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公开(公告)号:KR101479734B1
公开(公告)日:2015-01-06
申请号:KR1020130088751
申请日:2013-07-26
Applicant: 전자부품연구원
Abstract: 본 발명은 서로 다른 파장을 가지는 복수의 레이저광과 하나의 회절광학소자를 이용하여 동일한 형상을 가지면서 방사각이 다른 복수의 구조광 패턴을 출력하는 구조광 프로젝션 모듈, 그리고 상기 복수의 레이저광 각각에 대응하여 해당 파장의 레이저만을 투과시키는 복수의 밴드패스필터를 포함하고, 상기 복수의 밴드패스필터 중 하나가 카메라 전면에 위치하여 측정 대상물로부터 입사되는 구조광 패턴을 상기 카메라에 제공하며, 상기 카메라에 의해 획득된 구조광 패턴의 변화 정도를 이용하여 3차원 형상 측정을 수행하는 구조광 영상측정 모듈을 포함하는 구조광 패턴 기반의 3차원 형상 측정 시스템에 관한 것이다.
Abstract translation: 本发明涉及一种基于结构光图案的三维形状测量系统,其包括:结构化光投影模块,其使用具有不同波长的多个激光束输出具有相同形状和不同照射角度的多个结构光图案 衍射光学元件; 以及结构化光图像测量模块,其包括多个带通滤波器,每个带通滤波器在多个激光束之间通过具有相应波长的激光束,其中多个带通滤波器中的一个位于相机的前面,并且提供 来自待测对象的结构光图案,并且结构化光图像测量模块使用由照相机获取的结构化光图案的变化程度来进行三维形状的测量。
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公开(公告)号:KR1020110131405A
公开(公告)日:2011-12-07
申请号:KR1020100050832
申请日:2010-05-31
Applicant: 전자부품연구원
Abstract: PURPOSE: An environmental sensor and a method of manufacturing an environmental sensor are provided to measure wind speed and direction using electrostatic capacity between the electrode of an upper structure and the electrode of a lower structure. CONSTITUTION: An environmental sensor comprises an upper structure and a lower structure(210). The upper structure comprises a polymer film with metal and a support member for supporting the polymer film. The lower structure comprises a placing unit and an electrode unit. The support member of the upper structure is placed on the placing unit. The electrode unit forms electrodes in the placing unit. The placing unit and the electrode unit of the lower structure have level difference.
Abstract translation: 目的:提供一种环境传感器和制造环境传感器的方法,以使用上部结构的电极和下部结构的电极之间的静电电容来测量风速和方向。 构成:环境传感器包括上部结构和下部结构(210)。 上部结构包括具有金属的聚合物膜和用于支撑聚合物膜的支撑构件。 下部结构包括放置单元和电极单元。 上部结构的支撑构件放置在放置单元上。 电极单元在放置单元中形成电极。 下部结构的放置单元和电极单元具有电平差。
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公开(公告)号:KR1020110087058A
公开(公告)日:2011-08-02
申请号:KR1020100006510
申请日:2010-01-25
Applicant: 전자부품연구원
CPC classification number: G06F3/044 , G06F3/016 , G06F3/0414
Abstract: PURPOSE: A capacitance type tactile screen is provided to recognize a touch location and the strength of power that is pressed by touch and to reduce a manufacturing cost through two electrodes. CONSTITUTION: A substrate locates in the lower part of a screen. An elastic layer(12) is transformed by the pressure of the outside and is located on a substrate. A protection layer(11) protects the elastic layer. A lower electrode is installed in the lower part of the substrate. A plurality of upper electrodes is installed not to be faced with a plurality of bottom electrodes.
Abstract translation: 目的:提供电容式触觉屏幕,以识别触摸位置和触摸按压的电源强度,并通过两个电极降低制造成本。 构成:衬底位于屏幕的下部。 弹性层(12)通过外部压力而变形,位于基板上。 保护层(11)保护弹性层。 下电极安装在基板的下部。 多个上电极安装成不面对多个底电极。
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公开(公告)号:KR1020090124504A
公开(公告)日:2009-12-03
申请号:KR1020080050765
申请日:2008-05-30
Applicant: 전자부품연구원
CPC classification number: H01L21/02603 , B82Y30/00 , B82Y40/00 , H01L29/0669
Abstract: PURPOSE: A method for transferring a nanowire is provided to prevent the nanowire of the undesired part from being transferred and to allow a nanowire to be transferred to the intended position of a substrate accurately, thereby increasing the degree of integration of clear nanowire. CONSTITUTION: A method for transferring a nanowire comprises the steps of preparing a first substrate(400) where a nanowire is manufactured; forming the level difference so as to form a projected part(450) on a second substrate; forming a thermal oxide film on the second substrate(440) in which the level difference is formed; coating an adhesive(430) on the second substrate in which the thermal oxide film is formed; and transferring a nanowire(420) to the second substrate. The step for transferring the nanowire to the second substrate comprises the steps of adhering the nanowire to the adhesive; and separating the adhered nanowire and the first substrate.
Abstract translation: 目的:提供一种转移纳米线的方法,以防止不想要的部分的纳米线被转移,并允许纳米线被精确地转移到基板的预定位置,从而增加透明纳米线的整合度。 构成:用于转移纳米线的方法包括制备其中制造纳米线的第一衬底(400)的步骤; 形成所述水平差以便在第二基板上形成突出部分(450); 在形成有电平差的第二基板(440)上形成热氧化膜; 在其上形成有热氧化膜的第二基板上涂覆粘合剂(430); 以及将纳米线(420)转移到所述第二衬底。 将纳米线转移到第二衬底的步骤包括将纳米线粘合到粘合剂上的步骤; 并分离粘附的纳米线和第一基底。
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公开(公告)号:KR1020090101576A
公开(公告)日:2009-09-29
申请号:KR1020080026790
申请日:2008-03-24
Applicant: 전자부품연구원
Abstract: PURPOSE: A disease inspection apparatus using a nano sensor is provided to exclude noises caused by environmental factors by using a sensor which specifically reacts to a detected object and a reference sensor. CONSTITUTION: A disease inspection apparatus comprises the first sensor(310) which specifically reacts to a detected object, the second sensor(320) which operates as a reference sensor for the first sensor, a fluid channel(330) which makes the fluid flow in the first and second sensors to make a test sample flow, and a Wheatstone bridge circuit which senses the relative resistance characteristic change of the first and second sensors.
Abstract translation: 目的:提供使用纳米传感器的疾病检查装置,以通过使用特异性地对检测对象和参考传感器作出反应的传感器来排除由环境因素引起的噪声。 构成:疾病检查装置包括与检测对象特异性反应的第一传感器(310),作为第一传感器的参考传感器工作的第二传感器(320),使流体流入的流体通道(330) 用于测试样品流动的第一和第二传感器,以及感测第一和第二传感器的相对电阻特性变化的惠斯通电桥电路。
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Patent Agency Ranking
公开(公告)号:KR1020090068724A
公开(公告)日:2009-06-29
申请号:KR1020070136454
申请日:2007-12-24
Applicant: 전자부품연구원
Abstract: A biosensor and a manufacture method thereof are provided to respectively form a nanoscaled structure and a target molecule on different substrates, thereby continuously using a nanowire/carbon nanotube FET biosensor device. A biosensor using a nanoscaled structure comprises: a micro channel(220) which stores or flows a test solution containing target molecules(160); a receptor(150) which is connected to a chemical functioning unit(140) immobilized to a flexible thin film located on an upper part of the micro channel and which captures the target molecules; and a nanowire structure(130) which is located in a lower part of the micro channel in order to sense a field effect by an electric charge of the target molecules. The flexible thin film consists of a first upper thin film(240), a second upper thin film(250) and a pressure device(230).
Abstract translation: 提供生物传感器及其制造方法,以在不同的基板上分别形成纳米级结构和靶分子,从而连续使用纳米线/碳纳米管FET生物传感器装置。 使用纳米尺度结构的生物传感器包括:存储或流动含有目标分子(160)的测试溶液的微通道(220); 连接到固定在位于微通道上部并且捕获靶分子的柔性薄膜上的化学功能单元(140)的受体(150); 以及纳米线结构(130),其位于微通道的下部,以便通过靶分子的电荷感测场效应。 柔性薄膜由第一上薄膜(240),第二上薄膜(250)和压力装置(230)组成。
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公开(公告)号:KR1020080114023A
公开(公告)日:2008-12-31
申请号:KR1020070063168
申请日:2007-06-26
Applicant: 전자부품연구원
CPC classification number: H01L21/02603 , B82Y10/00 , H01L21/0228 , H01L21/02532 , H01L21/28556 , H01L21/324
Abstract: The method for manufacturing nanowires is provided to use the silicon nano wire that does not completely float as the sacrificial layer and to manufacture the nanowire which has the stress-proof in the material deposition. The nanowire manufacturing method comprises as follows. A step is for making the silicon nano wire. A step is for evaporating the material for making the nanowire in the silicon nano wire. A step is for removing the silicon nano wire. The silicon nano wire is connected to the silicon substrate(200) by the silicon or the oxide film.
Abstract translation: 提供了制造纳米线的方法,以使用不完全浮动的硅纳米线作为牺牲层,并制造在材料沉积中具有抗应力的纳米线。 纳米线的制造方法如下。 制造硅纳米线的一个步骤。 一个步骤是蒸发硅纳米线中的纳米线材料。 一步是去除硅纳米线。 硅纳米线通过硅或氧化物膜连接到硅衬底(200)。
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公开(公告)号:KR100848263B1
公开(公告)日:2008-07-25
申请号:KR1020060100246
申请日:2006-10-16
Applicant: 전자부품연구원
Abstract: 본 발명의 나노와이어 자동 전사시스템은 나노와이어가 전사될 기판상에 점착제를 코팅하기 위한 점착제 코팅부, 기판상에 나노와이어를 전사하기 위한 나노와이어 전사부, 점착제 코팅부와 나노와이어 전사부 사이에 위치하여 공정 기판을 이송하기 위한 기판 이송부 및 점착제 코팅부, 나노와이어 전사부 및 기판 이송부를 제어하기 위한 시스템 제어부를 포함한다.
본 발명은 나노와이어 자동 전사시스템을 제공하여 제조된 나노와이어를 점착제가 코팅된 타 기판으로 전사시, 동일한 압력을 가하여 전사공정을 수행할 수 있어 나노와이어의 소실을 방지한다. 또한, 정렬의 오차를 최소화하여 공정의 재연성 및 공정 수율을 향상시킬 수 있는 효과가 있다.
나노와이어, 자동 전사시스템, 이송 암-
公开(公告)号:KR1020080058285A
公开(公告)日:2008-06-25
申请号:KR1020070135886
申请日:2007-12-21
Applicant: 전자부품연구원
IPC: G01D21/02
CPC classification number: G01D5/244 , G01D15/005 , G01D21/02 , G01K7/32 , H03M1/12
Abstract: A digital temperature/humidity sensor is provided to simplify the configuration of a circuit while forming the circuit as a digital logic signal using an RC oscillator and a counter, thereby obtaining stable and high resolution output signal. A digital temperature/humidity sensor comprises a temperature sensor, a humidity sensor(221), a humidity to frequency converter, a temperature to frequency converter, a reference timer, and a frequency to digital converter. The temperature sensor comprises a voltage generator and PTAT(Proportional To Absolute Temperature) sensor, and is connected to a temperature to frequency converter. The humidity sensor comprises an RC oscillating circuit consisting of a variable capacitor(410) and a resistance(420), and is connected to a humidity to frequency converter. The humidity/temperature to frequency converters are configured to convert values measured by the sensors to output them as a frequency signal. The reference timer measures the cycle of the frequency signal, wherein a pulse of the reference timer is counted by a counter of the frequency to digital converter. The frequency to digital converter is configured to convert the frequency signal and the measured cycle to output the converted signals as digital signals.
Abstract translation: 提供数字温度/湿度传感器,以便在使用RC振荡器和计数器形成电路作为数字逻辑信号的同时简化电路的配置,从而获得稳定和高分辨率的输出信号。 数字温湿度传感器包括温度传感器,湿度传感器(221),湿度变频器,温度变频器,参考定时器和频数转换器。 温度传感器包括电压发生器和PTAT(比例绝对温度)传感器,并连接到温度变频器。 湿度传感器包括由可变电容器(410)和电阻(420)组成的RC振荡电路,并且连接到湿度变频器。 变频器的湿度/温度被配置为转换由传感器测量的值作为频率信号输出。 参考定时器测量频率信号的周期,其中参考定时器的脉冲由频数转换器的计数器计数。 频率到数字转换器被配置为转换频率信号和测量周期,以将转换的信号输出为数字信号。
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公开(公告)号:KR100792706B1
公开(公告)日:2008-01-08
申请号:KR1020060051745
申请日:2006-06-09
Applicant: 전자부품연구원
IPC: H01L29/786 , B82Y10/00
Abstract: 본 발명에 따른 단결정 실리콘 나노와이어를 이용한 박막트랜지스터는 절연성 기판상에 박막트랜지스터가 형성되고, 상기 박막트랜지스터의 채널 및 소스/드레인은 단결정 실리콘 나노와이어에 형성된다.
따라서, 본 발명의 단결정 실리콘 나노와이어를 이용한 박막트랜지스터는 구동 특성이 우수하며, 시스템 대규모 집적화(LSI)를 실현할 수 있으며, 그 형성공정이 저온에서 수행됨으로써, 저온공정이 필수적으로 요구되는 플렉시블 디스플레이에 적용이 용이한 이점이 있다.
단결정 실리콘 나노와이어, 박막트랜지스터, 트랜스퍼, 디스플레이
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