Journal ArticleDOI
Anomalous Transconductance in Long Channel Halo Implanted MOSFETs: Analysis and Modeling
TLDR
An analytical model, based on the equivalent conductance of the halo device, is developed to understand the anomalous behavior of transconductance in halo implanted MOSFET for linear and saturation regions across both gate and body biases.Abstract:
In this paper, we report anomalous behavior of transconductance ( ${g}_{m}$ ) in halo implanted MOSFET for linear and saturation regions across both gate and body biases. The ${g}_{m}$ characteristics undergo sharp change of slope in saturation which cannot be modeled by conventional compact models. The cause of such behavior is identified and explained using the TCAD simulations of source side halo, drain side halo (DH), both side halos, and uniformly doped transistors. An analytical model, based on the equivalent conductance of the halo device, is developed to understand the ${g}_{m}$ behavior. It is shown that the commonly used approach where only the DH region is considered in saturation, is insufficient to model the atypical ${g}_{m}$ behavior. The effect of oxide thickness ( ${T}_{\text {ox}}$ ) variation on ${g}_{m}$ is also studied, which demonstrates a deviation from the conventional $g_{m}$ behavior for halo implanted devices with thicker ${T}_{\text {ox}}$ . A computationally efficient SPICE model is proposed to model ${g}_{m}$ characteristics which shows excellent matching with the measured data.read more
Citations
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Journal ArticleDOI
BSIM-HV: High-Voltage MOSFET Model Including Quasi-Saturation and Self-Heating Effect
Harshit Agarwal,Chetan Gupta,Ravi Goel,Pragya Kushwaha,Yen-Kai Lin,Ming-Yen Kao,Juan Pablo Duarte,Huan-Lin Chang,Yogesh Singh Chauhan,Sayeef Salahuddin,Chenming Hu +10 more
TL;DR: In this article, a BSIM-based compact model for a high-voltage MOSFET is presented, which has been extended to include the overlap capacitance due to the drift region as well as quasi-saturation effect.
Journal ArticleDOI
Analysis and Modeling of Temperature and Bias Dependence of Current Mismatch in Halo-Implanted MOSFETs
TL;DR: In this paper, an analytical model that accurately captures anomalous matching characteristics of drain current in a halo-implanted MOSFET across bias, geometry, and temperature is presented.
Journal ArticleDOI
Accurate and Computationally Efficient Modeling of Nonquasi Static Effects in MOSFETs for Millimeter-Wave Applications
TL;DR: In this article, an improved physical equivalent circuit was derived using a transmission line model, by incorporating the high-frequency longitudinal gate electrode and a channel distributed RC network, which was implemented in a BSIM-BULK MOSFET model and validated with dc and RF data, obtained from technology computer aided design device simulations and experimental data.
Journal ArticleDOI
Analysis and modeling of zero-threshold voltage native devices with industry standard BSIM6 model
TL;DR: In this paper, the authors present the modeling of zero-threshold voltage (V TH) bulk MOSFET, also called native devices, using enhanced BSIM6 model, which incorporates gate, drain, body biases and channel length as well as channel doping dependency too.
Proceedings ArticleDOI
BSIM-BULK: Accurate Compact Model for Analog and RF Circuit Design
TL;DR: The recent and upcoming enhancements of the industry standard BSIM-BULK model are presented and an analytical model for bulk charge effect, in both current and capacitance, is implemented to improve the model accuracy for transconductance and output conductance.
References
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Journal ArticleDOI
PSP: An Advanced Surface-Potential-Based MOSFET Model for Circuit Simulation
G. Gildenblat,Xin Li,W. Wu,H. Wang,Amit Jha,R. van Langevelde,G.D.J. Smit,A.J. Scholten,D.B.M. Klaassen +8 more
TL;DR: In this paper, the authors describe the latest and most advanced surface potential-based model jointly developed by The Pennsylvania State University and Philips, which includes model structure, mobility and velocity saturation description, further development and verification of symmetric linearization method, recent advances in the computational techniques for the surface potential, modeling of gate tunneling current, inclusion of the retrograde impurity profile, and noise sources.
Journal ArticleDOI
BSIM6: Analog and RF Compact Model for Bulk MOSFET
Yogesh Singh Chauhan,Sriramkumar Venugopalan,Maria-Anna Chalkiadaki,M. A. Karim,Harshit Agarwal,Sourabh Khandelwal,Navid Paydavosi,Juan Pablo Duarte,Christian Enz,Ali M. Niknejad,Chenming Hu +10 more
TL;DR: The BSIM6 model has been extensively validated with industry data from 40-nm technology node and shows excellent source-drain symmetry during both dc and small signal analysis, thus giving excellent results during analog and RF circuit simulations.
Proceedings ArticleDOI
Modeling of pocket implanted MOSFETs for anomalous analog behavior
TL;DR: In this article, the first physical model of drain-induced threshold voltage shift and low output resistance to long channel devices is proposed and verified against data from a 018 /spl mu/m technology.
Proceedings ArticleDOI
A three-transistor threshold voltage model for halo processes
TL;DR: In this paper, a closed-form expression for the threshold voltage, V/sub t/, of MOSFETs fabricated with halo processes is described, and a doping transformation is employed to obtain equivalent channel dopings, necessary for charge sheet models that do not rely on threshold voltage concept.
Journal ArticleDOI
Abnormally high local electrical fluctuations in heavily pocket-implanted bulk long MOSFET
TL;DR: In this paper, it was shown that drain current fluctuations degradation is due to the high potential barriers that stand at end sides of long devices and mainly control the device electrostatics.