Experimental data provide insight into the mechanisms governing the impact of gate and lateral isolation dielectrics and of scaling-related technological advances on noise and its sensitivity to total ionizing dose effects in Low Power 65 nm CMOS devices. The behavior of the 1/f noise term is correlated with the effects on the drain current that irradiation brings along by turning on lateral parasitic transistors. A comparison with data from previous CMOS generations is carried out to assess the impact of process features on radiation-induced degradation effects.
Mechanisms of Noise Degradation in Low Power 65 nm CMOS Transistors Exposed to Ionizing Radiation
RE, Valerio;GAIONI, Luigi;MANGHISONI, Massimo;TRAVERSI, Gianluca
2010-01-01
Abstract
Experimental data provide insight into the mechanisms governing the impact of gate and lateral isolation dielectrics and of scaling-related technological advances on noise and its sensitivity to total ionizing dose effects in Low Power 65 nm CMOS devices. The behavior of the 1/f noise term is correlated with the effects on the drain current that irradiation brings along by turning on lateral parasitic transistors. A comparison with data from previous CMOS generations is carried out to assess the impact of process features on radiation-induced degradation effects.File allegato/i alla scheda:
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