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    • 61. 发明申请
    • Hybrid printer and scan image copying method
    • 混合打印机和扫描图像复印方法
    • US20050244205A1
    • 2005-11-03
    • US11175211
    • 2005-07-07
    • Takashi KatoJunya Yada
    • Takashi KatoJunya Yada
    • H04N1/387B41J11/44
    • B41J3/44B41J11/0065H04N1/38H04N1/3875H04N1/393H04N2201/0091
    • It is an object of the present invention, when using image scanner(s) to capture image(s) of original(s) and using printer(s) to print same, to enable four-sided borderless copying such that margin(s) do not appear on printout(s). An image scanner might capture an image corresponding to scan region 263 which might be somewhat larger than original 262. Image processing circuitry might then enlarge an image corresponding to scan region 266 (arrow 279), converting it into enlarged image 271. Within enlarged image 271, the image of original 262 might have been enlarged so as to become image 273, which might be somewhat larger than printing paper 274. This enlarged original image 273 which would be present within enlarged image 271 might then be printed by a printer.
    • 本发明的目的在于,当使用图像扫描仪拍摄原稿的图像并使用打印机进行打印时,能够进行四边无边界复印, 不要出现在打印输出上。 图像扫描器可以捕获与扫描区域263相对应的图像,该扫描区域263可能略大于原来的262。 然后,图像处理电路可以放大对应于扫描区域266的图像(箭头279),将其转换成放大图像271。 在放大图像271内,原稿262的图像可能已经被放大,以便成为可能比打印纸274稍大的图像273。 然后可以通过打印机来打印放大图像271内的放大的原始图像273。
    • 62. 发明申请
    • Organosilicon compound-containing polymerizable liquid-crystal composition
    • 含有机硅化合物的可聚合液晶组合物
    • US20050224754A1
    • 2005-10-13
    • US11002225
    • 2004-12-03
    • Yoshiharu HiraiTakashi Kato
    • Yoshiharu HiraiTakashi Kato
    • C09K19/20C09K19/32C09K19/38C09K19/52C09K19/54
    • C09K19/3833C09K19/2007C09K19/32C09K19/54C09K2019/0448Y10T428/10
    • An object of the invention is to provide a polymerizable liquid-crystal composition for obtaining a liquid-crystal film having good adhesiveness to supporting substrates. A polymerizable liquid-crystal layer of controlled alignment can be formed from the polymerizable liquid-crystal composition, and when the polymerizable liquid-crystal composition is polymerized, it gives a liquid-crystal film. The polymerizable liquid-crystal composition of the invention contains a polymerizable liquid-crystal compound represented by Formula (1) and a organosilicon compound having a primary amino group. wherein W is hydrogen, alkyl, alkenyl, halogen, —CN or -(G-Sp)r-P; P is a polymerizable group; Sp is alkylene; G is a bonding group; and MG is a mesogenic group represented by Formula (2): wherein T1 and T2 are ringed group; G1 is a bonding group; and f is an integer of 0 to 4. The symbols in these formulae are defined in detail in claim 2.
    • 本发明的目的是提供一种用于获得对支撑基材具有良好粘合性的液晶膜的聚合性液晶组合物。 可聚合性液晶组合物可以形成受控取向的可聚合液晶层,聚合后的液晶组合物聚合时,形成液晶膜。 本发明的聚合性液晶组合物含有由式(1)表示的聚合性液晶化合物和具有伯氨基的有机硅化合物。 其中W是氢,烷基,烯基,卤素,-CN或 - (G-Sp) P是可聚合基团; Sp为亚烷基; G是结合基团; 和MG是由式(2)表示的介晶基团:其中T 1和T 2是环基团; G 1是一个键合基团; f为0〜4的整数。 这些公式中的符号在权利要求2中详细定义。
    • 65. 发明授权
    • Automatic exposure apparatus for printing plates and method for exposing printing plates
    • 印版自动曝光装置和曝光印版的方法
    • US06624840B1
    • 2003-09-23
    • US09664064
    • 2000-09-18
    • Yoshinori KawamuraYoshihiro KoyanagiMitsuyoshi NishimuraTakashi Kato
    • Yoshinori KawamuraYoshihiro KoyanagiMitsuyoshi NishimuraTakashi Kato
    • B41J2435
    • B41C1/1083
    • An automatic exposure apparatus for printing plates and a method for exposing printing plates, which can prevent a defective image such as an unfocused image from being formed when an image is recorded onto the printing plate is provided. Suction holes are formed at a surface plate 110 of an automatic exposure apparatus 100 for printing plates, and a vacuum pump 306 communicates with the suction holes. A solenoid valve 308 is provided at a communicating path 304 between the suction holes and the vacuum pump 306, and a chamber 310 is provided at the communicating path 304 between the solenoid valve 308 and the vacuum pump 306. The solenoid valve 308 is closed and the vacuum pump 306 is operated in a state in which a photopolymer plate 102 is disposed on a top surface of the surface plate 110, and the solenoid valve 308 is opened completely in an instant in a state in which a pressure of a decompressed interior of the chamber 310 is a predetermined value or lower, such that the decompressed interior can suck air all at once from the suction holes with a strong suction force. Accordingly, a curled photopolymer plate 102 can be brought in complete contact with the top surface of the surface plate 110, and thus, a defective image such as an unfocused image is prevented when an image is recorded.
    • 提供一种用于印版的自动曝光装置和用于曝光印版的方法,其可以防止在将图像记录到印刷版上时形成未图像的缺陷图像。 在用于印版的自动曝光装置100的表面板110处形成吸孔,并且真空泵306与抽吸孔连通。 电磁阀308设置在吸入孔和真空泵306之间的连通路径304处,并且室310设置在电磁阀308和真空泵306之间的连通路径304处。电磁阀308关闭,并且 真空泵306在其中光敏聚合物板102设置在表面板110的顶表面上的状态下操作,并且电磁阀308在压缩内部的压缩的压力的瞬间完全打开 室310是预定值或更低的,使得减压的内部可以用强吸力从吸入孔一次吸入空气。 因此,卷曲的感光聚合物板102可以与表面板110的顶表面完全接触,因此,当记录图像时,防止诸如未聚焦图像的缺陷图像。
    • 66. 发明授权
    • Projection optical system and projection exposure apparatus with the same, and device manufacturing method
    • 投影光学系统和投影曝光装置相同,以及装置制造方法
    • US06621555B1
    • 2003-09-16
    • US09592582
    • 2000-06-12
    • Chiaki TerasawaHiroyuki IshiiTakashi Kato
    • Chiaki TerasawaHiroyuki IshiiTakashi Kato
    • G03B2742
    • G03F7/70241G02B13/14G02B13/18G02B13/22
    • A projection exposure apparatus includes a projection optical system for projecting a pattern of a reticle onto a photosensitive substrate. The projection optical system includes at least three lens units, including a lens unit of a positive refractive power and a lens unit of a negative refractive power, and an aspherical lens having aspherical surfaces formed on both sides thereof, in which a relation |Lxø0|>17 is satisfied, where L is a conjugate distance of the projection optical system and ø0 is the total power of the negative lens unit or of negative lens units of the projection optical system. Each aspherical surface of said aspherical surface lens is disposed at a position satisfying a relation |hb/h|>0.36 where h is a height of an axial marginal light ray, and hb is a height of a most abaxial chief ray, and each aspherical surface of the aspherical surface lens satisfies a relation |&Dgr;ASPH/L|>1.0×10−6 where &Dgr;ASPH is an aspherical amount of the aspherical surface.
    • 投影曝光装置包括用于将光罩的图案投影到感光基板上的投影光学系统。 投影光学系统包括至少三个透镜单元,包括正屈光力透镜单元和负折光力透镜单元,以及具有形成在其两侧的非球面的非球面透镜,其中关系|Lxø0| > 17,其中L是投影光学系统的共轭距离,ø0是投影光学系统的负透镜单元或负透镜单元的总功率。 所述非球面透镜的每个非球面设置在满足关系| hb / h |> 0.36的位置,其中h是轴向边缘光线的高度,并且hb是最下面的主光线的高度,并且每个非球面 非球面透镜的表面满足关系| DELTAASPH / L |> 1.0×10 -6,其中DELTAASPH是非球面的非球面数量。
    • 68. 发明授权
    • Quadrature demodulator quadrature demodulation method and recording medium
    • 正交解调器正交解调方法和记录介质
    • US06294952B1
    • 2001-09-25
    • US09577111
    • 2000-05-23
    • Takashi Kato
    • Takashi Kato
    • H04L2738
    • H03D1/2245H03D3/008H03D3/009
    • A quadrature demodulator capable of calibrating an I (Q) signal conversion section without stopping the receiving operation performed by the quadrature demodulator. The quadrature demodulator comprises: an adder 32 for generating a pseudo noise superimposed signal obtained by adding a user signal IF and a pseudo noise PN; a signal conversion section 100 for generating a converted signal obtained by mixing the pseudo noise superimposed signal with a local frequency signal L1 of a predetermined local frequency; a first multiplier 72 for generating a correlated signal obtained by multiplying the converted signal with the pseudo noise, a first integrator 82 for integrating the correlated signal to provide an output; and a succeeding circuit 90 for processing the converted signal in a desired way. While performing calibration by causing the first multiplier 72 to extract the pseudo noise, the quadrature demodulator allows the succeeding circuit 90 to process the converted signal in a desired way. Therefore, the quadrature demodulator can calibrate the signal conversion section 100 without stopping its own receiving operation.
    • 能够校准I(Q)信号转换部分而不停止由正交解调器执行的接收操作的正交解调器。 正交解调器包括:加法器32,用于产生通过将用户信号IF和伪噪声PN相加而获得的伪噪声叠加信号; 信号转换部分100,用于产生通过将伪噪声叠加信号与预定局部频率的本地频率信号L1混合而获得的转换信号; 用于产生通过将转换的信号与伪噪声相乘获得的相关信号的第一乘法器72,用于对相关信号进行积分以提供输出的第一积分器82; 以及用于以期望的方式处理转换的信号的后续电路90。 当通过使第一乘法器72提取伪噪声进行校准时,正交解调器允许后续电路90以期望的方式处理转换的信号。 因此,正交解调器可以在不停止其自身的接收操作的情况下校准信号转换部分100。