MBRF30L60CTG

## Switch-mode Power Rectifier 

## 60 V, 30 A 

## MBR30L60CTG, MBRF30L60CTG 

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## **Features and Benefits** 

- Low Forward Voltage 

- Low Power Loss/High Efficiency 

- High Surge Capability 

- 30 A Total (15 A Per Diode Leg) 

**SCHOTTKY BARRIER RECTIFIER 30 AMPERES, 60 VOLTS** 

- Guard−Ring for Stress Protection 

- These Devices are Pb−Free and are RoHS Compliant 

## **Applications** 

- Power Supply − Output Rectification 

1 2, 4 3 ~~=ar~~ 

- Power Management 

- Instrumentation 

## **Mechanical Characteristics:** 

- Case: Epoxy, Molded 

- Epoxy Meets UL 94 V−0 @ 0.125 in 

- Weight (Approximately): 1.9 Grams (TO−220 & TO−220FP) 

- Finish: All External Surfaces Corrosion Resistant and Terminal Leads are Readily Solderable 

- Lead Temperature for Soldering Purposes: 260°C Max. for 10 Seconds 

**MARKING** ~~y~~ 4 **DIAGRAMS TO−220** AYWW **CASE 221A** B30L60G **STYLE 6** AKA 1 2 

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~~S[oO~~ AYWW B30L60G **TO−220 FULLPAK** AKA **CASE 221D** 1 _ ~~—~~ 2 3 TOT 

A = Assembly Location Y = Year WW = Work Week B30L60 = Device Code G = Pb−Free Device AKA = Polarity Designator 

## **ORDERING INFORMATION** 

See detailed ordering and shipping information on page 2 of this data sheet. 

Publication Order Number: **MBR30L60CT/D** 

**1** 

© Semiconductor Components Industries, LLC, 2016 **October, 2019 − Rev. 3** 

**MBR30L60CTG, MBRF30L60CTG** 

## **MAXIMUM RATINGS** (Per Diode Leg) 

|**MAXIMUM RATINGS**(Per Diode Leg)||||
|---|---|---|---|
|**Rating**|**Symbol**|**Value**|**Unit**|
|Peak Repetitive Reverse Voltage<br>Working Peak Reverse Voltage<br>DC Blocking Voltage|VRRM<br>VRWM<br>VR|60|V|
|Average Rectified Forward Current<br>(Per Leg)<br>MBR30L60CTG (Rated VR) TC= 133°C<br>(Per Device)<br>MBRF30L60CTG (Rated VR) TC= 108°C<br>(Per Device)|IF(AV)|15<br>30|A|
|Nonrepetitive Peak Surge Current<br>(Surge applied at rated load conditions halfwave, single phase, 60 Hz)|IFSM|240|A|
|Operating Junction Temperature (Note 1)|TJ|−55 to +150|°C|
|Storage Temperature|Tstg|−65 to +175|°C|
|ESD Ratings:<br>Machine Model = C<br>Human Body Model = 3B||> 400<br>> 8000|V|



Stresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionality should not be assumed, damage may occur and reliability may be affected. 

1. The heat generated must be less than the thermal conductivity from Junction−to−Ambient: dPD/dTJ < 1/R � JA. 

## **THERMAL CHARACTERISTICS** 

|**THERMAL CHARACTERISTICS**||||
|---|---|---|---|
|**Characteristic**|**Symbol**|**Value**|**Unit**|
|Maximum Thermal Resistance<br>MBR30L60CTG<br>Junction−to−Case<br>Junction−to−Ambient<br>MBRF30L60CTG<br>Junction−to−Case<br>Junction−to−Ambient|R�JC<br>R�JA<br>R�JC<br>R�JA|2.1<br>70<br>5.0<br>75|°C/W|



## **ELECTRICAL CHARACTERISTICS** (Per Diode Leg) 

|**ELECTRICAL CHARACTERISTICS**(Per Diode Leg)|||||
|---|---|---|---|---|
|**Characteristic**|**Symbol**|**Typ**|**Max**|**Unit**|
|Maximum Instantaneous Forward Voltage (Note 2)<br>(IF= 15 A, TC= 25°C)<br>(IF= 15 A, TC= 125°C)<br>(IF= 30 A, TC= 25°C)<br>(IF= 30 A, TC= 125°C)|vF|0.57<br>0.53<br>0.75<br>0.70|0.62<br>0.57<br>0.81<br>0.73|V|
|Maximum Instantaneous Reverse Current (Note 2)<br>(Rated DC Voltage, TC= 25°C)<br>(Rated DC Voltage, TC= 125°C)|iR|137<br>62|350<br>110|�A<br>mA|



Product parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Product performance may not be indicated by the Electrical Characteristics if operated under different conditions. 2. Pulse Test: Pulse Width = 300 � s, Duty Cycle ≤ 2.0%. 

## **DEVICE ORDERING INFORMATION** 

|**DEVICE ORDERING INFORMATION**|||
|---|---|---|
|**Device Order Number**|**Package Type**|**Shipping**|
|MBR30L60CTG|TO−220<br>(Pb−Free)|50 Units / Rail|
|MBRF30L60CTG|TO−220FP<br>(Pb−Free)|50 Units / Rail|



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**2** 

**MBR30L60CTG, MBRF30L60CTG** 

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100 100<br>125 ° C<br>10 10<br>125 ° C<br>150 ° C 85 ° C 85 ° C<br>150 ° C<br>1<br>TJ = 25 ° C<br>TJ = 25 ° C<br>0.1 0.1<br>0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6<br>VF, INSTANTANEOUS FORWARD VOLTAGE (V) VF, INSTANTANEOUS FORWARD VOLTAGE (V)<br>Figure 1. Typical Forward Voltage Figure 2. Maximum Forward Voltage<br>1.0E+00 1.0E+00<br>150 ° C<br>1.0E−01 150 ° C 1.0E−01 125 ° C<br>125 ° C<br>1.0E−02 1.0E−02<br>85 ° C<br>85 ° C<br>1.0E−03 1.0E−03<br>1.0E−04 1.0E−04 TJ = 25 ° C<br>TJ = 25 ° C<br>1.0E−05 1.0E−05<br>1.0E−06 1.0E−06<br>0 10 20 30 40 50 60 0 10 20 30 40 50 60<br>VR, REVERSE VOLTAGE (V) VR, REVERSE VOLTAGE (V)<br>(A) (A)<br>, AVERAGE FORWARD CURRENTIF , AVERAGE FORWARD CURRENTIF<br>, REVERSE CURRENT (A) , REVERSE CURRENT (A)<br>IR IR<br>**----- End of picture text -----**<br>


**Figure 3. Typical Reverse Current** 

**Figure 4. Maximum Reverse Current** 

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26 6<br>24 R � JC = 2.1 ° C/W R � JA = 70 ° C/W<br>22 5<br>20<br>18 4 dc<br>16<br>14<br>3<br>12<br>SQUARE WAVE<br>10<br>2<br>8<br>6<br>4 1<br>2<br>0 0<br>90 100 110 120 130 140 150 160 0 20 40 60 80 100 120 140 160<br>TC, CASE TEMPERATURE ( ° C) TA, AMBIENT TEMPERATURE ( ° C)<br>(A) (A)<br>, AVERAGE FORWARD CURRENTIF , AVERAGE FORWARD CURRENTIF<br>**----- End of picture text -----**<br>


**Figure 5. Current Derating, Case per Leg MBR30L60CT** 

**Figure 6. Current Derating, Ambient per Leg MBR30L60CT** 

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**3** 

**MBR30L60CTG, MBRF30L60CTG** 

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26 6<br>24 R � JC = 5.0 ° C/W R � JA = 75 ° C/W<br>22 dc 5<br>20<br>18<br>4 dc<br>16<br>SQUARE WAVE<br>14<br>3<br>12<br>10 SQUARE WAVE<br>2<br>8<br>6<br>4 1<br>2<br>0 0<br>30 40 50 60 70 80 90 100 110 120 130 140 150 160 0 20 40 60 80 100 120 140 160<br>TC, CASE TEMPERATURE ( ° C) TA, AMBIENT TEMPERATURE ( ° C)<br>Figure 7. Current Derating, Case per Leg Figure 8. Current Derating, Ambient per Leg<br>MBRF30L60CT MBRF30L60CT<br>28 10000<br>26 TJ = 150 ° C TJ = 25 ° C<br>24<br>22<br>20<br>18 1000<br>16 SQUARE WAVE<br>14<br>12<br>10 dc<br>100<br>8<br>6<br>4<br>2<br>0 10<br>0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 0 10 20 30 40 50 60<br>IO, AVERAGE FORWARD CURRENT (A) VR, REVERSE VOLTAGE (V)<br>Figure 9. Forward Power Dissipation Figure 10. Capacitance<br>10<br>D = 0.5<br>1<br>0.2<br>0.1<br>0.05<br>0.1 P (pk)<br>0.01<br>t1<br>SINGLE PULSE t2<br>DUTY CYCLE, D = t 1 /t 2<br>0.01<br>0.000001 0.00001 0.0001 0.001 0.01 0.1 1 10 100 1000<br>t1, TIME (sec)<br>(A) (A)<br>, AVERAGE FORWARD CURRENT , AVERAGE FORWARD CURRENT<br>IF IF<br>C, CAPACITANCE (pF)<br>, AVERAGE POWER DISSIPATION (W)<br>FO<br>P<br>R(t), TRANSIENT THERMAL RESISTANCE<br>**----- End of picture text -----**<br>


**Figure 11. Thermal Response Junction−to−Case, per Leg for MBR30L60CT** 

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**4** 

**MBR30L60CTG, MBRF30L60CTG** 

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100<br>D = 0.5<br>10<br>0.2<br>0.1 0.05<br>1<br>0.01<br>0.1<br>SINGLE PULSE<br>0.01<br>0.001<br>0.000001 0.00001 0.0001 0.001 0.01 0.1 1 10 100 1000<br>PULSE TIME (sec)<br>Figure 12. Thermal Response Junction−to−Ambient, per Leg for MBR30L60CT<br>10<br>D = 0.5<br>0.2<br>1<br>0.1<br>0.05<br>0.02<br>0.1<br>0.01<br>SINGLE PULSE<br>0.01<br>0.001<br>0.000001 0.00001 0.0001 0.001 0.01 0.1 1 10 100 1000<br>PULSE TIME (sec)<br>Figure 13. Thermal Response Junction−to−Case, per Leg for MBRF30L60CT<br>100<br>D = 0.5<br>0.2<br>10 0.1<br>0.05<br>0.02<br>1<br>0.01<br>0.1<br>SINGLE PULSE<br>0.01<br>0.001<br>0.000001 0.00001 0.0001 0.001 0.01 0.1 1 10 100 1000<br>PULSE TIME (sec)<br>R(t), TRANSIENT THERMAL RESISTANCE<br>R(t), TRANSIENT THERMAL RESISTANCE<br>R(t), TRANSIENT THERMAL RESISTANCE<br>**----- End of picture text -----**<br>


**Figure 14. Thermal Response Junction−to−Ambient, per Leg for MBRF30L60CT** 

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**5** 

MECHANICAL CASE OUTLINE **PACKAGE DIMENSIONS** 

**TO−220** CASE 221A−09 ISSUE AJ DATE 05 NOV 2019 

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STYLE 1: STYLE 2: STYLE 3: STYLE 4:<br>PIN 1. BASE PIN 1. BASE PIN 1. CATHODE PIN 1. MAIN TERMINAL 1<br>2. COLLECTOR 2. EMITTER 2. ANODE 2. MAIN TERMINAL 2<br>3. EMITTER 3. COLLECTOR 3. GATE 3. GATE<br>4. COLLECTOR 4. EMITTER 4. ANODE 4. MAIN TERMINAL 2<br>STYLE 5: STYLE 6: STYLE 7: STYLE 8:<br>PIN 1. GATE PIN 1. ANODE PIN 1. CATHODE PIN 1. CATHODE<br>2. DRAIN 2. CATHODE 2. ANODE 2. ANODE<br>3. SOURCE 3. ANODE 3. CATHODE 3. EXTERNAL TRIP/DELAY<br>4. DRAIN 4. CATHODE 4. ANODE 4. ANODE<br>STYLE 9: STYLE 10: STYLE 11: STYLE 12:<br>PIN 1. GATE PIN 1. GATE PIN 1. DRAIN PIN 1. MAIN TERMINAL 1<br>2. COLLECTOR 2. SOURCE 2. SOURCE 2. MAIN TERMINAL 2<br>3. EMITTER 3. DRAIN 3. GATE 3. GATE<br>4. COLLECTOR 4. SOURCE 4. SOURCE 4. NOT CONNECTED<br>**----- End of picture text -----**<br>


|**DOCUMENT NUMBER:**|**98ASB42148B**|
|---|---|
|**DESCRIPTION:**|**TO−220**|



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MECHANICAL CASE OUTLINE<br>PACKAGE DIMENSIONS<br>TO−220 FULLPAK<br>CASE 221D−03<br>ISSUE K<br>S DATE 27 FEB 2009<br>NOTES:<br>−T− SEATINGPLANE 1. DIMENSIONING AND TOLERANCING PER ANSI<br>Y14.5M, 1982.<br>−B− C 2. CONTROLLING DIMENSION: INCH<br>F 3. 221D-01 THRU 221D-02 OBSOLETE, NEW<br>S STANDARD 221D-03.<br>Q U INCHES MILLIMETERS<br>SCALE 1:1 DIM MIN MAX MIN MAX<br>A A 0.617 0.635 15.67 16.12<br>B 0.392 0.419 9.96 10.63<br>1 2 3 C 0.177 0.193 4.50 4.90<br>D 0.024 0.039 0.60 1.00<br>a H n ==So= F 0.116 0.129 2.95 3.28<br>−Y− G 0.100 BSC 2.54 BSC<br>K<br>H 0.118 0.135 3.00 3.43<br>J 0.018 0.025 0.45 0.63<br>hd ay : —<br>|| oe === K 0.503 0.541 12.78 13.73<br>G J L 0.048 0.058 1.23 1.47<br>N 0.200 BSC 5.08 BSC<br>N R Q 0.122 0.138 3.10 3.50<br>_ L R 0.099 0.117 2.51 2.96<br>S 0.092 0.113 2.34 2.87<br>D 3 PL U 0.239 0.271 6.06 6.88<br>0.25 (0.010) M B M Y<br>MARKING<br>DIAGRAMS<br>STYLE 1: STYLE 2: STYLE 3:<br>PIN 1. GATE PIN 1. BASE PIN 1. ANODE<br>2. DRAIN 2. COLLECTOR 2. CATHODE<br>3. SOURCE 3. EMITTER 3. ANODE<br>Qo Qo<br>STYLE 4: STYLE 5: STYLE 6: xxxxxxG AYWW<br>PIN 1. CATHODE PIN 1. CATHODE PIN 1. MT 1 AYWW xxxxxxG<br>2.3. ANODECATHODE  2. 3. ANODEGATE  2. 3. MT 2GATE AKA<br>tr | ot<br>Bipolar Rectifier<br>xxxxxx = Specific Device Code A = Assembly Location<br>G = Pb−Free Package Y = Year<br>A = Assembly Location WW = Work Week<br>Y = Year xxxxxx = Device Code<br>WW = Work Week G = Pb−Free Package<br>AKA = Polarity Designator<br>**----- End of picture text -----**<br>


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