UJ3D1725K2

Silicon Carbide Schottky Diode, Single, 1.7 kV, 25 A, 184 nC, TO-247

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Manufacturer: ONSEMI
Product type: Silicon Carbide Schottky Diodes
SVHC: No SVHC (17-Jan-2023)
No. of Pins: 2 Pin
Product Range: -
Qualification: AEC-Q101
Diode Mounting: Through Hole
Diode Case Style: TO-247
Diode Configuration: Single
Average Forward Current: 25A
Total Capacitive Charge: 184nC
Operating Temperature Max: 175°C
Repetitive Peak Reverse Voltage: 1.7kV

Delivery and price
Units per pack	600
Price	9.08 €
Current stock	10+
Lead time	30 days

Datasheet

## 25A - 1700V SiC Schottky Diode 

Rev. A, September 2020 

## DATASHEET 

## Description 

## UJ3D1725K2 

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CASE CASE<br>1 2<br>1 2<br>**----- End of picture text -----**<br>


UnitedSiC offers the 3[rd] generation of  high performance SiC MergedPiN-Schottky (MPS) diodes. With zero reverse recovery charge and 175°C maximum junction temperature, these diodes are ideally suited for high frequency and high efficiency power systems with minimum cooling requirements. 

## Features 

- w  Maximum operating temperature of 175°C 

- w  Easy paralleling 

- w  Extremely fast switching not dependent on temperature 

- w  No reverse or forward recovery 

- w  Enhanced surge current capability, MPS structure 

- w  100% UIS tested 

- w  AEC-Q101 qualified 

## Typical applications 

- w  Power converters 

Part Number Package Marking UJ3D1725K2 TO-247-2L UJ3D1725K2 ~~———_+—_}—__—~~ 

- w  Industrial motor drives 

- w  Switch mode power supplies 

- w  Power factor correction modules 

Datasheet: UJ3D1725K2 

Rev. A, September 2020 

1 

## Maximum Ratings 

|Parameter|Symbol<br>Value<br>Test Conditions|Units|
|---|---|---|
|Repetitivepeak reverse voltage, TJ=25°C<br>Non-repetitive forward surge current<br>sine halfwave<br>Maximum DC forward current<br>DC blockingvoltage<br>Surgepeak reverse voltage|VR<br>1700<br>VRRM<br>1700<br>VRSM<br>1700<br>IF<br>25<br>180<br>163<br>Non-repetitive forward surge current<br>IFSM<br>TC= 110°C, tp= 10ms<br>TC= 25°C, tp= 10ms<br>TC= 138°C<br>~~a~~<br>~~eeee~~<br>~~Aed~~<br>~~pF~~|V<br>V<br>V<br>A<br>A|
|Repetitive forward surge current<br>sine halfwave, D=0.1|117<br>68.7<br>Repetitive forward surge current<br>IFRM<br>TC= 25°C, tp= 10ms<br>TC= 110°C, tp= 10ms<br>~~pF~~|A|
|Non-repetitive peak forward current|1100<br>1100<br>IF,max<br>TC= 25°C, tp= 10ms<br>TC= 110°C, tp= 10ms<br>~~pF~~|A|
|Power dissipation<br>i2t value<br>Soldering temperatures, wavesoldering only<br>allowed at leads<br>Maximumjunction temperature<br>Operatingand storage temperature|162<br>133<br>283<br>69.8<br>TJ,max<br>175<br>TJ,TSTG<br>-55 to 175<br>Tsold<br>260<br>Ptot<br>TC= 25°C<br>TC= 138°C<br>i2dt<br>TC= 25°C, tp= 10ms<br>TC= 110°C, tp= 10ms<br>1.6mm from case for 10s<br>~~pF~~<br>~~—a~~<br>~~es~~|°C<br>°C<br>°C<br>W<br>A2s|



## Thermal Characteristics 

|||||Value|||
|---|---|---|---|---|---|---|
|Parameter|Symbol|Test Conditions|Min|Typ|Max|Units|
|Thermal resistance, junction-to-case|RqJC|||0.41|0.53|°C/W|



Datasheet: UJ3D1725K2 

Rev. A, September 2020 

2 

## Electrical Characteristics (TJ = +25°C unless otherwise specified) 

|||||Value|||
|---|---|---|---|---|---|---|
|Parameter|Symbol|Test Conditions|Min|Typ|Max|Units|
|||IF= 25A, TJ=25°C|-|1.54|1.7||
|Forward voltage|VF|IF= 25A, TJ=150°C|-|2.1||V|
|||IF= 25A, TJ=175°C|-|2.3|2.75||
|||VR=1700V, TJ=25°C|-<br>=25°C|24|360||
|Reverse current|IR|VR=1700V, TJ=175°C|-<br>=175°C|950||mA|
|Total capacitive charge(1)|QC|VR=1200V||184||nC|
|||VR=1V, f = 1MHz||1500|||
|Total capacitance|C|VR=800V, f = 1MHz||100||pF|
|||VR=1700V, f = 1MHz||80|||
|Capacitance stored energy|EC|VR=1200V||78||mJ|



(1)  Qc is independent on TJ, diF/dt, and IF as shown in the application note USCi_AN0011. 

## Typical Performance Diagrams 

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50 150<br>PEP 125 2040oe<br>40<br>100<br>30 Pe are<br>75<br>20 mney - 55°C TD Aeep - 55°C<br>  25°C<br>50   25°C<br>100°C<br>100°C<br>10 150°C<br>25 150°C<br>175°C<br>175°C<br>a Ane fo.<br>0 0<br>0 0.5 1 1.5 2 2.5 3 3.5 4 0 1 2 3 4 5 6 7 8<br>Forward Voltage, VF (V) Forward Voltage, VF (V)<br>(A) (A)<br>F F<br>Forward Current, I Forward Current, I<br>**----- End of picture text -----**<br>


Figure 1. Typical forward characteristics 

Figure 2. Typical forward characteristics in surge current 

Datasheet: UJ3D1725K2 

Rev. A, September 2020 

3 

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1.E-0310 [-3] 300<br>- 55°C<br>  25°C 250<br>= >) FT<br>1.E-0410 [-4] 125°C<br>200<br>175°C<br>== MO SERERNGE E S<br>1.E-0510 [-5] paar aae4 150 PEEL<br>100<br>1.E-0610 [-6] ee fA FN<br>50<br>a7.aa SEL N G<br>1.E-0710 [-7] 0<br>300 650 1000 1350 1700 -75 -50 -25 0 25 50 75 100 125 150 175<br>Reverse Voltage, VR (V) TC (°C)<br>Figure 3. Typical reverse characteristics Figure 4. Power dissipation<br>250 1<br>D = 0.1<br>D = 0.3<br>200 D = 0.5<br>D = 0.7<br>D = 1.0 0.1<br>< =] SS<br>150<br>D = 0.5<br>D = 0.3<br>100 a e ~. D = 0.1<br>0.01<br>D = 0.05<br>50 D = 0.02<br>Single Pulse<br>0 SEEN EES 0.001 a 1—<br>25 50 75 100 125 150 175 1.E-05 1.E-04 1.E-03 1.E-02 1.E-01 1.E+00<br>TC ( ° C) Time , t (s)<br>(W)<br>(A)<br>R Tot<br>Reverse Current, I Power Disspiation, P<br>(°C/W)<br>(A)<br>Forward Current, IF  Max. Thermal Impedance, ZJCq<br>**----- End of picture text -----**<br>


Figure 5. Diode forward current 

Figure 6. Maximum transient thermal impedance 

Datasheet: UJ3D1725K2 

Rev. A, September 2020 

4 

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2000 250<br>1750<br>—T 200 FTI]? Ji<br>TINE S<br>1500<br>1250 oe Sap 268<br>150<br>1000<br>INE =574000<br>100<br>750<br>ENE SY<br>500 𝑉𝑅<br>pe 50 ar QC =  ׬0 𝐶 𝑉𝑑𝑉<br>250<br>0 TNScy 0 fo | P?<br>0.01 0.1 1 10 100 1000 0 250 500 750 1000 1250 1500 1750<br>Reverse Voltage, VR (V) Reverse Voltage, VR (V)<br>(nC)<br>C<br>Q<br>Capacitance, C (pF)<br>**----- End of picture text -----**<br>


Figure 7. Capacitance vs. reverse voltage at 1MHz 

Figure 8. Typical capacitive charge vs. reverse voltage 

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160<br>PLL<br>140<br>120<br>SEPT<br>SCE<br>100<br>x<br>An<br>80<br>60<br>SCeyT yy<br>40 ee<br>een<br>20<br>7A<br>0<br>0 250 500 750 1000 1250 1500 1750<br>Reverse Voltage, VR (V)<br>J)<br>m<br>(<br>C<br>E<br>**----- End of picture text -----**<br>


Figure 9. Typical capacitance stored energy vs. reverse voltage 

Datasheet: UJ3D1725K2 

Rev. A, September 2020 

5 

## Disclaimer 

UnitedSiC reserves the right to change or modify any of the products and their inherent physical and technical specifications without prior notice. UnitedSiC assumes no responsibility or liability for any errors or inaccuracies within. 

Information on all products and contained herein is intended for description only. No license, express or implied, to any intellectual property rights is granted within this document. 

UnitedSiC assumes no liability whatsoever relating to the choice, selection or use of the UnitedSiC products and services described herein. 

Datasheet: UJ3D1725K2 

Rev. A, September 2020 

6

Updated at April 28, 2026

onsemi is a premier global supplier of intelligent power and sensing technologies, driving disruptive innovations across the automotive, industrial, and cloud infrastructure markets. Recognized for their commitment to sustainability and reliable supply chains, the company accelerates advancements in vehicle electrification, industrial automation, and 5G networks by solving the industry's most complex design challenges. At the core of their portfolio is an industry-leading selection of discrete semiconductors. This extensive range features thousands of high-performance bipolar transistors, single and dual MOSFETs, and a comprehensive array of diodes, including Zener, Schottky, and fast-recovery rectifiers. Engineered for superior thermal performance and energy efficiency, these foundational components are critical for demanding power conversion, switching, and signal conditioning applications. Beyond essential discretes, onsemi provides a robust suite of advanced power management and circuit protection solutions. Their lineup includes intelligent power modules, single IGBTs, and transient voltage suppression (TVS) diodes designed to safeguard sensitive circuitry. Complimented by integrated passive filters, AC/DC LED driver ICs, and specialized sub-2.4GHz RF transceivers, onsemi equips engineers with the scalable, high-quality technologies needed to build a cleaner, smarter, and more connected world.

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