An in-depth analysis of temperature effect on DIBL in UTBB FD SOI MOSFETs based on experimental data, numerical simulations and analytical models

“…However, (2) retains the clear physical meaning and becomes the simplification of (1) to help us analytically derive the B-S potential coupling relation. We integrated (2) twice to obtain this relation as:…”

“…Silicon integrated circuits (ICs) have become increasingly dense because the feature size of MOSFETs based on silicon-on-insulator (SOI) structure has not been a constraint in the sub-nanometer scale and both performance and cost improve as the feature size decreases. Up to now, there has still been considerable interest in optimizing properties of SOI MOSFETs [1][2][3] due to the widespread applications of SOI MOSFETs, such as sensors [4], memories [5], millimeter-wave circuits [6], and so on. Therefore, both device property optimization and IC design in the different fields imply that an analytical I-V model for accurately predicting I-V characteristics of SOI MOSFETs is imperative.…”

A Surface-Potential-Based Analytical I-V Model of Full-Depletion Single-Gate SOI MOSFETs

“…However, (2) retains the clear physical meaning and becomes the simplification of (1) to help us analytically derive the B-S potential coupling relation. We integrated (2) twice to obtain this relation as:…”

“…Silicon integrated circuits (ICs) have become increasingly dense because the feature size of MOSFETs based on silicon-on-insulator (SOI) structure has not been a constraint in the sub-nanometer scale and both performance and cost improve as the feature size decreases. Up to now, there has still been considerable interest in optimizing properties of SOI MOSFETs [1][2][3] due to the widespread applications of SOI MOSFETs, such as sensors [4], memories [5], millimeter-wave circuits [6], and so on. Therefore, both device property optimization and IC design in the different fields imply that an analytical I-V model for accurately predicting I-V characteristics of SOI MOSFETs is imperative.…”

A Surface-Potential-Based Analytical I-V Model of Full-Depletion Single-Gate SOI MOSFETs

28 nm FDSOI analog and RF Figures of Merit at N2 cryogenic temperatures