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    • 1. 发明申请
    • Thin Film Forming Sputtering Target, Dielectric Thin Film, Optical Disc and Production Method Therefor
    • 薄膜形成溅射靶,介电薄膜,光盘及其制造方法
    • US20080271988A1
    • 2008-11-06
    • US11630984
    • 2005-05-18
    • Yasuo HosodaTakanobu HiguchiTakashi Ueno
    • Yasuo HosodaTakanobu HiguchiTakashi Ueno
    • C23C14/00
    • G11B7/266C23C14/3414
    • Diffusion of water or oxygen present in the dielectric protection film is restrained by eliminating free oxygen in an oxide thin film while maintaining the characteristics of a dielectric protection film. As the dielectric material for forming a dielectric protection film for an optical disc or the like, an oxide mixture thin film of a niobium oxide and one of a silicon oxide and a titanium oxide is used. In a preferable example, a target made of a niobium oxide as the main component with 1 to 30% by weight of a silicon oxide added is used for formation of an oxide thin film by sputtering. Moreover, the oxide thin film is formed preferably in a nitrogen atmosphere. A nitrogen containing oxide thin film is produced by carrying out sputtering using a target with the oxygen lacked and a minute amount of nitrogen added. Thereby, a thin film having little reducing function and a high barrier property while having the characteristics comparable to a complete oxide can be produced.
    • 通过在保持电介质保护膜的特性的同时消除氧化物薄膜中的游离氧来抑制介电保护膜中存在的水或氧的扩散。 作为用于形成用于光盘等的介电保护膜的电介质材料,使用氧化铌氧化物和氧化硅和氧化钛之一的氧化物混合物薄膜。 在优选的例子中,使用以氧化硅为1〜30重量%的氧化铌为主要成分的靶,通过溅射形成氧化物薄膜。 此外,优选在氮气气氛中形成氧化物薄膜。 通过使用缺氧的靶和加入微量氮进行溅射来制造含氮氧化物薄膜。 因此,可以制造具有与完全氧化物相当的特性的几乎没有减少功能和高阻隔性的薄膜。
    • 2. 发明授权
    • Electrostatic capacitance type input device
    • 静电电容式输入装置
    • US08614403B2
    • 2013-12-24
    • US13322052
    • 2010-05-26
    • Hiroshi TanakaTakashi Ueno
    • Hiroshi TanakaTakashi Ueno
    • H03K17/975
    • G06F3/044G06F2203/04111H03K17/9622H03K2217/96042H03K2217/960755
    • An electrostatic capacitance type input device is provided which has a structure in which translucent electrodes are aligned on the same layer in two axial directions, and has features that jumpers for connecting among the translucent electrodes in one of the two axial directions can be prevented from becoming conspicuous, and disconnection is less likely to occur. Jumpers 8 formed of an electrically conductive material are formed on a surface of a substrate 2, and thereafter an insulating film 6 is provided so as to cover the jumpers 8 and the substrate 2, and first translucent electrodes 3 and second translucent electrodes 4 are provided on the insulating film 6 so as to form a matrix. The first translucent electrodes 3 aligned in the leftward/rightward direction in the drawings are electrically connected to each other by the jumpers 8 via through holes 7 formed in the insulating film 6. On the other hand, the second translucent electrodes 4 aligned in the direction orthogonal to the surface of a sheet are connected to each other by connecting portions 5 which are formed by patterning so as to be integrated with the second translucent electrodes 4. Since the jumpers 8 for connecting among the first translucent electrodes 3 are formed on the substrate 2, the jumper 8 can be prevented from becoming conspicuous as viewed from the surface side.
    • 提供了一种静电电容型输入装置,其具有半透明电极沿两个轴向对准在同一层上的结构,并且具有能够防止在两个轴向中的一个方向上连接透光性电极的跳线变成 显眼,断线不太可能发生。 在基板2的表面上形成由导电材料形成的跳线8,然后设置绝缘膜6以覆盖跳线8和基板2,并且设置第一透光性电极3和第二透光性电极4 在绝缘膜6上形成矩阵。 在图中左右方向排列的第一透光性电极3通过形成在绝缘膜6上的通孔7由跳线8电连接。另一方面,第二透光性电极4在方向 通过图案形成的连接部分5与片材的表面正交地连接,以便与第二透光电极4一体化。由于用于连接第一透光性电极3的跳线8形成在基板上 如图2所示,当从表面侧观察时,可以防止跳线8变得显眼。
    • 3. 发明授权
    • Head cap having air communicating channel, and liquid droplets ejection head recovering mechanism and liquid droplets ejection printer therefor
    • 头盖具有空气连通通道,液滴喷射头回收机构和液滴喷射打印机
    • US08267499B2
    • 2012-09-18
    • US12542782
    • 2009-08-18
    • Takashi Ueno
    • Takashi Ueno
    • B41J2/165B41J2/155
    • B41J2/16588B41J2/16547
    • A head cap, including: a cap including (a) a bottom plate portion and (b) a projecting portion which functions as a side wall, which extends from the bottom plate portion so as to define a recessed portion with the bottom plate portion, and whose distal end contacts with a surrounding of a liquid-droplets ejecting area formed in a liquid-droplets ejecting surface of a liquid-droplets ejecting head so as to enclose the liquid-droplets ejecting area; a holder configured to support the cap; a groove formed in at least one of a first surface of the bottom plate portion which is opposed to the holder and a second surface of the holder which is opposed to the bottom plate portion so as to partly constitute an air communicating channel that communicates the recessed portion and an outside with each other; and a channel wall provided between the first surface and the second surface so as to enclose the groove as seen in a direction perpendicular to one of the first surface and the second surface by contacting with at least one of the first surface and the second surface.
    • 一种头盖,包括:盖,包括(a)底板部分和(b)用作侧壁的突出部分,其从底板部分延伸以限定具有底板部分的凹陷部分, 并且其远端与形成在液滴喷射头的液滴喷射表面中的液滴喷射区域的周围接触,以便包围液滴喷射区域; 保持器,其构造成支撑所述盖; 形成在所述底板部的与所述保持件相对的第一表面和与所述底板部相对的所述保持件的第二表面中的至少一个中的槽,以部分地构成连通所述凹部 部分和外部彼此; 以及设置在所述第一表面和所述第二表面之间的通道壁,以便通过与所述第一表面和所述第二表面中的至少一个接触而在垂直于所述第一表面和所述第二表面中的一个方向的方向上包围所述凹槽。
    • 4. 发明申请
    • COOLING STRUCTURE OF SEMICONDUCTOR DEVICE
    • 半导体器件的冷却结构
    • US20120228757A1
    • 2012-09-13
    • US13511305
    • 2009-11-25
    • Akio KitamiTakashi Ueno
    • Akio KitamiTakashi Ueno
    • H01L23/36
    • H01L23/427F28D15/0266H01L23/36H01L25/074H01L2224/32245H01L2224/33181H01L2924/1305H01L2924/13055H01L2924/00
    • A cooling structure of a semiconductor device includes an output electrode, a semiconductor element and a semiconductor element disposed to face each other with the output electrode interposed therebetween, a radiator disposed for the semiconductor element on a side opposite to the output electrode, and a radiator disposed for the semiconductor element on the side opposite to the output electrode. The output electrode includes an element mounting portion and a heat transport portion. The element mounting portion is electrically connected to the semiconductor element and the semiconductor element, and is formed of a conductive material. The heat transport portion is disposed to extend from the element mounting portion toward the radiator and the radiator. With this structure, a cooling structure of a semiconductor device with which excellent cooling efficiency is realized can be provided.
    • 半导体器件的冷却结构包括输出电极,半导体元件和半导体元件,半导体元件和半导体元件设置成彼此相对,输出电极介于其间;散热器,设置在半导体元件的与输出电极相对的一侧,散热器 设置在与输出电极相对的一侧上的半导体元件。 输出电极包括元件安装部分和热传输部分。 元件安装部分电连接到半导体元件和半导体元件,并且由导电材料形成。 热传输部分从元件安装部分朝向散热器和散热器设置。 利用这种结构,可以提供实现优异的冷却效率的半导体器件的冷却结构。
    • 7. 发明授权
    • Production method for optical disc
    • 光盘制作方法
    • US06695987B2
    • 2004-02-24
    • US09853676
    • 2001-05-14
    • Masahiro KatsumuraTetsuya IidaTakashi Ueno
    • Masahiro KatsumuraTetsuya IidaTakashi Ueno
    • B29D1100
    • G11B7/263C25D1/10G11B7/261Y10S425/81
    • The present invention is to provide a production method for an optical disc, capable of obtaining a good S/N ratio without deterioration of the stamper quality due to reaction with an electron attractive group contained in a resist material. The processes of forming a resist film on a substrate, patterning the resist film on the substrate by an electron beam cutting, forming a nickel alloy thin film on the patterned resist film, forming a nickel layer on the nickel alloy thin film by the electrocasting, and injection molding of a resin, using the nickel layer peeled off from the nickel alloy thin film as a stamper, are provided. The nickel alloy thin film has a composition containing Ni element as the main component as well as Ru element by less than 25% by weight.
    • 本发明提供一种光盘的制造方法,其能够得到良好的S / N比,而不会由于与抗蚀剂材料中所含的吸电子体的反应而导致压模质量的劣化。 在基板上形成抗蚀剂膜的工艺,通过电子束切割在基板上形成抗蚀剂膜,在图案化的抗蚀剂膜上形成镍合金薄膜,通过电铸在镍合金薄膜上形成镍层, 并且使用从镍合金薄膜剥离的镍层作为压模来注塑树脂。 镍合金薄膜具有含有Ni元素作为主要成分的组成以及Ru元素的组合物的重量比小于25重量%。
    • 9. 发明授权
    • Reflector
    • 反射器
    • US06514628B1
    • 2003-02-04
    • US09723203
    • 2000-11-27
    • Takashi Ueno
    • Takashi Ueno
    • F21V702
    • F21V7/22F21S41/37Y10S428/913Y10T428/12556Y10T428/12889
    • The object of the invention is to provide a reflector in which a reduction in high reflection factor of Ag is restricted, a stable wheatherability can be attained in a continuous manner even if it is exposed in a severe environment of high temperature and high humidity and further a high practical effect with the connecting characteristic being effectively enforced can be attained and also a high reliability is provided. The alloy reflective film made of AgPdCu alloy or AgPdTi alloy with Ag being applied as major component, with Pd being added in a range of 0.5 to 3.0 wt %, with either Cu or Ti, for example, in Al, Au, Pt, Cu, Ta, Cr, Ti, Ni, Co, Si as the third element being added in a range of 0.1 to 3.0 wt % is formed on the substrate in a predetermined film thickness (nm). As its pre-treatment, the organic ground film is applied on the substrate and the reflective film is formed on the film to enforce effectively the connecting characteristic.
    • 本发明的目的是提供一种反射器,其中Ag的高反射系数的降低受到限制,即使在恶劣的高温高湿环境下暴露,也能以连续的方式获得稳定的可发性 可以实现具有有效实施的连接特性的高实用效果,并且还提供高可靠性。 作为主要成分,以AgPdCu合金或AgPdTi合金为原料的AgPdCu合金或AgPdTi合金的合金反射膜为主成分,Pd为0.5〜3.0重量%,Cu,Ti为Al,Au,Pt,Cu 以规定的膜厚(nm)在基板上形成以0.1〜3.0重量%的范围添加的第三元素的Ta,Cr,Ti,Ni,Co,Si。 作为其预处理,将有机接地膜施加在基板上,并且在膜上形成反射膜以有效地实现连接特性。