SMCJ130A

**TVS Diodes** Surface Mount – 1500W > SMCJ series 

~~**RoHS** Pb~~ ~~**e3** HFL_JIWAOO~~ 

## SMCJ Series 

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


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


|**Agency**<br>**Agency File Number**<br>E230531<br>**Agency Approvals**<br>Lo<br>~~po~~|**Agency**<br>**Agency File Number**<br>E230531<br>**Agency Approvals**<br>Lo<br>~~po~~|
|---|---|
|**Maximum Ratings and Thermal Characteristics**<br>**(TA=25OC unless otherwise noted)**||
|**Parameter**<br>**Symbol**<br>**Value**<br>Peak Pulse Power Dissipation(Fig.2)<br>by 10/1000us Test Waveform(Fig.4) (Note 1),(Note<br>2)-SingleDieParts<br>PPPM<br>1500<br>Peak Pulse Power Dissipation(Fig.2)<br>by 10/1000us Test Waveform(Fig.4) (Note 1), (Note<br>2)-StackedDieParts (Note 5)<br>PPPM<br>2000<br>Power Dissipation on Infinite Heat Sink at TL=50OC<br>PD<br>6.5|**Unit**<br>W<br>W<br>W|
|Peak Forward Surge Current, 8.3ms Single Half<br>Sine Wave (Note 3)<br>IFSM<br>200<br>Maximum Instantaneous Forward Voltage at 100A<br>for Unidirectional Only (Note 4)<br>VF<br>3.5/5.0<br>Operating Temperature Range<br>TJ<br>-65 to 150|A<br>V<br>°C|
|Storage Temperature Range<br>TSTG<br>-65 to 175<br>Typical Thermal Resistance Junction to Lead<br>RθJL<br>15|°C<br>°C/W|
|Typical Thermal Resistance Junction to Ambient<br>RθJA<br>75|°C/W|



- **Description** The SMCJ series is designed specifically to protect sensitive electronic equipment from voltage transients induced by lightning and other transient voltage events. 

- ~~as~~ **Features** • 1500W peak pulse power • Fast response time: capability at 10/1000μs typically less than 1.0ps waveform, repetition rate from 0V to BV min (duty cycles):0.01% • Glass passivated chip 

- • Excellent clamping junction capability •  High temperature to reflow 

- • Low incremental surge soldering guaranteed: resistance 260°C/30sec 

- Typical IR less than 1μA •  VBR @ TJ= VBR@25°C when VBR min>12V x (1+ α T x (TJ - 25)) 

- • For surface mounted ( α T:Temperature applications to optimize Coefficient, typical value is board space 0.1%) 

- Low profile package • Plastic package is • Built-in strain relief flammability rated V-0 per Underwriters Laboratories 

- Typical failure mode is short from over-specified •  Meet MSL level1, per J-STD-020, LF maximun 

- voltage or current peak of 260°C 

- Whisker test is conducted based on JEDEC • Matte tin lead–free plated JESD201A per its table 4a • Halogen free and RoHS and 4c compliant 

- IEC 61000-4-2 ESD • Pb-free E3 means 2nd 30kV(Air), 30kV (Contact) level interconnect is Pb- 

- •  ESD protection of data free and the terminal finish lines in accordance with material is tin(Sn) (IPC/ IEC 61000-4-2 JEDEC J-STD-609A.01) 

- EFT protection of data lines in accordance with IEC 61000-4-4 

## **Notes:** 

**1.** Non-repetitive current pulse , per Fig. 4 and derated above TJ (initial) =25[O] C per Fig. 3. 

**2.** Mounted on copper pad area of 0.31x0.31” (8.0 x 8.0mm) to each terminal. 

**3.** Measured on 8.3ms single half sine wave or equivalent square wave for unidirectional device only, duty cycle=4 per minute maximum. 

**4.** VF < 3.5V for single die parts and VF< 5.0V for stacked-die parts. 

**5.** For stacked die component details, please refer to part numbers labeled by * in Electrical Characteristics. 

## **Applications** Po 

TVS devices are ideal for the protection of I/O Interfaces, VCC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications. 

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Functional Diagram Additional Infomarion<br>ee =e<br>Bi-directional<br>Datasheet Resources Samples<br>oe Bf &<br>Cathode  Anode<br>Uni-directional<br>**----- End of picture text -----**<br>


© 2020 Littelfuse, Inc. Specifications are subject to change without notice. Revised: JC.10/29/20 

**TVS Diodes** Surface Mount – 1500W > SMCJ series 

## **Electrical Characteristics (TA=25°C unless otherwise noted)** 

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Reverse Breakdown  Test  Maximum  Maximum  Maximum  Agency<br>Part   Part   Marking Stand off Voltage VBR Current Clamping  Peak  Reverse  Approval<br>Number (Uni) Number (Bi) Voltage V(Volts) R  (Volts) @ IT IT Voltage V@  Ipp C Current IPulse  pp Leakage I@ VR R<br>UNI BI MIN MAX (mA) (V) (A) (µA)<br>SMCJ5.0A SMCJ5.0CA GDE BDE 5.0 6.40 7.00 10 9.2 163.0 800 X<br>SMCJ6.0A SMCJ6.0CA GDG BDG 6.0 6.67 7.37 10 10.3 145.7 800 X<br>SMCJ6.5A SMCJ6.5CA GDK BDK 6.5 7.22 7.98 10 11.2 134.0 500 X<br>SMCJ7.0A SMCJ7.0CA GDM BDM 7.0 7.78 8.60 10 12.0 125.0 200 X<br>SMCJ7.5A SMCJ7.5CA GDP BDP 7.5 8.33 9.21 1 12.9 116.3 100 X<br>SMCJ8.0A SMCJ8.0CA GDR BDR 8.0 8.89 9.83 1 13.6 110.3 50 X<br>SMCJ8.5A SMCJ8.5CA GDT BDT 8.5 9.44 10.40 1 14.4 104.2 20 X<br>SMCJ9.0A SMCJ9.0CA GDV BDV 9.0 10.00 11.10 1 15.4 97.4 10 X<br>SMCJ10A SMCJ10CA GDX BDX 10.0 11.10 12.30 1 17.0 88.3 5 X<br>SMCJ11A SMCJ11CA GDZ BDZ 11.0 12.20 13.50 1 18.2 82.5 1 X<br>SMCJ12A SMCJ12CA GEE BEE 12.0 13.30 14.70 1 19.9 75.4 1 X<br>SMCJ13A SMCJ13CA GEG BEG 13.0 14.40 15.90 1 21.5 69.8 1 X<br>SMCJ14A SMCJ14CA GEK BEK 14.0 15.60 17.20 1 23.2 64.7 1 X<br>SMCJ15A SMCJ15CA GEM BEM 15.0 16.70 18.50 1 24.4 61.5 1 X<br>SMCJ16A SMCJ16CA GEP BEP 16.0 17.80 19.70 1 26.0 57.7 1 X<br>SMCJ17A SMCJ17CA GER BER 17.0 18.90 20.90 1 27.6 54.4 1 X<br>SMCJ18A SMCJ18CA GET BET 18.0 20.00 22.10 1 29.2 51.4 1 X<br>SMCJ20A SMCJ20CA GEV BEV 20.0 22.20 24.50 1 32.4 46.3 1 X<br>SMCJ22A SMCJ22CA GEX BEX 22.0 24.40 26.90 1 35.5 42.3 1 X<br>SMCJ24A SMCJ24CA GEZ BEZ 24.0 26.70 29.50 1 38.9 38.6 1 X<br>SMCJ26A SMCJ26CA GFE BFE 26.0 28.90 31.90 1 42.1 35.7 1 X<br>SMCJ28A SMCJ28CA GFG BFG 28.0 31.10 34.40 1 45.4 33.1 1 X<br>SMCJ30A SMCJ30CA GFK BFK 30.0 33.30 36.80 1 48.4 31.0 1 X<br>SMCJ33A SMCJ33CA GFM BFM 33.0 36.70 40.60 1 53.3 28.2 1 X<br>SMCJ36A SMCJ36CA GFP BFP 36.0 40.00 44.20 1 58.1 25.9 1 X<br>SMCJ40A SMCJ40CA GFR BFR 40.0 44.40 49.10 1 64.5 23.3 1 X<br>SMCJ43A SMCJ43CA GFT BFT 43.0 47.80 52.80 1 69.4 21.7 1 X<br>SMCJ45A SMCJ45CA GFV BFV 45.0 50.00 55.30 1 72.7 20.6 1 X<br>SMCJ48A SMCJ48CA GFX BFX 48.0 53.30 58.90 1 77.4 19.4 1 X<br>SMCJ51A SMCJ51CA GFZ BFZ 51.0 56.70 62.70 1 82.4 18.2 1 X<br>SMCJ54A SMCJ54CA GGE BGE 54.0 60.00 66.30 1 87.1 17.3 1 X<br>SMCJ58A SMCJ58CA GGG BGG 58.0 64.40 71.20 1 93.6 16.1 1 X<br>SMCJ60A SMCJ60CA GGK BGK 60.0 66.70 73.70 1 96.8 15.5 1 X<br>SMCJ64A SMCJ64CA GGM BGM 64.0 71.10 78.60 1 103.0 14.6 1 X<br>SMCJ70A SMCJ70CA GGP BGP 70.0 77.80 86.00 1 113.0 13.3 1 X<br>SMCJ75A SMCJ75CA GGR BGR 75.0 83.30 92.10 1 121.0 12.4 1 X<br>SMCJ78A SMCJ78CA GGT BGT 78.0 86.70 95.80 1 126.0 11.9 1 X<br>SMCJ85A SMCJ85CA GGV BGV 85.0 94.40 104.00 1 137.0 11.0 1 X<br>SMCJ90A SMCJ90CA GGX BGX 90.0 100.00 111.00 1 146.0 10.3 1 X<br>SMCJ100A SMCJ100CA GGZ BGZ 100.0 111.00 123.00 1 162.0 9.3 1 X<br>SMCJ110A SMCJ110CA GHE BHE 110.0 122.00 135.00 1 177.0 8.5 1 X<br>SMCJ120A SMCJ120CA GHG BHG 120.0 133.00 147.00 1 193.0 7.8 1 X<br>SMCJ130A SMCJ130CA GHK BHK 130.0 144.00 159.00 1 209.0 7.2 1 X<br>SMCJ150A SMCJ150CA GHM BHM 150.0 167.00 185.00 1 243.0 6.2 1 X<br>SMCJ160A SMCJ160CA GHP BHP 160.0 178.00 197.00 1 259.0 5.8 1 X<br>SMCJ170A SMCJ170CA GHR BHR 170.0 189.00 209.00 1 275.0 5.5 1 X<br>SMCJ180A SMCJ180CA GHT BHT 180.0 201.00 222.00 1 292.0 5.1 1 X<br>SMCJ200A SMCJ200CA GHV BHV 200.0 224.00 247.00 1 324.0 4.6 1 X<br>SMCJ220A SMCJ220CA GHX BHX 220.0 246.00 272.00 1 356.0 4.2 1 X<br>SMCJ250A SMCJ250CA GHZ BHZ 250.0 279.00 309.00 1 405.0 3.7 1 X<br>SMCJ300A* SMCJ300CA* GJE BJE 300.0 335.00 371.00 1 486.0 4.1 1 X<br>SMCJ350A* SMCJ350CA* GJG BJG 350.0 391.00 432.00 1 567.0 3.5 1 X<br>SMCJ400A* SMCJ400CA* GJK BJK 400.0 447.00 494.00 1 648.0 3.0 1 X<br>SMCJ440A* SMCJ440CA* GJM BJM 440.0 492.00 543.00 1 713.0 2.8 1 X<br>**----- End of picture text -----**<br>


For bidirectional type having VR of 10 volts and less, the IR limit is double. 

For parts without A , the VBR is ± 10% and VC is 5% higher than with A parts, the parts without A are currently available, but not recommended for new designs. The parts with A are preferred. For stack-die parts, use * to label the part number. 

© 2020 Littelfuse, Inc. Specifications are subject to change without notice. Revised: JC.10/29/20 

**TVS Diodes** Surface Mount – 1500W > SMCJ series 

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## **I-V Curve Characteristics** 

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Uni-directional<br>Bi-directional<br>Ipp<br>Vc VBR VR IR VF V Vc VBR VR IIRT V<br>IT IR VRVBR Vc<br>IT<br>Ipp Ipp<br>PPPM  Peak Pulse Power Dissipation  -- Max power dissipation<br>VR           Stand-off VoltageR           Stand-off VoltageStand-off Voltage  -- Maximum voltage that can be applied to the TVS without operation<br>VBR        Breakdown VoltageBR        Breakdown VoltageBreakdown Voltage  --  Maximum voltage that flows though the TVS at a specified test current (IT)T))<br>VC           Clamping VoltageC           Clamping VoltageClamping Voltage  -- Peak voltage measured across the TVS at a specified Ippm (peak impulse current)<br>IR             Reverse Leakage Current R             Reverse Leakage Current Reverse Leakage Current  -- Current measured at VRR<br>VF           Forward Voltage Drop for Uni-directional<br>Ratings and Characteristic Curves (TA=25°C unless otherwise noted)<br>Figure 1 - TVS Transients Clamping Waveform Figure 2 - Peak Pulse Power Rating<br>Voltage Transients 100<br>TJ initial = Tamb<br>stacked-die, 2kW<br>Voltage Across TVS 10 at 10x1000µs, 25°C<br>Current Through TVS<br>Single die, 1.5kW<br>1 at 10x1000µs, 25°C<br>0.1<br>0.001 0.01 0.1 1 10<br>td-Pulse Width (ms)<br>Time<br>Voltage or Current -Peak Pulse Power (kW)<br>PPM<br>P<br>**----- End of picture text -----**<br>


- **VR           Stand-off VoltageR           Stand-off VoltageStand-off Voltage** -- Maximum voltage that can be applied to the TVS without operation 

- **VBR        Breakdown VoltageBR        Breakdown VoltageBreakdown Voltage** --  Maximum voltage that flows though the TVS at a specified test current (IT)T)) 

- **VC           Clamping VoltageC           Clamping VoltageClamping Voltage** -- Peak voltage measured across the TVS at a specified Ippm (peak impulse current) 

- **IR             Reverse Leakage Current R             Reverse Leakage Current Reverse Leakage Current** -- Current measured at VRR 

© 2020 Littelfuse, Inc. Specifications are subject to change without notice. Revised: JC.10/29/20 

**TVS Diodes** Surface Mount – 1500W > SMCJ series 

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Ratings and Characteristic Curves (TA=25°C unless otherwise noted) (Continued)<br>Figure 3 - Peak Pulse Power Derating Curve<br>100<br>80<br>60<br>40<br>20<br>0<br>0 25 50 75 100 125 150 175<br>TJ - Initial Junction Temperature (ºC)<br>Figure 5 - Typical Junction Capacitance<br>100000<br>Uni-directional V=0V<br>10000<br>SN Bi-directional V=0V<br>1000<br>Uni-directional V=VR<br>nate<br>100<br>7s<br>10 Bi-directional V=VR<br>1<br>1 10 100 1000<br>VBR - Reverse Breakdown Voltage(V)<br>Figure 7 - Maximum Non-Repetitive Peak Forward<br>Surge Current Uni-Directional Only<br>200<br>180<br>160<br>140<br>120<br>100<br>80<br>60<br>40<br>20<br>0<br>1 10 100<br>Number of Cycles at 60 Hz<br>)PP<br>) or Current (I<br>PP<br>Derating in Percentage %<br>Peak Pulse Power (P<br>°C/W)C/W)<br>Cj(pF)<br>Transient Thermal Impedance (<br> - Peak Forward Surge Current (A) IF-Peak Forward Current(A)<br>IFSM<br>**----- End of picture text -----**<br>


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Figure 4 - Pulse Waveform<br>150<br>tr=10µsec TJ=25°C<br>Pulse Width(td) is defined<br>as the point where the peak<br>Peak Value current decays to 50% of IPPM<br>100 IPPM<br>Half Value<br>IPPM (   ) IPPM2<br>50 10/1000µsec. Waveform<br>as defined by R.E.A<br>td<br>0<br>0 1.0 2.0 3.0 4.0<br>t-Time (ms)<br>Figure 6 - Typical Transient Thermal Impedance<br>100<br>10<br>1<br>0.1<br>0.01<br>0.001 0.01 0.1 1 10 100 1000<br>T - Pulse Duration (s)P<br>Figure 8 - Peak Forward Voltage Drop vs Peak Forward<br>Current (Typical Values)<br>RSM<br>- Peak Pulse Current, % I<br>IPPM<br>°C/W)C/W)<br>Transient Thermal Impedance (<br>**----- End of picture text -----**<br>


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100.0<br>Single die<br>Stacked-die<br>10.0<br>1.0<br>0.1<br>0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0<br>VF-Peak Forward Voltage(V)<br>IF-Peak Forward Current(A)<br>**----- End of picture text -----**<br>


© 2020 Littelfuse, Inc. Specifications are subject to change without notice. Revised: JC.10/29/20 

**TVS Diodes** Surface Mount – 1500W > SMCJ series 

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## **Soldering Parameters** 

|**Refow Condition**|Lead–free assembly|
|---|---|
|**Pre Heat**<br>**- Temperature Min (Ts(min))**<br>**- Temperature Max (Ts(max))**|150°C<br>200°C|
|**- Time (min to max) (ts)**|60 – 120 secs|
|**Average ramp up rate (Liquidus Temp (TL) to peak**<br>**TS(max) to TL - Ramp-up Rate**<br>**Refow**<br>**- Temperature (TL) (Liquidus)**<br>**- Time (min to max) (tL)**|3°C/second max<br>3°C/second max<br>217°C<br>60 – 150 seconds|
|**Peak Temperature (TP)**|260+0/-5°C|
|**Time within 5°C of actual peak Temperature (tp)**<br>**Ramp-down Rate**|30 seconds max<br>6°C/second max|
|**Time 25°C to peak Temperature (TP)**|8 minutes Max.|
|**Do not exceed**|260°C|



|**Physical Specifcations**|**Physical Specifcations**|
|---|---|
|**Weight**|0.007 ounce, 0.21grams|
|**Case**|JEDEC DO214AB. Molded plastic body over glass<br>passivatedjunction|
|**Polarity**|Color band denotes positive end (cathode) except<br>Bidirectional.|
|**Terminal**|Matte Tin-plated leads, Solderableper JESD22-B102|



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TP tp<br>Ramp-up Critical Zone<br>TL t L TL to TP<br>Ts(max)<br>Ramp-down<br>Ts(min)<br>Preheat t s<br>25˚C<br>t 25˚C to Peak<br>Time (t)<br>Environmental Specifications<br>High Temp. Storage JESD22-A103<br>HTRB JESD22-A108<br>Temperature Cycling JESD22-A104<br>MSL JEDEC-J-STD-020, Level 1<br>H3TRB JESD22-A101<br>RSH JESD22-A111<br>Temperature (T)<br>**----- End of picture text -----**<br>


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


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DO-214AB (SMC J-Bend)<br>Cathode Band<br>(for uni-directional products only)<br>A C<br>B<br>H<br>D<br>J K L<br>F<br>E<br>G<br>I<br>Dimensions in inches and (millimeters) Solder Pads<br>(all dimensions in mm)<br>**----- End of picture text -----**<br>


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Inches Millimeters<br>Dimensions<br>Min Max Min Max<br>A 0.114 0.126 2.900 3.200<br>B 0.260 0.280 6.600 7.110<br>C 0.220 0.245 5.590 6.220<br>D 0.079 0.103 2.060 2.620<br>E 0.030 0.060 0.760 1.520<br>F - 0.008 - 0.203<br>G 0.305 0.320 7.750 8.130<br>H 0.006 0.012 0.152 0.305<br>I 0.129 - 3.300 -<br>J 0.094 - 2.400 -<br>K - 0.165 - 4.200<br>L 0.094 - 2.400 -<br>**----- End of picture text -----**<br>


© 2020 Littelfuse, Inc. Specifications are subject to change without notice. Revised: JC.10/29/20 

**TVS Diodes** Surface Mount – 1500W > SMCJ series 

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Part Numbering System Part Marking System<br>SMCJ XXX C A<br>Cathode Band<br>(for uni-directional products only)<br>Littelfuse Logo<br>5%  VBR  Voltage Tolerance<br>Bi-Directional XXX Marking Code<br>YMXXX<br>VR Voltage Trace Code Marking<br>Series Y: Year Code<br>M:  Month Code<br>  XXX:  Lot Code<br>Packaging<br>Part number Component Package  Quantity Packaging Option Packaging Specification<br>SMCJxxxXX DO-214AB 3000 Tape & Reel - 16mm tape/13” reel EIA STD RS-481<br>Tape and Reel Specification<br>0.157<br>(4.0)<br>0.63<br>(16.0)<br>0.315 0.059 DIA Cover tape<br>(8.0) (1.5)<br>13.0 (330)<br>Dimensions are in inches<br>0.80 (20.2)  (and millimeters).<br>Cathode<br>Arbor Hole Dia.<br>Direction of Feed<br>0.65<br>(16.4)<br>F<br>**----- End of picture text -----**<br>


**Disclaimer Notice -** Information furnished is believed to be accurate and reliable. However, users should independently evaluate the suitability of and test each product selected for their own applications.  Littelfuse products are not designed for, and may not be used in, all applications. Read complete Disclaimer Notice at www.littelfuse.com/disclaimer-electronics. 

© 2020 Littelfuse, Inc. Specifications are subject to change without notice. Revised: JC.10/29/20