SURFACE MOUNT TRANSIENT VOLTAGE SUPPRESSORS
MAXIMUM RATINGS AND ELECTRICAL CHARACTERISTICS
Rating 25 C ambient temperature uniess otherwies specified.
Single phase half wave, 60Hz, resistive or inductive load.
For capacitive load, derate current by 20%.
RATINGS SYMBOL VALUE UNITS
Peak Power Dissipation at T =25 C, T =1ms(NOTE 1) P Minimum 1500 WattsA P PK
FEATURES
MECHANICAL DATA
Peak Forward Surge Current at 8.3ms Single Half Sine-Wave
Maximum Instantenous Forward Voltage at 35.0A for
superimposed on rated load (JEDEC method) (NOTE 3)
Unidirectional only
Operating and Storage Temperature Range T , T -55 to +150 CJ STG
* For surface mount application
1.0ps from 0 volt to BV min.
* High temperature soldering guaranteed:
260 C / 10 seconds at terminals
* Typical I less than 1 A above 10VRµ
* Fast response time: Typically less than
* Built-in strain relief
* Excellent clamping capability
* Low profile package
* Case: Molded plastic
* Epoxy: UL 94V-0 rate flame retardant
* Lead: Solderable per MIL-STD-202,
method 208 guranteed
* Polarity: Color band denotes cathode end except Bidirectional
* Mounting position: Any
Weight: 0.21 grams
SMCJ SERIES
*
VOLTAGE RANGE
5.0 to 170 Volts
1500 Watts Peak Power
I 100 AmpsFSM
V 3.5 VoltsF
NOTES:
1. Non-repetitive current pulse per Fig. 3 and derated above T =25 C per Fig. 2.
2. Mounted on Copper Pad area of 8.0mm (.013mm Thick) to each terminal.
3. 8.3ms single half sine-wave, duty cycle = 4 pulses per minute maximum.
A
DEVICES FOR BIPOLAR APPLICATIONS
1. For Bidirectional use C or CA Suffix for types SMCJ5.0 thru SMCJ170.
2. Electrical characteristics apply in both directions.
DO-214AB
Dimensions in inches and (millimeters)
.320(8.13)
.305(7.75)
.280(7.11)
.260(6.60)
.012(0.31)
.006(0.15)
.124(3.15)
.108(2.75)
.103(2.62)
.079(2.00)
.050(1.27)
.030(0.76)
.245(6.22)
.220(5.59)
.008
(.203)MAX.
2
252
RATING AND CHARACTERISTIC CURVES (SMCJ SERIES)
P , PEAK PULSE POWER, KWPPM
I , PEAK PULSE CURRENT, %PPM
FIG.1-PEAK PULSE POWER DERATING CURVE
0.1 s 1.0 s 10 s 100 s 1.0ms 10ms µ µ µ µ
0.1
1.0
10
100
td, PULSE WIDTH, sec.
Non-Repetitive
Pulse Waveform
Shown in Fig. 3
T =25 CA
FIG.2-PULSE DERATING CURVE
PEAK PULSE POWER(P ) OR CURRENT(I )
DERATING IN PERCENTAGE
PP PP
T , AMBIENT TEMPERATURE ( C)A
0 25 50 75 100 125 150 175
0
25
50
75
100
FIG.3-PULSE WAVE FORM
0 1.0 2.0 3.0 4.0
t, TIME, ms
0
50
100
150
td
e-kt
tf=10 s
Peak Value
I
µ
PPM
Half Value-IPPM
2
10/1000 sec Waveform
as Defined by R.E.A.
µ
T =25 C
Pulse Width (td) is defined
as the point where the Peak
Current Deacys to 50% of Ipp
A
FIG.5-MAXIMUM NON-REPETITIVE PEAK
FORWARD SURGE CURRENT
1 5 10 20 50 100
NUMBER OF CYCLES AT 60Hz
10
20
40
60
80
100
I , PEAK FORWARD SURGE
CURRENT, AMPERES
FSM
T =T max
8.3ms Single Half Sine-wave
JEDEC Method
J J
5.0mm COPPER PAD AREAS
2
FIG.4-TYPICAL JUNCTION CAPACITANCE
1.0 2.0 5.0 10 20 50 100 200
V(BR), BREAKDOWN VOLTAGE, VOLTS
100
200
500
10
20
50
1,000
2,000
5,000
10,000
Measured at
Stand-Off
Voltage(V )MW
Measued at
Zero Bias
T =25 C
f=1.0MHz
Vsig=50mVp-p
J
C , CAPACITANCE, pFJ
253
PART NUMBER REVERSE BREAKDOWN BREAKDOWN TEST MAXIMUM PEAK REVERSE MARKING
ADD C FOR BI- STAND-OFF VOLTAGE VOLTAGE CURRENT CLAMPING PULSE LEAKAGE CODE
DIRECTIONAL VOLTAGE VBR (V) VBR (V) IT VOLTAGE CURRENT @ VRWM
See Note 1 VRWM (V) MIN. @IT MAX. @IT (mA) @Ipp Vc (V) Ipp (A) IR( A) UNI BI
µ
SMCJ5.0(C) 5.0 6.40 7.55 10 9.6 156.2 1000 BDD GDD
SMCJ54(C) 54 60.0 76.00 1 96.3 15.6 5 BGD GGD
SMCJ48(C) 48 53.3 67.50 1 85.5 17.5 5 BFW GFW
SMCJ43(C) 43 47.8 60.50 1 76.7 19.6 5 BFS GFS
SMCJ36(C) 36 40.0 50.70 1 64.3 23.3 5 BFN GFN
SMCJ30(C) 30 33.3 42.20 1 53.5 28.0 5 BFH GFH
SMCJ26(C) 26 28.9 36.60 1 46.6 32.2 5 BFD GFD
SMCJ22(C) 22 24.4 30.90 1 39.4 38.1 5 BEW GEW
SMCJ18(C) 18 20.0 25.30 1 32.2 46.6 5 BES GES
SMCJ16(C) 16 17.8 22.60 1 28.8 52.1 5 BEN GEN
SMCJ14(C) 14 15.6 19.80 1 25.8 58.1 5 BEH GEH
SMCJ12(C) 12 13.3 16.90 1 22.0 68.2 5 BED GED
SMCJ10(C) 10 11.1 14.10 1 18.8 79.8 5 BDW GDW
SMCJ8.5(C) 8.5 9.44 11.92 1 15.9 94.3 25 BDS GDS
SMCJ7.5(C) 7.5 8.33 10.67 1 14.3 104.9 100 BDN GDN
SMCJ6.5(C) 6.5 7.22 9.14 10 12.3 122.0 500 GDH BDH
SMCJ5.0(C)A 5.0 6.40 7.25 10 9.2 163.0 1000 BDE GDE
SMCJ54(C)A 54 60.0 69.00 1 87.1 17.2 5 BGE GGE
SMCJ48(C)A 48 53.3 61.30 1 77.4 19.4 5 BFX GFX
SMCJ43(C)A 43 47.8 54.90 1 69.4 21.6 5 BFT GFT
SMCJ36(C)A 36 40.0 46.00 1 58.1 25.8 5 BFP GFP
SMCJ30(C)A 30 33.3 38.30 1 48.4 31.0 5 BFK GFK
SMCJ26(C)A 26 28.9 33.20 1 42.1 35.6 5 BFE GFE
SMCJ22(C)A 22 24.4 28.00 1 35.5 42.2 5 BEX GEX
SMCJ18(C)A 18 20.0 23.30 1 29.2 51.4 5 BET GET
SMCJ16(C)A 16 17.8 20.50 1 26.0 57.7 5 BEP GEP
SMCJ14(C)A 14 15.6 17.90 1 23.2 64.7 5 BEK GEK
SMCJ12(C)A 12 13.3 15.30 1 19.9 75.3 5 BEE GEE
SMCJ10(C)A 10 11.1 12.80 1 17.0 88.2 5 BDX GDX
SMCJ8.5(C)A 8.5 9.44 10.82 1 14.4 104.2 20 BDT GDT
SMCJ5.0(C)A 7.5 8.33 9.58 1 12.9 116.3 100 BDP GDP
SMCJ6.5(C)A 6.5 7.22 8.30 10 11.2 133.9 500 BDK GDK
SMCJ6.0(C)A 6.0 6.67 7.67 10 10.3 145.6 1000 BDG GDG
SMCJ58(C)A 58 64.4 74.10 1 93.6 16.0 5 BGG GGG
SMCJ51(C)A 51 56.7 65.20 1 82.4 18.2 5 BFZ GFZ
SMCJ45(C)A 45 50.0 57.50 1 72.7 20.6 5 BFV GFV
SMCJ40(C)A 40 44.4 51.10 1 64.5 23.2 5 BFR GFR
SMBJ33(C)A 33 36.7 42.20 1 53.3 28.1 5 BFM GFM
SMCJ28(C)A 28 31.1 35.80 1 45.4 33.0 5 BFG GFG
SMCJ24(C)A 24 26.7 30.70 1 38.9 38.6 5 BEZ GEZ
SMCJ20(C)A 20 22.2 25.50 1 32.4 46.3 5 BEV GEV
SMCJ17(C)A 17 18.9 21.70 1 27.6 53.3 5 BER GER
SMCJ15(C)A 15 16.7 19.20 1 24.4 61.5 5 BEM GEM
SMCJ13(C)A 13 14.4 16.50 1 21.5 69.7 5 BEG GEG
SMCJ11(C)A 11 12.2 14.00 1 18.2 82.4 5 BDZ GDZ
SMCJ9.0(C)A 9.0 10.0 11.50 1 15.4 97.4 10 BDV GDV
SMCJ8.0(C)A 8.0 8.89 10.23 1 13.6 110.3 50 BDR GDR
SMCJ7.0(C)A 7.0 7.78 8.95 10 12.0 125.0 200 BDM GDM
SMCJ6.0(C) 6.0 6.67 8.45 10 11.4 131.6 1000 GDF BDF
SMCJ58(C) 58 64.4 81.60 1 103 14.6 5 BGF GGF
SMCJ51(C) 51 56.7 71.80 1 91.1 16.5 5 BFY GFY
SMCJ45(C) 45 50.0 63.30 1 80.3 18.7 5 BFU GFU
SMCJ40(C) 40 44.4 56.30 1 71.4 21.0 5 BFQ GFQ
SMCJ33(C) 33 36.7 46.50 1 59.0 25.2 5 BFL GFL
SMCJ28(C) 28 31.1 39.40 1 50.0 30.0 5 BFF GFF
SMCJ24(C) 24 26.7 33.80 1 43.0 34.9 5 BEY GEY
SMCJ20(C) 20 22.2 28.10 1 35.8 41.9 5 BEU GEU
SMCJ17(C) 17 18.9 23.90 1 30.5 49.2 5 BEQ GEQ
SMCJ15(C) 15 16.7 21.10 1 26.9 55.8 5 BEL GEL
SMCJ13(C) 13 14.4 18.20 1 23.8 63.0 5 BEF GEF
SMCJ11(C) 11 12.2 15.40 1 20.1 74.6 5 BDY GDY
SMCJ9.0(C) 9.0 10.0 12.60 1 16.9 88.7 10 BDU GDU
SMCJ8.0(C) 8.0 8.89 11.30 1 15.0 100.0 50 BDQ GDQ
SMCJ7.0(C) 7.0 7.78 9.86 10 13.3 112.8 200 BDL GDL
1500 Watt Surface Mount TVS
264
PART NUMBER REVERSE BREAKDOWN BREAKDOWN TEST MAXIMUM PEAK REVERSE MARKING
ADD C FOR BI- STAND-OFF VOLTAGE VOLTAGE CURRENT CLAMPING PULSE LEAKAGE CODE
DIRECTIONAL VOLTAGE VBR (V) VBR (V) IT VOLTAGE CURRENT @ VRWM
See Note 1 VRWM (V) MIN. @IT MAX. @IT (mA) @Ipp Vc (V) Ipp (A) IR( A) UNI BI
µ
SMCJ60(C) 60 66.7 84.5 1 107 14.0 5 BGH GGH
SMCJ160(C) 160 178 226.0 1 287 5.2 5 BHN GHN
SMCJ130(C) 130 144 182.5 1 231 6.5 5 BHH GHH
SMCJ110(C) 110 154.5 1 196 7.7 5 BHD GHD 122
SMCJ90(C) 90 100 126.5 1 160 9.4 5 BGW GGW
SMCJ78(C) 78 86.7 109.8 1 139 10.8 5 BGS GGS
SMCJ70(C) 70 77.8 98.6 1 125 12.0 5 BGN GGN
SMCJ60(C)A 60 66.7 76.7 1 96.8 15.5 5 BGK GGK
SMCJ160(C)A 160 178 205.0 1 259 5.8 5 BHP GHP
SMCJ130(C)A 130 144 165.5 1 209 7.2 5 BHK GHK
SMCJ110(C)A 110 122 140.5 1 177 8.4 5 BHE GHE
SMCJ90(C)A 90 100 115.5 1 146 10.3 5 BGX GGX
SMCJ78(C)A 78 86.7 99.7 1 126 11.4 5 BGT GGT
SMCJ70(C)A 70 77.8 89.5 1 113 13.3 5 BGP GGP
SMCJ64(C)A 64 71.1 81.8 1 103 14.6 5 BGM GGM
SMCJ170(C)A 170 189 217.5 1 275 5.5 5 BHR GHR
SMCJ150(C)A 150 167 192.5 1 243 6.2 5 BHM GHM
SMCJ120(C)A 120 133 153.0 1 193 7.9 5 BHG GHG
SMCJ100(C)A 100 111 128.0 1 162 9.3 5 BGZ GGZ
SMCJ85(C)A 85 94.4 108.2 1 137 10.4 5 BGV GGV
SMCJ75(C)A 75 83.3 95.8 1 121 12.4 5 BGR GGR
SMCJ64(C) 64 71.1 90.1 1 114 13.2 5 BGL GGL
SMCJ170(C) 160 189 239.5 1 304 4.9 5 BHQ GHQ
SMCJ150(C) 150 167 211.5 1 268 5.6 5 BHL GHL
SMCJ120(C) 120 169.0 1 214 7.0 5 BHF GHF 133
SMCJ100(C) 100 111 141.0 1 179 8.4 5 BGY GGY
SMCJ85(C) 85 94.4 119.2 1 151 9.9 5 BGU GGU
SMCJ75(C) 75 83.3 105.7 1 134 11.2 5 BGQ GGQ
1500 Watt Surface Mount TVS
265