Add to ORKGIn this paper, we extend the super junction concept to SiC high voltage devices and further expand the SiC theoretical limit. It is shown that the super-junction concept can reduce the theoretical specific on-resistance by several times to several orders of magnitude for both silicon and SiC. The unique merit of SiC super-junction devices is that the required P and N pillars have a much smaller aspect ratio and may be easier to form than their silicon counterparts. Furthermore, SiC super-junction devices are much less sensitive to charge imbalance issue than silicon SJ devices
Silicon carbide (SiC) is a wide bandgap material with properties that make it an attractive alternat...
Efficiency of power management circuits depends significantly on their constituent switches and rect...
The recent demand for increased efficiency in transportation, manufacturing equipment, and power gen...
In this paper, we extend the super junction concept to SiC high voltage devices and further expand t...
Silicon carbide (SiC) power devices offer significant benefits of improved efficiency, dynamic perfo...
International audienceThe development of high voltage devices is a great challenge. At least, railwa...
Silicon carbide (SiC) power devices offer significant benefits of improved efficiency, dynamic perfo...
High power silicon carbide (SiC) semiconductor devices are now commercially available on a fast grow...
Predictions on limits of silicon in power devices have failed spectacularly in the past, but in spit...
A class of vertical 1700-V 4H-SiC superjunction (SJ) Schottky diodes have been simulated and optimiz...
This paper is a theoretical study of the optimum doping concentration for the n and p pillars of a s...
Superjunction has arguably been the most creative and important concept in the power device field si...
This paper discusses the design and simulation of 4H-SiC semi-SJ structures producing results that a...
With superior material properties, Silicon carbide (SiC) power devices show great potential for high...
The increased awareness of the on-going climate change accelerates the electric energy system transf...
Silicon carbide (SiC) is a wide bandgap material with properties that make it an attractive alternat...
Efficiency of power management circuits depends significantly on their constituent switches and rect...
The recent demand for increased efficiency in transportation, manufacturing equipment, and power gen...
In this paper, we extend the super junction concept to SiC high voltage devices and further expand t...
Silicon carbide (SiC) power devices offer significant benefits of improved efficiency, dynamic perfo...
International audienceThe development of high voltage devices is a great challenge. At least, railwa...
Silicon carbide (SiC) power devices offer significant benefits of improved efficiency, dynamic perfo...
High power silicon carbide (SiC) semiconductor devices are now commercially available on a fast grow...
Predictions on limits of silicon in power devices have failed spectacularly in the past, but in spit...
A class of vertical 1700-V 4H-SiC superjunction (SJ) Schottky diodes have been simulated and optimiz...
This paper is a theoretical study of the optimum doping concentration for the n and p pillars of a s...
Superjunction has arguably been the most creative and important concept in the power device field si...
This paper discusses the design and simulation of 4H-SiC semi-SJ structures producing results that a...
With superior material properties, Silicon carbide (SiC) power devices show great potential for high...
The increased awareness of the on-going climate change accelerates the electric energy system transf...
Silicon carbide (SiC) is a wide bandgap material with properties that make it an attractive alternat...
Efficiency of power management circuits depends significantly on their constituent switches and rect...
The recent demand for increased efficiency in transportation, manufacturing equipment, and power gen...