Shuuichi Kariyazaki, K. Kuboyama, R. Oikawa, T. Funaya
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引用次数: 6
摘要
从降低封装成本的角度来看,玻璃和有机中间体有望成为硅中间体(Si- ip)的有力替代品。研究了一种由HBM Gen 2和逻辑芯片通过倒装键合(FCB)并排放置在玻璃或有机中间体上的2.5维封装。我们通过控制镀铜通孔(PTV)位置、中间层布线和信号引脚顺序,成功地开发了一种新的信号倾斜消除方法。通过SPICE仿真验证了在采用新方法设计的中间插板上可以实现超过2Gbps (HBM第2代数据速率)的信号传输。该方法减少了所需导电层的数量,提供了一种低成本的2.5维封装解决方案。
New signal skew cancellation method for 2 Gbps transmission in glass and organic interposers to achieve 2.5D package employing next generation high bandwidth memory (HBM)
Glass and organic interposers have been expected as strong alternatives to Si interposer (Si-IP) from the viewpoint of package cost reduction. A 2.5-D package that consists of HBM Gen 2 and a logic die placed side by side on a glass or an organic interposer by flip-chip bonding (FCB) is studied. We have successfully developed a new signal skew cancellation method by controlling Cu plated through via (PTV) locations, interposer wirings, and signal pin order. It is confirmed that more than 2Gbps, HBM Gen 2 data rate, of signal transmission is doable on the interposers designed by the new method by SPICE simulation. It is also demonstrated that the new method reduces the number of necessary conductive layers, providing a low-cost 2.5-D package solution.
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