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    • 2. 发明申请
      US20110031384A1 SPECKLE REDUCTION METHOD AND APPARATUS 有权
    • SPECKLE REDUCTION METHOD AND APPARATUS
    • 减少碎屑的方法和装置
    • US20110031384A1
    • 2011-02-10
    • US12908567
    • 2010-10-20
    • Noam BABAYOFFYossef ATIYATzvi PHILIPP
    • Noam BABAYOFFYossef ATIYATzvi PHILIPP
    • H01J3/14
    • G01J1/0448G02B21/0056G02B21/006G02B21/008G02B27/48G03H1/32
    • An apparatus adapted for confocal imaging of a non-flat specimen comprising a coherent light source for producing a light beam, imaging optics adapted to focus the light beam into at least one spot on a surface of a specimen, and a detector adapted to receive and detect light reflected from the specimen surface. The imaging optics comprise at least one optical component located so that the light reflected from the specimen surface passes therethrough on its way to the detector. The optical component is movable so as to move the at least one spot, within a range of movement, to a number of distinct locations in a plane perpendicular to the apparatus' optical axis, within the detector's integration time.
    • 一种适于非平坦样本的共焦成像的设备,包括用于产生光束的相干光源,适于将光束聚焦到样本表面上的至少一个点的成像光学器件,以及适于接收和 检测从样品表面反射的光。 成像光学器件包括至少一个光学部件,其被定位成使得从检测器表面反射的光在通过检测器的途中穿过其中。 在检测器的积分时间内,光学部件是可移动的,以便将运动范围内的至少一个光点移动到垂直于装置的光轴的平面中的多个不同位置。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 3. 发明授权
      US06493064B2 Method and apparatus for registration control in production by imaging 有权
    • Method and apparatus for registration control in production by imaging
    • 通过成像进行生产中注册控制的方法和装置
    • US06493064B2
    • 2002-12-10
    • US09793916
    • 2001-02-28
    • Oz CabiriEffraim MikletzkiYossef Atiya
    • Oz CabiriEffraim MikletzkiYossef Atiya
    • G03B2742
    • H05K3/4679G03F7/70383G03F9/00H05K1/0269H05K3/0008H05K3/0082H05K3/4644H05K2201/09918
    • A method and apparatus for imaging an overlying conductive pattern over an underlying conductive pattern on a substrate, by determining deviations between the actual locations and the nominal locations of predetermined reference targets in the underlying conductive pattern on the substrate; and utilizing the determined deviations for modifying the scanning control data used for imaging the image data of the overlying conductive pattern in order to reduce misregistration thereof with respect to the underlying conductive pattern. Preferably, the reference targets are predetermined connection sites in the underlying conductive pattern to be precisely located with respect to connection sites in the overlying conductive pattern. The reference features may be assigned different weights according to their registration importance, and the deviations may be determined according to a threshold which varies with the weight assigned to the respective reference feature.
    • 通过确定基板上的下面的导电图案中的实际位置和预定参考目标的标称位置之间的偏差来对衬底上的下面的导电图案上的覆盖导电图案进行成像的方法和装置; 并且利用所确定的偏差来修改用于对上覆导电图案的图像数据进行成像的扫描控制数据,以便减少相对于下面的导电图案的不对准。 优选地,参考目标是下层导电图案中相对于上覆导电图案中的连接位置精确定位的预定连接部位。 参考特征可以根据其注册重要性被分配不同的权重,并且可以根据随分配给相应参考特征的权重而变化的阈值来确定偏差。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 4. 发明授权
      US6165658A Nonlinear image distortion correction in printed circuit board manufacturing 有权
    • Nonlinear image distortion correction in printed circuit board manufacturing
    • US6165658A
    • 2000-12-26
    • US347775
    • 1999-07-06
    • Itzhak TaffYossef Atiya
    • Itzhak TaffYossef Atiya
    • G03F7/20H05K1/02H05K3/46G03F9/00
    • H05K3/4638G03F7/2051H05K1/0269H05K2203/166
    • The present invention relates to a process for the fabrication of multilayer articles having electrical connections between conductor patterns on at least two layers of the multilayer article. The process comprises at least the steps of:a) using an initial set of image data describing a first article or layer having a conductor pattern thereon, forming the first article or layer having a pattern of conductive material thereon; b) taking data of an image of the pattern of conductive material on the first article or layer; c) determining from the image of the pattern of conductive material on the first article or layer the relative location of sites within the pattern of conductive material on said first article or layer that are to be connected to sites on a pattern of conductive material on at least a second layer having conductor patterns thereon; and thereafter performing steps selected from the group consisting of:I) modifying the initial set of image data for the first article or layer to make corrections for each conductive site within the pattern of conductive material and producing a corrected set of image data;II) modifying an initial set of data for at least a second layer having sites within a pattern of conductive material that are to be connected to sites on the first article or layer, said modifying be based upon a comparison of the initial set of image data for the second layer and image data taken in step b) of said first article or layer, and producing a corrected set of image data for the second layer;III) modifying an initial set of data for a second layer having sites within a pattern of conductive material that are to be connected to sites on another layer, the modifying be based upon a comparison of the initial set of image data for the second layer and image data taken of a manufactured second layer, and modifying the initial set of image data for the first article or layer to make corrections for each conductive site within the pattern of conductive material, thereby producing a corrected set of data for at least the first article or layer and the second layer; andIV) modifying an initial set of data for a number of layers, each layer having sites within a pattern of conductive material that are to be connected to sites on another layer, the modifying being based upon a comparison of initial sets of image data for each of the number of layers and image data taken of a manufactured layer for each of the number of layers, and modifying the initial set of image data for each of the number of layers to make corrections for each conductive site within a pattern of conductive material within each of the number of layers, thereby producing a corrected set of image data for each of the number of layers; and then manufacturing at least one layer having conductive sites therein using a corrected set of data for manufacturing the at least one layer.
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
    • 5. 发明授权
      US07214946B2 Speckle reduction method and apparatus 有权
    • Speckle reduction method and apparatus
    • 散斑方法和装置
    • US07214946B2
    • 2007-05-08
    • US11320632
    • 2005-12-30
    • Noam BabayoffYossef AtiyaTzvi Philipp
    • Noam BabayoffYossef AtiyaTzvi Philipp
    • G01B11/30
    • G01J1/0448G02B21/0056G02B21/006G02B21/008G02B27/48G03H1/32
    • An apparatus adapted for confocal imaging of a non-flat specimen comprising a coherent light source for producing a light beam, imaging optics adapted to focus the light beam into at least one spot on a surface of a specimen, and a detector adapted to receive and detect light reflected from the specimen surface. The imaging optics comprise at least one optical component located so that the light reflected from the specimen surface passes therethrough on its way to the detector. The optical component is movable so as to move the at least one spot, within a range of movement, to a number of distinct locations in a plane perpendicular to the apparatus' optical axis, within the detector's integration time.
    • 一种适于非平坦样本的共焦成像的设备,包括用于产生光束的相干光源,适于将光束聚焦到样本表面上的至少一个点的成像光学器件,以及适于接收和 检测从样品表面反射的光。 成像光学器件包括至少一个光学部件,其被定位成使得从检测器表面反射的光在通过检测器的途中穿过其中。 在检测器的积分时间内,光学部件是可移动的,以便将运动范围内的至少一个光点移动到与装置的光轴垂直的平面中的多个不同位置。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 7. 发明授权
      US5224088A High resolution optical scanner 失效
    • High resolution optical scanner
    • 高分辨率光学扫描仪
    • US5224088A
    • 1993-06-29
    • US833215
    • 1992-02-10
    • Yossef Atiya
    • Yossef Atiya
    • G11B7/003G11B7/0033G11B7/08G11B7/12
    • G11B7/003G11B7/0033G11B7/08G11B7/12
    • A simple high resolution optical scanner consists of high numerical aperture lens mounted at the end of a flexible cantilever. The lens scans along a curved line as the cantilever bends. In order for the optical path to track the lens position, a mirror is mounted on the cantilever at a point located about 20% of the cantilever length, measured from the fixed mounting point. As the cantilever bends, the angle at this point is half of the angle at the cantilever end. Since the mirror doubles this angle when reflecting the input beam, the input beam will track, and stay parallel to, the lens at the end of the cantilever. This type of scanner is particularly suited to operate in a resonant mode, since the cantilever shape has low inherent damping.
    • 一个简单的高分辨率光学扫描仪由安装在柔性悬臂端部的高数值孔径透镜组成。 当悬臂弯曲时,透镜沿曲线扫描。 为了使光路跟踪透镜位置,在从固定安装点测量的位于悬臂长度的约20%的点处,将反射镜安装在悬臂上。 当悬臂弯曲时,此时的角度为悬臂端的角度的一半。 由于镜子在反射输入光束时加倍了这个角度,所以输入光束会在悬臂的末端跟踪和平行于透镜。 这种类型的扫描器特别适合于以共振模式操作,因为悬臂形状具有低的固有阻尼。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Global Dossier Espacenet 法律信息 同族专利 专利引用
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