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    • 8. 发明申请
    • Optical communication system manufacturing method
    • 光通信系统制造方法
    • US20050031353A1
    • 2005-02-10
    • US10501186
    • 2003-04-02
    • Yorishige IshiiToshihiro TamuraTetsuo IwakiYukio Kurata
    • Yorishige IshiiToshihiro TamuraTetsuo IwakiYukio Kurata
    • G02B6/42H04B10/00H04B10/2507H04B10/2581H04B10/12
    • H04B10/25
    • A position of a first module (12a) with respect to an optical fiber (11) is determined in accordance with a receiving efficiency at the first module (12a) with respect to light emitted from the optical fiber (11). Power of light coupled into the optical fiber (11) from the first module (12a) is set in accordance with a value of a far-end reflectivity on a side of the first module (12a) in the position so as to satisfy a predetermined formula. By giving priority to determining a condition that significantly influences an improvement of an eye opening ratio, it is possible to manufacture an optical communication system at a low cost and with more freedom in manufacturing. Thus provided is a method of manufacturing an optical communication system, the method allowing for manufacturing an optical communication system at a low cost and with more freedom in manufacturing.
    • 第一模块(12a)相对于光纤(11)的位置根据第一模块(12a)相对于从光纤(11)发射的光的接收效率来确定。 从第一模块(12a)耦合到光纤(11)中的光的功率根据在第一模块(12a)的一侧上的远端反射率的值被设定为满足预定的 式。 通过优先确定显着影响眼睛开度比的改善的条件,可以以低成本制造光通信系统并且具有更多的制造自由度。 因此,提供了一种制造光通信系统的方法,该方法允许以低成本制造光通信系统并且具有更多的制造自由度。
    • 9. 发明授权
    • Method of manufacturing optical communication system
    • 制造光通信系统的方法
    • US07319820B2
    • 2008-01-15
    • US10501186
    • 2003-04-02
    • Yorishige IshiiToshihiro TamuraTetsuo IwakiYukio Kurata
    • Yorishige IshiiToshihiro TamuraTetsuo IwakiYukio Kurata
    • H04B10/12H04B10/00
    • H04B10/25
    • A position of a first module (12a) with respect to an optical fiber (11) is determined in accordance with a receiving efficiency at the first module (12a) with respect to light emitted from the optical fiber (11). Power of light coupled into the optical fiber (11) from the first module (12a) is set in accordance with a value of a far-end reflectivity on a side of the first module (12a) in the position so as to satisfy a predetermined formula. By giving priority to determining a condition that significantly influences an improvement of an eye opening ratio, it is possible to manufacture an optical communication system at a low cost and with more freedom in manufacturing. Thus provided is a method of manufacturing an optical communication system, the method allowing for manufacturing an optical communication system at a low cost and with more freedom in manufacturing.
    • 第一模块(12a)相对于光纤(11)的位置根据第一模块(12a)相对于从光纤(11)发射的光的接收效率来确定。 从第一模块(12a)耦合到光纤(11)中的光的功率根据第一模块(12a)侧的远端反射率的值被设定为满足 一个预定的公式。 通过优先确定显着影响眼睛开度比的改善的条件,可以以低成本制造光通信系统并且具有更多的制造自由度。 因此,提供了一种制造光通信系统的方法,该方法允许以低成本制造光通信系统并且具有更多的制造自由度。
    • 10. 发明授权
    • Bidirectional optical communication device and bidirectional optical communication apparatus
    • 双向光通信设备和双向光通信设备
    • US06501876B1
    • 2002-12-31
    • US09295060
    • 1999-04-20
    • Kuniaki OkadaYorishige IshiiToshiyuki MatsushimaHideaki FujitaYukio Kurata
    • Kuniaki OkadaYorishige IshiiToshiyuki MatsushimaHideaki FujitaYukio Kurata
    • C02B626
    • G02B6/4246G02B6/4207
    • Bidirectional optical communication devices are attached to both ends of an optical fiber, and each of them has a transmitting light wave guide coupled to a semiconductor laser and a received light wave guide which is coupled to a photodiode, and optically separated from the transmitting light wave guide. On the end face of the light-incident area of the optical fiber on which transmitting light coupled to the optical fiber from the transmitting light wave guide is directed, the light axis of the transmitting light is set so as to tilt with respect to the normal to the end face of the light-incident area so as to prevent reflected light on the end face of the light-incident area caused by the transmitting light from entering the photodiode installed on the same side as the semiconductor laser. Consequently, light communication is simultaneously carried out bidirectionally in a stable manner by using a single optical fiber; thus, it is possible to provide a bidirectional optical communication device and a bidirectional optical communication apparatus using this device at low costs.
    • 双向光通信装置连接到光纤的两端,并且它们中的每一个具有耦合到半导体激光器的发射光波导和耦合到光电二极管并且与透射光波光学分离的接收光波导 指南。 在光纤的光入射区域的端面上,其中透射光从发射光波导引导到光纤上,其中透射光的光轴被设定为相对于正常光线倾斜 到光入射区域的端面,以防止由透射光引起的光入射区域的端面上的反射光进入安装在与半导体激光器相同侧的光电二极管。 因此,通过使用单个光纤,以稳定的方式同时进行光通信; 因此,可以以低成本提供使用该装置的双向光通信装置和双向光通信装置。