Add to ORKGThe Lateral Asymmetric MOSFET, which has longitudinal doping variation in the channel, is the building block of many categories of High Voltage MOSFETs e.g. LDMOS, VDMOS. Here we report a new charge based analytical compact model for Lateral Asymmetric MOSFET (LAMOS). Numerical device simulations are used to validate the intrinsic MOS region of high voltage MOSFET for lateral doping gradient in the channel. The model shows good results in DC and most importantly in AC regime, especially the peaks in C-GD, C-GS and C-GG capacitances. The LAMOS model is also validated along with the drift model on the measured DC characteristics of high voltage LDMOS transistor
This paper presents the characterization and simulation results of Lateral Asymmetric Channel (LAC) ...
This paper presents the characterization and simulation results of Lateral Asymmetric Channel (LAC) ...
As MOSFET dimensions continue to shrink, the promise of further optimizing device performance and th...
This paper reports on the impact and modeling of lateral doping gradient present in the intrinsic MO...
Abstract—In compact transistor modeling for circuit simula-tion, the capacitances of conventional MO...
In this thesis a circuit simulator model is developed, based on a detailed study of device physics o...
Abstract — In compact transistor modeling for circuit simula-tion, the capacitances of conventional ...
In compact transistor modeling for circuit simulation, the capacitances of conventional MOS devices ...
In this paper we present a compact physically based charge model, which describes accurately the uni...
In this paper, a methodology for physically modeling the intrinsic MOS part and the drift region of ...
[[abstract]]With the work reported in this manuscript we have essentially contributed to the electri...
Abstract—In this paper, a surface potential-based compact model is described for high-voltage LDMOS ...
This work reports on the analysis of high voltage lateral devices. Two different architectures, self...
1Author was a graduate student at the University of Washington during the course of this work. A com...
Keywords: LDMOS, compact modelling, high-voltage MOS, MOS Model 20, quasi-saturation Abstract: In th...
This paper presents the characterization and simulation results of Lateral Asymmetric Channel (LAC) ...
This paper presents the characterization and simulation results of Lateral Asymmetric Channel (LAC) ...
As MOSFET dimensions continue to shrink, the promise of further optimizing device performance and th...
This paper reports on the impact and modeling of lateral doping gradient present in the intrinsic MO...
Abstract—In compact transistor modeling for circuit simula-tion, the capacitances of conventional MO...
In this thesis a circuit simulator model is developed, based on a detailed study of device physics o...
Abstract — In compact transistor modeling for circuit simula-tion, the capacitances of conventional ...
In compact transistor modeling for circuit simulation, the capacitances of conventional MOS devices ...
In this paper we present a compact physically based charge model, which describes accurately the uni...
In this paper, a methodology for physically modeling the intrinsic MOS part and the drift region of ...
[[abstract]]With the work reported in this manuscript we have essentially contributed to the electri...
Abstract—In this paper, a surface potential-based compact model is described for high-voltage LDMOS ...
This work reports on the analysis of high voltage lateral devices. Two different architectures, self...
1Author was a graduate student at the University of Washington during the course of this work. A com...
Keywords: LDMOS, compact modelling, high-voltage MOS, MOS Model 20, quasi-saturation Abstract: In th...
This paper presents the characterization and simulation results of Lateral Asymmetric Channel (LAC) ...
This paper presents the characterization and simulation results of Lateral Asymmetric Channel (LAC) ...
As MOSFET dimensions continue to shrink, the promise of further optimizing device performance and th...