Statistical characterization of time-dependent variability defects using the maximum current fluctuation

Statistical characterization of time-dependent variability defects using the maximum current fluctuation

This article presents a new methodology to extract, at a given operation condition, the statistical distribution of the number of active defects that contribute to the observed device time-dependent variability, as well as their amplitude distribution. Unlike traditional approaches based on complex...

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Hauptverfasser: Saraza-Canflanca, Pablo, Martin Martinez, Javier, Castro-Lopez, Rafael, Roca, Elisenda, Rodríguez Martínez, Rosana, Fernandez, Francisco V, Nafría i Maqueda, Montserrat
Format: Artikel
Sprache:eng
Schlagworte:
Bias temperature instability (BTI)
Maximum current fluctuation (MCF)
Random telegraph noise (RTN)
Time-dependent variability (TDV)
Transistor
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Zusammenfassung:This article presents a new methodology to extract, at a given operation condition, the statistical distribution of the number of active defects that contribute to the observed device time-dependent variability, as well as their amplitude distribution. Unlike traditional approaches based on complex and time-consuming individual analysis of thousands of current traces, the proposed approach uses a simpler trace processing, since only the maximum and minimum values of the drain current during a given time interval are needed. Moreover, this extraction method can also estimate defects causing small current shifts, which can be very complex to identify by traditional means. Experimental data in a wide range of gate voltages, from near-threshold up to nominal operation conditions, are analyzed with the proposed methodology.