Power Semiconductors
Driving the Future of Efficient Power
Power semiconductors are specialized electronic components engineered to handle high voltages, currents, and power levels with exceptional efficiency. These devices, leveraging advanced wide-bandgap materials, form the core of modern power electronics—from electric vehicle traction systems and renewable energy converters to high-efficiency industrial drives and data center power supplies.
Why Power Semiconductors?
High Efficiency & Low Losses – Achieve superior energy conversion with minimal conduction and switching losses.
Fast Switching Speeds – Support higher frequencies for smaller, lighter systems and reduced heat generation.
Thermal & Voltage Robustness – Excel in high-temperature and high-voltage environments, enhancing reliability.
Enables Sustainable Innovations – Key for reducing carbon footprints in electrification and renewable integration.
Industries Served
Electric Vehicles & E-Mobility
Renewable Energy & Smart Grid Infrastructure
Aerospace, Defense & Space Applications
Consumer Electronics & Charging Solutions
Industrial IoT, Automation & Sensing
Data Centers & High-Speed Computing
Applications
Power Electronics – DC-DC converters, EV traction inverters, solar and wind inverters (SiC MOSFETs, GaN HEMTs)
Rectification Systems – High-efficiency diodes in power supplies and chargers (SiC Diodes)
High-Power Switching – Motor drives, traction systems, and industrial automation (SiC MOSFETs, GaN HEMTs)
Energy Management – Battery chargers, grid-tie inverters, and energy storage solutions (SiC MOSFETs, SiC Diodes, GaN HEMTs)
Consumer & Data Center Power – Fast chargers and efficient PSUs for electronics and servers (GaN HEMTs, SiC Diodes)
Why Choose Power Semiconductors?
Power semiconductors deliver what traditional silicon cannot—ultra-high efficiency, compact designs, and unmatched thermal performance. They are the material foundation for transformative power management, securing the future of sustainable energy, mobility, and computing. Upgrading to power semiconductors means staying ahead in the efficiency curve. Click below to learn more about power semiconductors.
