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    • 2. 发明申请
    • Light guide touch screen
    • 导光板触摸屏
    • US20070084989A1
    • 2007-04-19
    • US10572624
    • 2004-09-14
    • Ruediger LangeVolker Schoellmann
    • Ruediger LangeVolker Schoellmann
    • G06M7/00H01J40/14
    • G02B6/0011G06F3/0421G06F2203/04109
    • The present invention relates to a display device with a detection system for detecting an input po- sition on a screen (301) of the display. A light guide (302) is arranged adjacent to the screen (301). The light guide (302) has a light source (308) arranged to emit light (310) into the light guide (302). The optical matching between the light guide (302) and its surroundings is adapted such that the light (310) of the light source (308) is normally confined within the light guide (302) by means of total internal reflection. However, a user establishing physi- cal contact with the light guide (302) perturbs the state of total internal reflection, and light (310) will be extracted from the light guide (302). In the display device, light detecting means (303) are arranged to detect said light (310) and relate this detection to an input position where the user contact occurred. The display is preferably an LCD, O-LED or P-LED type display.
    • 本发明涉及具有检测系统的显示装置,用于检测显示器的屏幕(301)上的输入位置。 导光板(302)被布置成与屏幕(301)相邻。 光导(302)具有布置成将光(310)发射到光导(302)中的光源(308)。 光导(302)及其周围之间的光学匹配适于使得光源(308)的光(310)通过全内反射被正常地限制在光导(302)内。 然而,与光导(302)建立物理接触的用户扰乱了全内反射的状态,并且光(310)将从光导(302)中提取。 在显示装置中,光检测装置(303)被布置成检测所述光(310),并将该检测与用户接触发生的输入位置相关联。 显示器最好是LCD,O-LED或P-LED型显示器。
    • 4. 发明授权
    • Method for manufacturing an organic light emitting device as well as such a device
    • 制造有机发光装置的方法以及这种装置
    • US08222635B2
    • 2012-07-17
    • US12532044
    • 2007-03-20
    • Bas Jan Emile Van RensRuediger Lange
    • Bas Jan Emile Van RensRuediger Lange
    • H01L35/24
    • H01L27/3288H01L51/5253H01L51/5256
    • An electronic device includes at least a substrate, an area on the substrate which has to be protected against moisture and/or oxygen, at least one contact, and an encapsulation layer system including at least a first inorganic layer. The at least one contact extends from the sealed area to a part of the substrate not sealed by the encapsulation layer system. The contact includes a shunt, which is an interruption bridged by an electrically conductive bridge. The first inorganic layer of the encapsulation system is applied so that it is in direct physical contact with the electrically conductive bridge. The bridge has a structure and shape which can be sealingly covered by the encapsulation layer system and is made from a material through which no moisture and/or oxygen can penetrate.
    • 一种电子器件至少包括一个衬底,该衬底上必须防止湿气和/或氧气的区域,至少一个触点,以及包括至少第一无机层的封装层系统。 所述至少一个接触件从所述密封区域延伸到所述衬底的未被所述封装层系统密封的部分。 触点包括一个分流器,它是由导电桥接桥接的中断。 应用封装系统的第一无机层,使其与导电桥直接物理接触。 该桥具有可被密封层系统密封地覆盖的结构和形状,并且由不会有水分和/或氧气穿透的材料制成。
    • 5. 发明申请
    • Bright Full Color Reflective Display
    • 明亮全彩反光显示屏
    • US20080094689A1
    • 2008-04-24
    • US11718765
    • 2005-11-09
    • Ramon Van GorkomSiebe De ZwartVolker SchollmannRuediger LangeYvonne Kruijt-StegemanRogier Winters
    • Ramon Van GorkomSiebe De ZwartVolker SchollmannRuediger LangeYvonne Kruijt-StegemanRogier Winters
    • G02F1/167G02F1/23G02F1/13
    • G02F1/23G02F1/133553G02F1/1506G02F1/167
    • A full color high brightness reflective display (200, 250, 300, 350) is formed from individual multifaced pyramid-like reflectors (400, 450, 500, 600, 725, 800). Each face (410, 420, 460, 470 510, 520, 610, 620, 730, 740, 810, 820) of the reflector specularly reflects two of the three primary colors of incident light (461, 481, 581, 661, 781, 861), and can be controlled to either reflect, diffusely or specularly, or absorb the other primary color, thereby controlling a color of reflected light (462, 482, 582, 662, 782, 862). A liquid crystal layer (415, 425, 465, 475) may be used at each face, with a polarization filter (480) at the entrance to the reflector, or combined with the layer. An electro wetting cell (514, 524) or an electrophoretic layer (615, 625) may also be used. A deposition layer formed by reversible metal deposition may be used. A movable, dynamic foil mechanism (850) may also be used. The display may be made up of multiple reflectors (210, 220, 260, 270, 310, 320, 360, 370) arranged in a repeating pattern.
    • 单色多角锥体反射器(400,450,500,600,725,800)形成全色高亮度反射显示器(200,250,3300,350)。 反射镜的每个面(410,420,460,470,520,610,620,730,740,810,820)镜面反射入射光(461,481,581,671,781)的三原色中的两个 ,861),并且可以被控制以反射,漫反射或镜面反射或吸收另一个原色,从而控制反射光(462,482,582,662,782,862)的颜色。 可以在每个面处使用液晶层(415,425,465,475),在反射器的入口处使用偏振滤光器(480),或者与层结合。 还可以使用电润湿池(514,524)或电泳层(615,625)。 可以使用通过可逆金属沉积形成的沉积层。 还可以使用可移动的动态箔机构(850)。 显示器可以由以重复图案排列的多个反射器(210,220,260,270,310,320,360,370)组成。
    • 6. 发明授权
    • System for the automatic establishment of a shortwave telegraphy signal
connection
    • 用于自动建立短波电报信号连接的系统
    • US4555806A
    • 1985-11-26
    • US479771
    • 1983-03-28
    • Wolf-Ruediger LangeAnton WesselUdo BohlerKlaus VolkheimerGunter GreinerPeter Islet
    • Wolf-Ruediger LangeAnton WesselUdo BohlerKlaus VolkheimerGunter GreinerPeter Islet
    • H04B7/22H04L1/20H04B17/00
    • H04L1/20H04B7/22
    • A system for the automatic establishment of a shortwave telegraphy signal connection between two transmitter-receiver stations within a frequency range subdivided into several channels. Both stations use their receiver to determine objective measurement values reflecting the transmission conditions over the individual channels. Active and passive channel analysis of the actual quality of the signal transmission is determined at each channel. The transmitter of the calling station is automatically tuned to the channel which corresponds to the best channel quality stored in its memory. A predetermined time after transmitting the call signal, the calling station switches to reception and upon reception of an acknowledgment signal from the counter station automatically begins the message transmitting-and-receiving operation. If after a predetermined time no acknowledgment signal is received, the transmitter automatically switches to the channel stored in its memory with the next best channel quality value.
    • 一种用于在频率范围内的两个发射机 - 接收机站之间自动建立短波电报信号连接的系统,其被细分成几个信道。 两个站都使用其接收机来确定反映各个信道上的传输条件的客观测量值。 在每个通道确定信号传输的实际质量的主动和被动信道分析。 主叫台的发射机被自动调谐到对应于存储在其存储器中的最佳信道质量的信道。 在发送呼叫信号之后的预定时间,呼叫站切换到接收,并且在从对方站接收到确认信号时,自动开始消息发送和接收操作。 如果在预定时间之后没有接收到确认信号,则发射机以下一最佳信道质量值自动切换到存储在其存储器中的信道。
    • 7. 发明申请
    • METHOD FOR MANUFACTURING AN ORGANIC LIGHT EMITTING DEVICE AS WELL AS SUCH A DEVICE
    • 用于制造有机发光装置的方法,作为这样的装置
    • US20100084641A1
    • 2010-04-08
    • US12532044
    • 2007-03-20
    • Bas Jan Emile Van RensRuediger Lange
    • Bas Jan Emile Van RensRuediger Lange
    • H01L51/54H01L51/56
    • H01L27/3288H01L51/5253H01L51/5256
    • Electronic device comprising at least: a substrate; an area on the substrate which has to be protected against moisture and/or oxygen; at least one contact; an encapsulation layer system comprising at least a first inorganic layer the at least one contact extending from the said sealed area to a part of the substrate not sealed by the encapsulation layer system, the contact comprising a shunt, i.e. an interruption which interruption is bridged by a electrically conductive bridge; the first inorganic layer of the encapsulation system being applied so that it is in direct physical contact with the electrically conductive bridge; the bridge having a structure and shape which can be sealingly covered by the encapsulation layer system and is made from a material through which no moisture and/or oxygen can penetrate. The invention also provides a method for manufacturing such a device.
    • 电子装置至少包括:基板; 衬底上必须防止水分和/或氧气的区域; 至少一个联系人; 封装层系统,包括至少一个第一无机层,所述至少一个接触件从所述密封区域延伸到所述衬底的未被所述封装层系统密封的部分,所述接触件包括分流器,即,所述中断通过 导电桥; 所述封装系统的第一无机层被施加以使其与所述导电桥直接物理接触; 该桥具有能够被密封层系统密封地覆盖的结构和形状,并且由不含水分和/或氧气可渗透的材料制成。 本发明还提供了一种用于制造这种装置的方法。
    • 9. 发明申请
    • Line-at-a-time foil display
    • 线上一次性箔片显示
    • US20070008260A1
    • 2007-01-11
    • US10557343
    • 2004-05-14
    • Ramon Van GorkomPeter DuineVolker SchoemannRuediger LangeSiebe De Zwart
    • Ramon Van GorkomPeter DuineVolker SchoemannRuediger LangeSiebe De Zwart
    • G09G3/34
    • G09F9/372G02B26/02
    • A display device comprising a light guide (12), a front plate (14), and an intermediate electromechanically operable foil (16). Two electrode layers (22, 23) are arranged on either side of the foil (16) to induce electrostatic forces on the foil (16) and to bring selected portions of the foil into contact with the light guide (12), thereby extracting light from the light guide (12). The second electrode layer (22) is arranged on the opposite side of the light guide (12) with reference to the foil (16), and separated from the light guide (12) by means of a refractive layer (28). As no electrode layer is required on the light guide itself, the light path of rays extracted from the light guide is cleaner, and the absorption of light is reduced. The light guide can have a thickness such that the light extracted from the light guide per unit length is sufficient to allow for line-at-a-time addressing
    • 一种显示装置,包括导光体(12),前板(14)和中间机电操作箔(16)。 两个电极层(22,23)布置在箔(16)的任一侧上以在箔(16)上引起静电力,并使箔的选定部分与光导(12)接触,从而提取光 从光导(12)。 第二电极层(22)相对于箔(16)设置在导光体(12)的相反侧,并且通过折射层(28)与光导(12)分离。 由于在导光体本身不需要电极层,所以从导光体抽出的光线的光路更清洁,并且减少了光的吸收。 光导可以具有这样的厚度,使得从每个单位长度的光导提取的光足以允许一次寻址