COMCHIP 1.5KE11-C

1500W Transient Voltage Suppressor
SMD Diodes Specialist
1.5KE-G Series
Stand-off Voltage: 6.8 ~ 440V
Power Dissipation: 1500 Watts
RoHS Device
Features
DO-201AE
-Plastic package has underwriters laboratory
flammability classification 94V-0
-1500W, surge capability at 1mS.
-Excellent clamping capability.
-Low Zener impedance.
-Fast response time: typically less than 1.0pS from
0 volt to BV min.
-Typical I R less than 1μA above 10V.
-High temperature soldering guaranteed:
260 OC/10S/0.375"(9.5mm) lead
length/5lbs.,(2.3KG) tension
0.042(1.07)
0.037(0.94)
1.0(25.4)
MIN.
0.375(9.5)
0.335(8.5)
0.220(5.6)
Mechanical Data
0.197(5.0)
-Case: Molded plastic DO-201AE
-Terminals: Axial leads, solderable per MIL-STD202, Method 208
-Polarity: Color band denotes cathode except
bipolar
-Weight: 1.2 gram
1.0(25.4)
MIN.
Dimensions in inches and (millimeter)
Maximum Ratings and Electrical Characteristics
Symbol
Value
Unit
Peak power dissipation at T A =25 OC
T P =1mS
(Note 1)
P PK
Maximum 1500
W
Steady state power dissipation at T L =75 OC
Lead length 0.375" (9.5mm) (Note 2)
PD
5.0
W
Peak forward surge current, 8.3mS single
half sine-wave superimposed on rated load
(JEDEC method) (Note 3)
I FSM
200
A
Operating junction and storage temperature
range
T J , T STG
-55 to +175
Parameter
O
C
NTOES:
(1) Non-repetitive current pulse, per fig.3 and derated above T A =25 OC per fig. 2.
(2) Mounted on copper land area of 0.79in 2(20mm 2).
(3) 8.3mS single half-sine wave, duty cycle=4 pulses per minute maximum.
(4) For bidirectional use C suffix for 10% tolerance, CA suffix for 5% tolerance.
REV:A
QW-BTV07
Page 1
1500W Transient Voltage Suppressor
SMD Diodes Specialist
RATING AND CHARACTERISTIC (1.5KE-G Series)
B re a k d o w n V o lta g e
V B R (V )
P a rt N o .
@ I T (m A )
W o rk in g
Peak
R e v e rs e
V o lta g e
V R W M (V )
M a xim u m
R e v e rs e
Leakage
at V RW M
I R (μ A )
M a xim u m M a xim u m
M a xim u m
R e v e rs e C la m p in g T e m p e ra tu re
C u rre n t
V o lta g e C o e ffic ie n t o f
IR S M
V RW M
V BR
(A )
(V )
(% C )
M IN .
M AX.
1 .5 K E 6 .8 (C )-G
6 .1 2
7 .4 8
10
5 .5 0
1000
1 3 9 .0
1 0 .8
0 .0 5 7
1 .5 K E 6 .8 (C )A -G
6 .4 5
7 .1 4
10
5 .8 0
1000
1 4 3 .0
1 0 .5
0 .0 5 7
1 .5 K E 7 .5 (C )-G
6 .7 5
8 .2 5
10
6 .0 5
500
1 2 8 .0
1 1 .7
0 .0 6 1
1 .5 K E 7 .5 (C )A -G
7 .1 3
7 .8 8
10
6 .4 0
500
1 3 2 .0
1 1 .3
0 .0 6 1
1 .5 K E 8 .2 (C )-G
7 .3 8
9 .0 2
10
6 .6 3
200
1 2 0 .0
1 2 .5
0 .0 6 5
1 .5 K E 8 .2 (C )A -G
7 .7 9
8 .0 0
10
7 .0 2
200
1 2 4 .0
1 2 .1
0 .0 6 5
1 .5 K E 9 .1 (C )-G
8 .1 9
1 0 .0
1 .0
7 .3 7
50
1 0 9 .0
1 3 .8
0 .0 6 8
1 .5 K E 9 .1 (C )A -G
8 .6 5
9 .5 5
1 .0
7 .7 8
50
1 1 2 .0
1 3 .4
0 .0 6 8
1 .5 K E 1 0 (C )-G
9 .0 0
1 1 .0
1 .0
8 .1 0
10
1 0 0 .0
1 5 .0
0 .0 7 3
1 .5 K E 1 0 (C )A -G
9 .5 0
1 0 .5
1 .0
8 .5 5
10
1 0 3 .0
1 4 .5
0 .0 7 3
1 .5 K E 1 1 (C )-G
9 .9 0
1 2 .1
1 .0
8 .9 2
5 .0
9 3 .0
1 6 .2
0 .0 7 5
1 .5 K E 1 1 (C )A -G
1 0 .5
1 1 .6
1 .0
9 .4 0
5 .0
9 6 .0
1 5 .6
0 .0 7 5
1 .5 K E 1 2 (C )-G
1 0 .8
1 3 .2
1 .0
9 .7 2
5 .0
8 7 .0
1 7 .3
0 .0 7 8
1 .5 K E 1 2 (C )A -G
1 1 .4
1 2 .6
1 .0
1 0 .2
5 .0
9 0 .0
1 6 .7
0 .0 7 8
1 .5 K E 1 3 (C )-G
1 1 .7
1 4 .3
1 .0
1 0 .5
5 .0
7 9 .0
1 9 .0
0 .0 8 1
1 .5 K E 1 3 (C )A -G
1 2 .4
1 3 .7
1 .0
1 1 .1
5 .0
8 2 .0
1 8 .2
0 .0 8 1
1 .5 K E 1 5 (C )-G
1 3 .5
1 6 .5
1 .0
1 2 .1
5 .0
6 8 .0
2 2 .0
0 .0 8 4
1 .5 K E 1 5 (C )A -G
1 4 .3
1 5 .8
1 .0
1 2 .8
5 .0
7 1 .0
2 1 .2
0 .0 8 4
1 .5 K E 1 6 (C )-G
1 4 .4
1 7 .6
1 .0
1 2 .9
5 .0
6 4 .0
2 3 .5
0 .0 8 6
1 .5 K E 1 6 (C )A -G
1 5 .2
1 6 .8
1 .0
1 3 .6
5 .0
6 7 .0
2 2 .5
0 .0 8 6
1 .5 K E 1 8 (C )-G
1 6 .2
1 9 .8
1 .0
1 4 .5
5 .0
5 6 .5
2 6 .5
0 .0 8 8
1 .5 K E 1 8 (C )A -G
1 7 .1
1 8 .9
1 .0
1 5 .3
5 .0
5 9 .5
2 5 .2
0 .0 8 8
1 .5 K E 2 0 (C )-G
1 8 .0
2 2 .0
1 .0
1 6 .2
5 .0
5 1 .5
2 9 .1
0 .0 9 0
1 .5 K E 2 0 (C )A -G
1 9 .0
2 1 .0
1 .0
1 7 .1
5 .0
5 4 .0
2 7 .7
0 .0 9 0
1 .5 K E 2 2 (C )-G
1 9 .8
2 4 .2
1 .0
1 7 .8
5 .0
4 7 .0
3 1 .9
0 .0 9 2
1 .5 K E 2 2 (C )A -G
2 0 .9
2 3 .1
1 .0
1 8 .8
5 .0
4 9 .0
3 0 .6
0 .0 9 2
1 .5 K E 2 4 (C )-G
2 1 .6
2 6 .4
1 .0
1 9 .4
5 .0
4 3 .0
3 4 .7
0 .0 9 4
1 .5 K E 2 4 (C )A -G
2 2 .8
2 5 .2
1 .0
2 0 .5
5 .0
4 5 .0
3 3 .2
0 .0 9 4
1 .5 K E 2 7 (C )-G
2 4 .3
2 9 .7
1 .0
2 1 .8
5 .0
3 8 .2
3 9 .1
0 .0 9 6
1 .5 K E 2 7 (C )A -G
2 5 .7
2 8 .4
1 .0
2 3 .1
5 .0
4 0 3 .0
3 7 .5
0 .0 9 6
1 .5 K E 3 0 (C )-G
2 7 .0
3 3 .0
1 .0
2 4 .3
5 .0
3 4 .5
4 3 .5
0 .0 9 7
1 .5 K E 3 0 (C )A -G
2 8 .5
3 1 .5
1 .0
2 5 .6
5 .0
3 6 .0
4 1 .4
0 .0 9 7
1 .5 K E 3 3 (C )-G
2 9 .7
3 6 .3
1 .0
2 6 .8
5 .0
3 1 .5
4 7 .7
0 .0 9 8
1 .5 K E 3 3 (C )A -G
3 1 .4
3 4 .7
1 .0
2 8 .2
5 .0
3 3 .0
4 5 .7
0 .0 9 8
1 .5 K E 3 6 (C )-G
3 2 .4
3 9 .6
1 .0
2 9 .1
5 .0
2 9 .0
5 2 .0
0 .0 9 9
1 .5 K E 3 6 (C )A -G
3 4 .2
3 7 .8
1 .0
3 0 .8
5 .0
3 0 .0
4 9 .0
0 .0 9 9
1 .5 K E 3 9 (C )-G
3 5 .1
4 2 .9
1 .0
3 1 .6
5 .0
2 6 .5
5 6 .4
0 .1 0 0
1 .5 K E 3 9 (C )A -G
3 7 .1
4 1 .0
1 .0
3 3 .3
5 .0
2 8 .0
5 3 .9
0 .1 0 0
1 .5 K E 4 3 (C )-G
3 8 .7
4 7 .3
1 .0
3 4 .8
5 .0
2 4 .0
6 1 .9
0 .1 0 1
1 .5 K E 4 3 (C )A -G
4 0 .9
4 5 .2
1 .0
3 6 .8
5 .0
2 5 .3
5 9 .3
0 .1 0 1
1 .5 K E 4 7 (C )-G
4 2 .3
5 1 .7
1 .0
3 6 .1
5 .0
2 2 .2
6 7 .8
0 .1 0 1
1 .5 K E 4 7 (C )A -G
4 4 .7
4 9 .4
1 .0
4 0 .2
5 .0
2 3 .2
6 4 .8
0 .1 0 1
1 .5 K E 5 1 (C )-G
4 5 .9
5 6 .1
1 .0
4 1 .3
5 .0
2 0 .4
7 3 .5
0 .1 0 2
1 .5 K E 5 1 (C )A -G
4 8 .5
5 3 .6
1 .0
4 3 .6
5 .0
2 1 .4
7 0 .1
0 .1 0 2
1 .5 K E 5 6 (C )-G
5 0 .4
6 1 .8
1 .0
4 5 .4
5 .0
1 8 .6
8 0 .5
0 .1 0 3
1 .5 K E 5 6 (C )A -G
5 3 .2
5 8 .8
1 .0
4 7 .8
5 .0
1 9 .5
7 7 .0
0 .1 0 3
1 .5 K E 6 2 (C )-G
5 5 .8
6 8 .2
1 .0
5 0 .2
5 .0
1 6 .9
8 9 .0
0 .1 0 4
1 .5 K E 6 2 (C )A -G
5 8 .9
6 5 .1
1 .0
5 3 .0
5 .0
1 7 .7
8 5 .0
0 .1 0 4
REV:A
QW-BTV07
Page 2
1500W Transient Voltage Suppressor
SMD Diodes Specialist
RATING AND CHARACTERISTIC (1.5KE-G Series)
Breakdown Voltage
V BR (V)
Part No.
@ I T(m A)
W orking
Peak
Reverse
Voltage
V RW M (V)
Maxim um Maxim um Maxim um
Maxim um
Reverse Reverse Clam ping Tem perature
Leakage
Current
Voltage Coefficient of
at V RW M
I RSM
V RW M
V BR
I R (μA)
(A)
(V)
(%C)
MIN.
MAX.
1.5KE68(C)-G
61.2
74.8
1.0
55.1
5.0
15.3
1.5KE68(C)A-G
64.6
71.4
1.0
58.1
5.0
1.5KE75(C)-G
67.5
82.5
1.0
60.7
5.0
1.5KE75(C)A-G
71.3
78.8
1.0
64.1
1.5KE82(C)-G
73.8
90.2
1.0
1.5KE82(C)A-G
77.9
86.1
1.0
1.5KE91(C)-G
81.9
100.0
1.5KE91(C)A-G
86.5
1.5KE100(C)-G
90.0
1.5KE100(C)A-G
95.0
1.5KE110(C)-G
99.0
1.5KE110(C)A-G
98.0
0.104
16.3
92.0
0.104
13.9
108.0
0.105
5.0
14.6
103.0
0.105
66.4
5.0
12.7
118.0
0.105
70.1
5.0
13.3
113.0
0.105
1.0
73.7
5.0
11.4
131.8
0.106
95.5
1.0
77.8
5.0
12.0
125.0
0.106
110.0
1.0
81.0
5.0
10.4
144.0
0.106
105.0
1.0
85.5
5.0
11.0
137.0
0.106
121.0
1.0
89.2
5.0
9.5
158.0
0.107
106.0
116.0
1.0
94.0
5.0
9.9
152.0
0.107
1.5KE120(C)-G
108.0
132.0
1.0
97.2
5.0
8.7
173.0
0.107
1.5KE120(C)A-G
114.0
126.0
1.0
102.0
5.0
9.1
165.0
0.107
1.5KE130(C)-G
117.0
143.0
1.0
106.0
5.0
8.0
187.0
0.107
1.5KE130(C)A-G
124.0
137.0
1.0
111.0
5.0
8.4
179.0
0.107
1.5KE150(C)-G
136.0
165.0
1.0
121.0
5.0
7.0
215.0
0.108
1.5KE150(C)A-G
143.0
158.0
1.0
128.0
5.0
7.2
207.0
0.108
1.5KE160(C)-G
144.0
176.0
1.0
130.0
5.0
6.5
230.0
0.108
1.5KE160(C)A-G
152.0
168.0
1.0
136.0
5.0
6.8
219.0
0.108
1.5KE170(C)-G
153.0
187.0
1.0
138.0
5.0
6.2
244.0
0.108
1.5KE170(C)A-G
162.0
179.0
1.0
145.0
5.0
6.4
234.0
0.108
1.5KE180(C)-G
162.0
198.0
1.0
146.0
5.0
5.8
258.0
0.108
1.5KE180(C)A-G
171.0
189.0
1.0
154.0
5.0
6.1
246.0
0.108
1.5KE200(C)-G
180.0
220.0
1.0
162.0
5.0
5.2
287.0
0.108
1.5KE200(C)A-G
190.0
210.0
1.0
171.0
5.0
5.5
274.0
0.108
1.5KE220(C)-G
196.0
242.0
1.0
175.0
5.0
4.40
344.0
0.108
1.5KE220(C)A-G
209.0
231.0
1.0
185.0
5.0
4.60
328.0
0.108
1.5KE250(C)-G
225.0
275.0
1.0
202.0
5.0
4.20
360.0
0.110
1.5KE250(C)A-G
237.0
263.0
1.0
214.0
5.0
4.40
344.0
0.110
1.5KE300(C)-G
270.0
330.0
1.0
243.0
5.0
3.20
430.0
0.110
1.5KE300(C)A-G
285.0
315.0
1.0
256.0
5.0
3.60
414.0
0.110
1.5KE350(C)-G
315.0
385.0
1.0
284.0
5.0
3.00
504.0
0.110
1.5KE350(C)A-G
333.0
368.0
1.0
300.0
5.0
3.10
482.0
0.110
1.5KE400(C)-G
360.0
440.0
1.0
324.0
5.0
2.60
574.0
0.110
1.5KE400(C)A-G
380.0
420.0
1.0
342.0
5.0
2.70
548.0
0.110
1.5KE440(C)-G
396.0
484.0
1.0
356.0
5.0
2..4
631.0
0.110
1.5KE440(C)A-G
418.0
462.0
1.0
376.0
5.0
2.50
602.0
0.110
NOTES:
1. V BR measured after I T applied for 300μS, I T =square wave pulse or equivalent.
2. Surge current wave form per fig.3 and derated per fig.2.
3. V F =3.5V at I F =50A (P6KE6.8-G thru P6KE91A-G
V F =5.0V at I F =50A (p6KE100-G thru P6KE400A-G on ½ square or equivalent sine wave.
P W =8.3mS, duty cycle=4 pulses per minute max..
4. For bipolar types having V RWM of 10 Volts and under, the I R limit is doubled.
REV:A
QW-BTV07
Page 3
1500W Transient Voltage Suppressor
SMD Diodes Specialist
RATING AND CHARACTERISTIC CURVES (1.5KE-G Series)
Fig.1 Peak Pulse Power Rating Curve
Fig.2 Pulse Derating Curve
100
P PPM ,Peak Pulse Power (kW)
10
1.0
0.1
0.1 μS
1.0 μS
10μS
100μS
1.0mS
10mS
Peak Pulse Power (P PP ) or
Current(I PP ) Derating in Percentge (%)
100
Non-repetitive
pulse waveform
shown in fig.3
O
T A =25 C
75
50
25
10
0
Fig.3 Pulse Wave Form
150
200
10000
C J , Junction Capacitance (pF)
Pulse width (td) is
defined as the point
where the peak current
decays to 50% of I PP
tr=10μS
I PPK , Peak Pulse Current (%)
100
Fig.4 Typical Junction Capacitance
Unidirectional
150
Peak value,
I PPM
100
Half value,
I PP /2
10/1000μS
waveform as
deined by R.E.A
50
Unidirectional
Bidirectional
V R =0
1000
100
f=1MHz
Vsig=50mVp-p
Tj=25 OC
V R =Rated
stand-off
voltage
td
0
10
0
2
1
3
Fig.6 Maximum Non-repetitive
Forward Surge Current Unidirectional
I FSM , Peak Forward Surge Current (A)
5.00
60Hz
Resistive or
inductive load
L=0.375"(9.5mm)
Lead lengths
2.50
1.6" 1.6" 0.040"
(40"X40"X 1mm)
Copper heat sinks
1.25
0
0
25
50
75
100
125
500
V BR , Breakdown Voltage (V)
Fig.5 Steady State Power
Derating Curve
3.75
100
10
4
t, Time (mS)
PM (AV) , Steady State Power
Dissipation (W)
50
T A , Ambient Temperature ( OC)
td, Pulse Width (sec)
150
175
T L , Lead Temperature ( OC)
200
200
8.3mS single half
sine-wave
(JEDEC method)
100
10
1
10
100
Number of Cycles at 60Hz
REV:A
QW-BTV07
Page 4
1500W Transient Voltage Suppressor
SMD Diodes Specialist
RATING AND CHARACTERISTIC CURVES (1.5KE-G Series)
Fig.8 Incremental Clamping Voltage Curve
Unidirectional
100
Waveform:
10X1000 impulse
ΔVC=VC-V BR
ΔVC, Incremental Clamping Voltage
ΔVC, Incremental Clamping Voltage
Fig.7 Incremental Clamping Voltage Curve
Unidirectional
1.5KE200
1.5KE130
1.5KE100
10
1.5KE75
1.5KE39
1.5KE33
1
1.5KE6.8
1.5KE9.1
1.5KE18
1.5KE12
0.1
0.5
10
1
50
100
Waveform:
10X1000 impulse
ΔVC=VC-V BR
10
1.5KE39
1.5KE33
1
1.5KE6.8
1.5KE9.1
0.1
0.5
Waveform:
10X1000 impulse
ΔVC=VC-V BR
1.5KE200C
10
1.5KE75C
1.5KE39C
1.5KE30C
1.5KE15C
1.5KE11C
1.5KE7.5C
10
50
Fig.10 Incremental Clamping Voltage Curve
Bidirectional
ΔVC, Incremental Clamping Voltage
ΔVC, Incremental Clamping Voltage
100
1
10
1
I PP , Peak Pulse Current (A)
Fig.9 Incremental Clamping Voltage Curve
Bidirectional
0.1
0.5
1.5KE130
1.5KE75
I PP , Peak Pulse Current (A)
1
1.5KE200
50
100
Waveform:
10X1000 impulse
ΔVC=VC-V BR
1.5KE200C
1.5KE75C
10
1.5KE39C
1.5KE30C
1.5KE15C
1.5KE11C
1
1.5KE7.5C
0.1
0.5
I PP , Peak Pulse Current (A)
10
1
50
I PP , Peak Pulse Current (A)
Fig.12 Breakdown Voltage Temperature
Coefficient Curve
100
1000
Temperature Coefficient (mV/ C)
Fig.11 Instantaneous Forward Voltage
Characteristics Curve
Forward Current
O
Pulse width=300μS
1% duty cycle
O
T J =25 C
10
1
0.1
100
Unidirectional
Bidirectional
10
1
0
0.4
0.8
1.2
1.6
2.0
Instantaneous Forward Current (A)
5
10
100
500
V BR , Breakdown Voltage (V)
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QW-BTV07
Page 5