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    • 1. 发明授权
    • Inductive angle sensor with improved common mode noise rejection and signal processing method of the same
    • 感应角传感器具有改进的共模噪声抑制和信号处理方法相同
    • US08324888B2
    • 2012-12-04
    • US12866447
    • 2009-08-28
    • Gi-Yeop KimKyu-Won JungCho-Soo LeeSung-Tae KimYong-Jin Kang
    • Gi-Yeop KimKyu-Won JungCho-Soo LeeSung-Tae KimYong-Jin Kang
    • G01B7/14
    • G01B7/30G01D5/2291
    • The present invention provides an inductive angle sensor with improved common mode noise rejection and a signal processing method of the same, which can improve electromagnetic compatibility (EMC) characteristics and obtain an accurate output value by eliminating common mode noise. The signal processing method includes adding signals obtained from a pair of receiver coils by an adder, subtracting the signal obtained from one of the pair of receiver coils from the signal obtained from the other receiver coil by a subtracter, multiplying the value obtained from the adder by the value obtained from the subtracter by a first multiplier, multiplying the value obtained from the subtracter by itself by a second multiplier, and dividing the value obtained from the first multiplier by the value obtained from the second multiplier by a divider.
    • 本发明提供一种具有改进的共模噪声抑制的电感角度传感器及其信号处理方法,其可以通过消除共模噪声来改善电磁兼容性(EMC)特性并获得准确的输出值。 信号处理方法包括通过加法器将从一对接收器线圈获得的信号相加,通过减法器从从另一个接收器线圈获得的信号中减去从该对接收器线圈中的一个获得的信号,将从加法器获得的值相乘 通过第一乘法器从减法器获得的值,将从减法器获得的值乘以第二乘法器,并将从第一乘法器获得的值除以由第二乘法器获得的值除以分频器。
    • 7. 发明授权
    • Electron emission device, method for manufacturing the device, and electron emission display using the same
    • 电子发射器件,该器件的制造方法和使用其的电子发射显示器
    • US07586248B2
    • 2009-09-08
    • US11413779
    • 2006-04-28
    • Chang-Soo LeeKyu-Won Jung
    • Chang-Soo LeeKyu-Won Jung
    • H01J1/02
    • H01J3/021H01J9/025H01J9/148H01J31/127
    • A method of manufacturing an electron emission device where the withstanding voltage characteristics are not deteriorated due to carbon remnants. With the method, cathode electrodes, a first insulating layer and gate electrodes are sequentially formed on a substrate. Openings are formed at the gate electrodes and the first insulating layer to partially expose the surface of the cathode electrodes. A conductive layer is formed on the entire surface of the structure of the substrate. Catalytic metal layers are formed on the conductive layer at the locations to be contain electron emission regions. Electron emission regions are formed on the catalytic metal layers by directly growing a carbonaceous material thereon. The conductive layer is patterned to remove the portions thereof overlaid with carbon remnants during the previous step except for the portion placed under the catalytic metal layer.
    • 一种制造电子发射器件的方法,其中耐受电压特性不会由于碳残留而劣化。 利用该方法,阴极电极,第一绝缘层和栅电极依次形成在基板上。 在栅电极和第一绝缘层处形成开口以部分地暴露阴极电极的表面。 在衬底的结构的整个表面上形成导电层。 在包含电子发射区的位置处,在导电层上形成催化金属层。 通过在其上直接生长碳质材料,在催化金属层上形成电子发射区。 图案化导电层,以除去在前面步骤中覆盖有碳残留物的部分,除了放置在催化金属层下面的部分。
    • 10. 发明申请
    • Light emission device with spacer mounting regions and display device using the same
    • 具有间隔件安装区域的发光装置和使用其的显示装置
    • US20100097544A1
    • 2010-04-22
    • US11810091
    • 2007-06-01
    • Kyu-Won JungHun-Soo KimBon-Gak Gu
    • Kyu-Won JungHun-Soo KimBon-Gak Gu
    • G02F1/13357H01J19/42G09F13/08
    • H01J31/127
    • According to an embodiment, a light emission device and a display device having the light emission device as a light source are provided. The light emission device includes a first substrate; a second substrate opposing the first substrate; a gate electrode formed over the first substrate; a plurality of electron emission areas on the gate electrode, each electron emission area comprising a plurality of openings formed through the gate electrode, wherein electrons are to be emitted from the electron emission areas through the plurality of openings in a general direction from the first substrate to the second substrate; a light emission unit located on the second surface facing the first substrate; and at least one spacer interposed between the first and second substrates, wherein the gate electrode comprises a plurality of spacer mounting regions, each of which is free of openings and is immediately next to each electron emission area, and wherein each of the plurality of electron emission areas have a generally identical shape when viewed from the second substrate in a direction perpendicular to the gate electrode.
    • 根据实施例,提供了具有发光装置作为光源的发光装置和显示装置。 发光装置包括第一基板; 与所述第一基板相对的第二基板; 形成在所述第一基板上的栅电极; 在栅电极上的多个电子发射区域,每个电子发射区域包括通过栅电极形成的多个开口,其中电子将通过多个开口沿着大致方向从第一衬底从电子发射区域发射 到第二基板; 位于与所述第一基板相对的所述第二表面上的发光单元; 以及插入在所述第一和第二基板之间的至少一个间隔件,其中所述栅极电极包括多个间隔件安装区域,每个隔离件安装区域都没有开口并且紧邻每个电子发射区域,并且其中所述多个电子 当从垂直于栅电极的方向观察时,发射区域具有大致相同的形状。