A 352Gb/s inductive-coupling DRAM/SoC interface using overlapping coils with phase division multiplexing and ultra-thin fan-out wafer level package

2014 Symposium on VLSI Circuits Digest of Technical Papers Pub Date : 2014-06-10 DOI:10.1109/VLSIC.2014.6858369
A. R. Junaidi, Yasuhiro Take, T. Kuroda
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引用次数: 11

Abstract

The area efficiency of an inductive-coupling interface is improved by 12 times for WIO2 standard (352Gb/s) and beyond. By using a quadrature phase division multiplexing, coils are overlapped and the density is increased by 4 times. It is further increased by 3 times by shortening communication distance with an ultra-thin fan-out wafer level package. The proposed DRAM/SoC interface at 356Gb/s outperforms WIO2 with TSV in terms of area efficiency (4x better) and manufacturing cost (40% cheaper) and outperforms LPDDR4 in PoP in terms of power dissipation (5x lower) and timing control easiness.
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352Gb/s电感耦合DRAM/SoC接口,采用相分复用重叠线圈和超薄扇出晶圆级封装
在WIO2标准(352Gb/s)及更高标准下,电感耦合接口的面积效率提高了12倍。通过使用正交分相复用,线圈重叠,密度增加了4倍。通过超薄扇形晶圆级封装缩短通信距离,进一步提高了3倍。提出的356Gb/s的DRAM/SoC接口在面积效率(提高4倍)和制造成本(降低40%)方面优于具有TSV的WIO2,在功耗(降低5倍)和时序控制方面优于PoP中的LPDDR4。
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2014 Symposium on VLSI Circuits Digest of Technical Papers
2014 Symposium on VLSI Circuits Digest of Technical Papers
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