IGBT Module 3300V

YMIBH250-33,IGBT Module,Half Bridge IGBT,CRRC

YMIBH250-33,IGBT Module,Half Bridge IGBT,CRRC

3300V 250A

Brand:

CRRC

Spu:

YMIBH250-33/TIM250PHM33-PSA011

Introduction
Outline

Introduction

Brief introduction

High voltage, Half Bridge IGBT modules produced by CRRC. 3300V 250A.

Key Parameters

VCES	3300 V
VCE(sat) Typ.	2.5 V
IC Max.	250 A
IC(RM) Max.	500 A

Typical Applications

Traction Auxiliaries
Motor Controllers
Choppers
High Reliability Inverter

Features

AISiC Baseplate
AIN Substrates
High Thermal Cycling Capability
10μs Short Circuit Withstand

Absolute Maximum Ratings

Symbol	Parameter	Test Conditions	Value	Unit
VCES	Collector-emitter voltage	VGE = 0V, TC= 25 °C	3300	V
VGES	Gate-emitter voltage	TC= 25 °C	± 20	V
IC	Collector-emitter current	TC = 100 °C	250	A
IC(PK)	Peak collector current	tP=1ms	500	A
Pmax	Max. transistor power dissipation	Tvj = 150°C, TC = 25 °C	2.6	kW
I2t	Diode I2t	VR =0V, tP = 10ms, Tvj = 150 °C	20	kA2s
Visol	Isolation voltage - per module	( Commoned terminals to baseplate), AC RMS,1 min, 50Hz, TC= 25 °C	6	kV
QPD	Partial discharge - per module	IEC1287. V1=6900V,V2=5100V,50Hz RMS	10	pC

Electrical Characteristics

Symbol	Parameter		Test Conditions		Min.	Typ.	Max.	Unit
ICES	Collector cut-off current		VGE = 0V,VCE = VCES				1	mA
			VGE = 0V, VCE = VCES, TC=125 °C				15	mA
			VGE = 0V, VCE = VCES, TC=150 °C				25	mA
IGES	Gate leakage current		VGE = ±20V, VCE = 0V				1	μA
VGE (TH)	Gate threshold voltage		IC = 20mA, VGE = VCE		5.5	6.1	7.0	V
VCE (sat)(*1)	Collector-emitter saturation voltage		VGE =15V, IC = 250A			2.50	2.80	V
			VGE =15V, IC = 250A, Tvj = 125 °C			3.15	3.45	V
			VGE =15V, IC = 250A, Tvj = 125 °C			3.30	3.60	V
IF	Diode forward current		DC			250		A
IFRM	Diode peak forward current		tP = 1ms			500		A
VF(*1)	Diode forward voltage		IF = 250A, VGE = 0			2.10	2.40	V
			IF = 250A, VGE = 0, Tvj = 125 °C			2.25	2.55	V
			IF = 250A, VGE = 0, Tvj = 150 °C			2.25	2.55	V
ISC	Short circuit current		Tvj = 150°C, VCC = 2500V, VGE ≤15V, tp ≤10μs, VCE(max) = VCES – L(*2) ×di/dt, IEC 6074-9			900		A
ICES	Collector cut-off current		VGE = 0V,VCE = VCES				1	mA
			VGE = 0V, VCE = VCES, TC=125 °C				15	mA
			VGE = 0V, VCE = VCES, TC=150 °C				25	mA
IGES	Gate leakage current		VGE = ±20V, VCE = 0V				1	μA
VGE (TH)	Gate threshold voltage		IC = 20mA, VGE = VCE		5.5	6.1	7.0	V
VCE (sat)(*1)	Collector-emitter saturation voltage		VGE =15V, IC = 250A			2.50	2.80	V
			VGE =15V, IC = 250A, Tvj = 125 °C			3.15	3.45	V
			VGE =15V, IC = 250A, Tvj = 125 °C			3.30	3.60	V
IF	Diode forward current		DC			250		A
IFRM	Diode peak forward current		tP = 1ms			500		A
VF(*1)	Diode forward voltage		IF = 250A, VGE = 0			2.10	2.40	V
			IF = 250A, VGE = 0, Tvj = 125 °C			2.25	2.55	V
			IF = 250A, VGE = 0, Tvj = 150 °C			2.25	2.55	V
ISC	Short circuit current		Tvj = 150°C, VCC = 2500V, VGE ≤15V, tp ≤10μs, VCE(max) = VCES – L(*2) ×di/dt, IEC 6074-9			900		A
td(off)	Turn-off delay time	IC =250A, VCE = 1800V, VGE = ±15V, RG(OFF) = 9.0Ω , CGE = 56nF, LS = 150nH,		Tvj= 25 °C		1480		ns
				Tvj= 125 °C		1550
				Tvj= 150 °C		1570
tf	Fall time			Tvj= 25 °C		1280		ns
				Tvj= 125 °C		1920
				Tvj= 150 °C		2120
EOFF	Turn-off energy loss			Tvj= 25 °C		300		mJ
				Tvj= 125 °C		380
				Tvj= 150 °C		400
td(on)	Turn-on delay time	IC =250A, VCE = 1800V, VGE = ±15V, RG(ON) = 6.0Ω , CGE = 56nF, LS = 150nH,		Tvj= 25 °C		640		ns
				Tvj= 125 °C		650
				Tvj= 150 °C		650
tr	Rise time			Tvj= 25 °C		220		ns
				Tvj= 125 °C		235
				Tvj= 150 °C		238
EON	Turn-on energy loss			Tvj= 25 °C		395		mJ
				Tvj= 125 °C		510
				Tvj= 150 °C		565
Qrr	Diode reverse recovery charge	IF =250A, VCE = 1800V, - diF/dt = 1200A/us, (Tvj= 125 °C).		Tvj= 25 °C		190		μC
				Tvj= 125 °C		295
				Tvj= 150 °C		335
Irr	Diode reverse recovery current			Tvj= 25 °C		185		A
				Tvj= 125 °C		210
				Tvj= 150 °C		216
Erec	Diode reverse recovery energy			Tvj= 25 °C		223		mJ
				Tvj= 125 °C		360
				Tvj= 150 °C		410