CoolSiC™ generation 5 represents Infineon’s leading edge technology for SiC Schottky Barrier diodes. The Infineon proprietary diffusion soldering process, already introduced with G3, is now combined with a new, more compact design and thin wafer technology. The result is a new family of products showing improved efficiency over all load conditions, coming from both the improved thermal characteristics and a lower figure of merit (Q c x V f).

CoolSiC™ generation 5 represents Infineon’s leading edge technology for SiC Schottky Barrier diodes. The Infineon proprietary diffusion soldering process, already introduced with G3, is now combined with a new, more compact design and thin wafer technology. The result is a new family of products showing improved efficiency over all load conditions, coming from both the improved thermal characteristics and a lower figure of merit (Q c x V f).

The third generation of Infineon SiC Schottky diodes features the industry’s lowest device capacitance for any given current rating, which further enhances overall system efficiency, especially at higher switching frequencies and under low load conditions. The generation 3 is based on the same technology platform as generation 2 with the introduction, at package level, of the so called diffusion soldering.

The third generation of Infineon SiC Schottky diodes features the industry’s lowest device capacitance for any given current rating, which further enhances overall system efficiency, especially at higher switching frequencies and under low load conditions. The generation 3 is based on the same technology platform as generation 2 with the introduction, at package level, of the so called diffusion soldering.

The third generation of Infineon SiC Schottky diodes features the industry’s lowest device capacitance for any given current rating, which further enhances overall system efficiency, especially at higher switching frequencies and under low load conditions. The generation 3 is based on the same technology platform as generation 2 with the introduction, at package level, of the so called diffusion soldering.

The third generation of Infineon SiC Schottky diodes features the industry’s lowest device capacitance for any given current rating, which further enhances overall system efficiency, especially at higher switching frequencies and under low load conditions. The generation 3 is based on the same technology platform as generation 2 with the introduction, at package level, of the so called diffusion soldering.

The third generation of Infineon SiC Schottky diodes features the industry’s lowest device capacitance for any given current rating, which further enhances overall system efficiency, especially at higher switching frequencies and under low load conditions. The generation 3 is based on the same technology platform as generation 2 with the introduction, at package level, of the so called diffusion soldering.

The third generation of Infineon SiC Schottky diodes features the industry’s lowest device capacitance for any given current rating, which further enhances overall system efficiency, especially at higher switching frequencies and under low load conditions. The generation 3 is based on the same technology platform as generation 2 with the introduction, at package level, of the so called diffusion soldering.

The third generation of Infineon SiC Schottky diodes features the industry’s lowest device capacitance for any given current rating, which further enhances overall system efficiency, especially at higher switching frequencies and under low load conditions. The generation 3 is based on the same technology platform as generation 2 with the introduction, at package level, of the so called diffusion soldering.

The third generation of Infineon SiC Schottky diodes features the industry’s lowest device capacitance for any given current rating, which further enhances overall system efficiency, especially at higher switching frequencies and under low load conditions. The generation 3 is based on the same technology platform as generation 2 with the introduction, at package level, of the so called diffusion soldering.