SCS210AGC17

Datasheet 

## SCS210AG 

## **SiC Schottky Barrier Diode** 

## l **Outline** 

|VR|650V|
|---|---|
|IF|10A|
|QC|15nC|



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TO-220ACG (1)<br>(3)<br>(2)<br>**----- End of picture text -----**<br>


## l **Features** 

- 1) Shorter recovery time 

- 2) Reduced temperature dependence 

- 3) High-speed switching possible 

## ● **Applications** 

- `・` PFC Boost Topology 

- `・` Secondary Side Rectification 

- `・` Data Center 

- `・` PV Power Conditioners 

## l **Inner circuit** 

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(1)<br>(1) Cathode<br>(2) Cathode<br>(3) Anode<br>(2) (3)<br>**----- End of picture text -----**<br>


## l **Packaging specifications** 

|Type|Packaging|Tube|
|---|---|---|
||Reel size (mm)|-|
||Tape width (mm)|-|
||Basic ordering unit (pcs)|50|
||Packing code|C17|
||Marking|SCS210AG|



## l **Absolute maximum ratings** (Tvj = 25°C unless otherwise specified.) 

|l**Absolute maximum ratings**(Tvj = 25°C unless otherwise specified.)vj = 25°C unless otherwise specified.)= 25°C unless otherwise specified.)|l**Absolute maximum ratings**(Tvj = 25°C unless otherwise specified.)vj = 25°C unless otherwise specified.)= 25°C unless otherwise specified.)|(Tvj = 25°C unless otherwise specified.)vj = 25°C unless otherwise specified.)= 25°C unless otherwise specified.)|||
|---|---|---|---|---|
|Parameter||Symbol|Value|Unit|
|Reverse voltage (repetitive peak)||VRM|650|V|
|Reverse voltage (DC)||VR|650|V|
|Continuous forward current<br>(Tc= 135°C)<br>*1||IF|10|A|
|Surge non-<br>repetitive forward<br>current|PW=10ms sinusoidal, Tvj=25°C|IFSM|38|A|
||PW=10ms sinusoidal, Tvj=150°C||30|A|
||PW=10ms square, Tvj=25°C||150|A|
|Repetitive peak forward current||IFRM|44<br>*2|A|
|i2t value|PW=10ms, Tvj=25°C|∫i2dt|7.2|A2s|
||PW=10ms, Tvj=150°C||4.5|A2s|
|Total power disspation||PD|78<br>*1, 3|W|
|Virtual Junction temperature||Tvj|175|°C|
|Range of storage temperature||Tstg|-55 to+175|°C|



*1 Limited by maximum Tvj and for Max. RthJC.   *2 Tc=100°C, Tvj=150°C, Duty cycle=10%.   *3 Tc=25°C. 

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**SCS210AG** 

Datasheet 

## l **Electrical characteristics** (Tvj = 25°C unless otherwise specified.) 

|l**Electrical characteristics**(Tvj|= 25°C unle|ss otherwise specified.)|||||
|---|---|---|---|---|---|---|
|Parameter|Symbol|Conditions|Values|||Unit|
||||Min.|Typ.|Max.||
|DC blocking voltage|VDC|IR= 2.0mA|650|-|-|V|
|Forward voltage|VF|Tvj=25°C<br>10A,<br>IF=|-|1.35|1.55|V|
|||Tvj=150°C<br>10A,<br>IF=|-|1.55|-|V|
|||Tvj=175°C<br>10A,<br>IF=|-|1.63|-|V|
|Reverse current|IR|V,Tvj=25°C<br>600<br>VR=|-|2|200|mA|
|||VR=<br>V,Tvj=150°C<br>600|-|30|-|mA|
|||V,Tvj=175°C<br>600<br>VR=|-|70|-|mA|
|Total capacitance|C|1V,f=1MHz<br>VR=|-|360|-|pF|
|||VR= 600V,f=1MHz|-|37|-|pF|
|Total capacitive charge|QC|VR<br>=400V,di/dt=350A/μs|-|15|-|nC|
|Switching time|tC|VR<br>=400V,di/dt=350A/μs|-|15|-|ns|



## l **Thermal characteristics** 

|l**Thermal characteristics**|||||||
|---|---|---|---|---|---|---|
|Parameter|Symbol|Conditions|Values|||Unit|
||||Min.|Typ.|Max.||
|Thermal resistance|RthJC|-|-|1.6|1.9|K/W|



## l **Typical Transient Thermal Characteristics** 

|Symbol|Symbol||Value|Value|Unit|Unit||Symbol|Value|Unit|
|---|---|---|---|---|---|---|---|---|---|---|
|Rth1|||×<br>5.71|-1<br>10|K/W|||Cth1|-3<br>× 10<br>1.65|Ws/K|
|Rth2|||×<br>1.02|0<br>10||||Cth2|-3<br>× 10<br>5.88||
|Rth3|||×<br>5.32|-3<br>10||||Cth3|-1<br>× 10<br>3.43||
|PD||||||||Tc<br>Ta<br>Rth,n<br>Cth,n|||
||PD|||Tj<br>Rth1||||Rth,n|Tc||
|||||||Cth2||Cth,n|Ta||
||||||||||||
||||||||||||



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**TSQ50255-SCS210AGC17 20.Nov.2022 - Rev.004** 

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**SCS210AG** 

Datasheet 

## l **Electrical characteristic curves** 

Fig.1 VF - IF Characteristics 

## Fig.2 VF - IF Characteristics 

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100<br>Pulsed<br>10<br>1<br>0.1<br>T =<br>vj<br>175ºC<br>125C<br>0.01<br>75ºC<br>25ºC<br>Tvj increase -25ºC<br>0.001<br>0.0 0.5 1.0 1.5 2.0 2.5<br>Forward Voltage : VF [V]<br>[A] [A]<br>F F<br>Forward Current : I Forward Current : I<br>**----- End of picture text -----**<br>


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14 Pulsed<br>12<br>10 Tvj increase<br>8<br>6<br>T =<br>vj<br>4 175ºC<br>125C<br>75ºC<br>2<br>25ºC<br>-25ºC<br>0<br>0.0 0.5 1.0 1.5 2.0 2.5<br>Forward Voltage : VF [V]<br>**----- End of picture text -----**<br>


Fig.3 VR - IR Characteristics 

Fig.4 VR-Ct Characteristics 

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1000 1000<br>T =<br>vj<br>175ºC<br>100 125C Tvj increase<br>75ºC<br>25ºC<br>10 -25ºC 100<br>1<br>0.1 10<br>0.01<br>T =25ºC<br>vj<br>f=1MHz<br>0.001 1<br>0 200 400 600 0.01 0.1 1 10 100 1000<br>Reverse Voltage : VR [V] Reverse Voltage : VR [V]<br>[pF]<br>t<br>A]<br>[m<br>R<br>Reverse Current : I<br>Capacitance Between Terminals : C<br>**----- End of picture text -----**<br>


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**SCS210AG** 

Datasheet 

## l **Electrical characteristic curves** 

Fig.5 Typical Transient Thermal Impedance vs. Pulse Width 

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10<br>1<br>0.1<br>Tc=25ºC<br>Single Pulse<br>0.01<br>1.E-4 1.E-3 1.E-2 1.E-1 1.E+0 1.E+1<br>[K/W]<br>thJC<br>Transient Thermal  Impedance : Z<br>**----- End of picture text -----**<br>


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Power Dissipation [W]<br>**----- End of picture text -----**<br>


Pulse Width : PW [s] 

Fig.7*[4] Maximum peak forward current derating curve IP - Tc 

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120<br>Duty =<br>0.1<br>100 0.2<br>0.5<br>0.8<br>80 Duty increase D.C.<br>60<br>40<br>20<br>0<br>25 50 75 100 125 150 175<br> [A]<br>P<br>Peak Forward Current : I<br>**----- End of picture text -----**<br>


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 [A]<br>P<br>Peak Forward Current : I<br>**----- End of picture text -----**<br>


Case Temperature : Tc [ºC] 

*4 Based on max Vf, max RthJC Valid for switching of above 10kHz, excluding D.C. curve. 

## Fig.6 Power Dissipation 

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90<br>80<br>70<br>60<br>50<br>40<br>30<br>20<br>10<br>0<br>25 50 75 100 125 150 175<br>**----- End of picture text -----**<br>


Case Temperature : Tc [ºC] 

Fig.8*[5] Typical peak forward current derating curve IP - Tc (Not guaranteed) 

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120<br>Duty =<br>0.1<br>100 Duty increase 0.2<br>0.5<br>0.8<br>D.C.<br>80<br>60<br>40<br>20<br>0<br>25 50 75 100 125 150 175<br>Case Temperature : Tc [ºC]<br>*5 Based on typ Vf, typ RthJC<br>Typical value, not guaranteed<br>Valid for switching of above 10kHz,<br>excluding D.C. curve<br>**----- End of picture text -----**<br>


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**SCS210AG** 

Datasheet 

## l **Electrical characteristic curves** 

Fig.9 Surge non-repetitive forward current vs. Pulse width (Sinusoidal waveform) 

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1000<br>100<br>T =25ºC<br>vj<br>Single Pulse<br>10<br>0.00001 0.0001 0.001 0.01<br>Pulse Width : PW [s]<br>Symplified forward characteristic model<br>Fig.11 Equivalent forward current curve<br>1/R<br>V diff<br>th<br>Forward Voltage : VF<br> [A]<br>FSM<br>J]<br>[mC<br>Capacitance stored energy : E<br>Surge non-repetitive forward current : I<br>F<br>Forward Current : I<br>**----- End of picture text -----**<br>


## l **Symplified forward characteristic model** 

Fig.10 Typical capacitance store energy 

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10<br>9<br>8<br>7<br>6<br>5<br>4<br>3<br>2<br>1<br>0<br>0 200 400 600<br>Reverse Voltage : VR [V]<br>**----- End of picture text -----**<br>


|-1<br>-3<br>-2<br>-4<br>-6<br>Ω/°C2<br>a1<br>b0<br>b1<br>b2<br>V/°C<br>Ω<br>Ω/°C<br>a0<br>Typical Value<br>Unit<br>V<br>× 10<br>9.35<br>Symbol<br>× 10<br>× 10<br>× 10<br>× 10<br>-1.12<br>3.98<br>1.02<br>1.08<br>VF= Vth+ RdiffIF<br>Vth( Tvj) = a0+ a1Tvj<br>Rdiff( Tvj) = b0+ b1Tvj+ b2Tvj<br>2|-1<br>-3<br>-2<br>-4<br>-6<br>Ω/°C2<br>a1<br>b0<br>b1<br>b2<br>V/°C<br>Ω<br>Ω/°C<br>a0<br>Typical Value<br>Unit<br>V<br>× 10<br>9.35<br>Symbol<br>× 10<br>× 10<br>× 10<br>× 10<br>-1.12<br>3.98<br>1.02<br>1.08<br>VF= Vth+ RdiffIF<br>Vth( Tvj) = a0+ a1Tvj<br>Rdiff( Tvj) = b0+ b1Tvj+ b2Tvj<br>2|-1<br>-3<br>-2<br>-4<br>-6<br>Ω/°C2<br>a1<br>b0<br>b1<br>b2<br>V/°C<br>Ω<br>Ω/°C<br>a0<br>Typical Value<br>Unit<br>V<br>× 10<br>9.35<br>Symbol<br>× 10<br>× 10<br>× 10<br>× 10<br>-1.12<br>3.98<br>1.02<br>1.08<br>VF= Vth+ RdiffIF<br>Vth( Tvj) = a0+ a1Tvj<br>Rdiff( Tvj) = b0+ b1Tvj+ b2Tvj<br>2|
|---|---|---|
|Symbol|Typical Value|Unit|
|a0|-1<br>× 10<br>9.35|V|
|a1|-3<br>× 10<br>-1.12|V/°C|
|b0|-2<br>× 10<br>3.98|Ω|
|b1|-4<br>× 10<br>1.02|Ω/°C|
|b2|-6<br>× 10<br>1.08|Ω/°C2|



Tvj in[o] C; -55[o] C <  Tvj < 175[o] C ; IF < 20 A 

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**SCS210AG** 

Datasheet 

## l **Dimensions** (Unit : mm) 

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**SCS210AG** 

Datasheet 

## l **Die Bonding Layout** 

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6.96mm<br>:Die position<br>**----- End of picture text -----**<br>


・Front view of the packaging. 

- ・Dimensions are design values. 

・If the heat sink is to be installed, it should be in contact with the die bonding point. 

Unit: mm 

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Notice 

- **N o t e s** 

- 1) The information contained herein is subject to change without notice. 2) Before you use our Products, please contact our sales representative and verify the latest specifications. 

- 3) Although ROHM is continuously working to improve product reliability and quality, semiconductors can break down and malfunction due to various factors. Therefore, in order to prevent personal injury or fire arising from failure, please take safety measures such as complying with the derating characteristics, implementing redundant and fire prevention designs, and utilizing backups and fail-safe procedures. ROHM shall have no responsibility for any damages arising out of the use of our Poducts beyond the rating specified by ROHM. 

- 4) Examples of application circuits, circuit constants and any other information contained herein are provided only to illustrate the standard usage and operations of the Products. The peripheral conditions must be taken into account when designing circuits for mass production. 

- 5) The technical information specified herein is intended only to show the typical functions of and examples of application circuits for the Products. ROHM does not grant you, explicitly or implicitly, any license to use or exercise intellectual property or other rights held by ROHM or any other parties. ROHM shall have no responsibility whatsoever for any dispute arising out of the use of such technical information. 

- 6) The Products specified in this document are not designed to be radiation tolerant. 7) For use of our Products in applications requiring a high degree of reliability (as exemplified below), please contact and consult with a ROHM representative : transportation equipment (i.e. cars, ships, trains), primary communication equipment, traffic lights, fire/crime prevention, safety equipment, medical systems, and power transmission systems. 

- 8) Do not use our Products in applications requiring extremely high reliability, such as aerospace equipment, nuclear power control systems, and submarine repeaters. 

- 9) ROHM shall have no responsibility for any damages or injury arising  from non-compliance with the recommended usage conditions and specifications contained herein. 

- 10) ROHM has used reasonable care to ensure the accuracy of the information contained  in this document. However, ROHM does not warrants that such information is error-free, and ROHM shall have no responsibility for any damages arising from any inaccuracy or misprint of such information. 

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- 13) This document, in part or in whole, may not be reprinted or reproduced without prior consent of ROHM. 

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R1107 S 

Datasheet 

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1. Before you use our Products, you are requested to carefully read this document and fully understand its contents. ROHM shall not be in any way responsible or liable for failure, malfunction or accident arising from the use of any ROHM’s Products against warning, caution or note contained in this document. 

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**Rev.001** 

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