onsemi Silicon Carbide (SiC) Technology
Silicon Carbide (SiC) Technology
High Performance Power Conversion & EV Charging
onsemi SiC Modules
Benefits SiC technology from onsemi delivers
- Increased reliability
- Reduced system cost & size
- 60% lower part count
- 25% smaller heat sink
- 10x higher dielectric breakdown field strength than Silicon (Si)
- Lower loses, higher efficiency
- 2x higher electron saturation velocity than Silicon (Si)
- Higher switching speed
- 3x higher thermal conductivity than Silicon (Si)
- Higher operating temperature
SiC Product Portfolio Summary Chart
This chart displays various onsemi Technologies including:
- Discretes, Hybrid SiC Modules (IGBTs + SiC Diodes, Full SiC Modules (SiC MOSFETs + SiC Diodes)
- 650V – For On-board xEV, PV inverters, charging stations, PFC/Power Supply (cloud computing)
- 900V – For On-board xEV, PV inverters, charging stations, PFC/Power Supply (cloud computing)
- 1200V – For On-board xEV, PV inverters, charging stations
- 1700V – For charging stations, PV inverters
Benefits SiC technology from onsemi delivers
- Increased reliability
- Reduced system cost & size
- 60% lower part count
- 25% smaller heat sink
- 10x higher dielectric breakdown field strength than Silicon (Si)
- Lower loses, higher efficiency
- 2x higher electron saturation velocity than Silicon (Si)
- Higher switching speed
- 3x higher thermal conductivity than Silicon (Si)
- Higher operating temperature
SiC Product Portfolio Summary Chart
This chart displays various onsemi Technologies including:
- Discretes, Hybrid SiC Modules (IGBTs + SiC Diodes, Full SiC Modules (SiC MOSFETs + SiC Diodes)
- 650V – For On-board xEV, PV inverters, charging stations, PFC/Power Supply (cloud computing)
- 900V – For On-board xEV, PV inverters, charging stations, PFC/Power Supply (cloud computing)
- 1200V – For On-board xEV, PV inverters, charging stations
- 1700V – For charging stations, PV inverters