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    • 1. 发明授权
    • Collimator and spectrophotometer
    • 准直仪和分光光度计
    • US07114232B2
    • 2006-10-03
    • US11114875
    • 2005-04-26
    • Takeo YamadaTomoyuki Kobayashi
    • Takeo YamadaTomoyuki Kobayashi
    • G02B27/30B23P17/00B21D39/03B23K20/00
    • G01J3/12G01J3/02G01J3/0208G02B5/00G02B27/30Y10T29/49789Y10T29/49826
    • A collimator obtained by the alternate stacking of metal sheets 1 (40 μm thick) having holes 4 with a width of 2200 μm in the center thereof, and metal sheets 2 (10 μm thick) devoid of holes (the metal sheets 1 with the holes 4 are shown in the state in which they exist before being cut in the manner described below, the metal sheets 1 in the upper portion of the figure and the metal sheets in the bottom portion are not connected with each other in the finished product). The opposite sides are held by metal pressing sheets 3 that are 2 mm thick. These metal sheets and pressing sheets are bonded by means of diffusion bonding based on thermocompression bonding. The portions with the vertical through-holes 4 (40 μm×2000 μm) thus become light-transmitting portions, the metal sheets 2 serve as partitions between adjacent holes 4, and light collimated to a width of 40 μm can ultimately pass through. A compact collimator having high wavelength resolution without wavelength dependence can thus be achieved.
    • 金属片1(厚度为40μm)的中心具有宽度为2200μm的金属片1(厚度为40μm)的金属片2(具有孔的金属片1) 在图4所示的切割前,图中上部的金属片1和底部的金属片在成品中不相互连接)示出了图4的状态。 相对的两侧由2mm厚的金属加压片3保持。 这些金属片和加压片通过基于热压接的扩散接合而结合。 垂直通孔4(40mumx2000mum)的部分因此变为透光部分,金属片2用作相邻孔4之间的隔板,并且准直到40μm的宽度的光可以最终通过。 因此可以实现具有高波长分辨率而不具有波长依赖性的紧凑型准直器。
    • 3. 发明授权
    • Collimator and spectrophotometer
    • 准直仪和分光光度计
    • US06972845B2
    • 2005-12-06
    • US10262802
    • 2002-10-02
    • Takeo YamadaTomoyuki Kobayashi
    • Takeo YamadaTomoyuki Kobayashi
    • G01J3/02G01J3/12G01J3/26G01J3/36G02B5/00G02B27/30G01N21/25
    • G01J3/12G01J3/02G01J3/0208G02B5/00G02B27/30Y10T29/49789Y10T29/49826
    • A collimator obtained by the alternate stacking of metal sheets 1 (40 μm thick) having holes 4 with a width of 2200 μm in the center thereof, and metal sheets 2 (10 μm thick) devoid of holes (the metal sheets 1 with the holes 4 are shown in the state in which they exist before being cut in the manner described below, the metal sheets 1 in the upper portion of the figure and the metal sheets in the bottom portion are not connected with each other in the finished product). The opposite sides are held by metal pressing sheets 3 that are 2 mm thick. These metal sheets and pressing sheets are bonded by means of diffusion bonding based on thermocompression bonding. The portions with the vertical through-holes 4 (40 μm×2000 μm) thus become light-transmitting portions, the metal sheets 2 serve as partitions between adjacent holes 4, and light collimated to a width of 40 μm can ultimately pass through. A compact collimator having high wavelength resolution without wavelength dependence can thus be achieved.
    • 金属片1(厚度为40μm)的中心具有宽度为2200μm的金属片1(厚度为40μm)的金属片2(具有孔的金属片1) 在图4所示的切割前,图中上部的金属片1和底部的金属片在成品中不相互连接)示出了图4的状态。 相对的两侧由2mm厚的金属加压片3保持。 这些金属片和加压片通过基于热压接的扩散接合而结合。 垂直通孔4(40mumx2000mum)的部分因此变为透光部分,金属片2用作相邻孔4之间的隔板,并且准直到40μm的宽度的光可以最终通过。 因此可以实现具有高波长分辨率而不具有波长依赖性的紧凑型准直器。
    • 4. 发明申请
    • Collimator and spectrophotometer
    • 准直仪和分光光度计
    • US20050206901A1
    • 2005-09-22
    • US11114875
    • 2005-04-26
    • Takeo YamadaTomoyuki Kobayashi
    • Takeo YamadaTomoyuki Kobayashi
    • G01J3/02G01J3/12G01J3/26G01J3/36G02B5/00G02B27/30G21K1/00G01N21/25
    • G01J3/12G01J3/02G01J3/0208G02B5/00G02B27/30Y10T29/49789Y10T29/49826
    • A collimator obtained by the alternate stacking of metal sheets 1 (40 μm thick) having holes 4 with a width of 2200 μm in the center thereof, and metal sheets 2 (10 μm thick) devoid of holes (the metal sheets 1 with the holes 4 are shown in the state in which they exist before being cut in the manner described below, the metal sheets 1 in the upper portion of the figure and the metal sheets in the bottom portion are not connected with each other in the finished product). The opposite sides are held by metal pressing sheets 3 that are 2 mm thick. These metal sheets and pressing sheets are bonded by means of diffusion bonding based on thermocompression bonding. The portions with the vertical through-holes 4 (40 μm×2000 μm) thus become light-transmitting portions, the metal sheets 2 serve as partitions between adjacent holes 4, and light collimated to a width of 40 μm can ultimately pass through. A compact collimator having high wavelength resolution without wavelength dependence can thus be achieved.
    • 金属片1(厚度为40μm)的中心具有宽度为2200μm的金属片1(厚度为40μm)的金属片2(具有孔的金属片1) 在图4所示的切割前,图中上部的金属片1和底部的金属片在成品中不相互连接)示出了图4的状态。 相对的两侧由2mm厚的金属加压片3保持。 这些金属片和加压片通过基于热压接的扩散接合而结合。 垂直通孔4(40mumx2000mum)的部分因此变为透光部分,金属片2用作相邻孔4之间的隔板,并且准直到40μm的宽度的光可以最终通过。 因此可以实现具有高波长分辨率而不具有波长依赖性的紧凑型准直器。
    • 5. 发明授权
    • Method for analyzing measured value by on-line spectral analyzer
    • 通过在线光谱分析仪分析测量值的方法
    • US06281499B1
    • 2001-08-28
    • US09300849
    • 1999-04-28
    • Tomoyuki KobayashiKouji KobayashiKouichi SatoTakeo Yamada
    • Tomoyuki KobayashiKouji KobayashiKouichi SatoTakeo Yamada
    • G01N2135
    • G01N33/2829G01N21/274G01N21/3577G01N21/359
    • An object to be measured is analyzed by a chemical means or a physical means to make its characteristic value clear, a spectrum of the same object to be measured is obtained by an off-line near infrared spectral analyzer, a calibration indicative of a relation between the spectrum and the characteristic value is obtained, at least one sample is selected from among the same kind of objects to be measured, spectra are obtained by the off-line near infrared spectral analyzer and an on-line near infrared spectral analyzer, a difference between both of the obtained spectra is obtained, a spectrum of the same kind of object to be measured is measured by the on-line near infrared spectral analyzer, the measured spectrum is corrected by the difference between both of the spectra, and the characteristic value of the object to be measured is estimated by using the corrected spectrum and the calibration.
    • 通过化学方法或物理方法分析要测量的对象以使其特征值清晰,通过离线近红外光谱分析仪获得相同被测物体的光谱,该校准指示 获得光谱和特征值,从相同类型的待测物体中选出至少一个样品,通过离线近红外光谱分析仪和在线近红外光谱分析仪获得光谱,差异 在获得的光谱两者之间,通过在线近红外光谱分析仪测量相同种类的待测物体的光谱,通过光谱两者之间的差异校正测量光谱, 通过使用校正的光谱和校准来估计要测量的对象。
    • 9. 发明授权
    • Wafer holding hand
    • 晶圆握手
    • US06216883B1
    • 2001-04-17
    • US09462308
    • 2000-01-06
    • Tomoyuki KobayashiJunji Takehara
    • Tomoyuki KobayashiJunji Takehara
    • H47F500
    • H01L21/68707Y10S414/141
    • A wafer holding hand of the present invention is constituted so that two fixed clamps (2) and one movable clamp (6) are provided on a finger (1). The movable clamp (6) is supported by a plate spring (8) via a clamp holder (7), and the plate spring (8) is fixed to the slider (9). The slider (9) is driven by an air cylinder (10). The fixed clamp (2) is hook shaped, and the movable clamp (6) is drum shaped. A wafer W is held at three points by the movable clamp (6) and the two fixed clamps (2), and a force is applied to the movable clamp (6) by the plate spring (8) so as to hold the wafer W.
    • 本发明的晶片保持手构成为在手指(1)上设置两个固定夹(2)和一个可移动夹(6)。 可动夹具(6)通过夹持器(7)由板簧(8)支撑,板簧(8)固定在滑块(9)上。 滑块(9)由气缸(10)驱动。 固定夹具(2)是钩形的,可动夹具(6)是鼓形的。 通过可动夹具(6)和两个固定夹具(2)将晶片W保持在三个点处,并且通过板簧(8)将力施加到可动夹具(6),以便将晶​​片W 。
    • 10. 发明授权
    • Data management apparatus and method
    • 数据管理装置及方法
    • US08775484B2
    • 2014-07-08
    • US12894725
    • 2010-09-30
    • Kazuyuki SakaiYasushi KobayashiYuuki TadaTomoyuki Kobayashi
    • Kazuyuki SakaiYasushi KobayashiYuuki TadaTomoyuki Kobayashi
    • G06F17/30
    • H04L43/0817G06F11/3476G06F11/3495H04L41/0213H04L43/12H04L67/125
    • The present invention, an apparatus includes a data management apparatus comprising, a determination unit configured to determine whether an analyzing apparatus is in a communicable state when a configuration information data indicating a status of a server apparatus is received from a data collection apparatus, the data analyzing apparatus analyzing the configuration information data, an unprocessed information storage unit configured to store the received configuration information data once it is determined that data analyzing apparatus is in an incommunicable state, an integrating unit configured to integrate a plurality of configuration information data stored in the storage unit in accordance with a predetermined condition; and a notifying unit configured to send, to the analyzing apparatus, a message indicating that the data management apparatus is storing the configuration information data integrated by the integrating unit once it is determined that the data analyzing apparatus is in a communicable state.
    • 本发明是一种数据管理装置,包括:确定单元,被配置为当从数据收集装置接收到指示服务器装置的状态的配置信息数据时,判断分析装置是否处于通信状态,所述数据 分析装置分析配置信息数据,未处理信息存储单元,被配置为一旦确定数据分析装置处于不可通信状态,就存储接收到的配置信息数据;整合单元,被配置为将存储在所述配置信息数据中的多个配置信息数据 存储单元; 以及通知单元,被配置为一旦确定数据分析装置处于可通信状态,则向分析装置发送指示数据管理装置正在存储由积分单元集成的配置信息数据的消息。