전산화성 물질 농도의 측정 방법, 기판 세정 방법 및 기판 세정 시스템
    102.
    发明授权
    전산화성 물질 농도의 측정 방법, 기판 세정 방법 및 기판 세정 시스템 有权
    测量凝结物质浓度的方法,基底清洗方法,

    公开(公告)号:KR101791490B1

    公开(公告)日:2017-10-30

    申请号:KR1020157035628

    申请日:2014-06-23

    Abstract: 세정시스템등의전해황산의전산화성물질농도를온라인으로모니터링하는것을가능하게하기위해, 전해황산의황산농도와같은황산농도의전해황산조제액을표준시료액으로해서전산화성물질농도와관련지어서베이스라인보정한흡광도데이터를이용하고, 황산농도가 60∼97질량%, 액온이 20∼70℃인전해황산을시료액으로해서파장 190∼290㎚로흡광도측정함으로써, 상기데이터에 의거하여상기전해황산중의전산화성물질농도를측정함으로써전해황산에있어서의전산화성물질농도를즉시측정하는것을가능하게한다.

    Abstract translation: 待递送,如清洁系统,以使得能够监控硫酸管线,电解硫酸浓度,的计算机化可燃浓度如与计算碱的可燃浓度的硫酸的硫酸辅助溶液到相关联的标准样品溶液的硫酸浓度 使用校准线的吸光度数据,并通过吸光度在波长190〜290㎚测量由展重量为硫酸盐60-97%的数据的基础上,电解液的硫酸浓度,液温为20〜70℃的硫酸的试样溶液 通过测量电解氧化剂的浓度可以立即测量电解硫酸中化学物质的浓度。

    SYSTEM AND METHOD FOR PERFORMING TEAR FILM STRUCTURE MEASUREMENT AND EVAPORATION RATE MEASUREMENTS
    105.
    发明申请
    SYSTEM AND METHOD FOR PERFORMING TEAR FILM STRUCTURE MEASUREMENT AND EVAPORATION RATE MEASUREMENTS 审中-公开
    用于进行泪膜结构测量和蒸发率测量的系统和方法

    公开(公告)号:WO2015132788A2

    公开(公告)日:2015-09-11

    申请号:PCT/IL2015/050232

    申请日:2015-03-04

    Abstract: In a system and method for performing tear film structure measurement and evaporation rate measurements a broadband light source illuminates the tear film and a spectrometer measures respective spectra of reflected light from at least one point of the tear film. A color camera obtains a large field of view image of the tear film so as to obtain color information for all points of the tear film imaged by the color camera and an autofocusing mechanism focusses the color camera and the spectrometer. A processing unit coupled to the camera and to the spectrometer calibrates the camera so that the color obtained by the camera at the at least one point measured by the spectrometer matches the color of the spectrometer at the same point, and determines from the color of each point of the calibrated camera the thickness of the lipids at the respective point.

    Abstract translation: 在用于执行泪膜结构测量和蒸发速率测量的系统和方法中,宽带光源照射泪膜并且光谱仪测量来自泪膜的至少一个点的反射光的各个光谱。 彩色照相机获得泪膜的大视场图像,以获得由彩色照相机成像的泪膜的所有点的颜色信息,并且自动聚焦机构聚焦彩色照相机和光谱仪。 耦合到照相机和光谱仪的处理单元校准照相机,使得由照相机在由光谱仪测量的至少一个点处获得的颜色与在相同点处的光谱仪的颜色匹配,并且从每个照相机的颜色确定 校准摄像头的点在相应点的脂质厚度。

    METHOD AND DEVICE FOR DETECTION AND SPATIAL MAPPING OF MERCURY CONCENTRATION IN WATER SAMPLES
    106.
    发明申请
    METHOD AND DEVICE FOR DETECTION AND SPATIAL MAPPING OF MERCURY CONCENTRATION IN WATER SAMPLES 审中-公开
    用于汞样品中汞浓度检测和空间测绘的方法和装置

    公开(公告)号:WO2015108820A1

    公开(公告)日:2015-07-23

    申请号:PCT/US2015/011032

    申请日:2015-01-12

    Abstract: The concentration of mercury in a sample is measured by a reader secured to a camera-containing mobile electronic device. The reader has holders for sample and control solutions. First and second light sources emitting light at different colors illuminate the sample and control holders. Each holder contains gold nanoparticles, thymine-rich aptamers, and sodium chloride. The light sources illuminate the sample and control holders. An image is captured of the transmitted light through the sample and control holders, wherein the image comprises two control regions of interest and two sample regions of interest. The device calculates the intensity of the two control regions of interest and the two sample regions of interest and generates intensity ratios for the sample and control, respectively, at each color. The device calculates a normalized color ratio based on the intensity ratios and outputs a concentration of mercury based on the normalized color ratio.

    Abstract translation: 样品中汞的浓度通过固定到含摄像机的移动电子设备的读取器来测量。 读者拥有样品和控制解决方案的持有人。 以不同颜色发光的第一和第二光源照射样品和控制器。 每个支架都含有金纳米颗粒,富含胸腺嘧啶的适体和氯化钠。 光源照亮样品和控制夹。 通过样本和控制保持器捕获透射光的图像,其中图像包括感兴趣的两个控制区域和两个感兴趣的样本区域。 该装置计算感兴趣的两个控制区域和两个感兴趣的样本区域的强度,并分别在每个颜色处产生样本和对照的强度比。 该装置基于强度比计算标准化的颜色比,并且基于归一化的颜色比率输出汞的浓度。

    QUALITATIVE ANALYSIS SYSTEM AND METHOD FOR AGRICULTURAL PRODUCTS IN HARVESTING EQUIPMENT

    公开(公告)号:WO2007034530B1

    公开(公告)日:2007-07-19

    申请号:PCT/IT2006000677

    申请日:2006-09-22

    Inventor: BERZAGHI PAOLO

    Abstract: A system for the qualitative analysis of an agricultural product comprises a scanning cell (1) for the transmittance of a sample of an agricultural product, means for the emission of a quantity of light (6) and means for the detection of a quantity of light (5,50), at least one optical sensor (9,90) and a remote control unit (10) connected to the above mentioned at least one optical sensor (9,90). The system is characterized by the fact that said means for the detection of a quantity of light (5) are mounted in a mobile manner on said cell (1) and arranged frontally to said means of emission of a quantity of light (6), in such a way that the distance between said means of emission (6) and said means of detection (5) can be altered.

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