YAGEO AC0402FK-131R5 Thick film chip resistors automotive grade Datasheet

DATA SHEET
THICK FILM CHIP RESISTORS
AUTOMOTIVE GRADE
AC series
±5%, ±1%, ±0.5%
Sizes 0201/0402/0603/0805/1206/
1210/1218/2010/2512
Product specification – November 02, 2016 V.5
RoHS compliant & Halogen free
2
Product specification
Chip Resistor Surface Mount
AC
12
0201 to 2512
SERIES
SCOPE
ORDERING INFORMATION - GLOBAL PART NUMBER
This specification describes AC0201
to AC2512 chip resistors with leadfree terminations made by thick film
process.
Part number is identified by the series name, size, tolerance, packaging
type, temperature coefficient, taping reel and resistance value.
APPLICATIONS
 All general purpose applications
 Car electronics, industrial
application
FEATURES
 AEC-Q200 qualified
 Moisture sensitivity level: MSL 1
 AC series soldering is compliant
with J-STD-020D
 Halogen free epoxy
 RoHS compliant
- Products with lead-free
terminations meet RoHS
requirements
- Pb-glass contained in electrodes,
resistor element and glass are
exempted by RoHS
 Reduce environmentally
hazardous waste
 High component and equipment
reliability
 The resistors are 100% performed
by automatic optical inspection
prior to taping.
GLOBAL PART NUMBER
AC XXXX X X X XX XXXX L
(1)
(2) (3) (4)
(5)
(6)
(7)
(1) SIZE
0201/ 0402 / 0603 / 0805 / 1206 / 1210 / 1218 / 2010 / 2512
(2) TOLERANCE
D = ± 0.5%
F = ± 1%
J = ± 5% (for Jumper ordering, use code of J)
(3) PACKAGING TYPE
R = Paper taping reel
K = Embossed taping reel
(4) TEMPERATURE COEFFICIENT OF RESISTANCE
– = Base on spec
(5) TAPING REEL
07 = 7 inch dia. Reel
13 = 13 inch dia. Reel
7W = 7 inch dia. Reel & 2 x standard power
(6) RESISTANCE VALUE
1Ω to 22 MΩ
There are 2~4 digits indicated the resistance value. Letter R/K/M is decimal point, no
need to mention the last zero after R/K/M, e.g.1K2, not 1K20.
Detailed coding rules of resistance are shown in the table of “Resistance rule of
global part number”.
(7) DEFAULT CODE
Letter L is the system default code for ordering only. (Note)
Resistance rule of global part
number
Resistance coding
Example
rule
XRXX
(1 to 9.76 Ω)
1R = 1 Ω
1R5 = 1.5 Ω
9R76 = 9.76 Ω
XXRX
(10 to 97.6 Ω)
10R = 10 Ω
97R6 = 97.6 Ω
XXXR
(100 to 976 Ω)
100R = 100 Ω
976R = 976 Ω
XKXX
(1 to 9.76 KΩ)
1K = 1,000 Ω
9K76 = 9760 Ω
XMXX
(1 to 9.76 MΩ)
1M = 1,000,000 Ω
9M76= 9,760,000 Ω
XXMX
(10 MΩ)
10M = 10,000,000 Ω
O RDERING EXAMPLE
The ordering code for an AC0402
chip resistor, value 100 KΩ with
± 1% tolerance, supplied in 7-inch
tape reel is: AC0402FR-07100KL.
NOTE
1. All our R-Chip products are RoHS
compliant and Halogen free. "LFP" of the
internal 2D reel label states "Lead-Free
Process".
2. On customized label, "LFP" or specific
symbol can be printed.
3. AC series with ±0.5% tolerance is also
available. For further information, please
contact sales.
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Nov. 02, 2016 V.5
Product specification
Chip Resistor Surface Mount
AC
SERIES
3
12
0201 to 2512
MARKING
AC0201 / AC0402
No marking
Fig. 1
AC0603 / AC0805 / AC1206 / AC1210 / AC2010 / AC2512
03
Fig. 2
E-24 series: 3 digits, ± 5%
First two digits for significant figure and 3rd digit for number of zeros
Value=10 KΩ
AC0603
0
Fig. 3
E-24 series: 3 digits, ± 1% & ± 0.5%
One short bar under marking letter
Value = 24 Ω
E-96 series: 3 digits, ± 1% & ± 0.5%
First two digits for E-96 marking rule and 3rd letter for number of zeros
Fig. 4
Value = 12.4 KΩ
AC0805 / AC1206 / AC1210 / AC2010 / AC2512
Both E-24 and E-96 series: 4 digits, ± 1% & ± 0.5%
First three digits for significant figure and 4th digit for number of zeros
Fig. 5 Value = 10 KΩ
AC1218
E-24 series: 3 digits, ± 5%
First two digits for significant figure and 3rd digit for number of zeros
Fig. 6 Value = 10 KΩ
00
Both E-24 and E-96 series: 4 digits, ± 1% & ± 0.5%
First three digits for significant figure and 4th digit for number of zeros
Fig. 7 Value = 10 KΩ
NOTE
For further marking information, please refer to data sheet “Chip resistors marking”. Marking of AC series is the same as RC series.
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Nov. 02, 2016 V.5
Product specification
Chip Resistor Surface Mount
AC
SERIES
4
12
0201 to 2512
CONSTRUCTION
The resistors are constructed on top of an automotive grade ceramic body. Internal metal electrodes are added at
each end and connected by a resistive glaze. The resistive glaze is covered by a lead-free glass.
The composition of the glaze is adjusted to give the approximately required resistance value and laser trimming of this
resistive glaze achieves the value within tolerance. The whole element is covered by a protective overcoat. Size 0603 and
bigger is marked with the resistance value on top. Finally, the two external terminations (Ni / matte tin) are added, as
shown in Fig.8.
OUTLINES
marking layer
overcoat
overcoat
protective glass
protective glass
resistive layer
(Jumper chip is a conductor)
resistive layer
(Jumper chip is a conductor)
inner electrode
termination(Ni/matte tin)
inner electrode
inner electrode
termination(Ni/matte tin)
inner electrode
ceramic substrate
YNSC088
Fig. 8_1
marking layer
ceramic substrate
YNSC088_1
Fig. 8_2
Chip resistor outlines
AC2010/ 2512 double power chip resistor outlines
DIMENSIONS
Table 1 For outlines, please refer to Fig. 9
TYPE
L (mm)
W (mm)
H (mm)
I1 (mm)
I2 (mm)
AC0201
0.60± 0.03
0.30± 0.03
0.23± 0.03
0.12± 0.05
0.15± 0.05
AC0402
1.00 ± 0.05
0.50 ± 0.05
0.32 ± 0.05
0.20 ± 0.10
0.25 ± 0.10
AC0603
1.60 ± 0.10
0.80 ± 0.10
0.45 ± 0.10
0.25 ± 0.15
0.25 ± 0.15
AC0805
2.00 ± 0.10
1.25 ± 0.10
0.50 ± 0.10
0.35 ± 0.20
0.35 ± 0.20
AC1206
3.10 ± 0.10
1.60 ± 0.10
0.55 ± 0.10
0.45 ± 0.20
0.40 ± 0.20
AC1210
3.10 ± 0.10
2.60 ± 0.15
0.50 ± 0.10
0.45 ± 0.15
0.50 ± 0.20
AC1210 7W
3.10 ± 0.10
2.60 ± 0.15
0.55 ± 0.10
0.45 ± 0.15
0.50 ± 0.20
AC1218
3.10 ± 0.10
4.60 ± 0.10
0.55 ± 0.10
0.45 ± 0.20
0.40 ± 0.20
AC2010
5.00 ± 0.10
2.50 ± 0.15
0.55 ± 0.10
0.55 ± 0.15
0.50 ± 0.20
AC2512
6.35 ± 0.10
3.10 ± 0.15
0.55 ± 0.10
0.60 ± 0.20
0.50 ± 0.20
For dimension, please refer to Table 1
AC0201/0402
0603/0805/1206/1210/
2010/2512
AC1218
Side view for all type
Fig. 9 Chip resistor dimensions
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Nov. 02, 2016 V.5
Product specification
Chip Resistor Surface Mount
AC
SERIES
5
12
0201 to 2512
ELECTRICAL CHARACTERISTICS
Table 2
TYPE
POWER
AC0201
1/20 W
Operating
Temperature
Range
–55 °C to
155 °C
Max.
Working
Voltage
CHARACTERISTICS
Resistance
Max. Dielectric
Range
Overload Withstandin
Voltage g Voltage
50V
50V
Jumper
Criteria
5% (E24)
1Ω≤R≤10Ω
Rated
1Ω≤R≤10MΩ
-100/+350ppm℃
Current
10Ω<R≤10MΩ
0.5A
±200ppm℃
Maximum
1% (E24/E96)
25V
Temperature
Coefficient
1Ω≤R≤10MΩ
0.5% (E24/E96)
Current
10Ω≤R≤1MΩ
1.0A
Jumper<50mΩ
1/16 W
–55 °C to
155 °C
5% (E24)
1Ω≤R≤10Ω
Rated
1Ω≤R≤22MΩ
±200ppm°C
Current
10Ω<R≤10MΩ
1A
±100ppm°C
Maximum
10MΩ<R≤22MΩ
Current
±200ppm°C
2A
0.5%, 1% (E24/E96)
50V
100V
100V
1Ω≤R≤10MΩ
Jumper<50mΩ
AC0402
5% (E24)
1/8W
1/10 W
–55 °C to
155 °C
–55 °C to
155 °C
1Ω≤R≤10MΩ
50V
100V
100V 0.5%, 1% (E24/E96)
1Ω≤R≤10MΩ
150V
150V
–55 °C to
Rated
1Ω≤R≤22MΩ
±200ppm°C
Current
10Ω<R≤10MΩ
1A
±100ppm°C
Maximum
10MΩ<R≤22MΩ
Current
±200ppm°C
2A
1Ω≤R≤10MΩ
Jumper<50mΩ
155 °C
75V
150V
±100 ppm°C
1Ω≤R≤10Ω
AC0603
1/5 W
±200 ppm°C
10Ω<R≤10MΩ
5% (E24)
0.5%, 1% (E24/E96)
75V
1Ω≤R≤10Ω
5% (E24)
1Ω≤R≤10Ω
1Ω≤R≤10MΩ
±200 ppm°C
150V 0.5%, 1% (E24/E96)
1Ω≤R≤10MΩ
10Ω<R≤10MΩ
±100 ppm°C
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Nov. 02, 2016 V.5
Product specification
Chip Resistor Surface Mount
TYPE
POWER
1/8 W
Operating
Temperature
Range
–55 °C to
155 °C
Max.
Working
Voltage
AC
SERIES
CHARACTERISTICS
Resistance
Max. Dielectric
Range
Overload Withstandin
Voltage g Voltage
300V
300V
–55 °C to
Rated
1Ω≤R≤22MΩ
±200ppm°C
Current
10Ω<R≤10MΩ
2A
±100ppm°C
Maximum
10MΩ<R≤22MΩ
Current
±200ppm°C
5A
1Ω≤R≤10MΩ
Jumper<50mΩ
155 °C
150V
300V
5% (E24)
1Ω≤R≤10Ω
1Ω≤R≤10MΩ
±200 ppm°C
300V 0.5%, 1% (E24/E96)
1Ω≤R≤10MΩ
5% (E24)
1Ω≤R≤22MΩ
1/4 W
–55 °C to
155 °C
0.5%, 1% (E24/E96)
200V
400V
500V
1Ω≤R≤10MΩ
Jumper<50mΩ
AC1206
1/2 W
1/2 W
–55 °C to
155 °C
–55 °C to
155 °C
200V
400V
–55 °C to
155 °C
500V
±200ppm°C
10Ω<R≤10MΩ
2A
±100ppm°C
Maximum
10MΩ<R≤22MΩ
Current
±200ppm°C
10A
10Ω<R≤10MΩ
±100 ppm°C
5% (E24)
1Ω≤R≤10Ω
Rated
1Ω≤R≤22MΩ
±200ppm°C
Current
10Ω<R≤10MΩ
2A
±100ppm°C
Maximum
10MΩ<R≤22MΩ
Current
±200ppm°C
10A
1Ω≤R≤10MΩ
Jumper<50mΩ
200V
Rated
Current
±200 ppm°C
AC1210
1W
1Ω≤R≤10Ω
1Ω≤R≤10Ω
500V 0.5%, 1% (E24/E96)
500V
±100 ppm°C
5% (E24)
0.5%, 1% (E24/E96)
500V
10Ω<R≤10MΩ
1Ω≤R≤10MΩ
1Ω≤R≤10MΩ
200V
Jumper
Criteria
1Ω≤R≤10Ω
AC0805
1/4 W
Temperature
Coefficient
5% (E24)
0.5%, 1% (E24/E96)
150V
6
12
0201 to 2512
5% (E24)
1Ω≤R≤10Ω
1Ω≤R≤10MΩ
±200 ppm°C
500V 0.5%, 1% (E24/E96)
1Ω≤R≤10MΩ
10Ω<R≤10MΩ
±100 ppm°C
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Nov. 02, 2016 V.5
Product specification
Chip Resistor Surface Mount
TYPE
POWER
1W
Operating
Temperature
Range
–55 °C to
155 °C
Max.
Working
Voltage
AC
SERIES
CHARACTERISTICS
Resistance
Max. Dielectric
Range
Overload Withstandin
Voltage g Voltage
500V
500V
Temperature
Coefficient
Jumper
Criteria
5% (E24)
1Ω≤R≤10Ω
Rated
1Ω≤R≤1MΩ
±200ppm°C
Current
10Ω<R≤1MΩ
6A
±100ppm°C
Maximum
0.5%, 1% (E24/E96)
200V
7
12
0201 to 2512
1Ω≤R≤1MΩ
Jumper<50mΩ
Current
AC1218
10A
1.5W
3/4 W
–55 °C to
155 °C
–55 °C to
155 °C
200V
500V
5% (E24)
1Ω≤R≤10Ω
1Ω≤R≤1MΩ
±200 ppm°C
500V 0.5%, 1% (E24/E96)
1Ω≤R≤1MΩ
500V
500V
5% (E24)
1Ω≤R≤10Ω
Rated
±200ppm°C
Current
10Ω<R≤10MΩ
2A
±100ppm°C
Maximum
10MΩ<R≤22MΩ
Current
±200ppm°C
10A
1Ω≤R≤10MΩ
Jumper<50mΩ
AC2010
1.25W
1W
–55 °C to
155 °C
–55 °C to
155 °C
200V
500V
5% (E24)
1Ω≤R≤10Ω
1Ω≤R≤10MΩ
±200 ppm°C
500V 0.5%, 1% (E24/E96)
1Ω≤R≤10MΩ
500V
500V
–55 °C to
1Ω≤R≤10Ω
Rated
±200ppm°C
Current
10Ω<R≤10MΩ
2A
±100ppm°C
Maximum
10MΩ<R≤22MΩ
Current
±200ppm°C
10A
1Ω≤R≤10MΩ
Jumper<50mΩ
155 °C
200V
400V
±100 ppm°C
5% (E24)
AC2512
2W
10Ω<R≤10MΩ
1Ω≤R≤22MΩ
0.5%, 1% (E24/E96)
200V
±100 ppm°C
1Ω≤R≤22MΩ
0.5%, 1% (E24/E96)
200V
10Ω<R≤1MΩ
5% (E24)
1Ω≤R≤10Ω
1Ω≤R≤10MΩ
±200 ppm°C
500V 0.5%, 1% (E24/E96)
1Ω≤R≤10MΩ
10Ω<R≤10MΩ
±100 ppm°C
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Nov. 02, 2016 V.5
Product specification
Chip Resistor Surface Mount
AC
8
12
0201 to 2512
SERIES
FOOTPRINT AND SOLDERING PROFILES
Recommended footprint and soldering profiles of AC -series is the same as RC-series. Please refer to data sheet
“Chip resistors mounting”.
PACKING STYLE AND PACKAGING QUANTITY
Table 3 Packing style and packaging quantity
PACKING STYLE
Paper taping reel (R)
Embossed taping reel (K)
REEL AC0201 AC0402 AC0603 AC0805 AC1206 AC1210 AC1218 AC2010 AC2512
DIMENSION
7" (178 mm)
10,000
10,000
5,000
5,000
5,000
5,000
---
---
---
13" (330 mm)
50,000
50,000
20,000
20,000
20,000
20,000
---
---
---
7" (178 mm)
---
---
---
---
---
---
4,000
4,000
4,000
NOTE
1. For paper/embossed tape and reel specifications/dimensions,
please refer to data
sheet “Chip resistors
packing”.
TEMPERATURE
COEFFICIENT
OF RESISTANCE
RESISTANCE
RANGE
FUNCTIONAL DESCRIPTION
100 mΩ to 910 mΩ
PT040
OPERATING TEMPERATUR±E200
RAppm/°C
NGE
2
Range: –55 °C to +155 °C
PT060
± 200 ppm/°C
P
3 OWER RATING
Each type rated power at 70 °C:
PT080
AC0201=1/20W (0.05W) ± 200 ppm/°C
5
AC0402=1/16W
(0.0625W);
100 MΩ TO
910 MΩ 1/8W (0.125W)
AC0603=1/10W (0.1W); 1/5W (0.2W)
PT120
100 mΩ
AC0805=1/8W (0.125W); 1/4 W(0.25 W)
6
AC1206=1/4W (0.25W); 1/2 W (0.5 W)
PT201
AC1210=1/2W (0.5W); 1W ± 100 ppm/°C
0
AC1218=1W; 1.5W
AC2010=3/4W (0.75W); 1.25W
PT251
± 100 ppm/°C
AC2512=1 W; 2W
2
R ATED VOLTAGE
> 100 mΩ
± 75 ppm/°C
± 75 ppm/°C
Fig. 10 Maximum dissipation (P max) in percentage of rated power
as a function of the operating ambient temperature (T amb)
The DC or AC (rms) continuous working voltage
corresponding to the rated power is determined by
the following formula:
V=
(PxR)
Or Maximum working voltage whichever is less
Where
V = Continuous rated DC or AC (rms) working
voltage (V)
P = Rated power (W)
R = Resistance value (Ω)
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Nov. 02, 2016 V.5
Product specification
Chip Resistor Surface Mount
AC
SERIES
9
12
0201 to 2512
TESTS AND REQUIREMENTS
Table 4 Test condition, procedure and requirements
TEST
TEST METHOD
PROCEDURE
REQUIREMENTS
High Temperature
Exposure
AEC-Q200 Test 3
1,000 hours at TA = 155 °C, unpowered
± (1.0%+0.05Ω) for D/F tol
MIL-STD-202 Method 108
± (2.0%+0.05Ω) for J tol
<50 mΩ for Jumper
Moisture
Resistance
AEC-Q200 Test 6
MIL-STD-202 Method 106
Each temperature / humidity cycle is defined at
8 hours (method 106F), 3 cycles / 24 hours for
10d. with 25 °C / 65 °C 95% R.H, without steps
7a & 7b, unpowered
± (0.5%+0.05Ω) for D/F tol
± (2.0%+0.05Ω) for J tol
<100 mΩ for Jumper
Parts mounted on test-boards, without
condensation on parts
Biased
Humidity
Operational Life
AEC-Q200 Test 7
MIL-STD-202 Method 103
AEC-Q200 Test 8
MIL-STD-202 Method 108
1,000 hours; 85 °C / 85% RH
10% of operating power
± (1.0%+0.05Ω) for D/F tol
Measurement at 24± 4 hours after test conclusion.
<100 mΩ for Jumper
1,000 hours at 125 °C, derated voltage applied for
1.5 hours on, 0.5 hour off, still-air required
± (1.0%+0.05Ω) for D/F tol
± (3.0%+0.05Ω) for J tol
± (3.0%+0.05Ω) for J tol
<100 mΩ for Jumper
Resistance to
Soldering Heat
Thermal Shock
ESD
AEC-Q200 Test 15
Condition B, no pre-heat of samples
± (0.5%+0.05Ω) for D/F tol
MIL-STD-202 Method 210
Lead-free solder, 260± 5 °C, 10± 1 seconds
immersion time
± (1.0%+0.05Ω) for J tol
Procedure 2 for SMD: devices fluxed and
cleaned with isopropanol
No visible damage
AEC-Q200 Test 16
-55/+125 °C
± (0.5%+0.05Ω) for D/F tol
MIL-STD-202 Method 107
Number of cycles is 300. Devices mounted
± (1.0%+0.05Ω) for J tol
Maximum transfer time is 20 seconds.
Dwell time is 15 minutes. Air – Air
<50 mΩ for Jumper
AEC-Q200 Test 17
Human Body Model,
± (3.0%+0.05 Ω)
AEC-Q200-002
1 pos. + 1 neg. discharges
<50 mΩ for Jumper
<50 mΩ for Jumper
0201: 500V
0402/0603: 1KV
0805 and above: 2KV
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Nov. 02, 2016 V.5
Product specification
Chip Resistor Surface Mount
TEST
Solderability
- Wetting
AC
SERIES
TEST METHOD
PROCEDURE
AEC-Q200 Test 18
Electrical Test not required Magnification 50X
J-STD-002
SMD conditions:
(a) Method B, aging 4 hours at 155 °C dry heat,
dipping at 235± 3 °C for 5± 0.5 seconds.
10
12
0201 to 2512
REQUIREMENTS
Well tinned (≥95% covered)
No visible damage
(b) Method B, steam aging 8 hours, dipping at
215± 3 °C for 5± 0.5 seconds.
(c) Method D, steam aging 8 hours, dipping at
260± 3 °C for 7± 0.5 seconds.
Board Flex
AEC-Q200 Test 21
AEC-Q200-005
Chips mounted on a 90mm glass epoxy resin
PCB (FR4)
± (1.0%+0.05Ω)
<50 mΩ for Jumper
Bending for 0201/0402: 5 mm
0603/0805: 3 mm
1206 and above: 2 mm
Holding time: minimum 60 seconds
Temperature
Coefficient of
Resistance (T.C.R.)
MIL-STD-202 Method 304
At +25/–55 °C and +25/+125 °C
Refer to table 2
Formula:
R2–R1
T.C.R= ------------------------- × 106 (ppm/°C)
R1(t2–t1)
Where
t1=+25 °C or specified room temperature
t2=–55 °C or +125 °C test temperature
R1=resistance at reference temperature in ohms
R2=resistance at test temperature in ohms
Short Time
Overload
FOS
IEC60115-1 4.13
ASTM-B-809-95
2.5 times of rated voltage or maximum
overload voltage whichever is less for 5 sec
at room temperature
± (1.0%+0.05Ω) for D/F tol
Sulfur (saturated vapor) 500 hours, 60± 2℃,
± ( 1.0%+0.05Ω)
± (2.0%+0.05Ω) for J tol
<50 mΩ for Jumper
unpowered
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Nov. 02, 2016 V.5
Product specification
Chip Resistor Surface Mount
AC
SERIES
0201 to 2512
11
12
REVISION HISTORY
REVISION
DATE
CHANGE NOTIFICATION
DESCRIPTION
Version 5
Dec. 07, 2015
-
- Add in AC double power
Version 4
May 25, 2015
-
- Remove 7D packing
- Extend resistance range
- Add in AC0201
- Update FOS test and requirements
Version 3
Feb 13, 2014
-
- Feature description updated
- add ± 0.5%
- delete 10" taping reel
Version 2
Feb. 10, 2012
-
- Jumper criteria added
- AC1218 marking and outline figure updated
Version 1
Feb. 01, 2011
-
- Case size 1210, 1218, 2010, 2512 extended
- Test method and procedure updated
- Packing style of 7D added
Version 0
Nov. 10, 2010
-
- First issue of this specification
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Nov. 02, 2016 V.5
Product specification
Chip Resistor Surface Mount
AC
SERIES
0201 to 2512
12
12
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inaccuracies or incompleteness contained in any product related information, including but not limited to
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Yageo statements regarding the suitability of products for certain types of applications are based on Yageo’s
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Yageo products are not designed for application or use in medical, life -saving, or life-sustaining devices or for
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Information provided here is intended to indicate product specifications only. Yageo reserves all t he rights for
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www.yageo.com
Nov. 02, 2016 V.5
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