TSC BZW06-154B Transient voltage suppressor diode Datasheet

BZW06-5V8(B) / 376(B) SERIES
Transient Voltage Suppressor Diodes
Voltage Range
5.8 to 376 Volts
600 Watts Peak Power
DO-15
Features
a
a
a
a
a
a
a
a
a
UL Recognized File # E-96005
Plastic package has Underwriters Laboratory Flammability
Classification 94V-0
Exceeds environmental standards of MIL-STD-19500
600W surge capability at 10 x 100 us waveform, duty cycle:
0.01%
Excellent clamping capability
Low zener impedance
Fast response time: Typically less than 1.0ps from 0 volts to
VBR for unidirectional and 5.0 ns for bidirectional
Typical IR less than 1uA above 10V
High temperature soldering guaranteed: 260OC / 10 seconds
/ .375”,(9.5mm) lead length / 5lbs.,(2.3kg) tension
Mechanical Data
a Case: Molded plastic
a Lead: Axial leads, solderable per MIL-STD-202,
Method 208
a Polarity: Color band denotes cathode except bipolar
aWeight: 0.34gram
Dimensions in inches and (millimeters)
Maximum Ratings and Electrical Characteristics (TA = 25 OC)
Type Number
O
Peak Pulse Power Dissipation at TA=25 C,
Tp=1ms (Note)
Steady State Power Dissipation at TL=75 OC
Lead Lengths .375”, 9.5mm (Note 2)
Peak Forward Surge Current, 8.3 ms Single Half
Sine-wave Superimposed on Rated Load
(JEDEC method) (Note 3)
Operating and Storage Temperature Range
Symbol
PPP
Value
Minimum 600
Units
Watts
PD
1.7
Watts
IFSM
100
Amps
TJ, TSTG
-65 to + 175
O
C
Notes: For a surge greater than the maximum values, the diode will fall in short-circuit.
Thermal Resistances
Type Number
Junction to leads
Junction to ambient on printed circuit.
L lead=10mm
Symbol
RJL
RJA
Value
60
100
Units
O
C/W
O
C/W
RATINGS AND CHARACTERISTIC CURVES (BZW06-5V8(B)/376(B)SERIES)
FIG.1- PEAK PULSE POWER VERSUS EXPONENTIAL
PULSE DURATION
FIG.2- PEAK PULSE POWER DISSIPATION VERSUS
INITIAL JUNCTION TEMPERATURE
(PRINTED CIRCUIT BOARD)
Ppp(w)
1E5
%
TJ Initial=250C
100
1E4
80
60
1E3
40
1E2
20
TJ Initial (0C)
Tp (ms) EXPO.
1E1
0.001
0.01
0.1
1
10
0
100
0
20
40
60
80
100
140
120
160
180
200
FIG.3- PULSE WAVEFORM
tr=10msec.
PEAK VALUE
lPPM
100
FIG.4-CLAMPING VOLTAGE VERSUS PEAK PULSE
CURRENT.
EXPONENTIAL WAVEFORM tp-200 s
tp-1ms
tp-10m
PULSE WIDTH (td) is DEFINED
as the POINT WHERE the PEAK
CURRENT DECAYS
to 50% of lPPM
HALF VALUE- lPPM
2
10/1000 sec. WAVEFORM
as DEFINED by R.E.A.
50
10,000
VCL(V)
% IPP
BZW06-376
0
50
1.0
2.0
3.0
4.0
t, TIME, ms
FIG.5- CHARACTERASTICS VERSUS REVERSE APPLIED
VOLTAGE FOR UNIDIRECTIONAL TYPES
(TYPICAL VALUES)
C (pF)
10,000
Tj=25 0C
F=1MHz
BZW06-5V8
BZW06-13
1,000
BZW06-171
VR(V)
0
1
10
100
500
tr
tp
tp<10 s
BZW06-58
BZW06-33
BZW06-13
BZW06-10
10
1
0.1
BZW06-58
100
0
100
td
0
TJ Initial=250C
100
BZW06-186
CJ, JUNCTION CAPACITANCE.(pF)
PEAK PULSE CURRENT - %
150
BZW06-5V8
IPP(A)
1
10
100
1000
RATINGS AND CHARACTERISTIC CURVES (BZW06-5V8(B)/376(B)SERIES)
FIG.7- PEAK FORWARD VOLTAGE DROP VERSUS
PEAK FORWARD CURRENT (TYPICAL
VALUES FOR UNDIRECTIONAL TYPES)
FIG.6- CHARACTERASTICS VERSUS REVERSE APPLIED
VOLTAGE FOR UNIDIRECTIONAL TYPES
(TYPICAL VALUES)
C (pF)
10,000
100
IFM (A)
0
Tj=25 C
F=1MHz
TJ Initial
25 0C
150 0C
BZW06-5V8
BZW06-13
1,000
10
BZW06-58
BZW06-171
100
VFM (V)
1
VR(V)
0
0
1
10
100
FIG.8- TRANSIENT THERMAL IMPEDANCE JUNCTION
AMBIENT VERSUS PULSE DURATION
(FOR FR4 PC BOARD WITH L LEAD=10mm)
100
0.5
1
1.5
2
2.5
3
3.5
4
4.5
5
500
FIG.9- RELATIVE VARIATION OF LEAKAGE CURRENT
VERSUS JUNCTION TEMPERATURE
IR (TJ)
IR (TJ=25 0C)
Zth (j-a) ( 0C/W)
5E+3
VR=VRM
1E+3
1E+2
1E+1
10
1E+0
Tj ( 0C)
1E-1
tp (s)
1
0.01
0.1
1
10
100
1000
0
25
50
75
100
125
150
E LE C TR IC A L C H A R A C TE R IS TIC S
Device
Unidirectional Bidirectional
I RM @ V RM
m ax
uA
V
O
(TA=25 C unless otherwise noted)
V BR @ I R
m in
note1
V
mA
V CL @ I PP
m ax
10/1000uS
V
A
V CL @ I PP
m ax
8/20uS
V
A
T
m ax
note2
-4 O
10 / C
C
typ
note3
(pF)
BZW 06-5V8
BZW 06-5V8B
1000
5.8
6.45
10
10.5
57
13.4
298
5.7
4000
BZW 06-6V4
BZW 06-6V4B
500
6.4
7.13
10
11.3
53
14.5
276
6.1
3700
BZW 06-8V5
BZW 06-8V5B
10
8.5
9.5
1
14.5
41
18.6
215
7.3
2800
BZW 06-10
BZW 06-10B
5
10.2
11.4
1
16.7
36
21.7
184
7.8
2300
BZW 06-13
BZW 06-13B
5
12.8
14.3
1
21.2
28
27.2
147
8.4
1900
BZW 06-15
BZW 06-15B
1
15.3
17.1
1
25.2
24
32.5
123
8.8
1600
BZW 06-19
BZW 06-19B
1
18.8
20.9
1
30.6
19.6
39.3
102
9.2
1350
BZW 06-20
BZW 06-20B
1
20.5
22.8
1
33.2
28.0
42.8
93
9.4
1250
BZW 06-23
BZW 06-23B
1
23.1
25.7
1
37.5
16.0
48.3
83
9.6
1150
BZW 06-26
BZW 06-26B
1
25.6
28.5
1
41.5
14.5
53.5
75
9.7
1075
BZW 06-28
BZW 06-28B
1
28.2
31.4
1
45.7
13.1
59.0
68
9.8
1000
BZW 06-31
BZW 06-31B
1
30.8
34.2
1
49.9
12.0
64.3
62
9.6
950
BZW 06-33
BZW 06-33B
1
33.3
37.1
1
53.9
11.1
69.7
57
10.0
900
BZW06-40
BZW 06-40B
1
40.2
44.7
1
64.8
0.3
84
48
10.1
800
BZW 06-48
BZW 06-48B
1
47.8
53.2
1
77.0
7.8
100
40
10.3
700
BZW 06-58
BZW 06-58B
1
58.1
64.6
1
92
6.5
121
33
10.4
625
BZW 06-70
BZW 06-70B
1
70.1
77.9
1
113
5.3
146
27
10.5
550
BZW 06-85
BZW 06-85B
1
85.5
95
1
137
4.4
178
23
10.6
500
BZW 06-102
BZW 06-102B
1
102
114
1
165
3.6
212
19
10.7
450
BZW 06-128
BZW 06-128B
1
128
143
1
207
2.9
265
15
10.8
400
BZW 06-154
BZW 06-154B
1
154
171
1
246
2.4
317
13
10.8
360
BZW 06-171
BZW 06-171B
1
171
190
1
274
2.2
353
11
10.8
350
BZW 06-188
BZW 06-188B
1
188
209
1
328
2.0
388
10.3
10.8
330
BZW 06-213
BZW 06-213B
1
231
237
1
344
2.0
442
9.0
11.0
310
BZW 06-256
BZW 06-256B
1
256
285
1
414
1.6
529
7.6
11.0
290
BZW 06-273
BZW 06-273B
1
273
304
1
438
1.6
564
7.1
11.0
280
BZW 06-299
BZW 06-299B
1
299
332
1
482
1.6
618
6.5
11.0
270
BZW 06-342
BZW 06-342B
1
342
380
1
548
1.3
706
5.7
11.0
360
BZW 06-376
BZW 06-376B
1
376
418
1
603
1.3
776
5.7
11.0
350
Notes: 1. Pulse test: tp < 50 m s.
O
2. V BR = T *(Tam b - 25) * V BR (25 C)
3. V R =0V, F=1M Hz, For bidirectional types, capacitance value is divided by 2
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