V5.5MLA0805LWA [LITTELFUSE]
RESISTOR, VOLTAGE DEPENDENT, 5.5V, 0.1J, SURFACE MOUNT, CHIP, 0805, LEAD FREE;
| 型号: | V5.5MLA0805LWA |
| 厂家: | 
LITTELFUSE |
| 描述: | RESISTOR, VOLTAGE DEPENDENT, 5.5V, 0.1J, SURFACE MOUNT, CHIP, 0805, LEAD FREE 电阻器 |
| 文件: | 总8页 (文件大小:945K) |
| 中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Metal-OxideVaristors (MOVs)
Surface Mount Multilayer Varistors (MLVs) > MLA Automotive Series
ꢀoHS
MLA Automotive Varistor Series
Description
The MLA Automotive Series of transient voltage surge
suppression devices is based on the Littelfuse Multilayer
fabrication technology. These components are designed
to suppress a variety of transient events, including those
specified in IEC 61000-4-2 or other standards used for
Electromagnetic Compliance (EMC). The MLA Automotive
Series is typically applied to protect integrated circuits and
other components at the circuit board level.
The wide operating voltage and energy range make the
MLA Automotive Series suitable for numerous applications
on power supply, control and signal lines.
The MLA Automotive Series is manufactured from
semiconducting ceramics, and is supplied in a leadless,
surface mount package. The MLA Automtove Series
is compatible with modern reflow and wave soldering
procedures.
SizeTable
Metric
1608
2012
EIA
0603
0805
1206
1210
It can operate over a wider temperature range than Zener
diodes, and has a much smaller footprint than plastic-
housed components.
3216
3225
Features
Absolute Maximum Ratings
• AEC-Q200 qualified
• Rated for energy
(10 x 1000µs)
• For ratings of individual members of a series, see device ratings and specifications table.
• Halogen-Free and
RoHS compliant
MLA Auto
Series
Continuous
Units
• Inherent bi-directional
clamping
Steady State Applied Voltage:
• Leadless 0603, 0805,
1206 and 1210 chip sizes
DC Voltage Range (VM(DC)
AC Voltage Range (VM(AC)RMS
Transient:
Non-Repetitive Surge Current, 8/20µs
)
3.5 to 120
2.5 to 107
V
V
• No plastic or epoxy
packaging assures
better than UL94V-0
flammability rating
• Multilayer ceramic
)
construction technology
• -55°C to +125°C
up to 500
0.1 to 2.5
A
J
• Standard low
capacitance types
available
operating temp. range
Waveform, (ITM
)
• Operating voltage range
VM(DC) = 3.5V to 120V
Non-Repetitive Surge Energy,
10/1000µs Waveform, (WTM
)
• Load Dump energy
rated per SAE
• Rated for surge
current (8 x 20µs)
-55 to
+125
Operating AmbientTemperature Range (TA)
ºC
Specification J1113
-55 to
+150
StorageTemperature Range (TSTG
)
ºC
Applications
•
Suppression of
•
•
•
Provides on-board
transient voltage
protection for ICS
and transistors
Temperature Coefficient (αV) of Clamping
Voltage (VC) at Specified Test Current
<0.01
%/º C
inductive switching
or other transient
events such as EFT
and surge voltage at
the circuit board level
Used to help achieve
electromagnetic
compliance of
Additional Information
•
ESD protection for IEC
61000-4-2, MIL-STD-
883c method 3015.7,
and other industry
specifications
end products
Replaces larger surface
mountTVS Zeners in
many applications
Datasheet
ꢀesoꢁrꢂes
ꢀaꢁꢂles
© 2017 Littelfuse, Inc.
Specifications are subject to change without notice.
Revised: 09/14/17
Metal-OxideVaristors (MOVs)
Surface Mount Multilayer Varistors (MLVs) > MLA Automotive Series
Device Ratings and Specifications
Maximum Ratings (125º C)
Specifications (25ºC)
Maximum
Clamping
Voltage
at 1A (or
as Noted)
(8/20µs)
Maximum
Continuous
Working
Jump
Start
Voltage
(5 min)
Maximum
Load
Maximum
Nominal
Typical
Non-repetitive Non-repetitive
Surge Current Surge Energy
Voltage at
Capacitance
1mA DCTest
at f = 1MHz
Current
Dump
Energy
Part Number
Voltage
(8/20µs)
(10/1000µs)
VN(DC)
Min
VN(DC)
Max
VM(DC)
VM(AC)
VJUMP
WLD
ITM
WTM
VC
C
(V)
(V)
(V)
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
24.5
24.5
24.5
24.5
24.5
27.5
27.5
27.5
27.5
27.5
29
29
29
29
36
48
48
-
(J)
--
--
--
--
--
--
--
--
--
--
--
--
--
--
--
0.3
1
0.7
1.5
3
0.4
1
0.7
1.5
3
0.4
0.7
3
(A)
30
120
40
100
30
120
40
150
30
40
40
30
120
40
150
30
120
40
150
500
30
100
40
150
300
30
(J)
(V)
13.0
13.0
13.0
13.0
17. 5
17. 5
17. 5
17. 5
25.5
25.5
29.0
34.5
32.0
32.0
32.0
50.0
(V)
(V)
7. 0
7. 0
7. 0
7. 0
9.3
9.3
9.3
9.3
(pF)
860
1500
1080
3000
830
1200
400
2900
210
400
210
90
560
320
800
120
245
180
1050
2500
50
V3.5MLA0603NHAUTO
V3.5MLA0805NHAUTO
V3.5MLA0805LNHAUTO
V3.5MLA1206NHAUTO
V5.5MLA0603NHAUTO
V5.5MLA0805NHAUTO
V5.5MLA0805LNHAUTO
V5.5MLA1206NHAUTO
V9MLA0603NHAUTO
V9MLA0805LNHAUTO
V12MLA0805LNHAUTO
V14MLA0603NHAUTO
V14MLA0805NHAUTO
V14MLA0805LNHAUTO
V14MLA1206NHAUTO
V18MLA0603NHAUTO
V18MLA0805NHAUTO
V18MLA0805LNHAUTO
V18MLA1206NHAUTO
V18MLA1210NHAUTO
V26MLA0603NHAUTO
V26MLA0805NHAUTO
V26MLA0805LNHAUTO
V26MLA1206NHAUTO
V26MLA1210NHAUTO
V30MLA0603NHAUTO
V30MLA0805LNHAUTO
V30MLA1210NHAUTO
V30MLA1210LNHAUTO
V33MLA1206NHAUTO
V42MLA1206NHAUTO
V48MLA1210NHAUTO
V48MLA1210LNHAUTO
V48MLA1206NHAUTO
V56MLA1206NHAUTO
V60MLA1210NHAUTO
V68MLA1206NHAUTO
V85MLA1210NHAUTO
3.5
3.5
3.5
3.5
5.5
5.5
5.5
5.5
2.5
2.5
2.5
2.5
4.0
4.0
4.0
4.0
0.100
0.300
0.100
0.300
0.100
0.300
0.100
0.400
0.100
0.100
0.100
0.100
0.300
0.100
0.400
0.100
0.300
0.100
0.400
2.500
0.100
0.300
0.100
0.600
1.200
0.100
0.100
1.200
0.900
0.800
0.800
1.200
0.90
3.7
3.7
3.7
3.7
7. 1
7. 1
7. 1
7. 1
9.0
9.0
6.5
6.5
9.0
11.0
11.0
14.0
15.9
15.9
15.9
15.9
22.0
22.0
22.0
22.0
22.0
31.0
29.5
29.5
29.5
29.5
37.0
37.0
35.0
35.0
38.0
46.0
54.5
54.5
54.5
61.0
67.0
76.0
95.0
16.0
16.0
18.5
21.5
20.3
20.3
20.3
28.0
28.0
28.0
28.0
28.0
38.0
38.5
38.5
38.5
38.5
46.0
46.0
43.0
43.0
49.0
60.0
66.5
66.5
66.5
77.0
83.0
90.0
115.0
12.0
14.0
14.0
14.0
14.0
18.0
18.0
18.0
18.0
18.0
26.0
26.0
26.0
26.0
26.0
30.0
30.0
30.0
30.0
33.0
42.0
48.0
48.0
48.0
56.0
60.0
68.0
85.0
10.0
10.0
10.0
10.0
14.0
14.0
14.0
14.0
14.0
20.0
20.0
20.0
20.0
20.0
25.0
25.0
25.0
25.0
26.0
30.0
40.0
40.0
40.0
40.0
50.0
50.0
67.0
44.0
44.0
44.0
44.0 at 2.5
60.0
60.0
60.0
60.0
110
90
600
1260
45
60.0 at 2.5
74.0
30
72.0
80
280
220
180
180
250
220
180
180
250
180
150
125
68.0 at 2.5
68.0 at 2.5
75.0
690
500
380
340
400
320
180
150
230
130
160
80
3
1.5
1.5
3
92.0
105.0 at 2.5
105.0 at 2.5
100
120.0
130.0 at 2.5
140.0
180.0 at 2.5
-
48
48
48
48
48
48
1.5
1.5
3
1.5
3
0.90
1.00
1.50
1.00
2.50
2.00
V120MLA1210NHAUTO
NOTES:
120.0 107.0
3
260.0 at 2.5 135.0 165.0
1. 'L' suffix is a low capacitance and energy version; Contact your Littelfuse sales representative for custom capacitance requirements
2. Typical leakage at 25ºC<25µA, maximum leakage 100µA at VM(DC)
3. Average power dissipation of transients for 0603, 0805, 1206 and 1210 sizes not to exceed 0.05W, 0.1W, 0.1W and 0.15W respectively
4. Load dump :min. time of energy input 40ms, interval 60sec(the load dump time constantTd differs from the time constant of energy input; load dump rating for ISO 7637-2 pulse 5a and
ISO16750-2Table 5A. Please contact Littelfuse.
© 2017 Littelfuse, Inc.
Specifications are subject to change without notice.
Revised: 09/14/17
Metal-OxideVaristors (MOVs)
Surface Mount Multilayer Varistors (MLVs) > MLA Automotive Series
Peak Current and Energy Derating Curve
Peak Pulse CurrentTest Waveform for ClampingVoltage
When transients occur in rapid succession, the average
power dissipation is the energy (watt-seconds) per pulse
times the number of pulses per second. The power so
developed must be within the specifications shown
on the Device Ratings and SpecificationsTable for the
specific device. For applications exceeding 125°C ambient
temperature, the peak surge current and energy ratings
must be derated as shown below.
100
50
0
T
O
TIME
1
T
1
100
80
Figure 2
T
2
01 = Virtual Origin of Wave
T =Time from 10% to 90% of Peak
T1 = RiseTime = 1.25 xT
60
40
T2 = DecayTime
Example - For an 8/20 µs Current Waveform:
8µs =T1 = RiseTime
20
0
-55
50 60
70
80
90 100 110 120 130 140 150
o
20µs =T2 = DecayTime
AMBIENTTEMPERATURE ( C)
Figure 1
© 2017 Littelfuse, Inc.
Specifications are subject to change without notice.
Revised: 09/14/17
Metal-OxideVaristors (MOVs)
Surface Mount Multilayer Varistors (MLVs) > MLA Automotive Series
LimitV-I Characteristic forV3.5MLA0603NHAUTO to
V30MLA0603NHAUTO
LimitV-I Characteristic forV3.5MLA0805LNHAUTO to
V30MLA0805LNHAUTO
1000
1000
V30MLA0805LNHAUTO
V26MLA0805LNHAUTO
V18MLA0805LNHAUTO
V30MLA0603NHAUTO
V26MLA0603NHAUTO
V18MLA0603NHAUTO
V14MLA0805LNHAUTO
100
100
V14MLA0603NHAUTO
V9MLA0603NHAUTO,
V9MLA0603LNHAUTO
10
10
V12MLA0805LNHAUTO
V5.5MLA0603NHAUTO,
V5.5MLA0603LNHAUTO
V9MLA0805LNHAUTO
V5.5MLA0805LNHAUTO
V3.5MLA0603NHAUTO
V3.5MLA0805LNHAUTO
1
1
10µA
10µA
100µA
1mA
10mA
100mA
1A
10A 100A
100µA
1mA
10mA
Current (A)
100mA
1A
10A
100A
Current (A)
Figure 3
Figure 4
LimitV-I Characteristic forV3.5MLA0805NHAUTO to
V26MLA0805NHAUTO
LimitV-I Characteristic forV3.5MLA1206NHAUTO to
V42MLA1206NHAUTO
1000
1000
V30MLA0805LNHAUTO
V26MLA0805LNHAUTO
V18MLA0805LNHAUTO
V14MLA0805LNHAUTO
100
V48MLA1206NHAUTO
100
V68MLA1206NHAUTO
V56MLA1206NHAUTO
10
V42MLA1206NHAUTO
V12MLA0805LNHAUTO
V33MLA1206NHAUTO
V26MLA1206NHAUTO
V9MLA0805LNHAUTO
V5.5MLA0805LNHAUTO
10
V18MLA1206NHAUTO
V14MLA1206NHAUTO
V5.5MLA1206NHAUTO
V3.5MLA0805LNHAUTO
V3.5MLA1206NHAUTO
1
10µA
100µA
1mA
10mA
100mA
1A
10A
100A
Current (A)
1
10µA
Figure 5
100µA
1mA
10mA
100mA
1A
10A
100A
1000A
Current (A)
Figure 7
LimitV-I Characteristic forV18MLA1210NHAUTO to
V48MLA1210NHAUTO
1000
100
V120MLA1210NHAUTO
V85MLA1210NHAUTO
V60MLA1210NHAUTO
V48MLA1210NHAUTO, V48MLA1210LNHAUTO
V30MLA1210NHAUTO, V30MLA1210LNHAUTO
V26MLA1210NHAUTO
V18MLA1210NHAUTO
10
1
10µA
100µA
1mA
10mA
100mA
1A
10A
100A
1000A
CURRENT (A)
Figure 6
© 2017 Littelfuse, Inc.
Specifications are subject to change without notice.
Revised: 09/14/17
Metal-OxideVaristors (MOVs)
Surface Mount Multilayer Varistors (MLVs) > MLA Automotive Series
Device Characteristics
ClampingVoltage OverTemperature (VC at 10A)
At low current levels, the V-I curve of the multilayer
transient voltage suppressor approaches a linear (ohmic)
relationship and shows a temperature dependent effect.
At or below the maximum working voltage, the suppressor
is in a high resistance modex (approaching 106Ω at its
maximum rated working voltage). Leakage currents at
maximum rated voltage are below 100µA, typically 25µA.
100
V26MLA1206
TypicalTemperature Dependance of the Haracteristic
Curve in the Leakage Region
V5.5MLA1206
100%
10
-60
-40
-20
0
20
40
60
80
100 120 140
o
TEMPERATURE ( C)
Figure 9
Energy Absorption/Peak Current Capability
Energy dissipated within the MLA Automotive Series is
calculated by multiplying the clamping voltage, transient
current and transient duration. An important advantage of
the multilayer is its interdigitated electrode construction
within the mass of dielectric material. This results in
excellent current distribution and the peak temperature per
energy absorbed is very low. The matrix of semiconducting
grains combine to absorb and distribute transient energy
(heat) (see Speed of Response). This dramatically reduces
peak temperature; thermal stresses and enhances device
reliability.
o
o
o
o
o
C
25 50 75
-8 -7
100 125
10%
1E
-9
-6
-5
-4
-3
-2
1E
1E
1E
1E
1E
1E
1E
SUPPRESSOR CURRENT (A
DC
)
Figure 8
Speed of Response
The Multilayer Suppressor is a leadless device. Its response
time is not limited by the parasitic lead inductances found
in other surface mount packages. The response time of
the ZNO dielectric material is less than 1ns and the MLA
Automotive Series can clamp very fast dV/dT events such as
ESD. Additionally, in "real world" applications, the associated
circuit wiring is often the greatest factor effecting speed of
response. Therefore, transient suppressor placement within
a circuit can be considered important in certain instances.
As a measure of the device capability in energy and peak
current handling, the V26MLA1206 part was tested with
multiple pulses at its peak current rating (150A, 8/20µs). At
the end of the test,10,000 pulses later, the device voltage
characteristics are still well within specification.
Repetitive Pulse Capability
Multilayer Internal Construction
100
FIRED CERAMIC
DIELECTRIC
PEAK CURRENT = 3A
8/20 s DURATION, 30s BETWEEN PULSES
V26MLA1206
METAL
ELECTRODES
METAL END
TERMINATION
DEPLETION
REGION
10
0
2000
4000
6000
8000
10000
12000
DEPLETION
REGION
NUMBER OF PULSES
Figure 11
Figure 10
GRAINS
© 2017 Littelfuse, Inc.
Specifications are subject to change without notice.
Revised: 09/14/17
Metal-OxideVaristors (MOVs)
Surface Mount Multilayer Varistors (MLVs) > MLA Automotive Series
Lead (Pb) Soldering Recommendations
The principal techniques used for the soldering of
components in surface mount technology are IR Re-flow
and Wave soldering. Typical profiles are shown on the right.
Reflow Solder Profile
250
200
150
100
MAXIMUM TEMPERATURE
230°C
The recommended solder for the MLA Automotive Series
suppressor is a 62/36/2 (Sn/Pb/Ag), 60/40 (Sn/Pb) or 63/37
(Sn/Pb). Littelfuse also recommends an RMA solder flux.
40-80
SECONDS
ABOVE 183°C
Wave soldering is the most strenuous of the processes.
To avoid the possibility of generating stresses due to
thermal shock, a preheat stage in the soldering process
is recommended, and the peak temperature of the solder
process should be rigidly controlled.
RAMP RATE
<2°C/s
PREHEAT DWELL
PREHEAT ZONE
50
When using a reflow process, care should be taken
to ensure that the MLA Automotive Series chip is not
subjected to a thermal gradient steeper than 4 degrees
per second; the ideal gradient being 2 degrees per second.
During the soldering process, preheating to within 100
degrees of the solder's peak temperature is essential to
minimize thermal shock.
0
0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
Figure 12
TIME (MINUTES)
Wave Solder Profile
300
250
200
150
100
MAXIMUMWAVE 260°C
Once the soldering process has been completed, it is
still necessary to ensure that any further thermal shocks
are avoided. One possible cause of thermal shock is hot
printed circuit boards being removed from the solder
process and subjected to cleaning solvents at room
temperature. The boards must be allowed to cool gradually
to less than 50º C before cleaning.
SECOND PREHEAT
FIRST PREHEAT
50
0
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
Figure 13
TIME (MINUTES)
Lead–free (Pb-free) Soldering Recommendations
Littelfuse offers the Nickel BarrierTermination option (see
"N" suffix in Part Numbering System for ordering) for the
optimum Lead–free solder performance, consisting of a
MatteTin outer surface plated on Nickel underlayer, plated
on Silver base metal.
Lead–free Re-flow Solder Profile
300
MAXIMUM TEMPERATURE 260˚C,
TIME WITHIN 5˚C OF PEAK
20 SECONDS MAXIMUM
250
200
150
100
50
The preferred solder is 96.5/3.0/0.5 (SnAgCu) with an RMA
flux, but there is a wide selection of pastes and fluxes
available with which the Nickel Barrier parts should be
compatible.
RAMP RATE
<3˚C/s
60 - 150 SEC
> 217˚C
PREHEAT ZONE
The reflow profile must be constrained by the maximums
in the Lead–free Reflow Profile. For Lead–free wave
soldering, the Wave Solder Profile still applies.
0
0
1.0
2.0
3.0
4.0
5.0
6.0
7. 0
Note: the Lead–free paste, flux and profile were used for
evaluation purposes by Littelfuse, based upon industry
standards and practices. There are multiple choices of all
three available, it is advised that the customer explores the
optimum combination for their process as processes vary
considerably from site to site.
Figure 14
TIME (MINUTES)
© 2017 Littelfuse, Inc.
Specifications are subject to change without notice.
Revised: 09/14/17
Metal-OxideVaristors (MOVs)
Surface Mount Multilayer Varistors (MLVs) > MLA Automotive Series
Product Dimensions (mm)
PAD LAYOUT DIMENSIONS
CHIP LAYOUT DIMENSIONS
C
E
B
NOTE
D
L
W
A
NOTE : Avoid metal runs in this area, parts not recommended for use in applications using
Silver (Ag) epoxy paste.
1210 Size
IN
1206 Size
IN
0805 Size
IN
0603 Size
Dimension
MM
4.06
2.54
1.02
2.87
MM
4.06
1.65
1.02
1.80
MM
3.05
1.27
1.02
1.10
IN
MM
2.54
0.76
0.89
1.00
A
0.160
0.100
0.040
0.113
0.160
0.065
0.040
0.071
0.120
0.050
0.040
0.043
0.100
0.030
0.035
0.040
B
C
D (max.)
0.020
0.50
0.020
0.50
0.020 -/+
0.010
0.50 -/+
0.25
0.015
0.4
E
L
-/+0.010
-/+0.25
-/+0.010
-/+0.25
-/+0.008
-/+0.20
0.125
-/+0.012
3.20
-/+0.30
0.125
-/+0.012
3.20
-/+0.30
0.079
-/+0.008
2.01
-/+0.20
0.063
-/+0.006
1.6
-/+0.15
0.100
-/+0.012
2.54
-/+0.30
0.060
-/+0.011
1.60
-/+0.28
0.049
-/+0.008
1.25
-/+0.20
0.032
-/+0.060
0.8
-/+0.15
W
Part Numbering System
V 18 MLA1206 X X X AUTO
AUTOMOTIVE SERIES
DEVICE FAMILY
Littelfuse TVSS Device
PACKING OPTIONS (see Packaging table for quantities)
H: 7in (178mm) Diameter Reel, Plastic Carrier Tape
MAXIMUM DC
END TERMINATION INDICATOR
WORKING VOLTAGE
N: Nickel Barrier
(Matte Tin outer surface, plated on Nickel underlayer
plated on silver base metal)
MULTILAYER SERIES
DESIGNATOR
DEVICE SIZE:
CAPACITANCE OPTION
No Letter: Standard
L: Low Capacitance Version
0603 = .063 inch x .031 inch (1.6 mm x 0.8 mm)
0805 = .08 inch x .08 inch (2.0 mm x 1.25 mm)
1206 = .126 inch x .063 inch (3.2 mm x 1.6 mm)
1210 = .126 inch x .1 inch (3.2 mm x 2.5 mm)
Packaging*
Quantity
Device Size
7” Inch Reel
("H" Option)
1210
1206
0805
0603
2,000
2,500
2,500
2,500
*(Packaging) It is recommended that parts be kept in the sealed bag provided and that parts be used as soon as possible when removed from bags.
© 2017 Littelfuse, Inc.
Specifications are subject to change without notice.
Revised: 09/14/17
Metal-OxideVaristors (MOVs)
Surface Mount Multilayer Varistors (MLVs) > MLA Automotive Series
Tape and Reel Specifications
PRODUCT
D
0
P
0
IDENTIFYING
LABEL
For T and H Pack Options: PLASTIC CARRIER TAPE
For R Pack Options: EMBOSSED PAPER CARRIER TAPE
P
2
E
F
W
K
0
B
0
EMBOSSMENT
TOP TAPE
178mm
OR 330mm
DIA. REEL
8mm
NOMINAL
P
A
0
1
t
D
1
1
Dimensions in Millimeters
0603, 0805, 1206 & 1210 Sizes
Symbol
Description
A0
B0
K0
W
F
Width of Cavity
Length of Cavity
Depth of Cavity
Width ofTape
Dependent on Chip Size to Minimize Rotation.
Dependent on Chip Size to Minimize Rotation.
Dependent on Chip Size to Minimize Rotation.
8 -/+0.3
3.5 -/+0.05
1.75 -/+0.1
4 -/+0.1
Distance Between Drive Hole Centers and Cavity Centers
Distance Between Drive Hole Centers andTape Edge
Distance Between Cavity Centers
E
P1
P2
P0
D0
D1
T1
Axial Drive Distance Between Drive Hole Centers & Cavity Centers
Axial Drive Distance Between Drive Hole Centers
Drive Hole Diameter
2 -/+0.1
4 -/+0.1
1.55 -/+0.05
1.05 -/+0.05
0.1 Max
Diameter of Cavity Piercing
TopTapeThickness
NOTES:
• Conforms to EIA-481-1, Revision A
• Can be supplied to IEC publication 286-3
Disclaimer Notice - Information furnished is believed to be accurate and reliable. However, users should independently evaluate the suitability of and
test each product selected for their own applications. Littelfuse products are not designed for, and may not be used in, all applications.
Read complete Disclaimer Notice at www.littelfuse.com/disclaimer-electronics.
© 2017 Littelfuse, Inc.
Specifications are subject to change without notice.
Revised: 09/14/17
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