Process for manufacturing printed wiring board using metal plating techniques
    1.
    发明授权
    Process for manufacturing printed wiring board using metal plating techniques 失效
    使用金属电镀技术制造印刷电路板的工艺

    公开(公告)号:US06662442B1

    公开(公告)日:2003-12-16

    申请号:US09619502

    申请日:2000-07-19

    IPC分类号: H01K310

    摘要: A process for producing a printed wiring board, particularly an interposer for a chip size package, which comprises the steps of (1) forming an outer insulator layer 22 having outer via-holes 24 on a substrate 32, (2) forming conducting passages 31 through the outer via-holes 24 by plating with metal up to substantially the same level as the upper surface of the outer insulator layer 22, (3) forming a thin metal film 29 on the outer insulator layer 22 and on the conducting passages 31, (4) forming a conductor layer 21 in a prescribed circuit pattern on the thin metal film 29 by plating, (5) removing the part of the thin metal film 29 on which the conductor layer 21 is not formed, (6) forming an inner insulator layer 23 on the conductor layer 21, and (7) removing the substrate 32. The outer insulator layer is formed with flatness to secure good adhesion to a semiconductor chip.

    摘要翻译: 一种用于制造印刷线路板的方法,特别是用于芯片尺寸封装的插入件,其包括以下步骤:(1)在基板32上形成具有外部通孔24的外部绝缘体层22,(2)形成导电通路31 通过用外部绝缘体层22的上表面大致相同的金属镀覆外部通孔24,(3)在外绝缘体层22和导电路31上形成薄金属膜29, (4)通过电镀在薄金属膜29上形成规定的电路图案的导体层21,(5)除去未形成导体层21的金属薄膜29的一部分,(6)形成内部 导体层21上的绝缘体层23,以及(7)去除衬底32.外绝缘层形成为平坦度,以确保对半导体芯片的良好粘合性。

    Method, apparatus and computer program product for forming data to be analyzed by finite element method and calculation method based on finite element method
    2.
    发明授权
    Method, apparatus and computer program product for forming data to be analyzed by finite element method and calculation method based on finite element method 失效
    用有限元分析法形成数据的方法,设备和计算机程序产品,以及基于有限元法的计算方法

    公开(公告)号:US06618694B1

    公开(公告)日:2003-09-09

    申请号:US09084108

    申请日:1998-05-26

    IPC分类号: G06F1750

    摘要: A user uses part data forming means 101 and module data forming means 102 to input the actual dimension, physical constants and mesh dividing number for fundamental shapes which are registered in advance, thereby forming parts, and then indicates the relative position between the parts to form the entire shape of an assembly of plural parts without paying attention to coincidence or non-coincidence of nodal points. Data converting means 104 divides the shape of each part thus assembled according to the indicated mesh divisional number to generate element data and nodal point data. Further, it generates a constraint equation for connecting nodal points which are non-connected between neighboring parts, and forms an analysis model 401. A finite element method analyzer 105 uses approximate calculation means 106 to approximate a non-connected nodal point displacement from a nodal point displacement of neighboring structural elements on the basis of the constraint equation.

    摘要翻译: 用户使用部件数据形成装置101和模块数据形成装置102输入预先登记的基本形状的实际尺寸,物理常数和网格划分数,从而形成零件,然后指示部件之间的相对位置,以形成 多个部分的组合的整体形状,而不注意节点的巧合或非重合。 数据转换装置104根据指示的网格划分数来划分如此组装的每个部分的形状,以生成元素数据和节点数据。 此外,它产生用于连接在相邻部分之间不连接的节点的约束方程,并且形成分析模型401.有限元方法分析器105使用近似计算装置106近似来自节点的非连接节点位移 基于约束方程的相邻结构元素的点位移。