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A new string structure, having a cell-type string select transistor line (CT-SSL) is proposed for NAND flash memories beyond 20nm node device. The boosted potentials at a program-inhibited active line were measured with the CT-SSL and compared with the potential measured with a conventional SSL at 4Xnm, 2Xnm, and 1Xnm node devices. The boosted channel potentials were not degraded by drain-induced-barrier-lowering...
Charge trap flash (CTF) memory is one of the most promising technologies for the next generation NAND technology. Among various CTF memories, excellent manufacturability of TaN-Al2O3-Si3N4-SiO2-Si (TANOS) structure has been successfully developed by achieving 32Gb MLC NAND flash using 40nm technology node (Y. Park et al., 2006). 3 dimensional NAND cells such as hemispherical corner (HC) (D. Kwak et...
In the proposed new scheme, which is named self aligned trap-shallow trench isolation (SAT-STI), such process damage on high-k layer can be minimized, achieving the goal of isolating the storage nitride layer successfully.
It was found that the charge loss behavior of TANOS (TaN-Al2O3-nitride-oxide-silicon) cells for NAND flash memory application is highly dependent on the gate structures for the first time. The gate structures with trap layers remained on source and drain regions showed increased charge loss compared to the one with trap layers separated between different gate lines. The improvement by removing the...
For the first time, multi-level NAND flash memories with a 63 nm design rule are developed successfully using charge trapping memory cells of Si/SiO2/SiN/Al2O3/TaN (TANOS). We successfully integrated TANOS cells into multi-gigabit multi-level NAND flash memory without changing the memory window and circuit design of the conventional floating-gate type NAND flash memories by improving erase speed....
A new 64-cell NAND flash memory with asymmetric S/D (Source/Drain) structure for sub-40nm node technology and beyond has been successfully developed. To suppress short channel effect in NAND memory cell, asymmetric S/D consisting of optimized junction and inversion layer induced by fringe field of WL bias which is applied at NAND operation conditions is successfully utilized. 64-cell NAND string which...
To realize TANOS-NAND flash memory, key requirements like program/erase speed, read retention, and program disturb window should be satisfied. In this work, we present 63 nm NAND-type TANOS cells to satisfy all the requirements and to replace floating-gate cells in conventional NAND flash memory without changing a circuit design and a sensing window
A NAND-type MONOS device has been successfully developed by breakthrough technologies including optimized cell structures and integration schemes providing favorable memory cell structures and peripheral circuits. In this study, optimized TANOS (TaN-Al2O 3-nitride-oxide- silicon) cells integrated using 63nm NAND flash technology showed high performance compatible to floating-gate (FG) cell. The newly-developed...
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