基于专用测试芯片的三维堆叠集成电路热点稳态和瞬态热分析

2011 27th Annual IEEE Semiconductor Thermal Measurement and Management Symposium Pub Date : 2011-03-20 DOI:10.1109/STHERM.2011.5767190

H. Oprins, V. Cherman, M. Stucchi, B. Vandevelde, G. V. D. Plas, P. Marchal, E. Beyne

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引用次数: 22

摘要

模具的三维堆叠是一种很有前途的技术，可以实现电子系统的小型化和性能增强。由于互连结构的复杂性，加上薄模具中的热扩散减少以及导热性差的粘合剂，使得堆叠模具结构的热行为复杂化。与单晶片封装相比，相同的耗散将导致堆叠晶片封装中的更高温度和更明显的温度峰值。因此，需要对3D-IC中的热行为进行深入研究。本文对三维叠层结构中的热点进行了稳态和瞬态分析。在此分析中，使用集成加热器和温度传感器的专用测试芯片来评估堆叠不同层的温度分布，并研究tsv对温度分布的影响。该实验装置用于评估和改进三维堆的热模型。

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Steady state and transient thermal analysis of hot spots in 3D stacked ICs using dedicated test chips

3D stacking of dies is a promising technique to allow miniaturization and performance enhancement of electronic systems. The complexity of the interconnection structures, combined with the reduced thermal spreading in the thinned dies and the poorly thermally conductive adhesives complicate the thermal behavior of a stacked die structure. The same dissipation will lead to higher temperatures and a more pronounced temperature peak in a stacked die package compared to a single die package. Therefore, the thermal behavior in a 3D-IC needs to be studied thoroughly. In this paper, a steady state and transient analysis is presented for hot spots in 3D stacked structures. For this analysis, dedicated test chips with integrated heaters and temperature sensors are used to assess the temperature profile in the different tiers of the stack and to investigate the impact of TSVs on the temperature profile. This experimental set-up is used to evaluated and improve the thermal models for the 3D stacks.

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2011 27th Annual IEEE Semiconductor Thermal Measurement and Management Symposium

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