Realization of a stackable package using chip in polymer technology

2nd International IEEE Conference on Polymers and Adhesives in Microelectronics and Photonics. POLYTRONIC 2002. Conference Proceedings (Cat. No.02EX599) Pub Date : 2002-08-07 DOI:10.1109/POLYTR.2002.1020202

A. Ostmann, A. Neumann, S. Weser, E. Jung, L. Bottcher, H. Reichl

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引用次数: 37

Abstract

The coming generations of portable products require significant improvement of the packaging technologies, mainly due to increasing signal frequencies and the demand for higher density of functions. State of the art are organic substrates with micro-via build-up layers, equipped on both sides with discrete passive and active components. The space requirement of active chips can be already reduced to a minimum by implementing CSPs (chip size packages) or flip chips. A further miniaturization however requires a 3-dimensional integration of active and passive components. Additionally the signal frequencies will increase to several GHz in high speed digital applications. In order to maintain signal integrity, much shorter and impedance-matched interconnects between chips and passive components are required. In this paper a new approach will be described which allows both extreme dense 3-dimensional integration and very short interconnects. This approach, called "Chip in Polymer" is based on the integration of thin components into build-up layers of printed circuit boards.

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基于聚合物技术的可堆叠封装芯片的实现

未来几代便携式产品需要显著改进封装技术，主要是由于信号频率的增加和对更高密度功能的需求。目前最先进的是带有微通孔堆积层的有机基板，其两侧配备有分立的无源和有源元件。通过实施csp(芯片尺寸封装)或倒装芯片，有源芯片的空间需求已经可以减少到最低限度。然而，进一步的小型化需要主动和被动组件的三维集成。此外，在高速数字应用中，信号频率将增加到几GHz。为了保持信号的完整性，芯片和无源元件之间需要更短且阻抗匹配的互连。本文将描述一种既允许极密集的三维集成又允许极短互连的新方法。这种被称为“聚合物芯片”的方法是基于将薄组件集成到印刷电路板的构建层中。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2nd International IEEE Conference on Polymers and Adhesives in Microelectronics and Photonics. POLYTRONIC 2002. Conference Proceedings (Cat. No.02EX599)

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