DATA SHEET
GENERAL PURPOSE CHIP RESISTORS
RC_L series
±0.1%, ±0.5%, ±1%, ±5%
Sizes 0075/0100/0201/0402/0603/0805/
1206/1210/1218/2010/2512
RoHS compliant & Halogen free
Product specification March 6, 2018 V.9
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Mar. 06, 2018 V.9
Product specification
2
10
SERIES
RC_L
0075 to 2512
SCOPE
This specification describes RC
series chip resistors with lead
free terminations made by thick
film process.
APPLICATIONS
All general purpose application
FEATURES
Halogen Free Epoxy
RoHS compliant
Products with lead free
terminations meet RoHS
requirements
Pb-glass contained in
electrodes, resistors element
and glass are exempted by
RoHS
Reducing environmentally
hazardous wastes
High component and equipment
reliability
Saving of PCB space
None forbidden-materials used in
products/production
GLOBAL PART NUMBER
RC XXXX X X X XX XXXX L
(1) (2) (3) (4) (5) (6) (7)
(1) SIZE
0075/0100/0201/0402/0603/0805/1206/1210/1218/2010/2512
(2) TOLERANCE
B = ± 0.1%
D = ± 0.5%
F = ± 1.0%
J = ± 5.0% (for jumper ordering, use code of J)
(3) PACKAGING TYPE
R = Paper taping reel
K = Embossed taping reel
S = ESD safe reel (0075/0100 only)
(4) TEMPERATURE COEFFICIENT OF RESISTANCE
= Based on spec.
(5) TAPING REEL
07 = 7 inch dia. Reel
10=10 inch dia. Reel
13 =13 inch dia. Reel
7W = 7 inch dia. Reel & 2 x standard power
7N = 7 inch dia. Reel, ESD safe reel (0075/0100 only)
3W = 13 inch dia. Reel & 2 x standard power
(6) RESISTANCE VALUE
There are 2~4 digits indicated the resistance value.
Letter R/K/M is decimal point
Example:
97R6 = 97.6Ω
9K76 = 9760Ω
1M = 1,000,000Ω
(7) DEFAULT CODE
Letter L is the system default code for ordering only.(Note)
ORDERING INFORMATION - GLOBAL PART NUMBER
Global part numbers are identified by the series, size, tolerance, packing
type, temperature coefficient, taping reel and resistance value.
ORDERING EXAMPLE
The ordering code for a RC0402 0.0625W chip resistor value 100KΩwith
±5% tolerance, supplied in 7-inch tape reel of 10,000 units per reel is:
RC0402JR-07100KL.
NOTE
1. All our RSMD products meet RoHS compliant and Halogen Free. "LFP" of the internal 2D
reel label mentions "Lead Free Process".
2. On customized label, "LFP" or specific symbol can be printed.
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Mar. 06, 2018 V.9
Product specification
3
10
SERIES
RC_L
0075 to 2512
MARKING
RC0075 / RC0100 / RC0201 / RC0402
No Marking
RC0603
1%, 0.5%,E24 exception values 10/11/13/15/20/75 of E24 series
1%, 0.5%, E96 refer to EIA-96 marking method, including values
10/11/13/15/20/75 of E24 series
5%, E24 series : 3 digits
First two digits for significant figure and 3rd digit for number of zeros
RC0805 / RC1206 / RC1210 / RC2010 / RC2512
1%, 0.5%, E24/E96 series : 4 digits
First three digits for significant figure and 4th digit for number of zeros
5%, E24 series : 3 digits
First two digits for significant figure and 3rd digit for number of zeros
RC1218
E-24 series: 3 digits, ±5%
First two digits for significant figure and 3rd digit for number of zeros
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
For further marking information, please see special data sheet "Chip resistors marking".
Fig. 2 240 = 24 × 100 = 24
0
PF series
Note: construction will be
adjusted to resistance value
(only for PF series).
Fig. 1
Fig. 7 Value = 10 KΩ
Fig. 8 Value = 10 KΩ
00
Fig. 6 Value = 10 KΩ
03
88
Fig. 3 88A = 806 × 100 = 806 Ω
03
Fig. 4 Value = 10 KΩ
Fig. 5 Value = 10 KΩ
00
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Mar. 06, 2018 V.9
Product specification
4
10
SERIES
RC_L
0075 to 2512
CONSTRUCTION
The resistor is constructed on top of a high-grade
ceramic body. Internal metal electrodes are added
on each end to make the contacts to the thick
film resistive element. The composition of the
resistive element is a noble metal imbedded into a
glass and covered by a second glass to prevent
environmental influences. The resistor is laser
trimmed to the rated resistance value. The
resistor is covered with a protective epoxy
coat, finally the two external terminations (matte
tin on Ni-barrier) are added, as shown in Fig.9.
TYPE
L (mm)
W (mm)
H (mm)
I1 (mm)
I2 (mm)
RC0075
0.30±0.01
0.15±0.01
0.10±0.01
0.08±0.03
0.08±0.03
RC0100
0.40±0.02
0.20±0.02
0.13±0.02
0.10±0.03
0.10±0.03
RC0201
0.60±0.03
0.30±0.03
0.23±0.03
0.10±0.05
0.15±0.05
RC0402
1.00±0.05
0.50±0.05
0.35±0.05
0.20±0.10
0.25±0.10
RC0603
1.60±0.10
0.80±0.10
0.45±0.10
0.25±0.15
0.25±0.15
RC0805
2.00±0.10
1.25±0.10
0.50±0.10
0.35±0.20
0.35±0.20
RC1206
3.10±0.10
1.60±0.10
0.55±0.10
0.45±0.20
0.40±0.20
RC1210
3.10±0.10
2.60±0.15
0.55±0.10
0.45±0.15
0.50±0.20
RC1218
3.10±0.10
4.60±0.10
0.55±0.10
0.45±0.20
0.40±0.20
RC2010
5.00±0.10
2.50±0.15
0.55±0.10
0.45±0.15
0.50±0.20
RC2512
6.35±0.10
3.10±0.15
0.55±0.10
0.60±0.20
0.50±0.20
DIMENSION
Table 1
Fig. 9 Chip resistor outlines
9
O
Ou
ut
tl
li
in
ne
es
s
For dimensions, please refer to Table 1
ELECTRICAL CHARACTERISTICS
Fig. 4 Chip resistor outlines
Table 2
CHARAC-
TERISTICS
POWER
OPERATING
TEMPERATURE
RANGE
MAXIMUM
WORKING
VOLTAGE
MAXIMUM
OVERLOAD
VOLTAGE
DIELECTRIC
WITHSTANDING
VOLTAGE
RESISTANCE
RANGE
TEMPERATURE
COEFFICIENT
JUMPER
CRITERIA
RC0075
1/50 W
-55 to 125
10V
25V
25V
5% (E24)
10Ω≦R1MΩ
1% (E24/E96)
10Ω≦R1MΩ
Jumper<50mΩ
10Ω≦R<100Ω
-200~+600ppm
100Ω≦R1MΩ
±200ppm
Rated Current
0.5A
Maximum
Current
1.0A
RC0100
1/32 W
-55 to 125
15V
30V
30V
5% (E24)
1Ω≦R22MΩ
1% (E24/E96)
1Ω≦R10MΩ
0.5% (E24/E96)
33Ω≦R470KΩ
Jumper<50mΩ
1Ω≦R<10Ω
-200~+600ppm
10Ω≤ R < 100Ω:
±300ppm/°C
100Ω≤ R 10MΩ:
±200ppm/°C
10MΩ< R 22MΩ:
±250ppm/°C
Rated Current
0.5A
Maximum
Current
1.0A
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Mar. 06, 2018 V.9
Product specification
5
10
SERIES
RC_L
0075 to 2512
CHARAC-
TERISTICS
POWER
OPERATING
TEMPERATURE
RANGE
MAXIMUM
WORKING
VOLTAGE
MAXIMUM
OVERLOAD
VOLTAGE
DIELECTRIC
WITHSTANDING
VOLTAGE
RESISTANCE
RANGE
TEMPERATURE
COEFFICIENT
JUMPER
CRITERIA
RC0201
1/20 W
-55 to 125
25V
50V
50V
5% (E24)
1Ω≦R10MΩ
1% (E24/E96)
1Ω≦R10MΩ
0.1%, 0.5% (E24/E96)
10Ω≦R1MΩ
Jumper<50mΩ
1Ω≦R10Ω
-100~+350ppm
10Ω<R10MΩ
±200ppm
Rated Current
0.5A
Maximum
Current
1.0A
RC0402
1/16 W
-55 to 155
50V
100V
100V
5% (E24)
1Ω≦R22MΩ
1% (E24/E96)
1Ω≦R10MΩ
0.1%, 0.5% (E24/E96)
10Ω≦R1MΩ
Jumper<50mΩ
1Ω≦R10Ω
±200ppm
10Ω<R10MΩ
±100ppm
10MΩ<R22MΩ
±200ppm
Rated Current
1.0A
Maximum
Current
2.0A
1/8W
-55 to 155
50V
100V
100V
5% (E24)
1Ω≦R1MΩ
1% (E24/E96)
1Ω≦R1MΩ
1Ω≦R1MΩ
±200ppm
RC0603
1/10 W
-55 to 155
75V
150V
150V
5% (E24)
1Ω≦R22MΩ
1% (E24/E96)
1Ω≦R10MΩ
0.1%, 0.5% (E24/E96)
10Ω≦R1MΩ
Jumper<50mΩ
1Ω≦R10Ω
±200ppm
10Ω<R10MΩ
±100ppm
10MΩ<R22MΩ
±200ppm
Rated Current
1.0A
Maximum
Current
2.0A
1/5 W
-55 to 155
75V
150V
150V
5% (E24)
1Ω≦R1MΩ
1% (E24/E96)
1Ω≦R1MΩ
1Ω≦R1MΩ
±200ppm
RC0805
1/8 W
-55 to 155
150V
300V
300V
5% (E24)
1Ω≦R100MΩ
1% (E24/E96)
1Ω≦R10MΩ
0.1%, 0.5% (E24/E96)
10Ω≦R1MΩ
10%, 20% (E24)
24MΩ≦R100MΩ
Jumper<50mΩ
1Ω≦R10Ω
±200ppm
10Ω<R10MΩ
±100ppm
10MΩ<R22MΩ
±200ppm
24MΩ<R100MΩ
±300ppm
Rated Current
2.0A
Maximum
Current
5.0A
1/4 W
-55 to 155
150V
300V
300V
5% (E24)
1Ω≦R1MΩ
1% (E24/E96)
1Ω≦R1MΩ
1Ω≦R1MΩ
±200ppm
Table 2
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Mar. 06, 2018 V.9
Product specification
6
10
SERIES
RC_L
0075 to 2512
CHARAC-
TERISTICS
POWER
OPERATING
TEMPERATURE
RANGE
MAXIMUM
WORKING
VOLTAGE
MAXIMUM
OVERLOAD
VOLTAGE
DIELECTRIC
WITHSTANDING
VOLTAGE
RESISTANCE
RANGE
TEMPERATURE
COEFFICIENT
JUMPER
CRITERIA
RC1206
1/4 W
-55 to 155
200V
400V
500V
5% (E24)
1Ω≦R100MΩ
1% (E24/E96)
1Ω≦R10MΩ
0.1%, 0.5% (E24/E96)
10Ω≦R1MΩ
10%, 20% (E24)
24MΩ≦R100MΩ
Jumper<50mΩ
1Ω≦R10Ω
±200ppm
10Ω<R10MΩ
±100ppm
10MΩ<R22MΩ
±200ppm
24MΩ≦R100MΩ
±300ppm
Rated Current
2.0A
Maximum
Current
10.0A
1/2 W
-55 to 155
200V
400V
500V
5% (E24)
1Ω≦R1MΩ
1% (E24/E96)
1Ω≦R1MΩ
1Ω≦R1MΩ
±200ppm
RC1210
1/2 W
-55 to 155
200V
500V
500V
5% (E24)
1Ω≦R22MΩ
1% (E24/E96)
1Ω≦R10MΩ
0.1%, 0.5% (E24/E96)
10Ω≦R1MΩ
Jumper<50mΩ
1Ω≦R10Ω
±200ppm
10Ω<R10MΩ
±100ppm
10MΩ<R22MΩ
±200ppm
Rated Current
2.0A
Maximum
Current
10.0A
RC1218
1 W
-55 to 155
200V
500V
500V
5% (E24)
1Ω≦R1MΩ
1% (E24/E96)
1Ω≦R1MΩ
0.1%, 0.5% (E24/E96)
10Ω≦R1MΩ
Jumper<50mΩ
1Ω≦R10Ω
±200ppm
10Ω<R1MΩ
±100ppm
Rated Current
6.0A
Maximum
Current
10.0A
RC2010
3/4 W
-55 to 155
200V
500V
500V
5% (E24)
1Ω≦R22MΩ
1% (E24/E96)
1Ω≦R10MΩ
0.1%, 0.5% (E24/E96)
10Ω≦R1MΩ
Jumper<50mΩ
1Ω≦R10Ω
±200ppm
10Ω<R10MΩ
±100ppm
10MΩ<R22MΩ
±200ppm
Rated Current
2.0A
Maximum
Current
10.0A
RC2512
1 W
-55 to 155
200V
500V
500V
5% (E24)
1Ω≦R22MΩ
1% (E24/E96)
1Ω≦R10MΩ
0.1%, 0.5% (E24/E96)
10Ω≦R1MΩ
Jumper<50mΩ
1Ω≦R10Ω
±200ppm
10Ω<R10MΩ
±100ppm
10MΩ<R22MΩ
±200ppm
Rated Current
2.0A
Maximum
Current
10.0A
2 W
-55 to 155
200V
400V
500V
5% (E24)
1Ω≦R1MΩ
1% (E24/E96)
1Ω≦R1MΩ
1Ω≦R1MΩ
±200ppm
FOOTPRINT AND SOLDERING PROFILES
For recommended footprint and soldering profiles, please refer to data sheet “Chip resistors mounting”
Table 2
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Mar. 06, 2018 V.9
Product specification
7
10
SERIES
RC_L
0075 to 2512
FUNCTIONAL DESCRIPTION
O
OP
PE
ER
RA
AT
TI
IN
NG
G
T
TE
EM
MP
PE
ER
RA
AT
TU
UR
RE
E
R
RA
AN
NG
GE
E
RC0402 to RC2512 Range: -55 to +155 (Fig. 10-1)
RC0075 to RC0201 Range: -55 to +125 (Fig. 10-2)
P
PO
OW
WE
ER
R
R
RA
AT
TI
IN
NG
G
Each type rated power at 70 °C:
RC0075=1/50W
RC0100=1/32W
RC0201=1/20W
RC0402=1/16W, 1/8W
RC0603=1/10W, 1/5W
RC0805=1/8W, 1/4W
RC1206=1/4W, 1/2W
RC1210=1/2W
RC1218=1W
RC2010=3/4W
RC2512=1W, 2W
RATED VOLTAGE
The DC or AC (rms) continuous working voltage
corresponding to the rated power is determined by the
following formula:
V =
)(PxR
or max. working voltage whichever is less
Where
V = Continuous rated DC or AC (rms) working voltage (V)
P = Rated power (W)
R = Resistance value (Ω)
PACKING STYLE AND PACKAGING QUANTITY
Table 3 Packing style and packaging quantity
PACKING STYLE
PAPER TAPING REEL (R)
ESD SAFE REEL (S)
(4MM WIDTH, 1MM
PITCH PLASTIC
EMBOSSED)
EMBOSSED
TAPING REEL
REEL DIMENSION
7" (178 mm)
10" (254mm)
13" (330 mm)
7" (178 mm)
7" (178 mm)
RC0075
---
---
---
20000
---
RC0100
20000
---
80000
40000
---
RC0201
10000
20000
50000
---
---
RC0402
10000
20000
50000
---
---
RC0603
5000
10000
20000
---
---
RC0805
5000
10000
20000
---
---
RC1206
5000
10000
20000
---
---
RC1210
5000
10000
20000
---
---
RC1218
---
---
---
---
4000
RC2010
---
---
---
---
4000
RC2512
---
---
---
---
4000
NOTE
For tape and reel specification/dimensions, please refer to data sheet Chip resistors packing.
Fig. 10-2 Maximum dissipation (P) in percentage of rated
poweras a function of the operating ambient
temperature (Tamb)
Fig. 10-1 Maximum dissipation (P) in percentage of rated
poweras a function of the operating ambient
temperature (Tamb)
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Mar. 06, 2018 V.9
Product specification
8
10
SERIES
RC_L
0075 to 2512
TESTS AND REQUIREMENTS
TEST
TEST METHOD
PROCEDURE
REQUIREMENTS
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:
T.C.R=
)tt(R
RR
121
12
×106 (ppm/°C)
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
Life/ Endurance
MIL-STD-202 Method 108A
IEC 60115-1 4.25.1
At 70± C for 1,000 hours; RCWV applied for
1.5 hours on and 0.5 hour off, still air required
0075: ± (5%+100mΩ)
<100mΩ for jumper
01005: ± (3% +50mΩ)
<100mΩf or jumper
Others:
± (1%+50mΩ) for B/D/F tol
± (3%+50mΩ) for J tol
<100mR for jumper
High
Temperature
Exposure
MIL-STD-202 Method 108A
IEC 60068-2-2
1,000 hours at maximum operating temperature
depending on specification, unpowered.
0075: ± (5%+100mΩ)
<100mΩ for jumper
01005: ± (1% +50mΩ)
< 50mΩf or jumper
Others:
± (1%+50mΩ) for B/D/F tol
± (2%+50mΩ) for J tol
<50mR for jumper
Moisture
Resistance
MIL-STD-202 Method 106G
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
Parts mounted on test-boards, without
condensation on parts
0075: ± (2%+100mΩ)
<100mΩ for jumper
01005: ± (2% +50mΩ)
< 100mΩf or jumper
Others:
± (0.5%+50mΩ) for B/ D/F tol
± (2%+50mΩ) for J tol
<100mR for jumper
Humidity
IEC 60115-1 4.24.2
Steady state for 1000 hours at 40°C / 95% R.H.
RCWV applied for 1.5 hours on and
0.5 hour off
0075: ± (5%+100mΩ)
no visible damage
01005: ± (3% +50mΩ)
< 100mΩf or jumper
Others:
± (1%+50mΩ) for B/D/F tol
± (2%+50mΩ) for J tol
<100mR for jumper
Table 8 Test condition, procedure and requirements
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Mar. 06, 2018 V.9
Product specification
9
10
SERIES
RC_L
0075 to 2512
Thermal
Shock
MIL-STD-202 Method 107G
-55/+125°C
Note Number of cycles required is 300.
Devices mounted
Maximum transfer time is 20 seconds.
Dwell time is 15 minutes. Air - Air
0075/01005: ± (1% +50mΩ)
< 50mΩf or jumper
Others:
± (0.5%+50mΩ) for B/D/F tol
± (1%+50mΩ) for J tol
< 50mR for jumper
Short Time
Overload
IEC 60115-1 4.13
2.5 times RCWV or maximum overload voltage
which is less for 5 seconds at room temperature
0075/01005: ± (2% +50mΩ)
< 50mΩf or jumper
Others:
± (1%+50mΩ) for B/D/F tol
± (2%+50mΩ) for J tol
<50mR for jumper
No visible damage
Board Flex/
Bending
IEC 60115-1 4.33
Device mounted or as described only 1 board
bending required
bending time: 60± 5 seconds
0075/0100/0201/0402:5mm;
0603/0805:3mm;
1206 and above:2mm
0075/01005: ± (1% +50mΩ)
< 50mΩf or jumper
Others:
± (1%+50mΩ) for B/D/F/J tol
<50mR for jumper
No visible damage
Solderability
- Wetting
J-STD-002 test B
Electrical Test not required Magnification 50X
SMD conditions:
1st step: method B, aging 4 hours at 155°C
dry heat
2nd step: leadfree solder bath at 245± 3°C
Dipping time: 3± 0.5 seconds
W ell tinned
(>95% covered)
No visible damage
-Leaching
J-STD-002 test D
Leadfree solder ,260°C, 30 seconds immersion
time
No visible damage
-Resistance to
Soldering Heat
MIL-STD-202 Method 210F
IEC 60115-1 4.18
Condition B, no pre-heat of samples
Leadfree solder, 260°C ± C, 10 ± 1 seconds
immersion time
Procedure 2 for SMD: devices fluxed and
cleaned with isopropanol
0075: ± (3%+50mΩ)
<50mΩ for jumper
01005: ± (1% +50mΩ)
< 50mΩf or jumper
Others:
± (0.5% +50mΩ) for B/D/F tol.
± (1% +50mΩ) for J tol.
<50mR for jumper
No visible damage
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Mar. 06, 2018 V.9
Product specification
10
10
SERIES
RC_L
0075 to 2512
“ Yageo reserves all the rights for revising the content of this datasheet without further notification, as long as the products itself are unchanged. Any
product change will be announced by PCN.”
REVISION HISTORY
TYPE
POWER
TOLERANCE
RESISTANCE RANGE
TEMPERATURE COEFFICIENT
OF RESISTANCE
PF
0603
1/10W, 1/5W, 3/10W, 2/5W, 1/2W
±1%
± 2%
± 5%
5 mΩ R < 100 mΩ
±75 ppm/°C
0805
1/8W, 1/4W, 1/3W, 1/2W
4 mΩ R < 100 mΩ
1206
1/4W, 1/2W
3 mΩ R < 100 mΩ
2010
1/2W, 1W
The resistors are constructed
using outstanding TCR level
material, which makes Yageo PF
resistors excellent for current
sensing application in battery
charger circuit & DC-DC
converter.
The composition of the resistive
material is adjusted to give the
approximate required resistance
and is covered with a protective
coating, which printed with the
resistance value.
Finally, the three external
terminations (Ni / matte Tin) are
added, as shown in Fig. 4.
5 mΩ R < 100 mΩ
2512
1W, 2W
1 mΩ R < 100 mΩ
3W
1 mΩ R 50 mΩ
4527
2W, 3W, 5W
6 mΩ R < 1Ω
NOTE: 1. PLEASE CONTACT WITH SALES OFFICES, DISTRIBUTORS AND REPRESENTATIVES IN YOUR REGION BEFORE ORDERING
REVISION
DATE
CHANGE NOTIFICATION
DESCRIPTION
Version 9
Mar. 06, 2018
-
- Add 0.5%/1% marking rule for RC0603 ~ RC2512 based on marking
datasheet
Version 8
July 10, 2017
-
- Add "3W" part number coding for 13" Reel & double power
Version 7
Mar. 7, 2017
-
- Add 10" packing
Version 6
Feb.15, 2017
-
- Extend RC0805 and RC1206 resistance range to 100Mohm
Version 5
Oct. 06, 2016
-
- Description: Update Dimension of I2 of RC2512 (2W)
Version 4
Jan. 22, 2016
-
- update resistance range
Version 3
Dec. 24, 2015
-
- Updated test and requirements
Version 2
Jul. 23, 2015
-
- Updated test and requirements
Version 1
Jan. 21, 2015
-
- ESD Safe Reel update
Version 0
Dec. 15, 2014
-
- First issue of this specification