FF75R12RT4HOSA1

IGBT Module, Dual, 75 A, 1.85 V, 395 W, 150 °C, Module

⚠️ Reference pricing provided. In case of supply shortages, we will connect you with our trusted procurement partners to ensure your project's continuity.

Manufacturer: INFINEON
Product type: IGBT Modules
Transistor Polarity:N Channel; DC Collector Current:75A; Collector Emitter Saturation Voltage Vce(on):1.85V; Power Dissipation Pd:395W; Collector Emitter Voltage V(br)ceo:1.2kV; Transistor
SVHC: No SVHC (23-Jan-2024)
Product Range: -
IGBT Technology: IGBT 4 [Trench/Field Stop]
IGBT Termination: Stud
Power Dissipation: 395W
IGBT Configuration: Dual
Transistor Mounting: Panel
Transistor Polarity: N Channel
DC Collector Current: 75A
Power Dissipation Pd: 395W
Transistor Case Style: Module
Operating Temperature Max: 150°C
Junction Temperature Tj Max: 150°C
Continuous Collector Current: 75A
Collector Emitter Voltage Max: 1.2kV
Collector Emitter Voltage V(br)ceo: 1.2kV
Collector Emitter Saturation Voltage: 1.85V
Collector Emitter Saturation Voltage Vce(on): 1.85V

Delivery and price
Units per pack	10
Price	65.48 €
Current stock	10+
Lead time	30 days

Datasheet

IGBT-模块 IGBT-modules 

## FF75R12RT4 

VCES = 1200V IC nom = 75A / ICRM = 150A 

## **典型应用** 

- 大功率变流器 

- 电机传动 

- • UPS系统 

- 

- 

- 

## **电气特性** 

- 

- 低开关损耗 

- CEsat 

- T 

- VCEsat 

- 

- 

- CEsat 

- • T 

- VCEsat 

## **机械特性** 

- 绝缘的基板 

- • 标封装 

- 

- 

1 

技术信息�/�Technical�Information IGBT-模块IGBT-modules FF75R12RT4 

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

## **初步数据 Preliminary�Data** 

## **IGBT,�逆变器�/�IGBT,Inverter 最大额定值�/�Maximum�Rated�Values** 

|技术信息/TechnicalInformation<br>FF75R12RT4<br>IGBT-模块<br>IGBT-modules||
|---|---|
|preparedby:MK<br>approvedby:WR<br>dateofpublication:2013-11-05<br>revision:2.1<br>**初步数据**<br>**PreliminaryData**<br>**IGBT,逆变器/IGBT,Inverter**<br>**最大额定值/MaximumRatedValues**<br>集电极－发射极电压<br>Collector-emittervoltage<br>Tvj= 25°C<br>VCES<br>1200<br>V<br>连续集电极直流电流<br>ContinuousDCcollectorcurrent<br>TC= 100°C, Tvj max= 175°C<br>IC nom<br>75<br>A<br>集电极重复峰值电流<br>Repetitivepeakcollectorcurrent<br>tP= 1 ms<br>ICRM<br>150<br>A<br>总功率损耗<br>Totalpowerdissipation<br>TC= 25°C, Tvj max= 175°C<br>Ptot<br>395<br>W<br>栅极－发射极峰值电压<br>Gate-emitterpeakvoltage<br>VGES<br>+/-20<br>V<br>**特征值/CharacteristicValues**<br>min.<br>typ.<br>max.<br>集电极－发射极饱和电压<br>Collector-emittersaturationvoltage<br>IC= 75 A, VGE= 15 V<br>IC= 75 A, VGE= 15 V<br>IC= 75 A, VGE= 15 V<br>VCE sat<br>1,85<br>2,15<br>2,25<br>2,15<br>V<br>V<br>V<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>栅极阈值电压<br>Gatethresholdvoltage<br>IC= 2,40 mA, VCE= VGE, Tvj= 25°C<br>VGEth<br>5,2<br>5,8<br>6,4<br>V<br>栅极电荷<br>Gatecharge<br>VGE= -15 V ... +15 V<br>QG<br>0,57<br>µC<br>内部栅极电阻<br>Internalgateresistor<br>Tvj= 25°C<br>RGint<br>10<br>Ω<br>输入电容<br>Inputcapacitance<br>f = 1 MHz, Tvj= 25°C, VCE= 25 V, VGE= 0 V<br>Cies<br>4,30<br>nF<br>反向传输电容<br>Reversetransfercapacitance<br>f = 1 MHz, Tvj= 25°C, VCE= 25 V, VGE= 0 V<br>Cres<br>0,25<br>nF<br>集电极-发射极截止电流<br>Collector-emittercut-offcurrent<br>VCE= 1200 V, VGE= 0 V, Tvj= 25°C<br>ICES<br>1,0<br>mA<br>栅极-发射极漏电流<br>Gate-emitterleakagecurrent<br>VCE= 0 V, VGE= 20 V, Tvj= 25°C<br>IGES<br>100<br>nA<br>开通延迟时间(电感负载)<br>Turn-ondelaytime,inductiveload<br>IC= 75 A, VCE= 600 V<br>VGE= ±15 V<br>RGon= 2,2Ω<br>td on<br>0,13<br>0,15<br>0,15<br>µs<br>µs<br>µs<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>上升时间(电感负载)<br>Risetime,inductiveload<br>IC= 75 A, VCE= 600 V<br>VGE= ±15 V<br>RGon= 2,2Ω<br>tr<br>0,02<br>0,03<br>0,035<br>µs<br>µs<br>µs<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>关断延迟时间(电感负载)<br>Turn-offdelaytime,inductiveload<br>IC= 75 A, VCE= 600 V<br>VGE= ±15 V<br>RGoff= 2,2Ω<br>td off<br>0,30<br>0,38<br>0,40<br>µs<br>µs<br>µs<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>下降时间(电感负载)<br>Falltime,inductiveload<br>IC= 75 A, VCE= 600 V<br>VGE= ±15 V<br>RGoff= 2,2Ω<br>tf<br>0,045<br>0,08<br>0,09<br>µs<br>µs<br>µs<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>开通损耗能量(每脉冲)<br>Turn-onenergylossperpulse<br>IC= 75 A, VCE= 600 V, LS= 30 nH<br>VGE= ±15 V, di/dt = 1900 A/µs (Tvj= 150°C)<br>RGon= 2,2Ω<br>Eon<br>6,00<br>9,50<br>10,5<br>mJ<br>mJ<br>mJ<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>关断损耗能量(每脉冲）<br>Turn-offenergylossperpulse<br>IC= 75 A, VCE= 600 V, LS= 30 nH<br>VGE= ±15 V, du/dt = 3700 V/µs (Tvj= 150°C)<br>RGoff= 2,2Ω<br>Eoff<br>4,00<br>6,50<br>7,00<br>mJ<br>mJ<br>mJ<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C<br>短路数据<br>SCdata<br>VGE ≤15 V, VCC= 800 V<br>VCEmax= VCES-LsCE·di/dt<br>ISC<br>270<br>A<br>Tvj= 150°C<br>tP ≤10 µs,<br>结－外壳热阻<br>Thermalresistance,junctiontocase<br>每个IGBT/perIGBT<br>RthJC<br>0,38<br>K/W<br>外壳－散热器热阻<br>Thermalresistance,casetoheatsink<br>每个IGBT/perIGBT<br>λPaste=1W/(m·K)/λgrease=1W/(m·K)<br>RthCH<br>0,083<br>K/W<br>在开关状态下温度<br>Temperatureunderswitchingconditions<br>Tvj op<br>-40<br>150<br>°C||



2 

技术信息�/�Technical�Information IGBT-模块IGBT-modules FF75R12RT4 

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

## **初步数据 Preliminary�Data** 

## **二极管,逆变器�/�Diode,�Inverter 最大额定值�/�Maximum�Rated�Values** 

|反向重复峰值电压<br>Repetitivepeakreversevoltage|Tvj= 25°C|VRRM|1200|1200||V|
|---|---|---|---|---|---|---|
|连续正向直流电流<br>ContinuousDCforwardcurrent||IF|75|||A|
|正向重复峰值电流<br>Repetitivepeakforwardcurrent|tP= 1 ms|IFRM|150|||A|
|I2t-值<br>I²t-value|VR= 0 V, tP= 10 ms, Tvj= 125°C<br>VR= 0 V, tP= 10 ms, Tvj= 150°C|I²t|1200<br>1100|||A²s<br>A²s|
|**特征值/CharacteristicValues**|||min.|typ.|max.||
|正向电压<br>Forwardvoltage|IF= 75 A, VGE= 0 V<br>IF= 75 A, VGE= 0 V<br>IF= 75 A, VGE= 0 V<br>Tvj= 25°C<br>Tvj= 125°C<br>Tvj= 150°C|VF||1,70<br>1,65<br>1,65|2,15|V<br>V<br>V|
|反向恢复峰值电流<br>Peakreverserecoverycurrent|IF= 75 A, - diF/dt = 1900 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||60,0<br>65,0<br>70,0||A<br>A<br>A|
|恢复电荷<br>Recoveredcharge|IF= 75 A, - diF/dt = 1900 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||7,50<br>13,0<br>15,0||µC<br>µC<br>µC|
|反向恢复损耗（每脉冲）<br>Reverserecoveryenergy|IF= 75 A, - diF/dt = 1900 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||3,00<br>4,50<br>5,00||mJ<br>mJ<br>mJ|
|结－外壳热阻<br>Thermalresistance,junctiontocase|每个二极管/perdiode|RthJC|||0,58|K/W|
|外壳－散热器热阻<br>Thermalresistance,casetoheatsink|每个二极管/perdiode<br>λPaste=1W/(m·K)/λgrease=1W/(m·K)|RthCH||0,125||K/W|
|在开关状态下温度<br>Temperatureunderswitchingconditions||Tvj op|-40||150|°C|



date�of�publication:�2013-11-05 revision:�2.1 

prepared�by:�MK approved�by:�WR 

3 

IGBT-模块 IGBT-modules 

## 技术信息�/�Technical�Information 

## FF75R12RT4 

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

## **初步数据 Preliminary�Data** 

## **模块�/�Module** 

|**模块/Module**|||||||
|---|---|---|---|---|---|---|
|绝缘测试电压<br>Isolationtestvoltage|RMS, f = 50 Hz, t = 1 min.|VISOL|4,0|||kV|
|模块基板材料<br>Materialofmodulebaseplate|||Cu||||
|内部绝缘<br>Internalisolation|基本绝缘(class1,IEC61140)<br>basicinsulation(class1,IEC61140)||Al2O3||||
|爬电距离<br>Creepagedistance|端子-散热片/terminaltoheatsink<br>端子-端子/terminaltoterminal||17,0<br>20,0|||mm|
|电气间隙<br>Clearance|端子-散热片/terminaltoheatsink<br>端子-端子/terminaltoterminal||17,0<br>9,5|||mm|
|相对电痕指数<br>Comperativetrackingindex||CTI||> 200|||
||||min.|typ.|max.||
|外壳－散热器热阻<br>Thermalresistance,casetoheatsink|每个模块/permodule<br>λPaste=1W/(m·K)/λgrease=1W/(m·K)|RthCH||0,05||K/W|
|杂散电感,模块<br>Strayinductancemodule||LsCE||30||nH|
|模块引线电阻,端子-芯片<br>Moduleleadresistance,terminals-chip|TC=25°C,每个开关/perswitch|RCC'+EE'||0,65||mΩ|
|储存温度<br>Storagetemperature||Tstg|-40||125|°C|
|模块安装的安装扭距<br>Mountingtorqueformodulmounting|螺丝M6根据相应的应用手册进行安装<br>ScrewM6-Mountingaccordingtovalidapplicationnote|M|3,00|-|5,00|Nm|
|端子联接扭距<br>Terminalconnectiontorque|螺丝M5根据相应的应用手册进行安装<br>ScrewM5-Mountingaccordingtovalidapplicationnote|M|2,5|-|5,0|Nm|
|重量<br>Weight||G||160||g|



Power Cycling Zuverlässigkeit bei Tvjop=125°C: 

- entspricht gültiger Spezifikation für Standard Module bei Tvjmax=125°C; 300.000 Zyklen @ dTj=50K Power Cycling Capability at Tvjop=125°C: 

- according to valid specification for standard modules at Tvjmax=125°C; 300.000 cycles @ dTj=50K 

date�of�publication:�2013-11-05 revision:�2.1 

prepared�by:�MK approved�by:�WR 

4 

IGBT-模块 IGBT-modules 

## FF75R12RT4 

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**----- Start of picture text -----**<br>
初步数据<br>**----- End of picture text -----**<br>


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I output C  characteristic CE) IGBT,Inverter (typical) I output C characteristic CE) IGBT,Inverter (typical)<br>VGE “Ls v Tvj =150°C<br>150 a "19 150 ee a<br>Tvj = 25°C VGE = 19V<br>135 Tvj = 125°C 135 VGE = 17V<br>S Tvj = 150°C L) E VGE = 15V ee<br>VGE = 13V<br>120 ee a eee 120 | VGE = 11V nee<br>VGE = 9V<br>e e e e<br>105 105<br>TPP PE) D ee<br>90 TE) 90 “ ee<br>75 75<br>6045 eenae ae 6045 eeeeee)aAneae<br>ee 2<br>30 30<br>15 Pt TAL | | | yO 15 ge<br>ee<br>0 0<br>0,0 0,5 1,0 1,5 2,0 2,5 3,0 3,5 4,0 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>ME IGBT, HAS (BB) FFRIAE IGBT, HBA ( BB)<br>transfer characteristic IGBT,Inverter (typical) switching losses IGBT, Inverter (typical)<br>IC GE) Eon C off C)<br>VCE oy VGE whe Gon o22 Ω ,R Goff =22 Ω ,V CE =600V<br>150 24<br>Tvj = 25°C Eon, Tvj = 125°C<br>135 Fe Tvj = 125°C JT lise) 22 fe Eoff  OEE , Tvj = 125°C<br>Tvj = 150°C Eon, Tvj = 150°C<br>20 Eoff, Tvj = 150°C<br>120<br>e e en ee ee<br>18<br>SGG080<br>105<br>800 16  peeeeeesoe<br>CeCe) ERR G4<br>90<br>14<br>75 Pf | ve)| 12 EeePt et ET LY<br>60 ee ee 10 ee<br>8<br>HSeRYEE Pope<br>45<br>6<br>SETAE) EE<br>30<br>4<br>15<br>PTT AEE]Z 2 peewr | | dt | tt<br>0 poe) || 0<br>5 6 7 8 9 10 11 12 13 0 15 30 45 60 75 90 105 120 135 150<br>VGE [V] IC [A]<br> [A]  [A]<br>IC IC<br> [A]<br>IC E [mJ]<br>**----- End of picture text -----**<br>


5 

## IGBT-模块 IGBT-modules 

## FF75R12RT4 

## **初步数据** 

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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 =75A,V CE =600V<br>30 1<br>Eon, Tvj = 125°C ZthJC : IGBT<br>27 =1 Eoff, Tvj = 125°C T t} ty dd] 1 H— esSoo act ot |<br>Eon, Tvj = 150°C<br>Eoff, Tvj = 150°C<br>24 fpS O | Titi TT<br>21 Pt fff) pp feeb aPLAT ee| LE eti T<br>Pp peeaefan CAN7aIE EEE E ET<br>18<br>15 Bae: aneee 0,1 /<br>12 EEeZaneeeea PE EE EE<br>AT<br>9 Za A<br>pf | | Tp dh 0a | |<br>6<br>i:    1    2    3    4<br>3 CT FA e r τ ii[K/W]:   [s]:    0,0228   0,01    0,1254   0,02    e 0,1216   0,05    0,1102   0,1<br>0 PE EEE LE EL LL 0,01 /\ |) bol<br>0 2 4 6 8 10 12 14 16 18 20 22 0,001 0,01 0,1 1 10<br>RG [ Ω ] t [s]<br>RieZS LEK IGBT, ees ( RBSOA ) Fa mESst REGS ( BB)<br>reverse bias safe operating area IGBT,Inverter (RBSOA) forward characteristic of Diode, Inverter (typical)<br>IC CE) IF F)<br>VGE “i sV.R Goff =2.2 Ω ,T vj =150°C a<br>200 150<br>IC, Modul Tvj = 25°C<br>IC, Chip 135 Tvj = 125°C<br>175 EJ] E Tvj = 150°C OE<br>120<br>150<br>TUT) Re e<br>105<br>125<br>90<br>100 75<br>60<br>75<br>45<br>50<br>PET) FAA<br>30<br>25 PEL eyEL<br>15<br>PP a e VAe<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> [K/W]<br>E [mJ]<br>thJC<br>Z<br> [A]  [A]<br>IC IF<br>**----- End of picture text -----**<br>


6 

IGBT-模块 IGBT-modules 

## FF75R12RT4 

## **初步数据** 

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**----- Start of picture text -----**<br>
Erec =f(I F) Erec =f(R G)<br>RGon 39 Ω ,V CE =600V IF 76a CE = 600 V<br>8 6<br>Erec, Tvj = 125°C Erec, Tvj = 125°C<br>Erec, Tvj = 150°C Erec, Tvj = 150°C<br>7 a ee<br>5<br>EE RE- [-] Bet<br>6<br>4<br>5 PE eet| MeetSOLTT<br>4 Peer) 3 LLL Pek<br>3<br>2<br>2 EVAnREREEA<br>1<br>PARREEEEE<br>1<br>Toor LE<br>0 0<br>0 15 30 45 60 75 90 105 120 135 150 0 2 4 6 8 10 12 14 16 18 20 22<br>IF [A] RG [ Ω ]<br>E [mJ] E [mJ]<br>**----- End of picture text -----**<br>


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**----- Start of picture text -----**<br>
ZthJC = f (t)<br>1<br>Le<br>ZthJC : Diode<br>H— F ccc oo<br>oo o<br>Yt TTT TEr T<br>PTT EeP t<br>UMEATTN EET TT<br>SUP<br>0,1<br>Sie A YU<br>Pt tsk essen sets<br>PT<br>Pt TA [TAT]<br>aea<br>TALTT<br>PALI TET ETT ET<br>TAIN cuCoCo<br>i:    1    2    3    4<br>ri[K/W]:   0,0348   0,1914   0,1856   0,1682<br>τ i[s]:    0,01    0,02    0,05    0,1<br>CLL ool<br>0,01<br>0,001 0,01 0,1 1 10<br>t [s]<br> [K/W]<br>thJC<br>Z<br>**----- End of picture text -----**<br>


7 

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技术信息�/�Technical�Information<br>IGBT-模块IGBT-modules FF75R12RT4<br>**----- End of picture text -----**<br>


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## **初步数据 Preliminary�Data 接线图�/�circuit_diagram_headline** 

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**----- Start of picture text -----**<br>
封装尺寸�/�package�outlines<br>**----- End of picture text -----**<br>


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prepared�by:�MK date�of�publication:�2013-11-05<br>approved�by:�WR revision:�2.1<br>**----- End of picture text -----**<br>


8 

IGBT-模块 IGBT-modules 

## FF75R12RT4 

## **初步数据** 

## **使用条件和条款** 

## 使用条件和条款 

产品规格书中的数据是专门为技术人员提供的，您和您的技术部门应该针对您的应用来评估产品及产品的所有参数是否适合 

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保留产品规格书的修改权 

9

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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