Add to ORKGSilicon carbide (SiC) devices have been adopted to push the boundaries further in terms of power density, conversion efficiency, switching speed or thermal capability. To have the benefit of such semiconductors, new packaging should be developed to meet all the advantages. In this paper, we present a reliable integrated concept of a new packaging solution for multi-chip SiC devices aiming to have a very low parasitic inductance in order to have high switching frequencies and ensure a good reliability for long-term operation
The development of very fast switching semiconductors based on silicon carbide (SiC) offers many opp...
Pressure contact packages have demonstrated an improved reliability for silicon devices due to the e...
This paper presents a vision for the future of 3D packaging and integration of silicon carbide (SiC)...
Silicon carbide (SiC) devices have been adopted to push the boundaries further in terms of power den...
This paper presents a novel packaging structure which employs stacked substrate and flexible printed...
This paper presents a novel packaging structure which employs stacked substrate and flexible printed...
The switching speed of power semiconductors has reached levels where conventional semiconductors pac...
The switching speed of power semiconductors has reached levels where conventional semiconductors pac...
This paper presents a novel packaging structure which employs stacked substrate and flexible printed...
The switching speed of power semiconductors has reached levels where conventional semiconductors pac...
SiC devices are promising for outperforming Si counterparts in high-frequency applications due to it...
Abstract Silicon carbide (SiC) device has become the primary choice for high‐efficiency power electr...
Silicon Carbide (SiC) MOSFETs offer excellent properties as switches in power converters. However, t...
SiC devices are promising for outperforming Si counterparts in high-frequency applications due to it...
SiC devices are promising for outperforming Si counterparts in high-frequency applications due to it...
The development of very fast switching semiconductors based on silicon carbide (SiC) offers many opp...
Pressure contact packages have demonstrated an improved reliability for silicon devices due to the e...
This paper presents a vision for the future of 3D packaging and integration of silicon carbide (SiC)...
Silicon carbide (SiC) devices have been adopted to push the boundaries further in terms of power den...
This paper presents a novel packaging structure which employs stacked substrate and flexible printed...
This paper presents a novel packaging structure which employs stacked substrate and flexible printed...
The switching speed of power semiconductors has reached levels where conventional semiconductors pac...
The switching speed of power semiconductors has reached levels where conventional semiconductors pac...
This paper presents a novel packaging structure which employs stacked substrate and flexible printed...
The switching speed of power semiconductors has reached levels where conventional semiconductors pac...
SiC devices are promising for outperforming Si counterparts in high-frequency applications due to it...
Abstract Silicon carbide (SiC) device has become the primary choice for high‐efficiency power electr...
Silicon Carbide (SiC) MOSFETs offer excellent properties as switches in power converters. However, t...
SiC devices are promising for outperforming Si counterparts in high-frequency applications due to it...
SiC devices are promising for outperforming Si counterparts in high-frequency applications due to it...
The development of very fast switching semiconductors based on silicon carbide (SiC) offers many opp...
Pressure contact packages have demonstrated an improved reliability for silicon devices due to the e...
This paper presents a vision for the future of 3D packaging and integration of silicon carbide (SiC)...