Abstract
The wide-bandgap (WBG) semiconductor devices for modern power electronics require intensive efforts for the analysis of the critical aspects of their operation. In recent years, silicon carbide (SiC) based field effect transistor have been extensively investigated. Motivated by the significant employment of the SiC Vertical Junction Field Effect transistors with lateral channel (LC-VJFET) in the development of high-voltage and high temperature applications, the properties of the LC-VJFET device are investigated in this work. The most important normally-ON LC-VJFET parameter is their threshold voltage (VTh), which is defined as the gate-to-source voltage necessary to block the device. The higher complexity of the blocking operation of the normally-ON device makes the accurate knowledge of the VTh as a fundamental issue. In this paper, a temperature dependent analytical model for the threshold voltage of the normally-ON LC-VJFET is developed. This analytical model is derived based on a numerical analysis of the electrical potential distribution along the asymmetrical lateral channel in the blocking operation. To validate our model, the analytical results are compared to 2D numerical simulations and experimental results for a wide temperature range.
Highlights
The threshold voltage (VTh ) and its dependence on temperature is an important parameter of any FET structure for device evaluation and circuit design
This paper focuses essentially on the physical analysis of the behavior of the silicon carbide (SiC)
This paper focuses essentially on the physical analysis of the behavior of the SiC LCLC-VJFET with lateral channel in the blocking mode
Summary
The threshold voltage (VTh ) and its dependence on temperature is an important parameter of any FET structure for device evaluation and circuit design. The blocking condition of the device corresponds to a pinch-off operation where the saturation current reaches zero This condition is very important for the analysis and the modeling of the device, few studies in this context have been published, generally leading to a complex or non-analytical expression of the threshold voltage [26,27]. For such complicated SiC LC-VJFET structure, it is a great interest to of the JFET. An analytical model of threshold voltage for the SiC LC-VJFET. In the We present study, anthat analytical model of threshold voltage forthreshold the SiC LC-VJFET is derived.
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