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    • 31. 发明授权
    • Stage device and exposure apparatus
    • US06509957B1
    • 2003-01-21
    • US09722631
    • 2000-11-28
    • Keiichi Tanaka
    • Keiichi Tanaka
    • G03B2758
    • G03F7/70733G03F7/70716G03F7/70758
    • A stage device includes a first stationary member, a second stationary member, a moving member and positioning devices. The first stationary member extends in a first direction. The second stationary member extends in the first direction and is spaced apart from the first stationary member in a second direction perpendicular to the first direction. The moving member can cooperate with the first stationary member and with the second stationary member. The positioning devices selectively position the moving member into cooperation with one of the first and second stationary members without physically contacting the moving member with the first and second stationary members. In addition, a stage device provided with a moving member that can move within a two-dimensional plane having a first direction and a second direction perpendicular to the first direction includes a first stationary member and a second stationary member. The first stationary member extends in the first direction and is supported at a first position in a third direction that is perpendicular to the two-dimensional plane. The second stationary member extends in the first direction and is supported at a second position in the third direction, different from the first position. The moving member has a first part that can cooperate with the first stationary member, and a second part that can cooperate with the second stationary member. When two stages are replaced, generation of a positional shift on an object on the stages is prevented, and separate processing can be performed simultaneously with respect to objects on the stages.
    • 32. 发明授权
    • Display device
    • 显示设备
    • US06388646B1
    • 2002-05-14
    • US09494140
    • 2000-01-28
    • Koji FujiwaraTomohiko YamamotoKeiichi TanakaNaoto InoueHideki Ichioka
    • Koji FujiwaraTomohiko YamamotoKeiichi TanakaNaoto InoueHideki Ichioka
    • G09G336
    • G09G3/3648
    • It is an object of the invention to reduce a leakage low-frequency electric field from a panel section of a matrix type. In the case where a panel section has a usual current structure in which the panel section has a single common electrode elongating over the whole of the display region of the panel section, the maximum voltage difference of a reference signal supplied to the common electrode is defined to be 0.3678×x−0.6136 (wherein x is the area of the display region) or less. In the case where the panel section has the so-called counter source structure and a plurality of column electrodes, the maximum voltage difference of a reference signal supplied to the column electrodes is defined to be ax−b (wherein a=0.3565×y−0.6829, b=−0.0937y+0.7091, and y is a ratio of the area of all the column electrodes to the area of the display region) or less. In the case where a panel section has the counter source structure, the average area per unit length of one part of the column electrode opposed to a signal line is smaller than the average area per unit length of the remaining part of the column electrode other than the one part.
    • 本发明的一个目的是从矩阵型的面板部分减少泄漏的低频电场。 在面板部具有通常的电流结构的情况下,其中面板部分具有在面板部分的整个显示区域上延伸的单个公共电极,定义提供给公共电极的参考信号的最大电压差 为0.3678xx-0.6136(其中,x为显示区域的面积)以下。 在面板部分具有所谓的反向源结构和多个列电极的情况下,提供给列电极的参考信号的最大电压差定义为ax-b(其中a = 0.3565xy-0.6829 ,b = -0.0937y + 0.7091,y是所有列电极的面积与显示区域的面积的比率)以下。 在面板部具有计数器源结构的情况下,与信号线相对的列电极的一部分的每单位长度的平均面积小于列电极的剩余部分的平均单位长度以外的平均面积 一部分。
    • 33. 发明授权
    • Auxiliary vacuum chamber and vacuum processing unit using same
    • 辅助真空室和真空处理单元使用相同
    • US06234107B1
    • 2001-05-22
    • US09235644
    • 1999-01-22
    • Keiichi TanakaMasaki SohmaShinsuke AsaoMasahito Ozawa
    • Keiichi TanakaMasaki SohmaShinsuke AsaoMasahito Ozawa
    • C23C1600
    • H01L21/67751C23C14/566H01L21/67109H01L21/6719H01L21/67201
    • An auxiliary vacuum chamber 12 according to the invention comprises a container 30 having an opening 10, 14 for taking an object to be processed W into and out of the container. A holder 33a is movably placed in the container 30, which can hold the object W taken therein. The holder 33a can also form a hermetically closed space 32a with a portion of the container 30 when moved in the container 30. The container 30 is provided with supplying means 38a for supplying a gas from the outside of the container 30 into the hermetically closed space 32a. The container 30 is also provided with exhaust means 37 for exhausting the gas from the hermetically closed space 32a to the outside of the container 30. According to the invention, the auxiliary vacuum chamber 12 need not have gate-valves for being opened and shut to the other chambers 4 and 16.
    • 根据本发明的辅助真空室12包括容器30,容器30具有用于将待处理物体W进入和离开容器的开口10,14。 保持器33a可移动地放置在容器30中,其可以保持被吸收在其中的物体W. 当容器30在容器30中移动时,保持器33a还可以形成具有容器30的一部分的气密封闭的空间32a。容器30设置有供应装置38a,用于将气体从容器30的外部供应到气密封闭的空间 32a。 容器30还设置有用于将气体从气密封闭空间32a排出到容器30的外部的排气装置37.根据本发明,辅助真空室12不需要具有用于打开和关闭的闸阀 其他腔室4和16。
    • 37. 发明授权
    • Residue removing liquid composition and method for cleaning semiconductor element using same
    • 残渣除去液组合物及使用其的半导体元件的清洗方法
    • US08623587B2
    • 2014-01-07
    • US13057338
    • 2009-07-07
    • Kyoko KamataKeiichi TanakaHiroshi Matsunaga
    • Kyoko KamataKeiichi TanakaHiroshi Matsunaga
    • G03F7/26
    • H01L21/02071C11D7/10C11D7/244C11D7/261C11D7/34C11D7/5004C11D7/5013C11D7/5022C11D11/0047H01L21/02063
    • Provided are a residue removing liquid composition capable of completely removing a resist residue and a titanium (Ti)-derived residue that remains after dry etching and ashing in via hole formation in a production process for a semiconductor substrate having metal wiring of aluminum (Al) or an Al alloy, at a low temperature in a short time, not corroding parts of an interlayer insulating material, a wiring material and others, and a cleaning method for semiconductor devices using it.The residue removing liquid composition contains (A) ammonium fluoride, (B) methanesulfonic acid, (C) a carbon-carbon triple bond-having compound, (D) a water-soluble organic solvent, and (E) water, wherein the content of (A), (C), (D) and (E) in the residue removing liquid composition is from 0.005 to 2% by mass, from 0.1 to 10% by mass, from 60 to 75% by mass and from 5 to 38% by mass, respectively, and (B) is contained in an amount of from 0.9 to 1.5 times (by mol) the amount of (A).
    • 本发明提供一种残留物除去液体组合物,其能够在具有铝(Al)金属配线的半导体基板的制造工序中完全除去抗蚀剂残渣和残留在通孔形成中的干法蚀刻和灰化之后残留的钛(Ti) 或Al合金,在短时间内的低温下,不会腐蚀层间绝缘材料的部分,布线材料等,以及使用它的半导体器件的清洁方法。 除去残渣的液体组合物含有(A)氟化铵,(B)甲磺酸,(C)具有碳 - 碳三键的化合物,(D)水溶性有机溶剂和(E)水, 残渣除去液组合物中的(A),(C),(D)和(E)为0.005〜2质量%,0.1〜10质量%,60〜75质量% 38质量%,(B)的含量为(A)的量的0.9〜1.5倍(摩尔)。
    • 40. 发明申请
    • IMAGE RENDERING DEVICE, IMAGE RENDERING METHOD, AND IMAGE RENDERING PROGRAM FOR RENDERING STEREOSCOPIC PANORAMIC IMAGES
    • 图像渲染设备,图像渲染方法和用于渲染立体全景图像的图像渲染程序
    • US20130044108A1
    • 2013-02-21
    • US13635820
    • 2012-03-02
    • Keiichi TanakaTomoko KatayamaOsamu Yamaji
    • Keiichi TanakaTomoko KatayamaOsamu Yamaji
    • G06T15/04
    • G06T15/04G06T15/20H04N13/111
    • An image rendering device realizes stereoscopic viewing of a joint background image. A DIBR unit 17 applies pixel shifting to each background image constructing the joint background image and also conducts boundary processing relative to the pixel shifting. The joint background image is composed of one or more background images stitched together along their edges on a three-dimensional model. The pixel shifting is to shift pixels of each background image in the row direction. The amount of shift applied to each pixel is determined based on the depth value of a corresponding pixel of a depth image. The boundary processing is to extract pixels shifted out of the display region of a given background image as a result of pixel shifting and add the extracted pixels to an edge of another background image adjacent to the given background image in the row direction.
    • 图像再现装置实现对联合背景图像的立体观看。 DIBR单元17对构成关节背景图像的每个背景图像应用像素移位,并且还相对于像素移位进行边界处理。 联合背景图像由在三维模型上沿其边缘缝合在一起的一个或多个背景图像组成。 像素移位是在行方向上移动每个背景图像的像素。 基于深度图像的相应像素的深度值来确定施加到每个像素的移位量。 边界处理是提取作为像素移位的结果从给定背景图像的显示区域移出的像素,并将提取的像素添加到与行方向上的给定背景图像相邻的另一背景图像的边缘。