公开(公告)号：US08775114B2

公开(公告)日：2014-07-08

申请号：US13059769

申请日：2008-08-22

Applicant: Yong Bong Lee ,  Sung Soo Jung ,  Seung-Woo Kim

Inventor： Yong Bong Lee ,  Sung Soo Jung ,  Seung-Woo Kim

IPC: G01H1/04 ,  G01P21/00

CPC classification number: G01H1/04 ,  G01H1/00 ,  G01P21/00

Abstract: A method and apparatus for determining phase sensitivity of an accelerometer based on an analysis of the harmonic components of the interference signal, which can estimate phase lags of an accelerometer through an analysis of the interference signal obtained using a single photo-detector when the accelerometer moves in sinusoidal motion with an initial phase of vibration. The method comprises the steps of obtaining an interference signal in a time domain generated from a signal reflected by an accelerometer and a fixed mirror using a single photo-detector; transforming the interference signal in the time domain into a signal in a frequency domain including a plurality of harmonic signals by Fourier transform; and determining the phase sensitivity of the accelerometer using initial phase of vibration displacement of the accelerometer, which is included in the interference signal in the frequency domain.

Abstract translation: 一种用于基于对干扰信号的谐波分量的分析来确定加速度计的相位灵敏度的方法和装置，其可以通过对加速度计移动时使用单个光检测器获得的干扰信号的分析来估计加速度计的相位滞后 在正弦运动中具有初始振动阶段。 该方法包括以下步骤：使用单个光检测器从由加速度计和固定镜反射的信号产生的时域中获得干扰信号; 通过傅立叶变换将时域中的干扰信号变换为包括多个谐波信号的频域中的信号; 以及使用包括在频域中的干扰信号中的加速度计的振动位移的初始相位确定加速度计的相位灵敏度。

公开(公告)号：US08761270B2

公开(公告)日：2014-06-24

申请号：US13388631

申请日：2010-08-05

Applicant: Sam Yong Woo ,  Young Beom Kim ,  Myungsoo Kim ,  Taeg Yong Kwon ,  Seong Hoon Yang

Inventor： Sam Yong Woo ,  Young Beom Kim ,  Myungsoo Kim ,  Taeg Yong Kwon ,  Seong Hoon Yang

IPC: H04B3/00

CPC classification number: H04B3/54 ,  H04B2203/5408 ,  H04B2203/5416

Abstract: In the present invention, time information is sent through a common power line in executing home automation devices or using various industrial equipments. In the power line broadcasting, a small amount of data, such as time information, is transmitted unidirectionally, and long-distance power line broadcasting can be possible using carriers of a low frequency band. time setting for various instruments is automatically performed in response to a power signal after a breakdown of electric current, making unnecessary a user's action to perform the time setting, and the existing power line can be used without change.

Abstract translation: 在本发明中，通过公共电力线在执行家庭自动化装置或者使用各种工业设备中发送时间信息。 在电力线路广播中，单向发送少量的时间信息等数据，可以使用低频带的载波来进行长距离电力线的广播。 响应于电流破坏之后的电力信号自动执行各种仪器的时间设置，使得用户不需要执行时间设置的动作，并且可以不改变地使用现有的电力线。

公开(公告)号：US08742336B2

公开(公告)日：2014-06-03

申请号：US13727018

申请日：2012-12-26

Applicant: Korea Research Institute of Standards and Science

Inventor： Young-Pil Kim ,  Tae Geol Lee

IPC: H01J49/04

CPC classification number: H01J49/0409 ,  B82Y15/00 ,  G01N1/00 ,  H01J49/00 ,  H01J49/26 ,  Y10S977/902

Abstract: There are provided a bio-chip for secondary ion mass spectrometry and a method of fabricating the same, the bio-chip, which is a bio-chip for analyzing a biochemical material using the secondary ion mass spectrometry, including: a substrate; and core-shell particles positioned above substrate, wherein the core-shell particles each include a metal nanoparticle as a core and a metal shell surrounding the metal nanoparticle.

Abstract translation: 提供了二次离子质谱法的生物芯片及其制造方法，该生物芯片是使用二次离子质谱法分析生化材料的生物芯片，其包括：底物; 以及位于基材上方的核 - 壳颗粒，其中核 - 壳颗粒各自包括作为芯的金属纳米颗粒和围绕金属纳米颗粒的金属壳。

公开(公告)号：US20140130212A1

公开(公告)日：2014-05-08

申请号：US14128290

申请日：2011-06-24

Applicant: Byong Chon Park ,  Ju Youb Lee ,  Woon Song ,  Jin Ho Choi ,  Sang Jung Ahn ,  Joon Lyou ,  Won Young Song ,  Jae Wan Hong ,  Seung Hun Baek

Inventor： Byong Chon Park ,  Ju Youb Lee ,  Woon Song ,  Jin Ho Choi ,  Sang Jung Ahn ,  Joon Lyou ,  Won Young Song ,  Jae Wan Hong ,  Seung Hun Baek

IPC: G01Q30/02

CPC classification number: G01Q30/02 ,  B82Y35/00 ,  H01J37/28

Abstract: Provided is a fusion measurement apparatus which increases or maximizes the reliability of a measurement. The fusion measurement apparatus includes an atomic microscope for measuring a surface of a substrate at an atomic level, an electron microscope for measuring the atomic microscope and the substrate, and at least one electrode which distorts the path of a secondary electron on the substrate covered by a cantilever of the atomic microscope so that the secondary electron proceeds to an electron detector of the electron microscope.

Abstract translation: 提供了一种增加或最大化测量可靠性的融合测量装置。 融合测量装置包括用于测量原子水平的基板的表面的原子显微镜，用于测量原子显微镜和基板的电子显微镜，以及至少一个电极，其使基板上覆盖的基板上的二次电子的路径变形 原子显微镜的悬臂，使得二次电子进入电子显微镜的电子检测器。

公开(公告)号：US08626470B2

公开(公告)日：2014-01-07

申请号：US13001896

申请日：2009-07-01

Applicant: Kwon Sang Ryu ,  Soo Young Park ,  Jong Seo Park ,  In Hyun Cheong ,  Kee-Bong Yoon

Inventor： Kwon Sang Ryu ,  Soo Young Park ,  Jong Seo Park ,  In Hyun Cheong ,  Kee-Bong Yoon

IPC: G01R33/12

CPC classification number: G01R33/1223

Abstract: The present invention relates to a reversible permeability measuring device for measuring magnetic characteristics and magnetic flux change in a specimen, as one of a plurality of non-destructive methods for evaluating mechanical properties. The reversible permeability measuring device of the present invention directly measures a magnetic field change induced at the surface of the specimen through the use of a magnetic potentiometer and a flux meter, thereby accurately evaluating the deterioration of materials.

Abstract translation: 本发明涉及一种用于测量样品中的磁特性和磁通量变化的可逆磁导率测量装置，作为用于评估机械性能的多种非破坏性方法之一。 本发明的可逆磁导率测量装置通过使用磁电位计和磁通计直接测量在样品表面引起的磁场变化，从而准确地评估材料的劣化。

公开(公告)号：US20130292561A1

公开(公告)日：2013-11-07

申请号：US13727018

申请日：2012-12-26

Applicant: Korea Research Institute of Standards and Science

Inventor： Young-Pil KIM ,  Tae Geol LEE

IPC: G01N1/00 ,  H01J49/26

CPC classification number: H01J49/0409 ,  B82Y15/00 ,  G01N1/00 ,  H01J49/00 ,  H01J49/26 ,  Y10S977/902

Abstract: There are provided a bio-chip for secondary ion mass spectrometry and a method of fabricating the same, the bio-chip, which is a bio-chip for analyzing a biochemical material using the secondary ion mass spectrometry, including: a substrate; and core-shell particles positioned above substrate, wherein the core-shell particles each include a metal nanoparticle as a core and a metal shell surrounding the metal nanoparticle.

Abstract translation: 提供了二次离子质谱法的生物芯片及其制造方法，该生物芯片是使用二次离子质谱法分析生化材料的生物芯片，其包括：底物; 以及位于基材上方的核 - 壳颗粒，其中核 - 壳颗粒各自包括作为芯的金属纳米颗粒和围绕金属纳米颗粒的金属壳。

公开(公告)号：US20130168336A1

公开(公告)日：2013-07-04

申请号：US13421945

申请日：2012-03-16

Applicant: Jong Ho KIM ,  Min Seok KIM ,  Yon-Kyu PARK ,  Dae Im KANG ,  Dong-Ki KIM

Inventor： Jong Ho KIM ,  Min Seok KIM ,  Yon-Kyu PARK ,  Dae Im KANG ,  Dong-Ki KIM

IPC: H05K7/00 ,  B23P17/00

CPC classification number: G01L1/205 ,  A61B2562/0247 ,  A61B2562/046 ,  A61B2562/164 ,  G01L1/146

Abstract: The present invention relates to a structure for attaching tactile sensors to a curved surface, comprising a sensor fixing unit configured to have at least part of one surface curved and to have a plurality of sensor insertion grooves, crossing each other, formed in the one surface in a matrix form; tactile sensor units formed in a matrix form, inserted into the respective sensor insertion grooves, and configured to detect external force; sealing units configured to seal the respective sensor insertion grooves; and a support unit configured to come in contact with one face of the sealing units or the sensor fixing units and to support the sensor fixing units. Accordingly, the tactile sensors can be easily attached to a curved surface, and mass production is possible.

Abstract translation: 本发明涉及一种用于将触觉传感器附接到曲面的结构，包括传感器固定单元，该传感器固定单元被构造成具有至少部分一个表面弯曲并且具有彼此交叉的多个传感器插入槽， 以矩阵形式; 以矩阵形式形成的触觉传感器单元，插入相应的传感器插入槽中，并构造成检测外力; 密封单元，其构造成密封各个传感器插入槽; 以及支撑单元，其构造成与所述密封单元或所述传感器固定单元的一个面接触并支撑所述传感器固定单元。 因此，触觉传感器可以容易地附接到弯曲表面，并且可以批量生产。

公开(公告)号：US20130167272A1

公开(公告)日：2013-06-27

申请号：US13821708

申请日：2011-01-10

Applicant: Seung Hoon Nahm ,  Hoon Sik Jang ,  Sang Gu Jeon ,  Min Seok Kim

Inventor： Seung Hoon Nahm ,  Hoon Sik Jang ,  Sang Gu Jeon ,  Min Seok Kim

IPC: G01Q20/00 ,  B82Y15/00

CPC classification number: G01N3/08 ,  B82Y25/00 ,  G01L1/044 ,  G01L1/16 ,  G01N3/066 ,  G01N2203/0623 ,  G01R33/093 ,  G01R33/095

Abstract: Disclosed is an electrical-mechanical complex sensor for nanomaterials, including: a detector having a piezoelectric film therein, for measuring a mechanical property of a nanomaterial when a bending or tensile load is applied to the nanomaterial; a first detection film formed at an end of the detector to measure the mechanical property and an electrical property of the nanomaterial) in real time at the same time, when the nanomaterial contacts the first detection film; and a support to which one end of the detector is integrally connected, for supporting the detector.

Abstract translation: 公开了一种用于纳米材料的机电复合传感器，包括：其中具有压电膜的检测器，用于当对纳米材料施加弯曲或拉伸载荷时测量纳米材料的机械性能; 当纳米材料接触第一检测膜时，同时实时地形成在检测器的端部处的第一检测膜，以测量纳米材料的机械性能和电学性质） 以及检测器的一端整体连接的支撑件，用于支撑检测器。

公开(公告)号：US08450684B2

公开(公告)日：2013-05-28

申请号：US13063616

申请日：2009-09-24

Applicant: Tae Geol Lee ,  Dae Won Moon ,  Hyegeun Min

Inventor： Tae Geol Lee ,  Dae Won Moon ,  Hyegeun Min

IPC: G01N23/203

CPC classification number: G01N23/2255

Abstract: A quantification method of functional groups in an organic thin layer includes: a) measuring an absolute quantity per unit area of an analysis reference material having functional groups included in a reference organic thin layer by means of MEIS spectroscopy; b) carrying out spectrometry for the same reference organic thin layer as in a) and thereby obtaining peak intensities of the functional groups in the reference organic thin layer; c) carrying out the same spectrometry as in b) for an organic thin layer to be analyzed having the same functional groups and thereby measuring peak intensities of the functional groups with unknown quantity; and d) comparing the peak intensities of the functional groups measured in b) with respect to the absolute quantity of the analysis reference material in a) and thereby determining the absolute quantity per unit area of the functional groups with unknown quantity measured in c).

Abstract translation: 有机薄层中的官能团的定量方法包括：a）通过MEIS光谱测量具有包括在参考有机薄层中的官能团的分析参考材料的每单位面积的绝对量; b）进行与a）相同的参考有机薄层的光谱测定，从而获得参考有机薄层中的官能团的峰值强度; c）进行与b）相同的光谱测定，对于具有相同官能团的待分析有机薄层，从而测量具有未知量的官能团的峰强度; 和d）比较a）中测定的官能团的峰强度相对于分析参考物质的绝对量，从而确定在c）中测量的具有未知量的官能团的每单位面积的绝对量。

公开(公告)号：US20130095504A1

公开(公告)日：2013-04-18

申请号：US13806203

申请日：2011-06-24

Applicant: Tae Geol Lee ,  Young-Lai Cho ,  Mi Young Son

Inventor： Tae Geol Lee ,  Young-Lai Cho ,  Mi Young Son

IPC: G01N33/574

CPC classification number: G01N33/57488 ,  G01N33/553 ,  G01N33/6848

Abstract: Provided is a detection kit, which a disease detection kit used together with a secondary ion mass spectrometer in order to detect a disease marker contained in a biological sample, the detection kit including: a base including a noble metal thin film formed thereon; a reactant containing peptide specifically reacting with the disease marker; a first storage unit filled with the reactant; a test substance containing a biological sample of a possible disease carrier; a second storage unit filled with the test substance; a mixing unit mixing the reactant and the test substance with each other to prepare a detection substance containing the specific reactant, which is the peptide specifically reacted with the disease marker contained in the biological sample; and a contact unit contacting the detection substance prepared by the mixing unit with the base to bond the specific reactant to the noble metal film of the base.

Abstract translation: 提供了一种检测试剂盒，其是与二次离子质谱仪一起使用以检测生物样品中所含的疾病标志物的疾病检测试剂盒，所述检测试剂盒包括：其上形成有贵金属薄膜的基材; 含有特异性与疾病标记物反应的肽的反应物; 填充有反应物的第一存储单元; 含有可能的疾病携带者的生物样品的测试物质; 填充有测试物质的第二存储单元; 混合单元，将反应物和测试物质相互混合，制备含有特异性反应物的检测物质，其是特异性与生物样品中所含疾病标志物反应的肽; 以及接触单元，将由所述混合单元制备的检测物质与所述基底接触，以将所述特定反应物键合到所述基底的贵金属膜。