Title :
Experimental Proof of the Drain-Side Dielectric Breakdown of HKMG nMOSFETs Under Logic Circuit Operation
Author :
Kupke, Steve ; Knebel, Steve ; Ocker, Johannes ; Slesazeck, Stefan ; Agaiby, Rimoon ; Trentzsch, Martin ; Mikolajick, Thomas
Author_Institution :
Namlab gGmbH, Dresden, Germany
Abstract :
Continuous CMOS logic switching results in a consecutive series of gate bias temperature instability and drain (OFF-state) stress. We also show that the asymmetric stress condition leads to a preferential breakdown at the drain side and that neither gate-only nor drain-only stress can reproduce this behavior. The findings are verified by the voltage ratio method as well as dc current-voltage measurements and are caused by trapping and detrapping under the alternating electric field.
Keywords :
CMOS logic circuits; MOSFET; electric breakdown; electric current measurement; electric fields; voltage measurement; HKMG nMOSFET; OFF-state stress; alternating electric field; asymmetric stress condition; continuous CMOS logic switching; dc current-voltage measurements; detrapping; drain stress; drain-side dielectric breakdown; gate bias temperature instability; logic circuit operation; preferential breakdown; trapping; voltage ratio method; Breakdown voltage; Current measurement; Degradation; Electric breakdown; Logic gates; Stress; Voltage measurement; AC; BTI; CMOS; HKMG; Inverter; Off-state; TDDB; ac; inverter; off-state;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2015.2411773
