Finite-element modelling of stress induced wafer warpage for a full BiCMOS process

2019 IEEE 19th Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems (SiRF) Pub Date : 1900-01-01 DOI:10.1109/SIRF.2019.8709125
Zhibo Cao, A. Göritz, M. Wietstruck, S. Wipf, A. Trusch, M. Kaynak
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Abstract

A finite element method (FEM) wafer scale model considering all the process details, e.g. metal patterning, via etching, etc., is built for a state-of-the-art $0.13-\mu m$ SiGe BiCMOS fully processed 8-inch wafer. Associated layer residual stress and wafer warpage are extracted and compared with hand calculation and experimental results. The comparison results show that the wafer warpage predicted by FEM model demonstrates only about $10 \mu m$ maximum deviation over an $80 \mu m -$bowed wafer. An accurate stress model for an 8-inch wafer including full BiCMOS process is successfully developed and validated.
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全BiCMOS工艺应力致晶圆翘曲的有限元模拟
考虑到所有工艺细节,例如金属图案,通过蚀刻等,为最先进的0.13- μ m$ SiGe BiCMOS全加工8英寸晶圆建立了有限元法(FEM)晶圆比例模型。提取了相关的层残余应力和晶圆翘曲,并与手工计算和实验结果进行了比较。对比结果表明,有限元模型预测的圆片翘曲与80 μ m的圆片翘曲相比,最大偏差只有10 μ m左右。成功开发并验证了包含完整BiCMOS工艺的8英寸晶圆的精确应力模型。
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2019 IEEE 19th Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems (SiRF)
2019 IEEE 19th Topical Meeting on Silicon Monolithic Integrated Circuits in RF Systems (SiRF)
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