ECJ2VB1C124K [PANASONIC]
CAPACITOR, CERAMIC, MULTILAYER, 16V, X7R, 0.12uF, SURFACE MOUNT, 0805, CHIP;型号: | ECJ2VB1C124K |
厂家: | PANASONIC |
描述: | CAPACITOR, CERAMIC, MULTILAYER, 16V, X7R, 0.12uF, SURFACE MOUNT, 0805, CHIP |
文件: | 总29页 (文件大小:1420K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
For
General
Multilayer Ceramic Capacitors
(
)
Multilayer Ceramic Chip Capacitors
(For General Electronic Equipment)
Series:ECU
Series:ECJ
■
Features
■
Recommended Applications
Class 1 (T.C. Type)
● Small in size and wide capacitance range
● Superior humidity characteristics and long life
thanks to monolithic construction
Temperature compensation, tuned circuits, and filter
circuits, where low loss, high stability of capacitance,
and high insulation resistance are required
Class 2 (Hi-K Type)
Coupling and By-pass, where low loss and high
stability of capacitance are not so important
● Excellent solderability and resistance to soldering
heat thanks to terminals with three layers of silver,
nickel, and solder
● Low self-inductance and excellent frequency
characteristics
■
Explanation of Part Numbers
● ECU Series
● ECJ Series
Temperature
Characteristics
Capacitance
Tolerance
Product Code
Packaging Styles
Rated Voltage
Nominal Capacitance
Suffix
■
Precautions for Handling
See Page 26 to 30
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
3
For
General
Multilayer Ceramic Capacitors
(
)
■
Construction
■
Dimensions in mm (not to scale)
(mm)
Size Code (EIA)
L
W
T
L1, L2
Ò10Ó Type (0402)
Ò11Ó Type (0603)
Ò12Ó Type (0805)
Ò13Ó Type (1206)
1.00±0.05
1.60±0.10
2.00±0.10
3.20±0.15
0.50±0.05
0.80±0.10
1.25±0.10 1.35 max.✻ 0.50±0.25
0.50±0.05
0.80±0.10
0.20±0.10
0.30±0.20
1.60±0.15
1.8 max.✻
0.60±0.30
✽ Specified by the nominal capacitance
■
Capacitance Range in pF
● T.C. Type
Capacitance Range (pF) [50 VDC]
Size
Dim. ÒTÓ
(mm)
NP0
C∆
N150
P∆
N220
R∆
N330
S∆
N470
T∆
N750
U∆
Class
Code
(EIA)
SL
50VDC
50VDC
0.5Ð220
0.5Ð1200
0.5Ð2700
Ñ
50VDC
0.5Ð39
0.5Ð150
0.5Ð220
240Ð330
50VDC
0.5Ð39
0.5Ð180
0.5Ð220
240Ð390
240Ð680
50VDC
0.5Ð39
0.5Ð180
0.5Ð220
240Ð470
240Ð680
50VDC
0.5Ð39
0.5Ð220
0.5Ð270
300Ð470
50VDC
0.5Ð120
0.5Ð1200
0.5Ð2700
Ñ
Ò10Ó (0402) 0.50±0.05 0.5Ð220
Ò11Ó (0603) 0.80±0.1
0.5Ð1000
0.5Ð2200
0.6±0.1
Ò12Ó (0805)
1
0.85±0.10 2400, 2700
0.6±0.1 2400Ð4700 3000Ð5600 240Ð560
300Ð820 3000Ð5600
Ò13Ó (1206) 0.85±0.10 5100Ð6800
1.15±0.10 7500Ð10000
Ñ
Ñ
620Ð1200 750Ð1200 750Ð1500 910Ð1500
Ñ
Ñ
Ñ
Ñ
Ñ
Ñ
P∆ to U∆ : Special order
(Capacitance values) E12 series : Standard order, E24 series : Special order
●
● Hi-K Type
Size
Capacitance Range (pF)
Dim. ÒTÓ
(mm)
Class
Code
(EIA)
B [X7R]
25 VDC 16 VDC 10 VDC
F [Y5V]
25 VDC 16 VDC
50 VDC
50 VDC
10 VDC
Ñ
Ò10Ó (0402) 0.50±0.05 100Ð3900 100Ð6800 5600Ð15000
Ò11Ó (0603)
Ñ
1000Ð10000 1000Ð22000 15000Ð100000
0.8±0.1 220Ð15000 10000Ð47000 10000Ð100000 120000Ð220000 1000Ð47000 68000,100000 100000Ð470000 1000000
0.6±0.1 1000Ð22000
Ñ
Ñ
Ñ
Ñ
10000Ð68000 68000Ð150000 100000Ð220000
100000Ð220000 220000 330000Ð1000000
Ñ
Ñ
2
Ò12Ó (0805) 0.85±0.10 27000Ð39000 39000Ð100000 47000Ð220000
1.25±0.10 47000Ð100000 120000Ð220000 270000Ð470000 560000Ð1000000
Ñ
Ñ
Ñ
Ñ
330000,470000 1500000,2200000 3300000,4700000
0.85±0.10
Ò13Ó (1206) 1.15±0.10
1.6±0.2
Ñ
Ñ
Ñ
100000Ð330000 100000Ð680000
390000Ð470000 820000,1000000
Ñ
Ñ
470000 680000Ð2200000
680000Ð2200000 3300000,4700000
Ñ
Ñ
560000Ð1000000
Ñ
1200000Ð3300000
Ñ
Ñ
10000000
●
●
(Capacitance values) B[X7R] E6 series : Standard order, E12 series : Special order
(Capacitance values) F[F5V] E3 series : Standard order, E6 series : Special order
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
4
For
General
Multilayer Ceramic Capacitors
(
)
■
Nominal Capacitance vs. Capacitance Tolerance
Tol. Code Capacitance Tolerance Nominal Capacitance Available (pF)
Temp. Char.
Class
1
C
D
F
±0.25 pF
±0.5 pF
±1.0 pF
±5 %
0.5, 1, 1.5, 2, 3, 4, 5
1, 1.5, 2, 3, 4, 5, 6, 7, 8, 9, 10
10
< 10 pF
C∆ to U∆
(NP0) (N750) (T.C. Type)
and SL
J
E24
E12
E12
E6
> 10 pF
K
K
M
Z
±10 %
Within Capacitance Range,
E-Series Numbers ×10n
±10 %
±20 %
+80, Ð20 %
B (X7R)
F (Y5V)
2
(Hi-K Type)
E6
■
■
E-Series Numbers
E3
1
2.2
4.7
E6
1
1.5
2.2
3.3
4.7
6.8
E12
E24
1
1.2
1.5
1.8
2.2
2.7
3.3
3.9
4.7
5.6
6.8
8.2
1
1.1 1.2 1.3 1.5 1.6 1.8
2
2.2 2.4 2.7
3
3.3 3.6 3.9 4.3 4.7 5.1 5.6 6.2 6.8 7.5 8.2 9.1
Temperature Coefficient of Class 1 Capacitors/T.C. Tolerance
(ppm/¡C)
Temp. Coeff.
Code.
C∆ (NP0)
P∆ (N150) R∆ (N220) S∆ (N330) T∆ (N470) U∆ (N750)
SL
T.C.
Cap.
< 2 pF
CK(±250)
CJ(±120)
CH(±60)
PK(±250)
PJ(±120)
PH(±60)
RK(±250)
RJ(±120)
RH(±60)
SK(±250)
SJ(±120)
SH(±60)
TK(±250)
TJ(±120)
TH(±60)
UK(±250) +350toÐ1000
T.C.
Tol.
3 pF
UJ(±120)
UJ(±120)
+350toÐ1000
+350toÐ1000
> 4 pF
■
Temperature Characteristics of Class 2 Capacitors
Capacitance Change
Temp. Char.
Measurement
Temperature
Range
Reference
Temperature
No DC Voltage Applied 1/2 Rated Voltage Applied
B (X7R)
F (Y5V)
±10 % max.
+10, Ð30 % max.
+30, Ð95 % max.
Ð25 to 85 ¡C
Ð25 to 85 ¡C
20 ¡C
20 ¡C
+30, Ð80 % max.
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
5
For
General
Multilayer Ceramic Capacitors
(
)
■
Specifications
Specifications
B(X7R)
Characteristics
Class 1 (T.C. Type)
Class 2 (Hi-K Type)
Test Methods
C∆ to U∆, SL
F(Y5V)
Operating Temperature Range
Ð55 to 125 ¡C✻
Ð25 to 85 ¡C
ÑÑ
ÑÑ
50 VDC, 25 VDC
16 VDC, 10 VDC
50 VDC
Rated Voltage
Test Voltage
Class 1: Rated Voltage ×3
Class 2: Rated Voltage ×2.5
Electrification time : 1 to 5 s
Limit surge current: 50 mA max.
Dielectric
Withstanding Voltage
No break down
Measurement Voltage:Rated Voltage
Electrification time : 60 ± 5 s
(Electrificationtimeof10VDCis2minutes)
Limit surge current: 50 mA max.
IR > 10000MΩ or 500/C (MΩ)
whichever is less
[C: Rated capacitance in µF]
Insulation Resistance(IR) IR>10000MΩ
Standard Temperature : 20 ¡C
Measurement
Capacitance
Within the specified tolerance
Capacitance < 30 pF
Q > 400+20 C✻✻✻
30 pF < Cap. < 1000 pF
Q > 1000
Capacitance > 1000 pF
(tan d) < 0.002
Temperature Characteristics
(1) Class 1 (T.C. Type)
Rated
Q Factor or
Dissipation Factor
(tan d)
Voltage
B
F
Nominal Cap. Frequency
C < 1000pF 1 MHz±10 %
C > 1000 pF 1 kHz±10 %
Voltage
50 VDC tan d < 0.025 tand < 0.05
25 VDC tan d < 0.025 tand < 0.05
(tan d < 0.07)
0.5Ð5 Vrms
(2) Class 2 (Hi-K Type)
Pretreatment : 150+0/Ð10 ¡C for 1 hour and
then shall be stored in a room temperature for
48 ± 4 hours, before initial measurement.
16 VDC tan d < 0.025 tand < 0.07
(tan
d
< 0.035)
10 VDC tan d < 0.05 tan d < 0.125
Frequency
Voltage
1 kHz±10 % 1.0±0.2 Vrms
✻✻✻ Operating Temperature Range: Ð25 to 85 ûC for capacitance range of 5100 to 10000 pF, NP0, Type 13.
✻✻✻ Specified by individual Specification
✻✻✻ Nominal capacitance value in pF
Minimum Insulation Resistance
Minimum Q at 1 MHz
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
6
For
General
Multilayer Ceramic Capacitors
(
)
■
Capacitance Range (in pF)
● [Size Code Ò10Ó Type/Ò0402Ó]
Temp.
Char.
Rated
Voltage
Temp.
Char.
Rated
Voltage
C∆
P∆
R∆
S∆
T∆
U∆
SL
B/X7R
F/Y5V
(NP0)
(N150) (N220) (N330) (N470) (N750)
50 V 50 V 50 V 50 V 50 V
50 V 50 V
Cap. (pF)
50 V 25 V 16 V 50 V 25 V 16 V
Cap. (pF)
0.5
100
1
120
150
1.5
2
180
3
220
4
270
5
330
6
390
7
470
8
560
9
680
10
820
11
12
Q
Q
Q
Q
1000
1200
1500
1800
2200
2700
3300
3900
4700
5600
6800
8200
10000
12000
15000
18000
22000
27000
33000
39000
47000
56000
68000
82000
100000
13
15
16
Q
18
20
22
24
27
Q
Q
30
33
36
39
43
47
51
56
62
68
75
82
91
100
110
120
130
150
160
180
200
220
■
Dimensions in mm (not to scale)
[10 Type] [0402(EIA)]
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
7
For
General
Multilayer Ceramic Capacitors
(
)
■
Capacitance Range (in pF)
● [Size Code Ò11Ó Type/ Ò0603Ó (EIA)]
Temp.
Char.
Temp.
Char.
Voltage
Cap. (pF)
C∆
(NP0)
50 V
P∆
(N150) (N220) (N330) (N470) (N750)
50 V 50 V 50 V 50 V 50 V
R∆
S∆
T∆
U∆
SL
B/X7R
F/Y5V
Rated
Rated
Voltage
Cap. (pF)
50 V
50 V 25 V 16 V 6 Ð10 V 50 V 25 V 16 V 6 Ð10 V
0.5
220
1
1.5
2
270
330
390
3
470
4
560
5
680
6
820
7
1000
8
1200
9
1500
10
1800
11
12
2200
2700
13
3300
15
3900
16
4700
18
5600
20
6800
22
24
27
30
33
36
39
43
47
51
56
62
68
75
82
91
100
110
120
130
150
160
180
200
220
240
270
300
330
360
390
430
470
510
560
620
680
750
820
910
1000
1100
1200
V
8200
V
V
10000
12000
15000
18000
22000
27000
33000
39000
47000
56000
68000
82000
100000
120000
150000
180000
220000
270000
330000
390000
470000
560000
680000
820000
1000000
V
V
V
V
✻✻ Under development
■
Dimensions in mm (not to scale)
[11 Type] [0603 (EIA)]
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
8
For
General
Multilayer Ceramic Capacitors
(
)
■
Capacitance Range (in pF)
● [Size Code Ò12Ó Type/ Ò0805Ó (EIA)]
Temp.
Char.
Voltage
Temp.
Char.
Voltage
C∆
(NP0)
50 V
P∆
(N150) (N220) (N330) (N470) (N750)
50 V 50 V 50 V 50 V 50 V
R∆
S∆
T∆
U∆
SL
B/X7R
F/Y5V
Rated
Rated
Cap. (pF)
50 V
Cap. (pF)
50 V 25 V 16 V 6 Ð10 V 50 V 25 V 16 V 6 Ð10 V
0.5
1
220
270
1.5
2
330
390
3
4
470
560
5
6
680
820
7
8
9
10
11
12
13
15
16
18
20
22
1000
1200
1500
1800
2200
2700
3300
3900
4700
5600
6800
8200
24
27
30
33
36
39
43
47
51
56
62
68
10000
12000
15000
18000
22000
27000
33000
39000
47000
56000
68000
82000
75
82
91
100000
120000
150000
180000
220000
270000
330000
390000
470000
560000
680000
820000
1000000
1200000
1500000
1800000
2200000
2700000
3300000
3900000
4700000
100
110
120
130
150
160
180
200
220
240
270
300
330
360
390
430
470
510
560
620
680
750
820
910
1000
1100
1200
1300
1500
1600
1800
2000
2200
2400
2700
✻✻ Under development
■
Dimensions in mm (not to scale)
[12 Type] [0805 (EIA)]
■
Thickness ÒTÓ
T (mm)
0.6±0.1
0.85±0.10
1.25±0.10
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
9
For
General
Multilayer Ceramic Capacitors
(
)
■
Capacitance Range (in pF)
● [Size Code Ò13Ó Type/ Ò1206Ó (EIA)]
Temp.
Temp.
C∆
(NP0)
50 V
P∆
(N150)
50 V
R∆
(N220)
50 V
S∆
(N330)
50 V
T∆
(N470)
50 V
U∆
(N750)
50 V
Char.
Char.
Rated
Rated
SL
B/X7R
F/Y5V
Voltage
Voltage
Cap. (pF)
Cap. (pF)
50 V
50 V 25 V 16 V
6
Ð
10
V
50 V 25 V 16 V
6
Ð
10
V
240
270
300
68000
82000
100000
330
360
120000
150000
390
430
180000
220000
470
510
270000
330000
560
620
390000
470000
680
750
820
910
560000
680000
820000
1000000
1200000
1500000
1800000
2200000
2700000
3300000
3900000
4700000
5600000
6800000
8200000
10000000
1000
1100
1200
1300
1500
1600
1800
2000
2200
2400
2700
3000
3300
3600
3900
4300
4700
5100
5600
6200
6800
7500
8200
9100
10000
✻✻ Under development
■
Dimensions in mm (not to scale)
[13 Type] [1206 (EIA)]
■
ThicknessÒTÓ
T (mm)
0.6±0.1
0.85±0.10
1.15±0.10
1.6±0.2
●
T 1.6mm : L=3.20±0.20, W=1.60±0.20
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
1 0
For
General
Multilayer Ceramic Capacitors
(
)
■
Standard Products forÒ10ÓType (EIAÒ0402ÓType) , Taped Version
[Rated Voltage 50 VDC]
T∆ (N470) U∆ (N750)
C∆ (NP0)
SL
P∆ (N150)
R∆ (N220)
S∆ (N330)
Capacitance Capacitance
Dim.
Dim.
T
Dim.
Dim.
Dim.
Dim.
Dim.
(pF)
Tolerance
Part No.
T
Part No.
Part No.
T
Part No.
T
Part No.
T
Part No.
T
Part No.
T
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
±0.25 pF(C)
0.5
ECUE1H0R5CCQ 0.5 ECUE1H0R5CQ 0.5 ECUE1H0R5CPQ 0.5 ECUE1H0R5CRQ 0.5 ECUE1H0R5CSQ 0.5 ECUE1H0R5CTQ 0.5 ECUE1H0R5CUQ 0.5
1
ECUE1H010 CQ 0.5 ECUE1H010
Q
Q
Q
Q
Q
Q
0.5 ECUE1H010 PQ 0.5 ECUE1H010 RQ 0.5 ECUE1H010 SQ 0.5 ECUE1H0101TQ 0.5 ECUE1H0101UQ 0.5
0.5 ECUE1H1R5 PQ 0.5 ECUE1H1R5 RQ 0.5 ECUE1H1R5 SQ 0.5 ECUE1H1R51TQ 0.5 ECUE1H1R51UQ 0.5
0.5 ECUE1H020 PQ 0.5 ECUE1H020 RQ 0.5 ECUE1H020 SQ 0.5 ECUE1H0201TQ 0.5 ECUE1H0201UQ 0.5
0.5 ECUE1H030 PQ 0.5 ECUE1H030 RQ 0.5 ECUE1H030 SQ 0.5 ECUE1H0301TQ 0.5 ECUE1H0301UQ 0.5
0.5 ECUE1H040 PQ 0.5 ECUE1H040 RQ 0.5 ECUE1H040 SQ 0.5 ECUE1H0401TQ 0.5 ECUE1H0401UQ 0.5
0.5 ECUE1H050 PQ 0.5 ECUE1H050 RQ 0.5 ECUE1H050 SQ 0.5 ECUE1H0501TQ 0.5 ECUE1H0501UQ 0.5
1.5 ±0.25 pF ECUE1H1R5 CQ 0.5 ECUE1H1R5
(C)
2
3
ECUE1H020 CQ 0.5 ECUE1H020
ECUE1H030 CQ 0.5 ECUE1H030
ECUE1H040 CQ 0.5 ECUE1H040
ECUE1H050 CQ 0.5 ECUE1H050
or
±0.5 pF
(D)
4
5
6
ECUE1H060DCQ 0.5 ECUE1H060DQ 0.5 ECUE1H060DPQ 0.5 ECUE1H060DRQ 0.5 ECUE1H060DSQ 0.5 ECUE1H060DTQ 0.5 ECUE1H060DUQ 0.5
ECUE1H070DCQ 0.5 ECUE1H070DQ 0.5 ECUE1H070DPQ 0.5 ECUE1H070DRQ 0.5 ECUE1H070DSQ 0.5 ECUE1H070DTQ 0.5 ECUE1H070DUQ 0.5
ECUE1H080DCQ 0.5 ECUE1H080DQ 0.5 ECUE1H080DPQ 0.5 ECUE1H080DRQ 0.5 ECUE1H080DSQ 0.5 ECUE1H080DTQ 0.5 ECUE1H080DUQ 0.5
ECUE1H090DCQ 0.5 ECUE1H090DQ 0.5 ECUE1H090DPQ 0.5 ECUE1H090DRQ 0.5 ECUE1H090DSQ 0.5 ECUE1H090DTQ 0.5 ECUE1H090DUQ 0.5
7
±0.5 pF
(D)
8
9
±0.5 pF (D)
or ±1 pF (F)
10
11
12
13
15
16
18
20
22
24
27
30
33
36
39
43
47
51
56
62
68
75
82
91
ECUE1H100 CQ 0.5 ECUE1H100
ECUE1H110JCQ 0.5 ECUE1H110JQ 0.5 ECUE1H110JPQ 0.5 ECUE1H110JRQ 0.5 ECUE1H110JSQ 0.5 ECUE1H110JTQ 0.5 ECUE1H110JUQ 0.5
ECUE1H120 CQ 0.5 ECUE1H120
0.5 ECUE1H120 PQ 0.5 ECUE1H120 RQ 0.5 ECUE1H120 SQ 0.5 ECUE1H1201TQ 0.5 ECUE1H1201UQ 0.5
ECUE1H130JCQ 0.5 ECUE1H130JQ 0.5 ECUE1H130JPQ 0.5 ECUE1H130JRQ 0.5 ECUE1H130JSQ 0.5 ECUE1H130JTQ 0.5 ECUE1H130JUQ 0.5
ECUE1H150 CQ 0.5 ECUE1H150
0.5 ECUE1H150 PQ 0.5 ECUE1H150 RQ 0.5 ECUE1H150 SQ 0.5 ECUE1H1501TQ 0.5 ECUE1H1501UQ 0.5
ECUE1H160JCQ 0.5 ECUE1H160JQ 0.5 ECUE1H160JPQ 0.5 ECUE1H160JRQ 0.5 ECUE1H160JSQ 0.5 ECUE1H160JTQ 0.5 ECUE1H160JUQ 0.5
ECUE1H180 CQ 0.5 ECUE1H180
0.5 ECUE1H180 PQ 0.5 ECUE1H180 RQ 0.5 ECUE1H180 SQ 0.5 ECUE1H1801TQ 0.5 ECUE1H1801UQ 0.5
ECUE1H200JCQ 0.5 ECUE1H200JQ 0.5 ECUE1H200JPQ 0.5 ECUE1H200JRQ 0.5 ECUE1H200JSQ 0.5 ECUE1H200JTQ 0.5 ECUE1H200JUQ 0.5
ECUE1H220 CQ 0.5 ECUE1H220
0.5 ECUE1H220 PQ 0.5 ECUE1H220 RQ 0.5 ECUE1H220 SQ 0.5 ECUE1H2201TQ 0.5 ECUE1H2201UQ 0.5
ECUE1H240JCQ 0.5 ECUE1H240JQ 0.5 ECUE1H240JPQ 0.5 ECUE1H240JRQ 0.5 ECUE1H240JSQ 0.5 ECUE1H240JTQ 0.5 ECUE1H240JUQ 0.5
ECUE1H270 CQ 0.5 ECUE1H270
0.5 ECUE1H270 PQ 0.5 ECUE1H270 RQ 0.5 ECUE1H270 SQ 0.5 ECUE1H2701TQ 0.5 ECUE1H2701UQ 0.5
ECUE1H300JCQ 0.5 ECUE1H300JQ 0.5 ECUE1H300JPQ 0.5 ECUE1H300JRQ 0.5 ECUE1H300JSQ 0.5 ECUE1H300JTQ 0.5 ECUE1H300JUQ 0.5
ECUE1H330 CQ 0.5 ECUE1H330
0.5 ECUE1H330 PQ 0.5 ECUE1H330 RQ 0.5 ECUE1H330 SQ 0.5 ECUE1H3301TQ 0.5 ECUE1H3301UQ 0.5
ECUE1H360JCQ 0.5 ECUE1H360JQ 0.5 ECUE1H360JPQ 0.5 ECUE1H360JRQ 0.5 ECUE1H360JSQ 0.5 ECUE1H360JTQ 0.5 ECUE1H360JUQ 0.5
Q
0.5 ECUE1H100 PQ 0.5 ECUE1H100 RQ 0.5 ECUE1H100 SQ 0.5 ECUE1H1001TQ 0.5 ECUE1H1001UQ 0.5
Q
Q
Q
Q
Q
Q
✽✽✽
±5 %
(J)
or
±10 %
(K)
ECUE1H390 CQ 0.5 ECUE1H390
Q
0.5 ECUE1H390 PQ 0.5 ECUE1H390 RQ 0.5 ECUE1H390 SQ 0.5 ECUE1H3901TQ 0.5 ECUE1H3901UQ 0.5
(Cap. Tol. Code)✽✽
ECUE1H430JCQ 0.5 ECUE1H430JQ 0.5
ECUE1H430JUQ 0.5
ECUE1H4701UQ 0.5
ECUE1H510JUQ 0.5
ECUE1H5601UQ 0.5
ECUE1H620JUQ 0.5
ECUE1H6801UQ 0.5
ECUE1H750JUQ 0.5
ECUE1H8201UQ 0.5
ECUE1H910JUQ 0.5
ECUE1H1011UQ 0.5
ECUE1H111JUQ 0.5
ECUE1H1211UQ 0.5
ECUE1H470 CQ 0.5 ECUE1H470
ECUE1H510JCQ 0.5 ECUE1H510JQ 0.5
ECUE1H560 CQ 0.5 ECUE1H560
ECUE1H620JCQ 0.5 ECUE1H620JQ 0.5
ECUE1H680 CQ 0.5 ECUE1H680
ECUE1H750JCQ 0.5 ECUE1H750JQ 0.5
ECUE1H820 CQ 0.5 ECUE1H820
ECUE1H910JCQ 0.5 ECUE1H910JQ 0.5
ECUE1H101 CQ 0.5 ECUE1H101
ECUE1H111JCQ 0.5 ECUE1H111JQ 0.5
ECUE1H121 CQ 0.5 ECUE1H121
ECUE1H131JCQ 0.5 ECUE1H131JQ 0.5
ECUE1H151 CQ 0.5 ECUE1H151
ECUE1H161JCQ 0.5 ECUE1H161JQ 0.5
ECUE1H181 CQ 0.5 ECUE1H181
ECUE1H201JCQ 0.5 ECUE1H201JQ 0.5
ECUE1H221
Q
0.5
Q
0.5
Q
0.5
Q
0.5
100
110
120
130
150
160
180
200
220
Q
0.5
0.5
Q
Q
0.5
Q
0.5
0.5
0.5
CQ
ECUE1H221 Q
(Packing Style Code)✽
✻✻✻ Packaging Style Code: ÒEÓ for Taped Version (Taping pitch:
2 mm) and ÒXÓ for Bulk Type.
✻✻✻ 1: Capacitance Tolerance Codes.
✻✻✻ Capacitance values of ÒE24Ó series and capacitance tolerance
of ±5 % are available on special order.
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
1 1
For
General
Multilayer Ceramic Capacitors
(
)
■
Standard Products for Ò10Ó Type (EIA Ò0402Ó Type) , Taped Version
B/X7R
F/Y5V
50 VDC
25 VDC
16 VDC
50 VDC
25 VDC
16 VDC
Capaci-
tance
(pF)
Capaci-
tance
Capaci-
tance
Dim.
T
Dim.
T
Dim.
Dim.
T
Dim.
T
Dim.
T
Part No.
Part No.
Part No.
T
Part No.
Part No.
Part No.
Tolerance
(mm)
(mm)
(mm) Tolerance
(mm)
(mm)
(mm)
100
120
150
180
220
270
330
390
470
560
680
820
1000
ECUE1H101 BQ 0.5 ECUE1E101 BQ 0.5
ECUE1H121KBQ 0.5 ECUE1E121KBQ 0.5
ECUE1H151 BQ 0.5 ECUE1E151 BQ 0.5
ECUE1H181KBQ 0.5 ECUE1E181KBQ 0.5
ECUE1H221 BQ 0.5 ECUE1E221 BQ 0.5
ECUE1H271KBQ 0.5 ECUE1E271KBQ 0.5
ECUE1H331 BQ 0.5 ECUE1E331 BQ 0.5
ECUE1H391KBQ 0.5 ECUE1E391KBQ 0.5
ECUE1H471 BQ 0.5 ECUE1E471 BQ 0.5
ECUE1H561KBQ 0.5 ECUE1E561KBQ 0.5
ECUE1H681 BQ 0.5 ECUE1E681 BQ 0.5
ECUE1H821KBQ 0.5 ECUE1E821KBQ 0.5
ECUE1H102 BQ 0.5 ECUE1E102 BQ 0.5
ECUE1H102ZFQ 0.5 ECUE1E102ZFQ 0.5
ECUE1H152ZFQ 0.5 ECUE1E152ZFQ 0.5
ECUE1H222ZFQ 0.5 ECUE1E222ZFQ 0.5
ECUE1H332ZFQ 0.5 ECUE1E332ZFQ 0.5
ECUE1H472ZFQ 0.5 ECUE1E472ZFQ 0.5
ECUE1H682ZFQ 0.5 ECUE1E682ZFQ 0.5
ECUE1H103ZFQ 0.5 ECUE1E103ZFQ 0.5
1200 ±10 % ECUE1H122KBQ 0.5 ECUE1E122KBQ 0.5
1500
1800
(K)
or
ECUE1H152 BQ 0.5 ECUE1E152 BQ 0.5
ECUE1H182KBQ 0.5 ECUE1E182KBQ 0.5
+80
%
Ð20
2200 ±20 % ECUE1H222 BQ 0.5 ECUE1E222 BQ 0.5
(Z)
2700
3300
(M)
ECUE1H272KBQ 0.5 ECUE1E272KBQ 0.5
ECUE1H332 BQ 0.5 ECUE1E332 BQ 0.5
3900
ECUE1H392KBQ 0.5 ECUE1E392KBQ 0.5
✽✽
(Packaging Style Code)
4700
ECUE1E472 BQ 0.5
5600
ECUE1E562KBQ 0.5 ECUE1C562KBQ 0.5
ECUE1E682 BQ 0.5 ECUE1C682 BQ 0.5
ECUE1C822KBQ 0.5
6800
8200
10000
12000
15000
18000
22000
27000
33000
39000
47000
56000
68000
82000
100000
ECUE1C103 BQ 0.5
ECUE1C123KBQ 0.5
ECUE1C153 BQ 0.5
ECUE1E153ZFQ 0.5 ECUE1C153ZFQ 0.5
ECUE1E223ZFQ 0.5 ECUE1C223ZFQ 0.5
ECUE1C333ZFQ 0.5
✽
(Cap. Tol. Code)
ECUE1C473ZFQ 0.5
ECUE1C683ZFQ 0.5
ECUE1C104ZFQ 0.5
✻✻ 1: Capacitance Tolerance Code.
✻✻ Packaging Styles Code: ÒEÓ for Taped Version (Taping pitch:
2 mm) and ÒXÓ for Bulk Type
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
1 2
For
General
Multilayer Ceramic Capacitors
(
)
[Rated Voltage 50 VDC]
T∆ (N470) U∆ (N750)
■
Standard Products forÒ11ÓType (EIAÒ0603ÓType) , Taped Version
C∆ (NP0)
SL
P∆ (N150)
R∆ (N220)
S∆ (N330)
Capacitance Capacitance
(pF) Tolerance
Dim.
Dim.
T
Dim.
Dim.
Dim.
Dim.
Dim.
Part No.
T
Part No.
Part No.
T
Part No.
T
Part No.
T
Part No.
T
Part No.
T
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
0.5 ±0.25 pF(C) ECUV1H0R5CCV 0.8 ECUV1H0R5CV 0.8 ECUV1H0R5CPV 0.8 ECUV1H0R5CRV 0.8 ECUV1H0R5CSV 0.8 ECUV1H0R5CTV 0.8 ECUV1H0R5CUV 0.8
1
1.5
2
ECUV1H0101CV 0.8 ECUV1H0101V 0.8 ECUV1H0101PV 0.8 ECUV1H0101RV 0.8 ECUV1H0101SV 0.8 ECUV1H0101TV 0.8 ECUV1H0101UV 0.8
ECUV1H1R51CV 0.8 ECUV1H1R51V 0.8 ECUV1H1R51PV 0.8 ECUV1H1R51RV 0.8 ECUV1H1R51SV 0.8 ECUV1H1R51TV 0.8 ECUV1H1R51UV 0.8
ECUV1H0201CV 0.8 ECUV1H0201V 0.8 ECUV1H0201PV 0.8 ECUV1H0201RV 0.8 ECUV1H0201SV 0.8 ECUV1H0201TV 0.8 ECUV1H0201UV 0.8
±0.25 pF
(C)
or
3
±0.5 pF ECUV1H0301CV 0.8 ECUV1H0301V 0.8 ECUV1H0301PV 0.8 ECUV1H0301RV 0.8 ECUV1H0301SV 0.8 ECUV1H0301TV 0.8 ECUV1H0301UV 0.8
(D)
4
ECUV1H0401CV 0.8 ECUV1H0401V 0.8 ECUV1H0401PV 0.8 ECUV1H0401RV 0.8 ECUV1H0401SV 0.8 ECUV1H0401TV 0.8 ECUV1H0401UV 0.8
5
ECUV1H0501CV 0.8 ECUV1H0501V 0.8 ECUV1H0501PV 0.8 ECUV1H0501RV 0.8 ECUV1H0501SV 0.8 ECUV1H0501TV 0.8 ECUV1H0501UV 0.8
ECUV1H060DCV 0.8 ECUV1H060DV 0.8 ECUV1H060DPV 0.8 ECUV1H060DRV 0.8 ECUV1H060DSV 0.8 ECUV1H060DTV 0.8 ECUV1H060DUV 0.8
6
7
±0.5 pF ECUV1H070DCV 0.8 ECUV1H070DV 0.8 ECUV1H070DPV 0.8 ECUV1H070DRV 0.8 ECUV1H070DSV 0.8 ECUV1H070DTV 0.8 ECUV1H070DUV 0.8
(D)
8
ECUV1H080DCV 0.8 ECUV1H080DV 0.8 ECUV1H080DPV 0.8 ECUV1H080DRV 0.8 ECUV1H080DSV 0.8 ECUV1H080DTV 0.8 ECUV1H080DUV 0.8
9
ECUV1H090DCV 0.8 ECUV1H090DV 0.8 ECUV1H090DPV 0.8 ECUV1H090DRV 0.8 ECUV1H090DSV 0.8 ECUV1H090DTV 0.8 ECUV1H090DUV 0.8
±0.5 pF (D)
or ±1 pF (F)
10
ECUV1H1001CV 0.8 ECUV1H1001V 0.8 ECUV1H1001PV 0.8 ECUV1H1001RV 0.8 ECUV1H1001SV 0.8 ECUV1H1001TV 0.8 ECUV1H1001UV 0.8
12
15
ECUV1H1201CV 0.8 ECUV1H1201V 0.8 ECUV1H1201PV 0.8 ECUV1H1201RV 0.8 ECUV1H1201SV 0.8 ECUV1H1201TV 0.8 ECUV1H1201UV 0.8
ECUV1H1501CV 0.8 ECUV1H1501V 0.8 ECUV1H1501PV 0.8 ECUV1H1501RV 0.8 ECUV1H1501SV 0.8 ECUV1H1501TV 0.8 ECUV1H1501UV 0.8
ECUV1H1801CV 0.8 ECUV1H1801V 0.8 ECUV1H1801PV 0.8 ECUV1H1801RV 0.8 ECUV1H1801SV 0.8 ECUV1H1801TV 0.8 ECUV1H1801UV 0.8
ECUV1H2201CV 0.8 ECUV1H2201V 0.8 ECUV1H2201PV 0.8 ECUV1H2201RV 0.8 ECUV1H2201SV 0.8 ECUV1H2201TV 0.8 ECUV1H2201UV 0.8
ECUV1H2701CV 0.8 ECUV1H2701V 0.8 ECUV1H2701PV 0.8 ECUV1H2701RV 0.8 ECUV1H2701SV 0.8 ECUV1H2701TV 0.8 ECUV1H2701UV 0.8
ECUV1H3301CV 0.8 ECUV1H3301V 0.8 ECUV1H3301PV 0.8 ECUV1H3301RV 0.8 ECUV1H3301SV 0.8 ECUV1H3301TV 0.8 ECUV1H3301UV 0.8
ECUV1H3901CV 0.8 ECUV1H3901V 0.8 ECUV1H3901PV 0.8 ECUV1H3901RV 0.8 ECUV1H3901SV 0.8 ECUV1H3901TV 0.8 ECUV1H3901UV 0.8
ECUV1H4701CV 0.8 ECUV1H4701V 0.8 ECUV1H4701PV 0.8 ECUV1H4701RV 0.8 ECUV1H4701SV 0.8 ECUV1H4701TV 0.8 ECUV1H4701UV 0.8
ECUV1H5601CV 0.8 ECUV1H5601V 0.8 ECUV1H5601PV 0.8 ECUV1H5601RV 0.8 ECUV1H5601SV 0.8 ECUV1H5601TV 0.8 ECUV1H5601UV 0.8
ECUV1H6801CV 0.8 ECUV1H6801V 0.8 ECUV1H6801PV 0.8 ECUV1H6801RV 0.8 ECUV1H6801SV 0.8 ECUV1H6801TV 0.8 ECUV1H6801UV 0.8
18
22
27
33
39
47
56
68
82
ECUV1H8201CV 0.8 ECUV1H8201V 0.8 ECUV1H8201PV 0.8 ECUV1H8201RV 0.8 ECUV1H8201SV 0.8 ECUV1H8201TV 0.8 ECUV1H8201UV 0.8
✻✻✻
±5 %
100
120
(J)
or
ECUV1H1011CV 0.8 ECUV1H1011V 0.8 ECUV1H1011PV 0.8 ECUV1H1011RV 0.8 ECUV1H1011SV 0.8 ECUV1H1011TV 0.8 ECUV1H1011UV 0.8
±10 % ECUV1H1211CV 0.8 ECUV1H1211V 0.8 ECUV1H1211PV 0.8 ECUV1H1211RV 0.8 ECUV1H1211SV 0.8 ECUV1H1211TV 0.8 ECUV1H1211UV 0.8
(K)
150
180
220
270
330
390
470
560
680
820
1000
1200
ECUV1H1511CV 0.8 ECUV1H1511V 0.8 ECUV1H1511PV 0.8 ECUV1H1511RV 0.8 ECUV1H1511SV 0.8 ECUV1H1511TV 0.8 ECUV1H1511UV 0.8
ECUV1H1811CV 0.8 ECUV1H1811V 0.8
ECUV1H2211CV 0.8 ECUV1H2211V 0.8
ECUV1H2711CV 0.8 ECUV1H2711V 0.8
ECUV1H3311CV 0.8 ECUV1H3311V 0.8
ECUV1H3911CV 0.8 ECUV1H3911V 0.8
ECUV1H4711CV 0.8 ECUV1H4711V 0.8
ECUV1H5611CV 0.8 ECUV1H5611V 0.8
ECUV1H6811CV 0.8 ECUV1H6811V 0.8
ECUV1H8211CV 0.8 ECUV1H8211V 0.8
ECUV1H1021CV 0.8 ECUV1H1021V 0.8
ECUV1H1811RV 0.8 ECUV1H1811SV 0.8 ECUV1H1811TV 0.8 ECUV1H1811UV 0.8
(Packaging Style Code)✻
ECUV1H2211TV 0.8 ECUV1H2211UV 0.8
ECUV1H2711UV 0.8
ECUV1H3311UV 0.8
ECUV1H3911UV 0.8
ECUV1H4711UV 0.8
ECUV1H5611UV 0.8
ECUV1H6811UV 0.8
ECUV1H8211UV 0.8
ECUV1H1021UV 0.8
ECUV1H1221UV 0.8
(Cap. Tol. Code)✻✻
ECUV1H1221V 0.8
✻✻✻ Packaging Style Code ÒVÓ for Taped Version (Taping pitch:
4 mm) and ÒXÓ for Bulk Type.
✻✻✻ 1: Capacitance Tolerance Codes.
✻✻✻ Capacitance values of ÒE24Ó series and capacitance tolerance
of ±5 % are available on special order.
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises form this product, please inform us immediately for technical consultation.
1 3
For
General
Multilayer Ceramic Capacitors
(
)
■ Standard Products forÒ11ÓType (EIAÒ0603ÓType) , Taped Version
B/X7R
25 VDC
F/Y5V
25 VDC
50 VDC
16 VDC
10 VDC
50 VDC
16 VDC
10 VDC
Capaci-
tance
Capaci-
tance
Capaci-
tance
Dim.
Dim.
T
Dim.
T
Dim.
Dim.
Dim.
Dim.
T
Dim.
T
(pF)
Tolerance Part No.
T
Part No.
Part No.
Part No.
T
Part No.
T
Part No.
T
Part No.
Part No.
Tolerance
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
220
270
ECUV1H2211BV 0.8
ECUV1H271KBV
0.8
330
ECUV1H3311BV 0.8
390
ECUV1H391KBV
0.8
470
ECUV1H4711BV 0.8
560
ECUV1H561KBV
0.8
680
820
ECUV1H6811BV 0.8
ECUV1H821KBV
ECJ1VB1H1021
ECJ1VB1H122K
ECJ1VB1H1521
ECJ1VB1H182K
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
1000
1200
1500
1800
ECUV1H102ZFV
ECUV1H152ZFV
ECUV1H222ZFV
ECUV1H332ZFV
ECUV1H472ZFV
ECUV1H682ZFV
ECJ1VF1H103Z
ECJ1VF1H153Z
ECJ1VF1H223Z
ECJ1VF1H333Z
ECJ1VF1H473Z
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
2200 ±10 % ECJ1VB1H2221
2700
3300
(K)
or
ECJ1VB1H272K
+80
%
ECJ1VB1H3321
Ð20
3900 ±20 % ECJ1VB1H392K
(Z)
4700
5600
(M)
ECJ1VB1H4721
ECJ1VB1H562K
ECJ1VB1H6821
ECJ1VB1H822K
ECJ1VB1H1031
ECJ1VB1H123K
ECJ1VB1H1531
6800
8200
10000
12000
15000
18000
22000
27000
33000
39000
47000
56000
68000
82000
100000
150000
220000
330000
470000
680000
1000000
1500000
2200000
ECJ1VB1E1031
ECJ1VB1E123K
ECJ1VB1E1531
ECJ1VB1E183K
ECJ1VB1E2231
ECJ1VB1E273K
ECJ1VB1E3331
ECJ1VB1E393K
ECJ1VB1E4731
0.8 ECJ1VB1C1031
0.8 ECJ1VB1C123K
0.8 ECJ1VB1C1531
0.8 ECJ1VB1C183K
0.8 ECJ1VB1C2231
0.8 ECJ1VB1C273K
0.8 ECJ1VB1C3331
0.8 ECJ1VB1C393K
0.8 ECJ1VB1C4731
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
(Cap. Tol. Code)✻✻
(Packaging Style Code)✻
ECJ1VB1C563K
ECJ1VB1C6831
ECJ1VB1C823K
ECJ1VB1C1041
ECJ1VF1E683Z
ECJ1VF1E104Z
0.8
0.8 ECJ1VF1C104Z
ECJ1VF1C154Z
ECJ1VF1C224Z
ECJ1VF1C334Z
ECJ1VF1C474Z
0.8
0.8
0.8
0.8
0.8
ECJ1VB1A1541
ECJ1VB1A2241
0.8
0.8
ECJ1VF1A105Z
0.8
✻✻Packaging Styles Code: ÒVÓ for Taped Version (Taping pitch:
4 mm) and ÒXÓ for Bulk Type.
✻✻1: Capacitance Tolerance Codes.
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
1 4
For
General
Multilayer Ceramic Capacitors
(
)
[Rated Voltage 50 VDC]
T∆ (N470) U∆ (N750)
■
Standard Products forÒ12ÓType (EIAÒ0805ÓType) , Taped Version
C∆ (NP0)
SL
P∆ (N150)
R∆ (N220)
S∆ (N330)
Capacitance Capacitance
Dim.
Dim.
T
Dim.
Dim.
Dim.
Dim.
Dim.
(pF)
Tolerance
Part No.
T
Part No.
Part No.
T
Part No.
T
Part No.
T
Part No.
T
Part No.
T
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
±0.25 pF(C)
0.5
ECUV1H0R5CCN 0.6 ECUV1H0R5CN 0.6 ECUV1H0R5CPN 0.6 ECUV1H0R5CRN 0.6 ECUV1H0R5CSN 0.6 ECUV1H0R5CTN 0.6 ECUV1H0R5CUN 0.6
ECUV1H0101CN 0.6 ECUV1H0101N 0.6 ECUV1H0101PN 0.6 ECUV1H0101RN 0.6 ECUV1H0101SN 0.6 ECUV1H0101TN 0.6 ECUV1H0101UN 0.6
ECUV1H1R51CN 0.6 ECUV1H1R51N 0.6 ECUV1H1R51PN 0.6 ECUV1H1R51RN 0.6 ECUV1H1R51SN 0.6 ECUV1H1R51TN 0.6 ECUV1H1R51UN 0.6
ECUV1H0201CN 0.6 ECUV1H0201N 0.6 ECUV1H0201PN 0.6 ECUV1H0201RN 0.6 ECUV1H0201SN 0.6 ECUV1H0201TN 0.6 ECUV1H0201UN 0.6
ECUV1H0301CN 0.6 ECUV1H0301N 0.6 ECUV1H0301PN 0.6 ECUV1H0301RN 0.6 ECUV1H0301SN 0.6 ECUV1H0301TN 0.6 ECUV1H0301UN 0.6
ECUV1H0401CN 0.6 ECUV1H0401N 0.6 ECUV1H0401PN 0.6 ECUV1H0401RN 0.6 ECUV1H0401SN 0.6 ECUV1H0401TN 0.6 ECUV1H0401UN 0.6
ECUV1H0501CN 0.6 ECUV1H0501N 0.6 ECUV1H0501PN 0.6 ECUV1H0501RN 0.6 ECUV1H0501SN 0.6 ECUV1H0501TN 0.6 ECUV1H0501UN 0.6
1
1.5
2
±0.25 pF
(C)
or
±0.5 pF
(D)
3
4
5
6
ECUV1H060DCN 0.6
ECUV1H070DCN 0.6
ECUV1H080DCN 0.6
ECUV1H090DCN 0.6
ECUV1H060DN 0.6 ECUV1H060DPN 0.6 ECUV1H060DRN 0.6 ECUV1H060DSN 0.6 ECUV1H060DTN 0.6 ECUV1H060DUN 0.6
ECUV1H070DN 0.6 ECUV1H070DPN 0.6 ECUV1H070DRN 0.6 ECUV1H070DSN 0.6 ECUV1H070DTN 0.6 ECUV1H070DUN 0.6
ECUV1H080DN 0.6 ECUV1H080DPN 0.6 ECUV1H080DRN 0.6 ECUV1H080DSN 0.6 ECUV1H080DTN 0.6 ECUV1H080DUN 0.6
ECUV1H090DN 0.6 ECUV1H090DPN 0.6 ECUV1H090DRN 0.6 ECUV1H090DSN 0.6 ECUV1H090DTN 0.6 ECUV1H090DUN 0.6
7
±0.5 pF
(D)
8
9
±0.5 pF (D)
or ±1 pF (F)
10
ECUV1H1001CN 0.6 ECUV1H1001N 0.6 ECUV1H1001PN 0.6 ECUV1H1001RN 0.6 ECUV1H1001SN 0.6 ECUV1H1001TN 0.6 ECUV1H1001UN 0.6
ECUV1H1201CN 0.6 ECUV1H1201N 0.6 ECUV1H1201PN 0.6 ECUV1H1201RN 0.6 ECUV1H1201SN 0.6 ECUV1H1201TN 0.6 ECUV1H1201UN 0.6
ECUV1H1501CN 0.6 ECUV1H1501N 0.6 ECUV1H1501PN 0.6 ECUV1H1501RN 0.6 ECUV1H1501SN 0.6 ECUV1H1501TN 0.6 ECUV1H1501UN 0.6
ECUV1H1801CN 0.6 ECUV1H1801N 0.6 ECUV1H1801PN 0.6 ECUV1H1801RN 0.6 ECUV1H1801SN 0.6 ECUV1H1801TN 0.6 ECUV1H1801UN 0.6
ECUV1H2201CN 0.6 ECUV1H2201N 0.6 ECUV1H2201PN 0.6 ECUV1H2201RN 0.6 ECUV1H2201SN 0.6 ECUV1H2201TN 0.6 ECUV1H2201UN 0.6
ECUV1H2701CG 0.6 ECUV1H2701G 0.6 ECUV1H2701PN 0.6 ECUV1H2701RN 0.6 ECUV1H2701SN 0.6 ECUV1H2701TN 0.6 ECUV1H2701UN 0.6
ECUV1H3301CG 0.6 ECUV1H3301G 0.6 ECUV1H3301PN 0.6 ECUV1H3301RN 0.6 ECUV1H3301SN 0.6 ECUV1H3301TN 0.6 ECUV1H3301UN 0.6
ECUV1H3901CG 0.6 ECUV1H3901G 0.6 ECUV1H3901PN 0.6 ECUV1H3901RN 0.6 ECUV1H3901SN 0.6 ECUV1H3901TN 0.6 ECUV1H3901UN 0.6
ECUV1H4701CG 0.6 ECUV1H4701G 0.6 ECUV1H4701PN 0.6 ECUV1H4701RN 0.6 ECUV1H4701SN 0.6 ECUV1H4701TN 0.6 ECUV1H4701UN 0.6
ECUV1H5601CG 0.6 ECUV1H5601G 0.6 ECUV1H5601PN 0.6 ECUV1H5601RN 0.6 ECUV1H5601SN 0.6 ECUV1H5601TN 0.6 ECUV1H5601UN 0.6
ECUV1H6801CG 0.6 ECUV1H6801G 0.6 ECUV1H6801PN 0.6 ECUV1H6801RN 0.6 ECUV1H6801SN 0.6 ECUV1H6801TN 0.6 ECUV1H6801UN 0.6
ECUV1H8201CG 0.6 ECUV1H8201G 0.6 ECUV1H8201PN 0.6 ECUV1H8201RN 0.6 ECUV1H8201SN 0.6 ECUV1H8201TN 0.6 ECUV1H8201UN 0.6
ECUV1H1011CG 0.6 ECUV1H1011G 0.6 ECUV1H1011PN 0.6 ECUV1H1011RN 0.6 ECUV1H1011SN 0.6 ECUV1H1011TN 0.6 ECUV1H1011UN 0.6
ECUV1H1211CG 0.6 ECUV1H1211G 0.6 ECUV1H1211PN 0.6 ECUV1H1211RN 0.6 ECUV1H1211SN 0.6 ECUV1H1211TN 0.6 ECUV1H1211UN 0.6
ECUV1H1511CG 0.6 ECUV1H1511G 0.6 ECUV1H1511PN 0.6 ECUV1H1511RN 0.6 ECUV1H1511SN 0.6 ECUV1H1511TN 0.6 ECUV1H1511UN 0.6
ECUV1H1811CG 0.6 ECUV1H1811G 0.6 ECUV1H1811PN 0.6 ECUV1H1811RN 0.6 ECUV1H1811SN 0.6 ECUV1H1811TN 0.6 ECUV1H1811UN 0.6
ECUV1H2211CG 0.6 ECUV1H2211G 0.6 ECUV1H2211PN 0.6 ECUV1H2211RN 0.6 ECUV1H2211SN 0.6 ECUV1H2211TN 0.6 ECUV1H2211UN 0.6
ECUV1H2711CG 0.6 ECUV1H2711G 0.6 ECUV1H2711PN 0.85 ECUV1H2711RN 0.85 ECUV1H2711SN 0.85 ECUV1H2711TN 0.6 ECUV1H2711UN 0.6
ECUV1H3311CG 0.6 ECUV1H3311G 0.6 ECUV1H3311PN 0.85 ECUV1H3311RN 0.85 ECUV1H3311SN 0.85 ECUV1H3311TN 0.85 ECUV1H3311UN 0.6
12
15
18
22
27
33
39
47
56
68
82
100
120
150
180
220
270
330
390
470
560
680
820
±5 %✻✻✻
(J)
or
±10 %
(K)
ECUV1H3911CG 0.6 ECUV1H3911G 0.6
ECUV1H4711CX 0.6 ECUV1H4711G 0.6
ECUV1H5611CX 0.6 ECUV1H5611G 0.6
ECUV1H6811CX 0.6 ECUV1H6811G 0.6
ECUV1H8211CX 0.6 ECUV1H8211X 0.6
ECUV1H1021CX 0.6 ECUV1H1021X 0.6
ECUV1H1221CX 0.6 ECUV1H1221X 0.6
ECUV1H1521CX 0.6 ECUV1H1521X 0.6
ECUV1H1821CX 0.6 ECUV1H1821X 0.6
ECUV1H2221CX 0.6 ECUV1H2221X 0.6
ECUV1H3911RN 0.85 ECUV1H3911SN 0.85 ECUV1H3911TN 0.85 ECUV1H3911UX 0.6
ECUV1H4711SN 0.85 ECUV1H4711TN 0.85 ECUV1H4711UX 0.6
(Packaging Style Code)✻
ECUV1H5611UX 0.6
ECUV1H6811UX 0.6
ECUV1H8211UX 0.6
ECUV1H1021UX 0.6
ECUV1H1221UX 0.6
ECUV1H1521UX 0.6
ECUV1H1821UX 0.6
ECUV1H2221UX 0.6
1000
1200
1500
1800
2200
2700
0.85
0.6
0.6
ECUV1H2721CX
ECUV1H2721X
ECUV1H2721UX
(Cap. Tol. Code)✻✻
✻✻✻ Packaging Style Code: ÒVÓ for Taped Version (Taping pitch:
4 mm) and ÒXÓ for Bulk Type.
✻✻✻ 1: Capacitance Tolerance Codes.
✻✻✻ Capacitance values of ÒE24Ó series and capacitance tolerance
of ±5 % are available on special order.
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises form this product, please inform us immediately for technical consultation.
1 5
For
General
Multilayer Ceramic Capacitors
(
)
■
Standard Products forÒ12ÓType (EIAÒ0805ÓType) , Taped Version
B/X7R
25 VDC
F/Y5V
25 VDC
Capaci-
tance
(pF)
50 VDC
16 VDC
10 VDC
50 VDC
16 VDC
10 VDC
Capaci-
tance
Capaci-
tance
Dim.
Dim.
T
Dim.
T
Dim.
Dim.
Dim.
Dim.
T
Dim.
T
Part No.
T
Part No.
Part No.
Part No.
T
Part No.
T
Part No.
T
Part No.
Part No.
Tolerance
Tolerance
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
220
270
330
390
470
560
680
820
1000
1200
1500
1800
2200
2700
3300
0.6
0.6
ECUV1H1021BN
ECUV1H122KBN
ECUV1H1521BN
ECUV1H182KBN
ECUV1H2221BN
ECUV1H272KBN
ECUV1H3321BN
ECUV1H392KBN
ECUV1H4721BG
ECUV1H562KBG
ECUV1H6821BG
ECUV1H822KBG
ECUV1H1031BG
ECUV1H123KBX
ECUV1H1531BX
ECUV1H183KBX
ECUV1H2231BX
ECJ2VB1H273K
ECJ2VB1H3331
ECJ2VB1H393K
ECJ2YB1H4731
ECJ2YB1H563K
ECJ2YB1H6831
ECJ2YB1H823K
ECJ2YB1H1041
0.6
0.6
0.6
0.6
0.6
3900 ±10 %
0.6
4700
5600
(K)
or
0.6
+80
%
0.6
Ð20
(Z)
6800 ±20 %
0.6
8200
10000
(M)
0.6
0.6
0.6
0.6
ECJ2VF1H103Z
ECJ2VF1H153Z
ECJ2VF1H223Z
ECJ2VF1H333Z
ECJ2VF1H473Z
ECJ2VF1H683Z
ECJ2VF1H104Z
ECJ2VF1H154Z
ECJ2VF1H224Z
12000
0.6
15000
0.6
18000
0.6
22000
0.6
0.6
27000
0.85
0.85
0.85
1.25
1.25
1.25
1.25
1.25
33000
0.6
39000
0.85
0.85
0.85
0.85
0.85
0.85
1.25
1.25
1.25
1.25
ECJ2VB1E393K
ECJ2VB1E4731
ECJ2VB1E563K
ECJ2VB1E6831
ECJ2VB1E823K
ECJ2VB1E1041
ECJ2YB1E124K
ECJ2YB1E1541
ECJ2YB1E184K
ECJ2YB1E2241
47000
0.85
0.85
0.85
0.85
0.85
0.85
0.85
0.85
0.85
1.25
1.25
0.6
ECJ2VB1C4731
ECJ2VB1C563K
ECJ2VB1C6831
ECJ2VB1C823K
ECJ2VB1C1041
ECJ2VB1C124K
ECJ2VB1C1541
ECJ2VB1C184K
ECJ2VB1C2241
ECJ2YB1C3341
ECJ2YB1C4741
56000
68000
0.6
0.6
0.6
0.6
ECJ2VF1E683Z
ECJ2VF1E104Z
ECJ2VF1E154Z
82000
100000
120000
150000
180000
220000
330000
470000
680000
1000000
1500000
2200000
3300000
4700000
6800000
10000000
0.85
0.85
0.85
0.6
0.6
ECJ2VF1C104Z
ECJ2VF1C154Z
(Cap. Tol. Code)✻✻
0.85
1.25
1.25
0.6
ECJ2VF1E224Z
ECJ2YF1E334Z
ECJ2YF1E474Z
ECJ2VF1C224Z
ECJ2VF1C334Z
ECJ2VF1C474Z
ECJ2VF1C684Z
ECJ2VF1C105Z
ECJ2YF1C155Z
ECJ2YF1C225Z
(Packaging Style Code)✻
0.85
0.85
0.85
0.85
1.25
1.25
1.25
1.25
ECJ2YB1A6841
ECJ2YB1A1051
1.25
1.25
ECJ2YF1A335Z
ECJ2YF1A475Z
✻✻Packaging Style Code: ÒVÓ for Taped Version (Taping pitch:4 mm)
and ÒXÓ for Bulk Type.
✻✻1: Capacitance Tolerance Codes.
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises form this product, please inform us immediately for technical consultation.
1 6
For
General
Multilayer Ceramic Capacitors
(
)
■
Standard Products forÒ13ÓType (EIAÒ1206ÓType) , Taped Version
[Rated Voltage 50 VDC]
T∆ (N470) U∆ (N750)
C∆ (NP0)
SL
P∆ (N150)
R∆ (N220)
S∆ (N330)
Capacitance Capacitance
Tolerance
Dim.
Dim.
Dim.
Dim.
Dim.
Dim.
Dim.
(pF)
Part No.
T
Part No.
T
Part No.
T
Part No.
T
Part No.
T
Part No.
T
Part No.
T
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
270
330
390
470
560
ECUV1H2711PM 0.6 ECUV1H2711RM 0.6 ECUV1H2711SM 0.6
ECUV1H3311PM 0.6 ECUV1H3311RM 0.6 ECUV1H3311SM 0.6
ECUV1H3911PM 0.6 ECUV1H3911RM 0.6 ECUV1H3911SM 0.6
ECUV1H4711PM 0.6 ECUV1H4711RM 0.6 ECUV1H4711SM 0.6
ECUV1H5611PM 0.6 ECUV1H5611RM 0.6 ECUV1H5611SM 0.6
ECUV1H6811PM 0.85 ECUV1H6811RM 0.6 ECUV1H6811SM 0.6
ECUV1H2711TM 0.6
ECUV1H3311TM 0.6
ECUV1H3911TM 0.6
ECUV1H4711TM 0.6
ECUV1H5611TM 0.6
ECUV1H6811TM 0.6
680
820
ECUV1H8211PM 0.85 ECUV1H8211RM 0.85 ECUV1H8211SM 0.85 ECUV1H8211TM 0.6
ECUV1H1021PM 0.85 ECUV1H1021RM 0.85 ECUV1H1021SM 0.85 ECUV1H1021TM 0.85
ECUV1H1221PM 0.85 ECUV1H1221RM 0.85 ECUV1H1221SM 0.85 ECUV1H1221TM 0.85
1000
1200
1500
1800
2200
2700
3300
3900
4700
5600
6800
8200
10000
✻✻✻
±5 %
(J)
(Packaging Style Code)✻
ECUV1H1521SM 0.85 ECUV1H1521TM 0.85
or
±10 %
(K)
ECUV1H2721CW 0.6
ECUV1H3321CW 0.6
ECUV1H3921CW 0.6
ECUV1H4721CW 0.6
ECUV1H3321W 0.6
ECUV1H3921W 0.6
ECUV1H4721W 0.6
ECUV1H3321UW 0.6
ECUV1H3921UW 0.6
ECUV1H4721UW 0.6
ECUV1H5621UW 0.6
ECUV1H5621CW 0.85 ECUV1H5621W 0.6
ECUV1H6821CW 0.85
ECUY1H8221CW 1.15
ECUY1H1031CW 1.15
(Cap. Tol. Code)✻✻
✻✻✻ Packaging Style Code: ÒVÓ, ÒYÓ for Taped Version (Taping pitch:
4 mm) and ÒXÓ for Bulk Type.
✻✻✻ 1: Capacitance Tolerance Codes.
✻✻✻ Capacitance values of ÒE24Ó series and capacitance tolerance
of ±5 % are available on special order.
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises form this product, please inform us immediately for technical consultation.
1 7
For
General
Multilayer Ceramic Capacitors(
)
■ Standard Products forÒ13Ó Type (EIA Ò1206ÓType), Taped Version
B/X7R
16 VDC
F/Y5V
16 VDC
25 VDC
Part No.
10VDC
25 VDC
Part No.
10 VDC
Part No.
Capacitance
(pF)
Capacitance
Tolerance
Capacitance
Tolerance
Dim.
T
Dim.
T
Dim.
T
Dim.
T
Dim.
T
Dim.
T
Part No.
Part No.
Part No.
(mm)
(mm)
(mm)
(mm)
(mm)
(mm)
68000
82000
100000
120000
150000
180000
220000
270000
330000
390000
470000
560000
680000
820000
1000000
1500000
2200000
3300000
4700000
6800000
10000000
ECJ3VB1E1041 0.85 ECJ3VB1C1041 0.85
ECJ3VB1E124K 0.85 ECJ3VB1C124K 0.85
ECJ3VB1E1541 0.85 ECJ3VB1C1541 0.85
ECJ3VB1E184K 0.85 ECJ3VB1C184K 0.85
ECJ3VB1E2241 0.85 ECJ3VB1C2241 0.85
ECJ3VB1E274K 0.85 ECJ3VB1C274K 0.85
ECJ3VB1E3341 0.85 ECJ3VB1C3341 0.85
ECJ3YB1E394K 1.15 ECJ3VB1C394K 0.85
ECJ3YB1E4741 1.15 ECJ3VB1C4741 0.85
ECJ3VB1C564K 0.85
±10 %
(K)
+80
%
--20
or
(Z)
±20 %
(M)
ECJ3VF1E474Z 0.85
ECJ3YB1E6841 1.6 ECJ3VB1C6841 0.85
ECJ3YB1C824K 1.15
ECJ3YF1E684Z 1.15 ECJ3VF1C684Z 0.85
ECJ3YB1E1051 1.6 ECJ3YB1C1051 1.15
(Cap. Tol. Code)✻✻
ECJ3YF1E105Z 1.15 ECJ3VF1C105Z 0.85
ECJ3YF1E155Z 1.15 ECJ3VF1C155Z 0.85
ECJ3YF1E225Z 1.15 ECJ3VF1C225Z 0.85
ECJ3YF1C335Z 1.15
ECJ3YB1A1551 1.6
ECJ3YB1A2251 1.6
ECJ3YB1A3351 1.6
(Packaging Style Code)✻
ECJ3YF1C475Z 1.15
ECJ3YF1A106Z 1.6
✻✻Packaging Style Code: ÒVÓ, ÒYÓ for Taped Version (Taping pitch:
4 mm) and ÒXÓ for Bulk Type.
✻✻1: Capacitance Tolerance Codes.
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
1 8
For
General
Multilayer Ceramic Capacitors
(
)
■
Packaging Specifications
● Standard Packing Quantity
Style
Paper taping
Embossed taping
Ñ
Bulk
Bulk case
Size Code (EIA) Thickness
10 (0402) 0.5 mm
11 (0603) 0.8 mm
Pitch 2 mm: 10000 (50000) pcs./reel
Pitch 2 mm: 8000 (20000) pcs./reel
Pitch 4 mm: 4000 (10000) pcs./reel
Pitch 2 mm: 10000 (40000) pcs./reel
Pitch 4 mm: 5000 (20000) pcs./reel
Pitch 4 mm: 4000 (10000) pcs./reel
Ñ
1000 pcs./bag 50000 pcs./case
Ñ
Ñ
1000 pcs./bag 15000 pcs./case
0.6 mm
1000 pcs./bag 10000 pcs./case
12 (0805)
0.85 mm
Ñ
1000 pcs./bag
1000 pcs./bag
1000 pcs./bag
1000 pcs./bag
1000 pcs./bag
1000 pcs./bag
Ñ
Ñ
Ñ
Ñ
Ñ
Ñ
1.25 mm
0.6 mm
Pitch 4 mm: 2000 (10000) pcs./reel
Pitch 4 mm: 5000 (20000) pcs./reel
Pitch 4 mm: 4000 (10000) pcs./reel
Ñ
Ñ
13 (1206) 0.85 mm
1.15 mm
Ñ
Pitch 4 mm: 2000 (10000) pcs./reel
Pitch 4 mm: 2000 (10000) pcs./reel
1.6 mm
Ñ
(
) for large size reel applied
● Paper Taping
● Reel for Taping
P1: 2mm
Symbol
A
B
W
F
E
P1 P2 P0 fD0 t1
t2
Size Code
Symbol
A
B
C
D
E
W
W1
10 0.65 1.15
0.7 1.0
0
(0402) ±0.05 ±0.05
max. max.
Dim.
(mm)
f180 Ð3 f60.0±0.5 13.0±0.5 21.0±0.8 2.0±0.5 9.0±0.3 1.3±0.2
(330±5) (50 min.) (20 min.) (9.5±1.0) (2.0±0.5)
Dim. 11 1.10 1.90 8.0 3.501.752.002.00 4.0 1.5
(mm) (0603) ±0.10 ±0.10 ±0.2 ±0.05±0.10±0.05±0.05 ±0.1 +0.1 1.1 1.4
(
): Large size reel
0
max. max.
12 1.65 2.4
(0805) ±0.20 ±0.2
● Leader Part and Taped End
Tape end
P1: 4mm
Leader part
Symbol
A
B
W
F
E
P1 P2 P0 fD0 t1
t2
Size Code
11 1.10 1.90
(0603) ±0.10 ±0.10
Dim. 12 1.65 2.4 8.0 3.501.75 4.0 2.00 4.0 1.5 1.1 1.4
(mm) (0805) ±0.20 ±0.2 ±0.2 ±0.05±0.10 ±0.1 ±0.05 ±0.1 +0.1 max. max.
0
13 2.0 3.6
(1206) ±0.2 ±0.2
(1)Bulk Case
● Embossed Taping
Symbol
A
B
W
F
E
P1 P2 P0 fD0 t1
t2
SizeCode
12 1.55 2.35
(0805) ±0.20 ±0.2
Dim.
(mm)
8.0 3.501.75 4.0 2.00 4.0 1.5 0.6 2.1
±0.2 ±0.05 ±0.10 ±0.1 ±0.05 ±0.1 +0.1 max. max.
0
13 1.95 3.6
(1206) ±0.20 ±0.2
Unit: mm
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
1 9
For
General
Multilayer Ceramic Capacitors
(
)
■
Typical Temperature Characteristics
[Class 1 (T.C. Type)]
[CH (0 60 ppm/˚C)]
–
[PH ( 150 60 ppm/˚C)]
–
[SH ( 330 60 ppm/˚C)]
–
[RH ( 220 60 ppm/˚C)]
–
[TH ( 470 60 ppm/˚C)]
–
[UJ ( 750 120 ppm/˚C)]
[SL ( 350 to –1000 ppm/˚C)]
[Class 2 (Hi-K Type)]
[B/X7R]
[F/Y5V]
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
2 0
100V
200V
Multilayer Ceramic Capacitors
(
)
Multilayer Ceramic Chip
Capacitors
(100V, 200V Series)
■
Features
■
Recommended Applications
● Small in size and wide capacitance range
● Superior humidity characteristic and long life thanks
to the monolithic construction
●FFoorrnnooiissee lmimititnegr,, ccoouupplliinngg,, ttiimmee ccoonnssttaanntt, aanndd oscilate
li
oscillator circuits.
● Excellent solderbility and resistance to soldering heat
thanks to terminals with three layers
● Low self-inductance and excellent frequency
characteristics
■
Explanation of Part Numbers
Temperature
Characteristics
Capacitance
Tolerance
Product Code
Packaging Styles
Rated Voltage
Nominal Capacitance
Suffix
■
■
Construction
No
Name
A
B
C
D
E
Ceramic dielectric
Inner electrode
Substrate electrode
Intermediate electrode
External electrode
Dimensions in mm (not to scale)
Size Code (EIA)
L
W
T
L1, L2
Ò11Ó Type (0603)
Ò12Ó Type (0805)
Ò13Ó Type (1206)
1.60±0.10
2.00±0.10
3.20±0.15
0.80±0.10
1.25±0.10
1.60±0.15
0.80±0.10
1.35 max.
1.25 max.
0.30±0.20
0.50±0.25
0.60±0.30
■
Capacitance Range in pF
Class 1 (T.C. Type)
Class 2 (Hi-K Type)
Size Code
(EIA)
Dim. ÒTÓ
(mm)
NP0 CÆ
B/X7R
100 V
200 V
100 V
200 V
Ò11Ó (0603)
Ò12Ó (0805)
0.80±0.10
0.85±0.10
1.25±0.10
0.85±0.10
1.15±0.10
10 Ð 100
10 Ð 1000
Ñ
Ñ
10 Ð 47
68 Ð 330
Ñ
220 Ð 1000
220 Ð 10000
15000
220 Ð 1000
220 Ð 4700
6800 Ð 10000
Ñ
1500 Ð 3300
Ñ
Ñ
Ò13Ó (1206)
470 Ð 1000
22000 Ð 47000
15000, 22000
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
2 1
100V
200V
Multilayer Ceramic Capacitors
(
)
■
Nominal Capacitance vs. Capacitance Tolerance
Tol. Code CapacitanceTolerance
Nominal Capacitance Available (pF)
10
Temp. Char.
Class
1
D
J
< 10 pF
±0.5 pF
±5 %
C∆ (NP0)
> 10 pF
E6
E6
(T.C. Type)
Within Capacitance Range,
E-Series Numbers ×10n
K
±10 %
B(X7R)
2 (Hi-K Type)
■
■
E-Series Numbers
E6
1
1.5
2.2
3.3
4.7
6.8
Temperature Coefficient of Class 1 Capacitors/T.C. Tolerance
Temp. Char.
Temperature Coefficient (ppm/¡C)
CH : 0 ± 60
CÆ (NP0)
■
■
Temperature Characteristics of Class 2 Capacitors
Measurement
Temperature
Range
Capacitance Change
Temp. Char.
Reference
Temperature
No DC Voltage Applied
B (X7R)
±10 % max.
Ð25 to 85 ¡C
20 ¡C
Specifications
Specifications
Characteristics
Class 1 (T.C. Type)
Class 2 (Hi-K Type)
B(X7R)
Test Method
CÆ (NP0)
OperatingTemperature Range
Ð55 to 125 ¡C
100 VDC, 200 VDC
ÑÑ
ÑÑ
RatedVoltage
Class 1: Rated Voltage×3, 1 to 5 s
Class 2: Rated Voltage×2.5, 1 to 5 s
Limit surge current:50 mA max.
Dielectric
WithstandingVoltage
No break down
Insulation
Resistance (IR)
IR>10000MΩ or 500/C✻ MΩ whichever is less
[C: Rated capacitance in µF]
Rated voltage at 1 minute
electrification
Capacitance
Within the specified tolerance
Class
Frequency Voltage Temp.
1 MHz
±10 % 0.5 to
<
1000 pF
1
1 kHz 5 Vrms
±10 %
>
1000 pF
2
20 ûC
Capacitance < 30 pF
✻✻
Q > 400+20 C
1 kHz 1±0.2
±10 % Vrms
Q Factor or
Dissipation Factor
(tan δ)
30 pF < Cap. < 1000 pF
Q > 1000
D.F. (tan δ)
< 0.025
Class2(Hi-KType)
Capacitance > 1000 pF
D.F. (tan δ) < 0.002
Pretreatment:150+0/Ð10 ¡Cfor1hour
andthenshallbestored
inaroomtemperaturefor
48±4hours,before
initial measurement.
✻✻✻ Nominal capacitance value in µF
✻✻✻ Nominal capacitance value in pF
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
2 2
100V
200V
Multilayer Ceramic Capacitors
(
)
■
Standard Products for Ò11Ó Type (EIA Ò0603Ó Type)
CÆ NP0
B/X7R
Capacitance
(pF)
100 VDC
100 VDC
Part No.
200 VDC
Part No.
Capacitance
Tolerance
Dim.
T
Capacitance
Tolerance
Dim.
T
(mm)
Dim.
T
(mm)
Part No.
(mm)
0.8
0.8
0.8
0.8
0.8
0.8
0.8
ECJ11C2A100D
ECJ11C2A150J
ECJ11C2A220J
ECJ11C2A330J
ECJ11C2A470J
ECJ11C2A680J
ECJ11C2A101J
10
±0.5pF
15
22
33
47
68
±10%
100
150
220
330
470
680
1000
±5%
(Packaging Style Code)
ECJ11B2A221K
ECJ11B2A331K
ECJ11B2A471K
ECJ11B2A681K
ECJ11B2A102K
0.8
0.8
0.8
0.8
0.8
ECJ11B2D221K
ECJ11B2D331K
ECJ11B2D471K
ECJ11B2D681K
ECJ11B2D102K
0.8
0.8
0.8
0.8
0.8
■
Standard Products for Ò12Ó Type (EIA Ò0805Ó Type)
CÆ NP0
B/X7R
100 VDC
Capacitance
(pF)
100 VDC
200 VDC
200 VDC
Capacitance
Tolerance
Dim.
T
Dim. Capacitance
Dim.
T
Dim.
T
Part No.
Part No.
T
Tolerance
Part No.
Part No.
(mm)
(mm)
(mm)
(mm)
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
1
1
1
1
1
1
1
1
1
1
1
1
1
C2A100D 0.85 ECJ2
C2A150J 0.85 ECJ2
C2A220J 0.85 ECJ2
C2A330J 0.85 ECJ2
C2A470J 0.85 ECJ2
C2A680J 0.85 ECJ2
C2A101J 0.85 ECJ2
C2A151J 0.85 ECJ2
C2A221J 0.85 ECJ2
C2A331J 0.85 ECJ2
C2A471J 0.85
1
1
1
1
1
1
1
1
1
1
C2D100D 0.85
C2D150J 0.85
C2D220J 0.85
C2D330J 0.85
C2D470J 0.85
C2D680J 1.25
C2D101J 1.25
C2D151J 1.25
C2D221J 1.25
C2D331J 1.25
10
15
22
33
47
68
100
150
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
ECJ2
1
1
1
1
1
1
1
1
1
1
1
1
B2A221K 0.85 ECJ2
B2A331K 0.85 ECJ2
B2A471K 0.85 ECJ2
B2A681K 0.85 ECJ2
B2A102K 0.85 ECJ2
B2A152K 0.85 ECJ2
B2A222K 0.85 ECJ2
B2A332K 0.85 ECJ2
B2A472K 0.85 ECJ2
B2A682K 0.85 ECJ2
B2A103K 0.85 ECJ2
B2A153K 1.25
1
1
1
1
1
1
1
1
1
1
1
B2D221K 0.85
B2D331K 0.85
B2D471K 0.85
B2D681K 0.85
B2D102K 0.85
B2D152K 0.85
B2D222K 0.85
B2D332K 0.85
B2D472K 0.85
B2D682K 1.25
B2D103K 1.25
220
330
±5%
±10%
470
C2A681J 0.85
680
C2A102J 0.85
1000
1500
2200
3300
4700
6800
10000
15000
(Packaging Style Code)
■
Standard Products for Ò13Ó Type (EIA Ò1206Ó Type)
CÆ NP0
B/X7R
Capacitance
(pF)
100 VDC
200 VDC
100 VDC
200 VDC
Capacitance
Tolerance
Dim.
T
(mm)
Dim. Capacitance
Dim.
T
(mm)
Dim.
T
(mm)
Part No.
Part No.
T
Tolerance
Part No.
Part No.
(mm)
ECJ31C2D471J 1.15
ECJ31C2D681J 1.15
ECJ31C2D102J 1.15
470
680
1000
ECJ31C2A152J 0.85
ECJ31C2A222J 0.85
ECJ31C2A332J 0.85
1500
2200
3300
±5%
±10%
4700
(Packaging Style Code)
6800
10000
15000
22000
33000
47000
ECJ31B2D153K 1.15
ECJ31B2A223K 1.15 ECJ31B2D223K 1.15
ECJ31B2A333K 1.15
ECJ31B2A473K 1.15
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises form this product, please inform us immediately for technical consultation.
2 3
Super
)
Thin
Multilayer Ceramic Capacitors
(
Multilayer Ceramic Chip
Capacitors
(Super Thin Type 0.42T Series)
■
Features
■
Recommended Applications
● For IC card and flat equipments
● Super thin capacitor of Ò0603Ó type responded to the
need of flat equipuments
● Superior humidity characteristic and long life thanks
to the monolithic construction
● Excellent solderability and resistance to soldering
heat thanks to terminals with three layers
■
Explanation of Part Numbers
Temperature
Characteristics
Capacitance
Tolerance
Product Code
Packaging Styles
Rated Voltage Nominal Capacitance
Suffix
±
±
±
±
■
■
Construction
No
Name
A
B
C
D
E
Ceramic dielectric
Inner electrode
Substrate electrode
Intermediate electrode
External electrode
Dimensions in mm (not to scale)
Size Code (EIA)
Ò11Ó Type (0603)
L
W
T
L1, L2
1.60±0.10
0.80±0.10
0.42±0.05
0.30±0.20
■
Capacitance Range in pF
Class 1 (T.C. Type)
Class 2 (Hi-K Type)
T.C.
R.V.
NP0 CÆ
25 VDC
B/X7R
16 VDC
F/Y5V
Size Code
16 VDC
Ò11Ó (0603)
0.5 Ð 330
220 Ð 22000
1000 Ð 100000
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
✻
Temperature characteristics codes conform to JIS C6429
Ð EC23 Ð
Super
)
Thin
Multilayer Ceramic Capacitors
(
■
Nominal Capacitance vs. Capacitance Tolerance
Tol. Code CapacitanceTolerance
Nominal Capacitance Available (pF)
Temp. Char.
Class
C
D
J
±0.25 pF
±0.5 pF
±5 %
0.5, 1, 2, 3, 4, 5
6, 7, 8, 9, 10
< 10 pF
1
C∆ (NP0)
(T.C. Type)
> 10 pF
E12
Within Capacitance Range,
E-Series Numbers ×10n
K
Z
±10 %
+80, Ð20 %
E12
E6
B(X7R)
F(Y5V)
2
(Hi-K Type)
■
■
Temperature Coefficient of Class 1 Capacitors/T.C. Tolerance
Temperature Coefficient (ppm/¡C)
Temp. Char.
< 2 pF
3 pF
> 4 pF
CH : 0 ± 60
C∆ (NP0)
CK : 0 ± 250
CJ : 0 ± 120
Temperature Characteristics of Class 2 Capacitors
Measurement
Temperature
Range
Capacitance Change
Temp. Char.
Reference
Temperature
No DC Voltage Applied
1/2 Rated Voltage Applied
B (X7R)
F (Y5V)
±10 % max.
±10, Ð30 % max.
+30, Ð95 % max.
Ð25 to 85 ¡C
20 ¡C
+30, Ð80 % max.
■
Specifications
Specifications
Characteristics
Class 1 (T.C. Type)
Class 2 (Hi-K Type)
Test Methods
C∆ (NP0)
B/X7R
F/Y5V
Operating Temperature Range
Ð55 to 125 ¡C
Ð25 to 85 ¡C
16 VDC
ÑÑ
ÑÑ
RatedVoltage
25 VDC
16 VDC
Class1:RatedVoltage×3,1to5 s
Class2:RatedVoltage×2.5,1to5 s
Limitsurgecurrent:50 mAmax.
Dielectric
WithstandingVoltage
No break down
Insulation
Resistance (IR)
IR>10000MΩ or 500/C✻ MΩ whichever is less
[C: Rated capacitance in µF]
Rated voltage at 1 minute
electrification
Capacitance
Within the specified tolerance
Class
Frequency Voltage Temp.
1 MHz
<
1000 pF
±10 % 0.5 to
1 kHz 5 Vrms
±10 %
1 kHz 1±0.2
±10 % Vrms
1
>
1000 pF
2
20 ûC
Capacitance < 30 pF
Q Factor or
Dissipation Factor
(tan d)
Q > 400+20 C✻✻
D.F. (tan d)
D.F. (tan d)
< 0.05
< 0.025
30 pF < Cap. < 1000 pF
Q > 1000
Class2(Hi-KType)
Pretreatment:150+0/Ð10 ¡Cfor1hour
andthenshallbestored
inaroomtemperaturefor
48±4hours,before
initial measurement.
✻✻ Nominal capacitance value in µF
✻✻ Nominal capacitance value in pF
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
Ð EC24 Ð
Super
)
Thin
Multilayer Ceramic Capacitors
(
■
Standard Products for Ò11Ó Type (EIA Ò0603Ó Type)
Capacitance
(pF)
CÆ (NP0)
Capacitance
(pF)
B/X7R
F/Y5V
Capacitance
Tolerance
Capacitance
Tolerance
Capacitance
Tolerance
25 VDC
16 VDC
16 VDC
0.5
1
2
3
4
5
6
7
8
ECJBXC1E0R5C
ECJBXC1E010C
±0.25pF ECJBXC1E020C
220
270
330
390
470
560
680
820
ECJBXB1C221K
ECJBXB1C271K
ECJBXB1C331K
ECJBXB1C391K
ECJBXB1C471K
ECJBXB1C561K
ECJBXB1C681K
ECJBXB1C821K
ECJBXB1C102K
ECJBXB1C122K
ECJBXB1C152K
ECJBXB1C182K
ECJBXB1C222K
ECJBXB1C272K
ECJBXB1C332K
(C)
ECJBXC1E030C
ECJBXC1E040C
ECJBXC1E050C
ECJBXC1E060D
ECJBXC1E070D
ECJBXC1E080D
ECJBXC1E090D
ECJBXC1E100D
ECJBXC1E120J
ECJBXC1E150J
ECJBXC1E180J
ECJBXC1E220J
ECJBXC1E270J
ECJBXC1E330J
ECJBXC1E390J
ECJBXC1E470J
ECJBXC1E560J
ECJBXC1E680J
ECJBXC1E820J
ECJBXC1E101J
ECJBXC1E121J
ECJBXC1E151J
ECJBXC1E181J
ECJBXC1E221J
ECJBXC1E271J
ECJBXC1E331J
±0.5pF
(D)
1000
1200
1500
1800
2200
2700
3300
3900
4700
5600
6800
8200
10000
12000
15000
18000
22000
27000
33000
39000
47000
56000
68000
82000
100000
ECJBXF1C102Z
ECJBXF1C152Z
ECJBXF1C222Z
ECJBXF1C332Z
9
10
12
15
18
22
27
33
39
47
56
68
82
100
120
150
180
220
270
330
ECJBXB1C392K +80%
ECJBXB1C472K Ð20% ECJBXF1C472Z
±10%
(K)
ECJBXB1C562K
ECJBXB1C682K
ECJBXB1C822K
ECJBXB1C103K
ECJBXB1C123K
ECJBXB1C153K
ECJBXB1C183K
ECJBXB1C223K
(Z)
ECJBXF1C682Z
ECJBXF1C103Z
ECJBXF1C153Z
ECJBXF1C223Z
ECJBXF1C333Z
ECJBXF1C473Z
ECJBXF1C683Z
ECJBXF1C104Z
±5%
(J)
■
Packaging Specifications
● Standard Packing Quantity
Bulk
1000 pcs./bag
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
Ð EC25 Ð
Multilayer Ceramic Capacitors
Multilayer Ceramic Chip Capacitors
(For General Electronic Equipment)
Series:ECU, ECJ
Handling Precautions
Safety Precautions
The Multilayer Ceramic Chip Capacitors (hereafter referred to as “The Capacitors”) may fail in a short circuit mode
or in an open-circuit mode, when subjected to severe conditions of electrical, enviromental and/or mechanical
s tre s e s b e yond the s p e c ifie d “Ra ting s ” a nd s p e c ifie d “Cond itions ” in the Ca ta log a nd the
Specifications, resulting in burnout, flaming or glowing in the worst case.
Following “ Precautions for Safety” and “Application Notes” shall be taken in your major consideration. If you
have a quetion about the Precautions for Handling. Please contact our engineering section or factory.
1. Operating Conditions and Circuit Design
1.5 Restriction on Environmental Conditions
The Capacitors shall not be operated and/or stored
under following environmental conditions;
a) To be exposed directly to water or salt water.
b) To be exposed directly to sunlight.
c) Under conditions of condensation
1.1 Operating Temperature Range
The specified “Operating Temperature Range” in
the c a ta log is a b s olute ma ximum a nd minimum
te mp e ra ture ra ting . So in a ny c a s e , the
Ca p a c itors s ha ll b e op e ra te d within the
specified“Operating Temperature Range”.
d) Under conditions of corrosive atomosphere such
as hydrogen sulfide, sulfuric acid, chlorine, or
ammonia etc.
e) Under severe conditions of vibration or shock
b e yond the s p e c ifie d c ond itions in the
Specifications.
1.2 Designs of Voltage Applications
The Capacitors shall not be operated exceeding
the s p e c ifie d “Ra te d Volta g e ” in the c a ta log . If
volta g e ra ting s a re e xc e e d e d , the re s ult c ould b e
fa ilure or d a ma g e . In c a s e of a p p lic a tion o f
DC a nd AC volta g e s to the c a p a c itors , the
designed peak voltage shall be within the specified
“Rated Voltage”.
1.6 Secular Changes in Capacitance
(1) Peculiar characteristics of “Secular Changes in
Ca p a ita nc e ” a re ob s e rve d in the Ca p a c itors
(Class 2 High Dielectric Constant. Temperature
Characteristics “X7R” and “Y5V”). The “secular
c ha nge s” sha ll be c onside red in your c irc uit
design.
(2) The Capacitance changes, due to the individual
characteristics of ceramic dielectric materials
applied, can be recovered to the each initial
values at shipping by a heat treatment (140 to
150 °C for 1 hour).
In case of AC of pulse voltage, the peak voltage
(peak to peak) shall be within the specified “Rated
Voltage”. If high frequency voltage or fast rising
pulse voltage is applied continuously even within
the “Ra ta d Volta g e ”, c onta c t our e ng ine e ring
section before use.
1.3 Charging and Discharging Current
The Capacitors shall not be operated beyond the
specified “Maximum Charging/Discharging Current
Ratings” in the specifications. Applications to a low
(The recovered capacitance of Class 2 Capacitor
shall be measured at the standard test condition
after recovery times of 48 hours.)
impeadance circuit such as
circuit” are not recommended for safety.
a “secondary power
1.4 Temperature Rise by Dielectric Loss of the
Capacitor
The “Operating Temperature Range” mentioned
2. Design of Printed Circuit Board
2.1 Selection of Printed Circuit Boards
above shall include
a maximum surface tempera-
When the Capacitors are mounted and soldered
on a n “Aluminum Substa te ”, the substra te ha s
influe nc e s on Ca p a c itor’s re lia b ility a g a ins t
“Temperature Cycles” and “Heat shock” because
of d iffe re nc e of the rma l e xp a ns ion c oe ffic ie nt
between them. It shall be carefully confirmed that
the actual board to be used does not deteriorate the
characteristics of the Capacitors.
ture rise of 20 °C, which is caused by the Dielectric
Los s of the Ca p a c itor a nd a p p lie d e le c tric a l
stre sse s (suc h a s volta ge , fre que nc y a nd wa ve
form etc.)
It is recommended to measure and check “Surface
Temperature of the Capacitor” in your equipment at
your e s tima te d /d e s ig ne d ma ximum a mb ie nt
temperature.
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
2 4
Multilayer Ceramic Capacitors
2.2 Design of Land Pattern
Fig.3 Component Layout
(1) Recommended Dimensions of Lands: As shown
SMD breakage probabilty by stress at
a breakaway
Cracks SMDs
located at an easily warped
in Table 1 and Fig.1.
Notes: ] * Too large land requires excess amount
of solder.
** The Dimmensions shall be symmetrical
Fig.1 Recommended Land Dimensions
2.4 Mounting Density and Spaces
Table 1 Recommended Land Dimensions in mm
Pla c e me nts in too na rrow s p a c e s b e twe e n
components may cause “Solder Bridges”, during
soldering. The minimum space between components
shall be 0.5 mm in view of the positioning tolerances
of the mounting machines and the dimensional
tolerances of the components and PC Boards.
Components
Dimensions
Land Dimensions
Land Dimensions
Size
Code
(EIA)
for Flow Soldering for Reflow Soldering
L
W
T
a
b
c
a
b
c
0.5– 2.0– 4.4– 1.0– 1.8– 3.8– 1.2–
1.25 2.4 4.8 1.3 2.4 4.8 1.6
0.5– 1.0– 3.0– 0.8– 0.8– 2.4– 1.0–
13 (1206) 3.2 1.6
12 (0805) 2.0 1.25
1.45 1.4 3.2 1.0
0.8– 2.0– 0.6– 0.8– 2.0– 0.8–
1.0 2.6 0.8 1.0 2.6 1.0
0.5– 1.5– 0.5–
0.6 1.7 0.6
1.2 3.2
1.2
11 (0603) 1.6 0.8 0.8
10 (0402) 1.0 0.5 0.5
2.5 Applications of Solder Resist
—
—
—
Ap p lic a tions of Sold e r Re s is t a re e ffe c tive to
prevent solder bridges and to control amounts of
solder on PC boards. (As shown in Table 2)
(2) Recommended amount of solder
Recommended amount of solder: As shown in
Fig.2
Table 2 Application Examples of Solder Resist
Recommended
Application Examples
Examples of
Solder Bridges
Excess amount of solder gives large mechanical
stresses to the Capacitors/components.
Narrow Spacing
between Chip
Components
Solder Resist
Fig.2 Recommended Amount of Solder
Radial Components
are directly
commected to Chip
Components
Solder Resist
Solder Resist
Common lands
(chassis, etc.) are
close to Chip
PC board
PC board
PC board
O Recommended
Components.
2.3 Component Layout
3.Precautions for Assembly
When placing/mounting the Capacitors/components
near an area which is apt to bend or a grid groove
on the PC b oa rd , it is a d vis a b le to ha ve b oth
e le c trod e s s ub je c te d to uniform s tre s s e s , or to
position the components electrodes at right angles
to the grid gloove or bending line.
3.1 Adhesives for Mounting
(1) Selection of adhesives
● The viscosity of an adhesive for mountings shall
be such that the adhesive does not flow off on
the land during it’s curing.
● If the a d he s ive is too low in its vis c os ity,
mounted components may be out of alignment
after or during soldering.
● The a d he s ive s s ha ll not b e c orros ive or
chemically active to the mounted components
and the PC boards.
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
2 5
Multilayer Ceramic Capacitors
● The amount of adhesive shall be such that the
adhesive does not flow off or be out of alignment.
(2) Curing Conditions
● Ad he s ive s for mounting s c a n b e c ure d b y
ultra viole t or infra re d ra d ia tion. In ord e r to
prevent the terminal electrodes of the Capacitors
from oxid izing . The c uring s ha ll b e d one a t
conditions of 160 °C max., for 2 minutes max.
3.4
Soldering
3.4.1 Flow Soldering
In flow s old e ring p roc e s s , a b norma l a nd la rg e
the rma l a nd me c ha nic a l s tre s s e s , c a us e d b y
“Te mp e ra ture Gra d ie nt” b e twe e n the mounte d
Capacitors and melted solder in a soldering bath,
may be applied directly to the Capacitors, resulting
in failure and damage of the capacitors. So it is
e s s e ntia l tha t the s old e ring p roc e s s s ha ll b e
controlled to the following recommended conditions
and precautions. (See Fig. 6)
3.2 Chip Mounting Consideration
In mounting the Ca p a c itors /c omp one nts on
a
printed circuit board,/any bending and expanding
force against them shall be kept minimum to pre-
vent them from being damaged or cracked.
Following precautions and recommendations shall
be observed carefully in the process;
Fig.6 Recommended Soldering Temperature-Time
Profile (Flow soldering)
(1) Maximum stroke of the vaccum nozzle shall be
adjusted so that the pushing force to the printed
circuit board shall be limited to a static load of
1 to 3 N (100 to 300 gf). (See Fig.4)
(2) Maximum stroke of the nozzle shall be adjusted
so that the maximum bending of printed circuit
board does not exceed 0.5 mm. (See Fig.4)
Fig.4
(1) Application of Flux:
The s old e ring flux (3.3) s ha ll b e a p p lie d to
the mounte d Ca pa c itors thinly a nd uniformly
by forming method.
(2) Preheating:
The mounted Capacitors/Components shall be
preheated sufficiently so that the “Temperature
Gradient” between the Capacitors/components
and the melted solder shall be 150 °C or below.
(3) Immersion to Soldering Bath:
(3) The printed circuit board shall be supported by
means of adequate supporting pins as shown in
Fig.5-(b).
The Capacitors shall be immersed into a solder-
ing bath of 240 to 250 °C for 3 to 5 seconds.
(4) Cooling:
Fig.5
(a) Improper
(b) Proper
The Ca p a c itors s ha ll b e c oole d g ra d ua lly to
room ambient temperature with the cooling tem-
pe ra ture ra te s of 8 °C/s ma x. from 250 °C to
170 °C, and 4 °C/s max. from 170 °C to 130 °C.
(5) Flux Cleaning:
Whe n the Ca p a c itors a re imme rs e d into
cleaning solvent, it shall be confirmed that the
surface temperatures of devices do not exceed
100 °C. (See 3.5)
3.3
Soldering Flux and Solder
(1) Soldering Flux:
● The content of halogen in the soldering flux shall
be 0.2 wt% or less.
3.4.2 Reflow Soldering
In re flow s old e ring p roc e s s , the mounte d
● Rosin-based and non-activated soldering flux is
recommended.
Capacitors/components are
and soldered by a thermal conduction system such
as an “Infrared radiation and hot blast soldering
generally heated
(2) Water soluble type Soldering Flux:
In c a s e of wa te r s olub le typ e s old e ring flux
being applied, the flux residue on the surface of
P.C. b oa rd s ma y ha ve influe nc e on the
re lia b ility of the c omp one nts a nd c a us e
deterioration and failures of them.
s ys te m” or
a “Va p or Pha s e Sold e ring Sys te m
(VPS)”, La rg e te mp e ra ture g ra d ie nts s uc h a s
a
ra p id he a ting a nd c ooling in the p roc e s s ma y
cause electrical failure and mechanical damage
of the devices. It is essential that the soldering
process shall be controlled by the following recom-
mended conditions and precautions. (See Fig.7)
(3) Solder:
An eutetic solder (Sn63: Pb37) is recommended.
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
2 6
Multilayer Ceramic Capacitors
Fig.7 Recommended Soldering Temperature-Time
Profile (Reflow soldering)
[Recommended Soldering Conditions]
(1) Solder:
φ1 mm Thread eutectic solder (Sn63: Pb37) with
soldering flux✽ in the core.
* Rosin-based, and non-activated flux is re-
commended.
(2) Preheating:
The c a p a c itors s ha ll b e p re he a te d s o tha t
“Temperature Gradient” between the devices
and the tip of soldering iron is 150 °C or below.
(3) Soldering Iron:
Rated Power of 20 W max. with 3 mm soldering
tip in diamter.
(1) Preheating 1:
(4) Temperature of soldering iron tip: 300 °C max.
(The required amount of solder shall be melted
in advance on the soldering tip.)
(5) Cooling:
The mounted Capacitors/components shall be
preheated sufficiently, for 60 to 90 seconds so
that the surface temperatures of them to be 140
to 160 °C.
After soldering. The Capacitors shall be cooled
gradually at room ambient temperature.
(2) Preheating 2:
After “Preheating 1”, the mounted Capacitors/
c omp one nts s ha ll b e he a te d to the e le va te d
3.5
Post Soldering Cleaning
(1) Residues of corrosive soldering fluxes on the
PC b oa rd a fte r c le a ning ma y ha ve g re a t influ-
ence on the electrical characteristics and the
reliability (such as humidity resistance) of the
Capacitors which have been mounted on the
board, it shall be confirmed that the characteris-
tic s a nd the re lia bility of the de vic e s a re not
affected by the applied cleaning conditions.
(2) Solubility of alternative cleaning solvent such as
alcohol etc, is inferior to that of freon cleaning
solvent in flux cleaning.
te mp e ra ture s of 150 to 200 °C for
2 to 5
seconds.
(3) Soldering:
The mounted Capacitors/components shall be
heated under the specified heating conditions
(200 to 240 to 200 °C for total of 20 to 40 sec-
onds, See Fig.7) and shall be soldered at the
maximum temperature of 240 °C for 10 seconds
or less.
(4) Cooling:
Afte r s old e ring , the mounte d Ca p a c itors /
components shall be gradually cooled to room
ambient temperature for preventing mechanical
damages such as cracking of the devices.
(5) Flux Cleaning:
So in the case of alternative cleaning solvents ap-
plied, fresh cleaning solvent shall always be
used, and sufficient rinsing and drying shall be
carried out.
(3) When an ultrasonic cleaning is applied to the
mounted Capacitors on PC boards, following
c ond itions a re re c omme nd e d for p re ve nting
failure or damage of the devices due to the
la rg e vib ra tion e ne rg y a nd the re s ona nc e
caused by the ultrasonic waves :
When the mounted Capacitors/components are
imme rs e d into c le a ning s olve nt, it s ha ll b e
comfirmed the surface temperatures of them does
not exceed 100 °C. (See, 3.5
Post Soldering
Cleaning)
Note: If the mounted Capacitors/components are
p a rtia lly he a te d in the s old e ring p roc e s s ,
the d e vic e s ma y b e s e p a ra te d from the
printed circuit board by the surface tension of
Frequency
Radiated Power : 20 W/liter max.
Period : 5 minuets max.
: 29 kHz max.
3.6 Process Inspection
partially melted solder, and stand up like
“Tomb Stone”.
a
When the mounted printed circuits are inspected
with measuring terminal pins, abnormal and excess
mechanical stresses shall not be applied to the PC
board and mounted components, to prevent failure
or damage of the devices.
(1) The mounted PC boards shall be supported by
some adequate supporting pins to prevent their
bending.
3.4.3 Hand Soldering
In hand soldering of the Capacitors, large tempera-
ture gradient between preheated the Capacitors
and the tip of soldering iron may cause electrical
failures and mechanical damages such as cracking
or breaking of the devices. The soldering shall be
c a re fully c ontrolle d a nd c a rrie d out s o tha t the
temperature gradient is kept minimum with following
recommended conditions for hand soldering.
(2) It shall be confirmed that the measuring pins
have the right shaped tip, are equal in height
and are set in the right positions.
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
2 7
Multilayer Ceramic Capacitors
3.7 Protective Coating
When the surface of a printed board on which the
Capacitors has been mounted is coated with resin
to protect against moisture and dust, it shall be
c onfirme d tha t the p rote c tive c oa t d oe s not
influe nc e the re lia b ility of the c a p a c itors in the
actual equipment.
(1) Coating materials, such as being corrosive and
chemically active, shall not be applied to the
Capacitors and other components.
(2) Coating materials with a large expansivity shall
not be applied to the Capacitors for preventing
failures or damages (such as cracking) of the
devices in the curing process.
3.8
Dividing/Breaking of PC Boards
(1) Abnormal and excessive mechanical stresses,
s uc h a s b e nd ing or e xp a nd ing forc e , on the
components on the printed circuit board, shall
be kept minimum in dividing/breaking.
(2) Divid ing /Bre a king of the PC b oa rds s ha ll b e
done carefully at moderate speed by using a jig
or apparatus to protect the Capacitors on the
boards from mechanical damages.
3.9 Long Term Storage
The Capacitors shall not be stored under severe
c ond itions of hig h te mp e ra ture s a nd hig h
humidities. Store them indoors under 40 °C max.
and 75 % RH max.. Use them within 6 months and
check the solderability before use. (See 1.5)
Design and Specifications are subject to change without notice. Ask factory for technical specifications before purchase and/or use.
Whenever a doubt about safety issues arises from this product, please inform us immediately for technical consultation.
2 8
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