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    • 11. 发明公开
    • 광학 바이오센서
    • 光学生物传感器
    • KR1020130109470A
    • 2013-10-08
    • KR1020120031216
    • 2012-03-27
    • 삼성전자주식회사
    • 이범석나경원박윤동서성동임동모
    • G01N21/27G01N33/483
    • G01N21/84G01N21/7746
    • PURPOSE: An optical biosensor is provided to optically sense biomaterials, to output by converting into electrical signals so that a sensing unit including a light source and a sensing circuit and a detecting unit can be integrated on a single chip. CONSTITUTION: An optical biosensor (100) includes a sensing unit (20) and a detecting unit (30). The sensing unit receives first optical signals and senses the concentration of biomaterials. The sensing unit outputs second optical signals via at least one channel among channels by corresponding to the concentration of the sensed biomaterials. The detecting unit is formed on a semiconductor substrate identical to the sensing unit. The detecting unit detects second optical signals and outputs by converting into electrical signals.
    • 目的:提供光学生物传感器以光学感应生物材料,通过转换成电信号输出,使得包括光源,感测电路和检测单元的感测单元可以集成在单个芯片上。 构成:光学生物传感器(100)包括感测单元(20)和检测单元(30)。 感测单元接收第一光信号并感测生物材料的浓度。 感测单元通过与感测的生物材料的浓度相对应的通道中的至少一个通道输出第二光信号。 检测单元形成在与感测单元相同的半导体基板上。 检测单元通过转换成电信号来检测第二光信号和输出。
    • 12. 发明公开
    • 광 바이오 센서, 상기 광 바이오 센서를 포함하는 바이오 센싱 시스템 및 상기 광 바이오 센서의 제조 방법
    • 光学生物传感器,包括其的生物传感系统及其制造方法
    • KR1020130108051A
    • 2013-10-02
    • KR1020120123741
    • 2012-11-02
    • 삼성전자주식회사
    • 박윤동나경원서성동임동모
    • G01N21/25G01N33/483
    • PURPOSE: An optical biosensor, a bio sensing system including the optical biosensor, and an optical biosensor manufacturing method are provided to minimize the optical biosensor by integrating a spectroscope including a plurality of ring-shaped resonators. CONSTITUTION: An optical biosensor includes a bio sensing unit (20) and a spectroscope (30). The bio sensing unit receives input optical signals and generates sensing optical signals having a wavelength changed by sensing a biomaterial. The spectroscope includes a plurality of ring-shaped resonators which divide the sensing optical signals according to a wavelength and generate a plurality of output optical signals respectively. The sensing optical signals are signals in which resonance wavelengths changed according to the concentration of the bio material is extracted from the wavelength components of the input optical signals or the resonance wavelengths are eliminated. [Reference numerals] (10) Light source; (20) Bio sensing unit; (30) Spectroscope; (40) Detecting unit
    • 目的:提供一种光学生物传感器,包括光学生物传感器的生物传感系统和光学生物传感器的制造方法,以通过集成包括多个环形谐振器的分光器来最小化光学生物传感器。 构成:光学生物传感器包括生物传感单元(20)和分光计(30)。 生物感测单元接收输入光信号并产生具有通过感测生物材料而改变的波长的感测光信号。 分光器包括多个环形谐振器,它们根据波长划分感测光信号并分别产生多个输出光信号。 感测光信号是根据生物材料的浓度从输入光信号的波长成分中提取出共振波长的信号,或消除了共振波长的信号。 (附图标记)(10)光源; (20)生物传感单元; (30)分光镜; (40)检测单元
    • 13. 发明公开
    • 다파장 광 생성 장치 및 이를 포함하는 광 바이오 센서 시스템
    • 多波长光发生器和光学生物传感器系统
    • KR1020130054129A
    • 2013-05-24
    • KR1020120103740
    • 2012-09-19
    • 삼성전자주식회사
    • 서성동나경원박윤동이범석임동모
    • G01N21/00G01N33/53
    • PURPOSE: A multi-wavelength light generating device and an optical biosensor including the same are provided to divide wavelengths of a broadband light source and to utilize the divided wavelengths as light sources of each channel so that the size of a system can be reduced. CONSTITUTION: A multi-wavelength light generating device(10) comprises a broadband light source(120), a wavelength dividing device(200), and a driver(110). The broadband light source generates first output lights(P0) with first line width. The wavelength dividing device divides wavelengths of the first output light, thereby providing a plurality of second output lights(P1, P2, P3, P4) with second line width narrower than the first line width. The second output lights are utilized as light sources of each channel. The driver drives the broadband light source with a direct modulation method.
    • 目的:提供一种多波长发光装置和包括该多波长发光装置的光学生物传感器,以分割宽带光源的波长并将分割的波长用作每个通道的光源,从而可以减小系统的尺寸。 构成:多波长发光装置(10)包括宽带光源(120),波长分割装置(200)和驱动器(110)。 宽带光源产生具有第一线宽的第一输出光(P0)。 波长分割装置分割第一输出光的波长,从而提供具有比第一线宽窄的第二线宽的多个第二输出光(P1,P2,P3,P4)。 第二个输出光用作每个通道的光源。 驱动器通过直接调制方式驱动宽带光源。
    • 14. 发明公开
    • 광 방향성 커플러를 구비한 신호 분산 네트워크
    • 具有光学方向耦合器的信号分配网络
    • KR1020090067548A
    • 2009-06-25
    • KR1020070135240
    • 2007-12-21
    • 삼성전자주식회사
    • 서성동하경호조수행유한열
    • G02B6/28G02B6/26
    • A signal distribution network having an optical directional coupler is provided to transmit an optical signal without the loss of the power by selecting one output unit among a plurality of output units. A signal distribution network(100) having an optical directional coupler includes one input unit(110) and a plurality of output units. A plurality of output units include a main output unit(130) and a plurality of sub output units(140). The main optical wave guide is connected between the input unit and the main output unit. The plurality of sub output units are arranged between the input unit and the main output unit. A plurality of optical directional couplers(160) selectively output the optical signal inputted to the input unit to a sub output unit. The optical directional coupler includes a sub optical wave guide, a first electrode, and a second electrode. The sub optical wave guide includes a parallel part adjacent to the main optical wave guide in a predetermined region.
    • 提供具有光学定向耦合器的信号分配网络,以通过在多个输出单元中选择一个输出单元来传输光信号而不损失功率。 具有光学定向耦合器的信号分配网络(100)包括一个输入单元(110)和多个输出单元。 多个输出单元包括主输出单元(130)和多个子输出单元(140)。 主光波导连接在输入单元和主输出单元之间。 多个子输出单元布置在输入单元和主输出单元之间。 多个光学定向耦合器(160)选择性地将输入到输入单元的光信号输出到子输出单元。 光学定向耦合器包括副光波导,第一电极和第二电极。 副光波导包括在预定区域中与主光波导相邻的平行部分。
    • 17. 发明授权
    • 근접장광발생장치와 이를 채용한 열보조 자기기록헤드
    • 近场光产生装置和采用该近场光产生装置的热辅助磁记录头
    • KR100738078B1
    • 2007-07-12
    • KR1020050096166
    • 2005-10-12
    • 삼성전자주식회사
    • 이명복손진승서성동김해성
    • G11B11/24G11B9/12G11B5/127
    • G11B5/1278G11B5/314G11B7/1387G11B2005/0021
    • 고체함침미러를 이용하여 입사되는 광으로부터 근접장광을 발생시키는 근접장광발생장치와 이를 채용한 열보조 자기기록헤드가 개시되어 있다.
      이 개시된 근접장광발생장치는 광원; 광이 전송되는 도파로코어; 도파로코어에서 전송된 광을 이용하여 근접장광을 발생시키는 고체함침미러;를 포함하며,
      고체함침미러는, 도파로코어에서 전송된 광이 입사되는 제1투과부; 제1투과부를 통하여 입사된 광이 투과하는 몸체부; 제1투과부에 대향되는 몸체부의 일측면에 마련되어 제1투과부에서 굴절된 광을 반사시키는 제1반사부; 몸체부의 타측면에 마련되어 제1반사부에서 반사된 광을 재반사시켜 제1반사부의 중심부에 광 스폿을 형성하는 제2반사부; 광 스폿이 형성되는 상기 제1반사부의 중심부에 마련된 제2투과부;를 구비하는 것을 특징으로 한다.
      이러한 근접장광발생장치와 이를 채용한 열보조 자기기록헤드는 높은 투과효율을 가지고 작은 빔 사이즈의 근접장광을 발생시켜 고밀도의 자기기록을 가능하게 하며, 근접장광발생장치를 자기기록헤드에 집적화하기가 용이한 효과가 있다.
    • 18. 发明授权
    • 열보조 자기기록 헤드
    • 열보조자기기록헤드
    • KR100682954B1
    • 2007-02-15
    • KR1020060000889
    • 2006-01-04
    • 삼성전자주식회사
    • 서성동임영훈김해성
    • G11B11/105G11B11/10G11B5/09
    • A heat-assisted magnetic recording head is provided to realize small optical spot size as associating with an existing magnetic head process, thus a high-density recording process is available while monolithic manufacturing of the head is possible. A magnetic field forming unit(120) forms a magnetic field for recording. A beam source(140) irradiates a beam for heating a predetermined area of a recording surface for a recording medium. A wave guide(152) is disposed on one side of the magnetic field forming unit(120), and transmits the beam irradiated from the beam source(140). An optical path converter converts a path of the transmitted beam, and makes the converted beam turn towards the predetermined area of the recording surface. A nano aperture(154) generates an enhanced near field by changing energy distribution of the beam transmitted via the optical path converter.
    • 提供热辅助磁记录头以实现与现有磁头工艺相关联的小光点尺寸,因此可实现高密度记录工艺,同时可实现头部的单片制造。 磁场形成单元(120)形成用于记录的磁场。 光源(140)照射用于加热记录介质的记录表面的预定区域的光束。 波导(152)设置在磁场形成单元(120)的一侧,并且传输从光束源(140)辐射的光束。 光路转换器转换发送光束的路径,并使转换后的光束转向记录表面的预定区域。 纳米孔径(154)通过改变通过光路转换器传输的光束的能量分布来产生增强的近场。