Analytical percolation model for predicting anomalous charge loss in flash memories

Author

Degraeve, Robin ; Schuler, F. ; Kaczer, Ben ; Lorenzini, Martino ; Wellekens, Dirk ; Hendrickx, Paul ; Van Duuren, Michiel ; Dormans, G.J.M. ; Van Houdt, Jan ; Haspeslagh, L. ; Groeseneken, Guido ; Tempel, Georg

Author_Institution

Interuniversity Microelectron. Center (IMEC), Leuven, Belgium

Volume

51

Issue

9

fYear

2004

Firstpage

1392

Lastpage

1400

Abstract

Data retention in flash memories is limited by anomalous charge loss. In this work, this phenomenon is modeled with a percolation concept. An analytical model is constructed that relates the charge-loss distribution of moving bits in flash memories with the geometric distribution of oxide traps. The oxide is characterized by a single parameter, the trap density. Combined with a trap-to-trap direct tunneling model, the physical parameters of the electron traps involved in the leakage mechanism are determined. Flash memory failure rate predictions for different oxide qualities, thicknesses and tunnel-oxide voltages are calculated.

Keywords

electric breakdown; electron traps; flash memories; internal stresses; leakage currents; losses; percolation; tunnelling; analytical percolation model; anomalous charge loss prediction; data retention; electron traps; flash memories; flash memory failure rate predictions; geometric distribution; leakage mechanism; oxide qualities; oxide traps; physical parameters; stress-induced leakage current; trap density; trap-to-trap direct tunneling model; tunnel-oxide voltages; Analytical models; Electron traps; Flash memory; Leakage current; Predictive models; Statistical distributions; Stress; Testing; Threshold voltage; Tunneling; Flash memories; percolation; retention; stress-induced leakage current;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/TED.2004.833583

Filename

1325842