45纳米ELK CUP器件的BGA组装工艺开发

A. Tseng, B. Lin, L. Huang, M. Hung
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引用次数: 3

摘要

本研究的目的是利用45 nm ELK(极低k)和CUP(片下电路)晶圆,在高速和高I/O需求的驱动下,开发一套优化的BGA封装组装工艺参数。随着电性能的提高,芯片尺寸不断缩小,目前大多数0.13 nm和90 nm晶圆制程技术正在向65 nm甚至45 nm方向发展。ELK介电材料用于带CUP的级间介电(ILD),为有源电路的布局提供了更大的空间。但是低k介电介质的力学性能差,以及CUP结构电路的设计给封装组装带来了更多的挑战。IC封装组装过程的影响包括晶圆锯切,线键合和成型过程。为了实现批量生产,研究了不同厚度的45 nm ELK CUP晶圆的锯片类型、锯切速度和锯切进料速度、焊线时间、焊线功率和焊线力等最有效的参数。为了解决焊丝扫焊和模具空洞问题,研究了不同成型化合物的性能,并优化了装配工艺参数。最后,利用优化后的工艺参数,完成了45 nm ELK CUP设计的实际功能芯片组装到封装级进行可靠性测试。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
BGA assembly process development for 45nm ELK CUP devices
The object of this study is to develop a set of optimized assembly process parameters for BGA package using 45 nm ELK (extreme Low-K) and CUP (circuit under pad) wafer which is driven by high speed and high I/O requested. Due to chip size shrinkage with electrical performance improvement, most of 0.13 mum and 90 nm wafer process technology are moving toward 65 nm and even 45 nm now. The ELK dielectric material for Inter-Level Dielectric (ILD) with the CUP has been designed to get more space for active circuit layout. But the poor mechanical properties of the low-k dielectric and the CUP structure circuit pad design make packaging assembly more challenges. The impacts of IC packaging assembly processes are including the wafer sawing, wire bonding, and molding process. For mass production purpose, the most effective parameters for 45 nm ELK CUP wafer have been studied such as sawing blade type, sawing speed and sawing feeding rate for different wafer thickness, the wire bond time, bond power and bond force. To solve bond wire sweep and mold void issues, the properties of different molding compounds have been studied and assembly process parameters have been optimized. In the end, a real functional die of 45 nm ELK with CUP design has been assembled into package level for reliability test using optimized process parameters.
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