scholarly journals A Verilog-A model of an undoped symmetric dual-gate MOSFET

2006 ◽  
Vol 4 ◽  
pp. 303-306 ◽  
Author(s):  
O. Cobianu ◽  
O. Soffke ◽  
M. Glesner
Keyword(s):  
Silicon Film ◽  
Drain Current ◽  
Transcendental Equation ◽  
Common Source ◽  
Soi Mosfet ◽  
Novel Device ◽  
Dual Gate ◽  
Static Regime ◽  
Source Voltage

Abstract. We describe a new procedure of solving the electrostatic potentials in the silicon film of an undoped DG SOI MOSFET structure. Starting from a model previously described in the literature by Malobabic et al. (2004), we propose the bisection method for the solution of transcendental equation giving the surface electrostatic potential of the silicon channel, as a function of the gate to source voltage and the voltage along the channel. The above calculated results are used for obtaining the charges and corresponding drain current in the DG MOSFET transistor. The entire model is implemented in Verilog A and can be used inside Cadence for the determination of the static regime of electrical circuits based on undoped symmetric DG SOI MOSFET. As a case study, a simple common-source amplifier built with such a novel device is analyzed, showing the currents and voltages present in the circuit.

scholarly journals Equivalent Circuit Modeling of a Dual-Gate Graphene FET

Electronics ◽  
2020 ◽  
Vol 10 (1) ◽  
pp. 63
Author(s):  
Saima Hasan ◽  
Abbas Z. Kouzani ◽  
M A Parvez Mahmud
Keyword(s):  
Equivalent Circuit ◽  
Gate Voltage ◽  
Voltage Dependence ◽  
Drain Current ◽  
Bilayer Graphene ◽  
Circuit Modeling ◽  
Equivalent Circuit Modeling ◽  
Dual Gate ◽  
Source Voltage ◽  
Transit Frequency

This paper presents a simple and comprehensive model of a dual-gate graphene field effect transistor (FET). The quantum capacitance and surface potential dependence on the top-gate-to-source voltage were studied for monolayer and bilayer graphene channel by using equivalent circuit modeling. Additionally, the closed-form analytical equations for the drain current and drain-to-source voltage dependence on the drain current were investigated. The distribution of drain current with voltages in three regions (triode, unipolar saturation, and ambipolar) was plotted. The modeling results exhibited better output characteristics, transfer function, and transconductance behavior for GFET compared to FETs. The transconductance estimation as a function of gate voltage for different drain-to-source voltages depicted a proportional relationship; however, with the increase of gate voltage this value tended to decline. In the case of transit frequency response, a decrease in channel length resulted in an increase in transit frequency. The threshold voltage dependence on back-gate-source voltage for different dielectrics demonstrated an inverse relationship between the two. The analytical expressions and their implementation through graphical representation for a bilayer graphene channel will be extended to a multilayer channel in the future to improve the device performance.

Accurate analytical drain current model for a nanoscale fully-depleted SOI MOSFET

2015 ◽  
Vol 103 ◽  
pp. 154-161 ◽  
Author(s):  
Mohammad K. Anvarifard ◽  
Ali A. Orouji
Keyword(s):  
Current Model ◽  
Drain Current ◽  
Fully Depleted ◽  
Soi Mosfet

Determination of AlGaN/GaN HEMT Reliability Using Optical Pumping as a Characterization Method

2012 ◽  
Vol 1432 ◽  
Author(s):  
D. Cheney ◽  
R. Deist ◽  
B. Gila ◽  
F. Ren ◽  
P. Whiting ◽  
...  
Keyword(s):  
Band Gap ◽  
Optical Pumping ◽  
Drain Current ◽  
Stress Tests ◽  
Optically Pumped ◽  
Gan Hemt ◽  
Load Line ◽  
Gan Hemts ◽  
Dc Stress

ABSTRACTBy pumping AlGaN/GaN HEMTs with below band-gap light we observe changes in drain current that correspond to the trapping and detrapping of carriers within the band-gap. These changes in drain current are indicators of trap density, since the energy from a specific wavelength of light pumps traps whose activation energies are less than or equal to that of the light source.AlGaN/GaN HEMTs on SiC with dual submicron gates with widths of 125nm, 140nm, or 170nm, are DC-stressed under three different conditions along a load line: VGS=0, VDS=5 (on-state), VGS=-2, VDS=9.2 and, VGS=-6, VDS=25 (off-state). The stress tests are interrupted at 20% degradation and the optically pumped comparisons to the baseline are measured.This paper describes the optical pumping technique and results from experiments of AlGaN/GaN HEMTs under the three DC stress biases along a load line.

scholarly journals Channel temperature analysis of AlGaN/GaN HEMTs in quasi-static and pulse operation mode

2018 ◽  
Vol 69 (5) ◽  
pp. 390-394
Author(s):  
Martin Florovič ◽  
Róbert Szobolovszký ◽  
Jaroslav Kováč ◽  
Jaroslav Kováč ◽  
Aleš Chvála ◽  
...  
Keyword(s):  
Operation Mode ◽  
Drain Current ◽  
Temperature Dependent ◽  
Saturation Velocity ◽  
Channel Temperature ◽  
Device Reliability ◽  
Source Resistance ◽  
Current Change ◽  
Voltage Saturation

Abstract GaN-based HEMTs’ high potential is deteriorated by self-heating during the operation, this has influence on the electrical properties as well as device reliability. This work is focused on an average channel temperature determination of power AlGaN/GaN HEMT prepared on SiC substrate using quasi-static and pulsed I-V characterization. There was analyzed the drain current change relation to temperature dependent electrical HEMT parameters such as source resistance, threshold voltage, saturation velocity, resp. leakage current which allows to calculate an average channel temperature versus dissipated power for various ambient temperature. Differential temperature of investigated device with and without heatsink was determined. Obtained results were discussed using simulated spatial temperature distribution.

Determination of Hydrogen Density of States in Amorphous Silicon Using Fractional Evolution Experiments

1997 ◽  
Vol 467 ◽  
Author(s):  
A. J. Franz ◽  
W. B. Jackson ◽  
J. L. Gland
Keyword(s):  
Amorphous Silicon ◽  
Density Of States ◽  
Silicon Film ◽  
Mean Field ◽  
Frequency Factor ◽  
Silicon Films ◽  
Hydrogen Density ◽  
Heating And Cooling ◽  
Novel Method

ABSTRACTHydrogen plays an important role in the electronic behavior, structure and stability of amorphous silicon films. Therefore, determination of the hydrogen density of states (DOS) and correlation of the hydrogen DOS with the electronic film properties are important research goals. We have developed a novel method for determination of hydrogen DOS in silicon films, based on fractional evolution experiments. Fractional evolution experiments are performed by subjecting a silicon film to a series of linear, alternating heating and cooling ramps, while monitoring the hydrogen evolution rate. The fractional evolution data can be analyzed using two complementary memods, the fixed frequency factor approach and Arrhenius analysis. Using a rigorous, mean-field evolution model, we demonstrate the applicability of the two approaches to obtaining the hydrogen DOS in silicon films. We further validate both methods by analyzing experimental fractional evolution data foran amorphous silicon carbide film. Both types of analysis yield a similar double peaked density of states for the a-Si:C:H:D film.

Determination of Retention Efficiency of Kimondi Wetland in North Nandi District in Kenya

2010 ◽  
pp. 419-430
Author(s):  
Shadrack. M. Mule ◽  
Charles. M. Nguta
Keyword(s):  
Common Source ◽  
Nitrogen And Phosphorus ◽  
Retention Efficiency ◽  
Wetland Ecosystems ◽  
Run Off ◽  
Crop Field ◽  
Dry Seasons ◽  
Industrial Sources ◽  
Field Drainage

Wetland buffers may play an important role in the retention of nitrogen (N) and phosphorus (P) which are released in large quantities from agricultural, municipal and industrial sources with run-off from agricultural lands being a common source of such nutrients to wetland ecosystems. Wetlands receiving crop field drainage are shown to lower nitrogen and phosphorus in water of such ecosystems. The main objective of the study was to determine the retention efficiency of Kimondi wetland in terms of nitrogen and phosphorus. Results of the study show that it the wetland has mean retention efficiency of 90% and 95% for nitrogen during rainy and dry seasons respectively and mean retention efficiency of phosphorus of 80% and 93% during rainy and dry seasons respectively an indication that the wetland has high retention efficiency and its buffering ability has not been exceeded in both seasons.

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