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    • 2. 发明公开
    • 평면배열형 수광 소자를 이용한 광 측정 장치 및 방법
    • 使用平面阵列式光接收装置测量光的装置和方法
    • KR1020030093786A
    • 2003-12-11
    • KR1020020031637
    • 2002-06-05
    • 주식회사 한택정보통신연구진흥원
    • 주관종최재식양진세지광순김억연정기우김도훈김은하송경수이지연
    • G01J1/00
    • G01J1/4228G01J1/4257G01M11/088G01M11/33
    • PURPOSE: An apparatus and a method for measuring light by using a planar array type light receiving device are provided to precisely measure a shape and uniformity of light radiated from optical waveguide. CONSTITUTION: An optical measuring apparatus includes an optical switch(100), a waveguide array section(110), an x-axis moving device(120), a light receiving device(130), a z-axis moving device(140), a controller(150), a memory(160), a digital signal processor(170) and an LCD panel(180). The waveguide array section(110) includes a plurality of waveguide arrays, which are aligned in a row at a predetermined interval. The optical switch(100) selects one of the waveguide arrays in response to a control signal of the controller(150). The light receiving device(130) has a plurality of pixels aligned in a lattice pattern.
    • 目的:提供一种通过使用平面阵列型光接收装置测量光的装置和方法,以精确地测量从光波导辐射的光的形状和均匀性。 构成:光学测量装置包括光开关(100),波导阵列部分(110),x轴移动装置(120),光接收装置(130),z轴移动装置(140) 控制器(150),存储器(160),数字信号处理器(170)和LCD面板(180)。 波导阵列部分(110)包括多个波导阵列,它们以预定的间隔排成一行。 光开关(100)响应于控制器(150)的控制信号选择一个波导阵列。 光接收装置(130)具有以格子图案对准的多个像素。
    • 3. 发明公开
    • 양방향 광모듈
    • 双向光学模块
    • KR1020130075053A
    • 2013-07-05
    • KR1020110143249
    • 2011-12-27
    • 주식회사 한택
    • 최재식김도훈김중택주관종김효겸
    • G02B6/42
    • G02B6/26G02B6/4246
    • PURPOSE: A bidirectional optical module is provided to perform bidirectional signal transmission and to minimize the size of an optical module and to reduce manufacturing costs. CONSTITUTION: A bidirectional optical module (100) a first optical transmission member (20), a second optical transmission member (30), a wavelength filter part (40), an optical conversion device (50), an electrical optical conversion device (60), and a controller (70). The first optical transmission member is formed lengthways to one direction. An optical signal is transferred to the first optical transmission member. The second optical transmission member is formed lengthways to one direction and receives the optical signal. The second optical transmission member is combined with the first optical transmission member by light. The wavelength filter part is arranged between the first optical transmission member and the second optical transmission member. The wavelength filter part passes a first optical signal which is entered from the second optical transmission member and has a wavelength of a first area band and reflects a second optical signal which is entered from the second optical transmission member and has a wavelength of a second area band. The optical conversion device receives the first optical signal by being combined with the first optical transmission member by the light. The electrical optical conversion device receives the second optical signal by being combined with the second optical transmission member. The controller is electrically connected to the optical conversion device and the electrical optical conversion device and analyzes an electric signal which is transformed in the optical conversion device. The controller applies the electric signal to the electrical optical conversion device so that the second optical signal is transmitted from the electrical optical conversion device. [Reference numerals] (AA) Reception; (BB) Transmission
    • 目的:提供双向光模块来执行双向信号传输,并最大限度地减小光模块的尺寸并降低制造成本。 构成:双向光学模块(100),第一光传输构件(20),第二光传输构件(30),波长滤波器部分(40),光转换装置(50),电光转换装置 )和控制器(70)。 第一光传输构件沿一个方向纵向形成。 光信号被传送到第一光传输部件。 第二光传输构件沿一个方向纵向形成并接收光信号。 第二光传输部件通过光与第一光传输部件组合。 波长滤波器部分布置在第一光传输部件和第二光传输部件之间。 波长滤波器部分通过从第二光传输部件输入的具有第一区域频带的波长的第一光信号,并反射从第二光传输部件输入的具有第二区域波长的第二光信号 带。 光转换装置通过与第一光传输部件的光组合而接收第一光信号。 电光转换装置通过与第二光传输部件组合来接收第二光信号。 控制器电连接到光转换装置和电光转换装置,并分析在光转换装置中变换的电信号。 控制器将电信号施加到电光转换装置,使得从电光转换装置发送第二光信号。 (附图标记)(AA)接收; (BB)传输
    • 4. 发明授权
    • 파장 다중 분할 커플러 장치를 이용한 양방향 광모듈
    • 파장다중분할커플러장치를이용한양방향광모듈
    • KR100465650B1
    • 2005-01-13
    • KR1020020028732
    • 2002-05-23
    • 주식회사 한택
    • 주관종최재식양진세지광순김억연정기우김도훈김은하송경수이지연
    • G02B6/42
    • PURPOSE: A bidirectional optical module using a WDM(Wavelength Divisional Multiplexing) coupler is provided to manufacture an accurate substrate by using a semiconductor silicon process and a passive alignment method. CONSTITUTION: A bidirectional optical module using a WDM coupler includes a light receiving device(118), a light emitting device(120), a WDM coupler, and a substrate(110). The WDM coupler includes two lines(132a,132b) and a common line. The lines(132a,132b) are optically coupled to the light receiving device(118) and the light emitting device(120). The lines(132a,132b) are unified by the common line. The substrate(110) includes an optical device installation portion(112) and an optical line installation portion(114). The receiving device(118) and the light emitting device(120) are installed on the optical device installation portion(112). The lines(132a,132b) are installed on the optical line installation portion(114).
    • 目的:提供使用WDM(波分多路复用)耦合器的双向光学模块,以通过使用半导体硅工艺和被动对准方法来制造精确的衬底。 构成:使用WDM耦合器的双向光模块包括光接收装置(118),发光装置(120),WDM耦合器和衬底(110)。 WDM耦合器包括两条线路(132a,132b)和一条公共线路。 线(132a,132b)光学耦合到光接收装置(118)和发光装置(120)。 线(132a,132b)由公用线统一。 基板(110)包括光学装置安装部分(112)和光学线路安装部分(114)。 接收装置(118)和发光装置(120)安装在光学装置安装部分(112)上。 线路(132a,132b)安装在光线路安装部分(114)上。
    • 5. 发明授权
    • 광모듈 패키지
    • 광모듈패키지
    • KR100415754B1
    • 2004-01-24
    • KR1020020004426
    • 2002-01-25
    • 주식회사 한택
    • 주관종최재식양진세김상모지광순김억연정기우김은하김도훈송경수이지연
    • G02B6/00
    • PURPOSE: An optical module package is provided to previously prevent the thermal stress to the spiral optical fiber coupled to the optical device. CONSTITUTION: An optical module package includes an optical device(140), an optical fiber(120), a substrate(130), a thermal expansion correction member(190), a package sidewall. The optical fiber(120) having a predetermined period without having a coated layer from the end is optically connected to the optical device(140). The thermal expansion correction member(190) supports the substrate(130) at a specific portion. And, the package sidewall is provided with a first part for supporting the optical fiber(120) at the position being spaced apart from the substrate(130) and a second part for supporting the specific portion of the thermal expansion correction portion at the position being spaced apart from the specific portion at a direction opposite to the first part. In the optical module package, the thermal expansion correction member(190) has a thermal expansion coefficient being larger than that of the package side wall.
    • 目的:提供光学模块封装以预先防止耦合到光学装置的螺旋光纤的热应力。 构成:光模块封装包括光学器件(140),光纤(120),衬底(130),热膨胀校正构件(190),封装侧壁。 具有预定周期而没有从末端起具有涂层的光纤(120)光学连接到光学装置(140)。 热膨胀修正部件190在特定部位支撑基板130。 并且,封装侧壁在与基板(130)隔开的位置设置有用于支撑光纤(120)的第一部分和用于支撑热膨胀校正部分的特定部分的第二部分, 在与第一部分相反的方向上与特定部分间隔开。 在光模块封装中,热膨胀修正部件(190)的热膨胀系数大于封装件侧壁的热膨胀系数。
    • 6. 发明授权
    • 광접속 장치 및 그 제조방법
    • 光学连接装置及其制造方法
    • KR101093668B1
    • 2011-12-15
    • KR1020100064821
    • 2010-07-06
    • 주식회사 한택
    • 최재식김도훈김중택김효겸주관종정광영
    • G02B6/40
    • G02B6/40G02B6/04G02B6/428G02B6/4411H05K3/4638
    • PURPOSE: An optical connection apparatus and a manufacturing method thereof are provided to secure positional precision and beam parallelization between optical fibers which form an optical fiber array by laminating a plurality of substrates in which a through hole is formed and fitting the size of the through hole. CONSTITUTION: A plurality of substrates(110) is laminated while being separated and supports an optical fiber array(200). A plurality of through holes, which corresponds to the arrangement of a plurality of optical fibers, is formed. A plurality of optical fibers forms the optical fiber array. The plurality of the substrates is laminated so that the arrangement of a plurality of through holes is matched. A plurality of space maintenance devices in which the side of the substrate is matched with a longitudinal direction is arranged in a space between substrates.
    • 目的:提供一种光学连接装置及其制造方法,以通过层叠形成有通孔的多个基板来确保形成光纤阵列的光纤之间的位置精度和光束平行化,并且将通孔的尺寸 。 构成:分离多个基板(110)并支撑光纤阵列(200)。 形成对应于多根光纤的布置的多个通孔。 多根光纤形成光纤阵列。 层叠多个基板,使得多个通孔的布置相匹配。 在基板之间的空间中布置有多个基板的侧面与纵向配合的空间维护装置。
    • 7. 发明公开
    • 파장 다중 분할 커플러 장치를 이용한 양방향 광모듈
    • 使用WDM耦合器的双向光模块
    • KR1020030090431A
    • 2003-11-28
    • KR1020020028732
    • 2002-05-23
    • 주식회사 한택
    • 주관종최재식양진세지광순김억연정기우김도훈김은하송경수이지연
    • G02B6/42
    • PURPOSE: A bidirectional optical module using a WDM(Wavelength Divisional Multiplexing) coupler is provided to manufacture an accurate substrate by using a semiconductor silicon process and a passive alignment method. CONSTITUTION: A bidirectional optical module using a WDM coupler includes a light receiving device(118), a light emitting device(120), a WDM coupler, and a substrate(110). The WDM coupler includes two lines(132a,132b) and a common line. The lines(132a,132b) are optically coupled to the light receiving device(118) and the light emitting device(120). The lines(132a,132b) are unified by the common line. The substrate(110) includes an optical device installation portion(112) and an optical line installation portion(114). The receiving device(118) and the light emitting device(120) are installed on the optical device installation portion(112). The lines(132a,132b) are installed on the optical line installation portion(114).
    • 目的:提供使用WDM(波分复用)​​耦合器的双向光模块,通过使用半导体硅工艺和无源对准方法制造精确的衬底。 构成:使用WDM耦合器的双向光学模块包括光接收装置(118),发光装置(120),WDM耦合器和基板(110)。 WDM耦合器包括两条线(132a,132b)和一条公共线。 线(132a,132b)光耦合到光接收装置(118)和发光装置(120)。 线(132a,132b)由公共线统一。 基板(110)包括光学装置安装部(112)和光线路安装部(114)。 接收装置(118)和发光装置(120)安装在光学装置安装部分(112)上。 线路(132a,132b)安装在光线路安装部分(114)上。
    • 8. 发明公开
    • 실리콘 블록을 이용한 어레이 광 콜리메이터
    • 使用硅块的阵列光学收缩机
    • KR1020030064285A
    • 2003-07-31
    • KR1020030002482
    • 2003-01-14
    • 주식회사 한택
    • 양진세주관종최재식김상모지광순김억연정기우김은하김도훈송경수이지연
    • G02B6/32
    • PURPOSE: An array optical collimator by using a silicon block is provided to manufacture a precise substrate by using a semiconductor silicon process as a previously set standard process and to form in low costs and simply by utilizing the passive alignment method using the same. CONSTITUTION: An array optical collimator(100) by using a silicon block includes a lens(120), an optical fiber(130), a lens array block, an optical fiber array block and a base substrate(110). In the array optical collimator(100), the lens array block aligns the plurality of lenses in the form of array and made of a lens array substrate(116) and a lens array cover(118). The optical fiber array block aligns the plurality of optical fibers in the form of array and made of the optical fiber array substrate(112) and the optical fiber array cover(114). And, the base substrate(110) performs the optical connection for the passive alignment between the lens array block and the optical fiber array block.
    • 目的:提供使用硅块的阵列光学准直器,通过使用半导体硅工艺作为先前设定的标准工艺来制造精确的衬底,并且以低成本形成,并且简单地通过利用其使用的被动对准方法。 构成:通过使用硅块的阵列光学准直器(100)包括透镜(120),光纤(130),透镜阵列块,光纤阵列块和基底(110)。 在阵列光学准直器(100)中,透镜阵列块以阵列的形式对准多个透镜,并由透镜阵列基板(116)和透镜阵列盖(118)制成。 光纤阵列块将阵列形式的多根光纤对齐,由光纤阵列基板(112)和光纤阵列盖(114)制成。 并且,基底基板(110)对透镜阵列块和光纤阵列块之间的无源对准进行光连接。
    • 9. 发明公开
    • 광소자가 집적된 광섬유 블럭
    • 光学阵列与光学设备集成
    • KR1020030038023A
    • 2003-05-16
    • KR1020010069428
    • 2001-11-08
    • 주식회사 한택
    • 주관종최재식양진세김상모지광순김억연정기우김은하김도훈송경수이지연
    • G02B6/42
    • G02B6/2852G02B6/3636G02B6/4202G02B6/4219G02B6/4249
    • PURPOSE: An optical array block integrated with optical devices is provided to simplify a fabrication process by integrating and miniaturizing detection modules detecting the intensity of optical signals. CONSTITUTION: A plurality of V-shaped grooves are formed on an upper surface of a block substrate(100). A plurality of optical fibers(101) are installed on the V-shaped grooves of the block substrate(100). A block cap(200) is installed on an upper portion of the optical fibers(101). A groove is formed on the block substrate(100) corresponding to a region in which the block cap(200) is removed. A medium panel(110) is covered on the block substrate(100) between adhesive prevention grooves(105). An optical device substrate(120) is located on a center portion of the medium panel(110). An electric wire(118) and a bonding pad(117) are formed on an upper face of the medium panel(110).
    • 目的:提供与光学器件集成的光学阵列块,通过集成和小型化检测模块的光学信号强度来简化制造过程。 构成:在块基板(100)的上表面上形成有多个V形槽。 多个光纤(101)安装在块状基板(100)的V形槽上。 块盖(200)安装在光纤(101)的上部。 在块状基板(100)上形成有对应于去除块盖(200)的区域的槽。 中间面板(110)在阻挡基板(100)之间被覆盖在防粘接凹槽(105)之间。 光学器件基板(120)位于介质板(110)的中心部分。 在介质板(110)的上表面上形成电线(118)和焊盘(117)。
    • 10. 发明公开
    • 어레이 광 콜리메이터
    • 阵列光学吸收器
    • KR1020130016456A
    • 2013-02-15
    • KR1020120145453
    • 2012-12-13
    • 주식회사 한택
    • 최재식김도훈김중택주관종김효겸
    • G02B27/30G02B6/40
    • G02B27/30G02B3/0006G02B6/30G02B6/3672G02B6/403
    • PURPOSE: An array optical collimator using a passive alignment method is provided to easily and accurately arrange an optical fiber array and a lens array. CONSTITUTION: An array optical collimator(1000) includes a lens array block(100), an optical fiber array block(200), and a base board(300). The lens array block arranges multiple lenses in an array form. The optical fiber array block arranges multiple optical fibers in an array form. The base board combines the lens array block and the optical fiber array block and composes optical coupling between the lens array block and the optical fiber array block. The optical axial direction of the optical fiber is inclined to the optical axial direction of the lens, and light outputted from the optical fiber enters the lens in the optical axial direction of the lens.
    • 目的:提供使用无源对准方法的阵列光学准直器,以容易且准确地布置光纤阵列和透镜阵列。 构造:阵列光学准直器(1000)包括透镜阵列块(100),光纤阵列块(200)和基板(300)。 透镜阵列块以阵列形式布置多个透镜。 光纤阵列块以阵列形式布置多条光纤。 基板组合透镜阵列块和光纤阵列块,并构成透镜阵列块和光纤阵列块之间的光耦合。 光纤的光轴方向与透镜的光轴方向倾斜,从光纤输出的光在透镜的光轴方向上进入透镜。