SILICON CARBIDE (SiC) MOSFETs
Revolutionizing Power Efficiency
Silicon Carbide (SiC) MOSFETs are pivotal in power electronics, offering superior efficiency, high-voltage operation, and thermal resilience compared to silicon MOSFETs. Our SiC MOSFETs redefine power electronics, delivering unmatched efficiency and reliability for electric vehicles, renewable energy, and industrial systems. Engineered through our Singapore-Taiwan partnership, leveraging Taiwan’s 46% global semiconductor foundry capacity, our SiC MOSFETs offer low on-resistance, high switching frequencies, and superior thermal performance.
Designed for automotive, industrial, and energy applications, they enable compact, high-efficiency designs with up to 98% power conversion efficiency. With 6-inch and emerging 8-inch wafer production, our SiC MOSFETs power your next-generation systems with cutting-edge efficiency and durability.
SiC MOSFETs 750V
Our SiC MOSFETs
SiC MOSFET 650V / 1200V DPAK
SiC MOSFET 650V / 1200V TO247-3L
SiC MOSFET 650V / 1200V TO247-4L
SiC MOSFET 650V / 1200V TO263-7L
SiC MOSFET 650V / 1200V TOLT
SiC MOSFET 650V / 1200V TOLL
SiC MOSFET 650V / 1200V Thin-TOLL
We provide fully customizable SiC MOSFETs to meet your specific requirements, including tailored voltage ratings, on-resistance values, and package options like TO247 or TO263. Contact us today for a personalized quote and explore how our solutions can elevate your projects in automotive, renewable energy, and industrial applications.
SiC MOSFETs 1200V
Image shown is a representation only. Exact specifications should be obtained from the product data sheet.
SiC MOSFETs 650V
WHY CHOOSE SiC MOSFETs?
Unmatched Efficiency
>98% power conversion efficiency reduces energy costs in EVs and renewable energy systems.
Compact Power Solutions
50% smaller modules enable lightweight, space-saving designs for automotive and industrial applications.
High-Temperature Operation
175°C capability ensures reliability in harsh environments like EV powertrains.
Fast Switching
>50 kHz operation supports rapid EV charging and compact power supplies.
Market Leadership
Aligned with the $33.7 billion SiC MOSFET market’s 29.9% CAGR, driving innovation in power electronics.
WHY CHOOSE US?
Our SiC MOSFETs lead in a competitive market, powered by Singapore’s market agility and Taiwan’s world-class semiconductor expertise. Here’s why global buyers trust us:
Superior Quality
Partnering with Taiwanese foundries like TSMC, we deliver AEC-Q101-certified SiC MOSFETs with R_DS(on) as low as 1.8 mΩ·cm², meeting JEDEC standards for automotive and industrial applications.
Cost Optimization
8-inch wafer adoption and optimized trench designs reduce costs by up to 20%, addressing buyer concerns about SiC’s high cost vs. silicon.
Custom Solutions
Tailored voltage (650V–1700V) and package options (TO-247, DPAK) meet specific project needs, mirroring key player’s application-specific approach.
Sustainability Focus
High-efficiency SiC MOSFETs reduce energy losses by 50%, supporting green initiatives in EVs and renewables.
Advanced Manufacturing
Using 6-inch wafers with 8-inch transitions, we match key manufacturer’s yield improvements (5–10% higher) for cost-efficient production.
Reliable Supply Chain
Unlike competitors facing 20% supply shortages, our vertically integrated supply chain, inspired by STMicroelectronics’ Catania campus, ensures consistent delivery and extended longevity programs.
Global Trust
Certified to ISO 9001, ISO 14001, RoHS, and REACH, our MOSFETs are trusted by OEMs in 50+ countries, backed by Taiwan’s 46% foundry share.
Contact Us: Ready to enhance your systems with our SiC MOSFETs? Click below to request a quote or discuss custom specifications.
SPECIFICATIONS
Material: 4H-SiC (wide bandgap semiconductor, 3.26 eV)
Voltage Ratings: 650V, 1200V, 1700V (customizable for high-power applications)
On-Resistance (R_DS(on)): As low as 1.8 mΩ·cm² at 1200V (best-in-class efficiency)
Switching Frequency: >50 kHz (low switching losses for high-frequency applications)
Operating Temperature: -55°C to 175°C (robust for automotive and industrial use)
Breakdown Electric Field: 2.5–3 MV/cm (10x silicon for high-voltage operation)
Thermal Conductivity: 370 W/m·K (3x silicon for superior heat dissipation)
Gate Threshold Voltage (V_GS(th)): 2.5–4.5V (optimized for low power loss)
Current Ratings: 20A–100A (scalable for EV inverters and industrial drives)
Package Types: TO-247-4L, DPAK, bare die (automotive-grade, JEDEC-compliant)
Certifications: AEC-Q101, ISO 9001, RoHS, REACH
Packaging: Anti-static, vacuum-sealed in Class 100 cleanroom for reliability
Contact Us: Inquire about custom specifications or pricing. Click below to connect with our team.
STANDOUT FEATURES
Low On-Resistance
1.8 mΩ·cm² at 1200V reduces conduction losses, enhancing efficiency in EV inverters.
Wide Band Gap
SiC’s 3.26 eV band gap (vs. silicon’s 1.12 eV) enables high-voltage operation (up to 1700V) with minimal leakage.
Chemical Stability
SiC resists degradation from acids, alkalis, and molten salts up to 800°C, unlike silicon, which fails at lower thresholds.
Scalable Production
6-inch wafers with 8-inch transition, boosting chip yield and cost efficiency for our MOSFETs.
Superior Electron Mobility
High electron drift velocity (2x silicon) enables faster switching and lower losses in MOSFETs and diodes.
High Switching Frequency
>50 kHz minimizes switching losses, ideal for compact power supplies and solar inverters.
High Breakdown Field
2.5–3 MV/cm (10x silicon) enables robust high-voltage devices, ideal for 800V EV platforms.
Thermal Conductivity
370 W/m·K (vs. silicon’s 130 W/m·K) improves heat dissipation, reducing cooling costs.
ADDITIONAL BENEFITS
High Efficiency
>98% power conversion efficiency reduces energy losses in EV chargers and solar inverters.
Reliability
AEC-Q101 certification ensures durability in automotive and industrial applications.
Compact Designs
50% smaller power modules due to high power density, ideal for EVs and data centers.
Contact Us: Discover how our SiC MOSFETs can optimize your systems. Click below for a quote.
Thermal Resilience
Operates at 175°C, extending lifespan in high-temperature environments like automotive powertrains.
Fast Charging
Enables 20% faster EV charging with high-frequency operation, reducing downtime.
Sustainability
Enables energy-efficient systems, reducing CO2 emissions by 78% in EVs compared to gasoline vehicles.
INDUSTRIES & SYSTEMS USING SiC MOSFETs
Traction Inverters
On-board Chargers
DC-DC Converters
Fast Charging Stations
Battery Management Systems
Auxiliary Power Units
Solar Inverters
String Inverters
Central Inverters
Micro Inverters
Wind Turbine Converters
Hybrid Inverters
Battery Energy Storage Systems
HVDC Converters
Static Var Compensators
Flexible AC Transmission Systems
Grid Tie Inverters
Substation Power Converters
Server Power Supplies
Power Distribution Units
Industries
Automotive / EVs
Renewable Energy
Power Management
Telecommunications
Data Centers
Aerospace
Military & Defense
Industrial Automation
Systems / Devices
Our SiC MOSFETs
SiC MOSFET 650V / 1200V DPAK
SiC MOSFET 650V / 1200V TO247-3L
SiC MOSFET 650V / 1200V TO247-4L
SiC MOSFET 650V / 1200V TO263-7L
SiC MOSFET 650V / 1200V TOLT
SiC MOSFET 650V / 1200V TOLL
SiC MOSFET 650V / 1200V Thin-TOLL
Semiconductor Manufacturing
Mining
Oil & Gas
Marine
Consumer Electronics
Medical
Research & Development
Chemical Process
Telecom Rectifiers
Telecom Power Supplies
Uninterruptible Power Supplies
Avionics Power Converters
Satellite Power Conditioners
Spacecraft Power Systems
Electric Aircraft Inverters
Radar Power Modules
Mobile Power Units
Directed Energy Power Supplies
Motor Drives
Variable Frequency Drives
Servo Drives
CNC Drives
Industrial Power Supplies
Conveyor Drives
Downhole Power Controllers
Drilling Motor Drives
Subsea Power Converters
Wellhead Control Power Supplies
At Supreme Pro, we provide fully customizable SiC MOSFETs to meet your specific requirements, including tailored voltage ratings, on-resistance values, and package options like TO-247 or DPAK. Contact us today for a personalized quote and explore how our solutions can elevate your projects in automotive, renewable energy, and industrial applications.
Ship Propulsion Inverters
Marine Auxiliary Power
Onboard Power Systems
Rail Traction Converters
Auxiliary Converters
Depot Charging Stations
Fast Chargers
High Power Adapters
Power Banks
Imaging Power Supplies
Radiation Therapy Power Supplies
Laboratory Power Supplies
Power Electronics Testbeds
Prototype Inverter Platforms
Wafer Fabrication Power Supplies
Epitaxy Power Systems
CVD Power Supplies
Reactor Power Controllers
Process Heating Controllers
Electrolysis Power Supplies