埋入堆叠芯片封装结构的电学仿真和优化
作者:谢慧琴 李君 曹立强星座与性格 万里兮
来源:《现代电子技术》2014年第16期
摘 要: 埋入堆叠芯片技术在实现封装小型化的同时,增加了封装电学设计的复杂性。以一个数字系统为例,详细阐述了埋入堆叠芯片封装结构的电学设计过程。利用电磁仿真软件提取了该封装结构的寄生参数,并通过S参数、延时、反射分析,确定长绑定线为影响链路信号质量的关键因素,其影响直接限制了埋入堆叠芯片技术的应用范围。运用RLC传输线模型分析了长绑定线造成大的信号质量衰减的原因。最后,提出了一种大幅减短绑定线长度并提升链路电学性能的优化结构,拓展了此技术在高速领域的应用。眼图的对比结构表明,新结构能降低链路的阻抗失配,减小信号延时,并大大改善高速信号的质量。
火开头成语
关键词:喝酒英语 埋入堆叠芯片; S参数; 延时; 反射; 全国3d大赛眼图
取消教师编制 中图分类号: TN710⁃34 文献标识码: A 文章编号: 1004⁃373X(2014)16⁃0138⁃06
lectrical simulation and optimization of special package structure with embedded stacked⁃dies
秋季安全教育 XIE Hui⁃qin1, 2, LI Jun1, 2, CAO Li⁃qiang1, 2发膜有什么用,WAN Li⁃xi1
(1. Institute of Microelectronics, Chine Academy of Sciences, Beijing 100029, China;
2. National Center for Advanced Packaging (NCAP China), Wuxi 214135电脑关不了机, China)
Abstract: The embedded stacked⁃die technique miniaturizes the package outline of a multi⁃chip system, but increas the electrical design complexity of the package structure. The electrical simulation and optimization process of the package design of a digital system which utilized this technique is elaborated in this paper. The parasitic parameters of the package structure were extracted by electromagnetic simulation software. By S⁃parameter, time delay and reflection analysis, the bonding wires were determined to be the critical factors that affect the signal quality and significantly limit the application of embedded stacked⁃chip technique. The phenomena were then explained by RLC model. In the last, an optimized structure was propod to reduce the length of
bonding wires and enhance the electrical performance of the whole channel. The contrast result according to the eye diagram indicates that the new structure has reduced the link impedance mismatching and time delay, and improved the quality of high⁃speed signals.
