Extending lower-cost packaging technology into next generation signaling: Techniques and considerations

M. Doyle, J. Bartley, R. Ericson, M. Bailey, P. Germann, G. Zettles
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Abstract

Current industry trends, combined with present cost pressures shall force signal integrity engineers to revisit traditional “rules of thumb” such that additional bandwidth can be obtained from conventional (standard) packaging materials and methodologies. In this paper, the authors assert that some current design practices prematurely cap the useful bandwidth of current technology, and unnecessarily lead designers to ask material scientists to solve our bandwidth concerns. Every facet of the electronics industry is subject to cost pressures. Opposite these financial constraints is the continuing drive to improve performance. Every new product must evaluate the business case for the use or inclusion of a new technology, more expensive component, or increase in power. The larger design community tends to move together into and out of technology “nodes” as they become more feasible and cost effective. Whether or not a particular technology is effective at meeting the design and business goals is a function of what other technologies and consequences are traded off in order to use it. This paper examines the conventional wisdom of some common practices, in light of an attempt to forego the use of advanced packaging technologies while extending the practical life of lower-cost techniques to signaling interfaces with higher frequency content.
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将低成本封装技术扩展到下一代信号:技术和考虑
当前的行业趋势,加上当前的成本压力,将迫使信号完整性工程师重新审视传统的“经验法则”,以便从传统(标准)封装材料和方法中获得额外的带宽。在本文中,作者断言,当前的一些设计实践过早地限制了当前技术的有用带宽,并且不必要地导致设计师要求材料科学家解决我们的带宽问题。电子工业的方方面面都受到成本压力的影响。与这些财务限制相反的是不断提高业绩的动力。每个新产品都必须评估使用或包含新技术、更昂贵的组件或功率增加的业务案例。当技术“节点”变得更可行、成本更有效时,更大的设计社区倾向于一起进出技术“节点”。一项特定的技术是否能够有效地满足设计和业务目标,是为了使用它而权衡其他技术和结果的一个功能。本文在尝试放弃使用先进封装技术的同时,将低成本技术的实际寿命延长到具有更高频率内容的信号接口的情况下,研究了一些常见实践的传统智慧。
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