Title :
High-Density Three-Dimensional Stacked nand Flash With Common Gate Structure and Shield Layer
Author :
Jeong, Min-Kyu ; Joe, Sung-Min ; Shin, Hyungcheol ; Park, Byung-Gook ; Lee, Jong-Ho
Author_Institution :
Inter-Univ. Semicond. Res. Center, Seoul Nat. Univ., Seoul, South Korea
Abstract :
A new 3-D stacked NAND Flash memory is proposed to achieve high density by using common gate structure and shield layer. By adopting trench structure instead of through-hole structure, threshold voltage (Vth) variation in cells of a cell string can be reduced, and the number of stacked control-gate (CG) electrodes in a gate stack can be increased as a result. In the trench between adjacent CG stacks, gate O/N/O stack, poly-Si bodies, backside oxide, and shield layer are formed. To investigate the key characteristics of the memory, we fabricated proposed 3-D stacked NAND Flash memory cell strings which have three layers of vertically stacked CGs. Vth could be controlled by applying a bias to the shield layer. We also showed reasonable cycling and retention characteristics of a cell in a string and good pass-gate properties of the cell in the bottom of the trench.
Keywords :
NAND circuits; flash memories; logic gates; three-dimensional integrated circuits; 3D stacked NAND flash memory; backside oxide; common gate structure; cycling characteristics; gate O-N-O stack; high-density three-dimensional stacked NAND flash memory; pass-gate properties; poly-silicon bodies; retention characteristics; shield layer; stacked CG electrodes; stacked control-gate electrodes; threshold voltage variation; through-hole structure; trench structure; Fabrication; Flash memory; Ions; Logic gates; Silicon; Substrates; Transistors; 3-D stacked nand Flash memory; $hbox{4}F^{2}$ BL string; Si/SiGe selective etch; nand Flash memory; squarewave-shaped bit-line (BL) cell array transistors (SB-CATs); trench;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2011.2168229
