Investigation of Program Saturation in Scaled Interpoly Dielectric Floating-Gate Memory Devices

Author

Beug, M. Florian ; Chan, Nigel ; Hoehr, Timm ; Mueller-Meskamp, Lars ; Specht, Michael

Author_Institution

Qimonda GmbH & Co. OHG, Dresden, Germany

Volume

56

Issue

8

fYear

2009

Firstpage

1698

Lastpage

1704

Abstract

This paper investigates the program saturation in aggressively scaled interpoly dielectric (IPD) floating-gate (FG) cells for nand application. To describe the program saturation in IPD stacks containing thick suboxides (ges 4 nm) , a simple model was developed, directly yielding the maximum reachable programmed threshold voltage level for a given FG cell geometry. The presented model agrees very well to program saturation measurements carried out on a 48 nm FG nand technology with an IPD composed of SiO₂ and Al₂O₃. By extending the considerations to an arbitrary IPD, this paper represents the first attempt to quantify the IPD current blocking ability required for future scaled FG memory cells.

Keywords

NAND circuits; aluminium compounds; flash memories; silicon compounds; Al₂O₃; IPD current blocking ability; IPD stacks; NAND application; SiO₂; floating-gate cell geometry; program saturation; reachable programmed threshold voltage level; scaled interpoly dielectric floating-gate memory devices; size 48 nm; Breakdown voltage; Dielectric devices; Dielectric measurements; Geometry; Helium; Interference; Nonvolatile memory; Solid modeling; Threshold voltage; Tunneling; FG memory devices; Floating-gate (FG) interference; NAND scaling; interpoly dielectric (IPD); parasitic coupling; program saturation;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/TED.2009.2024020

Filename

5089437