下一代微处理器倒装封装替代方案的电气评估

1998 Proceedings. 48th Electronic Components and Technology Conference (Cat. No.98CH36206) Pub Date : 1998-05-25 DOI:10.1109/ECTC.1998.678769

J. Darnauer, D. Chengson, B. Schmidt, E. Priest, B. Petefish, D. Hanson, W. L. Gore

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引用次数: 18

摘要

为下一代微处理器设计了两种类型的倒装芯片封装:低成本的有机球栅阵列(BGA)和薄膜-陶瓷陆地栅阵列(LGA)。测量了同步开关输出噪声和铁芯噪声。尽管SSO比上一代封装改进了两倍，但核心噪声仍然相当大。我们发现，通过在噪声源附近放置低电感电容，即使用片上电容器、封装中的耦合平面或封装上旁路电容器，可以最好地控制芯噪声。由于其功率面阻抗较低，陶瓷封装的电性能明显优于有机封装。封装上旁路电容器的加入大大缩小了两个封装之间的差距。

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Electrical evaluation of flip-chip package alternatives for next generation microprocessors

Two styles of flip-chip packages for next-generation microprocessors were designed: a low-cost organic ball-grid-array (BGA) and a thin-film-on-ceramic land-grid array (LGA). Simultaneous switching output (SSO) noise, and core noise were measured. Although SSO was improved by a factor of two over the previous generation of packaging, core noise was still quite significant. We found that core noise is best managed by placing low-inductance capacitance close to the noise source, i.e. using on-chip capacitors, coupled planes in the package, or on-package bypass capacitors. Because of the lower impedance of its power planes, the ceramic package showed significantly better electrical performance than the organic. Addition of on-package bypass capacitors greatly narrows the gap between the two packages.

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来源期刊

1998 Proceedings. 48th Electronic Components and Technology Conference (Cat. No.98CH36206)

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