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    • 14. 发明授权
    • Information readout method for non mask layer type optical information medium
    • 非掩模层型光信息介质的信息读出方法
    • US07859968B2
    • 2010-12-28
    • US12352304
    • 2009-01-12
    • Takashi KikukawaTatsuya KatoHajime UtsunomiyaHiroshi Shingai
    • Takashi KikukawaTatsuya KatoHajime UtsunomiyaHiroshi Shingai
    • G11B7/0045
    • G11B7/005G11B7/1263G11B7/24
    • An information readout method for an optical information medium comprising an information recording layer having pits or recorded marks representative of information data involves the step of irradiating a laser beam to the information recording layer through an objective lens for providing readings of the pits or recorded marks. When the laser beam has a wavelength λ of 400 to 410 nm, the objective lens has a numerical aperture NA of 0.70 to 0.85, and the pits or recorded marks have a minimum size PL of up to 0.36λ/NA, readout is carried out at a power Pr of at least 0.4 mW for the laser beam. When the laser beam has a wavelength λ of 630 to 670 nm, the objective lens has a numerical aperture NA of 0.60 to 0.65, and the pits or recorded marks have a minimum size PL of up to 0.36λ/NA, readout is carried out at a power Pr of at least 1.0 mW for the laser beam. Pits or recorded marks of a size approximate to the resolution limit determined by diffraction can be read out at a high C/N.
    • 包括具有表示信息数据的凹坑或记录标记的信息记录层的光信息介质的信息读出方法包括通过用于提供凹坑或记录标记的读数的物镜将激光束照射到信息记录层的步骤。 当激光束具有400至410nm的波长λ时,物镜的数值孔径NA为0.70至0.85,并且凹坑或记录标记具有高达0.36λ/ NA的最小尺寸PL,读出被执行 在激光束的功率Pr为至少0.4mW。 当激光束具有630至670nm的波长λ时,物镜的数值孔径NA为0.60至0.65,并且凹坑或记录标记具有高达0.36λ/ NA的最小尺寸PL,读出被执行 在激光束的功率Pr为至少1.0mW。 通过衍射确定的大小接近分辨率极限的刻痕或记录标记可以高C / N读出。
    • 15. 发明授权
    • Method for forming electrical circuit by jetting molten metal
    • 通过喷射熔融金属形成电路的方法
    • US07833567B2
    • 2010-11-16
    • US10047992
    • 2002-01-17
    • Hitoshi OhashiKinya HoribeHitoshi UshijimaTatsuya Kato
    • Hitoshi OhashiKinya HoribeHitoshi UshijimaTatsuya Kato
    • B05D5/12C23C16/52
    • B60R16/0215H05K1/0284H05K3/10H05K3/125H05K2203/128
    • The apparatus forms an electric circuit on a construction member of a machine based on a set of three-dimensional data. The data defines a position and a profile of the construction member, a position of the electric circuit, and a shape of the electric circuit. The electric circuit is used for electrical connection between electric instruments mounted on the machine. The data is associated with a reference coordinate system provided in the machine, and the data includes coordinates of points for determining arrangement of the electric circuit, a distance between any two of the points adjacent to each other, and a cross-sectional area of the electric circuit associated extended between the two points. The apparatus has a storage means for storing the data, a jet means for jetting a molten metal, a first transfer means for moving the construction member relative to the jet means, and a control means for jetting the molten metal against the construction member to deposit the molten metal and for controlling the relative movement between the construction member and the jet means based on the data. The jet means can jet the molten metal against the construction member so that the molten metal can be deposited on a surface of the construction member to form the electric circuit on the construction member.
    • 该装置基于一组三维数据在机器的构造构件上形成电路。 数据定义了构造构件的位置和轮廓,电路的位置以及电路的形状。 电路用于安装在机器上的电子仪器之间的电气连接。 该数据与机器中提供的参考坐标系相关联,并且数据包括用于确定电路布置的点的坐标,彼此相邻的任何两个点之间的距离,以及横截面积 电路相关联的两点之间延伸。 该装置具有用于存储数据的存储装置,用于喷射熔融金属的喷射装置,用于使建筑构件相对于喷射装置移动的第一传送装置,以及用于将熔融金属喷射到建筑构件以沉积的控制装置 熔融金属,并且用于基于数据控制构造构件和喷射装置之间的相对运动。 喷射装置可以将熔融金属喷射到构造构件上,使得熔融金属可以沉积在构造构件的表面上以在构造构件上形成电路。
    • 19. 发明授权
    • Information readout method for non mask layer type optical information medium
    • 非掩模层型光信息介质的信息读出方法
    • US07496019B2
    • 2009-02-24
    • US10125476
    • 2002-04-19
    • Takashi KikukawaTatsuya KatoHajime UtsunomiyaHiroshi Shingai
    • Takashi KikukawaTatsuya KatoHajime UtsunomiyaHiroshi Shingai
    • G11B7/0045
    • G11B7/005G11B7/1263G11B7/24
    • An information readout method for an optical information medium comprising an information recording layer having pits or recorded marks representative of information data involves the step of irradiating a laser beam to the information recording layer through an objective lens for providing readings of the pits or recorded marks. When the laser beam has a wavelength λ of 400 to 410 nm, the objective lens has a numerical aperture NA of 0.70 to 0.85, and the pits or recorded marks have a minimum size PL of up to 0.36λ/NA, readout is carried out at a power Pr of at least 0.4 mW for the laser beam. When the laser beam has a wavelength λ of 630 to 670 nm, the objective lens has a numerical aperture NA of 0.60 to 0.65, and the pits or recorded marks have a minimum size PL of up to 0.36λ/NA, readout is carried out at a power Pr of at least 1.0 mW for the laser beam. Pits or recorded marks of a size approximate to the resolution limit determined by diffraction can be read out at a high C/N.
    • 包括具有表示信息数据的凹坑或记录标记的信息记录层的光信息介质的信息读出方法包括通过用于提供凹坑或记录标记的读数的物镜将激光束照射到信息记录层的步骤。 当激光束具有400至410nm的波长λ时,物镜的数值孔径NA为0.70至0.85,并且凹坑或记录标记具有高达0.36λ/ NA的最小尺寸PL,读出被执行 在激光束的功率Pr为至少0.4mW。 当激光束具有630至670nm的波长λ时,物镜的数值孔径NA为0.60至0.65,并且凹坑或记录的标记具有高达0.36λ/ NA的最小尺寸PL,读出被执行 在激光束的功率Pr为至少1.0mW。 通过衍射确定的大小接近分辨率极限的刻痕或记录标记可以高C / N读出。
    • 20. 发明授权
    • Method of testing optical information medium
    • 光信息媒体测试方法
    • US07484400B2
    • 2009-02-03
    • US10547787
    • 2004-03-04
    • Naoki HayashidaTatsuya KatoKazushi Tanaka
    • Naoki HayashidaTatsuya KatoKazushi Tanaka
    • G01N3/56B32B3/02
    • G11B23/0021G11B7/268Y10T428/21
    • A testing method capable of quantifying abrasion resistance on the translucent base surface of a high-recording-density optical information medium simply and in a form of reflecting an actual application environment, and judging criteria appropriate for the testing method. When an evaluation test in terms of abrasion resistance on a laser beam incident-side surface is conducted on an optical information medium to and/or from which recording and/or reproducing is made by a laser beam shone into an information recording layer from a translucent base side, and which has the focused radius R, of a recording/reproducing laser beam on the translucent base surface, of 40-400 μm, defined by the following expression (1) R=2T tan [sin−1 (NA/n)](1) (in the expression, T is the thickness (μm) of the translucent base, NA numerical aperture of an object lens in the recording/reproducing device, and n refractive index of the translucent base), the abrasion resistance on a laser beam incident-side surface is evaluated based on the error amount of a reproduction signal after a laser beam incident-side surface is abraded by an abrasion wheel specified in ISO9352.
    • 能够简单地以反映实际应用环境的形式来量化高记录密度光学信息介质的半透明基面上的耐磨性的测试方法,以及适用于测试方法的判断标准。 当在激光束入射侧表面上的耐磨性的评价试验在由光学信息介质进行和/或从哪个记录和/或再现由激光束照射到信息记录层中的半透明 (1)定义的40-400μm的记录/再现激光束的焦点半径R,由下式(1)定义:R = 2T tan [sin-1(NA / n )](1)(在表达式中,T是半透明基底的厚度(母体),记录/再现装置中的物镜的NA数值孔径,以及半透明基底的n折射率),耐磨损性 基于由ISO9352中规定的磨轮磨损激光束入射侧表面之后的再生信号的误差量来评价激光束入射侧面。