包装工程
材料科学
基质(水族馆)
集成电路封装
炸薯条
模具(集成电路)
菊花链
芯片级封装
互连
晶圆级封装
薄脆饼
可靠性(半导体)
电子工程
光电子学
集成电路
电气工程
计算机科学
机械工程
工程类
纳米技术
电信
物理
海洋学
地质学
功率(物理)
量子力学
作者
Cheng-Ta Ko,Shoulung Chen,Cheng-Yen Chiang,Tzu-Ying Kuo,Shih-Cheng Hu,Yuhua Chen
标识
DOI:10.1109/ectc.2006.1645666
摘要
As the demands for high-density, high-speed, high-performance, and multi-function in portable electronic products, packaging technologies require significant improvement to bring out ICs' performance and shrink the total module or package size. One representative technology is to embed active devices into an organic substrate by sequential build-up processes, for example, chip-in-polymer by IZM, bumpless build-up layer by Intel, and chip-in-substrate package (CiSP) by EOL/ITRI. Through embedding the semiconductor chip in the organic substrate, the package with very good electrical performance and good capability for system integration can be realized. In this research, DDRII memory was chosen as the CiSP test vehicle, and the designed structure provides better electrical and thermal performance. Several core techniques, such as wafer thinning, die bonding, high-flatness lamination, were well developed to embed DDRII-like thin chips (50 /spl mu/m thick) into dielectric material on a carrier substrate. The PCB compatible laser drilling, via metallization, and patterning technologies were subsequently followed to form an electric path from chip-pad to outer, which provides shorter interconnection for the demand of fast electrical response application. Moreover, the vehicle was tested by lead-free reliability tests, inclusive of pre-condition (3 reflows at 260/spl deg/C), level B thermal cycle, and 168 hrs PCT tests. The newest results of the reliability tests will be presented in the paper.
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