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    • 1. 发明授权
    • Optical connector module
    • 光连接器模块
    • US06334012B1
    • 2001-12-25
    • US09414940
    • 1999-10-08
    • Eung-yeoul YoonHyun-kuk ShinIl Kim
    • Eung-yeoul YoonHyun-kuk ShinIl Kim
    • G02B628
    • G02B6/4292G02B6/4201G02B6/4246G02B6/4249G02B6/4284H01L2224/48091H04B10/25H01L2924/00014
    • Disclosed is an optical connector module for being connected between first and second devices for receiving and/or outputting electrical information signals, and being capable of converting input electrical signals to optical signals, transmitting the converted signals and again converting the transmitted optical information signals into electrical information signals. The optical connector module comprises: a first connector module for being connected to the first device while being electrically detachable and for converting the electrical signals from the first device into optical information signals; an optical fiber cable, one end of which is disposed to face the first connector module for transmitting the input optical information signal to the other end; and a second connector module for being connected to the second device while being electrically detachable and for converting the optical information signals transmitted through the optical fiber cable into electrical information signals and applying the converted signal to the second device.
    • 公开了一种用于连接在第一和第二装置之间的光学连接器模块,用于接收和/或输出电信息信号,并且能够将输入的电信号转换成光信号,发送转换后的信号,并再次将发送的光信息信号转换为电 信息信号。 光连接器模块包括:第一连接器模块,用于连接到第一装置,同时可电可拆卸,并用于将来自第一装置的电信号转换成光信息信号; 光缆,其一端设置成面对第一连接器模块,用于将输入光信息信号传输到另一端; 以及第二连接器模块,用于在电可拆卸的状态下连接到第二装置,并且用于将通过光纤电缆传输的光信息信号转换成电信息信号并将转换的信号施加到第二装置。
    • 2. 发明授权
    • Connection assembly of computer and port replicator
    • 计算机和端口复制器的连接组件
    • US06206578B1
    • 2001-03-27
    • US09332946
    • 1999-06-15
    • Hyun-kuk ShinIl KimSeong-sik Shin
    • Hyun-kuk ShinIl KimSeong-sik Shin
    • G02B636
    • G02B6/3885G02B6/389G02B6/4292G06F1/1632
    • A connection assembly of a computer and a port replicator for distributing a plurality of signals generated from the computer to each of a plurality of peripheral devices. The connection assembly includes a first optical connecter installed at the computer for transmitting input signals using light, a second optical connecter installed at the port replicator to correspond to the first optical connecter for transmitting input signals using light, and a portion for coupling the first and second optical connecters to communicate with each other. Thus, since the first and second light-receiving/emitting units are disposed to be separated a predetermined distance from each other and exchange information signals, the reliability with respect to connection can be maintained when the port replicator is repeatedly connected and disconnected to and from the computer. Also, EMI can be reduced by replacing the pin and pin holder with the first and second light-receiving/emitting units. Further, the replacement of the pin and pin holder with the optical connecter, which is smaller in volume and lighter, makes the entire connection assembly lightweight.
    • 计算机和端口复制器的连接组件,用于将从计算机生成的多个信号分配到多个外围设备中的每一个。 连接组件包括安装在计算机处的用于使用光发送输入信号的第一光连接器,安装在端口复制器处的第二光连接器,以对应于用于使用光传输输入信号的第一光连接器,以及用于耦合第一和 第二光连接器彼此通信。 因此,由于第一和第二光接收/发射单元被设置成彼此隔开预定距离并且交换信息信号,所以当端口复制器被重复地连接和断开时,可以保持相对于连接的可靠性 电脑 此外,可以通过用第一和第二光接收/发射单元替换引脚和引脚保持器来降低EMI。 此外,使用体积更小和更轻的光连接器替换销和针架使整个连接组件重量轻。
    • 3. 发明授权
    • Light transmission module
    • 光传输模块
    • US06312167B1
    • 2001-11-06
    • US09264037
    • 1999-03-08
    • Bum-soo KimHyun-kuk ShinIl Kim
    • Bum-soo KimHyun-kuk ShinIl Kim
    • G02B636
    • G02B6/4292G02B6/3821G02B6/4201G02B6/423G02B6/4231G02B6/4249
    • A light transmission module for transmitting a light signal through an optical fiber coupled to a light device and/or receiving a light signal transmitted through the optical fiber is provided. The light transmission module includes a light device module having a socket member having a plurality of leads for transmitting an electrical signal, and a light device installed within the socket member to be electrically connected to the leads, for converting the electrical signal into a light signal or converting the light signal into an electrical signal, a connector module having a holder coupled to the socket member, and at least one optical fiber installed in the holder to face the light device, for transmitting the light signal, and a coupling means for slidably coupling the light device module and the connector module and packaging the same. The coupling means includes a pair of guide slots formed at one portion of both side walls of the socket member and both sides of the holder, and a pair of guide protrusions protruding at the other portion of both side walls of the socket member and both sides of the holder and slidably inserted into the respective guide slots, so that the light device module and the connector module are slidably coupled to each other.
    • 提供了一种用于通过耦合到光装置的光纤发送光信号和/或接收通过光纤传输的光信号的光传输模块。 光传输模块包括具有插座构件的灯装置模块,该插座构件具有用于传输电信号的多个引线,以及安装在插座构件内以与导线电连接的灯装置,用于将电信号转换成光信号 或将光信号转换成电信号,具有联接到插座构件的保持器的连接器模块以及安装在保持器中以面对光装置的用于发射光信号的至少一根光纤,以及用于可滑动地连接 将灯装置模块和连接器模块连接在一起并进行封装。 联接装置包括形成在插座构件的两个侧壁的一部分和保持器的两侧的一对引导槽,以及在插座构件的两个侧壁的另一部分和两侧突出的一对引导突起 并且可滑动地插入到相应的引导槽中,使得光装置模块和连接器模块彼此可滑动地联接。
    • 4. 发明授权
    • Bidirectional light transmitting and receiving device
    • 双向光发射和接收设备
    • US06526080B1
    • 2003-02-25
    • US09614878
    • 2000-07-12
    • Hyun-kuk Shin
    • Hyun-kuk Shin
    • H01S500
    • H04B10/40H01S5/02284H01S5/0262H01S5/183
    • A bidirectional light transmitting and receiving device includes a first light transceiver having a first light emitter and a first light receiver for receiving a light beam entering around the first light emitter, and a second light transceiver having a second light emitter and a second light receiver for receiving a light beam entering around the second light emitter, and signal transmission and reception between the corresponding first and second light device units is achieved through the same optical passageway. The bidirectional light transmitting and receiving device has a simple configuration because optical signal transmission and reception are achieved through the single optical passageway. The number of optical fibers required for the signal transmission and reception in the device is reduced by half, and thus the manufacturing cost also becomes lower.
    • 双向光发射和接收装置包括具有第一光发射器的第一光收发器和用于接收围绕第一光发射器进入的光束的第一光接收器,以及具有第二光发射器和第二光接收器的第二光收发器, 接收进入第二光发射器周围的光束,并且通过相同的光学通道实现相应的第一和第二光器件单元之间的信号传输和接收。 双向光发射和接收设备具有简单的配置,因为通过单个光学通道实现了光信号的发送和接收。 设备中信号发送和接收所需的光纤数量减少了一半,因此制造成本也降低。
    • 7. 发明授权
    • Vertical cavity surface emitting laser
    • 垂直腔表面发射激光
    • US5753941A
    • 1998-05-19
    • US620324
    • 1996-03-22
    • Hyun-kuk ShinYong-hee Lee
    • Hyun-kuk ShinYong-hee Lee
    • H01S5/00H01S5/042H01S5/18H01S5/183H01L33/00
    • H01S5/18377H01S2301/166H01S5/18308H01S5/18327H01S5/18375H01S5/2063
    • A vertical cavity surface emitting laser (VCSEL) is provided which has a substrate, a first reflector layer formed on the substrate, an active layer formed on the first reflector layer, a second reflector layer formed on the active layer, and an electrode layer formed on the second reflector layer and having a cavity for emitting light from the second reflector layer. Laser light is generated in the active layer between the first and second reflective layers and is emitted through the second reflective layer at the cavity. The first and second reflective layers are each formed of semiconductor material containing impurities, such that the impurities in the first reflective layer are of an opposite type to the impurities in the second reflective layer. The electrode layer has a metal layer having a high electrical conductivity and a conductive auxiliary reflector layer formed between the metal layer and the second reflective layer. The auxiliary reflector layer has a reflectivity which is lower than the reflectivities of either of the first or second reflector layers.
    • 提供了一种垂直腔表面发射激光器(VCSEL),其具有衬底,形成在衬底上的第一反射器层,形成在第一反射器层上的有源层,形成在有源层上的第二反射层,以及形成的电极层 并且具有用于从第二反射器层发射光的空腔。 在第一和第二反射层之间的有源层中产生激光,并且在空腔处通过第二反射层发射激光。 第一反射层和第二反射层各自由含有杂质的半导体材料形成,使得第一反射层中的杂质与第二反射层中的杂质相反。 电极层具有导电性高的金属层和形成于金属层与第二反射层之间的导电辅助反射层。 辅助反射层的反射率低于第一反射层或第二反射层之一的反射率。
    • 8. 发明授权
    • Hologram optical pick-up using two laser sources
    • 全息光学拾取使用两个激光源
    • US5894464A
    • 1999-04-13
    • US936529
    • 1997-09-24
    • Jin-hwan KimHyun-kuk Shin
    • Jin-hwan KimHyun-kuk Shin
    • G11B7/13G11B7/00G11B7/08G11B7/125G11B7/135
    • G11B7/1353G11B7/127G11B2007/0006
    • A hologram optical pick-up device using a first and second laser sources emit laser beams having different wavelengths, which are then focused by an objective lens on a disc, and reflected at a surface of the disc. The reflected laser beams are diffracted by a first hologram or a second hologram, and then received by a first photo detector or a second photo detector. Accordingly, a laser beam having an adjustable wavelength according to a thickness and a recording surface of the disc is emitted by the first laser source or the second laser source in order compensate the aberration of the laser beam due to the thickness of the disc. Thereby, the same hologram optical pick-up device can reproduce data from discs having different recording surfaces without loss of data. Also, the hologram optical pick-up can record and reproduce data on/from any disc with an increased efficiency of the laser beam.
    • 使用第一和第二激光源的全息光学拾取装置发射具有不同波长的激光束,然后将其由物镜聚焦在光盘上并在盘的表面上反射。 反射的激光束被第一全息图或第二全息图衍射,然后由第一光电检测器或第二光电检测器接收。 因此,由第一激光源或第二激光源发射具有根据厚度的可调波长的激光束和盘的记录表面,以补偿由于光盘的厚度引起的激光束的像差。 因此,相同的全息光学拾取装置可以在不损失数据的情况下从具有不同记录表面的盘再现数据。 此外,全息光学拾取器可以以更高的激光束的效率在任何盘上记录和再现数据。
    • 9. 发明授权
    • Light emitting apparatus
    • 发光装置
    • US5887013A
    • 1999-03-23
    • US919199
    • 1997-08-28
    • Geum-hee LeeHyun-kuk ShinYong-hee Lee
    • Geum-hee LeeHyun-kuk ShinYong-hee Lee
    • H01S5/00H01L31/173H01S3/13H01S5/026H01S5/183H01S3/19H01S3/08
    • H01S5/0264H01L31/173H01S5/0683H01S5/18308
    • A light emitting apparatus having a surface emitting laser including a substrate, a first reflection layer, an active layer and a second reflection layer stacked successively on the substrate, first and second electrodes formed respectively on the lower surface of the substrate and a portion of the upper surface of the second reflective layer, to emit light in the direction of the stacked layers, and a monitoring photodetector stacked on the second reflection layer to detect the amount of the emitted light from the surface emitting laser, is provided. The monitoring photodetector includes first semiconductor material layer, an absorbing layer and second semiconductor material layer stacked successively on the second reflection layer, a third electrode formed on the second semiconductor layer to output detecting signals of the monitoring photodetector, and a controlling layer formed on the bottom of the absorbing layer to intercept some of the incident light.
    • 一种具有表面发射激光器的发光装置,其包括在基板上依次堆叠的基板,第一反射层,有源层和第二反射层,分别形成在基板的下表面上的第一和第二电极, 提供第二反射层的上表面,以沿堆叠层的方向发光;以及监视光电检测器,堆叠在第二反射层上以检测来自表面发射激光器的发射光的量。 所述监视光检测器包括:第一半导体材料层,第二半导体材料层,第二半导体材料层,第二反射层,第二半导体材料层,第二半导体材料层,第二半导体层,第二电极,第二电极, 吸收层的底部以截取一些入射光。
    • 10. 发明授权
    • Optical pickup employing a vertical cavity surface-emitting laser diode
    • 采用垂直腔表面发射激光二极管的光学拾取器
    • US5874730A
    • 1999-02-23
    • US672047
    • 1996-06-26
    • You-shin YiHyun-kuk Shin
    • You-shin YiHyun-kuk Shin
    • H01S5/00G11B7/12G11B7/125G11B7/135G11B11/105H01S5/026H01S5/183H01J40/14
    • G11B7/127G11B7/123G11B7/1353G11B11/10543H01S5/0264H01S5/183
    • An optical pickup is provided which detects information contained in an optical disk. The optical disk includes a light source, a hologram device, an objective lens, a photodetector, and a single chip. The light source is formed of a first vertical cavity surface-emitting laser (VCSEL) diode and emits a light beam. The hologram device converts the light beam emitted from said light source into a polarized parallel light beam and diffracts a reflected parallel light beam reflected from said optical disk to produce a diffracted beam. The objective lens focuses the polarized parallel light beam on said optical disk and converts a corresponding reflected beam into the parallel reflected beam. The photodetector is formed of a second VCSEL diode and detects various characteristics of the diffracted beam. Finally, the light source and the photodetector are integrated on the chip. As a result of the configuration above, the light source emits a laser beam which has a small astigmatism and does not lose its intensity as it propagates through the optical head.
    • 提供一种检测包含在光盘中的信息的光学拾取器。 光盘包括光源,全息装置,物镜,光电检测器和单个芯片。 光源由第一垂直腔表面发射激光器(VCSEL)二极管形成并发射光束。 全息装置将从所述光源发射的光束转换为偏振平行光束,并衍射从所述光盘反射的反射的平行光束以产生衍射光束。 物镜将偏振平行光束聚焦在所述光盘上,并将相应的反射光束转换成平行的反射光束。 光电检测器由第二VCSEL二极管形成,并检测衍射光束的各种特性。 最后,将光源和光电检测器集成在芯片上。 作为上述结构的结果,光源发射具有小散光的激光束,并且在其通过光学头传播时不会失去其强度。