铜填充tsv的退火行为表征

P. Saettler, M. Boettcher, K. Wolter
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引用次数: 19

摘要

本文通过一系列实验描述了铜通过硅孔(tsv)的退火行为。温度范围从150°C到450°C,温度停留时间在30分钟到4小时之间。在随后的表征中检查了铜的突出,测试样品的翘曲和铜的微观结构。结合这些测量结果,可以确定优化的温度和驻留设置,从而避免进一步的突出并最小化退火后的应力。此外,数据分析表明,铜突出和模具翘曲的温度和驻留的依赖关系。电子背散射衍射(EBSD)在TSV截面上的测量显示了微观结构的变化。由此可以验证铜在退火过程中晶粒长大。所描述的研究为表征铜在tsv中的退火行为提供了一种新的系统方法。通过对具体实验的评价和不同退火条件之间的比较,可以深入了解材料在退火过程中的结构变化。在实现表征的帮助下,该方法成功地为TSV退火过程提供了优化设置。根据测量数据,可以根据后续重定向层(RDL)处理步骤选择合适的温度和驻留工艺设置。此外,根据测量结果推导出了tsv中退火过程的模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of the annealing behavior for copper-filled TSVs
Herein we describe the annealing behavior of copper Through Silicon Vias (TSVs) in a series of experiments. Temperatures ranged from 150°C to 450°C and the dwell of the temperature varied between 30 min and 4 h. Copper protrusion, test samples warpage and the copper microstructure were examined in a subsequent characterization. Combining the results of these measurements enables the determination of an optimized temperature and dwell set, which avoids further protrusion and minimizes stress after annealing. Additionally, the data analysis shows a temperature- and dwell-dependency of copper protrusion and die warpage. Electron backscatter diffraction (EBSD) measurements on TSV cross sections show changes of the micro structure. Hence it could be verified that copper underwent grain growth during annealing. The described investigations represent a new systematic approach for the characterization of the copper annealing behavior in TSVs. The evaluation of the specific experiments and the comparison between different annealing conditions enable insights into the structural changes of the material during the annealing process. With help of the implemented characterization this approach succeeds in giving optimized settings for the TSV annealing process. Based on the measurement data it is possible to choose a suitable temperature and dwell process set depending on subsequent redirection layer (RDL) processing steps. Furthermore a model for the annealing procedure in TSVs is derived from the measurement results.
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