Impact of well structure on SE response in 90-nm bulk CMOS
Gaspard, Nelson Joseph III
:
2011-04-13
Abstract
As CMOS technology generations advance, the well structure has greater influence on single-event (SE) charge collection processes. Through the use of full 3D TCAD simulations, the effects of well structure are investigated by studying the temporal and spatial characteristics of well potential modulation (WPM). It is shown that the conductivity of the well and the amount of well collected charge are major factors in determining the SE WPM response. WPM is characterized across many layout and technology process parameters to help explain this phenomenon. A set of measurement circuits are proposed that could potentially be used to characterize WPM in any bulk CMOS technology generation. Lastly, the effect on SE mechanisms of anti-puncthrough implants is explored in TCAD simulations. It is shown that some anti-punchthrough implants can affect SE charge collection in pFETs.