TAIYO MLCC 編碼規則
1. Series
2. Voltage
3. Dimensions (LxW)
Code
Series
Code
Rated Voltage
Code
L x W (mm)
EIA
MSAS
General-consumer-grade chip MLCCs
for high dielectric constant/temperature compensation/medium to high
voltage tolerance.
P
2.5V
04
0.4x0.2
01005
A
4V
06
0.6x0.3
0201
J
6.3V
10
1.0x0.5
0402
MSAR
General
consumer-grade chip MLCCs
for high-frequency/low-loss applications and medium to high voltage
tolerance.
L
10V
16
1.6x0.8
0603
E
16V
21
2.0x1.25
0805
MSAY
General
consumer-grade chip MLCC
for low-distortion design/audio/good bias.
T
25V
31
3.2x1.6
1206
G
35V
32
3.2x2.5
1210
MSRL
General
consumer-grade LW
inverted/low ESL multilayer ceramic capacitors (LWDC™).
U
50V
45
4.5x3.2
1812
H
100V
Q
250V
S
630V
X
2KV
4. Dimension (T) and
5. Tolerance (mm)
6. Temperature Characteristics
Code 4
T (mm)
Code 5
EIA
Detailed Tolerance for LxW
Code
Public STD
Code
Capacitance Change or
Temperature Coefficient
Operating
Temperature
Range
3
0.3
A
±0.05
0201
B5
B
JIS
±10%
-25 to 85℃
B
±0.09
0201
X5R
EIA
±15%
-55 to 85℃
E
+0.25/-0
0201
B7
X7R
EIA
±15%
-55 to 125℃
S
±0.03
0201
C6
X6S
EIA
±22%
-55 to 105℃
K
0.45
J
±0.05
0603
1.6+0.2/-0 x 0.8+0.2/-0
C7
X7S
EIA
±22%
-55 to 125℃
T
±0.05
0603
1.6±0.1 x 0.8±0.1
LD
X5R
EIA
±15%
-55 to 85℃
5
0.5
A
±0.1
0402
CG
CG
JIS
0±30ppm/℃
-55 to 125℃
B
+0.15/-0.05
0402
C0G
EIA
C
+0.2/-0
0402
CH
CH
JIS
0±60ppm/℃
-55 to 125℃
E
+0.3/-0
0402
C0H
EIA
S
±0.05
0402
CJ
CJ
JIS
0±120ppm/℃
-55 to 125℃
8
0.8
A
+0.15/-0.05
0603
C0J
EIA
B
+0.2/-0
0603
CK
CK
JIS
0±250ppm/℃
-55 to 125℃
S
±0.1
0603
C0K
EIA
9
0.85
H
±0.1
1206
3.2±0.15 x 1.6±0.15
J
±0.1
0805
2+0.15/-0.05 x 1.25+0.15/-0.05
1210
3.2±0.3 x 2.5±0.2
L
±0.1
0805
2+0.2/-0 x 1.25+0.2/-0
0805
3.2±0.2 x 1.6±0.2
S
±0.1
0805
2.0±0.1 x 1.25±0.1
Q
1.15
H
±0.1
1206
3.2±0.15 x 1.6±0.15
J
±0.1
1210
3.2±0.3 x 2.5±0.2
G
1.25
A
+0.15/-0.05
0805
B
+0.2/-0
0805
S
±0.1
0805
L
1.6
A
±0.2
1206
3.2±0.2 x 1.6±0.2
S
±0.2
1206
3.2±0.15 x 1.6±0.15
B
±0.3
1206
N
1.9
S
±0.2
1210
Y
2
A
+0/-0.3
1812
4.5±0.4 x 3.2±0.3
B
+0/-0.3
1210
3.2±0.3 x 2.5±0.2
M
2.5
A
±0.3
1210
S
±0.2
1210
7. Capacitance
8. Tolerance
The
capacitance value is
represented in three-digit alphanumerics, with the unit being picofarads
(pF) as the base
unit. The first two digits are significant figures, and the third digit
indicates the number
of zeros following them.
If there's a decimal point, it's
represented as "R," and all
figures remain significant. The differences between uF, nF, and pF are
factors of
1,000(1uF=1,000nF=1,000,000pF).
Three-digit alphanumerics example as
below:
Code
Capacitance
Code
Capacitance Tolerance
R50
0.50pF
A
±0.05pF
1R0
1.0pF
B
±0.1pF
100
10pF
C
±0.25pF
103
10,000pF or 10nF
D
±0.5pF
105
1,000,000pF or 1,000nF or 1uF
G
±2%
107
100uF
J
±5%
K
±10%
M
±20%
9. Packaging
10. Internal control
code
Code
Packaging
The last four digits are for internal management purposes
only.
F
ø178mm Taping (2mm pitch)
T
ø178mm Taping (4mm pitch)
P
ø178mm Taping (4mm pitch, 1Kpcs/Reel)
1210 type (Thickness code M)
R
ø178mm Taping
0402 type (2mm pitch)
0603 type (4mm pitch)
W
ø178mm Taping (1mm pitch)
0201/0402 type type only
| 1. Series | 2. Voltage | 3. Dimensions (LxW) | ||||||
| Code | Series | Code | Rated Voltage | Code | L x W (mm) | EIA | ||
| MSAS | General-consumer-grade chip MLCCs for high dielectric constant/temperature compensation/medium to high voltage tolerance. | P | 2.5V | 04 | 0.4x0.2 | 01005 | ||
| A | 4V | 06 | 0.6x0.3 | 0201 | ||||
| J | 6.3V | 10 | 1.0x0.5 | 0402 | ||||
| MSAR | General consumer-grade chip MLCCs for high-frequency/low-loss applications and medium to high voltage tolerance. | L | 10V | 16 | 1.6x0.8 | 0603 | ||
| E | 16V | 21 | 2.0x1.25 | 0805 | ||||
| MSAY | General consumer-grade chip MLCC for low-distortion design/audio/good bias. | T | 25V | 31 | 3.2x1.6 | 1206 | ||
| G | 35V | 32 | 3.2x2.5 | 1210 | ||||
| MSRL | General consumer-grade LW inverted/low ESL multilayer ceramic capacitors (LWDC™). | U | 50V | 45 | 4.5x3.2 | 1812 | ||
| H | 100V | |||||||
| Q | 250V | |||||||
| S | 630V | |||||||
| X | 2KV | |||||||
| 4. Dimension (T) and 5. Tolerance (mm) | 6. Temperature Characteristics | ||||||||||
| Code 4 | T (mm) | Code 5 | EIA | Detailed Tolerance for LxW | Code | Public STD Code | Capacitance Change or Temperature Coefficient |
Operating Temperature Range |
|||
| 3 | 0.3 | A | ±0.05 | 0201 | B5 | B | JIS | ±10% | -25 to 85℃ | ||
| B | ±0.09 | 0201 | X5R | EIA | ±15% | -55 to 85℃ | |||||
| E | +0.25/-0 | 0201 | B7 | X7R | EIA | ±15% | -55 to 125℃ | ||||
| S | ±0.03 | 0201 | C6 | X6S | EIA | ±22% | -55 to 105℃ | ||||
| K | 0.45 | J | ±0.05 | 0603 | 1.6+0.2/-0 x 0.8+0.2/-0 | C7 | X7S | EIA | ±22% | -55 to 125℃ | |
| T | ±0.05 | 0603 | 1.6±0.1 x 0.8±0.1 | LD | X5R | EIA | ±15% | -55 to 85℃ | |||
| 5 | 0.5 | A | ±0.1 | 0402 | CG | CG | JIS | 0±30ppm/℃ | -55 to 125℃ | ||
| B | +0.15/-0.05 | 0402 | C0G | EIA | |||||||
| C | +0.2/-0 | 0402 | CH | CH | JIS | 0±60ppm/℃ | -55 to 125℃ | ||||
| E | +0.3/-0 | 0402 | C0H | EIA | |||||||
| S | ±0.05 | 0402 | CJ | CJ | JIS | 0±120ppm/℃ | -55 to 125℃ | ||||
| 8 | 0.8 | A | +0.15/-0.05 | 0603 | C0J | EIA | |||||
| B | +0.2/-0 | 0603 | CK | CK | JIS | 0±250ppm/℃ | -55 to 125℃ | ||||
| S | ±0.1 | 0603 | C0K | EIA | |||||||
| 9 | 0.85 | H | ±0.1 | 1206 | 3.2±0.15 x 1.6±0.15 | ||||||
| J | ±0.1 | 0805 | 2+0.15/-0.05 x 1.25+0.15/-0.05 | ||||||||
| 1210 | 3.2±0.3 x 2.5±0.2 | ||||||||||
| L | ±0.1 | 0805 | 2+0.2/-0 x 1.25+0.2/-0 | ||||||||
| 0805 | 3.2±0.2 x 1.6±0.2 | ||||||||||
| S | ±0.1 | 0805 | 2.0±0.1 x 1.25±0.1 | ||||||||
| Q | 1.15 | H | ±0.1 | 1206 | 3.2±0.15 x 1.6±0.15 | ||||||
| J | ±0.1 | 1210 | 3.2±0.3 x 2.5±0.2 | ||||||||
| G | 1.25 | A | +0.15/-0.05 | 0805 | |||||||
| B | +0.2/-0 | 0805 | |||||||||
| S | ±0.1 | 0805 | |||||||||
| L | 1.6 | A | ±0.2 | 1206 | 3.2±0.2 x 1.6±0.2 | ||||||
| S | ±0.2 | 1206 | 3.2±0.15 x 1.6±0.15 | ||||||||
| B | ±0.3 | 1206 | |||||||||
| N | 1.9 | S | ±0.2 | 1210 | |||||||
| Y | 2 | A | +0/-0.3 | 1812 | 4.5±0.4 x 3.2±0.3 | ||||||
| B | +0/-0.3 | 1210 | 3.2±0.3 x 2.5±0.2 | ||||||||
| M | 2.5 | A | ±0.3 | 1210 | |||||||
| S | ±0.2 | 1210 | |||||||||
| 7. Capacitance | 8. Tolerance | ||||
| The
capacitance value is
represented in three-digit alphanumerics, with the unit being picofarads
(pF) as the base
unit. The first two digits are significant figures, and the third digit
indicates the number
of zeros following them. If there's a decimal point, it's represented as "R," and all figures remain significant. The differences between uF, nF, and pF are factors of 1,000(1uF=1,000nF=1,000,000pF). Three-digit alphanumerics example as below: |
Code | Capacitance | Code | Capacitance Tolerance | |
| R50 | 0.50pF | A | ±0.05pF | ||
| 1R0 | 1.0pF | B | ±0.1pF | ||
| 100 | 10pF | C | ±0.25pF | ||
| 103 | 10,000pF or 10nF | D | ±0.5pF | ||
| 105 | 1,000,000pF or 1,000nF or 1uF | G | ±2% | ||
| 107 | 100uF | J | ±5% | ||
| K | ±10% | ||||
| M | ±20% | ||||
| 9. Packaging | 10. Internal control code | ||
| Code | Packaging | The last four digits are for internal management purposes only. | |
| F | ø178mm Taping (2mm pitch) | ||
| T | ø178mm Taping (4mm pitch) | ||
| P | ø178mm Taping (4mm pitch, 1Kpcs/Reel) | ||
| 1210 type (Thickness code M) | |||
| R | ø178mm Taping | ||
| 0402 type (2mm pitch) | |||
| 0603 type (4mm pitch) | |||
| W | ø178mm Taping (1mm pitch) | ||
| 0201/0402 type type only | |||
