Title :
Charge Loss Mechanisms of Nitride-Based Charge Trap Flash Memory Devices
Author :
Meng Chuan Lee ; Hin Yong Wong
Author_Institution :
Dept. of Eng., Multimedia Univ., Cyberjaya, Malaysia
Abstract :
Technology scaling challenges for flash memory beyond 30 nm exacerbated as device fundamental limits are fast approaching. Nitride-based charge trap flash (CTF) is one of the most viable alternatives to eclipse floating gate flash in the market by leveraging the existing materials as compared with other exploratory nonvolatile memory devices. However, postcycled threshold voltage instability in the form of charge loss (CL) mechanisms remains as critical reliability challenges to further improve long-term data retention performance. This paper focuses on long-term data retention reliability issues with an emphasis on major CL mechanisms of nitride-based CTF memory. It encompasses comprehensive reviews and discussions on major CL mechanisms due to intrinsic and extrinsic causes. This paper would serve as a good reference for the future development of nitride-based CTF memory.
Keywords :
circuit reliability; circuit stability; flash memories; losses; voltage regulators; CL mechanism; CTF; charge loss mechanism; eclipse floating gate flash; exploratory nonvolatile memory device; long-term data retention reliability performance; nitride-based charge trap flash memory device; postcycled threshold voltage instability; Annealing; Ash; Electron traps; Interface states; Logic gates; Reliability; Charge loss (CL) mechanisms; data retention reliability; flash cell scaling; flash memory; nitride-based charge trap flash (CTF) memory; threshold voltage $(V{rm t})$ instabilities;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2013.2279410
