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    • 1. 发明授权
    • Optical fiber module
    • 光纤模块
    • US06769817B2
    • 2004-08-03
    • US10260493
    • 2002-10-01
    • Tsunetoshi SaitoJunichi HasegawaKanji TanakaKazuhisa Kashihara
    • Tsunetoshi SaitoJunichi HasegawaKanji TanakaKazuhisa Kashihara
    • G02B636
    • G02B6/30G02B6/36
    • An optical fiber module is formed by storing an optical component and a connection portion of this optical component and an optical fiber into a package. The optical fiber module has the package, the optical component unfixedly stored into the package, and the optical fiber in which one end side of the optical fiber is connected to the optical component and the other end side is pulled out of the package to the package exterior. An optical fiber anchor member is arranged in the package in an extraction preventing state in an optical fiber pulling-out area of the package. The optical fiber is fixed to the optical fiber anchor member. The optical fiber anchor member and the package are set to be relatively moved in the optical fiber longitudinal direction.
    • 通过将光学部件和该光学部件的连接部分和光纤存储到封装中来形成光纤模块。 光纤模块具有封装,光学部件未固定地存储在封装中,光纤的一端与光学元件连接的另一端侧被拉出封装 外观。 在封装的光纤拉出区域中,光纤锚固构件以防脱落状态设置在封装中。 光纤固定在光纤固定部件上。 光纤锚固构件和封装被设置为在光纤纵向方向上相对移动。
    • 3. 发明授权
    • Optical fiber module
    • 光纤模块
    • US06830384B2
    • 2004-12-14
    • US10352924
    • 2003-01-29
    • Junichi HasegawaTsunetoshi SaitoKanji TanakaKazuhisa Kashihara
    • Junichi HasegawaTsunetoshi SaitoKanji TanakaKazuhisa Kashihara
    • G02B636
    • G02B6/12026G02B6/125G02B6/30
    • An optical fiber module of the invention is a small-sized optical fiber module with small electric power consumption in which the characteristics are hardly deteriorated in association with environmental changes. The optical fiber module has a package, an optical component housed inside the package, and optical component holding parts disposed between the optical component and the package for holding the optical component. The configuration of holding the optical component by the optical component holding parts has a configuration of reducing heat conduction for reducing the heat conduction between the optical component and the package. The configuration of reducing heat conduction is such that the optical component holding parts hold the optical component in line contact.
    • 本发明的光纤模块是与环境变化相关的特性几乎不劣化的小型电力消耗小型光纤模块。 光纤模块具有封装,容纳在封装内的光学部件和设置在光学部件和封装之间用于保持光学部件的光学部件保持部。 通过光学部件保持部保持光学部件的结构具有减少热传导以减少光学部件与封装之间的热传导的结构。 降低热传导的结构是使得光学部件保持部件保持光学部件保持线接触。
    • 5. 发明授权
    • Optical waveguide module
    • 光波导模块
    • US06757453B2
    • 2004-06-29
    • US10098532
    • 2002-03-18
    • Yoshinobu NekadoTsunetoshi SaitoKazuhisa Kashihara
    • Yoshinobu NekadoTsunetoshi SaitoKazuhisa Kashihara
    • G02B612
    • G02B6/12014G02B6/1203G02B6/36
    • The present invention is an optical waveguide module having e.g., a high impact resisting property and a high vibration resisting property. An optical waveguide circuit chip is supported by at least a peripheral portion of an edge portion and is stored into a storing portion of a package. The optical waveguide chip is formed by arranging an optical waveguide forming area on a substrate. An elastic member for impact relaxation of the optical waveguide circuit chip is arranged in at least one portion of the vicinity of the edge portion of the optical waveguide circuit chip. For example, the elastic member is arranged in the vicinity of each of four corners of the optical waveguide circuit chip.
    • 本发明是具有高抗冲击性和高抗震性的光波导模块。 光波导电路芯片由边缘部分的至少周边部分支撑并被存储到封装的存储部分中。 光波导芯片通过在基板上布置光波导形成区域而形成。 在光波导路电路芯片的边缘部分的附近的至少一部分配置有用于光波导电路芯片的冲击弛豫的弹性部件。 例如,弹性构件布置在光波导路电路芯片的四个角中的每一个附近。
    • 6. 发明授权
    • Arrayed waveguide grating and method for compensating optical transmitting center wavelength of light traveling through the same
    • 阵列波导光栅和用于补偿光传播中心波长的光的传播方法
    • US06490395B1
    • 2002-12-03
    • US09667563
    • 2000-09-22
    • Kazutaka NaraTakeshi NakajimaTsunetoshi SaitoKazuhisa Kashihara
    • Kazutaka NaraTakeshi NakajimaTsunetoshi SaitoKazuhisa Kashihara
    • G02B626
    • G02B6/12014G02B6/1203
    • An arrayed waveguide grating including at least one first optical waveguide, a first slab waveguide, a plurality of arrayed waveguides, a second slab waveguide, and a plurality of second optical waveguides. The plurality of arrayed waveguides are connected to the at least one first optical waveguide via the first slab waveguide. Each of the plurality of arrayed waveguides has a different length. The plurality of second optical waveguides are connected to the plurality of arrayed waveguides via the second slab waveguide. At least one of the first and second slab waveguides is partitioned to first and second segments at a partition surface intersecting a path of light which travels through the arrayed waveguide grating. At least one of the first and second segments is configured to be slid along the partition surface to compensate an optical transmitting center wavelength of the light according to a temperature of the arrayed waveguide grating.
    • 阵列波导光栅,包括至少一个第一光波导,第一平板波导,多个阵列波导,第二平板波导和多个第二光波导。 多个阵列波导通过第一平板波导连接到至少一个第一光波导。 多个阵列波导中的每一个具有不同的长度。 多个第二光波导通过第二平板波导连接到多个阵列波导。 第一和第二平板波导中的至少一个在与穿过阵列波导光栅的光的路径相交的分隔表面处分隔成第一和第二段。 第一和第二段中的至少一个被配置为沿着分隔表面滑动,以根据阵列波导光栅的温度补偿光的透光中心波长。