PAGE . 1
STAD-SEP.03.2008
1.5KE SERIES
NOTES:
1. Non-repetitive current pulse, per Fig. 3 and derated above TA=25°C per Fig. 2.
2. Mounted on Copper Leaf area of 0.79 in2(20mm2).
3. 8.3ms single half sine-wave, duty cycle= 4 pulses per minutes maximum.
FEATURES
• Plastic package has Underwriters Laboratory Flammability Classification 94V-O
Glass passivated chip junction in DO-201AE package
• 1500W surge capability at 1.0ms
• Excellent clamping capability
• Low zener impedance
• Fast response time: typically less than 1.0 ps from 0 volts to BV min
• Typical IR less than 1µA above 10V
• High temperature soldering guaranteed: 260°C/10 seconds/.375" ,(9.5mm)
lead length/5lbs., (2.3kg) tension
• In compliance with EU RoHS 2002/95/EC directives
MECHANICAL DATA
• Case: JEDEC DO-201AE molded plastic
• Terminals: Axial leads, solderable per MIL-ST D-750, Method 2026
• Polarity: Color band denoted cathode except Bipolar
• Mounting Position: Any
Weight: 0.0395 ounce, 1.122 gram
.042(1.07)
.210(5.3)
1.0(25.4)MIN. 1.0(25.4)MIN.
.375(9.5)
.285(7.2)
.037(0.94)
.188(4.8)
DO-201AE Unit: inch(mm)
MAXIMUM RA TINGS AND CHARACTERISTICS
Rating at 25°Cambient temperature unless otherwise specified.
DEVICES FOR BIPOLAR APPLICATIONS
For Bidirectional use C or CA Suffix for types 1.5KE6.8 thru types 1.5KE440.
Electrical characteristics apply in both directions.
gnitaRlobmySeulaVstinU
TtanoitapissiDrewoPkaeP
A
52=
O
T,C
P
)1etoN(sm1=P
KP
0051sttaW
)2etoN()mm5.9(,"573.shtgneLdaeLriAotnoitcnuJecnatsiseRlamrehTlacipyT R
θAJ
03
O
W/C
evaW-eniSflaHelgniSsm3.8,tnerruCegruSdrawroFkaeP )3etoN()dohteMDECEJ(daoLdetaRnodesopmirepuS I
MSF
002spmA
egnaRerutarepmeTegarotSdnanoitcnuJgnitarepO T
J
,T
GTS
571+ot56-
O
C
Recongnized File # E210467
GLASS PASSIV ATED JUNCTION TRANSIENT VOLT AGE SUPPRESSOR PEAK PULSE POWER 1500 W atts
BREAK DOWN VOL TAGE 6.8 to 440 Volts
PAGE . 2
STAD-SEP.03.2008
1.5KE SERIES
rebmuNtraP rebmuNtraP V
RWM
V
BR
I@
T
I
R
@V
RWM
V
C
@I
PP
edoCgnikraM
.niM .xaM I
T
-INU -IB
-INU -IB V V V Am µµ
µ
µµAµµ
µ
µµAV A -INU -IB
rosserppuSegatloVtneisnarTW0051
8.6EK5.1 C8.6EK5.1 5.5 21.6 84.7 01 0001 0002 8.01 931 8.6EK5.1 C8.6EK5.1
A8.6EK5.1 AC8.6EK5.1 8.5 54.6 41.7 01 0001 0002 5.01 341 A8.6EK5.1 AC8.6EK5.1
5.7EK5.1 C5.7EK5.1 50.6 57.6 52.8 01 005 0001 7.11 821 5.7EK5.1 C5.7EK5.1
A5.7EK5.1 AC5.7EK5.1 4.6 31.7 88.7 01 005 0001 3.11 231 A5.7EK5.1 AC5.7EK5.1
2.8EK5.1 C2.8EK5.1 36.6 83.7 20.9 01 002 004 5.21 021 2.8EK5.1 C2.8EK5.1
A2.8EK5.1 AC2.8EK5.1 20.7 97.7 16.8 01 002 004 1.21 421 A2.8EK5.1 AC2.8EK5.1
1.9EK5.1 C1.9EK5.1 73.7 91.8 01 1 05 001 8.31 901 1.9EK5.1 C1.9EK5.1
A1.9EK5.1 AC1.9EK5.1 87.7 56.8 5.9 1 05 001 4.31 211 A1.9EK5.1 AC1.9EK5.1
01EK5.1 C01EK5.1 1.8 9 11 1 01 02 51 001 01EK5.1 C01EK5.1
A01EK5.1 AC01EK5.1 55.8 5.9 5.01 1 01 02 5.41 301 A01EK5.1 AC01EK5.1
11EK5.1 C11EK5.1 29.8 9.9 1.21 1 5 01 2.61 39 11EK5.1 C11EK5.1
A11EK5.1 AC11EK5.1 4.9 5.01 6.11 1 5 01 6.51 69 A11EK5.1 AC11EK5.1
21EK5.1 C21EK5.1 27.9 8.01 2.31 1 5 5 3.71 78 21EK5.1 C21EK5.1
A21EK5.1 AC21EK5.1 2.01 4.11 6.21 1 5 5 7.61 09 A21EK5.1 AC21EK5.1
31EK5.1 C31EK5.1 5.01 7.11 3.41 1 1 1 91 97 31EK5.1 C31EK5.1
A31EK5.1 AC31EK5.1 1.11 4.21 7.31 1 1 1 2.81 28 A31EK5.1 AC31EK5.1
51EK5.1 C51EK5.1 1.21 5.31 5.61 1 1 1 22 86 51EK5.1 C51EK5.1
A51EK5.1 AC51EK5.1 8.21 3.41 8.51 1 1 1 2.12 17 A51EK5.1 AC51EK5.1
61EK5.1 C61EK5.1 9.21 4.41 6.71 1 1 1 5.32 46 61EK5.1 C61EK5.1
A61EK5.1 AC61EK5.1 6.31 2.51 8.61 1 1 1 5.22 76 A61EK5.1 AC61EK5.1
81EK5.1 C81EK5.1 5.41 2.61 8.91 1 1 1 5.62 5.65 81EK5.1 C81EK5.1
A81EK5.1 AC81EK5.1 3.51 1.71 9.81 1 1 1 2.52 5.95 A81EK5.1 AC81EK5.1
02EK5.1 C02EK5.1 2.61 81 22 1 1 1 1.92 5.15 02EK5.1 C02EK5.1
A02EK5.1 AC02EK5.1 1.71 91 12 1 1 1 7.72 45 A02EK5.1 AC02EK5.1
22EK5.1 C22EK5.1 8.71 8.91 2.42 1 1 1 9.13 74 22EK5.1 C22EK5.1
A22EK5.1 AC22EK5.1 8.81 9.02 1.32 1 1 1 6.03 94 A22EK5.1 AC22EK5.1
42EK5.1 C42EK5.1 4.91 6.12 4.62 1 1 1 7.43 34 42EK5.1 C42EK5.1
A42EK5.1 AC42EK5.1 5.02 8.22 2.52 1 1 1 2.33 54 A42EK5.1 AC42EK5.1
72EK5.1 C72EK5.1 8.12 3.42 7.92 1 1 1 1.93 5.83 72EK5.1 C72EK5.1
A72EK5.1 AC72EK5.1 1.32 7.52 4.82 1 1 1 5.73 04 A72EK5.1 AC72EK5.1
03EK5.1 C03EK5.1 3.42 72 33 1 1 1 5.34 5.43 03EK5.1 C03EK5.1
A03EK5.1 AC03EK5.1 6.52 5.82 5.13 1 1 1 4.14 63 A03EK5.1 AC03EK5.1
33EK5.1 C33EK5.1 8.62 7.92 3.63 1 1 1 7.74 5.13 33EK5.1 C33EK5.1
A33EK5.1 AC33EK5.1 2.82 4.13 7.43 1 1 1 7.54 33 A33EK5.1 AC33EK5.1
63EK5.1 C63EK5.1 1.92 4.23 6.93 1 1 1 25 92 63EK5.1 C63EK5.1
A63EK5.1 AC63EK5.1 8.03 2.43 8.73 1 1 1 9.94 03 A63EK5.1 AC63EK5.1
93EK5.1 C93EK5.1 6.13 1.53 9.24 1 1 1 4.65 5.62 93EK5.1 C93EK5.1
A93EK5.1 AC93EK5.1 3.33 1.73 14 1 1 1 9.35 82 A93EK5.1 AC93EK5.1
34EK5.1 C34EK5.1 8.43 7.83 3.74 1 1 1 9.16 42 34EK5.1 C34EK5.1
A34EK5.1 AC34EK5.1 8.63 9.04 2.54 1 1 1 3.95 3.52 A34EK5.1 AC34EK5.1
74EK5.1 C74EK5.1 1.83 3.24 7.15 1 1 1 8.76 2.22 74EK5.1 C74EK5.1
A74EK5.1 AC74EK5.1 2.04 7.44 4.94 1 1 1 8.46 2.32 A74EK5.1 AC74EK5.1
15EK5.1 C15EK5.1 3.14 9.54 1.65 1 1 1 5.37 4.02 15EK5.1 C15EK5.1
PAGE . 3
STAD-SEP.03.2008
1.5KE SERIES
rebmuNtraP rebmuNtraP VRWM VBR I@ TIR@VRWM VC@IPP edoCgnikraM
.niM .xaM IT-INU -IB
-INU -IB V V V Am µµ
µ
µµAµµ
µ
µµAV A -INU -IB
rosserppuSegatloVtneisnarTW0051
A15EK5.1 AC15EK5.1 6.34 5.84 6.35 1 1 1 1.07 4.12 A15EK5.1 AC15EK5.1
65EK5.1 C65EK5.1 6.54 4.05 6.16 1 1 1 5.08 6.81 65EK5.1 C65EK5.1
A65EK5.1 AC65EK5.1 8.74 2.35 8.85 1 1 1 77 5.91 A65EK5.1 AC65EK5.1
26EK5.1 C26EK5.1 2.05 8.55 2.86 1 1 1 98 9.61 26EK5.1 C26EK5.1
A26EK5.1 AC26EK5.1 35 9.85 1.56 1 1 1 58 7.71 A26EK5.1 AC26EK5.1
86EK5.1 C86EK5.1 1.55 2.16 8.47 1 1 1 89 3.51 86EK5.1 C86EK5.1
A86EK5.1 AC86EK5.1 1.85 6.46 4.17 1 1 1 29 3.61 A86EK5.1 AC86EK5.1
57EK5.1 C57EK5.1 7.06 5.76 5.28 1 1 1 801 9.31 57EK5.1 C57EK5.1
A57EK5.1 AC57EK5.1 1.46 3.17 8.87 1 1 1 301 6.41 A57EK5.1 AC57EK5.1
28EK5.1 C28EK5.1 4.66 8.37 2.09 1 1 1 811 7.21 28EK5.1 C28EK5.1
A28EK5.1 AC28EK5.1 1.07 9.77 1.68 1 1 1 311 3.31 A28EK5.1 AC28EK5.1
19EK5.1 C19EK5.1 7.37 9.18 001 1 1 1 131 4.11 19EK5.1 C19EK5.1
A19EK5.1 AC19EK5.1 8.77 5.68 5.59 1 1 1 521 21 A19EK5.1 AC19EK5.1
001EK5.1 C001EK5.1 18 09 011 1 1 1 441 4.01 001EK5.1 C001EK5.1
A001EK5.1 AC001EK5.1 5.58 59 501 1 1 1 731 11 A001EK5.1 AC001EK5.1
011EK5.1 C011EK5.1 2.98 99 121 1 1 1 851 5.9 011EK5.1 C011EK5.1
A011EK5.1 AC011EK5.1 49 501 611 1 1 1 251 9.9 A011EK5.1 AC011EK5.1
021EK5.1 C021EK5.1 2.79 801 231 1 1 1 371 7.8 021EK5.1 C021EK5.1
A021EK5.1 AC021EK5.1 201 411 621 1 1 1 561 1.9 A021EK5.1 AC021EK5.1
031EK5.1 C031EK5.1 501 711 341 1 1 1 781 8 031EK5.1 C031EK5.1
A031EK5.1 AC031EK5.1 111 421 731 1 1 1 971 4.8 A031EK5.1 AC031EK5.1
051EK5.1 C051EK5.1 121 531 561 1 1 1 512 7 051EK5.1 C051EK5.1
A051EK5.1 AC051EK5.1 821 341 851 1 1 1 702 2.7 A051EK5.1 AC051EK5.1
061EK5.1 C061EK5.1 031 441 671 1 1 1 032 5.6 061EK5.1 C061EK5.1
A061EK5.1 AC061EK5.1 631 251 861 1 1 1 912 8.6 A061EK5.1 AC061EK5.1
071EK5.1 C071EK5.1 831 351 781 1 1 1 442 2.6 071EK5.1 C071EK5.1
A071EK5.1 AC071EK5.1 541 261 971 1 1 1 432 4.6 A071EK5.1 AC071EK5.1
081EK5.1 C081EK5.1 641 261 891 1 1 1 852 8.5 081EK5.1 C081EK5.1
A081EK5.1 AC081EK5.1 451 171 981 1 1 1 642 1.6 A081EK5.1 AC081EK5.1
002EK5.1 C002EK5.1 261 081 022 1 1 1 782 2.5 002EK5.1 C002EK5.1
A002EK5.1 AC002EK5.1 171 091 012 1 1 1 472 5.5 A002EK5.1 AC002EK5.1
022EK5.1 C022EK5.1 571 891 242 1 1 1 443 3.4 022EK5.1 C022EK5.1
A022EK5.1 AC022EK5.1 581 902 132 1 1 1 823 6.4 A022EK5.1 AC022EK5.1
052EK5.1 C052EK5.1 202 522 572 1 1 1 063 3.4 052EK5.1 C052EK5.1
A052EK5.1 AC052EK5.1 412 732 362 1 1 1 443 5.4 A052EK5.1 AC052EK5.1
003EK5.1 C003EK5.1 342 072 033 1 1 1 034 6.3 003EK5.1 C003EK5.1
A003EK5.1 AC003EK5.1 652 582 513 1 1 1 414 8.3 A003EK5.1 AC003EK5.1
053EK5.1 C053EK5.1 482 513 583 1 1 1 405 1.3 053EK5.1 C053EK5.1
A053EK5.1 AC053EK5.1 003 233 863 1 1 1 284 2.3 A053EK5.1 AC053EK5.1
004EK5.1 C004EK5.1 423 063 044 1 1 1 475 7.2 004EK5.1 C004EK5.1
A004EK5.1 AC004EK5.1 243 083 024 1 1 1 845 8.2 A004EK5.1 AC004EK5.1
044EK5.1 C044EK5.1 653 693 484 1 1 1 136 4.2 044EK5.1 C044EK5.1
A044EK5.1 AC044EK5.1 673 814 264 1 1 1 006 6.2 A044EK5.1 AC044EK5.1
PAGE . 4
STAD-SEP.03.2008
1.5KE SERIES
Fig.1 PEAK PULSE POWER RATING VERSUS
PULSE TIME CURVE Fig.2 PULSE DERATING CURVE
Fig.3 PULSE WAVEFORM
Fig.5 MAXIMUN NON-REPETITEVE PEAK FORWARD
SURGE CURRENT UNIDIRECTIONAL
Fig.4 TYPICAL JUNCTION CAPACITANCE
td,PULSE WIDTH,usec
T,TIME,ms V(BR), BREAKDOWN VOLTAGE, VOLTS
T ,AMBIENT TEMPERATURE, C
A
O
0.1
0.1
1.0
1.0
10
10
100
100
1000 10000
P ,PEAK PULSE FORWARD,KW
PPM
I ,PEAK PULSE CURRENT,%
PPM
PEAK PULSE FORWARD (P ) OR CURRENT (I )
DERATING IN PERCENTAGE %
PP PP
100
75
50
25
0125 150 175 20025 50 75 1000
Non-Repetitve
Pulse Wavefom
Shown in Figure.3
T=25C
A
O
0 1.0 2.0 3.0 4.0
0
50
100
150
TA=25C
Pulse Width (td) is Defined
as the Point Where the Peak
CurrentDecaysto50%ofIpp
tf= 10
u
se c
10/1000
u
se c Wa v e fo rm
as Defined bye R.E.A.
Pe a k Va l u e
Ip p m
Ha lf Va lu e -Ip p
2
e-kt
td
10
1,000
100
105.0 10 20 50 100 200 500
Tj = 2 5 C
f= 1.0MHZ
Vsi g = 5 0 m Vp - p
Mea sured a t
Ze ro Bi a s
Mea sured a t
Stand-Off
Vo l t a g e ( V )
RWM
CJ,CAPACITANCE,pF
4
1
Tj = Tj m a x
8.3ms SINGLE HALF since-WAVE
JEDEC M ETHOD
I, PEAK FO RWARD SURG E CURREN T
AMPERES
FSM
10
50
100
200
10 550 100
UNIDIRECTIONAL ONLY
N UM BER OF CYC LES AT 60 Hz