602
ataDlacinahceM
serutaeF
scitsiretcarahClamrehTdnasgnitaRmumixaM
(Ratings at 25oC ambient temperature unless otherwise specified.)
Plastic package has Underwriters Laboratory Flammability
Classification 94V-0
Low profile package with built-in strain relief for surface
mounted applications
Glass passivated junction
Low incremental surge resistance, excellent clamping capability
1500W peak pulse power capability with a 10/1000us
waveform, repetition rate (duty cycle): 0.01%
Very fast response time
High temperature soldering guaranteed:
250oC/10 seconds at terminals
Case: JEDEC DO-214AB(SMC J-Bend) molded plastic over
passivated junction
Terminals: Solder plated, solderable per MIL-STD-750,
Method 2026
Polarity: For unidirectional types the band denotes the cathode,
which is positive with respect to the anode under normal TVS
operation
Weight: 0.007oz., 0.21g
AC044urht0.5JCMS
srosserppuSegatloVtneisnarTtnuoMecafruS V044ot0.5egatloVffo-dnatSW0051rewoPesluPkaeP
retemaraPlobmySeulaVtinU
htiwnoitapissidrewopeslupkaeP 0001/01a umrofevaws
)2()1(
P
MPP
0051muminiMW
0001/01ahtiwtnerruceslupkaeP umrofevaws
)1(
I
MPP
elbaTtxeNeeSA
evaw-enisflahelgnissm3.8tnerrucegrusdrawrofkaeP ylnolanoitcerid-inu
)2(
I
MSF
002A
tneibmaotnoitcnuj,ecnatsiserlamrehtlacipyT
)3(
R
θAJ
57
o
W/C
daelotnoitcnuj,ecnatsiserlamrehtlacipyTR
θLJ
51
o
W/C
egnarerutarepmetegarotsdnanoitcnujgnitarepOT
J
T,
GTS
051+ot55-
o
C
Notes: 1. Non-repetitive current pulse, per Fig.3 and derated above TA=25oC per Fig. 2
2. Mounted on 0.31 x 0.31" (8.0 x 8.0 mm) copper pads to each terminal
3. Mounted on minimum recommended pad layout
Devices for Bidirectional Applications
For bi-directional devices, use suffix CA (e.g. SMCJ10CA). Electrical characteristics apply in both directions.
603
scitsiretcarahClacirtcelE
Ratings at 25oC ambient temperature unless otherwise specified. VF=3.5V at IF=100A (uni-directional only)
epyteciveD
gnikrameciveD edoc
egatlovnwodkaerB V
)RB(
)stloV(
)1(
tseT tnerruc Ita
T
)Am(
ffo-dnatS egatlov V
MW
)stloV(
mumixaM esrever egakael Vta
MW
I
D)3(
(u)A
mumixaM eslupkaep egrus tnerrucI
MPP )2(
)A(
mumixaM gnipmalc egatlov Ita
MPP
V
C
)stloV(INUIB.niM.xaM
0.5JCMSDDGDDB04.628.7010.500013.6516.9
A0.5JCMS
)5(
EDGEDB04.670.7010.500010.3612.9
0.6JCMSFDGFDB76.651.8010.600016.1314.11
A0.6JCMSGDGGDB76.673.7010.600016.5413.01
5.6JCMSHDGHDB22.728.80
15.60050.2213.21
A5.6JCMSKDGKDB22.789.7015.60059.3312.11
0.7JCMSLDGLDB87.715.9010.70028.2113.31
A0.7JCMSMDGMDB87.706.8010.70020.5210.21
5.7JCMSNDGNDB33.82.010.15.70019.4013.41
A5.7JCMSPDGPDB33.812.90.15.70013.6119.21
0.8JCMSQDGQDB98.89.010.10.8050.0010.51
A0.8JCMSRDGRD
B98.838.90.10.8053.0116.31
5.8JCMSSDGSDB44.95.110.15.8023.499.51
A5.8JCMSTDGTDB44.94.010.15.8022.4014.41
0.9JCMSUDGUDB0.012.210.10.90.018
.889.61
A0.9JCMSVDGVDB0.011.110.10.90.014.794.51
01JCMSWDGWDB1.116.310.1010.58.978.81
A01JCMSXDGXDB1.113.210.1010.52.880.71
11JCMSYDGYD
B2.219.410.1110.56.471.02
A11JCMSZDGZDB2.215.310.1110.54.282.81
21JCMSDEGDEB3.313.610.1210.52.860.22
A21JCMSEEGEEB3.317.410.1210.54.579.91
31JCMSFEGFEB4.416.710.1310.10.368.32
A31JCMSGEGGEB4.419.510.1310.18.965.12
41JCMSHEGHEB6.511.910.1410.11.858.52
A41JCMSKEGKEB6.512.710.14
10.17.462.32
51JCMSLEGLEB7.614.020.1510.18.559.62
A51JCMSMEGMEB7.615.810.1510.15.164.42
61JCMSNEGNEB8.718.120.1610.11.258.82
A61JCMSPEGPE
B8.717.910.1610.17.750.62
71JCMSQEGQEB9.811.320.1710.12.945.03
A71JCMSREGREB9.819.020.1710.13.456.72
81JCMSSEGSEB0.024.420.1810.16.642.23
A
81JCMSTEGTEB0.021.220.1810.14.152.92
02JCMSUEGUEB2.221.720.1020.19.148.53
A02JCMSVEGVEB2.225.420.1020.13.644.23
22JCMSWEGWEB4.428.920.1220
.11.834.93
A22JCMSXEGXEB4.429.620.1220.13.245.53
42JCMSYEGYEB7.626.230.1420.19.430.34
A42JCMSZEGZEB7.625.920.1420.16.839.83
62JCMSDFGDFB9
.823.530.1620.12.236.64
A62JCMSEFGEFB9.829.130.1620.16.531.24
82JCMSFFGFFB1.130.830.1820.10.030.05
A82JCMSGFGGFB1.134.430.1820.10.334.54
0
3JCMSHFGHFB3.337.040.1030.10.825.35
A03JCMSKFGKFB3.338.630.1030.10.134.84
Notes: 1. V(BR) measured after IT applied for 300us square wave pulse or equivalent
2. Surge current waveform per Fig. 3 and derate per Fig. 2
3. For bi-directional types having VWM of 10 Volts and less, the ID limit is doubled
4. All terms and symbols are consistent with ANSI/IEEE C62.35
5. For the bi-directional SMCG/SMCJ5.0CA, the maximum V(BR) is 7.25V.
604
scitsiretcarahClacirtcelE
Ratings at 25oC ambient temperature unless otherwise specified. VF=3.5V at IF=100A (uni-directional only)
epyteciveD
gnikrameciveD edoc
egatlovnwodkaerB V
)RB(
)stloV(
)1(
tseT tnerruc Ita
T
)Am(
ffo-dnatS egatlov V
MW
)stloV(
mumixaM esrever egakael Vta
MW
I
D)3(
(u)A
mumixaM eslupkaep egrus tnerrucI
MPP )2(
)A(
mumixaM gnipmalc egatlov Ita
MPP
V
C
)stloV(INUIB.niM.xaM
33JCMSLFGLFB7.639.440.1330.14.520.95
A33JCMSMFGMFB7.636.040.1330.11.823.35
63JCMSNFGNFB0.049.840.1630.13.323.46
A6
3JCMSPFGPFB0.042.440.1630.18.521.85
04JCMSQFGQFB4.443.450.1040.10.124.17
A04JCMSRFGRFB4.441.940.1040.13.325.46
34JCMSSFGSFB8.744.850.1340.
16.917.67
A34JCMSTFGTFB8.748.250.1340.16.124.96
54JCMSUFGUFB0.051.160.1540.17.813.08
A54JCMSVFGVFB0.053.550.1540.16.027.27
84JCMSWFGWFB3.
351.560.1840.15.715.58
A84JCMSXFGXFB3.359.850.1840.14.914.77
15JCMSYFGYFB7.653.960.1150.15.611.19
A15JCMSZFGZFB7.657.260.1150.12.814.28
45
JCMSDGGDGB0.063.370.1450.16.513.69
A45JCMSEGGEGB0.063.660.1450.12.711.78
85JCMSFGGFGB4.467.870.1850.16.41301
A85JCMSGGGGGB4.462.170.1850.10
.6139
06JCMSHGGHGB7.665.180.1060.10.41701
A06JCMSKGGKGB7.667.370.1060.15.5169
46JCMSLGGLGB1.179.680.1460.12.31411
A46JCMSMGGMGB1.176.870.14
60.16.41301
07JCMSNGGNGB8.771.590.1070.10.21521
A07JCMSPGGPGB8.770.680.1070.13.31311
57JCMSQGGQGB3.382010.1570.12.11431
A57JCMSRGGRGB3.381.
290.1570.14.21121
87JCMSSGGSGB7.686010.1870.18.01931
A87JCMSTGGTGB7.688.590.1870.19.11621
58JCMSUGGUGB4.495110.1580.19.9151
A58JCMSVGGVGB4.4
94010.1580.19.01731
09JCMSWGGWGB0012210.1090.14.9061
A09JCMSXGGXGB0011110.1090.13.01641
001JCMSYGGYGB1116310.10010.14.8971
A001JCMSZGGZGB11132
10.10010.13.9261
011JCMSDHGDHB2219410.10110.17.7691
A011JCMSEHGEHB2215310.10110.15.8771
021JCMSFHGFHB3313610.10210.10.7412
A021JCMSGHGGHB3317
410.10210.18.7391
031JCMSHHGHHB4416710.10310.15.6132
A031JCMSKHGKHB4419510.10310.12.7902
051JCMSLHGLHB7614020.10510.16.5862
A051JCMSMHGMHB76
15810.10510.12.6342
061JCMSNHGNHB8718120.10610.12.5782
A061JCMSPHGPHB8717910.10610.18.5952
071JCMSQHGQHB9811320.10710.19.4403
A071JCMSRHGRHB9
819020.10710.15.5572
A081JCMSTHGTHB9022220.10810.10.5292
A002JCMSVHGVHB4227420.10020.16.4423
A022JCMSXHGXHB6422720.10220.12.4.653
A052JCMSZ
HGZHB9729030.10520.17.3504
A003JCMSEJGEJB5331730.10030.11.3684
A053JCMSGJGGJB1932340.10530.16.2765
A004JCMSKJGKJB7444940.10040.13.2846
A044J
CMSMJGMJB2943450.10440.11.2317
Notes: 1. V(BR) measured after IT applied for 300us square wave pulse or equivalent
2. Surge current waveform per Fig. 3 and derate per Fig. 2
3. For bi-directional types having VWM of 10 Volts and less, the ID limit is doubled
4. All terms and symbols are consistent with ANSI/IEEE C62.35
5. For parts without A, the VBR is +10%
605
SEVRUCCITSIRETCARAHCDNASGNITAR
(TA = 25oC unless otherwise noted)
