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91. 发明公开

EP3114517A2 METHODS OF FORMING A FIBER COUPLING DEVICE AND FIBER COUPLING DEVICE 审中-公开
标题翻译： VERFAHREN ZUR HERSTELLUNG EINER FASERKOPPLUNGSVORRICHTUNG UND FASERKOPPLUNGSVORRICHTUNG
公开(公告)号：EP3114517A2
公开(公告)日：2017-01-11
申请号：EP15709815.3
申请日：2015-03-04
申请人： CCS Technology, Inc.
发明人： DE JONG, Michael , FORTUSINI, Davide Domenico , MATISS, Andreas , SPREEMANN, Martin , TEN HAVE, Eric Stephan
IPC分类号： G02B6/42
CPC分类号： G02B6/4214 , B23K2203/42 , B23K2203/50 , B29C64/135 , B29C64/35 , B29K2105/0058 , B29L2031/36 , B33Y10/00 , B33Y40/00 , B33Y80/00 , G02B6/138 , G02B6/4221 , G02B6/4239 , G02B6/424 , G02B6/4243 , G02B6/425 , G02B6/4257
摘要： The application provides a method of forming a fiber coupling device comprising at least one optoelectronic and/or photonic element (50) and a fiber coupling alignment structure (5) that is optically transmissive, - wherein the method at least comprises: a) applying a polymerizable material (2) to the substrate surface (16) of the substrate (15), b) selectively polymerizing, using a method of 3D lithography, a region of the polymerizable material (2) so as to convert the region of the polymerizable material (2) into a polymer material (4), thereby forming at least one fiber coupling alignment structure (5) that comprises: - a support interface surface (6) at which the polymer material (4) is in direct contact with the substrate surface (16) of the substrate (15), - a fiber support region (7) adapted to support at least one optical fiber in an aligned position for optical coupling to the substrate (15), and - a reflection surface (8) for reflecting light propagating between an optical fiber and the substrate (15), and c) cleaning the substrate (15) and the polymer material (4) from remaining non-polymerized polymerizable material (2), thereby exposing the at least one fiber coupling alignment structure (5) of the fiber coupling device (1).
摘要翻译：该应用提供了形成光纤耦合器件的方法，该光纤耦合器件包括至少一个光电子和/或光子元件（50）和光学透射的光纤耦合对准结构（5），其中该方法至少包括：a）可聚合材料（2）到基板（15）的基板表面（16），b）使用3D光刻的方法选择性聚合可聚合材料（2）的区域，以便将可聚合材料的区域（2）转化成聚合物材料（4），从而形成至少一个纤维耦合对准结构（5），该结构包括： - 支撑界面（6），聚合物材料（4）与基底表面直接接触（15）的光纤耦合器（16）; - 光纤支撑区域（7），其适于将至少一个光纤支撑在对准位置以与所述衬底（15）进行光学耦合;以及 - 反射表面（8）在光学f之间传播的光以及c）从剩余的未聚合的可聚合材料（2）清洁所述基底（15）和所述聚合物材料（4），从而暴露所述至少一个纤维结合对准结构（5）光纤耦合器（1）。

92. 发明公开

EP3018510A1 OPTICAL MODULE HAVING OPTICAL BLOCK FOR PASSIVE OPTICAL ALIGNMENT AND METHOD FOR MANUFACTURING SAME 审中-公开
标题翻译：用光学块及其制造无源光学对准和方法光模块
公开(公告)号：EP3018510A1
公开(公告)日：2016-05-11
申请号：EP14819310.5
申请日：2014-07-07
申请人： Ls Mtron Ltd.
发明人： LEE, Seung Hun , KIM, Young Ho , WOO, Kyung Nyung , LEE, Ick Kyun , PARK, Keon Cheol
IPC分类号： G02B6/13
CPC分类号： G02B6/424 , G02B6/00 , G02B6/32 , G02B6/4204 , G02B6/4221 , G02B6/4227 , G02B6/423 , G02B6/4242 , G02B6/4255 , G02B6/4257 , G02B6/4274 , G02B6/43
摘要： The present invention relates to an optical module which is modularized including an optical element and an optical transmission member for mass data high-speed transmission of a board in a device and mass data high-speed transmission between devices, and in which optical alignment is completed between the optical element and the optical transmission member in the module, thereby removing an optical alignment error occurring when mounting it on an external PCB substrate, and provides an optical module includes an optical transmission member (100), an optical element 200, a substrate 210, an electrode pad 220 between the optical element 200 and an external circuit, and optical block 300 including an optical transmission member mounting portion, wherein the optical transmission member mounting portion is formed on the optical block in an optical axis direction such that optical transmission efficiency is the maximum. In addition, a manufacturing method of the optical module includes mounting and electrically connecting the optical element 200 on one face of the substrate 210, calculating a position on a 2-dimensional plane of an optical input/output point of the optical element 200, then forming a base material of the optical block 300 to impregnate the optical element 200 onto the substrate 210, thereafter, forming the optical transmission member mounting portion 310 at the position on the 3-dimensional plane of the optical input/output point calculated in the former step on the base material, and mounting the optical transmission member 100 on the optical transmission member mounting portion 310.
摘要翻译：本发明涉及到光模块的所有被模块化包括用于在设备之间的设备和大容量数据的高速传输的基板的大容量数据的高速传输的光传输部件的光学元件上，并且，并且其中光学对准完成所述光学元件和所述模块中的光传输部件之间，由此在光学对准误差去除时发生上安装它到外部PCB的基板，并提供了光模块包括光学元件200，一基底的光传输部件（100） 210至电极垫220的光学元件200之间，并且连接到外部电路，并且光学块300包括上光学传输部件安装部，worin光传输构件安装部分在光轴方向上搜索该光学块上形成在没有光传输效率为最大。此外，该光学模块的制造方法包括：装配和电在基板210的一个面的光学元件200的连接，在计算的位置上的二维平面的光学输入的光学元件200的/输出点，然后形成光学块300的基体材料浸渍光学元件200到基底210，之后，在形成光传输部件的位置处关于前计算的光输入/输出点的三维平面安装部310 步骤在基材上，并且安装所述光传输部件100中的光传输部件上安装部第三百一十

93. 发明公开

EP2416368A1 OPTICAL COMMUNICATION MODULE AND MANUFACTURING METHOD THEREFOR 审中-公开
标题翻译：优质KOMMUNIKATIONSMODUL UND VERFAHREN ZU SEINER HERSTELLUNG
公开(公告)号：EP2416368A1
公开(公告)日：2012-02-08
申请号：EP10758681.0
申请日：2010-03-30
申请人： AutoNetworks Technologies, Ltd. , Sumitomo Wiring Systems, Ltd. , Sumitomo Electric Industries, Ltd.
发明人： HAYASHI, Shigeo
IPC分类号： H01L31/02 , G02B6/42
CPC分类号： G02B6/4221 , G02B6/4206 , G02B6/423 , H01L2224/48091 , H01L2224/48247 , H01L2224/48464 , H01L2924/181 , H01L2924/3025 , H01L2924/00014 , H01L2924/00 , H01L2924/00012
摘要： An optical communication module and a method for manufacturing the optical communication module is expected to be provided, which can prevent deterioration in performance due to the positional aberration of photoelectric conversion unit in the photoelectric conversion device, lens, optical fiber and the like. A connector 21 and an optical receiver are arranged on the lower surface of the photodiode 20. A recess portion 12a is arranged with a peripheral wall 12 on the upper surface of basement 10 in an OSA 1, to support a conductive plate 30 having an opening portion 31. A lens 15 and a cylindrical portion 11 are arranged on the lower surface of basement 10. The basement 10, cylindrical portion 11, peripheral wall 12 and lens 15 are integrally formed with transparent synthetic resin. The photodiode 20 is connected to the conductive plate 30 inside the recess portion 12a, and then the recess portion 12a is sealed with a cover 40. The light come from an optical fiber 9 is collected by the lens 15, passed through the transparent basement 10, and received by the optical receiver of photodiode 20 through the opening portion 31 of conductive plate 30.
摘要翻译：期望提供一种光通信模块和用于制造光通信模块的方法，其可以防止由于光电转换装置，透镜，光纤等中的光电转换单元的位置像差导致的性能劣化。连接器21和光接收器布置在光电二极管20的下表面上。凹槽部分12a在OSA 1的基底10的上表面上设置有周壁12，以支撑具有开口的导电板30 透镜15和圆筒部分11布置在基底10的下表面上。基底10，圆筒部11，周壁12和透镜15与透明合成树脂一体地形成。光电二极管20与凹部12a内的导电板30连接，然后用盖40密封凹部12a。来自光纤9的光被透镜15收集，通过透明基底10 并由光电二极管20的光接收器通过导电板30的开口部分31接收。

94. 发明公开

EP1231769A3 Mehrstrahl-Abtastvorrichtung zur Abtastung eines fotoempfindlichen Materials mit einem Multi-Spot-Array sowie Verfahren zur Korrektur der Position von dadurch erzeugten Bildpunkten 审中-公开
标题翻译：多光束扫描用于扫描的感光材料具有多点阵列和方法，用于校正这样形成的图像点的位置
公开(公告)号：EP1231769A3
公开(公告)日：2007-10-03
申请号：EP01129508.6
申请日：2001-12-11
申请人： HELL Gravure Systems GmbH & Co. KG
发明人： Fischer, Jörg-Achim , Gebhardt, Axel , Jacobsen, Thomas , Sievers, Horst , Steinke, Dirk
IPC分类号： H04N1/04 , B41C1/05
CPC分类号： H04N1/04 , G02B6/4221 , G02B6/425 , H04N2201/046
摘要： Die Erfindung betrifft eine Mehrstrahl-Abtastvorrichtung (6) zur Abtastung eines fotoempfindlichen Materials (3) mit einem Multi-Spot-Array, umfassend eine Mehrzahl von Fiberlaser-Fiberexits (19), die jeweils lösbar in eine Aufnahme (23) einer Halterung (18) der Mehrstrahl-Abtastvorrichtung (6) eingesetzt sind. Die Erfindung betrifft weiter ein Verfahren zur Korrektur der Position von Bildpunkten eines Multi-Spot-Arrays, das durch Abbildung einer Mehrzahl von Fiberlaser-Fiberexits (19) einer Mehrstrahl-Abtastvorrichtung (6) auf einem in Bezug zur Mehrstrahl-Abtastvorrichtung (6) bewegten fotoempfindlichen Material (3) und durch Unterbrechung, Ablenkung und/oder Intensitätsmodulation von aus den Fiberexits (19) austretenden Laserstrahlenbündeln (14) erzeugt wird. Um eine Erzeugung eines sehr präzisen Multi-Spot-Arrays zu ermöglichen, das bei Verwendung des fotoempfindlichen Materials als Druckvorlage keine sichtbaren störenden Muster auf dem Endprodukt verursacht, wird erfindungsgemäß vorgeschlagen, die Fiberexits (19) jeweils mit einem zuvor festgelegten Drehwinkel in Bezug zu ihrer Achse in eine Aufnahme (23) einer Halterung (18) der Mehrstrahl-Abtastvorrichtung (6) einzusetzen, so dass sämtliche Bildpunkte in Bezug zu ihrer Soll-Position im Wesentlichen die gleiche Winkelausrichtung aufweisen, und anschließend die Abstände der einzelnen Bildpunkte von ihren Soll-Positionen, soweit erforderlich, durch Ablenkung der Laserstrahlenbündel (14) und/oder durch Verzögerung des Auftreffzeitpunkts der Laserstrahlenbündel (14) auf dem fotoempfindlichen Material (3) auf Null oder nahe Null zu verkleinern.

95. 发明公开

EP1355125A3 Method for determining core positions of optical element array and an apparatus for determining core positions thereof 审中-公开
标题翻译：用于确定所述核心层用于光学元件的矩阵的核心层的判定的方法，和设备
公开(公告)号：EP1355125A3
公开(公告)日：2007-05-23
申请号：EP03251972.0
申请日：2003-03-28
申请人： NGK INSULATORS, LTD.
发明人： Matsumoto, Akira, c/o Intellectual Property Dept. , Fukuyama, Masashi, c/o Intellectual Property Dept. , Kurimoto, Hironori c/o Intellectual Property Dept.
IPC分类号： G02B6/42 , G02B6/38
CPC分类号： G02B6/4249 , G02B6/3803 , G02B6/4221
摘要： There are provided a method for determining core positions of an optical fiber array capable of simply determining core positions of optical elements on the substrate with high accuracy, and an apparatus therefor. The apparatus includes a stage for moving an optical fiber array in which one or more optical fibers are aligned and secured in a predetermined direction, a light source for causing white light to be incident on one end face of the optical fiber, imaging means for imaging light emitted from other end face of the optical fiber, and a control section for controlling position of the stage and imaging means, and determining a core position of each optical fiber from the image imaged by the imaging means; the control section calculating an image distance to make the diameter of the emitted light displayed on the other end face of the optical fiber in the image minimum.

96. 发明公开

EP1591813A1 Verfahren zur Ausrichtung eines Lichtwellenleiters in Bezug auf eine optische Einheit eines optischen Moduls, optisches Modul und Bausatz mit einem optischem Modul 有权
标题翻译：光纤相对于对准的光学模块的光学单元，光学模块和光学模块套件，所述的方法
公开(公告)号：EP1591813A1
公开(公告)日：2005-11-02
申请号：EP04090085.4
申请日：2004-03-04
申请人： Infineon Technologies AG
发明人： Hurt, Hans
IPC分类号： G02B6/42
CPC分类号： G02B6/4226 , G02B6/4221 , G02B6/4292
摘要： Bezeichnung der Erfindung: Verfahren zur Ausrichtung eines Lichtwellenleiters in Bezug auf eine optische Einheit eines optischen Moduls, optisches Modul und Bausatz mit einem optischen Modul.
Die Erfindung betrifft ein Verfahren zur Ausrichtung eines Lichtwellenleiters in Bezug auf eine optische Einheit (1), die in oder an einem optischen Modul angeordnet ist. Das optische Modul weist eine Referenzgeometrie (2) aufweist, die eine erste Symmetrieachse (20) definiert. Erfindungsgemäß wird ein Versatz zwischen der optischen Achse (10) der optischen Einheit (1) und der Symmetrieachse (20) der Referenzgeometrie (2) festgestellt. Es wird dann ein Koppelelement (4), insbesondere eine Hülse bereitgestellt, das der Aufnahme eines in Bezug auf die optische Einheit (1) auszurichtenden Lichtwellenleiters dient und das hierzu eine durch eine Innenfläche (41) begrenzte Bohrung (43) aufweist, wobei die Innenfläche (41) eine zweite Symmetrieachse (420) definiert. Das Koppelelementes (4) wird in Bezug auf das optische Modul derart angeordnet, dass die zweite Symmetrieachse (420) mit der optischen Achse (10) der optischen Einheit (1) zusammenfällt. Dabei verlaufen die erste Symmetrieachse (20) und die zweite Symmetrieachse (420) parallel zueinander und weisen einen Versatz zueinander auf, der im wesentlichen gleich dem Versatz zwischen der optischen Achse (10) der optischen Einheit (1) und der ersten Symmetrieachse (20) der Referenzgeometrie (2) ist. Die Erfindung stellt des weiteren ein entsprechendes optisches Modul und einen Bausatz mit einem optischen Modul und mehreren Koppelelementen bereit.
摘要翻译：该方法包括确定在采矿的光学单元的光轴（10）和之间的参考几何对称性（410）的轴线以抵消。一个套管可提供确实用于接收在光波导没有被相对于光学单元取向，并且具有孔确实定义了对称性（420）的轴线。该套筒相对于光学模块以搜索安排，DASS模具对称性（420）与所述光轴一致。因此独立权利要求中包括了以下内容：（A）光模块包括：光学单元（B）的光学模块的结构试剂盒，包括光学单元的。

97. 发明公开

EP1355125A2 Method for determining core positions of optical element array and an apparatus for determining core positions thereof 审中-公开
标题翻译：用于确定所述核心层用于光学元件的矩阵的核心层的判定的方法，和设备
公开(公告)号：EP1355125A2
公开(公告)日：2003-10-22
申请号：EP03251972.0
申请日：2003-03-28
申请人： NGK INSULATORS, LTD.
发明人： Matsumoto, Akira, c/o Intellectual Property Dept. , Fukuyama, Masashi, c/o Intellectual Property Dept. , Kurimoto, Hironori c/o Intellectual Property Dept.
IPC分类号： G01B11/02
CPC分类号： G02B6/4249 , G02B6/3803 , G02B6/4221
摘要： There are provided a method for determining core positions of an optical fiber array capable of simply determining core positions of optical elements on the substrate with high accuracy, and an apparatus therefor. The apparatus includes a stage for moving an optical fiber array in which one or more optical fibers are aligned and secured in a predetermined direction, a light source for causing white light to be incident on one end face of the optical fiber, imaging means for imaging light emitted from other end face of the optical fiber, and a control section for controlling position of the stage and imaging means, and determining a core position of each optical fiber from the image imaged by the imaging means; the control section calculating an image distance to make the diameter of the emitted light displayed on the other end face of the optical fiber in the image minimum.
摘要翻译：提供了用于光纤阵列能够在与高准确度的基板的光学元件的简单的确定性采矿芯位置的确定性采矿核心位置的方法，以及为此装置。该装置包括用于移动到光纤阵列，其中一个或多个光纤被对准并固定在预定方向上，光源，用于使白色光入射到该光纤的一个端面的阶段，成像装置，用于拍摄从该光纤的另一端面，以及用于控制阶段和成像手段的位置的控制部，和确定性采矿各光纤从由成像部件拍摄到的图像的核心位置发射的光; 控制部分计算图像的距离，使显示在所述光纤中的图像的最小的另一端面射出的光的直径。

98. 发明公开

EP0984259A4 IMAGE PROCESSOR FOR OBSERVING OPTICAL FIBER 有权
标题翻译： BILDVERARBEITUNGSANLAGE ZURPRÜFUNGVON OPTISCHEN FASERN
公开(公告)号：EP0984259A4
公开(公告)日：2000-04-19
申请号：EP99902815
申请日：1999-02-03
申请人： FURUKAWA ELECTRIC CO LTD
发明人： KOJIMA HIDEKAZU , MISHIMA SEIRYO
IPC分类号： G01M11/00 , G02B6/255 , G02B6/38 , G02B6/42
CPC分类号： G02B6/2555 , G01M11/37 , G02B6/2551 , G02B6/4221
摘要： Image capturing means for capturing image data from more than two television cameras (1) has more than two different capturing modes. One of the modes is automatically selected in relation to or irrespective of the progress of the image processing, and therefore, high speed processing is realized even though the data-capturing rate is limited. On the succeeding stage of the image capturing means, a scanning changing means is provided. Data is transmitted between the scanning changing means and the image capturing means in one of transmission modes. On the preceding stage of the scanning changing means, a delay means is provided.
摘要翻译：用于从多于两个电视摄像机（1）捕获图像数据的图像捕获装置具有多于两种不同的捕获模式。相对于或不管图像处理的进展而自动选择其中一种模式，因此即使数据捕获速率有限也可实现高速处理。在图像捕获装置的后续阶段，提供扫描改变装置。在扫描改变装置和图像捕获装置之间以一种传输模式传输数据。在扫描改变装置的前一级，提供延迟装置。

99. 发明公开

EP0760489A2 Assembly of an optical module 失效
标题翻译：组装的光学模块
公开(公告)号：EP0760489A2
公开(公告)日：1997-03-05
申请号：EP96303361.8
申请日：1996-05-14
申请人： FUJITSU LIMITED
发明人： Komoriya, Hitoshi, c/o Fujitsu Ltd. , Koezuka, Tetsuo, c/o Fujitsu Ltd. , Yabuki, Akihiko, c/o Fujitsu Ltd. , Nakamura, Yutaka, c/o Fujitsu Ltd. , Hirahara, Takao, c/o Fujitsu Ltd. , Goto, Yoshiro, c/o Fujitsu Ltd.
IPC分类号： G02B27/62
CPC分类号： G02B6/4227 , G02B6/4221 , G02B6/4222 , G02B6/4237
摘要： A method for producing an optical module assembly includes the steps of illuminating an optical surface of an optical device (12b, 12d) included in an optical module (12), acquiring an image of the optical surface of the optical module, obtaining a position of an end surface of the optical fiber (19) with respect to the optical surface of the optical device based upon the image of the optical surface, and positioning the end surface of said optical fiber at the position thus obtained. An apparatus for carrying out the method is also disclosed.

100. 发明公开

EP0757227A2 Alignment and lighting system and method for aligning and lighting an object for an inspection system that contactlessly measures an offset of a central feature of the object 失效
标题翻译：调整和照明系统和方法，用于测量所述非接触沉积物体的中心特征的控制系统调节和照明物体
公开(公告)号：EP0757227A2
公开(公告)日：1997-02-05
申请号：EP96305376.4
申请日：1996-07-23
申请人： AT&T IPM Corp.
发明人： Csipkes, Andrei , Palmquist, John Mark
IPC分类号： G01B11/00 , G02B6/38
CPC分类号： G02B6/3843 , G02B6/4221 , G02B6/4227
摘要： An alignment and lighting system aligns and lights an optical fiber termination so that an inspection system can measure the eccentricity of an optical fiber core relative to the termination. The inspection system has an imaging system comprising a feature imager and one or more boundary segment imagers but preferably four in number, a machine vision system connected to the imaging system, and an alignment and lighting system for aligning the termination with the imaging system and lighting the termination without having to launch light therethrough. The feature imager is positioned to capture an image of the fiber core endface, and the one or more boundary segment imagers are positioned to capture an image of a corresponding boundary segment of the termination endface. The machine vision system determines the offset, or eccentricity, based upon the feature image and the one or more boundary segment images. The alignment and lighting system includes an alignment apparatus and a unique lighting scheme. The alignment apparatus has a plurality of alignment arms that are spaced apart via spacings to form a cross-shaped aperture that is engaged with the termination endface. Light is projected toward the exposed regions at a light projection angle that is outside the light acceptance angle associated with the fiber core. As a result, light is not generally received by the core, and light is scattered within and reflects out from the fiber cladding and the termination support material surrounding the cladding.
摘要翻译：的对准和照明系统对准并灯光纤端接所以没有在检查系统可以测量光学相对于所述终止一个光纤芯的偏心度。该检查系统具有成像系统，包括在数量上，连接到成像系统的机器视觉系统的特征成像器和一个或多个边界段的成像器，但优选为四个，并在对准和照明系统，用于与成像系统和照明对准终止终止，而不必从那里发射光。特征成像器被放置为捕捉光纤芯端面的图像，并且所述一个或多个边界段成像器定位成捕获终止端面的一个相应的边界段的图像。机器视觉系统的确定性地雷的偏移量，或者偏心率，基于所述特征图像和所述一个或多个边界段的图像。的对准和照明系统包括在对准装置和一个独特的照明方案。对准装置具有对准臂的多元性隔开经由间隔做以形成十字形孔并与终止端面接合。光在一个光投射角朝向的暴露区域投射所做的是与纤维芯相关联的光接收角的外侧。其结果是，光不通过核心接收基因反弹，并且光被散射内并且从光纤包层和周围的包层中的终止支撑材料反射出。

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