Title :
Charge, current, and noise partitioning in MOSFET in the presence of mobility degradation
Author :
Roy, A.S. ; Enz, C.C. ; Sallese, J.M.
Author_Institution :
Electron. Lab., Swiss Fed. Inst. of Technol. Lausanne
Abstract :
The Ward-Dutton (WD) partitioning scheme is used extensively to develop transient and high-frequency advanced compact models in MOSFET analysis. However, it remains an open question if this scheme can be used for field-dependent mobility that is enhanced in state-of-the-art submicrometer technologies. In this paper, after demonstrating that the well-known WD partitioning is indeed invalid for field-dependent mobility, the authors develop a very general partitioning strategy that can always be defined in small-signal analysis for any arbitrary velocity-field relationship. It has also been shown that for large-signal operation, the existence of a partitioning scheme can be determined by the solution of an integral equation
Keywords :
MOSFET; semiconductor device models; MOSFET; Ward-Dutton partitioning; charge partitioning; current partitioning; field-dependent mobility; integral equation; mobility degradation; noise partitioning; small-signal analysis; Degradation; Integral equations; MOSFET circuits; Transient analysis; Tunneling; Charge partitioning; MOSFET; mobility degradation; noise;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2006.878354
