Maximum Continuous Collector Current = 48 A Maximum Collector Emitter Voltage = 600 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 111 W Package Type = TO-247GE
Maximum Continuous Collector Current = 48 A Maximum Collector Emitter Voltage = 600 V Maximum Gate Emitter Voltage = ±30V Number of Transistors = 1 Configuration = Single Collector, Single Emitter,...
Maximum Continuous Collector Current = 48 A Maximum Collector Emitter Voltage = 600 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 111 W Configuration = Single Collector, Single ...
Maximum Continuous Collector Current = 48 A Maximum Collector Emitter Voltage = 600 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 111 W Package Type = TO-247GE
Maximum Continuous Collector Current = 65 A Maximum Collector Emitter Voltage = 600 V Maximum Gate Emitter Voltage = ±30V Number of Transistors = 1 Package Type = TO-247GE
Maximum Continuous Collector Current = 65 A Maximum Collector Emitter Voltage = 600 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 148 W Package Type = TO-247GE
Maximum Continuous Collector Current = 65 A Maximum Collector Emitter Voltage = 600 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 148 W Package Type = TO-247GE
Maximum Continuous Collector Current = 65 A Maximum Collector Emitter Voltage = 600 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 148 W Package Type = TO-247GE
Maximum Continuous Collector Current = 30 A Maximum Collector Emitter Voltage = 1200 V Maximum Gate Emitter Voltage = ±30V Number of Transistors = 1 Package Type = TO-247N Pin Count = 3
The ROHM field stop trench IGBT mainly used in general inverter, UPS, PV Inverter and power conditioner. The power dissipation is 267 watts.Low collector - emitter saturation voltage Short circuit ...
Maximum Continuous Collector Current = 30 A Maximum Collector Emitter Voltage = 1200 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 267 W Package Type = TO-247N Pin Count = 3
The ROHM field stop trench IGBT mainly used in general inverter and for automotive and industrial use. The power dissipation is 267 watts.Low collector - emitter saturation voltage Short circuit wi...
Maximum Continuous Collector Current = 30 A Maximum Collector Emitter Voltage = 1200 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 267 W Package Type = TO-247N Pin Count = 3
The ROHM field stop trench IGBT mainly used in PFC, UPS, IH and power conditioner. The power dissipation is 267 watts.Low collector - emitter saturation voltage Short circuit withstand time 10μs Ro...
The ROHM field stop trench IGBT mainly used in as a heater for automotive. The power dissipation is 267 watts.Low collector - emitter saturation voltage Short circuit withstand time 10μs Qualified ...
Maximum Continuous Collector Current = 30 A Maximum Collector Emitter Voltage = 1200 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 267 W Package Type = TO-247N Pin Count = 3
The ROHM field stop trench IGBT mainly used in general inverter, UPS, PV Inverter and power conditioner. The power dissipation is 395 watts.Low collector - emitter saturation voltage Short circuit ...
Maximum Continuous Collector Current = 50 A Maximum Collector Emitter Voltage = 1200 V Maximum Gate Emitter Voltage = ±30V Number of Transistors = 1 Package Type = TO-247N Pin Count = 3
The ROHM field stop trench IGBT mainly used in PFC, UPS, IH and power conditioner. The power dissipation is 395 watts.Low collector - emitter saturation voltage Short circuit withstand time 10μs Ro...
Maximum Continuous Collector Current = 50 A Maximum Collector Emitter Voltage = 1200 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 395 W Package Type = TO-247N Pin Count = 3
The ROHM field stop trench IGBT mainly used in general inverter, UPS, PV Inverter and power conditioner. The power dissipation is 555 watts.Low collector - emitter saturation voltage Short circuit ...
Maximum Continuous Collector Current = 80 A Maximum Collector Emitter Voltage = 1200 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 555 W Configuration = Single Pin Count = 3
The ROHM field stop trench IGBT mainly used in PFC, UPS, IH and power conditioner. The power dissipation is 555 watts.Low collector - emitter saturation voltage Short circuit withstand time 10μs Ro...
Maximum Continuous Collector Current = 80 A Maximum Collector Emitter Voltage = 1200 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 555 W Package Type = TO-247N Pin Count = 3
Maximum Continuous Collector Current = 75 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 404 W Package Type = TO-247N Mounting Type = Th...
Maximum Continuous Collector Current = 75 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 404 W Package Type = TO-247N Mounting Type = Th...
Maximum Continuous Collector Current = 75 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Number of Transistors = 1 Package Type = TO-247N Mounting Type = Through Ho...
Maximum Continuous Collector Current = 75 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Number of Transistors = 1 Package Type = TO-247N Mounting Type = Through Ho...
Maximum Continuous Collector Current = 75 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 404 W Package Type = TO-247N Mounting Type = Th...
Maximum Continuous Collector Current = 75 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 404 W Package Type = TO-247N Mounting Type = Th...
Maximum Continuous Collector Current = 75 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Number of Transistors = 1 Package Type = TO-247N Mounting Type = Through Ho...
Maximum Continuous Collector Current = 75 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 404 W Package Type = TO-247N Mounting Type = Th...
Maximum Continuous Collector Current = 85 Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 2.77 mW Package Type = TO-247GE
Maximum Continuous Collector Current = 85 Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 2.77 mW Package Type = TO-247GE
Maximum Continuous Collector Current = 10 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 106 W Package Type = TO-263L Pin Count = 3
Maximum Continuous Collector Current = 10 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Number of Transistors = 1 Package Type = TO-263L Pin Count = 3
Maximum Continuous Collector Current = 30 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = 30V Maximum Power Dissipation = 133 W Package Type = TO-262 Mounting Type = Thro...
Maximum Continuous Collector Current = 40 Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 1.44 mW Package Type = TO-247GE
Maximum Continuous Collector Current = 40 Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Number of Transistors = 1 Package Type = TO-247GE
Maximum Continuous Collector Current = 48 Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 1.74 mW Configuration = Single
Maximum Continuous Collector Current = 48 Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 1.74 mW Package Type = TO-247GE
Maximum Continuous Collector Current = 55 Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Number of Transistors = 1 Package Type = TO-247GE
Maximum Continuous Collector Current = 55 Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 1.94 mW Package Type = TO-247GE
Maximum Continuous Collector Current = 70 Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 2.34 mW Package Type = TO-247GE
Maximum Continuous Collector Current = 70 Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 2.34 mW Package Type = TO-247GE
Maximum Continuous Collector Current = 85 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Number of Transistors = 1 Package Type = TO-247GE
Maximum Continuous Collector Current = 85 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 277 W Package Type = TO-247GE
Maximum Continuous Collector Current = 40 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 144 W Package Type = TO-247GE
Maximum Continuous Collector Current = 40 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 144 W Package Type = TO-247GE
Maximum Continuous Collector Current = 40 A Maximum Collector Emitter Voltage = 650 V Maximum Gate Emitter Voltage = ±30V Maximum Power Dissipation = 144 W Package Type = TO-247GE