Title :
Minimizing floating-body-induced threshold voltage variation in partially depleted SOI CMOS
Author :
Wei, Andy ; Antoniadis, Dimitri A. ; Bair, Lawrence A.
Author_Institution :
Microsystems Technol. Labs., MIT, Cambridge, MA, USA
Abstract :
Pulse propagation problems associated with dynamic floating-body effects, e.g., pulse stretching, is measured in partially depleted SOI CMOS inverter chains. Pulse stretching is found to be dependent on pulse frequency and V/sub DD/. Such behavior is attributed to floating-body-induced transient threshold voltage variation in partially depleted SOI CMOS devices due to floating-body charge imbalance between logic states during CMOS switching. Such an imbalance can be minimized through proper device design because of the different dependencies of the gate and drain depletion charges on channel length, silicon film thickness, gate oxide thickness, channel doping, and supply voltage. This is confirmed by measuring the maximum transient threshold voltage variation in discrete partially depleted SOI NMOS devices in configurations which are predictive of CMOS switching behavior.
Keywords :
CMOS logic circuits; logic gates; silicon-on-insulator; CMOS inverter chains; CMOS switching behaviour; NMOS devices; Si; Si film thickness; channel doping; channel length; drain depletion charges; dynamic floating-body effects; floating-body-induced threshold voltage variation; gate depletion charges; gate oxide thickness; logic states; partially depleted SOI CMOS; pulse frequency; pulse propagation problems; pulse stretching; supply voltage; transient threshold voltage variation; CMOS logic circuits; Doping; Frequency; Logic devices; MOS devices; Pulse inverters; Pulse measurements; Semiconductor films; Silicon; Threshold voltage;
Journal_Title :
Electron Device Letters, IEEE
