    • H01J17/00H01J11/22H01J11/34H01J11/50H01J17/04H01J17/066H01J17/20H01J17/49H01J61/16H01J65/04
    • To obtain effective luminance and light efficiency while avoiding discharge, it is necessary to sufficiently increase a current luminous efficiency of gas and an electron emission efficiency of an electron source. In a fluorescent lamp, an anode electric field is increased by setting a pressure of a noble gas or a molecular gas enclosed to 10 kPa or higher, setting an anode voltage to 240 V or lower, and setting a substrate distance to 0.4 mm or smaller. Furthermore, the resulting effect that the current luminous efficiency is increased in proportion to the electric field is used. Also, by applying a MIM electron source having an electron emission efficiency exceeding 10% as an electron source, a non-discharge fluorescent lamp having a light emission luminance equal to or larger than 10 4 [cd/m 2 ] and a light emission efficiency equal to or larger than 120 [lm/W] is achieved.
    • 为了在避免放电的同时获得有效的亮度和光效率,必须充分提高气体的电流发光效率和电子源的电子发射效率。 在荧光灯中,通过将惰性气体或分子气体的压力设定为10kPa以上,将阳极电压设定为240V以下,将衬底距离设定为0.4mm以下,来增加阳极电场 。 此外,使用与电场成比例地增加当前发光效率的结果。 此外,通过应用电子发射效率超过10%的MIM电子源作为电子源,具有等于或大于10 4 [cd / m 2]的发光亮度的非放电荧光灯和发光效率 等于或大于120 [lm / W]。
    • 3. 发明公开
    • Display device
    • 显示设备
    • EP1783801A2
    • 2007-05-09
    • EP06123360.7
    • 2006-11-02
    • Samsung SDI Co., Ltd.
    • Son, Seung-HyunPark, Hyoung-Bin
    • H01J17/49H01J17/20
    • H01J17/04H01J17/20H01J17/49H01J2211/42
    • Provided is a display device including: a first substrate (110) and a second substrate (120) facing each other and including a plurality of cells (114) between the first and second substrates; an electron accelerating and emitting unit(131, 132, 133,140) disposed between the first and second substrates, and accelerating and emitting electrons; a gas including N 2 filled in the cells, and excited by the electrons emitted by the electron accelerating and emitting unit to generate ultraviolet rays; and a light emitting layer (115) excited by the ultraviolet ray to generate visible light, and disposed on an outer surface of the first substrate or the second substrate. As a result, the voltage for driving the display device can be lowered, and the luminous efficiency of the device increases.
    • 提供了一种显示装置,包括:彼此面对并包括位于第一和第二基板之间的多个单元(114)的第一基板(110)和第二基板(120) 电子加速和发射单元(131,132,133,140),设置在所述第一和第二基板之间,并且加速和发射电子; 包含N2的气体填充在所述电池中,并且被所述电子加速和发射单元发射的电子激发以产生紫外线; 以及由所述紫外线激发以产生可见光的发光层(115),所述发光层(115)设置在所述第一基板或所述第二基板的外表面上。 结果,用于驱动显示装置的电压可以降低,并且装置的发光效率增加。
    • 6. 发明公开
    • Structures and methods for limiting current in ionizable gaseous medium devices
    • 电离器中的Strukturen und Verfahren zur Strombegrenzung Anordnungen
    • EP0798738A2
    • 1997-10-01
    • EP97302130.6
    • 1997-03-27
    • TEKTRONIX, INC.
    • Martin, Paul C.Buzak, Thomas S.Ilcisin, Kevin J.
    • G11C11/28G11C11/22
    • H01J17/485G02F1/13334G11C11/28H01J9/02H01J17/04H01J29/028H01J2329/00H01J2329/8625
    • This invention is a resistive layer (112, 122) for electrodes (30, 62) comprising at least one partially conductive compound and describes processes for coating the electrodes by way of cataphoretic deposition and/or screen printing of particles of at least one partially conductive compound. A second class of particles, known as a "frit," is also deposited or screen printed. In the subsequent one hour firing, these particles melt and thereby bond the partially conductive compound particles to the electrodes. This invention is also plasma addressing structures (110, 120) in which particles of at least one partially conductive compound are deposited on the electrodes of the display by cataphoretic deposition and/or screen printing. The resulting electrode structures limit and uniformly distribute discharge currents (102) in the operation of ionizable gaseous medium (90) devices, such as plasma addressed liquid crystal displays.
    • 本发明是一种用于包括至少一种部分导电化合物的电极(30,62)的电阻层(112,122),并且描述了通过阴极沉积和/或丝网印刷至少一种部分导电的颗粒的方法来涂覆电极 复合。 称为“玻璃料”的第二类颗粒也被沉积或丝网印刷。 在随后的一小时焙烧中,这些颗粒熔化,从而将部分导电的化合物颗粒结合到电极。 本发明还是等离子体寻址结构(110,120),其中至少一种部分导电化合物的颗粒通过阴极沉积和/或丝网印刷沉积在显示器的电极上。 所产生的电极结构在诸如等离子体寻址液晶显示器的可电离气体介质(90)装置的操作中限制和均匀分布放电电流(102)。