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Analytic Modeling of a Depletion-Mode Cylindrical Surrounding-Gate Nanowire Field-Effect Transistor
Yu, Yun Seop,Park, Hyung-Kun American Scientific Publishers 2012 Journal of Nanoscience and Nanotechnology Vol.12 No.7
<P>A compact model for depletion-mode p-type cylindrical surrounding-gate nanowire field-effect transistors (SGNWFETs) is proposed. The SGNWFET model consists of two back-to-back Schottky diodes for the metal-semiconductor (MS) contacts and the intrinsic SGNWFET. Based on the electrostatic method, the intrinsic SGNWFET model was derived from current conduction mechanisms attributed to bulk charges through the center neutral region, in addition to accumulation charges through the surface accumulation region. The authors' previously developed Schottky diode model was used for the M-S contacts. The new model was applied to an advanced design system (ADS), whereby the intrinsic part of the SGNWFET and the Schottky diode were developed using the Verilog-A language. The results of the simulation of the newly developed SGNWFET model reproduced the experiment results considerably well.</P>
Yu, Yun Seop,Cho, Namki,Oh, Jung Hyun,Hwang, Sung Woo,Ahn, Doyeol American Scientific Publishers 2010 Journal of Nanoscience and Nanotechnology Vol.10 No.5
<P>An analytical and continuous dc model for cylindrical doped surrounding-gate MOSFETs (SGMOSFETs) in the fully-depleted regime is presented. Starting from Poisson's equation, an implicit charge equation is derived approximately by a superposition principle with the exact channel potential and the charge equations in the depletion approximation. Also, a new explicit charge equation is derived from the implicit charge equation. The current equations without any charge-sheet approximation are based on the implicit and explicit charge control models, and both of them are valid for all the operation regions (linear, saturation, and subthreshold) and traces the transition between them without any fitting parameters. In the case of the SGMOSFETs with the fully-depleted condition, both of results simulated from the SGMOSFET models reproduce various 3D simulation results within 5% errors.</P>
Yu, Yun-Seop The Institute of Electronics and Information Engin 2010 Journal of semiconductor technology and science Vol.10 No.2
We propose a semi-analytical current conduction model for depletion-mode n-type nanowire field-effect transistors (NWFETs) with top-gate structure. The NWFET model is based on an equivalent circuit consisting of two back-to-back Schottky diodes for the metal-semiconductor (MS) contacts and the intrinsic top-gate NWFET. The intrinsic top-gate NWFET model is derived from the current conduction mechanisms due to bulk charges through the center neutral region as well as of accumulation charges through the surface accumulation region, based on the electrostatic method, and thus it includes all current conduction mechanisms of the NWFET operating at various top-gate bias conditions. Our previously developed Schottky diode model is used for the MS contacts. The newly developed model is integrated into ADS, in which the intrinsic part of the NWFET is developed by utilizing the Symbolically Defined Device (SDD) for an equation-based nonlinear model. The results simulated from the newly developed NWFET model reproduce considerably well the reported experimental results.
Compact Capacitance Model of L-Shape Tunnel Field-Effect Transistors for Circuit Simulation
Yu, Yun Seop,Najam, Faraz The Korea Institute of Information and Commucation 2021 Journal of information and communication convergen Vol.19 No.4
Although the compact capacitance model of point tunneling types of tunneling field-effect transistors (TFET) has been proposed, those of line tunneling types of TFETs have not been reported. In this study, a compact capacitance model of an L-shaped TFET (LTFET), a line tunneling type of TFET, is proposed using the previously developed surface potentials and current models of P- and L-type LTFETs. The Verilog-A LTFET model for simulation program with integrated circuit emphasis (SPICE) was also developed to verify the validation of the compact LTFET model including the capacitance model. The SPICE simulation results using the Verilog-A LTFET were compared to those obtained using a technology computer-aided-design (TCAD) device simulator. The current-voltage characteristics and capacitance-voltage characteristics of N and P-LTFETs were consistent for all operational bias. The voltage transfer characteristics and transient response of the inverter circuit comprising N and P-LTFETs in series were verified with the TCAD mixed-mode simulation results.
Compact Current Model of Single-Gate/Double-Gate Tunneling Field-Effect Transistors
Yun Seop Yu,Faraz Najam 대한전기학회 2017 Journal of Electrical Engineering & Technology Vol.12 No.5
A compact current model applicable to both single-gate (SG) and double-gate (DG) tunneling field-effect transistors (TFETs) is presented. The model is based on Kane’s band-to-band tunneling (BTBT) model. In this model, the well-known and previously-reported quasi-2-D solution of Poisson’s equation is used for the surface potential and length of the tunneling path in the tunneling region. An analytical tunneling current expression is derived from expressions of derivatives of local electric field and surface potential with respect to tunneling direction. The previously reported correction factor with three fitting parameters, compensating for superlinear onset and saturation current with drain voltage, is used. Simulation results of the proposed TFET model are compared with those from a technology computer-aided-design (TCAD) simulator, and good agreement in all operational bias is demonstrated. The proposed SG/DG-TFET model is developed with Verilog-A for circuit simulation. A TFET inverter is simulated with the Verilog-A SG/DG-TFET model in the circuit simulator; the model exhibits typical inverter characteristics, thereby confirming its effectiveness.
A Multi-Gate Single-Electron Transistor Model for Circuit Simulations by SPICE
YUN SEOP YU 한국물리학회 2007 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.50 No.3
A new compact multi-gate single-electron transistor (MGSET) model for circuit simulations by SPICE is introduced. In addition to the multi-input gates, a random background charge QO is included in the model. The developed model is based on a linearized equivalent circuit and is implemented to the SmartSpice made by Silvaco. The drain-source current (Ids) versus gate-source voltage (Vgs) characteristics and the Ids versus drain-source voltage (Vds) characteristics, calculated by using the model, reproduce those of a Monte-Carlo simulator within a 1 % error. One simulation of SE-FET hybrid circuits, consisting of one MGSET and two MOSFETs, was successfully done.
Yun Seop Yu,B. H. Choi,안도열,S. H. Hong,S. H. Kim,황성우 한국물리학회 2004 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.44 No.1
We introduce a SPICE-compatible model for a oating-dot single-electron memory (FDSEM), which includes both the single-electron box (SEB) model and the modified SOI MOSFET model. In this model, a surface potential model for SOI devices is developed. The accuracy of the developed model is verified with experimental data from FDSEM devices.
Yun Seop Yu 대한전자공학회 2013 Journal of semiconductor technology and science Vol.13 No.4
A full-range analytic drain current model for depletion-mode long-channel surrounding-gate nanowire field-effect transistor (SGNWFET) is proposed. The model is derived from the solution of the 1-D cylindrical Poisson equation which includes dopant and mobile charges, by using the Pao-S모 gradual channel approximation and the full-depletion approximation. The proposed model captures the phenomenon of the bulk conduction mechanism in all regions of device operation (subthreshold, linear, and saturation regions). It has been shown that the continuous model is in complete agreement with the numerical simulations.