ROHM has developed the TSC3PAK(14.00 × 18.58 × 3.50mm) package for SiC MOSFETs. By adopting a top-side heat dissipation structure that places the heat dissipation surface on the top of the package, the new productenables automated mounting while achieving heat dissipation performance comparable to that of conventional through-hole packages (TO-247-4L). This contributes to greater efficiency and reliability in power conversion circuits for onboard chargers (OBCs) and electric compressors used in xEVs (electric vehicles).
In xEVs, the adoption of SiC devices is expanding beyond main inverters to include power conversion circuits such as OBCs and electric compressors to improve charging speed and extend cruising range. SiC devices are also increasingly being used in industrial equipment, including high-performance server power supplies and PV inverters, where high-efficiency operation is required.
Conventional SiC devices have generally relied on through-hole packages, which provide excellent heat dissipation during high-power operation.However, through-hole type devicesinvolve manual mounting processes, and their form factor makes it difficult to achieve a lower package profile. Against this backdrop, surface-mount SiC devices compatible with automated mounting have begun gaining adoption.To address these issues, the new TSC3PAK delivers heat dissipation performance comparable to through-hole technologysuch as TO-247 in a surface-mount package.
The new package incorporates ROHM’s proprietary groove structure to secure a class-leading*creepage distance of 6.66mm, allowing it to accommodate an AC peak voltage of 1200V in a Pollution Degree 2 environment while maintaining compatibility with productswidely adopted in the market. By enabling safe insulation design in high-voltage applications, the TSC3PAKalso contributes to reduced mounting costs and higher reliability.
Products using the new package incorporate ROHM’s 4th Generation SiC MOSFETs, achieving low ON resistance and high-speed switching characteristics. As a result, switching losses during power conversion are significantly reduced, contributing to greater application efficiency and lower power consumption.
Mass production started in June 2026. For more details, please contact your sales representative or visit the contact page on ROHM’s website.Simulation models for all new products are available on ROHM’s official website, supporting rapid circuit design evaluation.ROHM will continue to expand its SiC MOSFET lineup, contributing to higher performance, smaller size, and greater reliability in electronic equipment.
Product Lineup
Application Examples
- Automotive Systems: Onboard chargers (OBCs), electric compressors
- Industrial Equipment:PV inverters, server power supplies
EcoSiC™ Brand
EcoSiC™ is a brand of devices that utilize silicon carbide (SiC), which is attracting attention in the power device field for performance that surpasses silicon (Si). ROHM independently develops technologies essential for the evolution of SiC, from wafer fabrication and production processes to packaging, and quality control methods. At the same time, we have established an integrated production system throughout the manufacturing process, solidifying our position as a leading SiC supplier.
*EcoSiC™ is a trademark or registered trademark of ROHM Co., Ltd.
Terminology
Creepage Distance
The shortest distance between two conductive elements (terminals) along the surface of the device package. In semiconductor design, insulation measures with such creepage and clearance distances must be taken to prevent electric shocks, leakage currents, and short-circuits in semiconductor products.
Pollution Degree 2Environment
Pollution Degree 2 corresponds to typical environments such as homes and offices where only dry, non-conductive contaminants are present. Pollution Degree is the grade of the environment that influences the determination of the spatial and creepage distances of components, classified from 1 to 4 according to the presence, amount, and condition of pollutants.
