Journal ArticleDOI
Accurate and Computationally Efficient Modeling of Nonquasi Static Effects in MOSFETs for Millimeter-Wave Applications
TLDR
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.Abstract:
A lumped-circuit nonquasi-static (NQS) model, that is applicable for both large-signal transient simulations and a small-signal ac analysis, is developed in this paper. An improved physical equivalent circuit, capturing NQS effects in the millimeter waveband, is derived using a transmission line model, by incorporating the high-frequency longitudinal gate electrode and a channel distributed RC network. The proposed model is 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. The proposed model is in very good agreement with the data up to ${50}{f}_{t}$ . The transient currents, for a gate-voltage switching rate of ${5}\times {10}^{{10}}$ V/s, show excellent match with the data. The dc, transient, and ac simulations using the proposed model are much faster than a 10-segmented MOSFET model. This shows that the proposed model is better than other computationally complex compact models, for most RF applications.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
Improved Modeling of Bulk Charge Effect for BSIM-BULK Model
TL;DR: An improved model of bulk charge effect for both drain current and capacitances and its implementation in the industry standard Berkeley short-channel IGFET model (BSIM)-BULK model is presented.
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.
Proceedings ArticleDOI
Signal Integrity Analysis Based on SVR Improved Algorithm
TL;DR: In this paper, a fast optimization hyperparameter and sparse support vector machine (FOH-SSVM) algorithm was proposed to solve the problem of signal integrity, which greatly reduced the modeling time and increased the prediction accuracy.
Proceedings ArticleDOI
IPCEI subcontracts contributing to 22-FDX Add-On Functionalities at GF
Sabine Kolodinski,B. Peng,C. Esposito,Yves Zimmermann,Michael Schroter,Xin Xu,Paolo Valerio Testa,Corrado Carta,Frank Ellinger,Steffen Lehmann,M. Drescher,C. Mart,Maciej Wiatr,Wenke Weinreich,Violetta Sessi,Jens Trommer,Talha Chohan,Halid Mulaosmanovic,Walter M. Weber,Stefan Slesazeck +19 more
TL;DR: Highlights from Silicon Device Physics, material sciences and electrical engineering are among the first results to be presented from GFs subcontracts in the IPCEI-project, namely a reconfigurable FET compatible with 22-FDX-technology, a CMOS compatible new material Si doped HfO2 for electrocaloric/ pyroelectric effects on chip.
References
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Journal ArticleDOI
A PSP-Based Small-Signal MOSFET Model for Both Quasi-Static and Nonquasi-Static Operations
TL;DR: In this article, a small-signal MOSFET model is described, which takes the local effects of both velocity saturation and transverse mobility reduction into account, and is valid for both quasi-static and non-quasi-static operations.
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
Evaluation of the BSIM6 compact MOSFET model's scalability in 40nm CMOS technology
Maria-Anna Chalkiadaki,Anurag Mangla,Christian Enz,Yogesh Singh Chauhan,M. A. Karim,Sriramkumar Venugopalan,Ali M. Niknejad,Chenming Hu +7 more
TL;DR: As a first benchmarking of BSIM6, the model is evaluated for its scaling capabilities when a single set of parameters is used, and the results attest the model's scalability under all bias conditions, proving its reliability for nowadays complex IC designs.
Proceedings ArticleDOI
Analysis and modeling of capacitances in halo-implanted MOSFETs
TL;DR: In this article, the anomalous behavior of capacitances in halo channel MOSFETs for the linear and saturation regions was reported, and a computationally efficient SPICE model was used to model these trends which shows excellent matching with the measured and TCAD data.
Proceedings ArticleDOI
An overview of new design techniques for high performance CMOS millimeter-wave circuits
Shunli Ma,Junyan Ren,Hao Yu +2 more
TL;DR: Some new structures, such as meta-material oscillator, tunable inductors and coupled oscillator are summarized and demonstrated to overcome problems in designing high performance millmeter-wave circuits in nano-CMOS.