FF450R12ME4B11BPSA2

IGBT Module, Dual, 675 A, 1.75 V, 2.25 kW, 150 °C, Module

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Manufacturer: INFINEON
Product type: IGBT Modules
SVHC: No SVHC (25-Jun-2025)
Product Range: EconoDUAL 3
IGBT Technology: IGBT 4 [Trench/Field Stop]
IGBT Termination: Press Fit
Power Dissipation: 2.25kW
IGBT Configuration: Dual
Transistor Mounting: Panel
DC Collector Current: 675A
Power Dissipation Pd: 2.25kW
Transistor Case Style: Module
Operating Temperature Max: 150°C
Junction Temperature Tj Max: 150°C
Continuous Collector Current: 675A
Collector Emitter Voltage Max: 1.2kV
Collector Emitter Voltage V(br)ceo: 1.2kV
Collector Emitter Saturation Voltage: 1.75V
Collector Emitter Saturation Voltage Vce(on): 1.75V

Delivery and price
Units per pack	10
Price	123.48 €
Current stock	10+
Lead time	30 days

Datasheet

IGBT-Module IGBT-modules 

## FF450R12ME4_B11 

VCES = 1200V IC nom = 450A / ICRM = 900A 

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1 

## Technische�Information�/�Technical�Information 

IGBT-Module IGBT-modules FF450R12ME4_B11 

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## **Vorläufige�Daten Preliminary�Data** 

## **IGBT,Wechselrichter�/�IGBT,Inverter Höchstzulässige�Werte�/�Maximum�Rated�Values** 

|TechnischeInformation/TechnicalInformation<br>FF450R12ME4_B11<br>IGBT-Module<br>IGBT-modules||
|---|---|
|preparedby:MB<br>approvedby:MK<br>dateofpublication:2013-11-05<br>revision:2.0<br>**VorläufigeDaten**<br>**PreliminaryData**<br>**IGBT,Wechselrichter/IGBT,Inverter**<br>**HöchstzulässigeWerte/MaximumRatedValues**<br>Kollektor-Emitter-Sperrspannung<br>Collector-emittervoltage<br>Tvj= 25°C<br>VCES<br>1200<br>V<br>Kollektor-Dauergleichstrom<br>ContinuousDCcollectorcurrent<br>TC= 100°C, Tvj max= 175°C<br>TC= 25°C, Tvj max= 175°C<br>IC nom<br>IC<br>450<br>675<br>A<br>A<br>PeriodischerKollektor-Spitzenstrom<br>Repetitivepeakcollectorcurrent<br>tP= 1 ms<br>ICRM<br>900<br>A<br>Gesamt-Verlustleistung<br>Totalpowerdissipation<br>TC= 25°C, Tvj max= 175°C<br>Ptot<br>2250<br>W<br>Gate-Emitter-Spitzenspannung<br>Gate-emitterpeakvoltage<br>VGES<br>+/-20<br>V<br>**CharakteristischeWerte/CharacteristicValues**<br>min.<br>typ.<br>max.<br>Kollektor-Emitter-Sättigungsspannung<br>Collector-emittersaturationvoltage<br>IC= 450 A, VGE= 15 V<br>IC= 450 A, VGE= 15 V<br>IC= 450 A, VGE= 15 V<br>VCE sat<br>1,75<br>2,00<br>2,05<br>2,10<br>V<br>V<br>V<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>Gate-Schwellenspannung<br>Gatethresholdvoltage<br>IC= 17,0 mA, VCE= VGE, Tvj= 25°C<br>VGEth<br>5,2<br>5,8<br>6,4<br>V<br>Gateladung<br>Gatecharge<br>VGE= -15 V ... +15 V<br>QG<br>3,30<br>µC<br>InternerGatewiderstand<br>Internalgateresistor<br>Tvj= 25°C<br>RGint<br>1,7<br>Ω<br>Eingangskapazität<br>Inputcapacitance<br>f = 1 MHz, Tvj= 25°C, VCE= 25 V, VGE= 0 V<br>Cies<br>28,0<br>nF<br>Rückwirkungskapazität<br>Reversetransfercapacitance<br>f = 1 MHz, Tvj= 25°C, VCE= 25 V, VGE= 0 V<br>Cres<br>1,55<br>nF<br>Kollektor-Emitter-Reststrom<br>Collector-emittercut-offcurrent<br>VCE= 1200 V, VGE= 0 V, Tvj= 25°C<br>ICES<br>3,0<br>mA<br>Gate-Emitter-Reststrom<br>Gate-emitterleakagecurrent<br>VCE= 0 V, VGE= 20 V, Tvj= 25°C<br>IGES<br>400<br>nA<br>Einschaltverzögerungszeit,induktiveLast<br>Turn-ondelaytime,inductiveload<br>IC= 450 A, VCE= 600 V<br>VGE= ±15 V<br>RGon= 1,3Ω<br>td on<br>0,19<br>0,22<br>0,22<br>µs<br>µs<br>µs<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>Anstiegszeit,induktiveLast<br>Risetime,inductiveload<br>IC= 450 A, VCE= 600 V<br>VGE= ±15 V<br>RGon= 1,3Ω<br>tr<br>0,06<br>0,07<br>0,07<br>µs<br>µs<br>µs<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>Abschaltverzögerungszeit,induktiveLast<br>Turn-offdelaytime,inductiveload<br>IC= 450 A, VCE= 600 V<br>VGE= ±15 V<br>RGoff= 1,3Ω<br>td off<br>0,49<br>0,58<br>0,62<br>µs<br>µs<br>µs<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>Fallzeit,induktiveLast<br>Falltime,inductiveload<br>IC= 450 A, VCE= 600 V<br>VGE= ±15 V<br>RGoff= 1,3Ω<br>tf<br>0,08<br>0,11<br>0,12<br>µs<br>µs<br>µs<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>EinschaltverlustenergieproPuls<br>Turn-onenergylossperpulse<br>IC= 450 A, VCE= 600 V, LS= 35 nH<br>VGE= ±15 V, di/dt = 7000 A/µs (Tvj= 150°C)<br>RGon= 1,3Ω<br>Eon<br>15,0<br>26,0<br>28,5<br>mJ<br>mJ<br>mJ<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>AbschaltverlustenergieproPuls<br>Turn-offenergylossperpulse<br>IC= 450 A, VCE= 600 V, LS= 35 nH<br>VGE= ±15 V, du/dt = 3100 V/µs (Tvj= 150°C)<br>RGoff= 1,3Ω<br>Eoff<br>38,0<br>55,5<br>61,5<br>mJ<br>mJ<br>mJ<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>Kurzschlußverhalten<br>SCdata<br>VGE ≤15 V, VCC= 800 V<br>VCEmax= VCES-LsCE·di/dt<br>ISC<br>1800<br>A<br>Tvj= 150°C<br>tP ≤10 µs,<br>Wärmewiderstand,ChipbisGehäuse<br>Thermalresistance,junctiontocase<br>proIGBT/perIGBT<br>RthJC<br>0,066 K/W<br>Wärmewiderstand,GehäusebisKühlkörper<br>Thermalresistance,casetoheatsink<br>proIGBT/perIGBT<br>λPaste=1W/(m·K)/λgrease=1W/(m·K)<br>RthCH<br>0,03<br>K/W<br>TemperaturimSchaltbetrieb<br>Temperatureunderswitchingconditions<br>Tvj op<br>-40<br>150<br>°C||



2 

## Technische�Information�/�Technical�Information 

IGBT-Module IGBT-modules FF450R12ME4_B11 

**==> picture [86 x 38] intentionally omitted <==**

**Vorläufige�Daten Preliminary�Data** 

## **Diode,�Wechselrichter�/�Diode,�Inverter** 

## **Höchstzulässige�Werte�/�Maximum�Rated�Values** 

|PeriodischeSpitzensperrspannung<br>Repetitivepeakreversevoltage|Tvj= 25°C|VRRM|1200|V|
|---|---|---|---|---|
|Dauergleichstrom<br>ContinuousDCforwardcurrent||IF|450|A|
|PeriodischerSpitzenstrom<br>Repetitivepeakforwardcurrent|tP= 1 ms|IFRM|900|A|
|Grenzlastintegral<br>I²t-value|VR= 0 V, tP= 10 ms, Tvj= 125°C<br>VR= 0 V, tP= 10 ms, Tvj= 150°C|I²t|35000<br>28500<br>|A²s<br>A²s|



## **Charakteristische�Werte�/�Characteristic�Values** 

||||||||
|---|---|---|---|---|---|---|
|**CharakteristischeWerte/CharacteristicValues**|||min.|typ.|max.||
|Durchlassspannung<br>Forwardvoltage|IF= 450 A, VGE= 0 V<br>IF= 450 A, VGE= 0 V<br>IF= 450 A, VGE= 0 V<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C|VF||1,65<br>1,65<br>1,65|2,10|V<br>V<br>V|
|Rückstromspitze<br>Peakreverserecoverycurrent|IF= 450 A, - diF/dt = 7000 A/µs (Tvj=150°C)<br>VR= 600 V<br>VGE= -15 V<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C|IRM||450<br>550<br>575||A<br>A<br>A|
|Sperrverzögerungsladung<br>Recoveredcharge|IF= 450 A, - diF/dt = 7000 A/µs (Tvj=150°C)<br>VR= 600 V<br>VGE= -15 V<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C|Qr||48,0<br>92,0<br>105||µC<br>µC<br>µC|
|AbschaltenergieproPuls<br>Reverserecoveryenergy|IF= 450 A, - diF/dt = 7000 A/µs (Tvj=150°C)<br>VR= 600 V<br>VGE= -15 V<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C|Erec||26,5<br>48,5<br>55,0||mJ<br>mJ<br>mJ|
|Wärmewiderstand,ChipbisGehäuse<br>Thermalresistance,junctiontocase|proDiode/perdiode|RthJC|||0,10|K/W|
|Wärmewiderstand,GehäusebisKühlkörper<br>Thermalresistance,casetoheatsink|proDiode/perdiode<br>λPaste=1W/(m·K)/λgrease=1W/(m·K)|RthCH||0,045||K/W|
|TemperaturimSchaltbetrieb<br>Temperatureunderswitchingconditions||Tvj op|-40||150|°C|



## **NTC-Widerstand�/�NTC-Thermistor** 

## **Charakteristische�Werte�/�Characteristic�Values** 

|**NTC-Widerstand/NTC-Thermistor**<br>|**NTC-Widerstand/NTC-Thermistor**<br>||||||
|---|---|---|---|---|---|---|
|**CharakteristischeWerte/CharacteristicValues**|||min.<br>typ.||max.||
|Nennwiderstand<br>Ratedresistance|TC= 25°C|R25||5,00||kΩ|
|AbweichungvonR100<br>DeviationofR100|TC= 100°C, R100= 493Ω|∆R/R|-5||5|%|
|Verlustleistung<br>Powerdissipation|TC= 25°C|P25|||20,0|mW|
|B-Wert<br>B-value|R2= R25exp [B25/50(1/T2- 1/(298,15 K))]|B25/50||3375||K|
|B-Wert<br>B-value|R2= R25exp [B25/80(1/T2- 1/(298,15 K))]|B25/80||3411||K|
|B-Wert<br>B-value|R2= R25exp [B25/100(1/T2- 1/(298,15 K))]|B25/100||3433||K|



Angaben�gemäß�gültiger�Application�Note. Specification�according�to�the�valid�application�note. 

prepared�by:�MB date�of�publication:�2013-11-05 approved�by:�MK revision:�2.0 

3 

IGBT-Module IGBT-modules 

## FF450R12ME4_B11 

|Modul / Module|||||||
|---|---|---|---|---|---|---|
|Isolations-Prüfspannung<br>~~Isolation test voltage~~<br>Material Modulgrundplatte<br>Material of module baseplate|RMS, f = 50 Hz, t = 1 min<br>~~ee ~~|VISOL<br> ~~ee~~||2,5<br>Cu||kV|
|Innere Isolation<br>Internal isolation|Basisisolierung (Schutzklasse 1, EN61140)<br>basic insulation (class 1, IEC 61140)|||Al2O3|||
|Kriechstrecke<br>Creepage distance|Kontakt - Kuhlk6rper / terminal to heatsink<br>Kontakt - Kontakt / terminal to terminal|||14,5<br>13,0||mm|
|Luftstrecke<br>Clearance|Kontakt - Kuhlkorper / terminal to heatsink<br>Kontakt - Kontakt / terminal to terminal|||12,5<br>10,0||mm|
|Vergleichszahl der Kriechwegbildung<br>Comperative tracking index||CTI||> 200|||
||||min.|typ.|max.||
|Warmewiderstand, Gehause bis Kuhlk6rper| <br>Thermal resistance, case to heatsink|Paste<br>grease<br> pro Modul / per module<br>= 1 W/(m-k)/<br>= 1 W/(m-k)|RthCH||0,009||K/W|
|Modulstreuinduktivität<br>~~Stray inductance module~~<br>Modulleitungswiderstand, Anschlusse -|~~ee ~~|LsCE<br> ~~ee ee~~|20<br>~~ee~~|||nH|
|Chip|TC<br>= 25°C, pro Schalter / per switch|RCC'+EE'||1,10||mΩ|
|Module lead resistance, terminals - chip|||||||
|Lagertemperatur<br>~~Storage temperature~~<br>Anzugsdrehmoment f. Modulmontage<br>Mounting torque for modul mounting|~~ee ~~<br>Schraube M5<br>- Montage gem. giltiger Applikationsschrift<br>Screw M5<br>- Mounting according to valid application note|Tstg<br>M<br> ~~ee ee~~|-40<br>125<br>3,00<br>-<br>6,00<br>~~ee~~|||°C<br>Nm|
|Anzugsdrehmoment f. elektr. Anschllsse<br>Terminal connection torque||Schraube M6<br>- Montage gem. gultiger Applikationsschrift<br>Screw M6<br>- Mounting according to valid application note|M|3,0|-|6,0|Nm|
|Gewicht<br>Weight||G||345||g|



4 

## IGBT-Module IGBT-modules Technische Information FF450R12ME4_B11 / Technical Information 

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**----- Start of picture text -----**<br>
IC =f(V CE) IC =f(V CE)<br>VGE =15V Tvj = 150°C<br>900 a | , 7 900 es|<br>Tvj = 25°C a ra VGE = 19V 7<br>Tvj = 125°C VGE = 17V<br>750 T —— vj = 150°C fe 750 VVGEGE = 15V = 13V /<br>VGE = 11V<br>Me VGE = 9V i : /<br>600 600<br>ie /) : / — .<br>if / ' a<br>450 450<br>7, vA |<br>J<br>300 300<br>/<br>a<br>150 150<br>0 0<br>0,0 0,5 1,0 1,5 2,0 2,5 3,0 3,5 0,0 0,5 1,0 1,5 2,0 2,5 3,0 3,5 4,0 4,5 5,0<br>VCE [V] VCE [V]<br> [A]  [A]<br>IC IC<br>**----- End of picture text -----**<br>


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IC =f(V GE) Eon =f(l),E C off =f(I C)<br>VCE =20V VGE =415V,R Gon =13 Ω ,R Goff =13 Ω ,V CE =600V<br>900 140<br>Tvj = 25°C Eon, Tvj = 125°C<br>Tvj = 125°C Eon, Tvj = 150°C<br>750 Ee Tvj = 150°C : 120 EEoffoff, T, Tvjvj = 125°C = 150°C<br>TCS fo So 7<br>100<br>600<br>80<br>450<br>v4 a vue<br>60 4 ae va ZA<br>300<br>40<br>¥ [7<br>150<br>20<br>/ “=ae<br>0 0<br>5 6 7 8 9 10 11 12 13 0 150 300 450 600 750 900<br>VGE [V] IC [A]<br> [A]<br>IC E [mJ]<br>**----- End of picture text -----**<br>


5 

IGBT-Module IGBT-modules 

## FF450R12ME4_B11 

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**----- Start of picture text -----**<br>
Eon =f(R),E G off =f(R G) ZthJC =f (t)<br>VGE =+15V,1 C =450A,V CE =600V<br>220 0,1<br>Eon, Tvj = 125°C ZthJC : IGBT<br>200 = Eon, Tvj = 150°C T if | te ; | H— YT ETSO E ee oe th<br>Eoff, Tvj = 125°C<br>180 f= Eoff, Tvj = 150°C popes CTe n ee<br>Pt TI Ft anh [PPE]<br>160<br>140 ee ae i<br>120<br>0,01<br>100 Pot | yytZ ft fy ptPT [Tee] A<br>8060 PoP| | OY|y 7)| ffeaeft— | PT|aeA TATVET|ee TET|<br>40 an PALL TET PEI ETT<br>i:    1    2    3    4<br>oa G8) ((\| ri[K/W]:    AA 0,00396   0,02178   0,02112   0,01914<br>20 τ i[s]:    0,01    0,02    0,05    0,1<br>0 Pt Tt | | | 0,001 a<br>0 2 4 6 8 10 12 14 16 0,001 0,01 0,1 1 10<br>RG [ Ω ] t [s]<br> [K/W]<br>E [mJ]<br>thJC<br>Z<br>**----- End of picture text -----**<br>


## **(RBSOA)** 

IF F) 

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**----- Start of picture text -----**<br>
IC =f(V CE)<br>VGE ve V,R Goff =1.3 Ω ,T vj = 150°C<br>1000 900<br>IC, Modul Tvj = 25°C<br>900 IC, Chip Tvj = 125°C<br>Tvj = 150°C<br>750<br>ee = t ;<br>800<br>700<br>600<br>600<br>500 450<br>400<br>300<br>300<br>200<br>150<br>100<br>0 0<br>0 200 400 600 800 1000 1200 1400 0,0 0,2 0,4 0,6 0,8 1,0 1,2 1,4 1,6 1,8 2,0 2,2 2,4<br>VCE  [V] VF [V]<br> [A]  [A]<br>IC IF<br>**----- End of picture text -----**<br>


6 

IGBT-Module IGBT-modules 

## FF450R12ME4_B11 

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**----- Start of picture text -----**<br>
Erec =f (I F) Erec =f(R G)<br>RGon =1.3 Ω ,V CE =600V IF =450A,V CE =600V<br>80 70<br>Erec, Tvj = 125°C Erec, Tvj = 125°C<br>Erec, Tvj = 150°C Erec, Tvj = 150°C<br>70 EO) EE<br>60<br>60<br>50<br>50 | ae | |<br>40<br>40<br>30<br>30<br>20<br>20<br>MPTP} 10 EEE tye<br>10<br>0 0<br>0 150 300 450 600 750 900 0 2 4 6 8 10 12 14 16<br>IF [A] RG [ Ω ]<br>Transienter Warmewiderstand Diode, Wechselrichter NTC-Widerstand-Temperaturkennlinie (typisch)<br>transient thermal impedance Diode, Inverter NTC-Thermistor-temperature characteristic (typical)<br>ZthJC = f (t) R=f(T)<br>1 100000<br>' {— ZthJC : Diode et a i [I Rtyp a ———<br>o o TT jy<br>PT cM  TT TTT TTT a e eee ee<br>on om) =<br>ELAM<br>0,1 10000<br>| LUMeeLUM TM KE—————————<br>er ee SS<br>PT TTT eT ES NN se ee<br>ZAPT TT OTT TTT a Ne a eeee<br>AO QNR OHI /MMOHUT/OMNONII pot2 NEee eee<br>0,01 a 1000 SN<br>PA tt ee<br>2 a a<br>| 7A Tt TT NS<br>Y7T [TT] TTT TTT TTT a eeee<br>i:    1    2    3    4<br>0 ri[K/W]:   0,006   0,033   0,032   0,029    ee ee<br>τ i[s]:    0,01    0,02    | 0,05    0,1<br>0,001 100<br>0,001 0,01 0,1 1 10 0 20 40 60 80 100 120 140 160<br>t [s] TC [°C]<br>E [mJ] E [mJ]<br>] Ω<br> [K/W]<br>R[<br>thJC<br>Z<br>**----- End of picture text -----**<br>


7 

## Technische�Information�/�Technical�Information 

IGBT-Module IGBT-modules FF450R12ME4_B11 

## **Schaltplan�/�circuit_diagram_headline** 

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## **Vorläufige�Daten Preliminary�Data** 

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## **Gehäuseabmessungen�/�package�outlines** 

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In fin e o n<br>**----- End of picture text -----**<br>


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prepared�by:�MB date�of�publication:�2013-11-05<br>approved�by:�MK revision:�2.0<br>**----- End of picture text -----**<br>


8 

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IGBT-Module<br>IGBT-modules<br>**----- End of picture text -----**<br>


## FF450R12ME4_B11 

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Nutzungsbedingungen<br>**----- End of picture text -----**<br>


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application.<br>**----- End of picture text -----**<br>


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Updated at April 28, 2026

Infineon Technologies is a globally recognized leader in semiconductor solutions, renowned for driving innovation in power management, energy efficiency, and modern mobility. With a strong legacy of engineering excellence, the company provides highly reliable components designed to meet the rigorous demands of industrial, automotive, and advanced commercial applications. The core of our Infineon portfolio is centered on their industry-leading discrete semiconductors. We offer an extensive selection of single and dual MOSFETs, alongside a robust range of single IGBTs and advanced IGBT modules. These flagship power transistors are essential for high-efficiency power conversion and motor control, providing engineers with superior thermal performance and minimized switching losses. Beyond advanced field-effect transistors, the selection includes a comprehensive array of diodes and rectifiers, heavily featuring Schottky diodes, as well as fast-recovery and RF/PIN diodes. This power foundation is further supported by bipolar transistors, intelligent power modules, and thyristor SCR modules, delivering the critical building blocks required for complex power system designs. To support broader system integration, the portfolio also encompasses specialized solutions such as solid-state relays, AC/DC LED driver ICs, and Bluetooth communications modules. From high-power industrial rectifiers to wireless connectivity adapters, Infineon equips designers with the precision components needed to build efficient, scalable, and fully connected electronic systems.

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