# Schottky Rectifier, 60 V, 40 A, Dual Common Cathode, TO-263 (D2PAK), 3 Pins, 770 mV

![Product image](https://novapart.co/image/farnell:2806770/)

**URL**: https://novapart.co/products/STPS41L60CG-TR/schottky-rectifier-60-v-40-a-dual-common-cathode
**SKU**: STPS41L60CG-TR
**Manufacturer**: STMICROELECTRONICS
**Category**: Semiconductors - Discretes || Diodes & Rectifiers || Schottky Diodes || Schottky Rectifier Diodes
**Price**: €0.9400
**Stock**: 500+
**Lead Time**: 127 days (indicative)

## Description

Repetitive Reverse Voltage Vrrm Max:60V; Forward Current If(AV):40A; Diode Configuration:Dual Common Cathode; Diode Case Style:TO-263; No. of Pins:3Pins; Forward Voltage VF Max:770mV; Fo

## Specifications

| Parameter | Value |
|---|---|
| Svhc | No SVHC (25-Jun-2025) |
| No. Of Pins | 3Pins |
| Product Range | - |
| Qualification | - |
| Diode Mounting | Surface Mount |
| Diode Case Style | TO-263 (D2PAK) |
| Diode Configuration | Dual Common Cathode |
| Forward Voltage Max | 770mV |
| Forward Surge Current | 220A |
| Average Forward Current | 40A |
| Operating Temperature Max | 150°C |
| Repetitive Peak Reverse Voltage | 60V |

## Datasheet

📄 [Download PDF](https://novapart.co/datasheet/farnell:2806770/)

ky 

**CD00002861** 

**Rev 6.1 IN APPROVAL** 

**PAGE A** 

**==> picture [161 x 15] intentionally omitted <==**

**----- Start of picture text -----**<br>
Power Schottky rectifier<br>**----- End of picture text -----**<br>


**Technical Literature CUSTOM ATTRIBUTES Alternate Identifier(s)** 8616 **Key process** Product Development **ISO Definition** Specification **Confidentiality Level** Public **Document Type** Technical Literature **Document Category** Datasheet **Document Family Original ID Original Repository** 

**Status** 

IN APPROVAL 

**Responsible** 

**Keywords** 

Caramanna Marcello 

Technical Literature, 8616, Product Development, Specification, Datasheet, STPS41L60C, 

NOTICE: This document may have been revised since it was printed. Check Document Control System for latest version before using or copying. © Copyright STMicroelectronics. Unauthorized reproduction and communication strictly prohibited. 

## **DOCUMENT HISTORY** 

|**Version**|**Release Date**|**Change Qualifier**|
|---|---|---|
|Rev 6.1||Document change|
|07/01/2014 AUTOMATIC REVALIDATION DATE WORKFLOW STARTED|||



ky 

**CD00002861** 

**Rev 6.1 IN APPROVAL** 

**PAGE C** 

## **DOCUMENT APPROVAL** 

|**LABEL**||**USER FUNCTION**|**DATE**|
|---|---|---|---|
|Donohoo Sean Michael||Document Controller|17-Apr-2015|
|Draft - Draft - Draft||||



NOTICE: This document may have been revised since it was printed. Check Document Control System for latest version before using or copying. © Copyright STMicroelectronics. Unauthorized reproduction and communication strictly prohibited. 

**Document CD00002861 Revision 6.1** 

**IN APPROVAL** 

**4 / 12** 

**==> picture [62 x 39] intentionally omitted <==**

## **STPS41L60C** 

## Power Schottk rectifier y 

## **Features** 

**==> picture [463 x 424] intentionally omitted <==**

**----- Start of picture text -----**<br>
Features<br>A1<br>■ Low forward voltage drop<br>K<br>■ Negligible switching losses<br>■ Low thermal resistance A2<br>■ Avalanche capability specified<br>K K<br>Description<br>These dual center tap Schottky rectifiers are<br>suited for switch mode power supplies and high  A2<br>K [A2]<br>frequency DC to DC converters. A1 A1 [K]<br>Packaged in D [2] PAK, I [2] PAK and TO-220AB, this  I [2] PAK TO-220AB<br>device is intended for use in low voltage, high<br>STPS41L60CR STPS41L60CT<br>frequency inverters, free-wheeling and polarity<br>protection applications.<br>K<br>Figure 1. Electrical characteristics  [(a)]<br>V I A2<br>I "Forward" A1<br>2 x IO X<br>D [2] PAK<br>IF STPS41L60CG<br>IO X<br>VRRM<br>VAR VR<br>V Table 1. Device summary<br>IR<br>I 2 x 20 A<br>VTo VF(Io) VF VF(2xIo) F(AV)<br>"Reverse" VRRM  60 V<br>T 150 °C<br>j (max)<br>IAR V  0.58 V<br>F (max)<br>Draft - Draft - Draft<br>**----- End of picture text -----**<br>


- a. VARM and IARM must respect the reverse safe operating area defined in _Figure 12_ VAR and IAR are pulse measurements (tp < 1 µs). VR, IR, VRRM and VF, are static characteristics 

July 2011 

1/9 

Doc ID 8616 Rev 6 

_www.st.com_ 

**Copyright STMicroelectronics                                                                                      Company Internal                                                      Unauthorized reproduction and communication strictly prohibited** 

**Document CD00002861 Revision 6.1 Characteristics** 

**IN APPROVAL** 

**5 / 12 STPS41L60C** 

## **1 Characteristics** 

## **Table 2. Absolute ratings (limiting values, per diode)** 

**==> picture [462 x 208] intentionally omitted <==**

**----- Start of picture text -----**<br>
||||||||
|---|---|---|---|---|---|---|
|Symbol|Parameter|Value|Unit|
|VRRM|Repetitive peak reverse voltage|60|V|
|I|Forward rms current|30|A|
|F(RMS)|
|TC = 125 °C|Per diode|20|
|IF(AV)|Average forward current|δ|= 0.5|Per device|40|A|
|IFSM|Surge non repetitive forward current|tp = 10 ms Sinusoidal|220|A|
|PARM(1)|Repetitive peak avalanche power|tp = 1 µs Tj = 25 °C|9500|W|
|VARM (2)|Maximum repetitive peak avalanche voltage|tp < 1 µs, Tj < 150 °C, IAR < 35 A|80|V|
|VASM (2)|Maximum single pulse peak avalanche voltage|tp < 1 µs, Tj < 150 °C, IAR < 35 A|80|V|
|Tstg|Storage temperature range|-65 to + 175|°C|
|Tj|Maximum operating junction temperature|[(3)]|150|°C|
|1.|For temperature or pulse time duration deratings, refer to|Figure 4|and|Figure 5|. More details regarding the avalanche|

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


energy measurements and diode validation in the avalanche are provided in the application notes AN1768 and AN2025. 

**==> picture [462 x 322] intentionally omitted <==**

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||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
|2.|Refer to|Figure 12|
|3.|dPtot---------------dTj|<|------------------------Rth|(|1j|–|a|-|)|condition to avoid thermal runaway for a diode on its own heatsink|
|Table 3.|Thermal resistances|
|Symbol|Parameter|Value|Unit|
|Per diode|1.5|
|R|Junction to case|
|th (j-c)|Total|0.8|°|C/W|
|Rth (c)|Coupling|0.1|
|When the diodes 1 and 2 are used simultaneously :|
|Δ|Tj(diode 1) = P(diode1) x Rth(j-c)(Per diode) + P(diode 2) x Rth(c)|
|Table 4.|Static electrical characteristics (per diode)|
|Symbol|Parameter|Tests conditions|Min.|Typ.|Max.|Unit|
|Tj = 25 °C|600|µA|
|IR|[(1)]|Reverse leakage current|VR = VRRM|
|T|= 125 °C|100|175|mA|
|j|
|Tj = 25 °C|IF = 20 A|0.60|
|Tj = 125 °C|IF = 20 A|0.50|0.58|
|VF|[(1)]|Forward voltage drop|V|
|Tj = 25 °C|IF = 40A|0.77|
|Tj = 125 °C|IF = 40A|0.67|0.71|

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


1. Pulse test: tp = 380 µs, δ < 2% 

To evaluate the conduction losses use the following equation: P = 0.42 x IF(AV) + 0.007 x IF2(RMS) 

2/9 

Doc ID 8616 Rev 6 

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**Document CD00002861 Revision 6.1 STPS41L60C** 

**IN APPROVAL** 

**6 / 12 Characteristics** 

**Figure 2. Conduction losses versus Figure 3. Average forward current versus average current ambient temperature (** δ **= 0.5)** 

**==> picture [457 x 529] intentionally omitted <==**

**----- Start of picture text -----**<br>
PF(av)(W) IF(av)(A)<br>16 22<br>14 Po) δ=0.5 δ=1 20 eeea Rth(j-a)=Rth(j-c)<br>poof [f] [p]<br>δ=0.2 18<br>12 Ff KE a a C C<br>δ=0.1 4) A 16 a CW<br>10 |__| | δ=0.05 41 An 1412 EEth<br>8<br>10<br>6 a a 2.0? Ae eee eee 8 aa a a a a T r\—<br>4 Po ae ae ee T ee 6 es Rth(j-a)=50 °C/W δ [=tp/T] tp 4<br>ny DV ee 4 a a —<br>2 DA 77 ee IF(av)(A) [| PL δ [=tp/T] P. tp 2 S a r 1<br>Tamb(°C)<br>0 A, | tT 0 a a<br>0 5 10 15 20 25 0 25 50 75 100 125 150<br>Figure 4. Normalized avalanche power  Figure 5. Normalized avalanche power<br>derating versus pulse duration derating versus junction<br>temperature<br>PARM(tp) PARM(Tj)<br>PARM(1 µs) PARM(25 °C)<br>1 _—SS SS SS SS = -- ES == 2S eee 1.2 a a a<br>_ EEa ee! aa A A SO SO NO GG NG GGG<br>1<br>es K E<br>A PNR<br>0.1 PIeS CTEee [CINE] ETETT | 0.8 ESSEREaOO<br>ee oo a a a aOO<br>[oTFEE| [TT] EEEPTEHATT) 0.6 OOeea OOaGG OO OO OOGG O<br>0.01 SoaPTESSEeeWTICIEEPRAETIeeTIENN PETepsTIAN)GG| SST | 0.4  EEEaee Ge EPROG SEE EE<br>0.0010.01 ecPETITE 0.1 1 tp(µs) TI 10 FETTI-T 100 Tl} 1000 0.20 25 SRRREEEEREEL 50 75 T (°C)j FREE 100  EERE 125 EE 150<br>Figure 6. Non repetitive surge peak forward  Figure 7. Relative variation of thermal<br>current versus overload duration  impedance junction to case versus<br>(maximum values) pulse duration<br>250 I ee M(A) 0 1.0 Zth(j-c) Single pulse /Rth(j-c) Cy Ct<br>225 a ee 0.9 RHEE<br>200 aa 0.8 O HtOeeere<br>ESS a<br>175 a 0.7 a<br>a a a 0<br>150 0SeS S Tc=25 °C H 0.6 a a<br>125 aa 0 i 0.5 aa<br>Tc=75 °C<br>100 ES ESE I 0.4 a a<br>Se e e a<br>75 a0 0.3<br>a Tc=125 °C T<br>50 I M TTT 0.2<br>25 U δ =0.5 t T t(s) S | | 0.1 aer tp(s) a t δ [=tp/T] e tp 7<br>0 ee | 0.0  eea t PE PE<br>1.E-03 1.E-02 1.E-01 1.E+00 1.E-03 1.E-02 1.E-01 1.E+00<br>Draft - Draft - Draft<br>**----- End of picture text -----**<br>


3/9 

Doc ID 8616 Rev 6 

**Copyright STMicroelectronics                                                                                      Company Internal                                                      Unauthorized reproduction and communication strictly prohibited** 

**Document CD00002861 Revision 6.1 Characteristics** 

**IN APPROVAL** 

**7 / 12 STPS41L60C** 

**Figure 8. Reverse leakage current versus Figure 9. Junction capacitance versus reverse voltage applied reverse voltage applied (typical values) (typical values)** 

**==> picture [462 x 504] intentionally omitted <==**

**----- Start of picture text -----**<br>
IR(mA) C(nF)<br>1.E+03 10.0<br>Tj=150°C F=1 MHz<br>VOSC= 30 mV<br>1.E+02 Tj=125°C Tj=25 °C<br>Tj=100°C<br>1.E+01<br>Tj=75°C 1.0<br>1.E+00 Tj=50°C<br>Tj=25°C<br>1.E-01<br>VR(V) VR(V)<br>1.E-02 0.1<br>0 5 10 15 20 25 30 35 40 45 50 55 60 1 10 100<br>Figure 10. Forward voltage drop versus  Figure 11. Thermal resistance junction to<br>forward current ambient versus copper surface<br>under tab (STPS41L60CG only)<br>IFM(A) Rth(j-a)(°C/W)<br>100 80<br>Epoxy printed circuit board<br>(Maximum values)Tj=125 °C 70 copper thickness = 35 µm<br>60<br>Tj=125 °C 50<br>(Typical values)<br>10 Tj=25 °C 40<br>(Maximum values)<br>30<br>20<br>10<br>VFM(V) S(cm²)<br>1 0<br>0.0 0.2 0.4 0.6 0.8 1.0 1.2 0 5 10 15 20 25 30 35 40<br>Figure 12. Reverse safe operating area (tp < 1 µs, Tj > 150 °C)<br>IARM (A)<br>50<br>45 Forbidden area<br>40<br>35<br>Operating area<br>30<br>25<br>VARM (V)<br>20<br>60 65 70 75 80 85 90<br>Draft - Draft - Draft<br>**----- End of picture text -----**<br>


4/9 

Doc ID 8616 Rev 6 

**Copyright STMicroelectronics                                                                                      Company Internal                                                      Unauthorized reproduction and communication strictly prohibited** 

**Document CD00002861 Revision 6.1 STPS41L60C** 

**IN APPROVAL** 

**8 / 12** 

**Package information** 

## **2 Package information** 

- Epoxy meets UL94,V0 

- Cooling method: by conduction (C) 

- Recommended torque value: 0.4 to 0.6 N·m 

In order to meet environmental requirements, ST offers these devices in different grades of ECOPACK[®] packages, depending on their level of environmental compliance. ECOPACK[®] specifications, grade definitions and product status are available at: _www.st.com_ . ECOPACK[®] is an ST trademark. 

|**Copyright STMicr**||**Figure 13.**|**Figure 13.**|**Figure 13.**|**Package dimensions I2PAK**|**Package dimensions I2PAK**|**Package dimensions I2PAK**||5/9<br>**Dimensions**<br>**Millimeters**<br>**Inches**<br>**Min.**<br>**Max.**<br>**Min.**<br>**Max.**<br>4.40<br>4.60<br>0.173<br>0.181<br>2.49<br>2.69<br>0.098<br>0.106<br>0.70<br>0.93<br>0.028<br>0.037<br>1.14<br>1.17<br>0.044<br>0.046<br>1.14<br>1.17<br>0.044<br>0.046<br>0.45<br>0.60<br>0.018<br>0.024<br>1.23<br>1.36<br>0.048<br>0.054<br>8.95<br>9.35<br>0.352<br>0.368<br>2.40<br>2.70<br>0.094<br>0.106<br>10.0<br>10.4<br>0.394<br>0.409<br>13.1<br>13.6<br>0.516<br>0.535<br>3.48<br>3.78<br>0.137<br>0.149<br>1.27<br>1.40<br>0.050<br>0.055<br>**Unauthorized reproduction and communication strictly prohibited**<br>aft|5/9<br>**Dimensions**<br>**Millimeters**<br>**Inches**<br>**Min.**<br>**Max.**<br>**Min.**<br>**Max.**<br>4.40<br>4.60<br>0.173<br>0.181<br>2.49<br>2.69<br>0.098<br>0.106<br>0.70<br>0.93<br>0.028<br>0.037<br>1.14<br>1.17<br>0.044<br>0.046<br>1.14<br>1.17<br>0.044<br>0.046<br>0.45<br>0.60<br>0.018<br>0.024<br>1.23<br>1.36<br>0.048<br>0.054<br>8.95<br>9.35<br>0.352<br>0.368<br>2.40<br>2.70<br>0.094<br>0.106<br>10.0<br>10.4<br>0.394<br>0.409<br>13.1<br>13.6<br>0.516<br>0.535<br>3.48<br>3.78<br>0.137<br>0.149<br>1.27<br>1.40<br>0.050<br>0.055<br>**Unauthorized reproduction and communication strictly prohibited**<br>aft|5/9<br>**Dimensions**<br>**Millimeters**<br>**Inches**<br>**Min.**<br>**Max.**<br>**Min.**<br>**Max.**<br>4.40<br>4.60<br>0.173<br>0.181<br>2.49<br>2.69<br>0.098<br>0.106<br>0.70<br>0.93<br>0.028<br>0.037<br>1.14<br>1.17<br>0.044<br>0.046<br>1.14<br>1.17<br>0.044<br>0.046<br>0.45<br>0.60<br>0.018<br>0.024<br>1.23<br>1.36<br>0.048<br>0.054<br>8.95<br>9.35<br>0.352<br>0.368<br>2.40<br>2.70<br>0.094<br>0.106<br>10.0<br>10.4<br>0.394<br>0.409<br>13.1<br>13.6<br>0.516<br>0.535<br>3.48<br>3.78<br>0.137<br>0.149<br>1.27<br>1.40<br>0.050<br>0.055<br>**Unauthorized reproduction and communication strictly prohibited**<br>aft|5/9<br>**Dimensions**<br>**Millimeters**<br>**Inches**<br>**Min.**<br>**Max.**<br>**Min.**<br>**Max.**<br>4.40<br>4.60<br>0.173<br>0.181<br>2.49<br>2.69<br>0.098<br>0.106<br>0.70<br>0.93<br>0.028<br>0.037<br>1.14<br>1.17<br>0.044<br>0.046<br>1.14<br>1.17<br>0.044<br>0.046<br>0.45<br>0.60<br>0.018<br>0.024<br>1.23<br>1.36<br>0.048<br>0.054<br>8.95<br>9.35<br>0.352<br>0.368<br>2.40<br>2.70<br>0.094<br>0.106<br>10.0<br>10.4<br>0.394<br>0.409<br>13.1<br>13.6<br>0.516<br>0.535<br>3.48<br>3.78<br>0.137<br>0.149<br>1.27<br>1.40<br>0.050<br>0.055<br>**Unauthorized reproduction and communication strictly prohibited**<br>aft|
|---|---|---|---|---|---|---|---|---|---|---|---|---|
|||**L2**<br>**L**||||||**Ref.**<br>|**Dimensions**<br>||||
||||||||||**Millimeters**<br>ft||**Inches**||
||||||||||||||
||||||||||**Min.**<br>a|**Max.**|**Min.**|**Max.**|
|||||||**E**<br>|||||||
|||||||||A<br>|4.40<br>|4.60|0.173|0.181|
|||||||||A1<br>b<br>|2.49<br>070<br>|2.69<br>093|0.098<br>0028|0.106<br>0037|
||||||||||||||
|||||||||<br>b1<br>-|.<br>1.14<br>|.<br>1.17|.<br>0.044|.<br>0.046|
|||||||||b2<br>|1.14<br>|1.17|0.044|0.046|
||||||||||||||
|||||||||c<br>|0.45<br>|0.60|0.018|0.024|
|||||**L1**||**e**<br>||<br>c2<br>|<br>1.23<br>|<br>1.36|<br>0.048|<br>0.054|
|||||||||D<br>|8.95<br>|9.35|0.352|0.368|
|||||||||e<br>|2.40<br>|2.70|0.094|0.106|
|||||||||E<br>|10.0<br>|10.4|0.394|0.409|
|||||||||L<br>|13.1<br>|13.6|0.516|0.535|
|||||||||L1<br>|3.48<br>|3.78|0.137|0.149|
|||||||||L2<br>|1.27<br>|1.40|0.050|0.055|
|||||||Doc ID 8616 Rev 6<br>Dr|||||||
||**oelectronics**|||||**Company Internal**|||||||



**Document CD00002861 Revision 6.1 IN APPROVAL Package information** 

**9 / 12 STPS41L60C** 

**Figure 14. Package dimensions D[2] PAK** 

|**L**||||**ESS THAN 2mm**<br>**A**<br>**D**<br>**R**<br>**V2**<br>raft|**Ref.**|**Ref.**|**Ref.**|**Dimensions**|**Dimensions**|**Dimensions**|**Dimensions**|
|---|---|---|---|---|---|---|---|---|---|---|---|
|||||||||**Millimeters**||**Inches**||
|||||||||**Min.**|**Max.**|**Min.**|**Max.**|
||**L2**|||||||||||
||||||A|||4.40|4.60|0.173|0.181|
|||||||||||||
||||||A1|||2.49|2.69|0.098|0.106|
|||||||||||||
||||||A2|||0.03|0.23|0.001|0.009|
||**L3**||||B|||0.70|0.93|0.027|0.037|
||||||B2|||1.14|1.70|0.045|0.067|
||||||C<br>|||0.45<br>|0.60|0.017|0.024|
||||||C2<br>|||1.23<br>t|1.36|0.048|0.054|
|||||||||||||
||||||D<br>|||8.95<br>|9.35|0.352|0.368|
||||||E<br>r|||10.00<br>|10.40|0.393|0.409|
||||||G<br>|||4.88<br>|5.28|0.192|0.208|
||||||L<br>|||15.00<br>|15.85|0.590|0.624|
||||||-|L2<br>||1.27<br>|1.40|0.050|0.055|
|||||||L3<br>||1.40<br>|1.75|0.055|0.069|
|||||||M<br>||2.40<br>|3.20|0.094|0.126|
|||||||R<br>||0.40 typ.<br>||0.016 typ.||
|||||||V2<br>||0°<br>|8°|0°|8°|
|**Figure 15.**<br>**Footprint**<br>-||||||||||||
|**10.30**<br>Draft|||||||**70**<br>**5.08**<br>**1.30**<br>|||||
|||||**16.90**<br>||||||||
|||||||||||||
|||||||||||||
|||||**8.90**<br>||||||||
|||||||**3.**||||||
|||||||||||||



6/9 

Doc ID 8616 Rev 6 

**Copyright STMicroelectronics                                                                                      Company Internal                                                      Unauthorized reproduction and communication strictly prohibited** 

**Document CD00002861 Revision 6.1 STPS41L60C** 

**IN APPROVAL** 

**10 / 12 Package information** 

|**Figure 16.**|**Figure 16.**|**Package**|**Package**|**dimensions TO-220AB**|**dimensions TO-220AB**|||||
|---|---|---|---|---|---|---|---|---|---|
|**L2**|||||**Ref.**|**Dimensions**||||
|||||||**Millimeters**||**Inches**||
|||||||**Min.**|**Max.**|**Min.**|**Max.**|
||||||A|4.40|4.60|0.173|0.181|
||||||C|1.23|1.32|0.048|0.051|
||||**H2**|||||||
|||**D**|**ia**||D|2.40|2.72|0.094|0.107|
||||||E|0.49|0.70|0.019|0.027|
|||||**L5**<br>||||||
||||||F|0.61|0.88|0.024|0.034|
||**F2**<br>**F1**|||||||||
||||||F1<br>|1.14<br>|1.70|0.044|0.066|
|||||||||||
||||||F2<br>|1.14<br>ft|1.70|0.044|0.066|
||||||G<br>|4.95<br>|5.15|0.194|0.202|
||||**G**<br>||G1<br>|2.40<br>|2.70|0.094|0.106|
||**F**<br>**G1**<br>|||||||||
||||||H2<br>|10<br>|10.40|0.393|0.409|
||||||L2<br>|16.4 typ.<br>||0.645 typ.||
||||||L4<br>-|13<br>|14|0.511|0.551|
||||||L5<br>|2.65<br>|2.95|0.104|0.116|
||||||L6<br>|15.25<br>|15.75|0.600|0.620|
||||||L7<br>|6.20<br>|6.60|0.244|0.259|
||||||L9<br>|3.50<br>|3.93|0.137|0.154|
||||||M<br>|2.6 typ.<br>||0.102 typ.||
||||||Diam.<br>|3.75<br>|3.85|0.147|0.151|
||Draft|||||||||



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Doc ID 8616 Rev 6 

**Copyright STMicroelectronics                                                                                      Company Internal                                                      Unauthorized reproduction and communication strictly prohibited** 

**Document CD00002861 Revision 6.1 Ordering information** 

**IN APPROVAL** 

**11 / 12 STPS41L60C** 

## **3 Ordering information** 

## **Table 5. Ordering information** 

|**Order code**|**Marking**|**Package**|**Weight**|**Base qty**|**Delivery**<br>**mode**|
|---|---|---|---|---|---|
|STPS41L60CG|STPS41L60CG|D2PAK|1.48 g|50|Tube|
|STPS41L60CG-TR|STPS41L60CG|D2PAK|1.48 g|1000|Tape and reel|
|STPS41L60CT|STPS41L60CT|TO-220AB|2.20 g|50|Tube|
|STPS41L60CR|STPS41L60CR|I2PAK|1.49 g|50|Tube|



|**Revision history**<br>**Table 6.**<br>**Document revision history**<br>Draft|**Revision history**<br>**Table 6.**<br>**Document revision history**<br>Draft|**Revision history**<br>**Table 6.**<br>**Document revision history**<br>Draft|
|---|---|---|
|**Date**<br>|**Revision**<br>|**Changes**<br>|
|July 2003<br>|3A<br>|Previous issue<br>-|
|10-Jan-2007<br>|4<br>|Reformated to current standards. Added ECOPACK statement<br>Removed IRRMand dV/dT from the Absolute ratings table on page 1.<br>Updated reverse leakage current values in Table 3 and Figure 7.<br>aft|
|28-May-2007<br>|5<br>|Updated figures 1, 2, and 5 to 10.<br>r|
|15-Jul-2011<br>|6<br>|Added electrical diagram on first page. Added parameters VARMand<br>VASMto_Table 2_. Added_Figure 12_.<br>D|
|Draft -|||



## **4 Revision history** 

8/9 

Doc ID 8616 Rev 6 

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**Document CD00002861 Revision 6.1 IN APPROVAL STPS41L60C** 

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Doc ID 8616 Rev 6 9/9 

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## Links

- [View this product on Novapart](https://novapart.co/products/STPS41L60CG-TR/schottky-rectifier-60-v-40-a-dual-common-cathode)
- [Request a quote for this part](https://novapart.co/quote/)
- [Supplier page](https://es.farnell.com/stmicroelectronics/stps41l60cg-tr/schottky-rect-dual-60v-to-263/dp/2806770)
---

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