Rated at 4A, 6A, 8A, 10A, and 12A, the DSCxxA065LP series is housed in the ultra-thermally efficient T-DFN8080-4 package and is designed for high-efficiency power switching applications, such as DC to DC and AC to DC conversion, renewable energy, data centres (especially those that process heavy artificial intelligence (AI) workloads), and industrial motor drives.
The low FOM, calculated as FOM=QC×VF, is attributed to:
- Negligible switching losses, thanks to the absence of reverse recovery current and low capacitive charge (QC), and
- Low forward voltage (VF) minimising conduction losses, enhancing overall power efficiency.
These characteristics make them suitable for high-speed switching circuits.
The high-performance SiC diodes are also notable for their low reverse leakage (IR) at 20µA (max.) which minimises heat dissipation and conduction losses, improving system stability and reliability, particularly in comparison to silicon Schottky devices. This reduction in heat dissipation also lowers cooling costs and operating expenses.
The compact and low-profile T-DFN8080-4 (typ. 8mm x 8mm x 1mm) surface mount package incorporates a large underside heat pad, which reduces thermal resistance. Requiring less board space and providing a larger heat pad, the T‑DFN8080-4 is a suitable alternative to the TO252 (DPAK). This benefits circuit designs by increasing power density, reducing overall solution size, and lowering the cooling budget.
The 4A DSC04A065LP, 6A DSC06A065LP, 8A DSC08A065LP, 10A DSC10A065LP, and 12A DSC12A065LP are now available.
