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公开(公告)号:KR100385401B1
公开(公告)日:2003-05-23
申请号:KR1020010008476
申请日:2001-02-20
Applicant: 전자부품연구원 , 주식회사 이노터치테크놀로지
Abstract: PURPOSE: A touch panel of a 5-wired electrode analogue resistor film method is provided to maintain a valid operation area having a sufficient straight property by separating a resistor chain of a touch panel of a 5-wired electrode system from new-formed voltage security pattern, extending a valid operation area of a sensor, and securing/changing a unit size and a voltage security pattern of the resistor chain. CONSTITUTION: A uniform resistor film(10) of a touch panel is formed on a base plate(12). A connection sheet is formed at the lower surface of a film using a transparent conductive film and combined on the resistor film(10) through the medium of an insulation frame at a predetermined interval. A resistor element(50) is arrayed for being overlapped with an adjacent unit according to units by making a predetermined formed unit(52) be formed as a discontinuously chain for exceeding an increasing rate of a surface area of a sensor, thereby supplying a linear output response by reducing a curve of equipotential lines according to the edge of the sensor. A voltage securing pattern(60) is arrayed for compensating a voltage deviation at an irregular interval by a detailed pattern through an etching of a surface of the resistor film(10) according to the inner edge of the resistor element(50) at a form completely separated from the resistor element(50).
Abstract translation: 目的:通过将5线电极系统的触摸面板的电阻器链与新形成的电压安全性分开来提供5线电极模拟电阻膜方法的触摸面板,以保持具有足够直线性的有效操作区域 模式,扩展传感器的有效操作区域,以及确保/改变电阻器链的单元尺寸和电压安全模式。 构成:触板的均匀电阻膜(10)形成在基板(12)上。 使用透明导电膜在膜的下表面形成连接片,并通过绝缘框架的介质以预定的间隔将该连接片组合在电阻膜(10)上。 通过使预定的成形单元(52)形成为不连续链以超过传感器的表面积的增加率,将电阻元件(50)排列成与相邻单元按照单元重叠,由此提供线性 通过根据传感器的边缘减少等势线的曲线来实现输出响应。 通过根据电阻器元件(50)的内边缘蚀刻电阻器膜(10)的表面,形成电压保护图案(60)以通过详细图案补偿不规则间隔处的电压偏差 与电阻元件(50)完全分离。
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公开(公告)号:KR1020020089082A
公开(公告)日:2002-11-29
申请号:KR1020010028414
申请日:2001-05-23
Applicant: 전자부품연구원
Abstract: PURPOSE: A method for manufacturing barrier ribs for a plasma sign display is provided to reduce barrier rib manufacturing procedures by easily forming an insulation film and barrier ribs at the substrate through the use of a squeeze device and open mask. CONSTITUTION: A method comprises the steps of forming a metal electrode(6) onto a glass substrate(10); and disposing an open mask at the glass substrate where the metal electrode is formed, and forming an insulation layer(7b) and barrier ribs(7a) at the same time by using a squeeze device(20) with a mold(22) of a predetermined shape. The insulation layer and barrier ribs are made of a powder paste obtained by synthesizing an insulating material and a binder. The insulating material is BaTiO3, Y2O3 or Al2O3. Since the insulation film and barrier ribs are simultaneously formed through the use of the squeeze device having a predetermined shape, the necessity of repeating screen printing is eliminated, to thereby simplify manufacturing procedures.
Abstract translation: 目的:提供一种用于制造等离子体标志显示器的隔壁的方法,以通过使用挤压装置和开口掩模在基板上容易地形成绝缘膜和阻挡肋来减少隔壁制造程序。 构成:一种方法包括在玻璃基板(10)上形成金属电极(6)的步骤; 并且在形成金属电极的玻璃基板上设置开口掩模,并且通过使用具有模具(22)的挤压装置(20)同时形成绝缘层(7b)和阻挡肋(7a) 预定形状。 绝缘层和隔壁由通过合成绝缘材料和粘合剂获得的粉末糊料制成。 绝缘材料为BaTiO3,Y2O3或Al2O3。 由于通过使用具有预定形状的挤压装置同时形成绝缘膜和隔肋,因此消除了重复丝网印刷的必要性,从而简化了制造步骤。
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公开(公告)号:KR1020020078317A
公开(公告)日:2002-10-18
申请号:KR1020010018655
申请日:2001-04-09
Applicant: 전자부품연구원
IPC: H01J17/00
Abstract: PURPOSE: A method for manufacturing plasma sign display is provided to manufacture display products having a high resolution at a low cost. CONSTITUTION: A method comprises a first step of producing a lower substrate by forming a metal electrode onto a glass substrate and an insulator onto the glass substrate; a second step of producing an upper substrate by forming a transparent electrode and a sub-metal electrode onto the glass substrate, coating the transparent electrode and the sub-metal electrode with a transparent insulator, coating the transparent insulator with a phosphor, forming a black matrix to the square part of the phosphor and aligning a ball space(S11) to the specific part of the black matrix; and a third step of producing a panel by vacuum sealing the lower substrate and upper substrate through a glass frit, and injecting a gas to the panel.
Abstract translation: 目的:提供一种用于制造等离子体显示器的方法,以低成本制造具有高分辨率的显示产品。 构成:一种方法包括:通过在玻璃基板上形成金属电极和将绝缘体形成在玻璃基板上来制造下基板的第一步骤; 通过在玻璃基板上形成透明电极和亚金属电极来制造上基板的第二步骤,用透明绝缘体涂覆透明电极和亚金属电极,用荧光体涂覆透明绝缘体,形成黑色 矩阵到磷光体的正方形部分,并将球空间(S11)与黑矩阵的特定部分对准; 以及通过玻璃料将所述下基板和上基板真空密封并将气体注入所述面板来制造面板的第三步骤。
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公开(公告)号:KR100288082B1
公开(公告)日:2001-06-01
申请号:KR1019970068058
申请日:1997-12-12
Applicant: 전자부품연구원
IPC: H01J31/15
Abstract: PURPOSE: A field emission display device is provided to reduce power consumption of a field emission display device by simplifying a structure of an electrode of the field emission display device. CONSTITUTION: A black matrix(90) for defining a main pixel(P) of a matrix shape and three sub-pixels within the main pixel(P) is formed on an upper portion of a transparent insulating substrate(60). A multitude of anode(71,72,73) are formed within the sub-pixels. The anodes(71,72,73) are used for inducing electrons emitted in sub-pixel units. R, G, and B fluorescent materials(81,82,83) having the same patterns as the anodes(71,72,73) are formed on upper portion of the anodes(71,72,73). R, G, and B connection portions(10,20,30) are formed on the same layer as the anode in order to connect one of the anodes(71,72,73).
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公开(公告)号:KR1020000041834A
公开(公告)日:2000-07-15
申请号:KR1019980057841
申请日:1998-12-23
Applicant: 전자부품연구원
IPC: H01J1/30
Abstract: PURPOSE: A field emission display device comprising a focusing electrode is provided to improve the image quality without forming a black matrix. CONSTITUTION: A field emission display device includes: a cathode substrate(1) and an anode substrate(6) facing each other; a cathode electrode(2) and a gate electrode(4) formed on the cathode substrate; an emitter(5) formed on the cathode electrode; an anode electrode(7) formed on a bottom surface of the anode substrate; an insulation film(3) formed on a bottom surface of the anode electrode; a fluorescent film formed on a bottom surface of the anode electrode revealed between the insulation films; and a focusing electrode(21) which is formed on a bottom surface of the insulation film and focuses emitted electrons into a desired pixel direction. According to the field emission display device, the image quality of high definition can be obtained by improving the focusing function of the focusing electrode.
Abstract translation: 目的:提供包括聚焦电极的场发射显示装置,以改善图像质量而不形成黑矩阵。 构成:场发射显示装置包括:阴极基板(1)和阳极基板(6),其彼此面对; 阴极电极(2)和形成在阴极基板上的栅电极(4); 形成在所述阴极电极上的发射极(5) 形成在阳极基板的底面上的阳极电极(7) 形成在所述阳极电极的底面上的绝缘膜(3) 形成在阳极电极的底面上的荧光膜,在绝缘膜之间露出; 以及聚焦电极(21),其形成在所述绝缘膜的底表面上并将发射的电子聚焦到期望的像素方向。 根据场发射显示装置,通过提高聚焦电极的聚焦功能可以获得高分辨率的图像质量。
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Patent Agency Ranking
公开(公告)号:KR1020000040227A
公开(公告)日:2000-07-05
申请号:KR1019980055803
申请日:1998-12-17
Applicant: 전자부품연구원
Abstract: PURPOSE: A method for manufacturing an electric field emitting display device and an emitter is provided to uniformly maintain the light emitting luminance level by uniformly maintaining the discharging of a current. CONSTITUTION: An emitter material is deposited on the lower substrate, and then mask and etching processes are accomplished to expose a portion of the lower substrate. Edge emitters which have a predetermined interval are formed on the lower substrate. A material for a lower gate electrode is deposited on the front surface of the upper portion of the edge emitter. Lower gate electrodes which has a predetermined interval are formed. An insulating material and a material for an upper gate electrode are sequentially deposited, and an insulating layer and an upper gate electrode are sequentially formed on the upper portion of the edge emitter and the lower gate electrode.
Abstract translation: 目的:提供一种用于制造电场发射显示装置和发射器的方法,以通过均匀地保持电流的放电来均匀地保持发光亮度水平。 构成:在下基板上沉积发射体材料,然后实现掩模和蚀刻工艺以暴露下部衬底的一部分。 在下基板上形成具有预定间隔的边缘发射体。 用于下栅极电极的材料沉积在边缘发射器的上部的前表面上。 形成具有预定间隔的下栅电极。 依次沉积绝缘材料和上部栅电极材料,在边缘发射极和下部栅电极的上部依次形成绝缘层和上部栅电极。
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公开(公告)号:KR1020150053081A
公开(公告)日:2015-05-15
申请号:KR1020130134832
申请日:2013-11-07
Applicant: 전자부품연구원
IPC: G01N27/60
Abstract: 본발명은마찰전기를이용한물질구별장치및 그방법에관한것으로, 보다상세하게는식별하고자하는물질로부터얻어지는마찰전기의시간에따른전압또는전류변화를이용하여물질을구별하고판단할수 있는마찰전기를이용한물질구별장치및 그방법에관한것으로, 각물질이마찰에의해발생하는주기적전기신호의상이함을이용하기때문에종래의물질구별과전혀다른매커니즘을이용한물질구별방법을제안하는효과가있다. 또한, 본발명은마찰전기발생을위한구동부와이에따른전기적신호획득및 비교판단부만으로구성될수 있어그 구조가간단한효과및 다양한물질에대한구별이가능하도록지원한효과가있다.
Abstract translation: 本发明涉及一种使用摩擦电的材料区别的装置及其方法,更具体地说,涉及使用摩擦电的材料区分装置及其方法,其能够使用电压或电流的变化来区分和确定材料 根据从要区分的材料获得的摩擦电力的时间。 由于使用每种材料中由摩擦产生的常规电信号的差异,提出了使用与常规材料区别完全不同的机制的材料区分方法。 此外,本发明包括:产生摩擦电的驱动单元; 以及确定单元,用于获得和比较电信号,从而简化其结构并区分各种材料。
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公开(公告)号:KR101469533B1
公开(公告)日:2014-12-05
申请号:KR1020130061787
申请日:2013-05-30
Applicant: 전자부품연구원
CPC classification number: G01N27/205 , G01N15/0826 , G01N33/0004 , G01N33/0027
Abstract: 본 발명은 물질의 수분, 산소 등을 포함하는 외기의 침투율을 측정하는 장치에 관한 것으로, 본 실시예에 따른 기판의 외기 침투율 측정을 위한 반응 물질 카트리지는 기판을 투과한 외기와의 접촉에 따라 반응하는 반응 물질을 포함하는 반응부; 상기 반응부를 수용하며, 상기 반응 물질의 상기 외기와의 접촉에 따른 변화를 측정하는 측정부에 탈착 가능한 카트리지 몸체; 및 상기 카트리지 몸체를 차폐하며, 상기 반응 물질과 상기 외기의 접촉을 위하여 상기 카트리지 몸체에서 박리되는 차폐수단을 포함한다. 본 발명에 따르면 카트리지화된 가스 투과도 측정 장치 및 방법을 이용함으로써 종래의 기술에 비해 정밀하고 신뢰성 있는 데이터 확보가 가능하여 플렉서블 AMOLED 등의 새로운 응용분야에 필요한 제품의 신뢰성 평가가 용이할 수 있다. 또한 기판이 수용되는 부분도 카트리지 형태로 제작하여 상대적으로 장착 및 지지가 자유롭지 않은 유연 기판을 측정하고자 할 때 장치 외부에서 간편하게 작업할 수 있어서 측정자 간의 균일도 오류를 줄일 수 있다.
Abstract translation: 本发明涉及一种用于测量包括材料的水分,氧气等的室外空气的渗透率的装置。 根据本实施方式,用于测量基板的室外空气渗透率的反应性材料筒包括:反应部,其包括反应性材料,所述反应性材料与通过所述基板的室外空气接触而反应; 容纳反应部分并且可以根据室外空气和反应性材料之间的接触测量变化的测量部件拆卸的盒体; 以及屏蔽装置,其屏蔽盒体并且为了反应性材料和室外空气之间的接触目的而从盒体剥离。 根据本发明,与现有技术相比,使用筒式气体透过率测量装置和方法可以确保更准确和可靠的数据,从而有助于新应用所需产品的可靠性评估,例如灵活性 AMOLED的。 此外,容纳衬底的部分可以以盒形式制造。 因此,在测量不能相对自由地安装和支撑的柔性基板时,可以方便地在设备的外部执行操作,从而减少测量者之间的均匀性误差。
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公开(公告)号:KR101322331B1
公开(公告)日:2013-10-28
申请号:KR1020110050014
申请日:2011-05-26
Applicant: 전자부품연구원
IPC: H01L31/115
Abstract: 본 발명에서는 직접형 digital X-ray radiography system용 TFT 백플레인 패널에 기존의 하부 게이트 박막 트랜지스터 소자 대신 상부 게이트 구조의 소자를 적용한다. 이에 따라 공정 단순화, 소자 구동 안정성 등이 보장된다.
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