Murata GCM55D7U2J473JX01L Chip monolithic ceramic capacitors for automotive Datasheet

!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
C03E.pdf
May.17,2013
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Explanation of Symbols in This Catalog
Ultracompact
L x W dimension: products of 0.6 x 0.3 mm or less
AECQ200
AEC-Q200 compliant product
Antinoise
Product suitable for acoustic noise reduction and low distortion
This product suppresses acoustic noise,
which occurs when a ceramic capacitor is used,
by devising the materials and configuration.
Fail
safe
s All
EU RoHS
Compliant
Fail safe product
This capacitor is designed to prevent failures
as much as possible by short mode.
Deflecting
crack
Product resistant to deflection cracking
This capacitor is designed to prevent failures as much
as possible by short mode caused by cracking
when there is board deflection.
Soldering
crack
Product with solder cracking suppression
This capacitor is configured with metal terminals or lead
wires connected to the chip.
The metal terminals or lead wires relieve the stress from
expansion and contraction of the solder, to suppress solder
cracking.
Also, including capacitor which can be mounted with a
conductive adhesive, instead of soldering.
the products in this catalog comply with EU RoHS.
RoHS is "the European Directive 2011/65/EU on the Restriction of the Use
of Certain Hazardous Substances in Electrical and Electronic Equipment."
s For more details, please refer to our website 'Murata's Approach for EU RoHS'
(http://www.murata.com/info/rohs.html).
s EU
C03E.pdf
May.17,2013
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Part Numbering
p2
Selection Guide
p4
Capacitance Table
p5
Chip Monolithic Ceramic Capacitors
for Automotive
GCM Series
Contents
May.17,2013
p28
p12
Specially Designed Product to Reduce
Shorts & Resin Electrode Product
GCE Series
p30
p12
Conductivity Adhesive Compatible Type
GCG Series
p32
p13
High Effective Capacitance
& High Allowable Ripple Current
GC3 Series
p36
p14
Metal Terminal Type KCM Series
p38
p14
Metal Terminal Type/High Effective
Capacitance & High Allowable Ripple
Current KC3 Series
p41
p14
!Caution/Notice
p44
Introduction of Website SimSurfing
p62
EMICON-FUN!
p63
Product Information
p64
Please check the MURATA home page (http://www.murata.com/)
if you cannot find the part number in the catalog.
GCD Series
Specially Designed Product
to Reduce Shorts GCD Series
GCE Series
p10
GCG Series
p23
GC3 Series
Resin External Electrode Product
GCJ Series
March 2013.
KCM Series
p6
KC3 Series
p16
!Caution/Notice
Product specifications are as of
General Purpose Product
GCM Series
GCJ Series
Cap. Table
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
o Part Numbering
Chip Monolithic Ceramic Capacitors for Automotive
(Part Number)
GC
M
18
8
q
w
e
r t
R7 1H
y
102
K
u
i
A37 D
o
!0
rHeight Dimension (T) (Except KCp)
qProduct ID
wSeries
Product ID
GC
KC
Code
Dimension (T)
Series
3
0.3mm
3
High effective capacitance &
High allowable ripple current
5
0.5mm
6
0.6mm
D
Specially designed product to reduce shorts
8
0.8mm
E
Specially designed product to reduce shorts &
resin electrode product
9
0.85mm
A
1.0mm
G
Conductivity adhesive compatible type
B
1.25mm
Code
J
Resin external electrode product
C
1.6mm
M
For automotive
D
2.0mm
3
Metal terminal type/High effective capacitance &
High allowable ripple current
E
2.5mm
M
1.15mm
M
Metal terminal type
N
1.35mm
Q
1.5mm
eChip Dimension (LgW)
Code
Dimension (LgW)
EIA
03
0.6g0.3mm
0201
15
1.0g0.5mm
0402
18
1.6g0.8mm
0603
21
2.0g1.25mm
31
3.2g1.6mm
32
R
1.8mm
X
Depends on individual standards.
rHeight Dimension (T) (KCp Only)
Code
Dimension (T)
0805
L
2.8mm
1206
Q
3.7mm
3.2g2.5mm
1210
T
4.8mm
43
4.5g3.2mm
1812
W
6.4mm
55
5.7g5.0mm
2220
tTemperature Characteristics
Temperature
Characteristic Codes
Code
Public
STD Code
Temperature Characteristics
Reference Temperature Capacitance Change
or Temperature
Temperature
Range
Coefficient
Operating
Temperature
Range
Capacitance Change Each Temperature (%)
–55°C
–25°C
–10°C
Max.
Min.
Max.
Min.
Max.
Min.
20°C
20 to 150°C
0±60ppm/°C
–55 to 150°C
0.82
–0.45
0.49
–0.27
0.33
–0.18
JIS
20°C
20 to 125°C
0±30ppm/°C
–55 to 125°C
0.54
–0.23
0.33
–0.14
0.22
–0.09
JIS
20°C
20 to 125°C
0±60ppm/°C
–55 to 125°C
0.82
–0.45
0.49
–0.27
0.33
–0.18
JIS
20°C
20 to 125°C
0±120ppm/°C
–55 to 125°C
1.37
–0.9
0.82
–0.54
0.55
–0.36
0C
CHA
*2
1C
CG
2C
CH
3C
CJ
4C
CK
JIS
20°C
20 to 125°C
0±250ppm/°C
–55 to 125°C
2.56
–1.88
1.54
–1.13
1.02
–0.75
5C
C0G
EIA
25°C
25 to 125°C
0±30ppm/°C
–55 to 125°C
0.58
–0.24
0.4
–0.17
0.25
–0.11
5G
X8G
*2
25°C
25 to 150°C
0±30ppm/°C
–55 to 150°C
0.58
–0.24
0.4
–0.17
0.25
–0.11
7U
U2J
EIA
25°C
25 to 125°C *3
–750±120ppm/°C
–55 to 125°C
8.78
5.04
6.04
3.47
3.84
2.21
C7
X7S
EIA
25°C
–55 to 125°C
±22%
–55 to 125°C
-
-
-
-
-
-
-
-
-
-
-
-
D7
X7T
EIA
25°C
–55 to 125°C
+22%, –33%
–55 to 125°C
L8
X8L
*2
25°C
–55 to 150°C
+15%, –40%
–55 to 150°C
-
-
-
-
-
-
R1
R *1
JIS
20°C
–55 to 125°C
±15%
–55 to 125°C
-
-
-
-
-
-
R7
X7R
EIA
25°C
–55 to 125°C
±15%
–55 to 125°C
-
-
-
-
-
-
R9
X8R
EIA
25°C
–55 to 150°C
±15%
–55 to 150°C
-
-
-
-
-
-
*1 Capacitance change is specified with 50% rated voltage applied.
*2 Murata Temperature Characteristic Code.
*3 Rated Voltage 100Vdc max: 25 to 85°C
Continued on the following page.
Please check the MURATA home page (http://www.murata.com/) if you cannot find a part number in this catalog.
2
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
Continued from the preceding page.
iCapacitance Tolerance
yRated Voltage
Code
Rated Voltage
Code
Capacitance Tolerance
0J
DC6.3V
B
±0.1pF
1A
DC10V
C
±0.25pF
1C
DC16V
D
±0.5pF
1E
DC25V
F
±1%
YA
DC35V
G
±2%
1H
DC50V
J
±5%
±10%
1J
DC63V
K
2A
DC100V
M
±20%
2E
DC250V
R
Depends on individual standards.
2W
DC450V
W
±0.05pF
2J
DC630V
3A
DC1kV
oIndividual Specification Code
Expressed by three figures.
uCapacitance
Expressed by three-digit alphanumerics. The unit is pico-farad
(pF). The first and second figures are significant digits, and the
third figure expresses the number of zeros that follow the two
numbers.
If there is a decimal point, it is expressed by the capital letter "R."
In this case, all figures are significant digits.
If any letter, other than "R" is included, this indicates the specific
part number is a non-standard part.
Ex.)
Code
Capacitance
R50
0.50pF
1R0
1.0pF
100
10pF
103
10000pF
!0Package
Code
Package
L
ø180mm Embossed Taping
D/W
ø180mm Paper Taping
K
ø330mm Embossed Taping
J
ø330mm Paper Taping
B
Bulk
C
Bulk Case
Please check the MURATA home page (http://www.murata.com/) if you cannot find a part number in this catalog.
3
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
For Automotive
GCM
page
p16
GCJ
p23
GCD
p28
GCE
p30
GCG
p32
GC3
p36
KCM
p38
KC3
p41
For General Purpose (Please refer to Cat. No. C02 for general purpose.)
GRM
GNM
LLL
LLR
LLA
LLM
GJM
GQM
GMA
GMD
GWM
GRJ
GR3
GR4
GR7
GJ4
GJ8
ZRA
KRM
KR3
GA2
GA3
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Selection Guide for Chip Monolithic Ceramic Capacitors
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
Capacitance Table
How to read the Capacitance Table
1.0×
L×W (mm) 0.6×
0.3 0.5
T max. (mm) 0.33 0.55
Rated Voltage (Vdc) 25
50
1.6×0.8
0.9
100
50
The values can be narrowed down in the order of size,
rated voltage, and temperature characteristics.
10
Cap. / TC Code C0G C0G C0G C0G C0
1.0pF p17 p17 p17 p17
2.0pF p17 p17 p17 p17
Refers to the page of the part number list.
Check the part number list for the applicable product number.
3.0pF p17 p17 p17 p17
4.0pF p17 p17 p17 p17
5.0pF p17 p17 p17 p17
Temperature Characteristics Table
The Table is colored by temperature characteristic codes.
Refer to the following Table for the meaning of each code.
EIA: C0G U2J X7R X7S X7T
Murata Temperature Characteristic: X8G X8L
Temperature
Characteristic Codes
Temperature Characteristics
Public
STD Code
Reference
Temperature Capacitance Change
or Temperature
Temperature
Range
Coefficient
X8G: Murata Temperature Characteristic
Operating
Temperature
Range
Capacitance Change Each Temperature (%)
–55°C
–25°C
–10°C
Max.
Min.
Max.
Min.
Max.
Min.
25°C
25 to 150°C
0±30ppm/°C
–55 to 150°C
0.58
–0.24
0.4
–0.17
0.25
–0.11
25 to 125°C
0±30ppm/°C
–55 to 125°C
0.58
–0.24
0.4
–0.17
0.25
–0.11
C0G
EIA
25°C
U2J
EIA
25°C
25 to 125°C
–750±120ppm/°C
–55 to 125°C
8.78
5.04
6.04
3.47
3.84
2.21
X7R
EIA
25°C
–55 to 125°C
±15%
–55 to 125°C
-
-
-
-
-
-
X7S
EIA
25°C
–55 to 125°C
±22%
–55 to 125°C
-
-
-
-
-
-
X7T
EIA
25°C
–55 to 125°C
+22%, –33%
–55 to 125°C
-
-
-
-
-
-
25°C
–55 to 150°C
+15%, –40%
–55 to 150°C
-
-
-
-
-
-
X8L: Murata Temperature Characteristic
5
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Capacitance Table
p00
May.17,2013
Each number in the Part Number List refers to the page number printed at the bottom of the page.
c GCM Series Temperature Compensating Type
p00
← Part Number List
EIA: C0G U2J
1.0×
L×W (mm) 0.6×
0.3 0.5
T max. (mm) 0.33 0.55
Rated Voltage (Vdc) 25
50
1.6×0.8
0.9
100
50
2.0×1.25
0.7
100
50
0.95 1.0
50
250
3.2×1.6
1.4 1.45
50
0.95
250 100
3.2×2.5
1.8
1.25
1.0
50 1000 630 250 1000 630 250
1.0
1.25
1.5
50 1000 630 630 1000 630 1000 630
Cap. / TC Code C0G C0G C0G C0G C0G C0G C0G U2J C0G U2J C0G C0G U2J U2J U2J U2J U2J U2J C0G U2J U2J U2J U2J U2J U2J U2J
1.0pF p17 p17 p17 p17
2.0pF p17 p17 p17 p17
3.0pF p17 p17 p17 p17
4.0pF p17 p17 p17 p17
5.0pF p17 p17 p17 p17
6.0pF p17 p17 p17 p17
7.0pF p17 p17 p17 p17
8.0pF p17 p17 p17 p17
9.0pF p17 p17 p17 p18
10pF p17 p17 p17 p18
p19 p19
12pF p17 p17 p17 p18
p19 p19
15pF p17 p17 p17 p18
p19 p19
18pF p17 p17 p17 p18
p19 p19
22pF p17 p17 p17 p18
p19 p19
27pF p17 p17 p17 p18
p19 p19
33pF p17 p17 p17 p18
p19 p19
39pF p17 p17 p17 p18
p19 p19
47pF p17 p17 p17 p18
p19 p19
56pF p17 p17 p17 p18
p19 p19
68pF p17 p17 p17 p18
p19 p19
82pF p17 p17 p17 p18
p18
p19 p19
120pF
p17 p17 p18 p18
p18
p19 p19
150pF
p17 p17 p18 p18
p18
p19 p19
180pF
p17 p17 p18 p18
p18
p19 p19
220pF
p17 p17 p18 p18
p18
p19 p19
270pF
p17 p17 p18 p18
p18
p19 p19
330pF
p17 p17 p18 p18
p18
p19 p19
390pF
p17 p17 p18 p18
p18
p19
p19
470pF
p17 p17 p18 p18
p18
p19
p19
560pF
p17 p18 p18
p18
p19
p19
680pF
p17 p18 p18
p18
p19
p19
820pF
p17 p18 p18
p18
p19
p19
1000pF
p17 p18 p18 p18
p18
p19
p19
1200pF
p17 p18 p18 p18
p18
p19
p19 p19
1500pF
p17 p18 p18 p18
p18
p19
p19
1800pF
p18 p18 p18
p18
p18
p19
p19
2200pF
p18 p18 p18
p18
p18
p19
2700pF
p18 p18 p18
p18 p18
p19
p19
3300pF
p18 p18 p18
p18 p18
p19
p19
3900pF
p18
p18
p18 p18 p19
p19
p19
p18
p18 p18 p19
p19
p19
p19
4700pF
6
p19 p19
100pF p17 p17 p17 p18 p18
p19
5600pF
p18
p18 p18 p19
6800pF
p18
p19 p19
p19
8200pF
p18
p19 p19
p19
10000pF
p18
p19 p19
p19
12000pF
p18
p19
15000pF
p18
p19
p19
p19
18000pF
p18
p19
22000pF
p18
p19
27000pF
p19
33000pF
p19
39000pF
p19
p19
47000pF
p19
56000pF
p19
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Capacitance Table
p00
C03E.pdf
May.17,2013
Each number in the Part Number List refers to the page number printed at the bottom of the page.
(→ c GCM Series Temperature Compensating Type)
p00
← Part Number List
3.2×2.5
2.0
EIA: C0G U2J
4.5×3.2
1.5
5.7×5.0
2.0
1.5
L×W (mm)
2.0
T max. (mm)
1000 630 1000 630 1000 630 1000 630 1000 630 Rated Voltage (Vdc)
U2J U2J U2J U2J U2J U2J U2J U2J U2J U2J Cap. / TC Code
1.0pF
2.0pF
3.0pF
4.0pF
5.0pF
6.0pF
7.0pF
8.0pF
9.0pF
10pF
12pF
15pF
18pF
22pF
27pF
33pF
39pF
47pF
56pF
68pF
82pF
100pF
120pF
150pF
180pF
220pF
270pF
330pF
390pF
470pF
560pF
680pF
820pF
1000pF
1200pF
1500pF
1800pF
p19
2200pF
p19
2700pF
p19
3300pF
p19
3900pF
p20
4700pF
p20
5600pF
p20
6800pF
p20
p19
p20
8200pF
p19
p20
10000pF
12000pF
p20
p20
15000pF
p20
18000pF
22000pF
p20
27000pF
p20
p20
33000pF
p20
39000pF
p20
47000pF
56000pF
7
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Capacitance Table
p00
May.17,2013
Each number in the Part Number List refers to the page number printed at the bottom of the page.
c GCM Series High Dielectric Constant Type
p00
← Part Number List
L×W (mm)
EIA: X7R X7S
0.6×0.3
1.0×0.5
1.6×0.8
0.33
0.55
0.9
T max. (mm)
Rated Voltage (Vdc) 25
16
10
100
50
25
16
100
50
25
2.0×1.25
0.7
16
3.2×1.6
0.95
6.3 100 100
50
25
1.4
16
100
50
35
25
0.95 1.25
16
10
6.3 100 100
Cap. / TC Code X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7Δ X7R X7R X7R
100pF p21
150pF p21
220pF p21
p21 p21
330pF p21
p21 p21
470pF p21
p21 p21
680pF p21
p21 p21
1000pF p21
p21 p21
p21 p21
1500pF p21
p21 p21
p21 p21
2200pF
p21
p21 p21
p21 p21
3300pF
p21
p21 p21
p21 p21
4700pF
p21 p21 p21
p21 p21
6800pF
p21
p21
p21 p21
p21
10000pF
p21
p21 p21
p21 p21
p21
15000pF
p21 p21
p21 p21
p21
22000pF
p21 p21
p21 p21
p21
33000pF
p21 p21
p21 p21
47000pF
p21 p21
p21 p21
p22 p22
68000pF
p21
p21 p21
p22 p22
0.10μF
p21 p21
p21 p21 p21 p21 p21
p21 p21
p22
p22
p22
0.22μF
p21 p21
p22
p22
p22
0.33μF
p21
0.47μF
p21 p21
p21
1.0μF
2.2μF
4.7μF
10μF
22μF
47μF
p22
p21
0.68μF
8
p22
p22 p22
0.15μF
p21 p21
p21
p22
p21
p22 p22
p22
p22 p22 p22
p22 p22 p22
p22 p22
p22 p22
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Capacitance Table
p00
C03E.pdf
May.17,2013
Each number in the Part Number List refers to the page number printed at the bottom of the page.
(→ c GCM Series High Dielectric Constant Type)
p00
← Part Number List
EIA: X7R X7S
3.2×1.6
1.25 1.3
50
25
3.2×2.5
1.8
50
25
16
1.9
10
6.3
25
2.2
100
25
L×W (mm)
2.7
16
50
35
25
16
T max. (mm)
10
6.3 Rated Voltage (Vdc)
X7R X7R X7Δ X7R X7R X7R X7R X7S X7R X7R X7R X7Δ X7S X7R X7R X7R X7R Cap. / TC Code
100pF
150pF
220pF
330pF
470pF
680pF
1000pF
1500pF
2200pF
3300pF
4700pF
6800pF
10000pF
15000pF
22000pF
33000pF
47000pF
68000pF
0.10μF
0.15μF
0.22μF
p22
0.33μF
p22
0.47μF
0.68μF
p22
1.0μF
p22
p22
p22 p22
2.2μF
p22
p22 p22 p22
p22
p22 p22
p22
p22
4.7μF
p22
10μF
p22 p22 p22 p22
22μF
p22 p22
p22
47μF
9
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Capacitance Table
p00
May.17,2013
Each number in the Part Number List refers to the page number printed at the bottom of the page.
c GCJ Series High Dielectric Constant Type
p00
← Part Number List
EIA: X7R
Rated Voltage (Vdc) 100
25
16
10
100
50
25
100
50
25
16
0.95
1.45
1.0
0.95
0.7
0.9
50
3.2×1.6
2.0×1.25
1.6×0.8
L×W (mm)
T max. (mm)
250 250 100
50
25
16
10
100
1.35
1.25
50 1000 630 250 100
50
Cap. / TC Code X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R
220pF
p25
270pF
p25
330pF
p25
p25
390pF
p25
p25
470pF
p25 p25 p25
560pF
p25 p25 p25
680pF
p25 p25 p25
820pF
p25 p25 p25
1000pF p24 p24 p24
p24 p25 p25
1200pF p24 p24 p24
p24 p25 p25
1500pF p24 p24 p24
p24 p25 p25
1800pF p24 p24 p24
p24 p25 p25
2200pF p24 p24 p24
p24 p25 p25
2700pF p24 p24 p24
p24 p25 p25
3300pF p24 p24 p24
p24 p25 p25
3900pF p24 p24 p24
p24 p25 p25
4700pF p24 p24 p24
p24 p25 p25
5600pF p24 p24 p24
p24 p25 p25
6800pF p24 p24 p24
p25 p25 p25
8200pF p24 p24 p24
p25 p25 p25
10000pF p24 p24 p24 p24
p25 p25 p25
12000pF p24 p24 p24
p25 p25 p25
15000pF p24 p24 p24
p25 p25
p25
18000pF p24 p24 p24
p25 p25
p25
22000pF p24 p24 p24
p25 p25
p25
p26 p26
p25
p26 p26
p25
p26 p26
p25
p26 p26
p25
p26 p26
p25
p26
p25
p26
p25
p26
p25
p25
p26
27000pF
p24 p24
p25 p25
p25
33000pF
p24 p24 p24
p25 p25
p25
39000pF
p24 p24 p24
p25 p25
47000pF
p24 p24 p24
p25 p25 p25
56000pF
p24 p24 p24
p25 p25 p25
68000pF
p24 p24 p24
p25 p25 p25
82000pF
p24 p24 p24
p25 p25 p25
0.10μF
p24 p24 p24
p25 p25 p25
p25
p26
p26 p26
0.12μF
p24 p24 p24
p25
0.15μF
p24 p24 p24
p25
p26 p26
0.18μF
p24 p24 p24
p25
p26 p26
0.22μF
p24 p24 p24
p25
0.27μF
p24
0.33μF
p24
0.39μF
p24
0.47μF
p24
p26
p26 p26
p25 p26
p26
p26
p26
p25 p26
p26
p26
p26
p25 p26
p26
p25 p25
p25
p25
0.56μF
0.68μF
p25
p25
p26
0.82μF
p25
p25
p26
1.0μF
p25
p26 p26
p26
1.5μF
2.2μF
3.3μF
4.7μF
6.8μF
10μF
22μF
10
p26 p26
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Capacitance Table
p00
May.17,2013
Each number in the Part Number List refers to the page number printed at the bottom of the page.
(→ c GCJ Series High Dielectric Constant Type)
p00
← Part Number List
EIA: X7R
25
1.5
1.9
16 1000 630 250
50
25
16
10
2.3
2.0
5.7×5.0
4.5×3.2
3.2×2.5
3.2×1.6
1.8
1.35
6.3 630 250 1000 630 250 100
2.8
50
25
1.5
2.0
2.0
L×W (mm)
T max. (mm)
630 250 1000 630 250 1000 630 250 Rated Voltage (Vdc)
X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R Cap. / TC Code
220pF
270pF
330pF
390pF
470pF
560pF
680pF
820pF
1000pF
1200pF
1500pF
1800pF
2200pF
2700pF
3300pF
3900pF
4700pF
5600pF
p26
p26
6800pF
p26
p26
10000pF
8200pF
12000pF
p26
p26 p26
p26
p26 p26
15000pF
18000pF
22000pF
27000pF
p26
p26
p26 p26
p26
p26
p26 p26
33000pF
39000pF
47000pF
56000pF
68000pF
p27
p26
p26
82000pF
p26
0.10μF
p27 p27
p26
p26
p26
0.12μF
p26
0.15μF
p27
p26
p26
p26
0.18μF
p26
p26
p26
p26
0.22μF
p27
0.27μF
p26
p27
p26
p27
0.33μF
0.39μF
0.47μF
0.56μF
p27
0.68μF
0.82μF
p27
p26 p26
p26 p26
p26
p26
p26
p26
1.0μF
1.5μF
2.2μF
p26
3.3μF
p26
4.7μF
p26
p26 p26
6.8μF
p26
p26
p26 p26
p26
10μF
22μF
11
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Capacitance Table
p00
Each number in the Part Number List refers to the page number printed at the bottom of the page.
c GCD Series High Dielectric Constant Type
p00
← Part Number List
L×W (mm)
EIA: X7R
2.0×1.25
Rated Voltage (Vdc) 100
0.7
0.9
50
25
100
50
0.95
← Part Number List
L×W (mm)
1.4
100 100
50
Cap. / TC Code X7R X7R X7R X7R X7R X7R X7R X7R
12
c GCE Series High Dielectric Constant Type
p00
1.6×0.8
T max. (mm)
May.17,2013
T max. (mm)
EIA: X7R
2.0×1.25
1.6×0.8
0.9
Rated Voltage (Vdc) 100
50
0.7
100
50
0.95
1.45
100 100
50
Cap. / TC Code X7R X7R X7R X7R X7R X7R X7R
1000pF p29 p29
p29 p29
1000pF p31 p31 p31 p31
1200pF p29 p29
p29 p29
1200pF p31 p31 p31 p31
1500pF p29 p29
p29 p29
1500pF p31 p31 p31 p31
1800pF p29 p29
p29 p29
1800pF p31 p31 p31 p31
2200pF p29 p29
p29 p29
2200pF p31 p31 p31 p31
2700pF p29 p29
p29 p29
2700pF p31 p31 p31 p31
3300pF p29 p29
p29 p29
3300pF p31 p31 p31 p31
3900pF p29 p29
p29 p29
3900pF p31 p31 p31 p31
4700pF p29 p29
p29 p29
4700pF p31 p31 p31 p31
5600pF
p29
p29 p29
6800pF
p29
8200pF
p29
10000pF
5600pF
p31 p31 p31
6800pF
p31
p29
8200pF
p31
p31
p29
p29
10000pF
p31
p31
12000pF
p29
p29
12000pF
p31
p31
15000pF
p29
p29
15000pF
p31
p31
18000pF
p29
p29
18000pF
p31
p31
22000pF
p29
p29
22000pF
p31
p31
p29
p31
27000pF
p29
p29
27000pF
p31
33000pF
p29
p29
33000pF
p31
39000pF
p29
p29
39000pF
p31
47000pF
p29
p29
47000pF
p31
56000pF
p29
56000pF
p31
68000pF
p29
68000pF
p31
82000pF
p29
82000pF
p31
0.10μF
p29
0.10μF
p31
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Capacitance Table
c GCG Series
Temperature Compensating Type
p00
p00
May.17,2013
Capacitance Table
Each number in the Part Number List refers to the page number printed at the bottom of the page.
High Dielectric Constant Type
← Part Number List
Murata Temperature Characteristic: X8G
EIA: X7R
Murata Temperature Characteristic: X8L
L×W (mm) 1.6×
0.8 2.0×1.25
L×W (mm)
0.7 0.95
T max. (mm)
T max. (mm) 0.9
Rated Voltage (Vdc) 50
50
50
Cap. / TC Code X8G X8G X8G
Rated Voltage (Vdc) 50
1.0×0.5
1.6×0.8
2.0×1.25
0.55
0.9
1.45
25
16
50
25
16
50
25
3.2×2.5
3.2×1.6
1.35
16
25
16
1.9
25
16
2.3
2.8
25
25
Cap. / TC Code X7R X8L X7R X8L X7R X8L X7R X7R X8L X8L X7R X8L X7R X8L X7R X8L X7R X8L X7R X7R
10pF p33
220pF p34
p34
12pF p33
270pF p34
p34
15pF p33
330pF p34
p34
18pF p33
390pF p34
p34
22pF p33
470pF p34
p34
27pF p33
560pF p34
p34
33pF p33
680pF p34
p34
39pF p33
820pF p34
p34
47pF p33
1000pF p34
p34
56pF p33
1200pF p34
p34
68pF p33
1500pF p34
p34
82pF p33
1800pF p34
p34
100pF p33 p33
2200pF p34
p34
120pF p33 p33
2700pF p34
p34
150pF p33 p33
3300pF p34
p34
180pF p33 p33
3900pF p34
p34
220pF p33 p33
4700pF p34
270pF p33 p33
5600pF
p34 p34
p34
330pF p33 p33
6800pF
p34 p34
p34
390pF p33 p33
8200pF
p34 p34
p34
470pF p33 p33
10000pF
p34 p34
p34
560pF p33 p33
12000pF
p34
680pF p33 p33
15000pF
p34 p34 p34
p34
820pF p33 p33
18000pF
p34 p34 p34
1000pF p33 p33
22000pF
p34 p34 p34
1200pF p33 p33
27000pF
p34 p34
p34
p34
1500pF p33 p33
33000pF
p34 p34
p34
p34
1800pF p33 p33
39000pF
p34 p34
p34
p34
2200pF p33 p33
47000pF
p34 p34
p34
p34
2700pF
p33
56000pF
p34
p34
3300pF
p33
68000pF
p34
p34
3900pF
p33
82000pF
p34
p34
4700pF
p33
0.10μF
p34
p34
p34
5600pF
p33
0.12μF
p34
6800pF
p33
0.15μF
p34 p34
p34
8200pF
p33
0.18μF
p34
p34
10000pF
p33
0.22μF
p34 p34
p34
0.27μF
p34
0.33μF
p34 p34 p35
0.39μF
p34 p35
0.47μF
p34 p35
0.56μF
p34 p35
0.68μF
p35 p35
0.82μF
p35 p35
1.0μF
p35
p35 p35
1.2μF
p35
1.5μF
p35 p35
2.2μF
p35
3.3μF
p35 p35 p35
3.9μF
p35
4.7μF
p35 p35
10μF
p35
p35
13
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Capacitance Table
p00
May.17,2013
Each number in the Part Number List refers to the page number printed at the bottom of the page.
c GC3 Series High Dielectric Constant Type
p00
← Part Number List
EIA: X7T
5.7×5.0
2.7
2.0
2.0
1.5
2.0
1.5
1.8
1.25
1.0
4.5×3.2
3.2×2.5
3.2×1.6
L×W (mm) 2.0×1.25
T max. (mm) 1.0 1.45
Rated Voltage (Vdc) 250 250 450 250 630 450 250 630 450 250 630 250 630 450 250 250 630 450 250 630 450 250 630 450 250
Cap. / TC Code X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T
10000pF p37
p37
15000pF p37
p37
22000pF
p37
p37
p37
p37
33000pF
p37
p37
p37
47000pF
p37
p37
p37
68000pF
p37
p37
p37
0.10μF
p37
p37
p37
0.15μF
p37
p37
0.22μF
p37
p37
p37
p37
p37
0.27μF
p37
0.33μF
p37
0.47μF
p37
p37 p37
0.56μF
p37
0.68μF
p37
1.0μF
p37
c KCM Series High Dielectric Constant Type
p00
← Part Number List
EIA: X7R
6.1×5.3
L×W (mm)
Rated Voltage (Vdc) 100
63
50
35
25
100
63
50
6.7
5.0
3.9
3.0
T max. (mm)
35
25
100
35
25
100
63
50
35
25
Cap. / TC Code X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R X7R
4.7μF p40 p40 p40
6.8μF
p40
10μF
p40
15μF
p40 p40
p40
p40
p40
17μF
p40
22μF
p40
33μF
← Part Number List
EIA: X7T
6.1×5.3
L×W (mm)
3.9
3.0
6.7
5.0
Rated Voltage (Vdc) 630 450 250 630 450 250 450 630 450 250
Cap. / TC Code X7T X7T X7T X7T X7T X7T X7T X7T X7T X7T
0.10μF p43
0.15μF p43
0.22μF
p43
0.27μF
0.47μF
0.56μF
1.0μF
1.2μF
2.2μF
14
p40
p40
c KC3 Series High Dielectric Constant Type
T max. (mm)
p40 p40
p40
47μF
p00
p40
p43
p43
p43 p43
p43
p43
p43
p43 p43
p43
p43
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Search Capacitors
C03E.pdf
May.17,2013
Specifications and Test Methods, Package, Chart of Characteristic Data,
please refer to the search web page.
http://www.murata.com/products/capacitor/
Data Sheet
The product details page can be output in PDF.
Status and Features Icons
The status and features of products can be checked at
once. When
is clicked, a description of each icon
will be displayed.
Characteristics & Applications
This links to the introduction page of each series.
Detailed Specifications Sheet
s Rated value
s Specifications and Test Methods
s Package
s Caution, Notice
(Storage, Soldering and Mounting, ....etc.)
Characteristics Data
The following characteristics data of the
main products can be acquired.
s SPICE Netlist (mod type)
s S parameter (S2P type)
s Reliability Test Data *Typical data
s Shape (Dimensions)
s Rated Values
s Specification by Packaging Code/
Minimum Order Quantity
s Weight (1 pc/ø180mm reel)
Chart of Characteristic Data
The main products published characteristic data.
s Frequency characteristics (ESR, Impedance)
s S parameter (Smith chart S11)
s DC bias characteristics
s AC voltage characteristics
s Capacitance - temperature characteristics
s Calorific property by ripple current
15
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
General Purpose Product
GCM Series
AECQ200
GCM Series
Capacitor for automotive applications such as power train and safety equipment.
Features
1
Ideal for power trains and safety devices in automobiles.
GCJ Series
This product can be used for safety devices, such as the drive system control for engine ECU, air bags, and ABS.
This product has cleared test conditions more severe than that of general products (GRM Series) even in
temperature cycle and humidity load tests.
GCD Series
General Purpose GRM Series
Maximum operating temperature: 85°C/105°C/125°C
GCM Series for Automobiles
Maximum operating temperature: 125°C
Test Method
Test Method
Items
GCE Series
2
Temperature Cycle
Temperature Cycle: 5 cycles
Temperature Cycle: 100 cycles
(1,000 cycles for AEC-Q200 conforming products)
Humidity Loading
Test temperature: 40±2°C
Test humidity: 90 to 95%RH
Test time: 500 hours
Test temperature: 85±2°C
Test humidity: 80 to 85%RH
Test time: 500 hours
(1,000 hours for AEC-Q200 conforming products)
Can be used at 125°C and 150°C temperatures.
We also offer a lineup for 150°C that can be used in the engine room.
GCG Series
3
Sn plating is applied to the external electrodes; excellent solder ability.
Internal Electrodes
Ni/Sn Plated Layer
Ceramic
Foundation Electrode Layer
GC3 Series
<Example of Structure>
Specifications
KCM Series
e
Size
g
Rated Voltage
DC6.3 to 1kV
Capacitance
0.1pF to 47μF
T
L
KC3 Series
Main Applications
!Caution/Notice
16
e
0.6×0.3mm to 5.7×5.0mm
Drive system control of engine ECU, Airbag, Safety equipment such as ABS
W
<Dimensions>
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
0.55mm
50Vdc
C0G
220pF
±5%
GCM1555C1H221JA16#
270pF
±5%
GCM1555C1H271JA16#
Part Number
Rated
Voltage
TC
Code
Cap.
0.33mm
25Vdc
C0G
1.0pF
±0.25pF GCM0335C1E1R0CD03#
330pF
±5%
GCM1555C1H331JA16#
2.0pF
±0.25pF GCM0335C1E2R0CD03#
390pF
±5%
GCM1555C1H391JA16#
3.0pF
±0.25pF GCM0335C1E3R0CD03#
470pF
±5%
GCM1555C1H471JA16#
4.0pF
±0.25pF GCM0335C1E4R0CD03#
5.0pF
±0.25pF GCM0335C1E5R0CD03#
6.0pF
±0.5pF
GCM0335C1E6R0DD03#
7.0pF
±0.5pF
GCM0335C1E7R0DD03#
GCM0335C1E8R0DD03#
Rated
Voltage
TC
Code
Tol.
±0.5pF
T
max.
Cap.
8.0pF
9.0pF
±0.5pF
GCM0335C1E9R0DD03#
0.9mm
100Vdc
C0G
1.0pF
±0.25pF GCM1885C2A1R0CA16#
10pF
±5%
GCM0335C1E100JD03#
2.0pF
±0.25pF GCM1885C2A2R0CA16#
12pF
±5%
GCM0335C1E120JD03#
3.0pF
±0.25pF GCM1885C2A3R0CA16#
15pF
±5%
GCM0335C1E150JD03#
4.0pF
±0.25pF GCM1885C2A4R0CA16#
18pF
±5%
GCM0335C1E180JD03#
5.0pF
±0.25pF GCM1885C2A5R0CA16#
22pF
±5%
GCM0335C1E220JD03#
6.0pF
±0.5pF
GCM1885C2A6R0DA16#
27pF
±5%
GCM0335C1E270JD03#
7.0pF
±0.5pF
GCM1885C2A7R0DA16#
33pF
±5%
GCM0335C1E330JD03#
8.0pF
±0.5pF
GCM1885C2A8R0DA16#
39pF
±5%
GCM0335C1E390JD03#
9.0pF
±0.5pF
GCM1885C2A9R0DA16#
47pF
±5%
GCM0335C1E470JD03#
10pF
±5%
GCM1885C2A100JA16#
56pF
±5%
GCM0335C1E560JD03#
12pF
±5%
GCM1885C2A120JA16#
68pF
±5%
GCM0335C1E680JD03#
15pF
±5%
GCM1885C2A150JA16#
82pF
±5%
GCM0335C1E820JD03#
18pF
±5%
GCM1885C2A180JA16#
100pF
±5%
GCM0335C1E101JD03#
22pF
±5%
GCM1885C2A220JA16#
27pF
±5%
GCM1885C2A270JA16#
33pF
±5%
GCM1885C2A330JA16#
39pF
±5%
GCM1885C2A390JA16#
47pF
±5%
GCM1885C2A470JA16#
56pF
±5%
GCM1885C2A560JA16#
T
max.
Rated
Voltage
TC
Code
Cap.
0.55mm
50Vdc
C0G
1.0pF
±0.25pF GCM1555C1H1R0CA16#
68pF
±5%
GCM1885C2A680JA16#
2.0pF
±0.25pF GCM1555C1H2R0CA16#
82pF
±5%
GCM1885C2A820JA16#
3.0pF
±0.25pF GCM1555C1H3R0CA16#
100pF
±5%
GCM1885C2A101JA16#
4.0pF
±0.25pF GCM1555C1H4R0CA16#
120pF
±5%
GCM1885C2A121JA16#
5.0pF
±0.25pF GCM1555C1H5R0CA16#
150pF
±5%
GCM1885C2A151JA16#
6.0pF
±0.5pF
GCM1555C1H6R0DA16#
180pF
±5%
GCM1885C2A181JA16#
7.0pF
±0.5pF
GCM1555C1H7R0DA16#
220pF
±5%
GCM1885C2A221JA16#
8.0pF
±0.5pF
GCM1555C1H8R0DA16#
270pF
±5%
GCM1885C2A271JA16#
9.0pF
±0.5pF
GCM1555C1H9R0DA16#
330pF
±5%
GCM1885C2A331JA16#
10pF
±5%
GCM1555C1H100JA16#
390pF
±5%
GCM1885C2A391JA16#
12pF
±5%
GCM1555C1H120JA16#
470pF
±5%
GCM1885C2A471JA16#
15pF
±5%
GCM1555C1H150JA16#
560pF
±5%
GCM1885C2A561JA16#
18pF
±5%
GCM1555C1H180JA16#
680pF
±5%
GCM1885C2A681JA16#
22pF
±5%
GCM1555C1H220JA16#
820pF
±5%
GCM1885C2A821JA16#
27pF
±5%
GCM1555C1H270JA16#
1000pF
±5%
GCM1885C2A102JA16#
33pF
±5%
GCM1555C1H330JA16#
1200pF
±5%
GCM1885C2A122JA16#
39pF
±5%
GCM1555C1H390JA16#
1500pF
±5%
GCM1885C2A152JA16#
47pF
±5%
GCM1555C1H470JA16#
56pF
±5%
68pF
±5%
82pF
Tol.
Part Number
GCE Series
GCG Series
c 1.0×0.5mm
Part Number
1.0pF
±0.25pF GCM1885C1H1R0CA16#
GCM1555C1H560JA16#
2.0pF
±0.25pF GCM1885C1H2R0CA16#
GCM1555C1H680JA16#
3.0pF
±0.25pF GCM1885C1H3R0CA16#
±5%
GCM1555C1H820JA16#
4.0pF
±0.25pF GCM1885C1H4R0CA16#
100pF
±5%
GCM1555C1H101JA16#
5.0pF
±0.25pF GCM1885C1H5R0CA16#
120pF
±5%
GCM1555C1H121JA16#
6.0pF
±0.5pF
GCM1885C1H6R0DA16#
150pF
±5%
GCM1555C1H151JA16#
7.0pF
±0.5pF
GCM1885C1H7R0DA16#
180pF
±5%
GCM1555C1H181JA16#
8.0pF
±0.5pF
GCM1885C1H8R0DA16#
50Vdc
C0G
GCJ Series
c 1.6×0.8mm
GC3 Series
Part Number
KCM Series
Tol.
GCM Series
T
max.
GCD Series
Ultracompact
Part Number List
Part number # indicates the package specification code.
17
KC3 Series
c 0.6×0.3mm
AECQ200
!Caution/Notice
GCM Series Temperature Compensating Type
May.17,2013
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
GCM Series Temperature Compensating Type
AECQ200
May.17,2013
Part Number List
(→ c 1.6×0.8mm)
Rated
Voltage
TC
Code
Cap.
Tol.
0.9mm
50Vdc
C0G
9.0pF
±0.5pF
GCM1885C1H9R0DA16#
10pF
±5%
GCM1885C1H100JA16#
12pF
±5%
GCM1885C1H120JA16#
15pF
±5%
GCM1885C1H150JA16#
18pF
±5%
22pF
27pF
GCM Series
T
max.
GCJ Series
GCD Series
GCE Series
GCG Series
GC3 Series
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
0.7mm
100Vdc
C0G
2200pF
±5%
GCM2165C2A222JA16#
2700pF
±5%
GCM2165C2A272JA16#
3300pF
±5%
GCM2165C2A332JA16#
1000pF
±5%
GCM2165C1H102JA16#
GCM1885C1H180JA16#
1200pF
±5%
GCM2165C1H122JA16#
±5%
GCM1885C1H220JA16#
1500pF
±5%
GCM2165C1H152JA16#
±5%
GCM1885C1H270JA16#
1800pF
±5%
GCM2165C1H182JA16#
33pF
±5%
GCM1885C1H330JA16#
2200pF
±5%
GCM2165C1H222JA16#
39pF
±5%
GCM1885C1H390JA16#
2700pF
±5%
GCM2165C1H272JA16#
47pF
±5%
GCM1885C1H470JA16#
3300pF
±5%
GCM2165C1H332JA16#
56pF
±5%
GCM1885C1H560JA16#
3900pF
±5%
GCM2165C1H392JA16#
68pF
±5%
GCM1885C1H680JA16#
4700pF
±5%
GCM2165C1H472JA16#
82pF
±5%
GCM1885C1H820JA16#
5600pF
±5%
GCM2195C1H562JA16#
100pF
±5%
GCM1885C1H101JA16#
6800pF
±5%
GCM2195C1H682JA16#
120pF
±5%
GCM1885C1H121JA16#
8200pF
±5%
GCM2195C1H822JA16#
150pF
±5%
GCM1885C1H151JA16#
10000pF
±5%
GCM2195C1H103JA16#
180pF
±5%
GCM1885C1H181JA16#
12000pF
±5%
GCM2195C1H123JA16#
220pF
±5%
GCM1885C1H221JA16#
15000pF
±5%
GCM2195C1H153JA16#
270pF
±5%
GCM1885C1H271JA16#
100pF
±5%
GCM21A7U2E101JX01D
330pF
±5%
GCM1885C1H331JA16#
120pF
±5%
GCM21A7U2E121JX01D
390pF
±5%
GCM1885C1H391JA16#
150pF
±5%
GCM21A7U2E151JX01D
470pF
±5%
GCM1885C1H471JA16#
180pF
±5%
GCM21A7U2E181JX01D
560pF
±5%
GCM1885C1H561JA16#
220pF
±5%
GCM21A7U2E221JX01D
680pF
±5%
GCM1885C1H681JA16#
270pF
±5%
GCM21A7U2E271JX01D
820pF
±5%
GCM1885C1H821JA16#
330pF
±5%
GCM21A7U2E331JX01D
1000pF
±5%
GCM1885C1H102JA16#
390pF
±5%
GCM21A7U2E391JX01D
1200pF
±5%
GCM1885C1H122JA16#
470pF
±5%
GCM21A7U2E471JX01D
1500pF
±5%
GCM1885C1H152JA16#
560pF
±5%
GCM21A7U2E561JX01D
1800pF
±5%
GCM1885C1H182JA16#
680pF
±5%
GCM21A7U2E681JX01D
2200pF
±5%
GCM1885C1H222JA16#
820pF
±5%
GCM21A7U2E821JX01D
2700pF
±5%
GCM1885C1H272JA16#
1000pF
±5%
GCM21A7U2E102JX01D
3300pF
±5%
GCM1885C1H332JA16#
1200pF
±5%
GCM21A7U2E122JX01D
3900pF
±5%
GCM1885C1H392JA16#
1500pF
±5%
GCM21A7U2E152JX01D
1800pF
±5%
GCM21A7U2E182JX01D
2200pF
±5%
GCM21A7U2E222JX01D
18000pF
±5%
GCM21B5C1H183JA16#
22000pF
±5%
GCM21B5C1H223JA16#
Part Number
c 2.0×1.25mm
50Vdc
0.95mm
1.0mm
1.4mm
50Vdc
250Vdc
50Vdc
C0G
C0G
U2J
C0G
Part Number
KCM Series
Rated
Voltage
TC
Code
Cap.
Tol.
2700pF
±5%
GCM21B7U2E272JX03L
0.7mm
100Vdc
C0G
100pF
±5%
GCM2165C2A101JA16#
3300pF
±5%
GCM21B7U2E332JX03L
120pF
±5%
GCM2165C2A121JA16#
3900pF
±5%
GCM21B7U2E392JX03L
150pF
±5%
GCM2165C2A151JA16#
4700pF
±5%
GCM21B7U2E472JX03L
180pF
±5%
GCM2165C2A181JA16#
5600pF
±5%
GCM21B7U2E562JX03L
220pF
±5%
GCM2165C2A221JA16#
270pF
±5%
GCM2165C2A271JA16#
330pF
±5%
GCM2165C2A331JA16#
390pF
±5%
GCM2165C2A391JA16#
470pF
±5%
GCM2165C2A471JA16#
560pF
±5%
GCM2165C2A561JA16#
680pF
±5%
GCM2165C2A681JA16#
820pF
±5%
1000pF
1200pF
KC3 Series
T
max.
Part Number
1.45mm 250Vdc
U2J
c 3.2×1.6mm
T
max.
!Caution/Notice
Rated
Voltage
TC
Code
Cap.
Tol.
0.95mm 100Vdc
C0G
1800pF
±5%
GCM3195C2A182JA16#
2200pF
±5%
GCM3195C2A222JA16#
GCM2165C2A821JA16#
2700pF
±5%
GCM3195C2A272JA16#
±5%
GCM2165C2A102JA16#
3300pF
±5%
GCM3195C2A332JA16#
±5%
GCM2165C2A122JA16#
3900pF
±5%
GCM3195C2A392JA16#
1500pF
±5%
GCM2165C2A152JA16#
4700pF
±5%
GCM3195C2A472JA16#
1800pF
±5%
GCM2165C2A182JA16#
5600pF
±5%
GCM3195C2A562JA16#
Part Number
Part number # indicates the package specification code.
18
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
GCM Series Temperature Compensating Type
AECQ200
May.17,2013
Part Number List
(→ c 3.2×1.6mm)
GCM3195C2A682JA16#
±5%
GCM3195C2A822JA16#
10000pF
±5%
3900pF
630Vdc
U2J
Tol.
1.0mm
630Vdc
U2J
390pF
±5%
GCM31A7U2J391JX01D
470pF
±5%
GCM31A7U2J471JX01D
GCM3195C2A103JA16#
560pF
±5%
GCM31A7U2J561JX01D
±5%
GCM3195C1H392JA16#
680pF
±5%
GCM31A7U2J681JX01D
4700pF
±5%
GCM3195C1H472JA16#
820pF
±5%
GCM31A7U2J821JX01D
5600pF
±5%
GCM3195C1H562JA16#
1000pF
±5%
GCM31A7U2J102JX01D
6800pF
±5%
GCM3195C1H682JA16#
1200pF
±5%
GCM31A7U2J122JX01D
8200pF
±5%
GCM3195C1H822JA16#
1500pF
±5%
GCM31A7U2J152JX01D
10000pF
±5%
GCM3195C1H103JA16#
1800pF
±5%
GCM31A7U2J182JX01D
12000pF
±5%
GCM3195C1H123JA16#
2200pF
±5%
GCM31A7U2J222JX01D
15000pF
±5%
GCM3195C1H153JA16#
2700pF
±5%
GCM31A7U2E272JX01D
18000pF
±5%
GCM3195C1H183JA16#
3300pF
±5%
GCM31A7U2E332JX01D
22000pF
±5%
GCM3195C1H223JA16#
3900pF
±5%
GCM31A7U2E392JX01D
27000pF
±5%
GCM3195C1H273JA16#
4700pF
±5%
GCM31A7U2E472JX01D
33000pF
±5%
GCM3195C1H333JA16#
5600pF
±5%
GCM31A7U2E562JX01D
39000pF
±5%
GCM3195C1H393JA16#
390pF
±5%
GCM31B7U3A391JX01L
10pF
±5%
GCM31A7U3A100JX01D
470pF
±5%
GCM31B7U3A471JX01L
12pF
±5%
GCM31A7U3A120JX01D
560pF
±5%
GCM31B7U3A561JX01L
15pF
±5%
GCM31A7U3A150JX01D
680pF
±5%
GCM31B7U3A681JX01L
18pF
±5%
GCM31A7U3A180JX01D
2700pF
±5%
GCM31B7U2J272JX01L
22pF
±5%
GCM31A7U3A220JX01D
3300pF
±5%
GCM31B7U2J332JX01L
27pF
±5%
GCM31A7U3A270JX01D
6800pF
±5%
GCM31B7U2E682JX01L
33pF
±5%
GCM31A7U3A330JX01D
8200pF
±5%
GCM31B7U2E822JX01L
39pF
±5%
GCM31A7U3A390JX01D
10000pF
±5%
GCM31B7U2E103JX01L
47pF
±5%
GCM31A7U3A470JX01D
47000pF
±5%
GCM31M5C1H473JA16#
56pF
±5%
GCM31A7U3A560JX01D
56000pF
±5%
GCM31M5C1H563JA16#
68pF
±5%
GCM31A7U3A680JX01D
82pF
±5%
GCM31A7U3A820JX01D
100pF
±5%
GCM31A7U3A101JX01D
120pF
±5%
GCM31A7U3A121JX01D
150pF
±5%
GCM31A7U3A151JX01D
180pF
±5%
GCM31A7U3A181JX01D
220pF
±5%
GCM31A7U3A221JX01D
270pF
±5%
GCM31A7U3A271JX01D
330pF
±5%
GCM31A7U3A331JX01D
T
max.
Rated
Voltage
10pF
±5%
GCM31A7U2J100JX01D
1.0mm
630Vdc
12pF
±5%
GCM31A7U2J120JX01D
15pF
±5%
18pF
±5%
22pF
±5%
GCM31A7U2J220JX01D
1.25mm 1000Vdc
27pF
±5%
GCM31A7U2J270JX01D
33pF
±5%
GCM31A7U2J330JX01D
39pF
±5%
47pF
±5%
56pF
±5%
GCM31A7U2J560JX01D
68pF
±5%
GCM31A7U2J680JX01D
82pF
±5%
GCM31A7U2J820JX01D
100pF
±5%
GCM31A7U2J101JX01D
120pF
±5%
GCM31A7U2J121JX01D
150pF
±5%
GCM31A7U2J151JX01D
250Vdc
1.25mm 1000Vdc
630Vdc
250Vdc
50Vdc
U2J
U2J
U2J
U2J
C0G
Part Number
820pF
±5%
GCM31C7U3A821JX03L
1000pF
±5%
GCM31C7U3A102JX03L
3900pF
±5%
GCM31C7U2J392JX03L
4700pF
±5%
GCM31C7U2J472JX03L
TC
Code
Cap.
Tol.
U2J
1200pF
±5%
GCM32A7U2J122JX01D
1500pF
±5%
GCM32A7U2J152JX01D
GCM31A7U2J150JX01D
1800pF
±5%
GCM32A7U2J182JX01D
GCM31A7U2J180JX01D
2200pF
±5%
GCM32A7U2J222JX01D
U2J
1200pF
±5%
GCM32B7U3A122JX01L
630Vdc
U2J
5600pF
±5%
GCM32B7U2J562JX01L
1.5mm 1000Vdc
U2J
1500pF
±5%
GCM32Q7U3A152JX01L
GCM31A7U2J390JX01D
630Vdc
U2J
6800pF
±5%
GCM32Q7U2J682JX01L
GCM31A7U2J470JX01D
2.0mm 1000Vdc
U2J
1800pF
±5%
GCM32D7U3A182JX01L
2200pF
±5%
GCM32D7U3A222JX01L
8200pF
±5%
GCM32D7U2J822JX01L
10000pF
±5%
GCM32D7U2J103JX01L
TC
Code
Cap.
Tol.
U2J
2700pF
±5%
GCM43Q7U3A272JX01L
3300pF
±5%
GCM43Q7U3A332JX01L
180pF
±5%
GCM31A7U2J181JX01D
220pF
±5%
GCM31A7U2J221JX01D
270pF
±5%
GCM31A7U2J271JX01D
330pF
±5%
GCM31A7U2J331JX01D
1.8mm 1000Vdc
630Vdc
U2J
U2J
GCM Series
±5%
8200pF
U2J
Cap.
GCJ Series
6800pF
1.0mm 1000Vdc
TC
Code
GCD Series
C0G
C0G
Rated
Voltage
GCE Series
0.95mm 100Vdc
50Vdc
T
max.
Part Number
c 3.2×2.5mm
630Vdc
U2J
Part Number
c 4.5×3.2mm
T
max.
Rated
Voltage
1.5mm 1000Vdc
GCG Series
Tol.
GC3 Series
Cap.
KCM Series
TC
Code
KC3 Series
Rated
Voltage
!Caution/Notice
T
max.
Part Number
Part number # indicates the package specification code.
19
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
GCM Series Temperature Compensating Type
AECQ200
C03E.pdf
May.17,2013
Part Number List
(→ c 4.5×3.2mm)
GCM Series
GCJ Series
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
1.5mm
630Vdc
U2J
12000pF
±5%
GCM43Q7U2J123JX01L
2.0mm 1000Vdc
U2J
3900pF
±5%
GCM43D7U3A392JX01L
4700pF
±5%
GCM43D7U3A472JX01L
15000pF
±5%
GCM43D7U2J153JX01L
18000pF
±5%
GCM43D7U2J183JX01L
22000pF
±5%
GCM43D7U2J223JX01L
TC
Code
Cap.
Tol.
U2J
5600pF
±5%
GCM55Q7U3A562JX01L
6800pF
±5%
GCM55Q7U3A682JX01L
630Vdc
U2J
Part Number
c 5.7×5.0mm
T
max.
Rated
Voltage
1.5mm 1000Vdc
Part Number
GCD Series
630Vdc
U2J
27000pF
±5%
GCM55Q7U2J273JX01L
2.0mm 1000Vdc
U2J
8200pF
±5%
GCM55D7U3A822JX01L
10000pF
±5%
GCM55D7U3A103JX01L
33000pF
±5%
GCM55D7U2J333JX01L
39000pF
±5%
GCM55D7U2J393JX01L
47000pF
±5%
GCM55D7U2J473JX01L
630Vdc
U2J
GCE Series
GCG Series
GC3 Series
KCM Series
KC3 Series
!Caution/Notice
Part number # indicates the package specification code.
20
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
GCM Series High Dielectric Constant Type
c 1.6×0.8mm
Cap.
Tol.
100pF
±10%
GCM033R71E101KA03#
150pF
±10%
GCM033R71E151KA03#
0.9mm
100Vdc
X7R
1000pF
±10%
GCM188R72A102KA37#
1500pF
±10%
220pF
±10%
GCM188R72A152KA37#
GCM033R71E221KA03#
2200pF
±10%
GCM188R72A222KA37#
330pF
470pF
±10%
GCM033R71E331KA03#
3300pF
±10%
GCM188R72A332KA37#
±10%
GCM033R71E471KA03#
4700pF
±10%
GCM188R72A472KA37#
680pF
±10%
GCM033R71E681KA03#
6800pF
±10%
GCM188R72A682KA37#
1000pF
±10%
GCM033R71E102KA03#
10000pF
±10%
GCM188R72A103KA37#
1500pF
±10%
GCM033R71E152KA03#
15000pF
±10%
GCM188R72A153KA37#
2200pF
±10%
GCM033R71C222KA55#
22000pF
±10%
GCM188R72A223KA37#
3300pF
±10%
GCM033R71C332KA55#
0.10µF
±10%
GCM188R72A104KA64#
4700pF
±10%
GCM033R71A472KA03#
1000pF
±10%
GCM188R71H102KA37#
6800pF
±10%
GCM033R71A682KA03#
1500pF
±10%
GCM188R71H152KA37#
10000pF
±10%
GCM033R71A103KA03#
2200pF
±10%
GCM188R71H222KA37#
3300pF
±10%
GCM188R71H332KA37#
4700pF
±10%
GCM188R71H472KA37#
6800pF
±10%
GCM188R71H682KA37#
10000pF
±10%
GCM188R71H103KA37#
15000pF
±10%
GCM188R71H153KA37#
50Vdc
X7R
c 1.0×0.5mm
T
max.
Part Number
Rated
Voltage
TC
Code
Cap.
0.55mm 100Vdc
X7R
220pF
±10%
GCM155R72A221KA37#
22000pF
±10%
GCM188R71H223KA37#
330pF
±10%
GCM155R72A331KA37#
33000pF
±10%
GCM188R71H333KA55#
470pF
±10%
GCM155R72A471KA37#
47000pF
±10%
GCM188R71H473KA55#
680pF
±10%
GCM155R72A681KA37#
68000pF
±10%
GCM188R71H683KA57#
1000pF
±10%
GCM155R72A102KA37#
0.10µF
±10%
GCM188R71H104KA57#
1500pF
±10%
GCM155R72A152KA37#
0.15µF
±10%
GCM188R71H154KA64#
2200pF
±10%
GCM155R72A222KA37#
3300pF
±10%
GCM155R72A332KA37#
4700pF
±10%
220pF
50Vdc
25Vdc
16Vdc
X7R
X7R
X7R
Tol.
Part Number
0.22µF
±10%
GCM188R71H224KA64#
33000pF
±10%
GCM188R71E333KA37#
GCM155R72A472KA37#
47000pF
±10%
GCM188R71E473KA37#
±10%
GCM155R71H221KA37#
68000pF
±10%
GCM188R71E683KA57#
330pF
±10%
GCM155R71H331KA37#
0.10µF
±10%
GCM188R71E104KA57#
470pF
±10%
GCM155R71H471KA37#
0.15µF
±10%
GCM188R71E154KA37#
680pF
±10%
GCM155R71H681KA37#
0.22µF
±10%
GCM188R71E224KA55#
1000pF
±10%
GCM155R71H102KA37#
0.47µF
±10%
GCM188R71E474KA64#
1500pF
±10%
GCM155R71H152KA37#
1.0µF
±10%
GCM188R71E105KA64#
2200pF
±10%
GCM155R71H222KA37#
0.10µF
±10%
GCM188R71C104KA37#
3300pF
±10%
GCM155R71H332KA37#
0.33µF
±10%
GCM188R71C334KA37#
4700pF
±10%
GCM155R71H472KA37#
0.47µF
±10%
GCM188R71C474KA55#
6800pF
±10%
GCM155R71H682KA55#
1.0µF
±10%
GCM188R71C105KA64#
10000pF
±10%
GCM155R71H103KA55#
2.2µF
±10%
GCM188R70J225KE22#
15000pF
±10%
GCM155R71H153KA55#
22000pF
±10%
GCM155R71H223KA55#
10000pF
±10%
GCM155R71E103KA37#
15000pF
±10%
GCM155R71E153KA55#
GCM155R71E223KA55#
Rated
Voltage
TC
Code
Tol.
±10%
T
max.
Cap.
22000pF
33000pF
±10%
GCM155R71E333KA55#
0.7mm
100Vdc
X7R
6800pF
±10%
GCM216R72A682KA37#
47000pF
±10%
GCM155R71E473KA55#
10000pF
±10%
GCM216R72A103KA37#
33000pF
±10%
GCM155R71C333KA37#
15000pF
±10%
GCM216R72A153KA37#
47000pF
±10%
GCM155R71C473KA37#
22000pF
±10%
GCM216R72A223KA37#
68000pF
±10%
GCM155R71C683KA55#
0.95mm 100Vdc
X7R
33000pF
±10%
GCM219R72A333KA37#
0.10µF
±10%
GCM155R71C104KA55#
50Vdc
X7R
33000pF
±10%
GCM219R71H333KA37#
0.33µF
±10%
GCM219R71H334KA55#
0.47µF
±10%
GCM219R71E474KA55#
0.68µF
±10%
GCM219R71C684KA37#
25Vdc
16Vdc
6.3Vdc
X7R
X7R
X7R
GCM Series
X7R
X7R
TC
Code
GCJ Series
25Vdc
10Vdc
Rated
Voltage
GCD Series
0.33mm
X7R
T
max.
Part Number
GCE Series
Tol.
GCG Series
Cap.
GC3 Series
TC
Code
KCM Series
Rated
Voltage
c 2.0×1.25mm
25Vdc
X7R
16Vdc
X7R
KC3 Series
Ultracompact
T
max.
16Vdc
Part Number List
Part Number
!Caution/Notice
c 0.6×0.3mm
AECQ200
May.17,2013
Part number # indicates the package specification code.
21
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
GCM Series High Dielectric Constant Type
AECQ200
May.17,2013
Part Number List
(→ c 2.0×1.25mm)
T
max.
GCM Series
Rated
Voltage
TC
Code
0.95mm
16Vdc
1.4mm
100Vdc
50Vdc
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
2.7mm
50Vdc
X7R
1.0µF
±10%
GCM32ER71H105KA37#
4.7µF
±10%
GCM32ER71H475KA55#
X7S
10µF
±10%
GCM32EC71H106KA03#
35Vdc
X7S
10µF
±10%
GCM32EC7YA106KA03#
GCM21BR71H473KA37#
25Vdc
X7R
10µF
±10%
GCM32ER71E106KA57#
±10%
GCM21BR71H683KA37#
16Vdc
X7R
22µF
±20%
GCM32ER71C226ME19#
±10%
GCM21BR71H104KA37#
10Vdc
X7R
22µF
±20%
GCM32ER71A226ME12#
0.15µF
±10%
GCM21BR71H154KA37#
6.3Vdc
X7R
47µF
±20%
GCM32ER70J476ME19#
0.22µF
±10%
GCM21BR71H224KA37#
0.47µF
±10%
GCM21BR71H474KA55#
Cap.
Tol.
X7R
1.0µF
±10%
GCM219R71C105KA37#
X7R
47000pF
±10%
GCM21BR72A473KA37#
68000pF
±10%
GCM21BR72A683KA37#
0.10µF
±10%
GCM21BR72A104KA37#
47000pF
±10%
68000pF
0.10µF
X7R
Part Number
GCJ Series
1.0µF
±10%
GCM21BR71H105KA03#
0.68µF
±10%
GCM21BR7YA684KA55#
1.0µF
±10%
GCM21BR7YA105KA55#
0.15µF
±10%
GCM21BR71E154KA37#
0.22µF
±10%
GCM21BR71E224KA37#
0.33µF
±10%
GCM21BR71E334KA37#
0.68µF
±10%
GCM21BR71E684KA55#
1.0µF
±10%
GCM21BR71E105KA56#
2.2µF
±10%
GCM21BR71E225KA73#
2.2µF
±10%
GCM21BR71C225KA64#
4.7µF
±10%
GCM21BR71C475KA73#
2.2µF
±10%
GCM21BR71A225KA37#
10µF
±10%
GCM21BR71A106KE22#
X7S
4.7µF
±10%
GCM21BC71A475KA73#
X7R
10µF
±10%
GCM21BR70J106KE22#
Rated
Voltage
TC
Code
Cap.
Tol.
0.95mm 100Vdc
X7R
0.10µF
±10%
GCM319R72A104KA37#
1.25mm 100Vdc
X7R
0.15µF
±10%
GCM31MR72A154KA37#
0.22µF
±10%
GCM31MR72A224KA37#
0.33µF
±10%
GCM31MR71H334KA37#
0.47µF
±10%
GCM31MR71H474KA37#
0.68µF
±10%
GCM31MR71H684KA55#
1.0µF
±10%
GCM31MR71H105KA55#
35Vdc
GCD Series
25Vdc
GCE Series
16Vdc
10Vdc
6.3Vdc
X7R
X7R
X7R
X7R
Part Number
GCG Series
c 3.2×1.6mm
T
max.
GC3 Series
50Vdc
X7R
Part Number
KCM Series
KC3 Series
1.3mm
25Vdc
X7R
2.2µF
±10%
GCM31MR71E225KA57#
1.8mm
50Vdc
X7R
2.2µF
±10%
GCM31CR71H225KA55#
X7S
4.7µF
±10%
GCM31CC71H475KA03#
25Vdc
X7R
4.7µF
±10%
GCM31CR71E475KA55#
16Vdc
X7R
4.7µF
±10%
GCM31CR71C475KA37#
10µF
±10%
GCM31CR71C106KA64#
10Vdc
X7R
10µF
±10%
GCM31CR71A106KA64#
6.3Vdc
X7R
22µF
±20%
GCM31CR70J226ME23#
25Vdc
X7S
10µF
±10%
GCM31CC71E106KA03#
TC
Code
Cap.
Tol.
1.9mm
c 3.2×2.5mm
!Caution/Notice
T
max.
Rated
Voltage
2.2mm
100Vdc
X7R
2.2µF
±10%
GCM32DR72A225KA64#
25Vdc
X7R
4.7µF
±10%
GCM32DR71E475KA55#
16Vdc
X7R
10µF
±10%
GCM32DR71C106KA37#
Part Number
Part number # indicates the package specification code.
22
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
C03E.pdf
May.17,2013
Resin External Electrode Product
GCJ Series
AECQ200
Fail
safe
Deflecting
crack
GCM Series
The resin external electrodes prevent the occurrence of cracking caused by
deflection stress after board mounting!
Features
The resin external electrodes suppress cracks by board deflection.
GCJ Series
1
Cracking of the ceramic element is suppressed by the resin of the external electrodes, which releases the stress.
Internal Electrodes
Resin Electrodes Layer
oFor Automobiles (GCM Series)
Occurrence of cracking on
edge of terminal electrode
Foundation Electrode Layer Ni/Sn Plated Layer
Resin electrodes relieve the stress
Conductive resin layer relieves
the mechanical stress of the ceramic
GCE Series
oResin External Electrode Type (GCJ Series)
<Example of Structure>
Separated foundation
electrode and resin electrode
Suppresses the occurrence of cracking caused by deflection stress at the time of board mounting,
etc.
GCG Series
2
GCD Series
Ceramic
GCJ/1608 (in mm)/0603 (in inch)
GCM/1608 (in mm)/0603 (in inch)
80
60
GC3 Series
Residual Ratio (%)
100
40
20
0
2
4
6
Deflection Amount (mm)
8
KCM Series
0
Due to the specification of the measuring instrument, measurements can be performed up to 8mm.
3
Ideal for automobiles.
KC3 Series
This AEC-Q200 conforming product is ideal for the ECU, control circuits of headlights, etc. of automobiles.
Specifications
e
Rated Voltage
Capacitance
g
DC10 to 1kV
T
220pF to 10μF
L
Main Applications
e
1.6×0.8mm to 5.7×5.0mm
Battery lines and power trains for automobiles
!Caution/Notice
Size
W
<Dimensions>
23
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
GCJ Series High Dielectric Constant Type
c 1.6×0.8mm
Rated
Voltage
TC
Code
0.9mm
25Vdc
X7R
Cap.
Tol.
Part Number
GCM Series
GCJ188R71E822KA01#
±10%
GCJ188R71E103KA01#
GCJ188R72A102KA01#
12000pF
±10%
GCJ188R71E123KA01#
±10%
GCJ188R72A122KA01#
15000pF
±10%
GCJ188R71E153KA01#
1500pF
±10%
GCJ188R72A152KA01#
18000pF
±10%
GCJ188R71E183KA01#
1800pF
±10%
GCJ188R72A182KA01#
22000pF
±10%
GCJ188R71E223KA01#
2200pF
±10%
GCJ188R72A222KA01#
27000pF
±10%
GCJ188R71E273KA01#
2700pF
±10%
GCJ188R72A272KA01#
33000pF
±10%
GCJ188R71E333KA01#
3300pF
±10%
GCJ188R72A332KA01#
39000pF
±10%
GCJ188R71E393KA01#
3900pF
±10%
GCJ188R72A392KA01#
47000pF
±10%
GCJ188R71E473KA01#
4700pF
±10%
GCJ188R72A472KA01#
56000pF
±10%
GCJ188R71E563KA12#
5600pF
±10%
GCJ188R72A562KA01#
68000pF
±10%
GCJ188R71E683KA12#
6800pF
±10%
GCJ188R72A682KA01#
82000pF
±10%
GCJ188R71E823KA12#
8200pF
±10%
GCJ188R72A822KA01#
0.10µF
±10%
GCJ188R71E104KA12#
10000pF
±10%
GCJ188R72A103KA01#
0.12µF
±10%
GCJ188R71E124KA01#
12000pF
±10%
GCJ188R72A123KA01#
0.15µF
±10%
GCJ188R71E154KA01#
15000pF
±10%
GCJ188R72A153KA01#
0.18µF
±10%
GCJ188R71E184KA12#
18000pF
±10%
GCJ188R72A183KA01#
0.22µF
±10%
GCJ188R71E224KA12#
22000pF
±10%
GCJ188R72A223KA01#
10000pF
±10%
GCJ188R71C103KA01#
1000pF
±10%
GCJ188R71H102KA01#
27000pF
±10%
GCJ188R71C273KA01#
1200pF
±10%
GCJ188R71H122KA01#
33000pF
±10%
GCJ188R71C333KA01#
1500pF
±10%
GCJ188R71H152KA01#
39000pF
±10%
GCJ188R71C393KA01#
1800pF
±10%
GCJ188R71H182KA01#
47000pF
±10%
GCJ188R71C473KA01#
2200pF
±10%
GCJ188R71H222KA01#
56000pF
±10%
GCJ188R71C563KA01#
2700pF
±10%
GCJ188R71H272KA01#
68000pF
±10%
GCJ188R71C683KA01#
3300pF
±10%
GCJ188R71H332KA01#
82000pF
±10%
GCJ188R71C823KA01#
3900pF
±10%
GCJ188R71H392KA01#
0.10µF
±10%
GCJ188R71C104KA01#
4700pF
±10%
GCJ188R71H472KA01#
0.12µF
±10%
GCJ188R71C124KA01#
5600pF
±10%
GCJ188R71H562KA01#
0.15µF
±10%
GCJ188R71C154KA01#
6800pF
±10%
GCJ188R71H682KA01#
0.18µF
±10%
GCJ188R71C184KA01#
8200pF
±10%
GCJ188R71H822KA01#
0.22µF
±10%
GCJ188R71C224KA01#
10000pF
±10%
GCJ188R71H103KA01#
0.27µF
±10%
GCJ188R71C274KA01#
12000pF
±10%
GCJ188R71H123KA01#
0.33µF
±10%
GCJ188R71C334KA01#
15000pF
±10%
GCJ188R71H153KA01#
0.39µF
±10%
GCJ188R71C394KA12#
18000pF
±10%
GCJ188R71H183KA01#
0.47µF
±10%
GCJ188R71C474KA12#
22000pF
±10%
GCJ188R71H223KA01#
0.12µF
±10%
GCJ188R71A124KA01#
33000pF
±10%
GCJ188R71H333KA12#
0.15µF
±10%
GCJ188R71A154KA01#
39000pF
±10%
GCJ188R71H393KA12#
0.18µF
±10%
GCJ188R71A184KA01#
47000pF
±10%
GCJ188R71H473KA12#
0.22µF
±10%
GCJ188R71A224KA01#
56000pF
±10%
GCJ188R71H563KA12#
68000pF
±10%
GCJ188R71H683KA12#
82000pF
±10%
GCJ188R71H823KA12#
Cap.
0.9mm
100Vdc
X7R
1000pF
±10%
1200pF
GCJ Series
GCD Series
GCE Series
GCG Series
GC3 Series
KCM Series
KC3 Series
X7R
T
max.
Part Number List
±10%
TC
Code
25Vdc
Deflecting
crack
8200pF
Rated
Voltage
X7R
Fail
safe
10000pF
T
max.
50Vdc
AECQ200
May.17,2013
Tol.
Part Number
16Vdc
10Vdc
X7R
X7R
c 2.0×1.25mm
!Caution/Notice
0.10µF
±10%
GCJ188R71H104KA12#
GCJ188R71E102KA01#
Rated
Voltage
TC
Code
Tol.
±10%
T
max.
Cap.
1000pF
1200pF
±10%
GCJ188R71E122KA01#
0.7mm
100Vdc
X7R
1000pF
±10%
GCJ216R72A102KA01#
1500pF
±10%
GCJ188R71E152KA01#
1200pF
±10%
GCJ216R72A122KA01#
1800pF
±10%
GCJ188R71E182KA01#
1500pF
±10%
GCJ216R72A152KA01#
2200pF
±10%
GCJ188R71E222KA01#
1800pF
±10%
GCJ216R72A182KA01#
2700pF
±10%
GCJ188R71E272KA01#
2200pF
±10%
GCJ216R72A222KA01#
3300pF
±10%
GCJ188R71E332KA01#
2700pF
±10%
GCJ216R72A272KA01#
3900pF
±10%
GCJ188R71E392KA01#
3300pF
±10%
GCJ216R72A332KA01#
4700pF
±10%
GCJ188R71E472KA01#
3900pF
±10%
GCJ216R72A392KA01#
5600pF
±10%
GCJ188R71E562KA01#
4700pF
±10%
GCJ216R72A472KA01#
6800pF
±10%
GCJ188R71E682KA01#
5600pF
±10%
GCJ216R72A562KA01#
Part Number
Part number # indicates the package specification code.
24
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
GCJ Series High Dielectric Constant Type
AECQ200
Fail
safe
Deflecting
crack
May.17,2013
Part Number List
(→ c 2.0×1.25mm)
±10%
GCJ216R72A682KA01#
8200pF
±10%
GCJ216R72A822KA01#
10000pF
±10%
12000pF
0.95mm 100Vdc
X7R
X7R
Tol.
0.95mm 100Vdc
X7R
680pF
±10%
GCJ219R72A681KA01#
820pF
±10%
GCJ219R72A821KA01#
GCJ216R72A103KA01#
27000pF
±10%
GCJ219R72A273KA01#
±10%
GCJ216R72A123KA01#
33000pF
±10%
GCJ219R72A333KA01#
15000pF
±10%
GCJ216R72A153KA01#
39000pF
±10%
GCJ219R72A393KA01#
18000pF
±10%
GCJ216R72A183KA01#
27000pF
±10%
GCJ219R71H273KA01#
22000pF
±10%
GCJ216R72A223KA01#
33000pF
±10%
GCJ219R71H333KA01#
330pF
±10%
GCJ216R71H331KA01#
39000pF
±10%
GCJ219R71H393KA01#
390pF
±10%
GCJ216R71H391KA01#
0.33µF
±10%
GCJ219R71H334KA12#
470pF
±10%
GCJ216R71H471KA01#
15000pF
±10%
GCJ219R71E153KA01#
560pF
±10%
GCJ216R71H561KA01#
18000pF
±10%
GCJ219R71E183KA01#
680pF
±10%
GCJ216R71H681KA01#
22000pF
±10%
GCJ219R71E223KA01#
820pF
±10%
GCJ216R71H821KA01#
0.33µF
±10%
GCJ219R71E334KA01#
1000pF
±10%
GCJ216R71H102KA01#
0.47µF
±10%
GCJ219R71E474KA12#
1200pF
±10%
GCJ216R71H122KA01#
0.68µF
±10%
GCJ219R71C684KA01#
1500pF
±10%
GCJ216R71H152KA01#
0.82µF
±10%
GCJ219R71C824KA01#
1800pF
±10%
GCJ216R71H182KA01#
2200pF
±10%
GCJ216R71H222KA01#
2700pF
±10%
3300pF
50Vdc
25Vdc
16Vdc
X7R
X7R
X7R
Part Number
1.0µF
±10%
GCJ219R71C105KA01#
1000pF
±10%
GCJ21AR72E102KXJ1D
GCJ216R71H272KA01#
1500pF
±10%
GCJ21AR72E152KXJ1D
±10%
GCJ216R71H332KA01#
2200pF
±10%
GCJ21AR72E222KXJ1D
3900pF
±10%
GCJ216R71H392KA01#
3300pF
±10%
GCJ21AR72E332KXJ1D
4700pF
±10%
GCJ216R71H472KA01#
4700pF
±10%
GCJ21AR72E472KXJ1D
5600pF
±10%
GCJ216R71H562KA01#
6800pF
±10%
GCJ21AR72E682KXJ1D
6800pF
±10%
GCJ216R71H682KA01#
10000pF
±10%
GCJ21BR72E103KXJ3L
8200pF
±10%
GCJ216R71H822KA01#
15000pF
±10%
GCJ21BR72E153KXJ3L
10000pF
±10%
GCJ216R71H103KA01#
22000pF
±10%
GCJ21BR72E223KXJ3L
12000pF
±10%
GCJ216R71H123KA01#
47000pF
±10%
GCJ21BR72A473KA01#
15000pF
±10%
GCJ216R71H153KA01#
56000pF
±10%
GCJ21BR72A563KA01#
18000pF
±10%
GCJ216R71H183KA01#
68000pF
±10%
GCJ21BR72A683KA01#
22000pF
±10%
GCJ216R71H223KA01#
82000pF
±10%
GCJ21BR72A823KA01#
470pF
±10%
GCJ216R71E471KA01#
0.10µF
±10%
GCJ21BR72A104KA01#
560pF
±10%
GCJ216R71E561KA01#
47000pF
±10%
GCJ21BR71H473KA01#
680pF
±10%
GCJ216R71E681KA01#
56000pF
±10%
GCJ21BR71H563KA01#
820pF
±10%
GCJ216R71E821KA01#
68000pF
±10%
GCJ21BR71H683KA01#
1000pF
±10%
GCJ216R71E102KA01#
82000pF
±10%
GCJ21BR71H823KA01#
1200pF
±10%
GCJ216R71E122KA01#
0.10µF
±10%
GCJ21BR71H104KA01#
1500pF
±10%
GCJ216R71E152KA01#
0.12µF
±10%
GCJ21BR71H124KA01#
1800pF
±10%
GCJ216R71E182KA01#
0.15µF
±10%
GCJ21BR71H154KA01#
2200pF
±10%
GCJ216R71E222KA01#
0.18µF
±10%
GCJ21BR71H184KA01#
2700pF
±10%
GCJ216R71E272KA01#
0.22µF
±10%
GCJ21BR71H224KA01#
3300pF
±10%
GCJ216R71E332KA01#
0.47µF
±10%
GCJ21BR71H474KA12#
3900pF
±10%
GCJ216R71E392KA01#
27000pF
±10%
GCJ21BR71E273KA01#
4700pF
±10%
GCJ216R71E472KA01#
33000pF
±10%
GCJ21BR71E333KA01#
5600pF
±10%
GCJ216R71E562KA01#
39000pF
±10%
GCJ21BR71E393KA01#
6800pF
±10%
GCJ216R71E682KA01#
47000pF
±10%
GCJ21BR71E473KA01#
8200pF
±10%
GCJ216R71E822KA01#
56000pF
±10%
GCJ21BR71E563KA01#
10000pF
±10%
GCJ216R71E103KA01#
68000pF
±10%
GCJ21BR71E683KA01#
12000pF
±10%
GCJ216R71E123KA01#
82000pF
±10%
GCJ21BR71E823KA01#
220pF
±10%
GCJ219R72A221KA01#
0.10µF
±10%
GCJ21BR71E104KA01#
270pF
±10%
GCJ219R72A271KA01#
0.27µF
±10%
GCJ21BR71E274KA01#
330pF
±10%
GCJ219R72A331KA01#
0.39µF
±10%
GCJ21BR71E394KA01#
390pF
±10%
GCJ219R72A391KA01#
0.56µF
±10%
GCJ21BR71E564KA12#
470pF
±10%
GCJ219R72A471KA01#
0.68µF
±10%
GCJ21BR71E684KA12#
560pF
±10%
GCJ219R72A561KA01#
0.82µF
±10%
GCJ21BR71E824KA12#
1.0mm
250Vdc
1.45mm 250Vdc
100Vdc
50Vdc
25Vdc
X7R
X7R
X7R
X7R
X7R
GCM Series
6800pF
25Vdc
Cap.
GCJ Series
X7R
X7R
TC
Code
GCD Series
100Vdc
T
max.
GCE Series
0.7mm
50Vdc
Rated
Voltage
Part Number
GCG Series
Tol.
GC3 Series
Cap.
KCM Series
TC
Code
KC3 Series
Rated
Voltage
!Caution/Notice
T
max.
Part number # indicates the package specification code.
25
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
GCJ Series High Dielectric Constant Type
AECQ200
Fail
safe
Deflecting
crack
May.17,2013
Part Number List
(→ c 2.0×1.25mm)
T
max.
1.45mm
Rated
Voltage
TC
Code
Cap.
Tol.
Part Number
GCM Series
GCJ Series
25Vdc
X7R
1.0µF
±10%
GCJ21BR71E105KA12#
16Vdc
X7R
0.27µF
±10%
GCJ21BR71C274KA01#
0.33µF
±10%
GCJ21BR71C334KA01#
0.39µF
±10%
GCJ21BR71C394KA01#
0.47µF
±10%
GCJ21BR71C474KA01#
0.56µF
±10%
GCJ21BR71C564KA01#
1.0µF
±10%
GCJ21BR71C105KA01#
2.2µF
±10%
GCJ21BR71C225KA13#
2.2µF
±10%
GCJ21BR71A225KA01#
10Vdc
X7R
1.35mm
Rated
Voltage
TC
Code
Cap.
Tol.
Part Number
25Vdc
X7R
3.3µF
±10%
GCJ31MR71E335KA12#
16Vdc
X7R
1.0µF
±10%
GCJ31MR71C105KA01#
1.5µF
±10%
GCJ31MR71C155KA01#
6800pF
±10%
GCJ31CR73A682KXJ3L
10000pF
±10%
GCJ31CR73A103KXJ3L
15000pF
±10%
GCJ31CR72J153KXJ3L
22000pF
±10%
GCJ31CR72J223KXJ3L
33000pF
±10%
GCJ31CR72E333KXJ3L
47000pF
±10%
GCJ31CR72E473KXJ3L
0.10µF
±10%
GCJ31CR72E104KXJ3L
1.5µF
±10%
GCJ31CR71H155KA12#
2.2µF
±10%
GCJ31CR71H225KA12#
1.8mm 1000Vdc
630Vdc
250Vdc
1.9mm
c 3.2×1.6mm
GCD Series
T
max.
T
max.
50Vdc
X7R
X7R
X7R
X7R
25Vdc
X7R
4.7µF
±10%
GCJ31CR71E475KA12#
16Vdc
X7R
3.3µF
±10%
GCJ31CR71C335KA01#
Rated
Voltage
TC
Code
Cap.
0.95mm 100Vdc
X7R
0.10µF
±10%
GCJ319R72A104KA01#
4.7µF
±10%
GCJ31CR71C475KA01#
50Vdc
X7R
0.10µF
±10%
GCJ319R71H104KA01#
10µF
±10%
GCJ31CR71C106KA15#
0.12µF
±10%
GCJ319R71H124KA01#
6.8µF
±10%
GCJ31CR71A685KA13#
X7R
1000pF
±10%
GCJ31BR73A102KXJ1L
10µF
±10%
GCJ31CR71A106KA13#
1500pF
±10%
GCJ31BR73A152KXJ1L
X7R
22µF
±10%
GCJ31CR70J226KE01#
2200pF
±10%
GCJ31BR73A222KXJ1L
3300pF
±10%
GCJ31BR73A332KXJ1L
4700pF
±10%
GCJ31BR73A472KXJ1L
1000pF
±10%
GCJ31BR72J102KXJ1L
GCJ31BR72J152KXJ1L
Rated
Voltage
TC
Code
Tol.
±10%
T
max.
Cap.
1500pF
2200pF
±10%
GCJ31BR72J222KXJ1L
1.5mm
630Vdc
X7R
3300pF
±10%
GCJ31BR72J332KXJ1L
4700pF
±10%
GCJ31BR72J472KXJ1L
6800pF
±10%
GCJ31BR72J682KXJ1L
10000pF
±10%
GCJ31BR72J103KXJ1L
15000pF
±10%
GCJ31BR72E153KXJ1L
22000pF
±10%
GCJ31BR72E223KXJ1L
68000pF
±10%
0.15µF
±10%
0.18µF
1.25mm 1000Vdc
GCE Series
630Vdc
X7R
GCG Series
250Vdc
GC3 Series
1.35mm 100Vdc
50Vdc
X7R
X7R
X7R
KCM Series
KC3 Series
25Vdc
X7R
Tol.
Part Number
10Vdc
6.3Vdc
X7R
c 3.2×2.5mm
Part Number
!Caution/Notice
6800pF
±10%
GCJ32QR72J682KXJ1L
10000pF
±10%
GCJ32QR72J103KXJ1L
68000pF
±10%
GCJ32QR72E683KXJ1L
0.15µF
±10%
GCJ32QR72E154KXJ1L
15000pF
±10%
GCJ32DR73A153KXJ1L
22000pF
±10%
GCJ32DR73A223KXJ1L
15000pF
±10%
GCJ32DR72J153KXJ1L
GCJ31BR72E683KXJ1L
22000pF
±10%
GCJ32DR72J223KXJ1L
GCJ31MR72A154KA01#
33000pF
±10%
GCJ32DR72J333KXJ1L
±10%
GCJ31MR72A184KA01#
47000pF
±10%
GCJ32DR72J473KXJ1L
0.22µF
±10%
GCJ31MR72A224KA01#
0.10µF
±10%
GCJ32DR72E104KXJ1L
0.15µF
±10%
GCJ31MR71H154KA01#
0.22µF
±10%
GCJ32DR72E224KXJ1L
0.18µF
±10%
GCJ31MR71H184KA01#
2.3mm
X7R
2.2µF
±10%
GCJ32DR72A225KA01#
0.22µF
±10%
GCJ31MR71H224KA01#
2.8mm
50Vdc
X7R
4.7µF
±10%
GCJ32ER71H475KA12#
0.27µF
±10%
GCJ31MR71H274KA01#
25Vdc
X7R
10µF
±10%
GCJ32ER71E106KA12#
0.33µF
±10%
GCJ31MR71H334KA01#
0.39µF
±10%
GCJ31MR71H394KA01#
0.47µF
±10%
GCJ31MR71H474KA01#
0.56µF
±10%
GCJ31MR71H564KA12#
GCJ31MR71H684KA12#
Rated
Voltage
TC
Code
Tol.
±10%
T
max.
Cap.
0.68µF
0.82µF
±10%
GCJ31MR71H824KA12#
1.5mm
630Vdc
X7R
68000pF
±10%
GCJ43QR72J683KXJ1L
1.0µF
±10%
GCJ31MR71H105KA12#
250Vdc
X7R
0.15µF
±10%
GCJ43QR72E154KXJ1L
0.10µF
±10%
GCJ31MR71E104KA01#
2.0mm 1000Vdc
X7R
33000pF
±10%
GCJ43DR73A333KXJ1L
0.12µF
±10%
GCJ31MR71E124KA01#
47000pF
±10%
GCJ43DR73A473KXJ1L
0.15µF
±10%
GCJ31MR71E154KA01#
630Vdc
X7R
33000pF
±10%
GCJ43DR72J333KXJ1L
0.18µF
±10%
GCJ31MR71E184KA01#
47000pF
±10%
GCJ43DR72J473KXJ1L
0.22µF
±10%
GCJ31MR71E224KA01#
0.10µF
±10%
GCJ43DR72J104KXJ1L
1.0µF
±10%
GCJ31MR71E105KA01#
0.22µF
±10%
GCJ43DR72E224KXJ1L
1.5µF
±10%
GCJ31MR71E155KA12#
0.33µF
±10%
GCJ43DR72E334KXJ1L
2.2µF
±10%
GCJ31MR71E225KA12#
0.47µF
±10%
GCJ43DR72E474KXJ1L
250Vdc
2.0mm 1000Vdc
630Vdc
250Vdc
100Vdc
X7R
X7R
X7R
X7R
c 4.5×3.2mm
250Vdc
X7R
Part Number
Part number # indicates the package specification code.
26
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
GCJ Series High Dielectric Constant Type
AECQ200
Fail
safe
Deflecting
crack
C03E.pdf
May.17,2013
Part Number List
c 5.7×5.0mm
Rated
Voltage
TC
Code
Cap.
Tol.
2.0mm 1000Vdc
X7R
68000pF
±10%
GCJ55DR73A683KXJ1L
0.10µF
±10%
GCJ55DR73A104KXJ1L
0.10µF
±10%
GCJ55DR72J104KXJ1L
0.15µF
±10%
GCJ55DR72J154KXJ1L
0.22µF
±10%
GCJ55DR72J224KXJ1L
0.33µF
±10%
GCJ55DR72E334KXJ1L
0.47µF
±10%
GCJ55DR72E474KXJ1L
0.68µF
±10%
GCJ55DR72E684KXJ1L
1.0µF
±10%
GCJ55DR72E105KXJ1L
GCM Series
GCJ Series
GCD Series
GCE Series
GCG Series
GC3 Series
X7R
KCM Series
250Vdc
X7R
KC3 Series
630Vdc
Part Number
!Caution/Notice
T
max.
Part number # indicates the package specification code.
27
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
Specially Designed Product to Reduce Shorts
GCD Series
AECQ200
Fail
safe
Deflecting
crack
GCM Series
Prevents momentary dielectric breakdown by a two-element array structure!
Features
1
Prevents momentary dielectric breakdown by a two-element array structure!
GCJ Series
This product consists of two elements arranged in one capacitor. It is structured so that even when one element is
shorted, the other capacitor element will not short.
Internal Electrodes
Ceramic
Ni/Sn Plated Layer
Foundation Electrode Layer
GCD Series
two-element Array Arrangement
<Example of Structure>
GCE Series
2
This AEC-Q200 conforming product is ideal for battery lines of automobiles.
Space can be reduced in battery lines where two capacitors are arranged in an array.
Specifications
GCG Series
e
Size
Rated Voltage
Capacitance
g
DC25 to 100V
T
1,000pF to 0.1μF
L
Main Applications
GC3 Series
KCM Series
KC3 Series
!Caution/Notice
28
e
1.6×0.8mm to 2.0×1.25mm
Battery lines and power trains for automobiles
W
<Dimensions>
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Deflecting
crack
Part Number List
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
0.7mm
50Vdc
X7R
3900pF
±10%
GCD216R71H392KA01#
4700pF
±10%
GCD216R71H472KA01#
5600pF
±10%
GCD216R71H562KA01#
Part Number
T
max.
Rated
Voltage
TC
Code
Cap.
0.9mm
100Vdc
X7R
1000pF
±10%
GCD188R72A102KA01#
1200pF
±10%
GCD188R72A122KA01#
0.95mm 100Vdc
X7R
6800pF
±10%
GCD219R72A682KA01#
1500pF
±10%
GCD188R72A152KA01#
1.4mm
X7R
8200pF
±10%
GCD21BR72A822KA01#
1800pF
±10%
GCD188R72A182KA01#
10000pF
±10%
GCD21BR72A103KA01#
2200pF
±10%
GCD188R72A222KA01#
12000pF
±10%
GCD21BR72A123KA01#
2700pF
±10%
GCD188R72A272KA01#
15000pF
±10%
GCD21BR71H153KA01#
3300pF
±10%
GCD188R72A332KA01#
18000pF
±10%
GCD21BR71H183KA01#
3900pF
±10%
GCD188R72A392KA01#
22000pF
±10%
GCD21BR71H223KA01#
X7R
100Vdc
50Vdc
X7R
±10%
GCD188R72A472KA01#
27000pF
±10%
GCD21BR71H273KA01#
±10%
GCD188R71H102KA01#
33000pF
±10%
GCD21BR71H333KA01#
1200pF
±10%
GCD188R71H122KA01#
39000pF
±10%
GCD21BR71H393KA01#
1500pF
±10%
GCD188R71H152KA01#
47000pF
±10%
GCD21BR71H473KA01#
1800pF
±10%
GCD188R71H182KA01#
56000pF
±10%
GCD21BR71H563KA01#
2200pF
±10%
GCD188R71H222KA01#
68000pF
±10%
GCD21BR71H683KA01#
2700pF
±10%
GCD188R71H272KA01#
82000pF
±10%
GCD21BR71H823KA01#
3300pF
±10%
GCD188R71H332KA01#
0.10µF
±10%
GCD21BR71H104KA01#
3900pF
±10%
GCD188R71H392KA01#
4700pF
±10%
GCD188R71H472KA01#
5600pF
±10%
GCD188R71H562KA01#
6800pF
±10%
GCD188R71H682KA01#
8200pF
±10%
GCD188R71H822KA01#
10000pF
±10%
GCD188R71H103KA01#
12000pF
±10%
GCD188R71H123KA01#
15000pF
±10%
GCD188R71H153KA01#
18000pF
±10%
GCD188R71H183KA01#
22000pF
±10%
GCD188R71H223KA01#
27000pF
±10%
GCD188R71E273KA01#
33000pF
±10%
GCD188R71E333KA01#
39000pF
±10%
GCD188R71E393KA01#
47000pF
±10%
GCD188R71E473KA01#
GCE Series
4700pF
1000pF
GCG Series
25Vdc
X7R
Part Number
GC3 Series
50Vdc
Tol.
GCM Series
Fail
safe
GCJ Series
c 1.6×0.8mm
AECQ200
GCD Series
GCD Series High Dielectric Constant Type
May.17,2013
c 2.0×1.25mm
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
0.7mm
100Vdc
X7R
1000pF
±10%
GCD216R72A102KA01#
1200pF
±10%
GCD216R72A122KA01#
1500pF
±10%
GCD216R72A152KA01#
1800pF
±10%
GCD216R72A182KA01#
2200pF
±10%
GCD216R72A222KA01#
2700pF
±10%
GCD216R72A272KA01#
3300pF
±10%
GCD216R72A332KA01#
3900pF
±10%
GCD216R72A392KA01#
4700pF
±10%
GCD216R72A472KA01#
5600pF
±10%
GCD216R72A562KA01#
1000pF
±10%
GCD216R71H102KA01#
1200pF
±10%
GCD216R71H122KA01#
1500pF
±10%
GCD216R71H152KA01#
1800pF
±10%
GCD216R71H182KA01#
2200pF
±10%
GCD216R71H222KA01#
2700pF
±10%
GCD216R71H272KA01#
3300pF
±10%
GCD216R71H332KA01#
X7R
KCM Series
KC3 Series
!Caution/Notice
50Vdc
Part Number
Part number # indicates the package specification code.
29
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
C03E.pdf
May.17,2013
Specially Designed Product to Reduce Shorts & Resin Electrode Product
GCE Series
AECQ200
Fail
safe
Deflecting
crack
GCM Series
Further improved safety performance with a combination of a two-element array
structure & resin external electrodes!
Features
1
Avoid instantaneous dielectric breakdown with the two-element array structure.
GCJ Series
This product is configured with two elements arranged in one capacitor. Even if one element short circuits, the other
element in the capacitor does not short.
Internal Electrodes
Resin Electrodes Layer
Ceramic
Ni/Sn Plated Layer
GCD Series
Foundation Electrode Layer
two-element Array Configuration
2
Provides additional safety performance in combination with resin electrodes.
GCE Series
Adopting resin electrodes as the external electrodes will suppress the occurrence of cracking in the capacitor by
mechanical stress.
oFor Automobiles (GCM Series)
GCG Series
Occurrence of cracking on
edge of terminal electrode
oFail Safe Type (GCE Series)
GC3 Series
Conductive resin layer relieves
the mechanical stress of the ceramic
KCM Series
3
Separated foundation
electrode and resin electrode
Ideal for battery lines of on-board applications.
Space can be reduced for battery lines, when two capacitors are configured in an array.
Specifications
KC3 Series
e
Size
Rated Voltage
Capacitance
g
DC50V, 100V
T
1000pF to 0.1μF
!Caution/Notice
L
Main Applications
30
e
1.6×0.8mm to 2.0×1.25mm
For automotive, battery lines, power trains
W
<Dimensions>
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
1.45mm 100Vdc
X7R
Cap.
Tol.
Part Number
±10%
GCE21BR72A822KA01#
±10%
GCE21BR72A103KA01#
12000pF
±10%
GCE21BR72A123KA01#
15000pF
±10%
GCE21BR71H153KA01#
GCE188R72A152KA01#
18000pF
±10%
GCE21BR71H183KA01#
±10%
GCE188R72A182KA01#
22000pF
±10%
GCE21BR71H223KA01#
±10%
GCE188R72A222KA01#
27000pF
±10%
GCE21BR71H273KA01#
2700pF
±10%
GCE188R72A272KA01#
33000pF
±10%
GCE21BR71H333KA01#
3300pF
±10%
GCE188R72A332KA01#
39000pF
±10%
GCE21BR71H393KA01#
3900pF
±10%
GCE188R72A392KA01#
47000pF
±10%
GCE21BR71H473KA01#
TC
Code
Cap.
0.9mm
100Vdc
X7R
1000pF
±10%
GCE188R72A102KA01#
1200pF
±10%
GCE188R72A122KA01#
1500pF
±10%
1800pF
2200pF
Tol.
Part Number
50Vdc
X7R
±10%
GCE188R72A472KA01#
56000pF
±10%
GCE21BR71H563KA01#
±10%
GCE188R71H102KA01#
68000pF
±10%
GCE21BR71H683KA01#
1200pF
±10%
GCE188R71H122KA01#
82000pF
±10%
GCE21BR71H823KA01#
1500pF
±10%
GCE188R71H152KA01#
0.10µF
±10%
GCE21BR71H104KA01#
1800pF
±10%
GCE188R71H182KA01#
2200pF
±10%
GCE188R71H222KA01#
2700pF
±10%
GCE188R71H272KA01#
3300pF
±10%
GCE188R71H332KA01#
3900pF
±10%
GCE188R71H392KA01#
4700pF
±10%
GCE188R71H472KA01#
5600pF
±10%
GCE188R71H562KA01#
6800pF
±10%
GCE188R71H682KA01#
8200pF
±10%
GCE188R71H822KA01#
10000pF
±10%
GCE188R71H103KA01#
12000pF
±10%
GCE188R71H123KA01#
15000pF
±10%
GCE188R71H153KA01#
18000pF
±10%
GCE188R71H183KA01#
22000pF
±10%
GCE188R71H223KA01#
GCG Series
GCE Series
4700pF
1000pF
GCM Series
TC
Code
Part Number List
8200pF
Rated
Voltage
X7R
Rated
Voltage
Deflecting
crack
10000pF
T
max.
50Vdc
Fail
safe
GCJ Series
T
max.
c 1.6×0.8mm
AECQ200
GCD Series
GCE Series High Dielectric Constant Type
May.17,2013
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
0.7mm
100Vdc
X7R
1000pF
±10%
GCE216R72A102KA01#
1200pF
±10%
GCE216R72A122KA01#
1500pF
±10%
GCE216R72A152KA01#
1800pF
±10%
GCE216R72A182KA01#
2200pF
±10%
GCE216R72A222KA01#
2700pF
±10%
GCE216R72A272KA01#
3300pF
±10%
GCE216R72A332KA01#
3900pF
±10%
GCE216R72A392KA01#
4700pF
±10%
GCE216R72A472KA01#
0.95mm 100Vdc
X7R
5600pF
±10%
GCE216R72A562KA01#
1000pF
±10%
GCE216R71H102KA01#
1200pF
±10%
GCE216R71H122KA01#
1500pF
±10%
GCE216R71H152KA01#
1800pF
±10%
GCE216R71H182KA01#
2200pF
±10%
GCE216R71H222KA01#
2700pF
±10%
GCE216R71H272KA01#
3300pF
±10%
GCE216R71H332KA01#
3900pF
±10%
GCE216R71H392KA01#
4700pF
±10%
GCE216R71H472KA01#
5600pF
±10%
GCE216R71H562KA01#
6800pF
±10%
GCE219R72A682KA01#
KCM Series
KC3 Series
X7R
Part Number
!Caution/Notice
50Vdc
GC3 Series
c 2.0×1.25mm
Part number # indicates the package specification code.
31
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
Conductivity Adhesive Compatible Type
GCG Series
AEC- Deflecting Soldering
crack
crack
Q200
GCM Series
Improved mechanical and thermal strength by adopting AgPd external electrodes,
which can be mounted with a conductive adhesive!
Features
1
Conductive adhesives can be used.
GCJ Series
This capacitor can be mounted with a conductive adhesive* in power trains and safety devices of automobiles.
Internal Electrodes
Ceramic
External Electrodes
Cu+AgPd
GCD Series
Conductive Adhesive
2
Adopted AgPd external electrodes.
Adopted AgPd, which is excellent in bonding strength with a conductive adhesive.
GCE Series
3
Compatible up to 150 °C.
This capacitor lineup with X8L and X8R characteristics can be used in high-temperature environments, such as in
ABS and transmission control.
GCG Series
* The conductive adhesive buffers the expansion and contraction difference between the substrate and parts caused by
temperature changes, and has a high temperature cycle life span.
Specifications
GC3 Series
e
Size
g
Rated Voltage
DC16V to 50V
Capacitance
10pF to 10μF
T
L
KCM Series
Main Applications
KC3 Series
!Caution/Notice
32
e
1.0×0.5mm to 3.2×2.5mm
For automotive, power trains, sensors
W
<Dimensions>
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
c 1.6×0.8mm
AECQ200
Deflecting Soldering
crack
crack
Part Number List
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
0.7mm
50Vdc
X8G
3300pF
±5%
GCG2165G1H332JA01#
3900pF
±5%
GCG2165G1H392JA01#
4700pF
±5%
GCG2165G1H472JA01#
5600pF
±5%
GCG2195G1H562JA01#
6800pF
±5%
GCG2195G1H682JA01#
Part Number
Rated
Voltage
TC
Code
Cap.
0.9mm
50Vdc
X8G
10pF
±5%
GCG1885G1H100JA01#
12pF
±5%
GCG1885G1H120JA01#
15pF
±5%
GCG1885G1H150JA01#
18pF
±5%
GCG1885G1H180JA01#
8200pF
±5%
GCG2195G1H822JA01#
22pF
±5%
GCG1885G1H220JA01#
10000pF
±5%
GCG2195G1H103JA01#
27pF
±5%
GCG1885G1H270JA01#
33pF
±5%
GCG1885G1H330JA01#
39pF
±5%
GCG1885G1H390JA01#
47pF
±5%
GCG1885G1H470JA01#
56pF
±5%
GCG1885G1H560JA01#
68pF
±5%
GCG1885G1H680JA01#
82pF
±5%
GCG1885G1H820JA01#
100pF
±5%
GCG1885G1H101JA01#
120pF
±5%
GCG1885G1H121JA01#
150pF
±5%
GCG1885G1H151JA01#
180pF
±5%
GCG1885G1H181JA01#
220pF
±5%
GCG1885G1H221JA01#
270pF
±5%
GCG1885G1H271JA01#
330pF
±5%
GCG1885G1H331JA01#
390pF
±5%
GCG1885G1H391JA01#
470pF
±5%
GCG1885G1H471JA01#
560pF
±5%
GCG1885G1H561JA01#
680pF
±5%
GCG1885G1H681JA01#
820pF
±5%
GCG1885G1H821JA01#
1000pF
±5%
GCG1885G1H102JA01#
1200pF
±5%
GCG1885G1H122JA01#
1500pF
±5%
GCG1885G1H152JA01#
1800pF
±5%
GCG1885G1H182JA01#
2200pF
±5%
GCG1885G1H222JA01#
X8G
GCD Series
50Vdc
GCE Series
0.95mm
GCG Series
Part Number
GC3 Series
Tol.
GCJ Series
T
max.
GCM Series
GCG Series Temperature Compensating Type
May.17,2013
c 2.0×1.25mm
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
0.7mm
50Vdc
X8G
100pF
±5%
GCG2165G1H101JA01#
120pF
±5%
GCG2165G1H121JA01#
150pF
±5%
GCG2165G1H151JA01#
180pF
±5%
GCG2165G1H181JA01#
220pF
±5%
GCG2165G1H221JA01#
270pF
±5%
GCG2165G1H271JA01#
330pF
±5%
GCG2165G1H331JA01#
390pF
±5%
GCG2165G1H391JA01#
470pF
±5%
GCG2165G1H471JA01#
560pF
±5%
GCG2165G1H561JA01#
680pF
±5%
GCG2165G1H681JA01#
±5%
GCG2165G1H821JA01#
±5%
GCG2165G1H102JA01#
1200pF
±5%
GCG2165G1H122JA01#
1500pF
±5%
GCG2165G1H152JA01#
1800pF
±5%
GCG2165G1H182JA01#
2200pF
±5%
GCG2165G1H222JA01#
2700pF
±5%
GCG2165G1H272JA01#
KC3 Series
!Caution/Notice
820pF
1000pF
KCM Series
Part Number
Part number # indicates the package specification code.
33
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
GCG Series High Dielectric Constant Type
c 1.0×0.5mm
AECQ200
Deflecting Soldering
crack
crack
May.17,2013
Part Number List
GCM Series
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
0.9mm
50Vdc
X8L
470pF
±10%
GCG188L81H471KA01#
560pF
±10%
GCG188L81H561KA01#
Part Number
Rated
Voltage
TC
Code
Cap.
0.55mm
50Vdc
X7R
220pF
±10%
GCG155R71H221KA01#
680pF
±10%
GCG188L81H681KA01#
270pF
±10%
GCG155R71H271KA01#
820pF
±10%
GCG188L81H821KA01#
330pF
±10%
GCG155R71H331KA01#
1000pF
±10%
GCG188L81H102KA01#
390pF
±10%
GCG155R71H391KA01#
1200pF
±10%
GCG188L81H122KA01#
470pF
±10%
GCG155R71H471KA01#
1500pF
±10%
GCG188L81H152KA01#
560pF
±10%
GCG155R71H561KA01#
1800pF
±10%
GCG188L81H182KA01#
680pF
±10%
GCG155R71H681KA01#
2200pF
±10%
GCG188L81H222KA01#
820pF
±10%
GCG155R71H821KA01#
2700pF
±10%
GCG188L81H272KA01#
1000pF
±10%
GCG155R71H102KA01#
3300pF
±10%
GCG188L81H332KA01#
1200pF
±10%
GCG155R71H122KA01#
3900pF
±10%
GCG188L81H392KA01#
1500pF
±10%
GCG155R71H152KA01#
4700pF
±10%
GCG188L81H472KA01#
1800pF
±10%
GCG155R71H182KA01#
5600pF
±10%
GCG188L81H562KA01#
2200pF
±10%
GCG155R71H222KA01#
6800pF
±10%
GCG188L81H682KA01#
2700pF
±10%
GCG155R71H272KA01#
8200pF
±10%
GCG188L81H822KA01#
3300pF
±10%
GCG155R71H332KA01#
10000pF
±10%
GCG188L81H103KA01#
3900pF
±10%
GCG155R71H392KA01#
12000pF
±10%
GCG188L81H123KA01#
4700pF
±10%
GCG155R71H472KA01#
15000pF
±10%
GCG188L81H153KA01#
5600pF
±10%
GCG155L81E562KA01#
18000pF
±10%
GCG188L81H183KA01#
6800pF
±10%
GCG155L81E682KA01#
22000pF
±10%
GCG188L81H223KA01#
GCJ Series
T
max.
GCD Series
GCE Series
25Vdc
X8L
X7R
GCG Series
16Vdc
X8L
GC3 Series
X7R
Tol.
Part Number
8200pF
±10%
GCG155L81E822KA01#
27000pF
±10%
GCG188R71H273KA12#
10000pF
±10%
GCG155L81E103KA01#
33000pF
±10%
GCG188R71H333KA12#
5600pF
±10%
GCG155R71E562KA01#
39000pF
±10%
GCG188R71H393KA12#
6800pF
±10%
GCG155R71E682KA01#
47000pF
±10%
GCG188R71H473KA12#
8200pF
±10%
GCG155R71E822KA01#
56000pF
±10%
GCG188R71H563KA12#
X7R
KCM Series
KC3 Series
10000pF
±10%
GCG155R71E103KA01#
68000pF
±10%
GCG188R71H683KA12#
15000pF
±10%
GCG155L81C153KA01#
82000pF
±10%
GCG188R71H823KA12#
18000pF
±10%
GCG155L81C183KA01#
0.12µF
±10%
GCG188R71E124KA12#
22000pF
±10%
GCG155L81C223KA01#
0.15µF
±10%
GCG188R71E154KA12#
27000pF
±10%
GCG155L81C273KA01#
0.18µF
±10%
GCG188R71E184KA12#
33000pF
±10%
GCG155L81C333KA01#
39000pF
±10%
GCG155L81C393KA01#
47000pF
±10%
GCG155L81C473KA01#
15000pF
±10%
GCG155R71C153KA01#
18000pF
±10%
GCG155R71C183KA01#
22000pF
±10%
GCG155R71C223KA01#
27000pF
±10%
GCG155R71C273KA01#
33000pF
±10%
GCG155R71C333KA01#
T
max.
Rated
Voltage
39000pF
±10%
GCG155R71C393KA01#
1.45mm
50Vdc
47000pF
±10%
GCG155R71C473KA01#
56000pF
±10%
68000pF
82000pF
0.10µF
25Vdc
X7R
!Caution/Notice
0.22µF
±10%
GCG188R71E224KA12#
0.15µF
±10%
GCG188L81C154KA01#
0.22µF
±10%
GCG188L81C224KA01#
TC
Code
Cap.
Tol.
X8L
27000pF
±10%
GCG21BL81H273KA01#
33000pF
±10%
GCG21BL81H333KA01#
GCG155R71C563KA01#
39000pF
±10%
GCG21BL81H393KA01#
±10%
GCG155R71C683KA01#
47000pF
±10%
GCG21BL81H473KA01#
±10%
GCG155R71C823KA01#
0.10µF
±10%
GCG21BL81H104KA03#
±10%
GCG155R71C104KA01#
0.15µF
±10%
GCG21BR71H154KA01#
0.18µF
±10%
GCG21BR71H184KA01#
0.22µF
±10%
GCG21BR71H224KA01#
0.10µF
±10%
GCG21BL81E104KA01#
0.33µF
±10%
GCG21BL81E334KA01#
0.27µF
±10%
GCG21BR71E274KA01#
c 1.6×0.8mm
16Vdc
X8L
c 2.0×1.25mm
X7R
25Vdc
X8L
Part Number
T
max.
Rated
Voltage
TC
Code
Cap.
0.9mm
50Vdc
X8L
220pF
±10%
GCG188L81H221KA01#
0.33µF
±10%
GCG21BR71E334KA01#
270pF
±10%
GCG188L81H271KA01#
0.39µF
±10%
GCG21BR71E394KA01#
330pF
±10%
GCG188L81H331KA01#
0.47µF
±10%
GCG21BR71E474KA01#
390pF
±10%
GCG188L81H391KA01#
0.56µF
±10%
GCG21BR71E564KA01#
Tol.
Part Number
X7R
Part number # indicates the package specification code.
34
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
GCG Series High Dielectric Constant Type
AECQ200
Deflecting Soldering
crack
crack
C03E.pdf
May.17,2013
Part Number List
(→ c 2.0×1.25mm)
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
1.45mm
25Vdc
X7R
0.68µF
±10%
GCG21BR71E684KA01#
0.82µF
±10%
GCG21BR71E824KA01#
1.0µF
±10%
GCG21BR71E105KA12#
0.33µF
±10%
GCG21BL81C334KA01#
0.39µF
±10%
GCG21BL81C394KA01#
0.47µF
±10%
GCG21BL81C474KA01#
0.56µF
±10%
GCG21BL81C564KA01#
0.68µF
±10%
GCG21BL81C684KA01#
0.82µF
±10%
GCG21BL81C824KA01#
GCM Series
X8L
GCJ Series
16Vdc
Part Number
c 3.2×1.6mm
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
1.35mm
25Vdc
X7R
1.0µF
±10%
GCG31MR71E105KA01#
1.2µF
±10%
GCG31MR71E125KA01#
1.5µF
±10%
GCG31MR71E155KA01#
2.2µF
±10%
GCG31MR71E225KA12#
1.0µF
±10%
GCG31ML81C105KA01#
1.5µF
±10%
GCG31ML81C155KA01#
3.3µF
±10%
GCG31CR71E335KA01#
3.9µF
±10%
GCG31CR71E395KA01#
4.7µF
±10%
GCG31CR71E475KA01#
3.3µF
±10%
GCG31CL81C335KA01#
4.7µF
±10%
GCG31CL81C475KA01#
25Vdc
16Vdc
X7R
X8L
GCD Series
GCE Series
1.9mm
X8L
GCG Series
16Vdc
Part Number
c 3.2×2.5mm
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
2.3mm
25Vdc
X7R
3.3µF
±10%
GCG32DR71E335KA01#
2.8mm
25Vdc
X7R
4.7µF
±10%
GCG32ER71E475KA01#
10µF
±10%
GCG32ER71E106KA12#
!Caution/Notice
KC3 Series
KCM Series
GC3 Series
Part Number
Part number # indicates the package specification code.
35
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
High Effective Capacitance & High Allowable Ripple Current
GC3 Series
Antinoise
AECQ200
GCM Series
This is a high ripple resistance product for automobiles, excellent in DC voltage
characteristics.
Features
1
GCJ Series
When a DC voltage is applied, a capacitance higher than conventional products
(X7R characteristics) can be acquired.
When DC600V is applied, about twice the capacitance can be secured.
GCD Series
Capacitance Change (%)
20
0
-20
-40
-60
New Material GC3
5750 (in mm)/2220 (in inch)/0.1μF/630V
-80
Conventional Material GCM
5750 (in mm)/2220 (in inch)/0.1μF/630V
-100
GCE Series
0
100
200
300
400
500
DC Voltage (V)
600
700
<Comparison between Capacitance - DC Voltage Characteristics>
2
Improved ripple resistance performance compared to conventional products (X7R characteristics).
GCG Series
In the case of a product with a capacitance of 0.1μF, when the exothermic temperature reaches 20°C at frequency
f=300kHz, the amount of resistance of a product with conventional material is 1.8Arms; however, the new material
is 2.3 Arms.
5750 (in mm)/2220 (in inch)/0.1μF/630V
GC3 Series
Temperature Rise (°C)
100
30kHz
30kHz
1.8Arms 2.3Arms
20°C
10
300kHz
300kHz
100kHz
New Material GC3
Conventional Material GCM
100kHz
1
0
0.5
1
KCM Series
1.5
2
Current (Ar.m.s.)
2.5
3
<Exothermic Temperature Comparison>
3
This product has a noise reduction effect.
KC3 Series
Since dielectric materials that enable a reduction of noise are used, this product is more effective for reducing noise
compared to the GCM series for automobiles.
Specifications
e
Size
g
!Caution/Notice
Rated Voltage
DC250 to 630V
Capacitance
0.01μF to 1.0μF
T
L
Main Applications
36
e
2.0×1.25mm to 5.7×5.0mm
For PFC (Power Factor Correction) circuits of power supplies, EMI suppression,
and smoothing circuits of automobiles
W
<Dimensions>
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
c 2.0×1.25mm
T
max.
Rated
Voltage
TC
Code
Cap.
1.0mm
250Vdc
X7T
10000pF
±10%
GC321AD72E103KX01D
15000pF
±10%
GC321AD72E153KX01D
X7T
22000pF
±10%
GC321BD72E223KX03L
1.45mm 250Vdc
Tol.
Part Number
AECQ200
Antinoise
Part Number List
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
2.7mm
630Vdc
X7T
0.27µF
±10%
GC355XD72J274KX05L
450Vdc
X7T
0.56µF
±10%
GC355XD72W564KX05L
250Vdc
X7T
1.0µF
±10%
GC355XD72E105KX05L
Part Number
GCM Series
GC3 Series High Dielectric Constant Type
May.17,2013
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
1.0mm
450Vdc
X7T
10000pF
±10%
GC331AD72W103KX01D
15000pF
±10%
GC331AD72W153KX01D
33000pF
±10%
GC331AD72E333KX01D
1.25mm 630Vdc
X7T
10000pF
±10%
GC331BD72J103KX01L
450Vdc
X7T
22000pF
±10%
GC331BD72W223KX01L
33000pF
±10%
GC331BD72W333KX01L
250Vdc
X7T
47000pF
±10%
GC331BD72E473KX01L
630Vdc
X7T
15000pF
±10%
GC331CD72J153KX03L
450Vdc
X7T
47000pF
±10%
GC331CD72W473KX03L
250Vdc
X7T
68000pF
±10%
GC331CD72E683KX03L
GCE Series
X7T
GCD Series
Part Number
250Vdc
1.8mm
GCJ Series
c 3.2×1.6mm
c 3.2×2.5mm
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
1.5mm
630Vdc
X7T
22000pF
±10%
GC332QD72J223KX01L
250Vdc
X7T
0.10µF
±10%
GC332QD72E104KX01L
630Vdc
X7T
33000pF
±10%
GC332DD72J333KX01L
47000pF
±10%
GC332DD72J473KX01L
68000pF
±10%
GC332DD72W683KX01L
0.10µF
±10%
GC332DD72W104KX01L
X7T
0.15µF
±10%
GC332DD72E154KX01L
Cap.
Tol.
450Vdc
250Vdc
X7T
GCG Series
GC3 Series
2.0mm
Part Number
c 4.5×3.2mm
T
max.
Rated
Voltage
TC
Code
1.5mm
250Vdc
X7T
0.22µF
±10%
GC343QD72E224KX01L
2.0mm
630Vdc
X7T
68000pF
±10%
GC343DD72J683KX01L
450Vdc
X7T
0.15µF
±10%
GC343DD72W154KX01L
250Vdc
X7T
0.33µF
±10%
GC343DD72E334KX01L
KCM Series
Part Number
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
2.0mm
630Vdc
X7T
0.10µF
±10%
GC355DD72J104KX01L
0.15µF
±10%
GC355DD72J154KX01L
450Vdc
X7T
0.22µF
±10%
GC355DD72W224KX01L
0.33µF
±10%
GC355DD72W334KX01L
0.47µF
±10%
GC355DD72W474KX01L
0.47µF
±10%
GC355DD72E474KX01L
0.68µF
±10%
GC355DD72E684KX01L
0.22µF
±10%
GC355XD72J224KX05L
2.7mm
630Vdc
X7T
X7T
Part Number
!Caution/Notice
250Vdc
KC3 Series
c 5.7×5.0mm
Part number # indicates the package specification code.
37
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
Metal Terminal Type
KCM Series
Anti- Deflecting Soldering
crack
crack
noise
AECQ200
GCM Series
By bonding metal terminals to the external electrodes of the chip, the problem of
how to design a capacitor to enable it to be mounted on a large MLCC has been
solved!
Features
1
Bond the metal terminals to the external electrodes of the chip.
GCJ Series
The stress on the chip is reduced due to the elastic behavior of the metal terminals.
Ceramic
Noise
Board Bending Cracks
Internal Electrode
Lead-free High
Temperature
Solder
Solder Cracks
Metal Terminal
GCD Series
Noise due to cracks or vibration of the capacitor caused by
mechanical stress applied to the board was a design issue.
Stress is reduced due to the elastic behavior of the metal terminals!
GCE Series
2
Noise, board deflection cracks, and solder cracks are greatly reduced.
No breakage occurs even when the board deflection is 6mm.
Solder cracks were not found even after 2000 heat stress cycles.
Comparison of Noise Reduction Effect
Stress caused by board deflection is reduced.
100
60
Approx. 30dB reduction!
40
20
Residual Ratio (%)
GCG Series
Sound Pressure Level (dB)
80
Metal Terminal
(2220/630V/220nF)
80
60
40
Chip Capacitor
(2220/630V/220nF)
20
GC3 Series
0
Chip Capacitor
With Metal Terminals
Does not
break even
at 6 mm!
0
0.0
1.0
2.0
3.0
4.0
Deflection Amount (mm)
5.0
6.0
KCM Series
Evaluation Items: 2220 size/DC630V/220nF
Test Conditions: 50V, AC10Vp-p/3kHz
Sample Board: Glass-epoxy Board (T: 1.6mm)
Number of samples: 3
Distance between microphone and board: 3mm
Note: Results obtained using Murata’s evaluation board
Solder cracks due to heat stress are reduced.
Chip Size
Individual Chip (2220 size)
Metal Terminal (2220 size)
KC3 Series
1000 cycles
Solder cracks
!Caution/Notice
2000 cycles
Solder cracks
Test Conditions: -55 to +125°C, 5 minutes (liquid phase)
Board used: Glass-epoxy Board (FR-4)
38
Compared to an individual chip, the addition
of metal terminals results in excellent solder
cracking resistance.
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
3
C03E.pdf
May.17,2013
Chip Stacking
A large capacitance can be realized by stacking two capacitors on top of each other.
Size
GCM Series
Specifications
6.1×5.3mm
T
W
GCJ Series
L
GCG Series
GCE Series
GCD Series
<Dimensions>
GC3 Series
For drive control of engine ECU, etc.
For other drive system control and safety equipment
e
KCM Series
Main Applications
4.7μF to 47μF
KC3 Series
Capacitance
DC25V to 100V
!Caution/Notice
Rated Voltage
39
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
KCM Series High Dielectric Constant Type
AECQ200
Antinoise
Deflecting Soldering
crack
crack
C03E.pdf
May.17,2013
Part Number List
c 6.1×5.3mm
GCM Series
GCJ Series
T
max.
Rated
Voltage
3.0mm
100Vdc
X7R
4.7µF
±10%
KCM55LR72A475KH01K
63Vdc
X7R
4.7µF
±10%
KCM55LR71J475KH01K
50Vdc
X7R
4.7µF
±10%
KCM55LR71H475KH01K
35Vdc
X7R
10µF
±10%
KCM55LR7YA106KH01K
25Vdc
X7R
15µF
±10%
KCM55LR71E156KH01K
100Vdc
X7R
6.8µF
±10%
KCM55QR72A685KH01K
63Vdc
X7R
10µF
±10%
KCM55QR71J106KH01K
50Vdc
X7R
10µF
±10%
KCM55QR71H106KH01K
35Vdc
X7R
17µF
±10%
KCM55QR7YA176KH01K
25Vdc
X7R
22µF
±10%
KCM55QR71E226KH01K
100Vdc
X7R
10µF
±20%
KCM55TR72A106MH01K
35Vdc
X7R
22µF
±20%
KCM55TR7YA226MH01K
25Vdc
X7R
33µF
±20%
KCM55TR71E336MH01K
100Vdc
X7R
15µF
±20%
KCM55WR72A156MH01K
63Vdc
X7R
22µF
±20%
KCM55WR71J226MH01K
50Vdc
X7R
22µF
±20%
KCM55WR71H226MH01K
35Vdc
X7R
33µF
±20%
KCM55WR7YA336MH01K
25Vdc
X7R
47µF
±20%
KCM55WR71E476MH01K
3.9mm
5.0mm
GCD Series
6.7mm
TC
Code
Cap.
Tol.
Part Number
GCE Series
GCG Series
GC3 Series
KCM Series
KC3 Series
!Caution/Notice
Part number # indicates the package specification code.
40
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
Metal Terminal Type/High Effective Capacitance & High Allowable Ripple Current
KC3 Series
AECQ200
Anti- Deflecting Soldering
crack
crack
noise
GCM Series
By bonding metal terminals to the external electrodes of the chip, the problem of
how to design a capacitor to enable it to be mounted on a large MLCC has been
solved!
Features
Bond the metal terminals to the external electrodes of the chip.
GCJ Series
1
The stress on the chip is reduced due to the elastic behavior of the metal terminals.
Ceramic
Noise
Board Bending Cracks
Internal Electrode
Lead-free High
Temperature
Solder
Solder Cracks
GCD Series
Metal Terminal
Noise due to cracks or vibration of the capacitor caused by
mechanical stress applied to the board was a design issue.
Stress is reduced due to the elastic behavior of the metal terminals!
GCE Series
Noise, board deflection cracks, and solder cracks are greatly reduced.
No breakage occurs even when the board deflection is 6mm.
Solder cracks were not found even after 2000 heat stress cycles.
Approx. 30dB reduction!
40
20
Metal Terminal
(2220/630V/220nF)
80
60
40
Chip Capacitor
(2220/630V/220nF)
20
0
Chip Capacitor
With Metal Terminals
Does not
break even
at 6 mm!
0
0.0
1.0
2.0
3.0
4.0
Deflection Amount (mm)
5.0
GC3 Series
60
Residual Ratio (%)
100
6.0
KCM Series
Evaluation Items: 2220 size/DC630V/220nF
Test Conditions: 50V, AC10Vp-p/3kHz
Sample Board: Glass-epoxy Board (T: 1.6mm)
Number of samples: 3
Distance between microphone and board: 3mm
Note: Results obtained using Murata’s evaluation board
Solder cracks due to heat stress are reduced.
Individual Chip (2220 size)
Metal Terminal (2220 size)
KC3 Series
Chip Size
1000 cycles
Solder cracks
2000 cycles
Solder cracks
GCG Series
Stress caused by board deflection is reduced.
Compared to an individual chip, the addition
of metal terminals results in excellent solder
cracking resistance.
Test Conditions: -55 to +125°C, 5 minutes (liquid phase)
Board used: Glass-epoxy Board (FR-4)
41
!Caution/Notice
Comparison of Noise Reduction Effect
80
Sound Pressure Level (dB)
2
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
3
C03E.pdf
May.17,2013
Uses material of low dielectric constant.
Compared to a conventional capacitor (X7R characteristics), this series has higher effective capacitance and better
anti-ripple performance.
GCM Series
Capacitance Change (%)
20
New Material
(250V/1μF/X7T)
Conventional Material
(250V/1μF/X7R)
0
-20
-40
-60
-80
GCJ Series
-100
0
4
50
100
150
DC Voltage (V)
200
250
Chip Stacking
GCD Series
A large capacitance can be realized by stacking two capacitors on top of each other.
Specifications
Size
6.1×5.3mm
GCE Series
T
Rated Voltage
Capacitance
Main Applications
GCG Series
GC3 Series
KCM Series
KC3 Series
!Caution/Notice
42
DC250V to 630V
0.1μF to 2.2μF
For drive control of engine ECU, etc.
For other drive system control and safety equipment
e
L
W
<Dimensions>
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
KC3 Series High Dielectric Constant Type
AECQ200
Antinoise
Deflecting Soldering
crack
crack
C03E.pdf
May.17,2013
Part Number List
c 6.1×5.3mm
T
max.
Rated
Voltage
TC
Code
Cap.
Tol.
3.0mm
630Vdc
X7T
0.10µF
±10%
KC355LD72J104KH01K
0.15µF
±10%
KC355LD72J154KH01K
±10%
KC355LD72W224KH01K
X7T
0.22µF
±10%
KC355QD72J224KH01K
0.27µF
±10%
KC355QD72J274KH01K
450Vdc
X7T
0.56µF
±10%
KC355QD72W564KH01K
250Vdc
X7T
1.0µF
±10%
KC355QD72E105KH01K
5.0mm
450Vdc
X7T
1.0µF
±20%
KC355TD72W105MH01K
6.7mm
630Vdc
X7T
0.47µF
±20%
KC355WD72J474MH01K
0.56µF
±20%
KC355WD72J564MH01K
450Vdc
X7T
1.2µF
±20%
KC355WD72W125MH01K
250Vdc
X7T
2.2µF
±20%
KC355WD72E225MH01K
GCM Series
KC355LD72E474KH01K
630Vdc
GCJ Series
±10%
GCD Series
KC355LD72W474KH01K
0.47µF
GCE Series
±10%
X7T
GCG Series
0.47µF
250Vdc
GC3 Series
0.22µF
KCM Series
X7T
KC3 Series
450Vdc
!Caution/Notice
3.9mm
Part Number
Part number # indicates the package specification code.
43
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
!Caution/Notice
For Automotive
!Caution
GCM Series
c Storage and Operation Conditions .......................... 45
Notice
c Rating ...................................................................... 57
1. Operating Temperature ....................................... 57
c Rating ...................................................................... 45
2. Atmosphere Surroundings ................................... 57
1. Temperature Dependent Characteristics............. 45
3. Piezo-electric Phenomenon................................. 57
GCJ Series
2. Measurement of Capacitance.............................. 46
3. Applied Voltage ................................................... 46
c Soldering and Mounting .......................................... 57
4. Type of Applied Voltage and
Self-heating Temperature .................................... 47
1. PCB Design ......................................................... 57
5. DC Voltage and AC Voltage Characteristics ....... 48
GCD Series
6. Capacitance Aging .............................................. 49
7. Vibration and Shock ............................................ 49
c Soldering and Mounting .......................................... 49
GCE Series
1. Mounting Position ................................................ 49
2. Information before Mounting................................ 50
1. Notice for Pattern Forms ................................. 57
2. Land Dimensions ............................................. 58
2. Adhesive Application ........................................... 58
3. Adhesive Curing .................................................. 59
4. Flux Application ................................................... 59
5. Flow Soldering ..................................................... 59
6. Washing............................................................... 59
7. Coating ................................................................ 60
3. Maintenance of the Mounting
(pick and place) Machine..................................... 50
GCG Series
4-1. Reflow Soldering .............................................. 51
c Other ....................................................................... 60
4-2. Flow Soldering.................................................. 52
1. Transportation ..................................................... 60
4-3. Correction with a Soldering Iron ....................... 53
2. Characteristics Evaluation
in the Actual System ............................................ 60
4-4. Leaded Component Insertion ........................... 54
5. Washing............................................................... 54
GC3 Series
6. Electrical Test on Printed Circuit Board ............... 54
7. Printed Circuit Board Cropping ............................ 54
8. Selection of Conductive Adhesive,
Mounting Process, and Bonding Strength ........... 56
KCM Series
9. Moisture Proof Process ....................................... 56
10. Application ......................................................... 56
c Other ....................................................................... 56
1. Under Operation of Equipment ............................ 56
KC3 Series
2. Other.................................................................... 56
!Caution/Notice
44
C03E.pdf
May.17,2013
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
!Caution
c Storage and Operation Conditions
GCG Series
GCE Series
GCD Series
GCJ Series
GCM Series
1. The performance of chip monolithic ceramic capacitors
may be affected by the storage conditions.
1-1. Store the capacitors in the following conditions:
Room Temperature of +5°C to +40°C and
a Relative Humidity of 20% to 70%.
(1) Sunlight, dust, rapid temperature changes,
corrosive gas atmosphere, or high temperature
and humidity conditions during storage may affect
solderability and packaging performance.
Please use product within six months of receipt.
(2) Please confirm solderability before using after six
months. Store the capacitors without opening the
original bag. Even if the storage period is short, do
not exceed the specified atmospheric conditions.
1-2. Corrosive gas can react with the termination
(external) electrodes or lead wires of capacitors, and
result in poor solderability. Do not store the capacitors
in an atmosphere consisting of corrosive gas (e.g.,
hydrogen sulfide, sulfur dioxide, chlorine, ammonia
gas, etc.).
1-3. Due to moisture condensation caused by rapid
humidity changes, or the photochemical change
caused by direct sunlight on the terminal electrodes
and/or the resin/epoxy coatings, the solderability and
electrical performance may deteriorate. Do not store
capacitors under direct sunlight or in high humidity
conditions.
<Applicable to GCG Series>
1-4. After unpacking, immediately reseal, or store in a
desiccator containing a desiccant.
[Typical Temperature Characteristics R7(X7R)]
Sample: 0.1μF, Rated Voltage 50VDC
KCM Series
20
10
0
-10
-20
KC3 Series
-30
-40
-50
-75
-50
-25
0
25
50
Temperature (°C)
75
100
125
!Caution
Capacitance Change (%)
1. Temperature Dependent Characteristics
1. The electrical characteristics of a capacitor can change
with temperature.
1-1. For capacitors having larger temperature
dependency, the capacitance may change with
temperature changes.
The following actions are recommended in order to
ensure suitable capacitance values.
(1) Select a suitable capacitance for the operating
temperature range.
(2) The capacitance may change within the rated
temperature.
When you use a high dielectric constant type
capacitor in a circuit that needs a tight (narrow)
capacitance tolerance (e.g., a time-constant
circuit), please carefully consider the temperature
characteristics, and carefully confirm the various
characteristics in actual use conditions and the
actual system.
GC3 Series
c Rating
Continued on the following page.
45
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
!Caution
Continued from the preceding page.
GCM Series
GCJ Series
2. Measurement of Capacitance
1. Measure capacitance with the voltage and frequency
specified in the product specifications.
1-1. The output voltage of the measuring equipment may
decrease occasionally when capacitance is high.
Please confirm whether a prescribed measured
voltage is impressed to the capacitor.
1-2. The capacitance values of high dielectric constant
type capacitors change depending on the AC voltage
applied. Please consider the AC voltage
characteristics when selecting a capacitor to be used
in an AC circuit.
GCD Series
GCE Series
GCG Series
3. Applied Voltage
1. Do not apply a voltage to the capacitor that exceeds the
rated voltage as called out in the specifications.
1-1. Applied voltage between the terminals of a capacitor
shall be less than or equal to the rated voltage.
(1) When AC voltage is superimposed on DC voltage,
the zero-to-peak voltage shall not exceed the
rated DC voltage.
When AC voltage or pulse voltage is applied, the
peak-to-peak voltage shall not exceed the rated
DC voltage.
(2) Abnormal voltages (surge voltage, static
electricity, pulse voltage, etc.) shall not exceed
the rated DC voltage.
Typical Voltage Applied to the DC Capacitor
DC Voltage
GC3 Series
E
DC Voltage+AC
E
AC Voltage
E
Pulse Voltage
0
E
0
0
0
(E: Maximum possible applied voltage.)
KCM Series
KC3 Series
1-2. Influence of over voltage
Over voltage that is applied to the capacitor may
result in an electrical short circuit caused by the
breakdown of the internal dielectric layers.
The time duration until breakdown depends on the
applied voltage and the ambient temperature.
2. Use a safety standard certified capacitor in a power
supply input circuit (AC filter), as it is also necessary to
consider the withstand voltage and impulse withstand
voltage defined for each device.
Continued on the following page.
!Caution
46
C03E.pdf
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
!Caution
[Example of Temperature Rise (Heat Generation)
in Chip Monolithic Ceramic Capacitors in Contrast
to Ripple Current]
Sample: R characteristics 10μF, Rated voltage: DC10V
Ripple Current
GCJ Series
100
10
100kHz
500kHz
1MHz
1
1
2
3
4
5
6
GCD Series
0
Current (Ar.m.s.)
The temperature of the surface
of capacitor: 125°C or less (including self-heating)
GCE Series
U2J char., Rated Voltage: DC250V
to 2,200pF
4,700pF
(250)
10,000pF
100
10
1
10
100
Frequency [kHz]
GCG Series
Allowable voltage [Vp-p]
1000
1000
to 680pF
1,000pF
2,200pF
4,700pF
10,000pF
100
22,000pF
47,000pF
10
1
10
100
Frequency [kHz]
KCM Series
Allowable voltage [Vp-p]
GC3 Series
U2J char., Rated Voltage: DC630V
1000
1000
U2J char., Rated Voltage: DC1kV
KC3 Series
10000
to 470pF
1000
1,000pF
2,200pF
4,700pF
100
10
10,000pF
1
10
100
Frequency [kHz]
!Caution
Allowable voltage [Vp-p]
Temperature Rise (°C)
4. Type of Applied Voltage and Self-heating Temperature
1. Confirm the operating conditions to make sure that no large
current is flowing into the capacitor due to the continuous
application of an AC voltage or pulse voltage.
When a DC rated voltage product is used in an AC voltage
circuit or a pulse voltage circuit, the AC current or pulse
current will flow into the capacitor; therefore check the
self-heating condition.
Please confirm the surface temperature of the capacitor so
that the temperature remains within the upper limits of the
operating temperature, including the rise in temperature due
to self-heating. When the capacitor is used with a
high-frequency voltage or pulse voltage, heat may be
generated by dielectric loss.
<Applicable to Rated Voltage of less than 100VDC>
1-1. The load should be contained to the level such that
when measuring at atmospheric temperature of 25°C,
the product's self-heating remains below 20°C and the
surface temperature of the capacitor in the actual circuit
remains within the maximum operating temperature.
<Applicable to Temperature Characteristic X7R, X7T
beyond Rated Voltage of 250VDC>
1-2. The load should be contained so that the self-heating of
the capacitor body remains below 20°C, when
measuring at an ambient temperature of 25°C. In
addition, use a K thermocouple of ø0.1mm with less
heat capacity when measuring, and measure in a
condition where there is no effect from the radiant heat
of other components or air flow caused by convection.
Excessive generation of heat may cause deterioration
of the characteristics and reliability of the capacitor.
(Absolutely do not perform measurements while the
cooling fan is operating, as an accurate measurement
may not be performed.)
<Applicable to Temperature Characteristic U2J beyond
Rated Voltage of 250VDC>
1-3. Since the self-heating is low in the low loss series, the
allowable power becomes extremely high compared to
the common X7R characteristics.
However, when a load with self-heating of 20°C is
applied at the rated voltage, the allowable power may
be exceeded. When the capacitor is used in a
high-frequency voltage circuit of 1kHz or more, the
frequency of the applied voltage should be less than
500kHz sine wave (less than 100kHz for a product with
rated voltage of DC3.15kV), to limit the voltage load so
that the load remains within the derating shown in the
following figure. In the case of non-sine wave,
high-frequency components exceeding the fundamental
frequency may be included. In such a case, please
contact Murata. The excessive generation of heat may
cause deterioration of the characteristics and reliability
of the capacitor.
(Absolutely do not perform measurements while the
cooling fan is operating, as an accurate measurement
may not be performed.)
GCM Series
Continued from the preceding page.
1000
Sine-wave frequency VS allowable voltage
Continued on the following page.
47
C03E.pdf
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
!Caution
Continued from the preceding page.
*Supported Series
Temperature characteristic U2J of GCM/DC250V or more
GCD Series
[DC Voltage Characteristics]
Sample: R Characteristics 0.1μF, Rated Voltage 50VDC
20
GCE Series
Capacitance Change (%)
GCJ Series
GCG Series
GC3 Series
KCM Series
5. DC Voltage and AC Voltage Characteristics
1. The capacitance value of a high dielectric constant type
capacitor changes depending on the DC voltage applied.
Please consider the DC voltage characteristics when a
capacitor is selected for use in a DC circuit.
1-1. The capacitance of ceramic capacitors may change
sharply depending on the applied voltage (see
figure).
Please confirm the following in order to secure the
capacitance.
(1) Determine whether the capacitance change
caused by the applied voltage is within the
allowed range.
(2) In the DC voltage characteristics, the rate of
capacitance change becomes larger as voltage
increases, even if the applied voltage is below
the rated voltage. When a high dielectric constant
type capacitor is used in a circuit that requires a
tight (narrow) capacitance tolerance (e.g., a time
constant circuit), please carefully consider the
voltage characteristics, and confirm the various
characteristics in actual operating conditions in an
actual system.
2. The capacitance values of high dielectric constant type
capacitors changes depending on the AC voltage applied.
Please consider the AC voltage characteristics when
selecting a capacitor to be used in an AC circuit.
By using this tool, the preferred products* can be checked
by specifications, such as the power, voltage, and
fundamental frequency of the voltage waveform to be
input into the capacitor.
0
-20
-40
-60
-80
-100
0
10
20
30
40
50
DC Voltage (V)
[AC Voltage Characteristics]
Sample: X7R Characteristics 10μF, Rated Voltage 6.3VDC
30
KC3 Series
Capacitance Change (%)
GCM Series
<Design Tool>
· Simsurfing
Simsurfing is a web application to display the
characteristics charts and download the characteristics
data of our products. The frequency characteristics,
temperature characteristics, bias characteristics etc. can
be checked.
(Address: http://www.murata.com/simsurfing/)
· Medium Voltage Ceramic Capacitor Selection Tool
The selection tool "Murata Medium Voltage Capacitors
Selection Tool by Voltage Form" is installed in the above
SimSurfing, where the usability of the preferred medium
voltage ceramic capacitors can be determined according
to the application including automobiles.
20
10
0
-10
-20
-30
-40
-50
-60
0
0.5
1
1.5
2
!Caution
AC Voltage (Vr.m.s.)
Continued on the following page.
48
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
!Caution
Continued from the preceding page.
[Example of Change Over Time (Aging Characteristics)]
GCM Series
20
10
0
-10
-20
GCJ Series
Capacitance Change (%)
6. Capacitance Aging
1. The high dielectric constant type capacitors have the
characteristic in which the capacitance value decreases
with the passage of time.
When you use high dielectric constant type capacitors in
a circuit that needs a tight (narrow) capacitance tolerance
(e.g., a time-constant circuit), please carefully consider
the characteristics of these capacitors, such as their
aging, voltage, and temperature characteristics. In
addition, check capacitors using your actual appliances at
the intended environment and operating conditions.
C0G
X7R
-30
-40
10
100
1000
10000
GCD Series
Time (h)
GCE Series
7. Vibration and Shock
1. Please confirm the kind of vibration and/or shock, its
condition, and any generation of resonance.
Please mount the capacitor so as not to generate
resonance, and do not allow any impact on the terminals.
2. Mechanical shock due to being dropped may cause
damage or a crack in the dielectric material of the
capacitor.
Do not use a dropped capacitor because the quality and
reliability may be deteriorated.
GCG Series
Crack
Floor
3. When printed circuit boards are piled up or handled, the
corner of another printed circuit board should not be
allowed to hit the capacitor, in order to avoid a crack or
other damage to the capacitor.
KCM Series
GC3 Series
Mounting printed circuit board
Crack
c Soldering and Mounting
1. Mounting Position
[Component Direction]
KC3 Series
Locate chip
horizontal to the
direction in
which stress
acts.
[Chip Mounting Close to Board Separation Point]
Perforation
A
C
B
Stress is easily
imposed in the order of
B, D<C<A.
D
!Caution
1. Confirm the best mounting position and direction that
minimizes the stress imposed on the capacitor during
flexing or bending the printed circuit board.
1-1. Choose a mounting position that minimizes the
stress imposed on the chip during flexing or bending
of the board.
Slit
Continued on the following page.
49
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
!Caution
Continued from the preceding page.
2. Information before Mounting
GCM Series
GCJ Series
GCD Series
1. Do not re-use capacitors that were removed from the
equipment.
2. Confirm capacitance characteristics under actual applied
voltage.
3. Confirm the mechanical stress under actual process and
equipment use.
4. Confirm the rated capacitance, rated voltage and other
electrical characteristics before assembly.
5. Prior to use, confirm the solder ability of capacitors that
were in long-term storage.
6. Prior to measuring capacitance, carry out a heat
treatment for capacitors that were in long-term storage.
7. The use of Sn-Zn based solder will deteriorate the
reliability of the MLCC.
Please contact our sales representative or product
engineers on the use of Sn-Zn based solder in advance.
3. Maintenance of the Mounting (pick and place) Machine
GCE Series
GCG Series
GC3 Series
KCM Series
1. Make sure that the following excessive forces are not
applied to the capacitors.
1-1. In mounting the capacitors on the printed circuit
board, any bending force against them shall be kept
to a minimum to prevent them from any bending
damage or cracking. Please take into account the
following precautions and recommendations for use
in your process.
(1) Adjust the lowest position of the pickup nozzle so
as not to bend the printed circuit board.
(2) Adjust the nozzle pressure within a static load of
1N to 3N during mounting.
2. Dirt particles and dust accumulated between the suction
nozzle and the cylinder inner wall prevent the nozzle from
moving smoothly. This imposes greater force upon the
chip during mounting, causing cracked chips. Also, the
locating claw, when worn out, imposes uneven forces on
the chip when positioning, causing cracked chips. The
suction nozzle and the locating claw must be maintained,
checked, and replaced periodically.
[Incorrect]
Suction Nozzle
Deflection
Board
Board Guide
[Correct]
Support Pin
Continued on the following page.
KC3 Series
!Caution
50
C03E.pdf
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
!Caution
Continued from the preceding page.
4-1. Reflow Soldering
[Standard Conditions for Reflow Soldering]
Reflow
GCM Series
Temperature (°C)
Soldering
Peak Temperature
Gradual
Cooling
220°C (200°C)
ΔT
GCJ Series
190°C (170°C)
170°C (150°C)
150°C (130°C)
Preheating
Time
60-120 seconds 30-60 seconds
Temperature
Incase of Lead Free Solder
( ): In case of Pb-Sn Solder
GCD Series
1. When sudden heat is applied to the components, the
mechanical strength of the components will decrease
because a sudden temperature change causes
deformation inside the components. In order to prevent
mechanical damage to the components, preheating is
required for both the components and the PCB.
Preheating conditions are shown in table 1. It is required to
keep the temperature differential between the solder and
the components surface (ΔT) as small as possible.
2. Solder ability of tin plating termination chips might be
deteriorated when a low temperature soldering profile
where the peak solder temperature is below the melting
point of tin is used. Please confirm the solder ability of tin
plated termination chips before use.
3. When components are immersed in solvent after mounting,
be sure to maintain the temperature difference (ΔT)
between the component and the solvent within the range
shown in table 1.
Vapor Reflow
Temperature (°C)
Soldering
Peak Temperature
Gradual
Cooling
ΔT
Table 1
Temperature Differential
GC3/GCD/GCE/GCJ/GCM Series
03/15/18/21/31 sizes
ΔTV190°C
GCJ/GCM Series 32/43/55 sizes
190°C (170°C)
170°C (150°C)
150°C (130°C)
GCE Series
Part Number
Preheating
ΔTV130°C
KC3/KCM Series 55 size
60-120 seconds
Time
20 seconds max.
Vapor Reflow
Peak Temperature
230 to 250°C
230 to 240°C
240 to 260°C
Atmosphere
Air
Saturated vapor
of inactive solvent
Air or N2
Pb-Sn Solder: Sn-37Pb
Lead Free Solder: Sn-3.0Ag-0.5Cu
[Allowable Reflow Soldering Temperature and Time]
280
270
260
250
240
GC3 Series
Reflow
Lead Free
Solder
Soldering Temperature (°C)
Pb-Sn Solder
GCG Series
Recommended Conditions
230
220
0
30
60
90
120
Soldering Time (sec.)
∗ GRM03: 1/3 of Chip Thickness min.
KC3 Series
0.2mm∗ min.
in section
!Caution
4. Optimum Solder Amount for Reflow Soldering
4-1. Overly thick application of solder paste results in a
excessive solder fillet height.
This makes the chip more susceptible to mechanical
and thermal stress on the board and may cause the
chips to crack.
4-2. Too little solder paste results in a lack of adhesive
strength on the outer electrode, which may result in
chips breaking loose from the PCB.
4-3. Make sure the solder has been applied smoothly to
the end surface to a height of 0.2mm* min.
KCM Series
In the case of repeated soldering, the accumulated
soldering time must be within the range shown above.
Inverting the PCB
Make sure not to impose any abnormal mechanical shocks
to the PCB.
Continued on the following page.
51
C03E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
!Caution
Continued from the preceding page.
4-2. Flow Soldering
1. Do not apply flow soldering to chips not listed in table 2.
[Standard Conditions for Flow Soldering]
Part Number
Temperature Differential
Soldering
Soldering
Peak
Temperature
Gradual
Cooling
ΔT
GC3/GCD/GCM Series 18/21/31 sizes
(Except for characteristics of X8L, X8G)
ΔTV150°C
GCJ Series Rated Voltage 250VDC
or more 18/21/31 sizes
Preheating
Peak
Temperature
GCJ Series
Preheating
GCD Series
GCE Series
GCG Series
2. When sudden heat is applied to the components, the
mechanical strength of the components will decrease
because a sudden temperature change causes
deformation inside the components. In order to prevent
mechanical damage to the components, preheating is
required for both of the components and the PCB board.
Preheating conditions are shown in table 2. It is required
to keep the temperature differential between the solder
and the components surface (ΔT) as low as possible.
3. Excessively long soldering time or high soldering
temperature can result in leaching of the outer electrodes,
causing poor adhesion or a reduction in capacitance
value due to loss of contact between the electrodes and
end termination.
4. When components are immersed in solvent after
mounting, be sure to maintain the temperature differential
(ΔT) between the component and solvent within the range
shown in the table 2.
30-90 seconds
Time
5 seconds max.
[Allowable Flow Soldering Temperature and Time]
Soldering Temperature (D)
GCM Series
Temperature (D)
Table 2
280
270
260
250
240
230
220
0
10
20
30
40
Soldering Time (sec.)
In the case of repeated soldering, the accumulated
soldering time must be within the range shown above.
Recommended Conditions
GC3 Series
Pb-Sn Solder
Lead Free Solder
Preheating Peak Temperature
90 to 110°C
100 to 120°C
Soldering Peak Temperature
240 to 250°C
250 to 260°C
Atmosphere
Air
N2
Pb-Sn Solder: Sn-37Pb
Lead Free Solder: Sn-3.0Ag-0.5Cu
KCM Series
5. Optimum Solder Amount for Flow Soldering
5-1. The top of the solder fillet should be lower than the
thickness of the components. If the solder amount is
excessive, the risk of cracking is higher during board
bending or any other stressful condition.
Up to Chip Thickness
Adhesive
in section
KC3 Series
Continued on the following page.
!Caution
52
C03E.pdf
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
!Caution
Continued from the preceding page.
4-3. Correction with a Soldering Iron
Appropriate Amount of Solder
The amount of solder for corrections by soldering iron,
should be lower than the height of the lower side of the chip.
Temperature Preheating Temperature
of Soldering
Differential Atmosphere
Iron Tip Temperature
(ΔT)
GC3/GCD/GCE/
350°C max. 150°C min. ΔTV190°C
GCJ/GCM Series
03/15/18/21/31 sizes
Air
GCJ/GCM Series
32/43/55 sizes
Air
280°C max. 150°C min. ΔTV130°C
GCE Series
GCD Series
GCJ Series
*Applicable for both Pb-Sn and Lead Free Solder.
Pb-Sn Solder: Sn-37Pb
Lead Free Solder: Sn-3.0Ag-0.5Cu
GCM Series
Part Number
Solder Amount
GC3 Series
GCG Series
in section
26
KCM Series
Tip of Soldering Iron
Tip temperature: 350°C or less/
5 sec. or less/60W or less
(in mm)
Copper Land
Wire Solder
Apply the tip of the soldering iron only
on the terminal portion, without touching
the body of the chip.
KC3 Series
17
R0.5
!Caution
How to Apply the Soldering Iron
Apply the tip of the soldering iron against the lower end of
the metal terminal.
1) In order to prevent cracking caused by sudden heating of
the ceramic device, do not touch the ceramic base directly.
2) In order to prevent deviations and dislocating of the chip,
do not touch the junction of the chip and the metal
terminal, and the metal portion on the outside directly.
Table 3
ø6.5
1. When sudden heat is applied to the components when
using a soldering iron, the mechanical strength of the
components will decrease because the extreme
temperature change can cause deformations inside the
components. In order to prevent mechanical damage to
the components, preheating is required for both the
components and the PCB board. Preheating conditions
(the "Temperature of the Soldering Iron Tip," "Preheating
Temperature," and "Temperature Differential" between
the iron tip and the components and the PCB), should be
within the conditions of table 3. It is required to keep the
temperature differential between the soldering iron and
the component surfaces (ΔT) as low as possible.
2. After soldering, do not allow the component/PCB to cool
down rapidly.
3. The operating time for the re-working should be as short
as possible. When re-working time is too long, it may
cause solder leaching, resulting in a reduction in the
adhesive strength of the terminations.
4. Optimum solder amount when re-working with a soldering
iron
4-1. In the case of sizes smaller than 0603, (GC3/GCD/
GCE/GCJ/GCM Series, 03/15/18 sizes), the top of
the solder fillet should be lower than 2/3 of the
thickness of the component or 0.5mm, whichever is
smaller. In the case of 0805 and larger sizes, (GC3/
GCD/GCE/GCJ/GCM Series, 21/31/32/43/55 sizes),
the top of the solder fillet should be lower than 2/3 of
the thickness of the component. If the solder amount
is excessive, the risk of cracking is higher during
board bending or under any other stressful condition.
4-2. A soldering iron with a tip of ø3mm or smaller should
be used. It is also necessary to keep the soldering
iron from touching the components during the re-work.
4-3. Solder wire with ø0.5mm or smaller is required for
soldering.
<Applicable to KC3/KCM Series>
5. For the shape of the soldering iron tip, refer to the figure
on the right.
Regarding the type of solder, use a wire diameter of
ø0.5mm or less (rosin core wire solder).
Cross Section
Continued on the following page.
53
C03E.pdf
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
!Caution
Continued from the preceding page.
4-4. Leaded Component Insertion
GCM Series
1. If the PCB is flexed when leaded components (such as
transformers and ICs) are being mounted, chips may
crack and solder joints may break.
Before mounting leaded components, support the PCB
using backup pins or special jigs to prevent warping.
5. Washing
GCJ Series
Excessive ultrasonic oscillation during cleaning can cause
the PCBs to resonate, resulting in cracked chips or broken
solder joints. Take note not to vibrate PCBs.
6. Electrical Test on Printed Circuit Board
GCD Series
GCE Series
1. Confirm position of the support pin or specific jig, when
inspecting the electrical performance of a capacitor after
mounting on the printed circuit board.
1-1. Avoid bending the printed circuit board by the
pressure of a test pin, etc.
The thrusting force of the test probe can flex the PCB,
resulting in cracked chips or open solder joints.
Provide support pins on the back side of the PCB to
prevent warping or flexing.
1-2. Avoid vibration of the board by shock when a test pin
contacts a printed circuit board.
[Not Recommended]
Peeling
Test-pin
[Recommended]
Support Pin
GCG Series
Test-pin
7. Printed Circuit Board Cropping
GC3 Series
1. After mounting a capacitor on a printed circuit board, do
not apply any stress to the capacitor that is caused by
bending or twisting the board.
1-1. In cropping the board, the stress as shown at right
may cause the capacitor to crack.
Avoid this type of stress to a capacitor.
[Bending]
[Twisting]
KCM Series
KC3 Series
!Caution
Continued on the following page.
54
C03E.pdf
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
!Caution
Continued from the preceding page.
GCM Series
2. Check the cropping method for the printed circuit board
in advance.
2-1. Printed circuit board cropping shall be carried out by
using a jig or an apparatus to prevent the mechanical
stress that can occur to the board.
(1) Example of a suitable jig
Recommended example: the board should be
pushed as close to the cropping jig as possible
and from the back side of the board in order to
minimize the compressive stress applied to the
capacitor.
Not recommended example: when the board is
pushed at a point far from the cropping jig and
from the front side of board as below, the
capacitor may form a crack caused by the tensile
stress applied.
[Outline of Jig]
Printed Circuit Board
GCJ Series
GCD Series
Board Cropping Jig
Recommended
Not recommended
Direction of Load
Printed Circuit Board
V-groove
Direction of Load
Load Point
Components
Components
Printed Circuit Board
(2) Example of a suitable machine
An outline of a printed circuit board cropping
machine is shown as follows. Along the lines with
the V-grooves on the printed circuit board, the top
and bottom blades are aligned to one another
when cropping the board.
The misalignment of the position between top and
bottom blades may cause the capacitor to crack.
GCE Series
Load Point
[Outline of Machine]
GCG Series
Top Blade
GC3 Series
Printed Circuit Board
Top Blade
[Principle of Operation]
Bottom Blade
V-groove
[Cross-section Diagram]
KCM Series
Printed Circuit Board
V-groove
Recommended
Not Recommended
Top-bottom Misalignment
Left-right Misalignment
Top Blade
Top Blade
Bottom Blade
Bottom Blade
Bottom Blade
Front-rear Misalignment
Top Blade
KC3 Series
Top Blade
Bottom Blade
!Caution
Continued on the following page.
55
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
C03E.pdf
May.17,2013
!Caution
Continued from the preceding page.
<Applicable to GCG Series>
8. Selection of Conductive Adhesive, Mounting
Process, and Bonding Strength
GCM Series
The acquired bonding strength may change greatly
depending on the conductive adhesive to be used.
Be sure to confirm if the desired performance can be
acquired in the assumed mounting process with the
conductive adhesive to be used.
GCJ Series
9. Moisture Proof Process
In order to prevent the occurrence of migration, perform a
moisture proof process, such as applying a resin coating or
enclosing with a dry inert gas.
GCD Series
10. Application
This product is for conductive adhesive mounting. When
performing solder mounting, contact Murata in advance.
GCE Series
c Other
GCG Series
GC3 Series
KCM Series
KC3 Series
!Caution
1. Under Operation of Equipment
1-1. Do not touch a capacitor directly with bare hands
during operation in order to avoid the danger of an
electric shock.
1-2. Do not allow the terminals of a capacitor to come in
contact with any conductive objects (short-circuit).
Do not expose a capacitor to a conductive liquid,
including any acid or alkali solutions.
1-3. Confirm the environment in which the equipment will
operate is under the specified conditions.
Do not use the equipment under the following
environments.
(1) Being spattered with water or oil.
(2) Being exposed to direct sunlight.
(3) Being exposed to ozone, ultraviolet rays, or
radiation.
(4) Being exposed to toxic gas (e.g., hydrogen sulfide,
sulfur dioxide, chlorine, ammonia gas, etc.)
(5) Any vibrations or mechanical shocks exceeding the
specified limits.
(6) Moisture condensing environments.
1-4. Use damp proof countermeasures if using under any
conditions that can cause condensation.
2. Other
2-1. In an Emergency
(1) If the equipment should generate smoke, fire, or
smell, immediately turn off or unplug the equipment.
If the equipment is not turned off or unplugged, the
hazards may be worsened by supplying continuous
power.
(2) In this type of situation, do not allow face and
hands to come in contact with the capacitor or
burns may be caused by the capacitor's high
temperature.
56
2-2. Disposal of Waste
When capacitors are disposed of, they must be
burned or buried by an industrial waste vendor with
the appropriate licenses.
2-3. Circuit Design
(1) Addition of Fail Safe Function
Be sure to add a fail safe function to the finished
product to prevent secondary accidents, in the
case where an abnormality or discrepancy occurs
in the product.
(2) Capacitors used to prevent electromagnetic
interference in the primary AC side circuit, or as a
connection/insulation, must be a safety standard
certified product, or satisfy the contents stipulated
in the Electrical Appliance and Material Safety
Law.
(3) The GC3, GCD, GCE, GCG, GCJ, GCM, KC3,
and KCM series are not safety standard certified
products.
2-4. Remarks
Failure to follow the cautions may result, worst case,
in a short circuit and smoking when the product is
used.
The above notices are for standard applications and
conditions. Contact us when the products are used in
special mounting conditions.
Select optimum conditions for operation as they
determine the reliability of the product after assembly.
The data herein are given in typical values, not
guaranteed ratings.
C03E.pdf
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
Notice
GCJ Series
operating environments may deteriorate due to
the corrosion of the terminations and the
penetration of moisture into the capacitor.
1-2. The same phenomenon as the above may occur
when the electrodes or terminals of the capacitor
are subject to moisture condensation.
1-3. The deterioration of characteristics and insulation
resistance due to the oxidization or corrosion of
terminal electrodes may result in breakdown when
the capacitor is exposed to corrosive or volatile
gases or solvents for long periods of time.
3. Piezo-electric Phenomenon
1. When using high dielectric constant type capacitors in
AC or pulse circuits, the capacitor itself vibrates at
specific frequencies and noise may be generated.
Moreover, when the mechanical vibration or shock is
added to the capacitor, noise may occur.
GCD Series
1. Operating Temperature
1. The operating temperature limit depends on the capacitor.
1-1. Do not apply temperatures exceeding the upper
operating temperature.
It is necessary to select a capacitor with a suitable
rated temperature that will cover the operating
temperature range.
It is also necessary to consider the temperature
distribution in equipment and the seasonal
temperature variable factor.
1-2. Consider the self-heating factor of the capacitor.
The surface temperature of the capacitor shall be
the upper operating temperature or less when
including the self-heating factors.
2. Atmosphere Surroundings (gaseous and liquid)
1. Restriction on the operating environment of capacitors.
1-1. Capacitors, when used in the above, unsuitable,
GCM Series
c Rating
Pattern Forms
Prohibited
Correct
Chassis
Solder (ground)
GCG Series
1-2. There is a possibility of chip cracking caused by PCB
expansion/contraction with heat, because stress on a
chip is different depending on PCB material and
structure. Especially metal PCB such as alumina has
a greater risk of chip crack because of the large
difference in thermal expansion coefficient. In case of
a chip below 0402 size, there is also the same
possibility of cracking with a single-layered glass
epoxy board.
GC3 Series
1. PCB Design
1. Notice for Pattern Forms
1-1. Unlike leaded components, chip components are
susceptible to flexing stresses since they are
mounted directly on the substrate.
They are also more sensitive to mechanical and
thermal stresses than leaded components.
Excess solder fillet height can multiply these stresses
and cause chip cracking. When designing substrates,
take land patterns and dimensions into consideration
to eliminate the possibility of excess solder fillet
height.
GCE Series
c Soldering and Mounting
Solder Resist
KCM Series
Placing Close to Chassis
Electrode Pattern
Lead Wire
Solder Resist
KC3 Series
Placing
of Chip Components
and Leaded Components
Soldering Iron
Placing
of Leaded Components
after Chip Component
Lead Wire
Solder Resist
Notice
Solder Resist
Lateral Mounting
Continued on the following page.
57
C03E.pdf
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
Notice
Continued from the preceding page.
GCM Series
2. Land Dimensions
2-1. Chip capacitors can be cracked due to the stress of
PCB bending, etc. if the land area is larger than
needed and has an excess amount of solder.
Please refer to the land dimensions in table 1 for flow
soldering, table 2 for reflow soldering.
Please confirm the suitable land dimension by
evaluating of the actual SET / PCB.
Land
Chip Capacitor
c
b
Solder Resist
a
GCJ Series
Table 1 Flow Soldering Method
Dimensions
GCD Series
Chip (LgW)
a
b
c
GC3/GCD/GCM/GCJ18
(Rated Voltage: above 250VDC (for GCJ18 alone))
1.6g0.8
0.6 to 1.0
0.8 to 0.9
0.6 to 0.8
GC3/GCD/GCM/GCJ21
(Rated Voltage: above 250VDC (for GCJ21 alone))
2.0g1.25
1.0 to 1.2
0.9 to 1.0
0.8 to 1.1
GC3/GCD/GCM/GCJ31
(Rated Voltage: above 250VDC (for GCJ31 alone))
3.2g1.6
2.2 to 2.6
1.0 to 1.1
1.0 to 1.4
Part Number
(in mm)
Flow soldering can only be used for products with a chip size of 3.2x1.6mm or less.
Table 2 Reflow Soldering Method
GCE Series
Dimensions
Chip (LgW)
a
b
c
GC3/GCD/GCE/GCJ/GCM03
0.6g0.3
GC3/GCD/GCE/GCJ/GCM15
1.0g0.5
0.2 to 0.3
0.2 to 0.35
0.2 to 0.4
0.3 to 0.5
0.35 to 0.45
GC3/GCD/GCE/GCJ/GCM18
0.4 to 0.6
1.6g0.8
0.6 to 0.8
0.6 to 0.7
0.6 to 0.8
GC3/GCD/GCE/GCJ/GCM21
2.0g1.25
1.0 to 1.2
0.6 to 0.7
0.8 to 1.1
GC3/GCD/GCE/GCJ/GCM31
3.2g1.6
2.2 to 2.4
0.8 to 0.9
1.0 to 1.4
GC3/GCD/GCE/GCJ/GCM32
3.2g2.5
2.0 to 2.4
1.0 to 1.2
1.8 to 2.3
GC3/GCD/GCE/GCJ/GCM43
4.5g3.2
3.0 to 3.5
1.2 to 1.4
2.3 to 3.0
GC3/GCD/GCE/GCJ/GCM55
5.7g5.0
4.0 to 4.6
1.4 to 1.6
3.5 to 4.8
Part Number
GCG Series
(in mm)
GC3 Series
<Applicable to Part Number KC3/KCM>
Dimensions
Part Number
KC3/KCM55
Chip (LgW)
a
b
c
5.7g5.0
2.6
2.7
5.6
(in mm)
KCM Series
2. Adhesive Application
KC3 Series
1. Thin or insufficient adhesive can cause the chips to
loosen or become disconnected during flow soldering.
The amount of adhesive must be more than dimension c,
shown in the drawing at right, to obtain the correct
bonding strength.
The chip's electrode thickness and land thickness must
also be taken into consideration.
2. Low viscosity adhesive can cause chips to slip after
mounting. The adhesive must have a viscosity of
5000Pa s s (500ps) min. (at 25°C).
3. Adhesive Coverage
Notice
Size (LgW)
Adhesive Coverage*
1.6g0.8
0.05mg min.
2.0g1.25
0.1mg min.
3.2g1.6
0.15mg min.
Chip Capacitor
a=20 to 70μm
b=30 to 35μm
c=50 to 105μm
a
c
Board
Adhesive
Land
b
*Nominal Value
Continued on the following page.
58
C03E.pdf
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
May.17,2013
Notice
Continued from the preceding page.
3. Adhesive Curing
4. Flux Application
3. Do not use strong acidic flux.
4. Do not use water-soluble flux.*
(*Water-soluble flux can be defined as non-rosin type flux
including wash-type flux and non-wash-type flux.)
GCD Series
1. An excessive amount of flux generates a large quantity of
flux gas, which can cause a deterioration of solder ability,
so apply flux thinly and evenly throughout. (A foaming
system is generally used for flow soldering.)
2. Flux containing too high a percentage of halide may
cause corrosion of the outer electrodes unless there is
sufficient cleaning. Use flux with a halide content of 0.1%
max.
GCJ Series
GCM Series
1. Insufficient curing of the adhesive can cause chips to
disconnect during flow soldering and causes deterioration
in the insulation resistance between the outer electrodes
due to moisture absorption.
Control curing temperature and time in order to prevent
insufficient hardening.
[As a Single Chip]
A
B
D
Outer Electrode
C
GCG Series
o Set temperature and time to ensure that leaching of the
outer electrode does not exceed 25% of the chip end
area as a single chip (full length of the edge A-B-C-D
shown at right) and 25% of the length A-B shown as
mounted on substrate.
GCE Series
5. Flow Soldering
[As Mounted on Substrate]
B
GC3 Series
A
6. Washing
KC3 Series
KCM Series
3. Select the proper cleaning conditions.
3-1. Improper cleaning conditions (excessive or
insufficient) may result in deterioration of the
performance of the capacitors.
Notice
1. Please evaluate the capacitor using actual cleaning
equipment and conditions to confirm the quality, and
select the solvent for cleaning.
2. Unsuitable cleaning solvent may leave residual flux or
other foreign substances, causing deterioration of
electrical characteristics and the reliability of the
capacitors.
59
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
C03E.pdf
May.17,2013
Notice
Continued from the preceding page.
7. Coating
GCM Series
GCJ Series
GCD Series
! CRACK MAY BE CAUSED IN THE CAPACITOR DUE TO THE STRESS
of the thermal contraction of the resin during curing
process.
The stress is affected by the amount of resin and curing
contraction.
3ELECT A RESIN WITH LOW CURING CONTRACTION
The difference in the thermal expansion coefficient
BETWEEN A COATING RESIN OR A MOLDING RESIN AND THE
capacitor may cause the destruction and deterioration of
THE CAPACITOR SUCH AS A CRACK OR PEELING AND LEAD TO THE
deterioration of insulation resistance or dielectric
BREAKDOWN
3ELECT A RESIN FOR WHICH THE THERMAL EXPANSION COEFFICIENT
is as close to that of the capacitor as possible.
A silicone resin can be used as an under-coating to buffer
against the stress.
3ELECT A RESIN THAT IS LESS HYGROSCOPIC
Using hygroscopic resins under high humidity conditions
may cause the deterioration of the insulation resistance of
a capacitor.
An epoxy resin can be used as a less hygroscopic resin.
c Other
GCE Series
GCG Series
GC3 Series
KCM Series
KC3 Series
1. Transportation
1. The performance of a capacitor may be affected by the
conditions during transportation.
1-1. The capacitors shall be protected against
excessive temperature, humidity, and mechanical
force during transportation.
(1) Climatic condition
s LOW AIR TEMPERATURE #
s CHANGE OF TEMPERATURE AIRAIR # #
s LOW AIR PRESSURE K0A
s CHANGE OF AIR PRESSURE K0AMIN
-ECHANICAL CONDITION
4RANSPORTATION SHALL BE DONE IN SUCH A WAY THAT
the boxes are not deformed and forces are not
DIRECTLY PASSED ON TO THE INNER PACKAGING
$O NOT APPLY EXCESSIVE VIBRATION SHOCK OR
pressure to the capacitor.
7HEN EXCESSIVE MECHANICAL SHOCK OR PRESSURE
IS APPLIED TO A CAPACITOR CHIPPING OR CRACKING
may occur in the ceramic body of the capacitor.
7HEN THE SHARP EDGE OF AN AIR DRIVER A
SOLDERING IRON TWEEZERS A CHASSIS ETC
impacts strongly on the surface of the capacitor,
THE CAPACITOR MAY CRACK AND SHORT CIRCUIT
$O NOT USE A CAPACITOR TO WHICH EXCESSIVE SHOCK
WAS APPLIED BY DROPPING ETC
A capacitor dropped accidentally during
processing may be damaged.
Notice
60
#HARACTERISTICS %VALUATION IN THE !CTUAL 3YSTEM
%VALUATE THE CAPACITOR IN THE ACTUAL SYSTEM TO CONFIRM
THAT THERE IS NO PROBLEM WITH THE PERFORMANCE AND
specification values in a finished product before using.
3INCE A VOLTAGE DEPENDENCY AND TEMPERATURE
dependency exists in the capacitance of high dielectric
type ceramic capacitors, the capacitance may change
depending on the operating conditions in the actual
system. Therefore, be sure to evaluate the various
CHARACTERISTICS SUCH AS THE LEAKAGE CURRENT AND NOISE
ABSORPTIVITY WHICH WILL AFFECT THE CAPACITANCE VALUE OF
the capacitor.
)N ADDITION VOLTAGES EXCEEDING THE PREDETERMINED
surge may be applied to the capacitor by the
INDUCTANCE IN THE ACTUAL SYSTEM %VALUATE THE SURGE
resistance in the actual system as required.
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
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May.17,2013
MEMO
61
ad rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
!Note • Please read
• This catalog
og has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
62
C03E.pdf
May.17,2013
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
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May.17,2013
63
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
Capacitor Website Introduction
The website and search engine of ceramic capacitors has been drastically renewed.
capacitor murata
http://www.murata.com/products/capacitor/
C03E.pdf
May.17,2013
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• This catalog has only typical specifications. Therefore, please approve our product specifications or transact the approval sheet for product specifications before ordering.
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May.17,2013
Convenient Search The type of searches has been increased to respond to various ways of searching.
The products you are searching for can easily be found from about 40,000 part numbers!
The frequency of revisions and discontinuance has been increased to provide the latest information at all times!
Substantial
Technical
Information
Reference drawings (Specifications and Test Methods) can be downloaded in PDF format.
Graphs of the electrical characteristic data (Capacitance - Temperature characteristics / DC bias characteristics /
AC voltage characteristics / Frequency characteristics) can be displayed.
s Reliability test data can be downloaded.
s
s
1 Examples of Problem Solving
2 Industry Pickup
Contents for Solving customers' problems.
s Examples of Replacement (Video)
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Countermeasures (Video) etc.
3 Advantages of Murata Capacitors
Introducing the recommended
series and the latest information
on Murata for each industry.
s Automobile
s Smart Phones etc.
We explain the unique benefits of
Murata capacitors, our matchless
quality, track record in the market,
supply systems and development
capability.
You can contact us and download catalogs from here.
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Products can be searched by problems,
shapes or mounting methods.
Cross reference search
Equivalent products of Murata can be
searched by competitors' part numbers.
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Products can be searched
by entire product lineup.
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Products can be searched by capacitance,
rated voltage or temperature characteristics.
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Products can be searched
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SimSurfing
This is a web application to display characteristics charts of
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Netlist (SPICE Model)
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(for Agilent ADS, for AWR Microwave Officer)
Frequently Asked Questions (FAQ)
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The contents of problems can easily be searched by keywords with
this search function.
Characteristics Data
(Dimensions / Capacitance - Temperature Characteristics /
DC Bias Characteristics / AC Voltage / Frequency Characteristics /
Heat Generation by Ripple Currents, etc.)
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Safety Certificates by Series
List of ISO14001 Certified Plants
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Cat. No. C03E-6
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