嵌入
印刷电路板
计算机科学
组分(热力学)
实现(概率)
电子元件
过程(计算)
可靠性(半导体)
制造工程
嵌入式系统
工程类
机械工程
热力学
统计
操作系统
量子力学
物理
人工智能
功率(物理)
数学
作者
Lars Boettcher,Dionysios Manessis,Andreas Ostmann,S. Karaszkiewicz,H. Reichl
标识
DOI:10.1109/impact.2008.4783892
摘要
In this paper the realization of packages and System-in-Packages (SIP) with embedded components will be described. Embedding of semiconductor chips into substrates has several advantages. It allows a very high degree of miniaturization, due to the possibility of sequentially stacking of multiple layers containing embedded components. A further advantage is the beneficial electrical performance by short and geometrically well controlled interconnects. In addition the embedding gives a homogeneous mechanical environment of the chips, resulting in good reliability. As a result of the increasing interest in implementing embedding technologies in an industrial environment, a newly established European project 'HERMES' will focus mainly on industrial adaptation of embedding technologies with an additional scope of furthering also the existing technological capabilities at prototype level. The goal is to realize a new integrated manufacturing concept to offer low cost solution s for high density electronic systems. New manufacturing and technological challenges arise from the industrialization of component embedding technologies. The new process should combine PCB (Printed Circuit Board) technology and die assembly in one production process in order to benefit the most from large-area processing and high-density packaging. Keywords: 3D packaging, embedded chips, Chip in Polymer, System in Package.
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