Title :
Through-Silicon Via Design for a 3-D Solid-State Drive System With Boost Converter in a Package
Author :
Johguchi, Koh ; Hatanaka, Teruyoshi ; Ishida, Koichi ; Yasufuku, Tadashi ; Takamiya, Makoto ; Sakurai, Takayasu ; Takeuchi, Ken
Author_Institution :
Dept. of Electr. Eng. & Inf. Syst., Univ. of Tokyo, Tokyo, Japan
Abstract :
A 3-D solid-state drive system with through-silicon via (TSV) technology and boost converter is presented in this paper. The proposed boost converter enables the supply voltage reduction to 1.8 V and smaller NAND Flash memory chips. From the simulation results, the conventional bonding-wire technology can achieve only eight NAND chip integrations not only due to their structural problem but also due to the performance degradation. On the other hand, 128 NAND Flash memory chips can be integrated into a package with full-copper TSVs and the proposed system has about 1.70 μs of rise time for 20 V, 74.2 nJ of the energy dissipation, and 225 μm2 of additional Si area consumption for a NAND chip. Even if poly-Si TSVs are used, because of the process restriction, 64 NAND chips can be stacked with about 34% longer rise time and 22% degradation of energy dissipation compared to a full-copper TSV by grinding the Si-substrate to 10 μm .
Keywords :
NAND circuits; bonding processes; flash memories; integrated circuit design; integrated circuit packaging; power convertors; three-dimensional integrated circuits; 3D solid-state drive system; NAND chip integrations; NAND flash memory chips; Si; Si area consumption; TSV technology; bonding-wire technology; boost converter; full-copper TSV; package; poly-Si TSV; through-silicon via design; voltage 20 V; Converters; Copper; Energy dissipation; Flash memory; Resistance; Substrates; Through-silicon vias; 3-D integration; SiP; flash memory; solid-state drive; through-silicon via;
Journal_Title :
Components, Packaging and Manufacturing Technology, IEEE Transactions on
DOI :
10.1109/TCPMT.2010.2101930
