Utilizing XPT™ thin-wafer technology and 4th generation (GenX4™) Trench IGBT process, these 1200V devices helps to reduced gate driver requirements and conduction losses. It features reduced thermal resistance, low losses, high current densities and low gate charge requirement. A positive collector-to-emitter voltage temperature coefficient enables designers to use multiple devices in parallel.Features: Low on-state voltages Vcesat Optimized for medium switching frequencies 10kHz up to 30kHz Positive thermal coefficient of Vcesat International standard packages Applications: Battery chargers Power inverters Power Factor Correction (PFC) circuits Uninterruptible power supplies (UPS) Welding machines Advantages: Ideal for high power density and high inrush currents, low loss applications Hard-switching capable Easy paralleling of devices Reduced gate driver requirements Ease of replacement and availability of isolation package Low gate drive requirements
Utilizing XPT™ thin-wafer technology and 4th generation (GenX4™) Trench IGBT process, these 1200V devices helps to reduced gate driver requirements and conduction losses. It features reduced thermal resistance, low losses, high current densities and low gate charge requirement. A positive collector-to-emitter voltage temperature coefficient enables designers to use multiple devices in parallel.Features: Low on-state voltages Vcesat Optimized for medium switching frequencies 10kHz up to 30kHz Positive thermal coefficient of Vcesat International standard packages Applications: Battery chargers Power inverters Power Factor Correction (PFC) circuits Uninterruptible power supplies (UPS) Welding machines Advantages: Ideal for high power density and high inrush currents, low loss applications Hard-switching capable Easy paralleling of devices Reduced gate driver requirements Ease of replacement and availability of isolation package Low gate drive requirements