DG50X12T2

## **DOSEMI** 

## **IGBT** 

## **DG50X12T2** 

## **1200V/50A IGBT with Diode** 

## **General Description** 

DOSEMI IGBT Power Discrete provides ultra low conduction loss as well as low switching loss. They are designed for the applications such as general inverters and UPS. 

## **Features** 

- Low VCE(sat) Trench IGBT technology 

- Low switching loss 

- Maximum junction temperature 175[o] C 

- VCE(sat) with positive temperature coefficient 

- Fast & soft reverse recovery anti-parallel FWD 

- Lead free package 

## **Typical Applications** 

- Inverter for motor drive 

- AC and DC servo drive amplifier 

- Uninterruptible power supply 

## **Equivalent Circuit Schematic** 

©2020 STARPOWER Semiconductor Ltd.           8/5/2020          1/9          Preliminary 

DG50X12T2                                                                          IGBT Discrete 

## **Absolute Maximum Ratings** TC=25[o] C unless otherwise noted 

## **IGBT** 

|**IGBT**|||||
|---|---|---|---|---|
|**Symbol**|**Description**||**Value**|**Unit**|
|VCES|Collector-EmitterVoltage||1200|V|
|VGES|Gate-Emitter Voltage||±20|V|
|IC|Collector Current  @ TC=25oC<br>@ TC=134oC||100<br>50|A|
|ICM|PulsedCollectorCurrent  tp=1ms||200|A|
|PD|Maximum Power Dissipation  @ Tj=175oC||1049|W|
|**Diode**|||||
|**Symbol**|**Description**||**Values**|**Unit**|
|VRRM|Repetitive Peak ReverseVoltage||1200|V|
|IF|Diode Continuous Forward Current||50|A|
|IFM|Diode Maximum ForwardCurrent  tp=1ms||200|A|



## **Discrete** 

|**Discrete**||||
|---|---|---|---|
|**Symbol**|**Description**|**Values**|**Unit**|
|Tjop|OperatingJunction Temperature|-40 to +175|oC|
|TSTG|Storage Temperature Range|-55to +150|oC|
|TS|SolderingTemperature,1.6mm from case for 10s|260|oC|



©2020 STARPOWER Semiconductor Ltd.           8/5/2020          2/9          Preliminary 

**IGBT Characteristics** TC=25[o] C unless otherwise noted 

|**IGBT**|**Characteristics**TC|=25oC unless otherwise n|oted||||
|---|---|---|---|---|---|---|
|**Symbol**|**Parameter**|**Test Conditions**|**Min.**|**Typ.**|**Max.**|**Unit**|
|VCE(sat)|Collector to Emitter<br>Saturation Voltage|IC=50A,VGE=15V,<br>Tj=25oC||1.75|2.20|V|
|||IC=50A,VGE=15V,<br>Tj=125oC||2.00|||
|||IC=50A,VGE=15V,<br>Tj=150oC||2.05|||
|VGE(th)|Gate-Emitter Threshold<br>Voltage|IC=1.80mA,VCE=VGE,<br>Tj=25oC|5.6|6.2|6.8|V|
|ICES|Collector Cut-Off<br>Current|VCE=VCES,VGE=0V,<br>Tj=25oC|||5.0|mA|
|IGES|Gate-Emitter Leakage<br>Current|VGE=VGES,VCE=0V,<br>Tj=25oC|||400|nA|
|RGint|InternalGate Resistance|||0||Ω|
|Cies|Input Capacitance|VCE=25V,f=1MHz,<br>VGE=0V||4.66||nF|
|Cres|Reverse Transfer<br>Capacitance|||0.13||nF|
|QG|GateCharge|VGE=-15…+15V||0.35||μC|
|td(on)|Turn-On DelayTime|VCC=600V,IC=50A,<br>RG=15Ω,VGE=±15V,<br>Tj=25oC||137||ns|
|tr|Rise Time|||26||ns|
|td(off)|Turn-Off DelayTime|||323||ns|
|tf|Fall Time|||78||ns|
|Eon|Turn-On Switching<br>Loss|||4.88||mJ|
|Eoff|Turn-Off Switching<br>Loss|||2.74||mJ|
|td(on)|Turn-On DelayTime|VCC=600V,IC=50A,<br>RG=15Ω,VGE=±15V,<br>Tj=125oC||146||ns|
|tr|Rise Time|||34||ns|
|td(off)|Turn-Off DelayTime|||421||ns|
|tf|Fall Time|||147||ns|
|Eon|Turn-On Switching<br>Loss|||6.59||mJ|
|Eoff|Turn-Off Switching<br>Loss|||4.21||mJ|
|td(on)|Turn-On DelayTime|VCC=600V,IC=50A,<br>RG=15Ω,VGE=±15V,<br>Tj=150oC||146||ns|
|tr|Rise Time|||34||ns|
|td(off)|Turn-Off DelayTime|||441||ns|
|tf|Fall Time|||166||ns|
|Eon|Turn-On Switching<br>Loss|||7.19||mJ|
|Eoff|Turn-Off Switching<br>Loss|||4.69||mJ|
|ISC|SC Data|tP≤10μs,VGE=15V,<br>Tj=150oC,VCC=900V,<br>VCEM≤1200V||200||A|



©2020 STARPOWER Semiconductor Ltd.           8/5/2020          3/9          Preliminary 

DG50X12T2                                                                          IGBT Discrete 

**Diode Characteristics** TC=25[o] C unless otherwise noted 

|**Symbol**|**Parameter**|**Test Conditions**|**Min.**|**Typ.**|**Max.**|**Unit**|
|---|---|---|---|---|---|---|
|VF|Diode Forward<br>Voltage|IF=50A,VGE=0V,Tj=25oC||1.85|2.30|V|
|||IF=50A,VGE=0V,Tj=125oC||1.90|||
|||IF=50A,VGE=0V,Tj=150oC||1.95|||
|Qr|Recovered Charge|VR=600V,IF=50A,<br>-di/dt=1400A/μs,VGE=-15V<br>Tj=25oC||6.3||μC|
|IRM|Peak Reverse<br>RecoveryCurrent|||62||A|
|Erec|Reverse Recovery<br>Energy|||1.67||mJ|
|Qr|RecoveredCharge|VR=600V,IF=50A,<br>-di/dt=1400A/μs,VGE=-15V<br>Tj=125oC||10.1||μC|
|IRM|Peak Reverse<br>Recovery Current|||69||A|
|Erec|Reverse Recovery<br>Energy|||2.94||mJ|
|Qr|RecoveredCharge|VR=600V,IF=50A,<br>-di/dt=1400A/μs,VGE=-15V<br>Tj=150oC||11.5||μC|
|IRM|Peak Reverse<br>Recovery Current|||72||A|
|Erec|Reverse Recovery<br>Energy|||3.63||mJ|



## **Discrete Characteristics** TC=25[o] C unless otherwise noted 

|**Symbol**|**Parameter**|**Min.**|**Typ.**|**Max.**|**Unit**|
|---|---|---|---|---|---|
|RthJC|Junction-to-Case (per IGBT)<br>Junction-to-Case(per Diode)|||0.143<br>0.247|K/W|
|RthJA|Junction-to-Ambient||40||K/W|



©2020 STARPOWER Semiconductor Ltd.           8/5/2020          4/9          Preliminary 

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100 100<br>90 VGE=15V  90 VCE=20V<br>80 80<br>70 70<br>60 60<br>50 50<br>40 40<br>30 30<br>20 20<br>Tj=25℃<br>Tj=25℃<br>Tj=125℃<br>10 10 Tj=125℃<br>Tj=150℃<br>Tj=150℃<br>0 0<br>0 0.5 1 1.5 2 2.5 3 3.5 5 6 7 8 9 10 11 12 13<br>VCE  [V]  VGE [V]<br>Fig 1. IGBT-inverter Output Characteristics                Fig 2. IGBT-inverter Transfer Characteristics<br>30 28<br>Eon,Tj=125℃  Eon,Tj=125℃<br>Eoff,Tj=125℃  Eoff,Tj=125℃<br>24<br>25 Eon,Tj=150℃  Eon,Tj=150℃<br>Eoff,Tj=150℃  Eoff,Tj=150℃<br>20<br>20 VCC=600V  VICCC=50A =600V<br>RG=15Ω  16 VGE=±15V<br>VGE=±15V<br>15<br>12<br>10<br>8<br>5<br>4<br>0 0<br>0 20 40 60 80 100 0 30 60 90 120 150<br>IC [A]  RG [Ω]<br>Fig 3. IGBT-inverter Switching Loss vs. IC                Fig 4. IGBT-inverter Switching Loss vs. RG<br>©2020 STARPOWER Semiconductor Ltd.           8/5/2020          5/9          Preliminary<br> [A]   [A]<br>C C<br>I I<br>E [mJ]  E [mJ]<br>**----- End of picture text -----**<br>


DG50X12T2                                                                          IGBT Discrete 

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110 1<br>100<br>Module<br>90<br>80<br>70 IGBT<br>60<br>0.1<br>50<br>40<br>30<br>20 RG=15Ω  i:                1            2            3            4            5<br>VGE=±15V  rτii[K/W]:   0.0173   0.0460   0.0779   0.0016   0.0002 [s]:          0.0004   0.0027   0.0199   0.5249   12.3916<br>10 Tj=150 [o] C<br>0 0.01<br>0 350 700 1050 1400 0.001 0.01 0.1 1 10<br>VCE [V]  t [s]<br>Fig 5. IGBT-inverter RBSOA                      Fig 6. IGBT-inverter Transient Thermal Impedance<br>100 5<br>Tj=25℃<br>90 Tj=125℃  Erec Tj=125℃<br>Tj=150℃  Erec Tj=150℃<br>80 4<br>70<br>60 3<br>50<br>40 2<br>30<br>VCC=600V<br>20 1 RG=15Ω<br>VGE=-15V<br>10<br>0 0<br>0 0.5 1 1.5 2 2.5 3 0 20 40 60 80 100<br>VF  [V]  IF [A]<br> [A]   [K/W]<br>C<br>I<br>thJC<br>Z<br> [A]<br>F<br>I E [mJ]<br>**----- End of picture text -----**<br>


Fig 7. Diode-inverter Forward Characteristics Fig 8. Diode-inverter Switching Loss vs. IF 

©2020 STARPOWER Semiconductor Ltd.           8/5/2020          6/9          Preliminary 

DG50X12T2                                                                          IGBT Discrete 

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**----- Start of picture text -----**<br>
4 1<br>Erec Tj=125℃<br>3.5 Erec Tj=150℃<br>Diode<br>3<br>2.5 0.1<br>2<br>VCC=600V  i:                1            2            3            4            5<br>1.5 ri[K/W]:   0.0350   0.0962   0.1124   0.0032   0.0002<br>IF=50A  τi[s]:          0.0004   0.0027   0.0165   0.3745   11.6917<br>VGE=-15V<br>1 0.01<br>0 30 60 90 120 150 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>


Fig 9. Diode-inverter Switching Loss vs. RG         Fig 10. Diode-inverter Transient Thermal Impedance 

©2020 STARPOWER Semiconductor Ltd.           8/5/2020          7/9          Preliminary 

DG50X12T2                                                                          IGBT Discrete 

## **Circuit Schematic** 

## **Package Dimensions** 

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                                                        Dimensions in Millimeters<br>**----- End of picture text -----**<br>


©2020 STARPOWER Semiconductor Ltd.           8/5/2020          8/9          Preliminary 

DG50X12T2                                                                          IGBT Discrete 

## **Terms and Conditions of Usage** 

The data contained in this product datasheet is exclusively intended for technically trained staff. you and your technical departments will have to evaluate the suitability of the product for the intended application and the completeness of the product data with respect to such application. 

This product data sheet is describing the characteristics of this product for which a warranty is granted. Any such warranty is granted exclusively pursuant the terms and conditions of the supply agreement. There will be no guarantee of any kind for the product and its characteristics. 

Should you require product information in excess of the data given in this product data sheet or which concerns the specific application of our product, please contact the sales office, which is responsible for you (see www.powersemi.cc), For those that are specifically interested we may provide application notes. 

Due to technical requirements our product may contain dangerous substances. For information on the types in question please contact the sales office, which is responsible for you. 

Should you intend to use the Product in aviation applications, in health or live endangering or life support applications, please notify. 

If and to the extent necessary, please forward equivalent notices to your customers. Changes of this product data sheet are reserved. 

©2020 STARPOWER Semiconductor Ltd.           8/5/2020          9/9          Preliminary