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PDF下载1N5348BE
THRU
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ꢀꢁꢂꢃꢄꢅꢆꢄꢇꢇꢈꢃꢂꢁꢉꢊꢅꢆomponents
20736 Marilla Street Chatsworth
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TM
Micro Commercial Components
1N5388BE
Features
5 Watt
•
Built Strain Relief
·
Case Material: Molded Plastic. UL Flammability
Zener Diode
11 to 200 Volts
Classification Rating 94V-0
•
·
For Available Tolerances—See Note 1
Marking : 1N5348~1N5388 part number and Cathode Band
Maximum Ratings:
DO-201AE
•
•
•
•
•
Operating Temperature: -55°C to +150°C
Storage Temperature: -55°C to +150°C
5 Watt DC Power Dissipation
Maximum Forward Voltage @ 1A: 1.2 Volts
Power Derating: 40 mW/℃ Above 75℃
D
Mechanical Characteristics
Case: JEDEC DO-201AE.
Terminals: Solder plated , solderable per MIL-STD-750,
Method 2026.
Standard Packaging: 52mm tape
Weight: 0.04 ounces , 1.1 gram (approx)
A
Cathode
Mark
B
D
C
DIMENSIONS
INCHES
MIN
M M
DIM
NOTE
MAX
0.375
0.210
0.043
-----
MIN
7.20
MAX
9.50
5.30
1.07
-----
A
B
C
D
0.285
0.190
0.037
1.000
4.80
0.94
25.40
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2006/05/28
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TM
Micro Commercial Components
1N5348BE THRU 1N5388BE
ELECTRICAL CHARACTERISTICS (TA=25℃unless otherwise noted, VF=1.2 Max @ IF=1A for all types).
Max reverse
Nominal Zener
Voltage Vz @ IZT
volts
Maximum Zener Impedance
ZZT @ IZT ZZk @ IZK = 1 mA
Maximum
Leakage
Current
Test current
IZT
Max Surge
Current Ir Amps Regulation
Max Voltage
Regulator
Current
IZM mA
Type No.
(Note 1.)
Vz, Volts
IR
VR
mA
(Note 3.)
uA
Ohms
Ohms
Volts
(Note 4.)
(Note 5.)
(Note 2.)
(Note 2.)
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
3
(Note 2.)
125
125
100
75
1N5348BE
1N5349BE
1N5350BE
1N5351BE
1N5352BE
1N5353BE
1N5354BE
1N5355BE
1N5356BE
1N5357BE
1N5358BE
1N5359BE
1N5360BE
1N5361BE
1N5362BE
1N5363BE
1N5364BE
1N5365BE
1N5366BE
1N5367BE
1N5368BE
1N5369BE
1N5370BE
1N5371BE
1N5372BE
1N5373BE
1N5374BE
1N5375BE
1N5376BE
1N5377BE
1N5378BE
1N5379BE
1N5380BE
1N5381BE
1N5382BE
1N5383BE
1N5384BE
1N5385BE
1N5386BE
1N5387BE
11
12
13
14
15
16
17
18
19
20
22
24
25
27
28
30
33
36
39
43
47
51
56
60
62
68
75
82
87
125
100
100
100
75
75
70
65
65
65
50
50
50
50
50
40
40
30
30
30
25
25
20
20
20
20
20
15
15
15
12
12
10
10
8
5
2
8.4
9.1
8
7.5
7
6.7
6.3
6
0.25
0.25
0.25
0.25
0.25
0.3
0.35
0.4
0.4
0.4
0.45
0.55
0.55
0.6
0.6
0.6
0.6
0.65
0.65
0.7
0.8
0.9
1
1.2
1.35
1.5
1.6
1.8
2
2.2
2.5
2.5
2.5
2.5
2.5
3
430
395
365
340
315
295
280
265
250
237
216
198
190
176
170
158
144
132
122
110
100
93
86
79
76
70
63
58
54.5
52.5
47.5
43
39.5
36.6
34
31.6
29.4
28
26.4
25
1
9.9
1
1
1
10.6
11.5
12.2
12.9
13.7
14.4
15.2
16.7
18.2
19
20.6
21.2
22.8
25.1
27.4
29.7
32.7
35.8
38.8
42.6
45.5
47.1
51.7
56
62.2
66
69.2
76
83.6
91.2
98.8
106
114
122
129
137
144
152
75
75
75
75
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
5.8
5.5
5.3
5.1
4.7
4.4
4.3
4.1
3.9
3.7
3.5
3.3
3.1
2.8
2.7
2.5
2.3
2.2
2.1
2
1.9
1.8
1.7
1.6
1.5
1.4
1.3
1.2
1.2
1.1
1.1
1
75
3
75
3.5
3.5
4
5
6
8
10
11
14
20
25
27
35
40
42
44
45
65
75
75
90
125
170
190
230
330
35 0
380
430
450
480
75
100
110
120
130
140
150
160
170
190
210
230
280
350
400
500
620
720
760
760
800
1000
1150
1250
1500
1500
1650
1750
1750
1850
1850
91
100
110
120
130
140
150
160
170
180
190
200
8
8
8
5
5
5
3
3
4
5
1
0.9
0.9
1N5388
5
23.6
BE
NOTE:
1. TOLERANCE AND VOLTAGE DESIGNATION - The JEDEC type numbers shown indicate a tolerance of+/-10% with
guaranteed limits on only Vz, IR, Ir, and VF as shown in the electrical characteristics table. Units with guaranteed limits
on all seven parameters are indicated by suffix “B” for+/-5% tolerance.
2. ZENER VOLTAGE (Vz) AND IMPEDANCE (ZZT & ZZK) - Test conditions for Zener voltage and impedance are as
℃
follows; Iz is applied 40 10 ms prior to reading. Mounting contacts are located from the inside edge of mounting
clips to the body of the diode.(TA=25℃ ).
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Revision: 6
2006/05/28
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M C C
TM
Micro Commercial Components
1N5348BE THRU 1N5388BE
ELECTRICAL CHARACTERISTICS
3. SURGE CURRENT (Ir) - Surge current is specified as the maximum allowable peak, non-recurrent square-wave
current with a pulse width, PW, of 8.3 ms. The data given in Figure 5 may be used to find the maximum surge
current for a quare wave of any pulse width between 1 ms and 1000ms by plotting the applicable points on
logarithmic paper. Examples of this, using the 6.8v and 200V zeners, are shown in Figure 6. Mounting
℃
contact located as specified in Note 3. (TA=25 ).
4. VOLTAGE REGULATION (Vz) - Test conditions for voltage regulation are as follows: Vz measurements are made
at 10% and then at 50% of the Iz max value listed in the electrical characteristics table. The test currents are the
same for the 5% and 10% tolerance devices. The test current time druation for each Vz measurement is 40 10 ms.
(TA=25 ). Mounting contact located as specified in Note2.
5. MAXIMUM REGULATOR CURRENT (IZM) - The maximum current shown is based on the maximum voltage of a
5% type unit. Therefore, it applies only to the B-suffix device. The actual IZM for any device may not exceed the
value of 5 watts divided by the actual Vz of the device. TL=75 at maximum from the device body.
APPLICATION NOTE:
of PD and the extremes of TJ(TJ) may be estimated.
Since the actual voltage available from a given zener
diode is temperature dependent, it is necessary to
determine junction temperature under any set of
operating conditions in order to calculate its value. The
following procedure is recommended:
Changes in voltage, Vz, can then be found from:
, the zener voltage temperature coefficient, is fount
from Figures 2.
Lead Temperature, TL, should be determined from:
Under high power-pulse operation, the zener voltage will
vary with time and may also be affected significantly be
the zener resistance. For best regulation, keep current
excursions as low as possible.
TL =th LAPD + TA
th LA is the lead-to-ambient thermal resistance ( /W)
and PD is the power dissipation.
Junction Temperature, TJ , may be found from:
TJ = TL + TJL
Data of Figure 3 should not be used to compute surge
capability. Surge limitations are given in Figure 5. They
are lower than would be expected by considering only
junction temperature, as current crowding effects cause
temperatures to be extremely high in small spots resulting
in device degradation should the limits of Figure. 5 be
exceeded.
TJL is the increase in junction temperature above the
lead temperature and may be found from Figure 3 for a
train of power pulses or from Figure 4 for dc power.
TJL
= JLPD
For worst-case design, using expected limits of Iz, limits
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2006/05/28
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M C C
TM
RATING AND CHARACTERISTICS CURVES
Micro Commercial Components
1N5348BE THRU 1N5388BE
TEMPERATURE COEFFICIENTS
300
200
100
8
6
4
2
0
RANGE
L = LEAD LENGTH TO
HEAT SINK
(SEE FIGURE 5)
50
30
20
10
5
0
20 40 60 80 100 120 140 160 180 200 220
VZ, ZENER VOLTAGE @IZT (VOLTS)
0
20
40
60
80
100
120
TL, LEAD TEMPERATURE
Fig. 1-POWER TEMPERATURE DERATING CURVE
Fig. 2-TEMPERATURE COEFFICIENT-RANGE FOR UNITS
6 TO 220 VOLTS
30
D = 0.5
20
10
7
5
0.2
0.1
3
2
0.05
0.02
NOTE BELOW 0.1 SECOND,
1
0.7
0.5
THERMAL RESPONSE
CURVE IS APPLICABLE TO
ANY LEAD LENGTH (L)
DUTY CYCLE, D = t1 / t2
SINGLE PULSE TJL = JL(t)PPK
0.01
REPETITIVE PULSES TJL =
JL(t,D)PPK
D = 0
0.3
0.0001 0.0002 0.0005 0.001 0.002
0.005 0.01
0.02
0.05
0.1 0.2 0.5
1
2
5
10
TIME (SECONDS)
Fig. 3-TYPICAL THERMAL RESPONSE
40
20
10
PW = 1ms*
40
30
PW = 8.3ms*
4
2
1
20
10
2
MCUNTE ON 8.0mm
COPPER PADS TO
EACH TERMINAL
PW = 1000ms*
SINE / SQUARE WAVE PW = 100ms*
0.4
0.2
0
0.1
3
0
0.2
0.4
0.6
0.8
1
4
6
8
10
20
30 40 60 80 100
200
L, LEAD LENGTH TO HEAT SINK (INCH)
NOMINAL VZ(V)
Fig. 4-TYPICAL THERMAL RESISTANCE
Fig. 5-MAXIMUM NON-REPETITIVE SURGE
CURRENT VERSUS NOMINAL ZENER
VOLTAGE (SEE NOTE 3)
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Revision: 6
2006/05/28
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M C C
TM
RATING AND CHARACTERISTICS CURVES
Micro Commercial Components
1N5348BE THRU 1N5388BE
ZENER VOLTAGE VERSUS ZENER CURRENT
(FIGURES 7,8, AND 9)
30
20
VZ = 6.8V
TC = 25
T = 25
1000
10
5
PLOTTED FROM INFORMATION
GIVEN IN FIGURE 6
100
10
2
1
0.5
1
VZ = 200V
0.2
0.1
0.1
1
2
3
4
5
6
7
8
9
10
1
10
100
1000
VZ, ZENER VOLTAGE (VOLTS)
Fig. 6-PEAK SURGE CURRENT VERSUS PULSE
WIDTH(SEE NOTE 3)
Fig. 7-ZENER VOLTAGE VERSUS ZENER CURRENT
VZ = 6.8 THRU 10 VOLTS
1000
1000
T = 25
100
100
10
10
1
1
0.1
0.1
10
20
30
40
50
60
70
80
80
100
120
140
160
180
200
220
VZ, ZENER VOLTAGE (VOLTS)
VZ, ZENER VOLTAGE (VOLTS)
Fig. 8-ZENER VOLTAGE VERSUS ZENER CURRENT
VZ = 11 THRU 75 VOLTS
Fig. 9-ZENER VOLTAGE VERSUS ZENER CURRENT
VZ = 82 THRU 200 VOLTS
*** Data of Figure 3 should not be used to compute surge capability. Surge limitations are given in Figure 5. They are
lower than would be expected by considering only junction temperature, as current crowding effects cause
temperatures to be extremely high in small spots resulting in device degradation should the limits of Figure. 5 be
exceeded
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Revision: 6
2006/05/28
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M C C
TM
Micro Commercial Components
***IMPORTANT NOTICE***
Micro Commercial Components Corp . reserves the right to make changes without further notice to any
product herein to make corrections, modifications , enhancements , improvements , or other changes .
Micro Commercial Components Corp . does not assume any liability arising out of the application or
use of any product described herein; neither does it convey any license under its patent rights ,nor
the rights of others . The user of products in such applications shall assume all risks of such use
and will agree to hold Micro Commercial Components Corp . and all the companies whose
products are represented on our website, harmless against all damages.
***APPLICATIONS DISCLAIMER***
Products offer by Micro Commercial Components Corp . are not intended for use in Medical,
Aerospace or Military Applications.
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