Title :
Three-Dimensional Packaging Technology for Stacked DRAM With 3-Gb/s Data Transfer
Author :
Kawano, Masaya ; Takahashi, Nobuaki ; Kurita, Yoichiro ; Soejima, Koji ; Komuro, Masahiro ; Matsui, Satoshi
Author_Institution :
Div. of Packaging Eng., NEC Electron. Corp., Sagamihara
fDate :
7/1/2008 12:00:00 AM
Abstract :
A 3-D packaging technology is developed for stacked dynamic random access memory (DRAM) with through-silicon vias (TSVs). Eight different dry etchers were evaluated for deep Si etching. Highly doped poly-Si TSVs were used for vertical traces inside silicon and interconnection between DRAM chips to realize a DRAM-compatible process. Through optimization of process conditions and layout design, a fast poly-Si filling has been obtained. The entire packaging was carried out at the wafer level by using smart chip connection with feedthrough interposer (FTI) technology. A new bump and wiring structure for the FTI has also been developed for fine-pitch and low-cost bonding. Normal operation during DRAM read/write was confirmed on a 512-Mb DRAM with TSVs, with an I/F chip as a memory controller. Simulation and measurement of the transfer function of the FTI wiring showed a 3-Gb/s/pin data transfer capability.
Keywords :
DRAM chips; etching; integrated circuit interconnections; integrated circuit layout; wafer level packaging; DRAM chips; bit rate 3 Gbit/s; data transfer; deep etching; feedthrough interposer technology; fine-pitch bonding; interconnection; layout design; low-cost bonding; memory controller; smart chip connection; stacked dynamic random access memory; three-dimensional packaging technology; through-silicon vias; transfer function; wafer level; DRAM chips; Design optimization; Dry etching; Filling; Packaging; Random access memory; Silicon; Through-silicon vias; Wafer scale integration; Wiring; 3-D packaging; Interposer; stacked dynamic random access memory (DRAM); through-silicon vias (TSVs);
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2008.924068
