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    • 1. 发明授权
    • Multi channel optical transmitter/receiver module and manufacturing method thereof
    • 多通道光发射机/接收机模块及其制造方法
    • US06860648B2
    • 2005-03-01
    • US10284627
    • 2002-10-30
    • Yong-Sung JinHyung-Jae LeeYung-Sung Son
    • Yong-Sung JinHyung-Jae LeeYung-Sung Son
    • G02B6/36G02B6/42
    • G02B6/4249G02B6/3636G02B6/3652G02B6/3692G02B6/4225G02B6/4243G02B6/4246G02B6/4257G02B6/4261G02B6/4274G02B6/4284G02B6/4292
    • An optical transmitter/receiver unit having an optical connector with an optical device array block and a multi channel optical fiber block is presented. The optical device array block includes at least one optical device for converting an electric signal to an optical signal or for converting an optical signal to an electrical signal. The optical devices is mounted on a silicon optical bench having a series of grooves for inserting, attaching and aligning each optical device. The optical device array block can be optically coupled to a multi channel optical fiber block that includes at least one optical fiber for transmitting an optical signal, the optical fiber being mounted in V-shaped grooves on a silicon V block. The V-shaped grooves on the V-block and the mounting grooves on the silicon optical bench allow for accurate alignment of each optical fiber with corresponding optical devices. In the optical device array block, a surface of metal lead connected to an electrode of optical device is formed widely so as to enable ball bonding of wires between the electrodes of the optical devices and the metal leads.
    • 本发明提供具有光学装置阵列块和多通道光纤块的光学连接器的光发射/接收装置。 光学器件阵列块包括用于将电信号转换为光信号或将光信号转换为电信号的至少一个光学器件。 光学器件安装在具有用于插入,附接和对准每个光学器件的一系列凹槽的硅光学台上。 光学器件阵列块可以光耦合到多通道光纤块,该多通道光纤块包括用于传输光信号的至少一个光纤,光纤被安装在硅V块上的V形槽中。 V形块上的V形槽和硅光学台上的安装槽允许每个光纤与相应的光学装置精确对准。 在光学元件阵列块中,与光学元件的电极连接的金属引线的表面广泛地形成,以便能够在光学器件的电极和金属引线之间进行电线的焊接。
    • 2. 发明授权
    • Miniaturized parallel optical transmitter and receiver module
    • 小型并联光发射机和接收机模块
    • US06821027B2
    • 2004-11-23
    • US10284629
    • 2002-10-30
    • Hyung Jae LeeYong-Sung JinYung-Sung Son
    • Hyung Jae LeeYong-Sung JinYung-Sung Son
    • G02B643
    • G02B6/4249G02B6/4201G02B6/4203G02B6/4239G02B6/4243G02B6/4261G02B6/4277G02B6/4281G02B6/4283G02B6/4284
    • The present invention relates to a module for parallel transmission and reception of an optical signals, and particularly a miniaturized module with a fixed optical coupler and a detachable electric connector is disclosed. A miniaturized optical signal transmission module according to the present invention comprises an electrical connector for coupling electric signals to a circuit board; an array of optical devices coupled to metal leads, the array of optical devices converting between optical signals and the electric signals; an optical fiber array block fixedly and optically coupled to the array of optical devices for transmitting the optical signals, wherein the metal leads are detachably coupled to the electrical connector part. The optical module can be miniaturized so that the entire system can be miniaturized. Accordingly, many advantages according to the miniaturization of the entire system can be obtained.
    • 本发明涉及一种并行传输和接收光信号的模块,特别涉及一种具有固定光耦合器和可拆卸电连接器的小型化模块。 根据本发明的小型化光信号传输模块包括用于将电信号耦合到电路板的电连接器; 耦合到金属引线的光学器件阵列,在光信号和电信号之间转换的光学器件阵列; 光纤阵列块,其固定地和光耦合到所述光学装置阵列,用于传输所述光学信号,其中所述金属引线可拆卸地联接到所述电连接器部分。 光学模块可以小型化,使得整个系统可以小型化。 因此,可以获得根据整个系统的小型化的许多优点。
    • 3. 发明授权
    • Rugged type multi-channel optical connector
    • 坚固型多通道光连接器
    • US06398424B1
    • 2002-06-04
    • US09608478
    • 2000-06-30
    • Yong-Sung JinHyung-Jae LeeYung-Sung Son
    • Yong-Sung JinHyung-Jae LeeYung-Sung Son
    • G02B636
    • G02B6/3696G02B6/3652G02B6/3855G02B6/3861G02B6/3885G02B6/3893G02B6/4249G02B6/4292
    • A multi-channel optical connector that includes a multi channel optical fiber block including at least one optical fiber capable of being optically coupled to at least one optical device. The multi-channel optical fiber block is incorporated in a plastic molding that is complimentary in shape to that of an optical device array block, and thus can be plugged into the optical device array block. The close tolerances maintained in manufacturing of the connector results in accurate alignment of the fibers captured in the multi-channel optical fiber block with the optical devices in the optical device array block. The close tolerances can be achieved by using MEMS (Micro Electro Mechanical System) processing techniques to manufacture the V-grooves in a silicon V-block, which is part of the multi-channel optical fiber block. Alternatively, V-grooves can be produced in the multi-channel optical fiber block by plastic molding. The connector includes a housing that surrounds the connector core and the buffered fiber that is outside the cable jacket to providing protection and strain relief for the fibers.
    • 一种多通道光连接器,其包括多通道光纤块,该多通道光纤块包括至少一个光纤,该光纤能够光耦合到至少一个光学器件。 多通道光纤块被结合在与光学器件阵列块的形状互补的塑料模制件中,并且因此可以插入到光学器件阵列块中。 在连接器的制造中保持的紧密公差导致捕获在多通道光纤块中的光纤与光学器件阵列块中的光学器件的精确对准。 通过使用MEMS(微机电系统)处理技术在作为多通道光纤块的一部分的硅V块中制造V形槽来实现紧密公差。 或者,可以通过塑料成型在多通道光纤块中产生V形槽。 连接器包括围绕连接器芯体的外壳和在电缆护套外部的缓冲光纤,以为纤维提供保护和应变消除。
    • 4. 发明授权
    • Method of manufacturing second harmonic generation device
    • 制造二次谐波发生装置的方法
    • US5759619A
    • 1998-06-02
    • US772805
    • 1996-12-24
    • Yong-Sung Jin
    • Yong-Sung Jin
    • H01S3/10G02F1/355G02F1/377B05D5/06
    • G02F1/3558G02F1/3775
    • A method of adaptively varying and locking a wavelength of high power infrared laser diode for use in a blue laser using second harmonic generation. The method including the steps of: forming a pattern for forming a periodic domain inverted area on a substrate of a non-linear medium; performing proton-exchange and quick heat-treatment for the substrate on which the pattern is formed to thereby form the periodic domain inverted area having predetermined period and width; forming a straight optical waveguide and a segmented optical waveguide, in the direction perpendicular to the periodic domain inverted area; and vacuum-evaporating an insulating buffer layer on the substrate where the periodic domain inverted area and the straight and segmented optical waveguides are formed and forming a metal electrode on the insulating buffer layer on the upper portion of the segmented optical waveguide to thereby execute polishing end facet and AR coating.
    • 一种自适应地改变和锁定用于使用二次谐波产生的蓝色激光器的大功率红外激光二极管的波长的方法。 该方法包括以下步骤:在非线性介质的衬底上形成用于形成周期性畴反转区域的图案; 对其上形成图案的基板进行质子交换和快速热处理,从而形成具有预定周期和宽度的周期性畴倒置区域; 在垂直于周期性域倒置区域的方向上形成直的光波导和分段的光波导; 真空蒸发基板上的绝缘缓冲层,其中形成了周期性畴反转区域和直的和分段的光波导,并且在分段光波导的上部的绝缘缓冲层上形成金属电极,由此执行抛光结束 面和AR涂层。