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    • 1. 发明申请
    • Method of and Apparatus for Non-Destructively Measuring Moisture Content of Dried Objects
    • 干性物体水分含量的非破坏性测量方法和装置
    • US20070241756A1
    • 2007-10-18
    • US11660744
    • 2004-08-23
    • Yuzo MizukamiYuichi YamaguchiYusuke Sawai
    • Yuzo MizukamiYuichi YamaguchiYusuke Sawai
    • G01N27/02
    • G01N27/048G01N33/025
    • It is an object of the present invention to provide means for measuring electric characteristics of dried objects having different shapes and characters, and means which, by measuring an impedance and an electrostatic capacity, non-destructively and high accurately measures a moisture content of the dried objects of different shapes and characters, using an appropriate regression manner. In detail, this invention is to provide a method of non-destructively measuring a moisture content of dried objects, comprising the steps of: introducing dried objects having different characters and shapes into a predetermined container; inserting four electrode terminals into the container; measuring electrical characteristics between two electrodes based on the dried objects and inputting measurement results into a high impedance voltmeter; and non-destructively measuring the moisture content of the dried objects. Further, an apparatus of the present invention comprises: a container having a predetermined capacity for accommodating the dried objects having different characters and shapes; four electrode terminals inserted into the container; an AC signal having a predetermined voltage to be applied to the electrode terminals; and a high impedance voltmeter for measuring electrical characteristics between two electrodes based on the dried objects and receiving measurement results.
    • 本发明的目的是提供用于测量具有不同形状和特征的干燥物体的电特性的装置,以及通过测量阻抗和静电容量而非破坏性地和高精度地测量干燥物体的水分含量的装置 不同形状和特征的对象,使用适当的回归方式。 具体而言,本发明提供一种非破坏性地测量干燥物体的含水量的方法,包括以下步骤:将具有不同特征和形状的干燥物体引入预定的容​​器中; 将四个电极端子插入容器中; 基于干燥物体测量两个电极之间的电气特性,并将测量结果输入到高阻抗电压表中; 并且非破坏性地测量干燥物体的含水量。 此外,本发明的装置包括:具有用于容纳具有不同字符和形状的干燥物体的预定容量的容器; 四个电极端子插入容器中; 具有要施加到电极端子的预定电压的AC信号; 以及用于基于干燥物体测量两个电极之间的电特性并接收测量结果的高阻抗电压表。
    • 2. 发明授权
    • Method of and apparatus for non-destructively measuring moisture content of dried objects
    • 用于非破坏性地测量干物品的水分含量的方法和装置
    • US07459920B2
    • 2008-12-02
    • US11660744
    • 2004-08-23
    • Yuzo MizukamiYuichi YamaguchiYusuke Sawai
    • Yuzo MizukamiYuichi YamaguchiYusuke Sawai
    • G01R27/02
    • G01N27/048G01N33/025
    • Methods and apparatuses for obtaining electrical characteristics and moisture content of dried objects having different shapes and sizes through impedance and electrostatic capacity measurements are provided. Measuring the moisture content of dried objects comprises the steps of: introducing dried objects of different sizes and shapes into a container, inserting four electrode terminals into the container, measuring electrical characteristics between two electrodes based on the dried objects and inputting measurement results into a high impedance voltmeter. An apparatus is provided comprising: a container for accommodating dried objects having different sizes and shapes, four electrode terminals inserted into the container, an AC signal having a predetermined voltage to be applied to the terminals, and a high impedance voltmeter for measuring and receiving electrical characteristics between two terminals based on the dried objects.
    • 提供了通过阻抗和静电容量测量获得具有不同形状和尺寸的干燥物体的电特性和含水量的方法和装置。 测量干物品的含水量包括以下步骤:将不同尺寸和形状的干燥物体引入容器中,将四个电极端子插入容器中,基于干燥物体测量两个电极之间的电特性,并将测量结果输入高 阻抗电压表。 提供一种装置,包括:用于容纳具有不同尺寸和形状的干燥物体的容器,插入容器中的四个电极端子,具有施加到端子的预定电压的AC信号,以及用于测量和接收电气的高阻抗电压计 基于干燥物体的两个端子之间的特性。
    • 3. 发明授权
    • Electro-optical device and electronic equipment
    • 电光设备和电子设备
    • US07508462B2
    • 2009-03-24
    • US11747561
    • 2007-05-11
    • Yuichi YamaguchiTadahiro Hagita
    • Yuichi YamaguchiTadahiro Hagita
    • G02F1/136
    • G02F1/136286G02F1/136213H01L27/124H01L27/1255
    • An electro-optical device includes: a pair of substrates facing one another across an electro-optical substance layer; and a layered structure formed on one of the substrates, including scanning lines formed in a first direction, data lines formed in a second direction intersecting the first direction, pixel electrodes formed corresponding to the intersections, transistors for controlling switching of the pixel electrodes, storage capacitors electrically connected to the pixel electrodes, and a fixed electrode layer for supplying fixed potential to one electrode of the storage capacitors, the scanning lines, data lines, transistors, and storage capacitors being arrayed within a light shielding region around the pixel electrodes; wherein the pixel electrodes, and a semiconductor layer where the transistors are formed, are electrically connected via an relay electrode layer at the same layer as the fixed electrode layer; and wherein the fixed electrode layer is discontinuous between adjacent data lines in the first direction.
    • 电光装置包括:一对基板,其横跨电光物质层彼此面对; 以及分层结构,形成在一个基板上,包括沿第一方向形成的扫描线,沿与第一方向相交的第二方向形成的数据线,对应于交点形成的像素电极,用于控制像素电极的切换的晶体管,存储 电连接到像素电极的电容器和用于向存储电容器的一个电极提供固定电位的固定电极层,扫描线,数据线,晶体管和存储电容器排列在像素电极周围的遮光区域内; 其中所述像素电极和形成所述晶体管的半导体层经由与所述固定电极层相同的层的中继电极层电连接; 并且其中所述固定电极层在所述第一方向上在相邻数据线之间是不连续的。
    • 10. 发明授权
    • Liquid crystal display
    • 液晶显示器
    • US07245337B2
    • 2007-07-17
    • US11252321
    • 2005-10-17
    • Hidenori IkenoMasayoshi SuzukiYouichi MurayamaMichiaki SakamotoFumihiko MatsunoHironori KikkawaYuichi Yamaguchi
    • Hidenori IkenoMasayoshi SuzukiYouichi MurayamaMichiaki SakamotoFumihiko MatsunoHironori KikkawaYuichi Yamaguchi
    • G02F1/1335
    • G02F1/133555
    • A reflection electrode has an undulated shape and whose normal direction is distributed unevenly to a specific azimuth angle and whose reflection light intensity depends on said azimuth angle. Openings are formed in that area of the reflection electrode which has a tilt angle of 0 degree to 2 degrees and/or a tilt angle of 10 degrees or higher. The retardation of a liquid crystal layer is changed by making the liquid crystal molecular alignment mode different between the openings and the reflection electrode, so that the intensity of output light is increased in reflection mode as well as in transmission mode. The balance of colors displayed in transmission mode is determined by determining the area of the openings in pixels of each color, and the color temperature is set higher in transmission mode than in reflection mode. This provides a semi-transmission type liquid crystal display which has an excellent visibility in reflection mode as well as in transmission mode.
    • 反射电极具有波状形状,并且其法线方向不均匀地分布到特定方位角,并且其反射光强度取决于所述方位角。 在具有0度到2度的倾斜角度和/或10度或更高的倾斜角的反射电极的该区域中形成开口。 通过使开口和反射电极之间的液晶分子取向模式不同,液晶层的延迟变化,从而在反射模式以及透射模式下输出光的强度增加。 以透射模式显示的颜色的平衡通过确定每种颜色的像素中的开口面积来确定,并且在透射模式中将色温设定为高于反射模式。 这提供了一种半透射型液晶显示器,其在反射模式以及透射模式下具有优异的可视性。