• All specifi cations are subject to change without notice.
Type: CGA2 [EIA CC0402], CGA3 [EIA CC0603], CGA4 [EIA CC0805],
CGA5 [EIA CC1206], CGA6 [EIA CC1210], CGA8 [EIA CC1812], CGA9 [EIA CC2220]
Series Name
Dimensions L x W (mm)
Temperature Characteristics
Rated Voltage (DC)
Nominal Capacitance (pF)
Capacitance Tolerance
Packaging Style
Nominal Thickness
Code Length Width Terminal
2
1.00 ±0.05 0.50 ±0.05
0.10 min.
3
1.60 ±0.10 0.80 ±0.10
0.20 min.
4
2.00 ±0.20 1.25 ±0.20
0.20 min.
5
3.20 ±0.20 1.60 ±0.20
0.20 min.
6
3.20 ±0.40 2.50 ±0.30
0.20 min.
8
4.50 ±0.40 3.20 ±0.40
0.20 min.
9
5.70 ±0.40 5.00 ±0.40
0.20 min.
*Dimension tolerance are typical values
Code Voltage (DC)
2A 100V
2E 250V
2W 450V
2J 630V
Code Tolerance
C
±
0.25pF
D
±
0.50pF
J
±5%
K
±
10%
M
±20%
Code Style
A 178 mm Reel, 4 mm Pitch
B 178 mm Reel, 2 mm Pitch
K 178 mm Reel, 8 mm Pitch
Temperature
Characteristics
Temperature
Range
C0G
0±30 ppm/°C -55 to +125°C
X7R
±15% -55 to +125°C
X7S
±22% -55 to +125°C
X7T +22/-33%
-55 to +125°C
CGA • 9 • P • 3 • X7S • 2A • 156 • M • 250 • K • B
Code Thickness
050 0.50 mm
060 0.60 mm
125
230
280
1.25 mm
2.30 mm
2.80 mm
320
3.20 mm
*See Thickness T Code for complete list
Special Reserved Code
Code Description
A, B, C TDK Internal Code
Code Thickness
B0.50 mm
C0.60 mm
E0.80 mm
F0.85 mm
H1.15 mm
J1.25 mm
K1.30 mm
L1.60 mm
M2.00 mm
N2.30 mm
P2.50 mm
Q2.80 mm
R3.20 mm
Thickness T Code (mm)
Symbol Condition
1
1 × R.V.
2
2 × R.V.
Voltage Condition
for Life Test
CGA Series
Mid Voltage (100 to 630V)
• Application in decoupling, smoothing, and
snubber circuits of inverters or DC-DC
converters of HEVs or EVs
• Countermeasure against voltage surge and
noise in connectors
Features Applications
L Body Length
W Body Width
T Body Height
B Terminal Width
G Terminal Spacing
Shape &
Dimensions
Symbol Condition
3
1.5 × R.V.
4
1.2 × R.V.
The capacitance is expressed in three digit codes and in units of pico Farads (pF).
The first and second digits identify the first and second significant figures of the
capacitance. The third digit identifies the multiplier. R designates a decimal point.
Ex. 0R2 = 0.2pF; 103 = 10,000pF; 105 = 1,000,000pF = 1,000nF = 1ȝF
9ROWDJHUDWLQJRI9WR9ZLWKFDSDFLWDQFHUDQJHXSWRȝ)
• High capacitance has been achieved through precision technologies
that enable the use of multiple thinner ceramic dielectric layers.
• Low residual inductance assures superior frequency characteristics.
• Excellent DC Bias properties.
• A lineup with wide-ranging rated voltages that enables selections
that are suitable for needs.
• AEC-Q200 compliant.
Temperature Coefficient or
Capacitance Change
Catalog Number
Construction
Page 2
MULTILAYER CERAMIC CHIP CAPACITORS
20150309 / mlcc_automotive_midvoltage_en