Discrete IGBT Fuji Electric FGW40N120HD designed for loss and high speed

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Description	TO-247 Single IGBTs RoHS
Mfr. Part #	FGW40N120HD
Package	TO-247
Model Number	FGW40N120HD

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Product Specification


Description	TO-247 Single IGBTs RoHS	Mfr. Part #	FGW40N120HD
Package	TO-247	Model Number	FGW40N120HD

Fuji Electric FGW40N120HD Discrete IGBT

The FGW40N120HD is a high-speed V series Discrete IGBT designed for applications requiring low power loss, low switching surge, and high reliability. It offers excellent ruggedness, including RBSOA and SCSOA capabilities. This IGBT is suitable for use in uninterruptible power supplies, power conditioners, and power factor correction circuits.

Product Attributes

Brand: Fuji Electric
Product Type: Discrete IGBT (High-Speed V series)

Technical Specifications

Item	Symbol	Conditions	Units	min.	typ.	max.	Remarks
Absolute Maximum Ratings
Collector-Emitter Voltage	VCES		V			1200
Gate-Emitter Voltage	VGES	DC	V			±20
Collector Current	IC@25	TC=25°C,Tj=150°C	A			70
Collector Current	IC@100	TC=100°C,Tj=150°C	A			40
Pulsed Collector Current	ICP		A			120	Note *1
Turn-Off Safe Operating Area		VCE≤1200V,Tj≤175°C	A			120
Diode Forward Current	IF@25	TC=25°C,Tj=150°C	A			52
Diode Forward Current	IF@100	TC=100°C,Tj=150°C	A			30
Diode Pulsed Current	IFP		A			120	Note *1
Short Circuit Withstand Time	tSC	VCC≤600V,VGE=12V Tj≤150°C	µs			5
IGBT Max. Power Dissipation	PD_IGBT	TC=25°C	W			340
FWD Max. Power Dissipation	PD_FWD	TC=25°C	W			190
Operating Junction Temperature	Tj		°C	-40		+175
Storage Temperature	Tstg		°C	-55		+175
Electrical Characteristics
Collector-Emitter Breakdown Voltage	V(BR)CES	IC = 50µA, VGE = 0V	V	1200
Zero Gate Voltage Collector Current	ICES	VCE = 1200V, VGE = 0V	µA			250	Tj=25°C
Zero Gate Voltage Collector Current	ICES	VCE = 1200V, VGE = 0V	mA			2	Tj=175°C
Gate-Emitter Leakage Current	IGES	VCE = 0V, VGE = ±20V	nA			200
Gate-Emitter Threshold Voltage	VGE (th)	VCE = +20V, IC = 40mA	V	4.0	5.0	6.0
Collector-Emitter Saturation Voltage	VCE (sat)	VGE = +15V, IC = 40A	V		1.8	2.34	Tj=25°C
Collector-Emitter Saturation Voltage	VCE (sat)	VGE = +15V, IC = 40A	V		2.3		Tj=175°C
Input Capacitance	Cies	VCE=25V VGE=0V f=1MHz	pF		3000
Output Capacitance	Coes		pF		130
Reverse Transfer Capacitance	Cres		pF		100
Gate Charge	QG	VCC = 600V IC = 40A VGE = 15V	nC		300
Turn-On Delay Time	td(on)	VCC = 600V IC = 40A VGE = 15V RG = 10Ω L = 500µH	ns		35		Tj = 25°C
Rise Time	tr	VCC = 600V IC = 40A VGE = 15V RG = 10Ω L = 500µH	ns		60		Tj = 25°C
Turn-Off Delay Time	td(off)	VCC = 600V IC = 40A VGE = 15V RG = 10Ω L = 500µH	ns		315		Tj = 25°C
Fall Time	tf	VCC = 600V IC = 40A VGE = 15V RG = 10Ω L = 500µH	ns		40		Tj = 25°C
Turn-On Energy	Eon	VCC = 600V IC = 40A VGE = 15V RG = 10Ω L = 500µH	mJ		2.8		Tj = 25°C
Turn-Off Energy	Eoff	VCC = 600V IC = 40A VGE = 15V RG = 10Ω L = 500µH	mJ		1.8		Tj = 25°C
Turn-On Delay Time	td(on)	VCC = 600V IC = 40A VGE = 15V RG = 10Ω L = 500µH	ns		35		Tj = 175°C
Rise Time	tr	VCC = 600V IC = 40A VGE = 15V RG = 10Ω L = 500µH	ns		60		Tj = 175°C
Turn-Off Delay Time	td(off)	VCC = 600V IC = 40A VGE = 15V RG = 10Ω L = 500µH	ns		350		Tj = 175°C
Fall Time	tf	VCC = 600V IC = 40A VGE = 15V RG = 10Ω L = 500µH	ns		75		Tj = 175°C
Turn-On Energy	Eon	VCC = 600V IC = 40A VGE = 15V RG = 10Ω L = 500µH	mJ		4.8		Tj = 175°C
Turn-Off Energy	Eoff	VCC = 600V IC = 40A VGE = 15V RG = 10Ω L = 500µH	mJ		3.0		Tj = 175°C
FWD Characteristics
Forward Voltage Drop	VF	IF=30A	V		2.2	2.8	Tj=25°C
Forward Voltage Drop	VF	IF=30A	V		1.8		Tj=175°C
Diode Reverse Recovery Time	trr1	VCC=30V,IF = 3.0A -di/dt=200A/µs	ns		49
Diode Reverse Recovery Time	trr2	VCC=600V IF=30A -diF/dt=200A/µs	µs	0.44			Tj=25°C
Diode Reverse Recovery Charge	Qrr	VCC=600V IF=30A -diF/dt=200A/µs	µC		1.35		Tj=25°C
Diode Reverse Recovery Time	trr2	VCC=600V IF=30A -diF/dt=200A/µs	µs		0.70		Tj=175°C
Diode Reverse Recovery Charge	Qrr	VCC=600V IF=30A -diF/dt=200A/µs	µC		6.00		Tj=175°C
Thermal Resistance Characteristics
Thermal Resistance, Junction-Ambient	Rth(j-a)		°C/W			50
Thermal Resistance, IGBT Junction to Case	Rth(j-c)_IGBT		°C/W			0.439
Thermal Resistance, FWD Junction to Case	Rth(j-c)_FWD		°C/W			0.781

2511211130_Fuji-Electric-FGW40N120HD_C35616290.pdf

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