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公开(公告)号:KR101770771B1
公开(公告)日:2017-08-23
申请号:KR1020160003145
申请日:2016-01-11
Applicant: 주식회사 카스 , 서강대학교산학협력단
Abstract: 본발명은무게측정장치에관한것으로, 본발명에따른무게측정장치는몸체를관통하는중공부가형성되며, 상기몸체의양단의제1 고정부와제2 고정부의상부를연결하는상부연결부와하부를연결하는하부연결부를포함하는로드셀; 상기상부연결부의하중이인가되는위치에대응하여상기상부연결부의저면에부착되는타겟반사판; 상기하부연결부의저면에부착되는기준반사판; 상기타겟반사판에입사하여반사된제1 빛살과상기기준반사판에입사하여반사된제2 빛살의간섭된광에따른경로길이를기준경로길이와비교하여하중의인가에따른광의경로변위를산출하는광 경로변위산출부; 및상기광의경로변위에상응하는상기로드셀의변위를기초로무게를산출하는무게산출부를포함한다. 이를통하여, 레이저를활용한고정밀도의측정범위가큰 무게측정이가능하다.
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公开(公告)号:KR1020170028482A
公开(公告)日:2017-03-14
申请号:KR1020150124784
申请日:2015-09-03
Applicant: 서강대학교산학협력단
Abstract: 본발명은 2개의광검출소자를이용한호모다인검출기에관한것이다. 상기호모다인검출기는, 호모다인간섭계로부터제공된간섭신호가입사되고, 입사된간섭신호를제1 및제2 신호로분할하고상기제1 신호는반사시켜출사시키고상기제2 신호는통과시켜출사시키는빔 스플리터; 상기제1 신호의광축상에위치하고, 상기제1 신호중 제1 편광성분을출력하는제1 광소자부; 상기제1 편광성분에대한광신호를검출하여전기적신호로변환하여제1 출력신호로출력하는제1 광검출소자; 상기제2 신호의광축상에위치하고, 위상지연시킨상기제2 신호중 제1 편광성분을출력하는제2 광소자부; 상기위상지연시킨제2 신호중 제1 편광성분에대한광신호를검출하여전기적신호로변환하여제2 출력신호로출력하는제2 광검출소자;를구비하고, 상기제1 출력신호와제2 출력신호는서로 90°위상차를갖는신호들이다.
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公开(公告)号:KR20180064227A
公开(公告)日:2018-06-14
申请号:KR20160164614
申请日:2016-12-05
Applicant: 서강대학교산학협력단
CPC classification number: G02B26/001 , G02B27/283 , H01J37/26 , H01J37/28
Abstract: 본발명은평행빔광학소자및 이를이용한간섭계이다. 상기평행빔광학소자는, 제1면과제3면이서로대향배치되고, 제2면과제4면이서로대향배치되며, 제2면과제3면이만나는모서리와제1면과제4면이만나는모서리를연결하는편광빔분리면을갖는편광빔스플리터; 상기편광빔스플리터의제2면에배치된제1 QWP; 상기제1 QWP의일면에배치되어제1 QWP로부터출력된빔을되반사시켜제1 QWP 로다시제공하는반사경; 상기편광빔스플리터의제4면과마주보도록배치되어, 상기편광빔스플리터의제4면으로부터출력된빔을 2번수직반사시켜편광빔스플리터의제4면으로다시제공하는직각프리즘; 상기편광빔스플리터의제4면과직각프리즘의사이에배치되며, 상기편광빔스플리터로부터출력된빔의편광방향을 90도회전시켜상기편광빔 스플리터로재입사되도록하는위상지연소자;을구비한다. 상기평행빔광학소자는, PBS의제1 면으로입사된빔이편광성분에따라 2개의빔으로나뉘어각각서로다른제1 광경로와제2 광경로를따라진행하되, 상기 2개의빔은서로평행빔이되어상기제2 QWP를출사하며, 출사된 2개의빔은평행빔광학소자로재입사되어 PBS의제1면으로함께출사한다.
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公开(公告)号:KR1020170083812A
公开(公告)日:2017-07-19
申请号:KR1020160003145
申请日:2016-01-11
Applicant: 주식회사 카스 , 서강대학교산학협력단
Abstract: 본발명은무게측정장치에관한것으로, 본발명에따른무게측정장치는몸체를관통하는중공부가형성되며, 상기몸체의양단의제1 고정부와제2 고정부의상부를연결하는상부연결부와하부를연결하는하부연결부를포함하는로드셀; 상기상부연결부의하중이인가되는위치에대응하여상기상부연결부의저면에부착되는타겟반사판; 상기하부연결부의저면에부착되는기준반사판; 상기타겟반사판에입사하여반사된제1 빛살과상기기준반사판에입사하여반사된제2 빛살의간섭된광에따른경로길이를기준경로길이와비교하여하중의인가에따른광의경로변위를산출하는광 경로변위산출부; 및상기광의경로변위에상응하는상기로드셀의변위를기초로무게를산출하는무게산출부를포함한다. 이를통하여, 레이저를활용한고정밀도의측정범위가큰 무게측정이가능하다.
Abstract translation: 本发明涉及称重装置,根据本发明的称重装置与所述穿入体的研究中,以及连接所述第一固定部和所述主体底部的两端的上部第二固定部上的上部连接形成 包括用于连接称重传感器的下部连接部分的称重传感器; 目标反射器,该目标反射器连接到与上部连接部分的负载施加的位置对应的上部连接部分的底部表面; 附连到下连接部分的底表面的参考反射器; 光为相比于对应于入射到目标反射器的第二光束的光路长度的干扰的参考路径长度计算根据负载的应用的光路位移基准反射板与所述第一光束反射并入射在反射 路径位移计算单元; 以及重量计算单元,用于基于与光的路径位移相对应的测力传感器的位移来计算重量。 这使得可以使用激光在高精度测量范围内测量重量。
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Patent Agency Ranking
公开(公告)号:KR1020160017718A
公开(公告)日:2016-02-17
申请号:KR1020140098955
申请日:2014-08-01
Applicant: 서강대학교산학협력단
IPC: G02B27/30
CPC classification number: G02B27/30 , G02B27/283
Abstract: 본발명은입사빔을서로평행한제1 및제2 출사빔으로나누어출력하는광학적소자에관한것이다. 상기광학적소자는, 적어도하나의입사면과제1 출사면및 제2 출사면을포함하는투명재질의육면체로구성되어상기입사면으로입사된입사빔을반사또는투과시켜제1 및제2 출사면으로각각제1 및제2 출사빔으로출력시키는것을특징으로하며, 상기제1 출사면과제2 출사면은사전설정된각도로서로이격되어배치되고, 상기제1 출사면과제2 출사면의사이에코팅면이형성되어, 상기입사빔의일부는상기코팅면에서반사된후 제1 출사면을통해출력되어제1 출사빔을구성하고, 상기입사빔의나머지는상기코팅면에서투과된후 제2 출사면을통해출력되어제2 출사빔을구성하는것을특징으로하며, 상기제1 출사면과제2 출사면의이격각도는상기제1 및제2 출사빔이서로평행하도록설정된다.
Abstract translation: 本发明涉及通过将入射光束分成彼此平行的第一输出光束和第二输出光束来输出入射光束的光学装置。 该光学装置由包括至少一个入射面,第一发光面和第二发光面的透明材料的六面体构成,并输出输入入射面的入射光束作为第一输出光束和第二输出 通过反射或透射入射光束将光束射向第一光发射表面和第二发光表面。 第一光发射表面和第二发光表面以预定角度分开布置,并且在第一发光表面和第二发光表面之间形成涂覆表面。 因此,入射光束的一部分从涂层表面反射,然后通过第一发光面输出,形成第一输出光束。 并且入射光束中的另一个穿透涂层表面,然后通过第二发光表面输出以形成第二输出光束。 为了使第一和第二输出光束彼此平行,设置第一发光表面和第二发光表面之间的间隔角。
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公开(公告)号:KR1020130101614A
公开(公告)日:2013-09-16
申请号:KR1020120013713
申请日:2012-02-10
Applicant: 서강대학교산학협력단
CPC classification number: B61L15/0027 , H04B10/114 , H04B10/40
Abstract: PURPOSE: An optical communications system and device for a moving object are provided to enable multiple optical communications modules to individually form a communications path with fixed optical communications devices installed along a moving path, thereby performing communications through another optical communications module if a certain optical communications module performs a handover. CONSTITUTION: Multiple fixed optical communications devices (2001,2002) are installed along the moving path of a moving object. Each of the multiple fixed optical communications devices is equipped with a first optical communications module. The first optical communications module transmits/receives an optical beacon signal and an optical data signal. An optical communications device (302) for moving objects is installed at the moving object. The optical communications device for moving objects is equipped with second optical communications modules. The second optical communications modules transmit/receive an optical beacon signal and an optical data signal to/from a part of the multiple fixed optical communications devices.
Abstract translation: 目的:提供一种用于移动物体的光通信系统和设备,以使得多个光通信模块能够单独地形成与沿移动路径安装的固定光通信设备的通信路径,从而通过另一光通信模块进行通信,如果某个光通信 模块执行切换。 构成:沿着移动物体的移动路径安装多个固定光通信设备(2001,2002)。 多个固定光通信设备中的每一个配备有第一光通信模块。 第一光通信模块发送/接收光信标信号和光数据信号。 用于移动物体的光通信装置(302)安装在移动物体上。 用于移动物体的光通信装置配备有第二光通信模块。 第二光通信模块向/从多个固定光通信设备的一部分发送/接收光信标信号和光数据信号。
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公开(公告)号:KR1020120131514A
公开(公告)日:2012-12-05
申请号:KR1020110049722
申请日:2011-05-25
Applicant: 서강대학교산학협력단
Abstract: PURPOSE: A heterodyne interferometer using a dual-mode light source is provided to reduce alignment errors caused by the vibration generated when moving a stage or the vibration caused by outer conditions because a reference light generating unit and a signal light generating unit can be aligned on one stage. CONSTITUTION: A heterodyne interferometer using a dual-mode light ht source comprises a light source(100), a specimen table(170), a first reflection unit(160), a first polarizing light splitter(110), a reference light generating unit(120), a signal light generating unit(130), a first photo detector(140), and a second photo detector(150). A measurement specimen is place on the specimen table. The first reflection unit is arranged parallel to the specimen table and reflects scanned reference lights. The first polarizing light splitter separates the lights generated in the light source into first lights and second lights. The reference light generating unit separates the first lights into first local signals and reference lights which polarizing directions are perpendicular to each other, thereby providing the same. The signal light generating unit separates the first lights into second local signals and reference lights which polarizing directions are perpendicular to each other, thereby providing the same. The first photo detector detects inference signals of first and second local lights, thereby providing to outside.
Abstract translation: 目的:提供使用双模光源的外差干涉仪,以减少由于由于参考光产生单元和信号光发生单元可以对准而在移动舞台时产生的振动或由外部条件引起的振动引起的对准误差 一个阶段 构成:使用双模光源的外差干涉仪包括光源(100),样品台(170),第一反射单元(160),第一偏振光分离器(110),参考光产生单元 (120),信号光发生单元(130),第一光电检测器(140)和第二光电检测器(150)。 测量样品放在样品台上。 第一反射单元平行于样品台布置并反射扫描的参考光。 第一偏振光分束器将在光源中产生的光分成第一光和第二光。 参考光产生单元将第一光分离为第一局部信号和偏振方向彼此垂直的参考光,从而提供相同的参考光。 信号光发生单元将第一光分离为第二局部信号和偏振方向彼此垂直的参考光,从而提供相同的参考光。 第一光电检测器检测第一和第二局部光的推理信号,从而提供给外部。
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公开(公告)号:KR1020120013821A
公开(公告)日:2012-02-15
申请号:KR1020100076071
申请日:2010-08-06
Applicant: 서강대학교산학협력단
Abstract: PURPOSE: A measuring system of biosensor system using phase transition interference is provided to simultaneously measure phase change and amplitude swing. CONSTITUTION: A measuring system of biosensor system using phase transition interference comprises a light source(100), a SPR system(130), an interferential signal output unit(140), a signal processing unit(150) and a controller(160). The light source offers light. The SPR system receives light and generates a measurement signal by the surface plasmon resonance effect according to sample. The SPR system outputs the generated measurement signal. The signal processing unit outputs computes a plurality of phase transition interferential signals and the detection signal. The controller decides the property of a sample by using the detection signal inputted from the signal processing unit.
Abstract translation: 目的:提供使用相变干扰的生物传感器系统的测量系统,以同时测量相变和幅度摆动。 构成:使用相变干扰的生物传感器系统的测量系统包括光源(100),SPR系统(130),干涉信号输出单元(140),信号处理单元(150)和控制器(160)。 光源提供光源。 SPR系统接收光,并根据样品通过表面等离子体共振效应产生测量信号。 SPR系统输出生成的测量信号。 信号处理单元输出计算多个相变干扰信号和检测信号。 控制器通过使用从信号处理单元输入的检测信号来确定样本的属性。
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公开(公告)号:KR1020110127562A
公开(公告)日:2011-11-25
申请号:KR1020100047137
申请日:2010-05-19
Applicant: 서강대학교산학협력단 , 연세대학교 산학협력단
IPC: G01N21/27 , G01N33/483
Abstract: PURPOSE: A biosensor measurement system using surface Plasmon resonance is provided to improve an inspection rate by minimizing the loss of a light source using a linear laser beam. CONSTITUTION: A biosensor measurement system using surface Plasmon resonance comprises a light sensor(110), a biosensor(100), a lens unit(120), an array type photo detector(130), a position modulation element(140), a demodulation device(160), and a control unit(150). The biosensor reflects incident light generated from the light source using surface Plasmon resonance. The lens unit is arranged between the light source and the biosensor and concentrates the light from the light source on the biosensor. The array type photo detector is composed of multiple pixels and senses the light reflected from the biosensor. The position modulation element vibrates the array type photo detector. The demodulation device receives measurement signals from the pixels. The control unit provides the measurement signals in real time by controlling the operation of the position modulation element, the array type photo detector, and the demodulation device.
Abstract translation: 目的:提供使用表面等离子体共振的生物传感器测量系统,以通过使用线性激光束最小化光源的损耗来提高检查率。 构成:使用表面等离子体共振的生物传感器测量系统包括光传感器(110),生物传感器(100),透镜单元(120),阵列型光电检测器(130),位置调制元件(140),解调 设备(160)和控制单元(150)。 生物传感器使用表面等离子体共振来反射从光源产生的入射光。 透镜单元布置在光源和生物传感器之间,并将来自光源的光聚集在生物传感器上。 阵列型光检测器由多个像素构成,感测从生物传感器反射的光。 位置调制元件使阵列型光电检测器振动。 解调装置从像素接收测量信号。 控制单元通过控制位置调制元件,阵列型光电检测器和解调装置的操作来实时地提供测量信号。
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