Papers:
Implications of Gate Tunneling and Quantum Effects in the Gate-Channel Stack
Simulation and modeling of gate tunneling current for thin-oxide MOSFETs and Double-Gate SOIs are discussed. Guidelines for design of leady MOS capacitors are proposed. Resonant gate tunneling current in DG SOI is simulated, based on [...]
A Basic Property of MOS Transistors and its Circuit Implications
The MOS transistor drain current is the (linear) superposition of independent and symmetrical effects of source and drain voltages. This basic property is not affected by the geometry or symmetry of the transistor, by the [...]
USIM Design Considerations
Compact models need to be carefully designed to predict circuit behavior efficiently, accurately and robustly. A variety of effects must work together and be consistently integrated into the model equations with redundancy. USIM is a [...]
Theory, Development and Applications of the Advanced Compact MOSFET (ACM) Model
Galup-Montoro C., Schneider M.C., Cunha A.I.A., Gouveia-Filho O.C., Universidade Federal de Santa Catarina, BR
This paper presents a physics-based advanced compact MOSFET (ACM) model. The ACM model is composed of very simple expressions, valid for any inversion level, conserves charge and preserves the source-drain symmetry of the transistor. We [...]
HiSIM: Accurate Charge Modeling Important for RF Era
Miura-Mattausch M., Navarro D., Ueno H., Mattausch H.J., Miura-Mattausch M., Morikawa K., Itoh S., Kobayashi A., Masuda H., Hiroshima University, JP
Extension of the gradual-channel approximation is presented with the surface-potential-based MOSFET modeling. All phenomena observed under the saturation condition are described by the potential increase in the pinch-off region in a self-consistent way. The charge [...]
An Advanced Surface-Potential-Plus MOSFET Model
Like other surface-potential based model, our surface-potential-plus model starts with charge-sheet approximation, uses the quasi-Fermi-potential to integrate drift and diffusion current and formulates an inversion charge equation that can be analytically solved for given terminal [...]
A Technology-based Compact Model for Predictive Deep-Submicron MOSFET Modeling and Characterization
This paper presents new development results of our compact model (Xsim) for deep-submicron MOSFETs. Although a threshold-voltage-based and source-referenced regional model, Xsim meets the basic requirements of continuity (to third-order derivatives), scalability (entire geometry range), [...]
A Framework for Generic Physics Based Double-Gate MOSFET Modeling
Chan M., Taur Y., Lin C.H., He J., Niknejad A., Hu C., Hong Kong University of Science & Technology, HK
This paper presents a framework to develop a generic and physical Double-Gate MOSFET model. Due to limited available physical data and existence of a large variety of device structures, flexibility to assemble model modules to [...]
A Physics-Based Compact Model for Nano-Scale DG and FD/SOI MOSFETs
A process/physics-based compact model (UFDG) for double-gate (DG) MOSFETs is overviewed. The model, in essence, is a compact Poisson-Schrödinger solver, including accountings for short-channel effects, and is applicable to nano-scale fully depleted (FD) SOI MOSFETs [...]
BJT Modeling with VBIC, Basics and V1.3 Updates
This paper reviews the VBIC BJT model, and details updates in the version 1.3 release. VBICv1.3 includes explicit interaction with siulator global parameters gmin and pnjmaxi, explicit limiting of local temperature rise and exponential arguments [...]
Compact Bipolar Transistor Modeling – Issues and possible solutions
Recently, several advanced compact bipolar transistor models ave become available to the design community. For existing technologies, these models (and their internal formulation) are believed to offer sufficient flexibility and accuracy, especially compared to the [...]
Noise Modeling with MOS Model 11 for RF-CMOS Applications
Scholten A.J., Tiemeijer L.F., van Langevelde R., Zegers-van Duijnhoven A.T.A., Havens R.J., Zegers-van Duijnhoven A.T.A., Venezia V.C., Klaassen D., Philips Research Laboratories Eindhoven, NE
The RF noise in 0.18um CMOS technology has been measured and modeled. Compared to long-channel theory we find only a moderate enhancement of the drain and current noise for short-channel MOSFETS and, due to the [...]
Physical Modeling of Substrate Resistance in RF MOSFETs
A simple and accurate method is presented for extracting the substrate resistance of RF MOSFETs. The extraction results for 0.18 um MOSFETs are shown for various bias conditions. The dependence of the extracted substrate resistances [...]
Compact Modeling for RF and Microwave Integrated Circuits
Niknejad A.M., Chan M., Hu C., Brodersen B., Xi J., He J., Emami S., Doan C., Cao Y., Su P., Wan H., Dunga M., Lin C.H., University of California at Berkeley, US
Compact modeling has been an integral part of the design of integrated circuits for digital and analog applications. The availability of scalable CMOS device models has enabled rapid simulation and design of present and future [...]
Vector Potential Equivalent Circuit for Efficient Modeling of Interconnect Inductance
We present a compact topology for inductive parasitics, using the vector potential as a state variable. The model is local, i.e., only coupling between neighboring wires is explicitly modeled. However, the topology accounts for long-range [...]
Journal: TechConnect Briefs
Volume: Technical Proceedings of the 2005 Workshop on Compact Modeling
Published: May 8, 2005
Industry sector: Sensors, MEMS, Electronics
Topic: WCM - Compact Modeling
ISBN: 0-9767985-3-0