会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 4. 发明申请
    • INSPECTION APPARATUS AND INSPECTION SYSTEM
    • 检查装置和检查系统
    • US20130250297A1
    • 2013-09-26
    • US13990103
    • 2011-10-11
    • Masaaki ItoMinori Noguchi
    • Masaaki ItoMinori Noguchi
    • G01N21/95
    • G01N21/9501G01N21/95607
    • Disclosed here is a macro inspection apparatus for a sample such as a semiconductor wafer having a pattern formed thereon, the apparatus being capable of detecting abnormalities in dimension and size with high sensitivity.The inspection apparatus for a sample having pattern formed thereon includes: an illumination optical system which illuminates the sample having the pattern formed thereon; a detection optical system which receives scattered light from the pattern; an imaging device which is disposed over a pupil plane of the detection optical system, the imaging device acquiring Fourier images of the pattern; and a processing unit which compares the Fourier images with the Fourier image of the normal pattern to detect an irregularity of the pattern.
    • 这里公开了一种用于诸如其上形成有图案的半导体晶片的样品的宏观检查装置,该装置能够以高灵敏度检测尺寸和尺寸的异常。 用于其上形成有图案的样品的检查装置包括:照射具有形成在其上的图案的样品的照明光学系统; 检测光学系统,其接收来自图案的散射光; 成像装置,其设置在所述检测光学系统的光瞳平面上,所述成像装置获取所述图案的付里叶图像; 以及处理单元,其将傅立叶图像与正常图案的傅里叶图像进行比较,以检测图案的不规则性。
    • 6. 发明授权
    • Electro-optical device and electronic apparatus
    • 电光装置和电子设备
    • US07746659B2
    • 2010-06-29
    • US12072165
    • 2008-02-25
    • Masaaki Ito
    • Masaaki Ito
    • H05K1/18
    • G02F1/13452G02F1/133385
    • The invention provides a heat dissipater such as a heat dissipation member that dissipates heat of an integrated circuit that is formed on a flexible substrate such as a flexible printed circuit board. The heat dissipater according to an aspect of the invention includes; a main body section that is formed in the shape of a hollow sleeve in such a manner that the flexible substrate can be inserted through and inserted inside the main body section; and an adhering section that is formed on an inner surface of the main body section in such a manner that the main body section and the integrated circuit are adhered to each other via the adhering section.
    • 本发明提供一种散热器,例如散热构件,其散热形成在诸如柔性印刷电路板的柔性基板上的集成电路的热量。 根据本发明的一个方面的散热器包括: 主体部,其形成为中空套筒的形状,使得柔性基板能够插入并插入到主体部内; 以及粘附部,其以主体部和集成电路经由粘接部彼此粘合形成在主体部的内表面上。
    • 7. 发明申请
    • INSPECTION APPARATUS
    • 检查装置
    • US20090202138A1
    • 2009-08-13
    • US12361954
    • 2009-01-29
    • Masaaki ItoMinori NoguchiShigeru Matsui
    • Masaaki ItoMinori NoguchiShigeru Matsui
    • G06K9/00
    • G01N21/9501G01N21/95623G01N2021/8822G06K9/74
    • The present invention provides an inspection apparatus having a high throughput and high sensitivity with respect to a number of various manufacturing processes and defects of interest in inspection of a specimen such as a semiconductor wafer on which a pattern is formed. The apparatus illuminates with light the specimen having the pattern formed thereon, forms an image of the specimen on an image sensor through a reflective optics, and determines the existence/nonexistence of a defect. The reflective optics has a conjugate pair of Fourier transform optics. An aberration of the reflective optics is corrected off-axis. The reflective optics has a field of view in non-straight-line slit form on the specimen surface. Also, the optics is of a reflection type, includes a conjugate pair of Fourier transform optics and has a field of view in non-straight-line slit form. An optimum wavelength band is selected according to the specimen (FIG. 1).
    • 本发明提供了一种检测装置,其相对于在其上形成有图案的半导体晶片的样本的检查中的多种制造工艺和多个不同的制造工艺和缺陷而具有高生产率和高灵敏度。 该装置用光照射具有形成在其上的图案的样本,通过反射光学元件在图像传感器上形成样本的图像,并且确定缺陷的存在/不存在。 反射光学器件具有傅立叶变换光学器件的共轭对。 反射光学器件的像差被偏离校正。 反射光学元件在样品表面上具有非直线狭缝形式的视场。 此外,光学器件是反射型的,包括傅立叶变换光学器件的共轭对,并且具有非直线狭缝形式的视场。 根据样品选择最佳波长带(图1)。
    • 8. 发明申请
    • INSPECTION APPARATUS AND INSPECTION METHOD
    • 检查装置和检查方法
    • US20090161943A1
    • 2009-06-25
    • US12338528
    • 2008-12-18
    • Hiroyuki YamashitaNorio SakaiyaKei ShimuraMasaaki Ito
    • Hiroyuki YamashitaNorio SakaiyaKei ShimuraMasaaki Ito
    • G01N21/88G06T11/20G06K9/00
    • G01N21/88G01N21/9501G01N21/956G01N21/95607G01N2021/8848G01N2021/8861G06K9/2036G06K2209/19G06T7/00
    • The invention is directed to find a false defect from defect candidates and obtain a threshold with which the false defect can be eliminated by the smallest number of review times. Defect candidates are reviewed and selected as a defect or a false defect. By deleting a defect candidate having a characteristic quantity equal to or less than that of the false defect from a map or displaying it in another sign, the false defect can be determined visually. Since the defect candidate having the characteristic quantity equal to or less than that of the selected false defect is deleted from the map or displayed in another sign, the defect candidates unnecessary to set a threshold are not reviewed. The number of defect candidates to be reviewed can be largely reduced as compared with that in the conventional technique. Further, by repeating the above work, the threshold is automatically calculated, and an inspection result map with the threshold is displayed, so that a re-inspection is unnecessary.
    • 本发明旨在从缺陷候选中找到虚假缺陷,并获得最小次数的审查时间可以消除错误缺陷的阈值。 缺陷候选者被审查和选择为缺陷或假缺陷。 通过从地图中删除具有等于或小于虚假缺陷的特征量的缺陷候选物,或者以另一个符号显示,可以视觉地确定假缺陷。 由于具有等于或小于所选择的错误缺陷的特征量的缺陷候选者从地图中删除或以另一个符号显示,所以不会检查不必设置阈值的缺陷候选。 与常规技术相比,可以大大减少待审查的缺陷候选物的数量。 此外,通过重复上述工作,自动计算阈值,并且显示具有阈值的检查结果图,使得不需要重新检查。
    • 9. 发明授权
    • Apparatus and method for defect inspection
    • 缺陷检查装置及方法
    • US07535562B2
    • 2009-05-19
    • US11437643
    • 2006-05-22
    • Shigeru MatsuiMasaaki Ito
    • Shigeru MatsuiMasaaki Ito
    • G01N21/00
    • G01N21/8806G01N21/956
    • In the conventional methods for enhancing defect detection sensitivity by improving the resolving power, if a microscopic pattern, which is a high spatial-frequency structure as is the case with a microscopic defect, has become the brightest portion, the gray-scale contrast of the microscopic defect will be enhanced. At the same time, however, the gray-scale contrast of the microscopic pattern will also be enhanced simultaneously. Consequently, there has existed a problem that it is impossible to enhance the microscopic-defect detection sensitivity further than that. In the present invention, an aperture stop which is divided into a plurality of small apertures is located on an illumination pupil plane. Then, light-shield/light-transmission for each small aperture is controlled independently of each other. This control allows an inspection-target object to be illuminated at only an incident angle at which the gray-scale contrast of the microscopic defect will be emphasized more sharply.
    • 在通过提高分辨能力来提高缺陷检测灵敏度的常规方法中,如果与微观缺陷一样的高空间频率结构的微观图案已经成为最亮部分,则灰度对比度 微观缺陷将得到加强。 然而,同时,微观图案的灰度对比度也将同时提高。 因此,存在不可能进一步提高微观缺陷检测灵敏度的问题。 在本发明中,分割成多个小孔的孔径光阑位于照明光瞳平面上。 然后,彼此独立地控制每个小孔的遮光/透光。 该控制允许仅在更明显地强调微观缺陷的灰度对比度的入射角度照射检查对象物体。
    • 10. 发明授权
    • Mask blanks inspection tool
    • 面罩毛坯检查工具
    • US07220969B2
    • 2007-05-22
    • US11299202
    • 2005-12-09
    • Yoshihiro TezukaMasaaki Ito
    • Yoshihiro TezukaMasaaki Ito
    • G01J1/42
    • G01N21/9505G01N21/47G01N21/9501G01N2021/8822G01N2021/95676
    • Embodiments include determining whether defects exist in an extreme ultraviolet (EUV) light mask blank. Incident EUV light scattered or diffused by abnormalities in the layers of the mask blank may be measured, normalized, and compared to threshold values to determine if and where a defect exists. Normalizing may be performed by dividing a light intensity value for a pixel by the average of light intensity values for one or more rings of surrounding pixels. A defect may be determined by considering whether the normalized intensity value for a pixel is greater than a pixel threshold to identify the pixel is a candidate for a location with a defect; and by determining whether the sum of normalized light intensity values for a block of pixels including the pixel satisfies a pixel block threshold to determine whether the block scatters or diffuses a critical amount of light to identify a defect.
    • 实施例包括确定在极紫外(EUV)光掩模坯中是否存在缺陷。 可以测量,归一化和掩模掩模层中的异常散射或扩散的事件EUV光,并与阈值进行比较,以确定是否存在缺陷以及存在缺陷。 归一化可以通过将像素的光强度除以周围像素的一个或多个环的光强度值的平均值来执行。 可以通过考虑像素的归一化强度值是否大于像素阈值来识别像素来确定具有缺陷的位置的候选者来确定缺陷; 并且通过确定包括像素的像素块的归一化光强度值的和是否满足像素块阈值,以确定块是散射或扩散临界量的光以识别缺陷。