A Temperature-Accelerated Method to Evaluate Data Retention of Resistive Switching Nonvolatile Memory

Author

Chen, An ; Haddad, Sameer ; Wu, Yi-Ching

Author_Institution

Spansion Inc., Sunnyvale

Volume

29

Issue

1

fYear

2008

Firstpage

38

Lastpage

40

Abstract

A switching model of conductivity modulation by a charge trapping process is proposed to describe the resistive switching in nonvolatile metal-insulator-metal (MIM) memory. Based on a quantitative detrapping analysis, retention is explained by the thermal release time of trapped charges, which is determined by trap depth and temperature. A characteristic temperature is defined at which a significant loss of retention would occur. A temperature-accelerated test is devised to measure the characteristic temperature and to give an early input on the worst-case retention for a given technology. The viability of this method is demonstrated using MIM memory.

Keywords

MIM devices; random-access storage; charge trapping; conductivity modulation; data retention; nonvolatile metal-insulator-metal memory; resistive switching; temperature-accelerated method; Conducting materials; Conductivity; Current measurement; Electrodes; Electron traps; Nonvolatile memory; Random access memory; Semiconductor process modeling; Temperature measurement; Voltage; Nonvolatile memory; resistive random access memory (RRAM); retention; trapping;

fLanguage

English

Journal_Title

Electron Device Letters, IEEE

Publisher

ieee

ISSN

0741-3106

Type

jour

DOI

10.1109/LED.2007.910753

Filename

4408719