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    • 5. 发明申请
    • Multi-channel biosensor using surface Plasmon resonance
    • 多通道生物传感器使用表面等离子体共振
    • US20090040524A1
    • 2009-02-12
    • US12078044
    • 2008-03-26
    • Il Kweon Joung
    • Il Kweon Joung
    • G01N21/55
    • G01N21/553
    • Provided is a multi-channel biosensor using a biosensor using a surface plasmon resonance capable of measuring the changed resonance angle in real time without additionally scanning an incident angle according to the change of temperature or external environment by including a sensor chip with a plurality of channels arranged on a top surface thereof in parallel, a light source for vertically emitting a beam from a top portion of the sensor chip to a direct bottom portion of the sensor chip, a first lens for defocusing the beam emitted from the light source in the top portion of the sensor chip, a beam splitter for splitting a reflected beam, wherein the reflected beam is obtained by reflecting the beam defocused through the first lens from each channel of the sensor chip and a sensing unit for receiving a parallel component of the beam split in the beam splitter.
    • 提供一种多通道生物传感器,其使用使用表面等离子体共振的生物传感器,该表面等离子体共振能够实时测量改变的共振角,而不需要通过包括具有多个通道的传感器芯片而根据温度或外部环境的变化另外扫描入射角 平行地布置在其顶表面上,用于将光束从传感器芯片的顶部垂直发射到传感器芯片的直接底部的光源,用于使从顶部的光源发射的光束聚焦的第一透镜 传感器芯片的一部分,用于分离反射光束的分束器,其中反射光束通过从传感器芯片的每个通道反射通过第一透镜散焦的光束而获得,以及用于接收光束分离的平行分量的感测单元 在分束器中。
    • 6. 发明申请
    • Apparatus for analyzing sample using centrifugal force and inertia
    • 使用离心力和惯性分析样品的装置
    • US20080276729A1
    • 2008-11-13
    • US12149257
    • 2008-04-29
    • Il Kweon Joung
    • Il Kweon Joung
    • G01N1/00
    • G01N35/00069G01N2035/00247G01N2035/00495
    • The present invention relates to a sample analyzing apparatus for controlling the flow of a fluid by the movement of a ball using centrifugal force and inertia.Provided is a sample analyzing apparatus using centrifugal force and inertia according to the invention including a rotating body composed of a disk including upper and lower thin-films; a plurality of chambers composed of a polygonal space parts in the rotating body and including porosities on one side edge and a bottom side thereof; paths connected between the porosities of the chambers to transfer fluids mixed or separated in the chambers; sample inputting holes connected to the chambers formed inside of the rotating body through the paths; and balls moving within the chambers. Since the sample analyzing apparatus using the centrifugal force and inertia according to the invention does not require a separate device for moving the ball, the sample analyzing apparatus can be formed in a thin-film and a failure rate can be reduced by a simple technical configuration.
    • 本发明涉及一种用于通过使用离心力和惯性的球的运动来控制流体流动的样品分析装置。 本发明提供一种使用离心力和惯性的样品分析装置,其包括由包括上下薄膜的圆盘构成的旋转体; 多个室,其由旋转体中的多边形空间部分组成,并且在其一个侧边缘和底侧上包括多孔空间; 连接在腔室的孔隙之间的路径以传递在腔室中混合或分离的流体; 通过路径连接到形成在旋转体内部的室的样品输入孔; 球在球室内移动。 由于使用根据本发明的离心力和惯性的样品分析装置不需要用于移动球的单独装置,所以样品分析装置可以形成为薄膜,并且可以通过简单的技术配置来降低故障率 。
    • 9. 发明授权
    • Header-replaceable hybrid waveguide sensor
    • 头可更换混合波导传感器
    • US07512293B2
    • 2009-03-31
    • US11896309
    • 2007-08-30
    • Soo Jin JungIl Kweon JoungDong Ho ShinWon Hoe KooGwan Su Lee
    • Soo Jin JungIl Kweon JoungDong Ho ShinWon Hoe KooGwan Su Lee
    • G02B6/26
    • G02B6/1221B82Y20/00G02B6/1226G02B6/26G02B2006/12138G02B2006/12147
    • A header-replaceable hybrid waveguide sensor comprises a header coupling section including a dielectric layer having an optical signal input section and an optical signal output section formed in one end thereof, the dielectric layer having two lines of protrusions formed on the upper surface thereof; and a polymer layer formed on and under the dielectric layer; and a sensor header including a dielectric layer having a protrusion formed on the upper surface thereof and a predetermined size of thin metal film provided therein; a polymer layer formed on and under the dielectric layer and having an opening formed in a portion corresponding to the thin metal film, the opening having a larger width than the thin metal film; and a receptor layer formed on the upper surface of the dielectric layer exposed by the opening.
    • 标题可替换的混合波导传感器包括一个头部耦合部分,其包括具有光信号输入部分的介质层和在其一端形成的光信号输出部分,该电介质层具有形成在其上表面上的两条突起线; 以及形成在电介质层上和下面的聚合物层; 以及传感器头,其包括在其上表面上形成有突起的介电层和设置在其中的预定尺寸的金属薄膜; 所述聚合物层形成在所述电介质层上和下面,并且具有形成在与所述薄金属膜相对应的部分中的开口,所述开口具有比所述薄金属膜宽的宽度; 以及形成在由开口暴露的电介质层的上表面上的受体层。
    • 10. 发明授权
    • Circuit for controlling LED with temperature compensation
    • 用于控制带温度补偿的LED的电路
    • US07330002B2
    • 2008-02-12
    • US11515827
    • 2006-09-06
    • Il Kweon Joung
    • Il Kweon Joung
    • G05F1/00
    • G09G3/3406G09G2310/06G09G2320/041G09G2320/043G09G2320/064
    • A circuit for controlling an LED with temperature compensation is employed in the LED-based system. The circuit of the invention linearly controls luminance and color of the LED according to temperature change and more precisely compensates for temperature-related variations in LED properties. Also, the circuit saves the cost of the product due to no requirement of a microprocessor. In the circuit, a waveform generator generates a sawtooth wave for Pulse Width Modulation (PWM) control. A temperature detector detects a voltage via a resistance value which is linearly variable according to changes in an ambient temperature. A PWM controller compares the sawtooth wave from the wave generator with the detection voltage from the temperature detector and generates a PWM voltage having a duty determined by the comparison result.
    • 在基于LED的系统中采用用于控制具有温度补偿的LED的电路。 本发明的电路根据温度变化线性地控制LED的亮度和颜色,并且更精确地补偿LED属性中与温度有关的变化。 此外,由于不需要微处理器,该电路节省了产品的成本。 在电路中,波形发生器产生用于脉宽调制(PWM)控制的锯齿波。 温度检测器通过根据环境温度的变化线性变化的电阻值检测电压。 PWM控制器将来自波发生器的锯齿波与来自温度检测器的检测电压进行比较,并产生具有由比较结果确定的占空比的PWM电压。