Title :
Statistical modeling for postcycling data retention of split-gate flash memories
Author :
Hu, Ling-Chang ; Kang, An-Chi ; Shih, J.R. ; Lin, Yao-Feng ; Wu, Kenneth ; King, Ya-Chin
Author_Institution :
Semicond. Technol. Applications Res., Nat. Tsing-Hua Univ., Hsinchu, Taiwan
fDate :
3/1/2006 12:00:00 AM
Abstract :
In developing an accurate lifetime-prediction model for postcycling data-retention failure rate of split-gate Flash memories, a floating-gate potential extraction method from the measured bit-cell-current data is proposed. Stress-induced leakage current through the coupling oxide caused by the source-side channel hot electron injection during program operation is the major cause for postcycling data-retention failure bits. Considering charge conservation and trap-assist-tunneling leakage current, the charge-gain behavior under low-temperature bake is modeled and the failure rate under various measured conditions can be predicted precisely. We have found that data-retention lifetime decreases as program/erase (P/E) cycling increases, while failing bits increase with numbers of P/E cycling.
Keywords :
charge injection; flash memories; hot carriers; integrated circuit reliability; integrated memory circuits; channel hot electron injection; charge-gain behavior; data-retention lifetime; floating-gate potential extraction method; lifetime-prediction model; low-temperature baking; low-temperature data retention; postcycling data retention; source-side hot electron injection; split-gate flash memories; stress-induced leakage current; Channel hot electron injection; Charge measurement; Current measurement; Data mining; Electron traps; Flash memory; Leakage current; Nonvolatile memory; Predictive models; Split gate flash memory cells; Lifetime model; low-temperature data retention (LTDR); program/erase (P/E) cycling; reliability; split-gate Flash memory; stress-induced leakage current;
Journal_Title :
Device and Materials Reliability, IEEE Transactions on
DOI :
10.1109/TDMR.2006.870354
