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    • 1. 发明授权
    • Touch control electrochromic device
    • 触摸控制电致变色装置
    • US08284471B2
    • 2012-10-09
    • US13044841
    • 2011-03-10
    • Yu-Chou YehChao-Yi WangWen-Chih LoTsung-Her Yeh
    • Yu-Chou YehChao-Yi WangWen-Chih LoTsung-Her Yeh
    • G02F1/155
    • G02F1/1521G02F1/13338
    • In a touch control electrochromic device such as a resistive or capacitive touch panel, the electrochromic device combined with a resistive touch panel includes a resistive touch panel unit having a first transparent conductive substrate and a second conductive substrate; an electrochromic material, which is a pure liquid filled into the resistive touch panel unit; an insulator installed at internal peripheries of the first transparent conductive substrate and the second conductive substrate; and a controller electrically coupled to the resistive touch panel unit for turning on/off an external power source of the electrochromic material by an external touch control signal. The resistive touch panel unit directly drives the coloration/decoloration of the electrochromic material to achieve the effect of a power saving window or smart glass.
    • 在诸如电阻或电容触摸面板的触摸控制电致变色装置中,与电阻式触摸面板组合的电致变色装置包括具有第一透明导电衬底和第二导电衬底的电阻式触摸面板单元; 电致变色材料,其是填充到电阻式触摸面板单元中的纯液体; 安装在第一透明导电基板和第二导电基板的内周的绝缘体; 以及控制器,其电耦合到所述电阻式触摸面板单元,用于通过外部触摸控制信号来接通/关闭所述电致变色材料的外部电源。 电阻式触摸屏单元直接驱动电致变色材料的着色/脱色,以达到省电窗或智能玻璃的效果。
    • 2. 发明授权
    • Manufacturing method of 3D display device and grating device thereof
    • 3D显示装置及其光栅装置的制造方法
    • US08113901B1
    • 2012-02-14
    • US13101385
    • 2011-05-05
    • Yu-Chou YehChao-Yi WangWen-Chih LoChi-Hsien SungTsung-Her Yeh
    • Yu-Chou YehChao-Yi WangWen-Chih LoChi-Hsien SungTsung-Her Yeh
    • H01J9/00
    • C09K9/02G02B5/1857G02B27/225G02B27/4205G02F1/15G02F2201/307
    • A manufacturing method of a 3D display device and a grating device provides a photopolymerization polymer solution, an electrochromic solution and at least one transparent conductive substrate are provided; mixes a specific quantity X of the photopolymerization polymer solution with a specific quantity Y of the electrochromic solution to produce a grating manufacturing solution; places the grating manufacturing solution between two transparent conductive substrates or at a side of a transparent conductive substrate; projects light through a photomask onto the grating manufacturing solution which is cured to form a transparent fence-shaped isolating element, and a portion of the grating manufacturing solution remains at a fluid state. The devices are manufactured in a primary manufacturing step to improve the manufacturing efficiency. The transparent conductive substrate is placed on a display device and electrically coupled to an electrode portion to complete the production of the grating device of the 3D display device.
    • 3D显示装置和光栅装置的制造方法提供光聚合聚合物溶液,电致变色溶液和至少一种透明导电基材; 将特定量的X光聚合聚合物溶液与电致变色溶液的特定量Y混合以产生光栅制造溶液; 将光栅制造解决方案放置在两个透明导电基板之间或在透明导电基板的一侧; 通过光掩模投影光栅制造解决方案,其被固化以形成透明的栅栏状隔离元件,并且光栅制造溶液的一部分保持在流体状态。 在初级制造步骤中制造器件以提高制造效率。 透明导电基板被放置在显示装置上并电耦合到电极部分以完成3D显示装置的光栅装置的制造。
    • 3. 发明授权
    • Three-dimensional image display device and electrochromic module thereof
    • 三维图像显示装置及其电致变色模块
    • US08427734B2
    • 2013-04-23
    • US13008227
    • 2011-01-18
    • Yu-Chou YehChao-Yi WangWen-Chih LoTsung-Her Yeh
    • Yu-Chou YehChao-Yi WangWen-Chih LoTsung-Her Yeh
    • G02F1/153
    • G02B27/2214G02B27/22H04N13/31
    • A 3D image display device includes a display module, an electrochromic module, a control element and a sensing element. The display module is provided for generating a left-eye image and a right-eye image. The electrochromic module is comprised of a first transparent substrate, a first transparent conductive element, a plurality of first electrochromic elements, an electrolyte layer, a plurality of second electrochromic elements, a second transparent conductive element and a second transparent substrate. The second electrochromic elements are arranged orthogonally with the first electrochromic elements. The control element is provided for switching the voltage of the first and second transparent conductive elements. The sensing element is provided for sensing a rotating direction of the 3D image display device and transmitting a sensing signal to the control element to change the color of the first or second electrochromic element, so as to produce a parallax barrier.
    • 3D图像显示装置包括显示模块,电致变色模块,控制元件和感测元件。 显示模块用于生成左眼图像和右眼图像。 电致变色组件包括第一透明衬底,第一透明导电元件,多个第一电致变色元件,电解质层,多个第二电致变色元件,第二透明导电元件和第二透明衬底。 第二电致变色元件与第一电致变色元件正交配置。 控制元件用于切换第一和第二透明导电元件的电压。 感测元件被提供用于感测3D图像显示装置的旋转方向,并且将感测信号发送到控制元件以改变第一或第二电致变色元件的颜色,以便产生视差屏障。
    • 4. 发明授权
    • 2D/3D image switching display device
    • 2D / 3D图像切换显示装置
    • US08368993B2
    • 2013-02-05
    • US12962843
    • 2010-12-08
    • Yu-Chou YehChao-Yi WangTsung-Her Yeh
    • Yu-Chou YehChao-Yi WangTsung-Her Yeh
    • G02F1/153G02F1/15
    • G02F1/13471G02B27/2214G02F1/1508G02F2201/44H04N13/302H04N13/324H04N13/356
    • A 2D/3D image switching display device includes an image display unit and an image switching unit coupled to a surface of the image display unit, and the image switching unit includes a first substrate, a second substrate, first and second conducting elements corresponding to the first and second substrates respectively, and an electrochromic unit installed between the first and second substrates, and the electrochromic unit includes a first electrochromic layer and a second electrochromic layer combined with each other, such that when the image display unit switches its display from the display of planar images to stereo images, the electrochromic layers turn to a dark light-shading condition for a better light-shielding effect, and moire patterns will not be produced after naked eyes receive left and right eye images of a stereo image, and the display device can display stereo images directly without requiring an additional parallax barrier device.
    • 2D / 3D图像切换显示装置包括图像显示单元和耦合到图像显示单元的表面的图像切换单元,并且图像切换单元包括第一基板,第二基板,对应于图像显示单元的第一和第二导电元件 第一和第二基板,以及安装在第一和第二基板之间的电致变色单元,并且电致变色单元包括彼此结合的第一电致变色层和第二电致变色层,使得当图像显示单元从显示器切换其显示时 的平面图像到立体图像,电致变色层变成暗的遮光状态以获得更好的遮光效果,并且在裸眼接收立体图像的左眼和右眼图像之后不会产生莫尔图案,并且显示器 设备可以直接显示立体图像,而不需要额外的视差屏障设备。
    • 6. 发明申请
    • GAS SENSOR
    • 气体传感器
    • US20090007637A1
    • 2009-01-08
    • US12168095
    • 2008-07-04
    • Chen-Chia ChouTsung-Her Yeh
    • Chen-Chia ChouTsung-Her Yeh
    • G01N27/62
    • G01N27/4045
    • A gas sensor is provided. The gas sensor includes a substrate, a first electrode, a second electrode, a power source and a current meter. The substrate includes a planar surface, wherein the substrate is made of ion-conductive material, proton-conductive material or electron-conductive material. The first electrode is formed on the planar surface. The second electrode is formed on the planar surface, wherein a gap is formed between the first electrode and the second electrode. The power source is electrically connected to the first electrode and the second electrode, wherein the power source provides a voltage to the first electrode and the second electrode. The current meter is electrically connected to the first electrode and tie second electrode to measure a limit current passing the first electrode and the second electrode.
    • 提供气体传感器。 气体传感器包括基板,第一电极,第二电极,电源和电流计。 基板包括平面表面,其中基板由离子传导材料,质子传导材料或电子传导材料制成。 第一电极形成在平面上。 第二电极形成在平坦表面上,其中在第一电极和第二电极之间形成间隙。 电源电连接到第一电极和第二电极,其中电源向第一电极和第二电极提供电压。 电流表电连接到第一电极并且连接第二电极以测量通过第一电极和第二电极的极限电流。
    • 7. 发明授权
    • Fuel cell and fabricating method thereof
    • 燃料电池及其制造方法
    • US08298722B2
    • 2012-10-30
    • US12350183
    • 2009-01-07
    • Chen-Chia ChouTsung-Her Yeh
    • Chen-Chia ChouTsung-Her Yeh
    • H01M8/04H01M4/92
    • H01M8/0258H01M4/8889H01M8/0247H01M8/1231H01M8/2425H01M8/2457H01M8/2483Y02P70/56
    • A fuel cell includes a substrate layer, a first electrode, a second electrode, a first chamber layer and a second chamber layer, and all of which are integrally formed by co-firing. The substrate layer includes a first surface and a second surface opposite to the second surface, and the first electrode, the second electrode are formed on the first and second surfaces, respectively. The first chamber layer, disposed on the first electrode, includes a first flow passage and a first fuel chamber connected thereto, and a first gas passes the first flow passage, enters the first fuel chamber and contacts the first electrode. The second chamber, disposed on the second electrode, includes a second flow passage and a second fuel chamber connected thereto, and a second gas passes the second flow passage, enters the second fuel chamber and contacts the second electrode.
    • 燃料电池包括基板层,第一电极,第二电极,第一室层和第二室层,并且它们都通过共烧结而一体形成。 衬底层包括第一表面和与第二表面相对的第二表面,并且第一电极,第二电极分别形成在第一表面和第二表面上。 设置在第一电极上的第一室层包括第一流路和与其连接的第一燃料室,第一气体通过第一流路,进入第一燃料室并与第一电极接触。 设置在第二电极上的第二室包括第二流动通道和与其连接的第二燃料室,第二气体通过第二流动通道,进入第二燃料室并与第二电极接触。
    • 8. 发明申请
    • FUEL CELL AND FABRICATING METHOD THEREOF
    • 燃料电池及其制造方法
    • US20100173215A1
    • 2010-07-08
    • US12350183
    • 2009-01-07
    • Chen-Chia ChouTsung-Her Yeh
    • Chen-Chia ChouTsung-Her Yeh
    • H01M8/04B32B37/06
    • H01M8/0258H01M4/8889H01M8/0247H01M8/1231H01M8/2425H01M8/2457H01M8/2483Y02P70/56
    • A fuel cell includes a substrate layer, a first electrode, a second electrode, a first chamber layer and a second chamber layer, and all of which are integrally formed by co-firing. The substrate layer includes a first surface and a second surface opposite to the second surface, and the first electrode, the second electrode are formed on the first and second surfaces, respectively. The first chamber layer, disposed on the first electrode, includes a first flow passage and a first fuel chamber connected thereto, and a first gas passes the first flow passage, enters the first fuel chamber and contacts the first electrode. The second chamber, disposed on the second electrode, includes a second flow passage and a second fuel chamber connected thereto, and a second gas passes the second flow passage, enters the second fuel chamber and contacts the second electrode.
    • 燃料电池包括基板层,第一电极,第二电极,第一室层和第二室层,并且它们都通过共烧结而一体形成。 衬底层包括第一表面和与第二表面相对的第二表面,并且第一电极,第二电极分别形成在第一表面和第二表面上。 设置在第一电极上的第一室层包括第一流路和与其连接的第一燃料室,第一气体通过第一流路,进入第一燃料室并与第一电极接触。 设置在第二电极上的第二室包括第二流动通道和与其连接的第二燃料室,第二气体通过第二流动通道,进入第二燃料室并与第二电极接触。
    • 9. 发明授权
    • Electrochemistry apparatus
    • 电化学仪器
    • US08813539B2
    • 2014-08-26
    • US13089199
    • 2011-04-18
    • Chen-Chia ChouTsung-Her Yeh
    • Chen-Chia ChouTsung-Her Yeh
    • G01K7/02G01N7/18G01N25/00G01N27/407
    • G01N27/407G01N27/4073
    • An electrochemistry apparatus comprises a supporting body and a reaction layer for generating electromotive force. The supporting body is made of a first material. The reaction layer covers the surface of the supporting body and comprises an ion conductive layer, a first film electrode and a second film electrode. The first and the second film electrodes are separately formed on two opposite surfaces of the ion conductive layer. The ion conductive layer is made of a second material having a thermal expansion coefficient approximating to the thermal expansion coefficient of the first material. The second material has an ionic conductivity greater than the ionic conductivity of the first material. The first material has a toughness greater than the second material. The electrochemistry apparatus employs the supporting body with improved toughness and the ion conductive layer with improved ion conductivity, so as to increase sensitivity and thermal shock resistance.
    • 电化学装置包括支撑体和用于产生电动势的反应层。 支撑体由第一材料制成。 反应层覆盖支撑体的表面,并且包括离子传导层,第一膜电极和第二膜电极。 第一和第二膜电极分别形成在离子导电层的两个相对的表面上。 离子导电层由具有接近于第一材料的热膨胀系数的热膨胀系数的第二材料制成。 第二种材料的离子电导率大于第一种材料的离子电导率。 第一种材料具有大于第二种材料的韧性。 电化学装置采用具有改进的韧性的支撑体和具有改善的离子传导性的离子导电层,以提高灵敏度和耐热冲击性。
    • 10. 发明授权
    • Gas sensor
    • 气体传感器
    • US08016988B2
    • 2011-09-13
    • US12168338
    • 2008-07-07
    • Chen-Chia ChouTsung-Her Yeh
    • Chen-Chia ChouTsung-Her Yeh
    • G01N27/407G01N27/26
    • G01N27/407
    • A gas sensor is provided. The gas sensor includes a post, an ion conductive layer, a first sensing portion and a second sensing portion. The post includes a first end, a second end, a side surface and a groove, wherein the groove is formed on the side surface of the post, and an opening is formed on the first end connecting with the groove. The ion conductive layer is formed on the side surface of the post, including a first surface and a second surface, wherein the first surface is opposite to the second surface, and the ion conductive layer and the groove compose a chamber. The first sensing portion is formed on the first surface. The second sensing portion is formed on the second surface corresponding to the first sensing portion, wherein the first sensing portion is located in the chamber.
    • 提供气体传感器。 气体传感器包括柱,离子传导层,第一感测部分和第二感测部分。 该柱包括第一端,第二端,侧表面和凹槽,其中所述凹槽形成在柱的侧表面上,并且在与凹槽连接的第一端上形成开口。 离子导电层形成在柱的侧表面上,包括第一表面和第二表面,其中第一表面与第二表面相对,并且离子传导层和凹槽构成腔室。 第一感测部分形成在第一表面上。 第二感测部分形成在对应于第一感测部分的第二表面上,其中第一感测部分位于腔室中。