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    • 1. 发明授权
    • Optical module and production method therefor
    • 光模块及其制作方法
    • US06695492B2
    • 2004-02-24
    • US09818866
    • 2001-03-28
    • Tsugio IdeShojiro KitamuraAtsushi Harada
    • Tsugio IdeShojiro KitamuraAtsushi Harada
    • G02B636
    • G02B6/4226G02B6/4207G02B6/4237
    • The invention provides an optical module, in which a surface-emitting laser and an optical fiber are coupled, with the optical axes thereof crossed at a predetermined angle, at low cost. A supporting member supports the end of an optical fiber, in which the extending direction of a through hole and a face at the optical fiber end are orthogonal to each other. A surface-emitting laser and the supporting member are coupled by metal projections having different heights, so that a light-emitting face of the surface-emitting laser and the face of the supporting member are disposed so as to be opposed to each other at a predetermined angle. After the projections are formed on an electrode and metal patterns on the surface of the surface-emitting laser by a method based on wire bonding, the leading ends thereof are fixed to metal patterns of the supporting member by ultrasonic welding.
    • 本发明提供了一种光学模块,其中表面发射激光器和光纤被耦合,其光轴以预定角度以低成本交叉。 支撑构件支撑光纤的端部,其中通孔的延伸方向和光纤端部的面彼此正交。 表面发射激光器和支撑构件通过具有不同高度的金属突起耦合,使得表面发射激光器的发光面和支撑构件的表面布置成彼此相对地 预定角度。 在通过基于引线接合的方法在电极和表面发射激光器的表面上的金属图案上形成突起之后,其前端通过超声波焊接固定到支撑构件的金属图案上。
    • 7. 发明授权
    • Optical transmitter
    • 光发射机
    • US07106976B2
    • 2006-09-12
    • US10207966
    • 2002-07-31
    • Tsugio IdeShojiro KitamuraTeruyasu Hama
    • Tsugio IdeShojiro KitamuraTeruyasu Hama
    • H04B10/04
    • H04B10/564H01S5/042H04B10/503
    • This invention provides an optical transmitter in which reduced power consumption is achieved by, when a signal generator needs data transmission, driving a laser emitting device to perform emission. An optical transmitter includes a receiver, a laser driving circuit, a light emitting unit constituted by a plurality of laser emitting devices, and an EDID memory. The receiver and the laser driving circuit are supplied with power from a dedicated external power supply through a power-supply line, and the power-supply line is provided with a switch. The contact of the switch is controlled to open and close based on a power-supply voltage supplied from the DDC controller to the EDID memory.
    • 本发明提供了一种光发射机,其中当信号发生器需要数据传输时,驱动激光发射装置执行发射,从而实现降低的功耗。 光发射机包括接收器,激光驱动电路,由多个激光发射装置构成的发光单元和EDID存储器。 接收器和激光驱动电路通过电源线由专用外部电源供电,并且电源线设置有开关。 根据从DDC控制器向EDID存储器提供的电源电压,开关的触点被控制为打开和关闭。
    • 8. 发明授权
    • Light emitting element driving circuit, communication device and light emitting element driving method
    • 发光元件驱动电路,通信装置及发光元件驱动方法
    • US07154921B2
    • 2006-12-26
    • US11127291
    • 2005-05-12
    • Shojiro KitamuraTsugio IdeYusuke Aritake
    • Shojiro KitamuraTsugio IdeYusuke Aritake
    • H01S3/10
    • H04B10/564H01S5/02296H01S5/0264H01S5/06804H01S5/0683H01S5/183H04B10/504
    • A light emitting element driving circuit drives a surface-emitting element, and the light emitting element driving circuit is equipped with a bias current driving circuit that supplies a generally constant bias current to the surface-emitting element, a modulation current driving circuit that supplies to the surface-emitting element a modulation current superimposed on the bias current, and a temperature detection circuit that detects the temperature of the surface-emitting element, wherein the modulation current driving circuit decreases the current amount of the modulation current, when the temperature detected rises. The bias current driving circuit may preferably supply the bias current to the surface-emitting element through a coil, and the modulation current driving circuit may preferably supply the modulation current to the surface-emitting element through a capacitor.
    • 发光元件驱动电路驱动表面发射元件,并且发光元件驱动电路配备有偏置电流驱动电路,该偏置电流驱动电路向表面发射元件提供大致恒定的偏置电流;调制电流驱动电路, 表面发射元件叠加在偏置电流上的调制电流,以及温度检测电路,其检测表面发射元件的温度,其中调制电流驱动电路当检测到的温度上升时降低调节电流的当前量 。 偏置电流驱动电路可以优选地通过线圈将偏置电流提供给表面发射元件,并且调制电流驱动电路可以优选地通过电容器向表面发射元件提供调制电流。