Precision Thick Film Chip Resistors
Precision Thick Film Chip Resistors
Type:
ERJ XG, 1G
ERJ 1R, 2R, 3R, 6R
ERJ 3E, 6E, 8E, 14, 12, 1T
Features
●
Small size and
●
High reliability
lightweight
Metal glaze thick film resistive element and three layers of electrodes
●
Compatible with placement machines
Taping packaging available
●
Suitable for both reflow and flow soldering
●
Low Resistance Tolerance
ERJXG, 1G, 2R, 3E, 6E, 8E, 14, 12, 1T Series : ±1 %
ERJ1R, 2R, 3R, 6R Series : ±0.5 %
●
Reference Standards
IEC 60115-8, JIS C 5201-8, JEITA RC-2134C
●
AEC-Q200 qualified (Exemption ERJXG, ERJ1R)
●
RoHS compliant
■
As for Packaging Methods, Land Pattern, Soldering Conditions and Safety Precautions,
Please see Data Files
Explanation of Part Numbers
●
ERJ1R,
2R, 3R, 6R Series, ±0.5 %
1
2
3
4
5
6
7
8
9
10
11
12
E
R
J
3
R
B
D
1
0
0
2
V
Product Code
Thick Film
Chip Resistors
Size, Power Rating
Code Inch Power R.
1R 0201 0.05 W
2R 0402 0.063 W
3R 0603
0.1 W
6R 0805
0.1 W
T.C.R. Marking
Code
T.C.R.
±50×10
–6
/˚C (1R, 2R)
H
±50×10
–6
/˚C (3R, 6R)
B
±100×10
–6
/˚C (2R)
K
±100×10
–6
/˚C (3R, 6R)
E
Resistance Tolerance
Code
Tolerance
D
±0.5 %
Code
C
X
V
Packaging Methods
Packaging
Part No.
Pressed Carrier Taping
ERJ1R
2 mm pitch, 15,000 pcs.
Punched Carrier Taping
ERJ2R
2 mm pitch, 10,000 pcs.
Punched Carrier Taping
4 mm pitch, 5,000 pcs.
ERJ3R
ERJ6R
Resistance Value
The first three digits are significant figures of resistance
and the last one denotes number of zeros following.
Example: 1002
→10
kΩ
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10
Mar. 2019
Precision Thick Film Chip Resistors
●
ERJXGN,
1GN, 2RC, 2RK, 3EK, 6EN, 8EN, 14N, 12N, 12S, 1TN Series, ±1 %
1
2
3
4
5
6
7
8
9
10
11
12
E
R
J
8
E
N
F
1
0
0
2
V
Product Code
Thick Film
Chip Resistors
Size, Power Rating
Code
Inch Power R.
XGN 01005 0.031 W
1GN
0201
0.05 W
2RC
0402
0.1 W
2RK
0402
0.1 W
3EK
0603
0.1 W
6EN
0805 0.125 W
8EN
1206
0.25 W
14N
1210
0.5 W
12N
1812
0.75 W
12S
2010
0.75 W
1TN
2512
1W
Resistance Tolerance
Code Tolerance
±1 %
F
Code
Y
U
Packaging Methods
Packaging
Part No.
Pressed Carrier Taping
W8P2, 20,000 pcs.
ERJXGN
Embossed Carrier Taping
W4P1, 40,000 pcs.
Pressed Carrier Taping
2 mm pitch, 15,000 pcs. ERJ1GN
Punched Carrier Taping ERJ2RC
2 mm pitch, 10,000 pcs. ERJ2RK
ERJ3EK
Punched Carrier Taping
ERJ6EN
4 mm pitch, 5,000 pcs.
ERJ8EN
ERJ14N
Embossed Carrier Taping
ERJ12N
4 mm pitch, 5,000 pcs.
ERJ12S
Embossed Carrier Taping
4 mm pitch, 4,000 pcs. ERJ1TN
Resistance Value
The first three digits are significant figures
of resistance and the last one denotes
number of zeros following.
Decimal point is expressed by "R".
Example : 1002
→
10 kΩ
C
X
V
U
Construction
Dimensions in mm (not to scale)
L
a
W
Protective coating
t
Alumina substrate
Electrode (Inner)
Part No.
ERJXG
Electrode
(Between)
b
Dimensions (mm)
L
0.40
±0.02
W
0.20
0.30
0.50
±0.02
a
0.10
0.10
0.20
±0.03
b
0.10
0.15
0.25
0.30
0.40
0.50
0.50
0.50
0.60
0.60
±0.03
t
0.13
0.23
0.35
0.45
0.60
0.60
0.60
0.60
0.60
0.60
±0.02
Mass (Weight)
[g/1000 pcs.]
0.04
0.15
0.8
2
4
10
16
27
27
45
ERJ1G, 1R
0.60
ERJ2R□
ERJ3R□
ERJ3EK
ERJ6R□
ERJ6EN
ERJ8EN
ERJ14N
ERJ12N
ERJ12S
ERJ1TN
1.00
±0.03
±0.03
±0.05
±0.05
±0.03
±0.05
±0.05
±0.10
±0.05
±0.05
1.60
2.00
±0.15
0.80
–0.05
0.30
1.25
±0.10
+0.15
±0.20
±0.15
±0.10
Thick film
resistive element
±0.20
0.40
±0.20
±0.20
±0.10
Electrode (Outer)
3.20
–0.20
1.60
–0.15
0.50
3.20
4.50
5.00
6.40
±0.20
+0.05
+0.05
±0.20
±0.20
±0.10
2.50
3.20
2.50
3.20
±0.20
0.50
0.50
0.60
0.65
±0.20
±0.20
±0.10
±0.20
±0.20
±0.20
±0.20
±0.10
±0.20
±0.20
±0.20
±0.20
±0.10
±0.20
±0.20
±0.20
±0.20
±0.10
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10
Mar. 2019
Precision Thick Film Chip Resistors
Ratings
<±0.5 %>
Power Rating Limiting Element Maximum Overload Resistance
Part No.
at 70 °C
(4)
Voltage
(1)
Voltage
(2)
Tolerance
(inch size)
(W)
(V)
(V)
(%)
ERJ1RH
(0201)
ERJ2RH
(0402)
ERJ2RK
(0402)
ERJ3RB
(0603)
ERJ3RE
(0603)
ERJ6RB
(0805)
ERJ6RE
(0805)
0.05
0.063
0.063
0.1
0.1
0.1
0.1
15
50
50
50
50
150
150
30
100
100
100
100
200
200
±0.5
±0.5
±0.5
±0.5
±0.5
±0.5
±0.5
Resistance
Range
(Ω)
1k to 1M
(E24, E96)
100 to 100k
(E24, E96)
10 to 97.6
102k to 1M
(E24, E96)
100 to 100k
(E24, E96)
10 to 97.6
102k to 1M
(E24, E96)
100 to 100k
(E24, E96)
10 to 97.6
102k to 1M
(E24, E96)
T.C.R.
(×10
–6
/°C)
±50
±50
±100
±50
±100
±50
±100
Category
AEC-Q200
Temperature Range
Grade
(°C)
–55 to +125
–55 to +155
–55 to +155
–55 to +155
–55 to +155
–55 to +155
–55 to +155
–
Grade 0
Grade 0
Grade 0
Grade 0
Grade 0
Grade 0
<±1 %>
Power Rating Limiting Element Maximum Overload Resistance
Part No.
at 70 °C
(4)
Voltage
(1)
Voltage
(2)
Tolerance
(inch size)
(W)
(V)
(V)
(%)
ERJXGN
(01005)
ERJ1GN
(0201)
ERJ2RC
(0402)
ERJ2RK
(0402)
ERJ3EK
(0603)
ERJ6EN
(0805)
ERJ8EN
(1206)
ERJ14N
(1210)
ERJ12N
(1812)
ERJ12S
(2010)
ERJ1TN
(2512)
(1)
(2)
(3)
(4)
Resistance
Range
(Ω)
10 to 1M
(3)
(E24, E96)
10 to 1M
(3)
(E24, E96)
1 to 9.76
(E24, E96)
10 to 1M
(E24, E96)
10 to 1M
(E24, E96)
10 to 2.2M
(E24, E96)
10 to 2.2M
(E24, E96)
10 to 1M
(E24, E96)
10 to 1M
(E24, E96)
10 to 1M
(E24, E96)
10 to 1M
(E24, E96)
Category
AEC-Q200
T.C.R.
Temperature Range
–6
Grade
(×10 /°C)
(°C)
<100
Ω
: ±300
100
Ω
≤ : ±200
±200
–100 to +600
±100
±100
±100
±100
±100
±100
±100
±100
–55 to +125
–55 to +125
–55 to +155
–55 to +155
–55 to +155
–55 to +155
–55 to +155
–55 to +155
–55 to +155
–55 to +155
–55 to +155
–
Grade 1
Grade 0
Grade 0
Grade 0
Grade 0
Grade 0
Grade 0
Grade 0
Grade 0
Grade 0
0.031
0.05
0.1
0.1
0.1
0.125
0.25
0.5
0.75
0.75
1
15
25
50
50
75
150
200
200
200
200
200
30
50
100
100
150
200
400
400
500
500
500
±1
±1
±1
±1
±1
±1
±1
±1
±1
±1
±1
Rated Continuous Working Voltage (RCWV) shall be determined from RCWV=
√
Power Rating
×
Resistance Values, or Limiting Element Voltage listed above, whichever less.
Overload Test Voltage (OTV) shall be determined from OTV=Specified Magnification (refer to performance)
×
RCWV or Maximum Overload Voltage listed above, whichever less.
Please contact us when you need a type with a resistance of less than 10
Ω.
Use it on the condition that the case temperature is below the upper category temperature.
–55 °C
100
Rated Load (%)
80
60
40
20
0
–60 –40 –20
XG, 1G, 1R
155 °C
125 °C
0 20 40 60 80 100 120 140 160 180
Ambient Temperature (°C)
Power Derating Curve
For resistors operated in ambient temperatures above
70 °C, power rating shall be derated in accordance
with the figure on the right.
70 °C
2R, 3R, 6R,
3E, 6E, 8E,
14, 12, 1T
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10
Mar. 2019
Precision Thick Film Chip Resistors
Perfomance
●
ERJ1R,
2R, 3R, 6R Series, ±0.5 %(D)
Performance
Requirements
Within Specified
Tolerance
Within Specified
T. C. R.
±2 %
±1 %
±1 %
±1 %
±1 %
±2 %
ERJ1R: ±3 %
±2 %
ERJ1R: ±3 %
Test Conditions
20 °C
+25 °C/+125 °C
Rated Voltage
×
2.5, 5 s
270 °C, 10 s
–55 °C (30min.) / +155 °C (ERJ1R : +125 °C) (30min.), 100 cycles
+155 °C (ERJ1R : +125 °C) , 1000 h
60 °C, 90 % to 95 %RH, 1000 h
60 °C, 90 % to 95 %RH, Rated Voltage,
1.5 h ON/0.5 h OFF cycle, 1000 h
70 °C, Rated Voltage, 1.5 h ON/0.5 h OFF cycle, 1000 h
Test Item
Resistance
T. C. R.
Overload
Resistance to Soldering Heat
Rapid Change of
Temperature
High Temperature
Exposure
Damp Heat, Steady State
Load Life in Humidity
Endurance at 70 °C
●
ERJXGN,
1GN, 2RC, 2RK, 3EK, 6EN, 8EN, 14N, 12N, 12S, 1TN Series, ±1 %(F)
Performance
Requirements
Within Specified
Tolerance
Within Specified
T. C. R.
±2 %
±1 %
±1 %
±1 %
±1 %
Test Conditions
20 °C
+25 °C/+155 °C (ERJXG, ERJ1G : +25 °C/+125 °C)
Rated Voltage
×
2.5, 5 s
270 °C, 10 s
–55 °C (30min.) / +155 °C (ERJXG, ERJ1G : +125 °C) (30min.),
100 cycles
+155 °C (ERJXG, ERJ1G : +125 °C) , 1000 h
Test Item
Resistance
T. C. R.
Overload
Resistance to Soldering Heat
Rapid Change of
Temperature
High Temperature
Exposure
Damp Heat, Steady State
Load Life in Humidity
Endurance at 70 °C
60 °C, 90 % to 95 %RH, 1000 h
60 °C, 90 % to 95 %RH, Rated Voltage,
±2 %
ERJXG, ERJ1G: ±3 % 1.5 h ON/0.5 h OFF cycle, 1000 h
±2 %
ERJXG, ERJ1G: ±3 % 70 °C, Rated Voltage, 1.5 h ON/0.5 h OFF cycle, 1000 h
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
10
Mar. 2019
Surface Mount Resistors Safety precautions
Safety Precautions (Common precautions for Surface Mount Resistors)
The following are precautions for individual products. Please also refer to the common precautions for Fixed Resistors
in this catalog.
1. Take measures against mechanical stress during and after mounting of Surface Mount Resistors (hereafter called the
resistors) so as not to damage their electrodes and protective coatings.
Be careful not to misplace the resistors on the land patterns. Otherwise, solder bridging may occur.
2. Keep the rated power and ambient temperature within the specified derating curve.
Some circuit boards, wiring patterns, temperatures of heat generated by adjacent components, or ambient
temperatures can become factors in the rise of the temperature of the resistors, regardless of the level of power
applied. Therefore, check the conditions before use and optimize them so as not to damage the boards and peripheral
components.
Make sure to contact us before using the resistors under special conditions.
3. If a transient load (heavy load in a short time) like a pulse is expected to be applied, check and evaluate the
operations of the resistors when installed in your products before use.
Never exceed the rated power. Otherwise, the performance and/or reliability of the resistors may be impaired.
4. Before using halogen-based or other high-activity flux, check the possible effects of the flux residues on the
performance and reliability of the resistors.
5. When soldering with a soldering iron, never touch the resistors'bodies with the tip of the soldering iron. When using a
soldering iron with a high temperature tip, finish soldering as quickly as possible (within three seconds at 350 °C max.).
6. As the amount of applied solder becomes larger, the mechanical stress applied to the resistors increases, causing
problems such as cracks and faulty characteristics. Avoid applying an excessive amounts of solder.
7. When the resistors' protective coatings are chipped, flawed, or removed, the characteristics of the resistors may be
impaired. Take special care not to apply mechanical shock during automatic mounting or cause damage during
handling of the boards with the resistors mounted.
8. Do not apply shock to the resistors or pinch them with a hard tool (e.g. pliers and tweezers). Otherwise, the resistors'
protective coatings and bodies may be chipped, affecting their performance.
9. Avoid excessive bending of printed circuit boards in order to protect the resistors from abnormal stress.
10. Do not immerse the resistors in solvent for a long time. Before using solvent, carefully check the effects of immersion.
11. Transient voltage
If there is a possibility that the transient phenomenon (significantly high voltage applied in a short time) may
occur or that a high voltage pulse may be applied, make sure to evaluate and check the characteristics of
Fixed Metal (Oxide) Film Resistors mounted on your product rather than only depending on the calculated
power limit or steady-state conditions to complete the design or decide to use the resistors.
12. Do not apply excessive tension to the terminals.
Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use.
Should a safety concern arise regarding this product, please be sure to contact us immediately.
02 Sep. 2014
