Add to ORKGWe propose a model for the gate capacitance of GaN-based trench-gate metal-oxide-semiconductor transistors, based on combined measurements, analytical calculations and TCAD simulations. The trench capacitance is found to be equivalent to four different capacitors, used to model the various regions with different doping and orientation of the semiconductor/dielectric interface. In addition, we demonstrate and explain the characteristic double-hump behavior of the G-D and G-DS capacitance of trench-MOSFETs. Lastly, a TCAD simulation results accurately reproduce the experimental data, thus confirming the interpretation on the double hump behavior, and providing insight on the electron density at the gate interface. (C) 2020 The Japan Society o...
In this article, we illustrate the impact of the high electric field region and the effects of this ...
We present an analysis method for GaN-based metal-insulator-semiconductor (MIS) devices by using cap...
Trench depth is important in low-voltage trench MOSFETs because it affects the switching losses thro...
We propose a model for the gate capacitance of GaN-based trench-gate metal-oxide-semiconductor trans...
In this letter, we analyzed the gate capacitance characteristics in p-GaN gate/AlGaN/GaN heterostruc...
The aim of this work is to present the optimization of the gate trench module for use in vertical Ga...
Includes bibliographical references (pages 40-47)This project explains a Capacitance model for Galli...
In this study, we report calculations of gate capacitance of AlGaN/GaN HEMTs with nextnano device si...
For the development of reliable vertical GaN transistors, a detailed analysis of the robustness of t...
In this paper, a surface-potential-based compact model is proposed for the capacitance of an AlGaN/G...
The effects of interface charges on the performances of gate-all-around (GAA) GaN vertical nanowire ...
The capacitance-voltage measurements were applied for characterization of the semiconductor/dielectr...
In this paper, a surface potential-based terminal charge and capacitance model, including parasitic ...
The vertical Gallium Nitride-on-Silicon (GaN-on-Si) trench metal-oxide-semiconductor field effect tr...
The metal-insulator-semiconductor tunnel diodes with ultra thin metal surrounded gate (UTMSG) have b...
In this article, we illustrate the impact of the high electric field region and the effects of this ...
We present an analysis method for GaN-based metal-insulator-semiconductor (MIS) devices by using cap...
Trench depth is important in low-voltage trench MOSFETs because it affects the switching losses thro...
We propose a model for the gate capacitance of GaN-based trench-gate metal-oxide-semiconductor trans...
In this letter, we analyzed the gate capacitance characteristics in p-GaN gate/AlGaN/GaN heterostruc...
The aim of this work is to present the optimization of the gate trench module for use in vertical Ga...
Includes bibliographical references (pages 40-47)This project explains a Capacitance model for Galli...
In this study, we report calculations of gate capacitance of AlGaN/GaN HEMTs with nextnano device si...
For the development of reliable vertical GaN transistors, a detailed analysis of the robustness of t...
In this paper, a surface-potential-based compact model is proposed for the capacitance of an AlGaN/G...
The effects of interface charges on the performances of gate-all-around (GAA) GaN vertical nanowire ...
The capacitance-voltage measurements were applied for characterization of the semiconductor/dielectr...
In this paper, a surface potential-based terminal charge and capacitance model, including parasitic ...
The vertical Gallium Nitride-on-Silicon (GaN-on-Si) trench metal-oxide-semiconductor field effect tr...
The metal-insulator-semiconductor tunnel diodes with ultra thin metal surrounded gate (UTMSG) have b...
In this article, we illustrate the impact of the high electric field region and the effects of this ...
We present an analysis method for GaN-based metal-insulator-semiconductor (MIS) devices by using cap...
Trench depth is important in low-voltage trench MOSFETs because it affects the switching losses thro...