1
notice_e-01
Notice for TAIYO YUDEN products
Please read this notice before using the TAIYO YUDEN products.
REMINDERS
Product information in this catalog is as of October 2009. All of the contents specified herein are subject to change
without notice due to technical improvements, etc. Therefore, please check for the latest information carefully be-
fore practical application or usage of the Products.
Please note that Taiyo Yuden Co., Ltd. shall not be responsible for any defects in products or equipment incorpo-
rating such products, which are caused under the conditions other than those specified in this catalog or individual
specification.
Please contact Taiyo Yuden Co., Ltd. for further details of product specifications as the individual specification is
available.
Please conduct validation and verification of products in actual condition of mounting and operating environment
before commercial shipment of the equipment.
All electronic components or functional modules listed in this catalog are developed, designed and intended for
use in general electronics equipment.(for AV, office automation, household, office supply, information service,
telecommunications, (such as mobile phone or PC) etc.). Before incorporating the components or devices into any
equipment in the field such as transportation,( automotive control, train control, ship control), transportation signal,
disaster prevention, medical, public information network (telephone exchange, base station) etc. which may have
direct influence to harm or injure a human body, please contact Taiyo Yuden Co., Ltd. for more detail in advance.
Do not incorporate the products into any equipment in fields such as aerospace, aviation, nuclear control, subma-
rine system, military, etc. where higher safety and reliability are especially required.
In addition, even electronic components or functional modules that are used for the general electronic equipment,
if the equipment or the electric circuit require high safety or reliability function or performances, a sufficient reliabil-
ity evaluation check for safety shall be performed before commercial shipment and moreover, due consideration to
install a protective circuit is strongly recommended at customer's design stage.
The contents of this catalog are applicable to the products which are purchased from our sales offices or distribu-
tors (so called TAIYO YUDENs official sales channel).
It is only applicable to the products purchased from any of TAIYO YUDEN s ofcial sales channel.
Please note that Taiyo Yuden Co., Ltd. shall have no responsibility for any controversies or disputes that may oc-
cur in connection with a third party's intellectual property rights and other related rights arising from your usage of
products in this catalog. Taiyo Yuden Co., Ltd. grants no license for such rights.
Caution for export
Certain items in this catalog may require specific procedures for export according to Foreign Exchange and For-
eign Trade Control Law of Japan, U.S. Export Administration Regulations, and other applicable regulations.
Should you have any question or inquiry on this matter, please contact our sales staff.
Should you have any question or inquiry on this matter, please contact our sales staff.
36
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FEATURES
ORDERING CODE
EXTERNAL DIMENSIONS/Minimum Quantity
AVAILABLE CAPACITANCE RANGE
APPLICATIONS
WV 50VUP35VGP25VTP16V EP
10VLP
Temp.char. B F B F B F B F F
Type cap. 025 050 075 025 050 050 075 075 075 025 025 050 025 050 050
pF
pF3digits
100 101
120 121
150 151
180 181
220 221
270 271
330 331
390 391
470 471
560 561
680 681
820 821
1000 102
1200 122
1500 152
1800 182
2200 222
2700 272
3300 332
3900 392
4700 472
5600 562
6800 682
8200 822
10000 103
12000 123
15000 153
18000 183
22000 223
27000 273
33000 333
39000 393
47000 473
56000 563
68000 683
82000 823
100000 104
220000 224
470000 474
1000000 105
2200000 225
4700000 475
10000000
106
WV 50VUP
Temp.char. CH SL
Type cap. 025 050 025
pF
pF3digits
1 010
1.2 1R2
1.5 1R5
1.8 1R8
2.2 2R2
2.7 2R7
3.3 3R3
3.9 3R9
4.7 4R7
5.6 5R6
6.8 6R8
8.2 8R2
10 100
11 110
12 120
13 130
15 150
16 160
18 180
20 200
22 220
24 240
27 270
30 300
33 330
36 360
39 390
43 430
47 470
51 510
56 560
62 620
68 680
100 101
150 151
220 221
330 331
470 471
680 681
1000 102
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
◦This widely used ceramic capacitor provides a wide capacitance
range of 1pF through 10μF in one standard size and shape.
◦
Automatic insertion related costs are lower than with radial type capacitors.
◦Mounting pitch can be between 5mm to 26mm which could be used
as a jumper.
◦The class 1 temperature compensating (NPO) products can be used
in circuits to stabilize frequency and temperature characteristics.
The B, and F dielectrics are optimum for bypass capacitors.
AXIAL LEADED CERAMIC CAPACITORS
Rated
voltage
VDC
L 10
E 16
T 25
G 35
U 50
Internal code
,Z
Multilayer type
Standard products
J
Multilayer type
Low voltage products
=Blank space
Packaging
B Ammo
C Bulk
Lead Configurationmm
A
26mm lead space, ammo pack
B
52mm lead space, ammo pack
KF
5.0mm pitch formed lead bulk
KE
7.5mm pitch formed lead bulk
NA Axial lead, bulk
Outside Dimensions
L×φdmm
075
4.2×3.2multilayer type
050
3.2×2.2multilayer type
025
2.3×2.0multilayer type
Nominal
Capacitance
pF
example
010 1
1R2 1.2
103 10000
R=decimal point
Type
P
Axial leaded capacitors
U P 0 2 5 B 1 0 4 K AB
Capacitance Tolerances
D ±0.5pF
J ±5%
K ±10%
M ±20%
Z  
80
20
Temperature haracteristics
CH 0±60ppm/
SL
350~-1000ppm/
B±10
F %  
=Blank space
30
85
TYPE Dimensions Taped product Bulk Product
LφDφd Straight Straight Formed
Multilayer Type 075 4.2max.
0.165max.3.2max.
0.126max.0.55±0.05
0.022±0.002
Pitch:7.5mm
0.295
Multilayer Type 050 3.2max.
0.126max.2.2max.
0.87max.0.45±0.05
0.018±0.002
Multilayer Type 025 2.3max.
0.09max.2.0max.
0.079max.
Unit : mminch
Class 1 Temperature compensatingMultilayer type
Class 2 High dielectric constant
Capacitance characteristics measured at 20
Temperature char. Capacitance change Capacitance Tolerance Q or tanδClass
CH 0±60ppm/D(±0.5pF
K(±10%
J(±5%engRefer to the Part munber
1
SL 350~-1000ppm/
B±10% K±10%, M(±20%2
F 30
85% Z80
20%
WAV E
Minimum Quantity [PCS]
Bulk Taping
A
2000075
3000050
5000025
B
NA 1000
KE075
3000
KF050
3000
KF025
4000
CAPACITORS
37
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PART NUMBERS
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
Multilayer 025 Type Class 1
Rated Voltage
DCOrdering code
EHS
(Environmental
Hazardous
Substances)
Temperature
characteristics
Capacitance
pF
Capacitance
tolerance Q or tanδInsulation
resistance
50V
UP025010D -○ Z RoHS
CH
SL
1.0
±0.5pF
Q400+20C
10000MΩmin.
UP0251R2D -○ Z RoHS 1.2
UP0251R5D -○ Z RoHS 1.5
UP0251R8D -○ Z RoHS 1.8
UP0252R2D -○ Z RoHS 2.2
UP0252R7D -○ Z RoHS 2.7
UP0253R3D -○ Z RoHS 3.3
UP0253R9D -○ Z RoHS 3.9
UP0254R7D -○ Z RoHS 4.7
UP0255R6K -○ Z RoHS 5.6
±10%
UP0256R8K -○ Z RoHS 6.8
UP0258R2K -○ Z RoHS 8.2
UP025100J -○ Z RoHS 10
±5%
UP025120J -○ Z RoHS 12
UP025150J -○ Z RoHS 15
UP025180J -○ Z RoHS 18
UP025220J -○ Z RoHS 22
UP025270J -○ Z RoHS 27
UP025330J -○ Z RoHS 33
Q1000
UP025390J -○ Z RoHS 39
UP025470J -○ Z RoHS 47
UP025560J -○ Z RoHS 56
UP025680J -○ Z RoHS 68
UP025820J -○ Z RoHS 82
UP025CH101J -○ Z RoHS
CH
100
UP025CH151J -○ Z RoHS 150
UP025CH221J -○ Z RoHS 220
UP025CH331J -○ Z RoHS 330
UP025CH471J -○ Z RoHS 470
UP025CH681J -○ Z RoHS 680
UP025CH102J -○ Z RoHS 1000
Please specify the temperature characteristics code and lead configuration code.
Multilayer 025 Type Class 2
Rated Voltage
DCOrdering code
EHS
(Environmental
Hazardous
Substances)
Temperature
characteristics
Capacitance
pF
Capacitance
tolerance Q or tanδInsulation
resistance
50V
UP025 B101K -○
Z
RoHS
B
100
±10%
tanδ≦3.5% 5000MΩmin.
UP025 B121K -○ Z
RoHS 120
UP025 B151K -○ Z
RoHS 150
UP025 B181K -○ Z
RoHS 180
UP025 B221K -○ Z
RoHS 220
UP025 B271K -○ Z
RoHS 270
UP025 B331K -○ Z
RoHS 330
UP025 B391K -○ Z
RoHS 390
UP025 B471K -○ Z
RoHS 470
UP025 B561K -○ Z
RoHS 560
UP025 B681K -○ Z
RoHS 680
UP025 B821K -○ Z
RoHS 820
UP025 B102K -○ Z
RoHS 1000
UP025 B122K -○ Z
RoHS 1200
UP025 B152K -○ Z
RoHS 1500
UP025 B222K -○ Z
RoHS 2200
UP025 B332K -○ Z
RoHS 3300
UP025 B472K -○ Z
RoHS 4700
UP025 B682K -○ Z
RoHS 6800
UP025 B103K -○ Z
RoHS 10000
UP025 B153K -○ Z
RoHS 15000
UP025 B223K -○ Z
RoHS 22000
UP025 B333K -○ Z
RoHS 33000
UP025 B473K -○ Z
RoHS 47000
tanδ≦5.0%
1000MΩmin.
UP025 B683K -○ Z
RoHS 68000
UP025 B104K -○ Z
RoHS 100000
16V
EP025 B224K -○ Z
RoHS 220000 500MΩmin.
EP025 B474K -○ Z
RoHS 470000 200MΩmin.
EP025 B105K -○ Z
RoHS 100000 tanδ≦7.5% 100MΩmin.
50V
UP025 F103Z -○ Z
RoHS
F
10000
80
20
tanδ≦7.5% 1000MΩmin.
UP025 F223Z Z
RoHS 22000
UP025 F473Z -○ Z
RoHS 47000
UP025 F104Z -○ Z
RoHS 100000
16V
EP025 F224Z -○ Z
RoHS 220000 tanδ≦10.0% 500MΩmin.
EP025 F474Z -○ Z
RoHS 470000
EP025 F105Z -○ Z
RoHS 100000 tanδ≦17.5% 250MΩmin.
To next page
38
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PART NUMBERS
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
Rated
Voltage
DC
Ordering code
EHS
(Environmental
Hazardous
Substances)
Temperature
characteristics
Capacitance
pF
Capacitance
tolerance Q or tanδInsulation
resistance
50V
UP050CH220J ZRoHS
CH
22
±5%
Q40020C
10000MΩmin.
UP050CH240J Z RoHS 24
UP050CH270J Z RoHS 27
UP050CH300J Z RoHS 30
Q1000
UP050CH330J Z RoHS 33
UP050CH360J Z RoHS 36
UP050CH390J Z RoHS 39
UP050CH430J Z RoHS 43
UP050CH470J Z RoHS 47
UP050CH510J Z RoHS 51
UP050CH560J Z RoHS 56
UP050CH620J Z RoHS 62
UP050CH680J Z RoHS 68
UP050CH750J Z RoHS 75
UP050CH820J Z RoHS 82
UP050CH910J Z RoHS 91
UP050CH101J Z RoHS 100
UP050CH111J Z RoHS 110
UP050CH121J Z RoHS 120
UP050CH131J Z RoHS 130
UP050CH151J Z RoHS 150
UP050CH161J Z RoHS 160
UP050CH181J Z RoHS 180
UP050CH201J Z RoHS 200
UP050CH221J Z RoHS 220
UP050CH241J Z RoHS 240
UP050CH271J Z RoHS 270
UP050CH301J Z RoHS 300
UP050CH331J Z RoHS 330
UP050CH361J Z RoHS 360
UP050CH391J Z RoHS 390
UP050CH431J Z RoHS 430
UP050CH471J Z RoHS 470
UP050CH511J Z RoHS 510
UP050CH561J Z RoHS 560
UP050CH621J Z RoHS 620
UP050CH681J Z RoHS 680
UP050CH751J Z RoHS 750
UP050CH821J Z RoHS 820
UP050CH911J Z RoHS 910
UP050CH102J Z RoHS 1000
Please specify the temperature characteristics code and lead configuration code.
: Option
Multilayer type Class 1
Rated Voltage
DCOrdering code
EHS
(Environmental
Hazardous
Substances)
Temperature
characteristics
Capacitance
pF
Capacitance
tolerance Q or tanδInsulation
resistance
16V
EP025 B122M -○ J
RoHS
B
1200
±20tanδ≦3.5% 5000MΩmin.
EP025 B152M -○ J
RoHS 1500
EP025 B182M -○ J
RoHS 1800
EP025 B222M -○ J
RoHS 2200
EP025 B272M -○ J
RoHS 2700
EP025 B332M -○ J
RoHS 3300
EP025 B392M -○ J
RoHS 3900
EP025 B472M J
RoHS 4700
EP025 B562M -○ J
RoHS 5600
EP025 B682M -○ J
RoHS 6800
EP025 B822M -○ J
RoHS 8200
EP025 B103M J
RoHS 10000
EP025 B123M -○ J
RoHS 12000
EP025 B153M -○ J
RoHS 15000
EP025 B183M -○ J
RoHS 18000
EP025 B223M -○ J
RoHS 22000
25V
TP025 F103Z -○ J
RoHS
F
10000 80
20 tanδ≦7.5% 1000MΩmin.
TP025 F223Z -○ J
RoHS 22000
TP025 F473Z -○ J
RoHS 47000
Please specify the temperature characteristics code and lead configuration code.
CAPACITORS
39
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PART NUMBERS
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
Multilayer type Class 2
Rated Voltage
DCOrdering code
EHS
(Environmental
Hazardous
Substances)
Temperature
characteristics
Capacitance
pF
Capacitance
tolerance Q or tanδInsulation
resistance
50V
U P 0 5 0 B 1 2 2 K Z RoHS
B
1200
±10%
tanδ≦3.5% 5000MΩmin.
U P 0 5 0 B 1 5 2 K Z RoHS 1500
U P 0 5 0 B 1 8 2 K Z RoHS 1800
U P 0 5 0 B 2 2 2 K Z RoHS 2200
U P 0 5 0 B 2 7 2 K Z RoHS 2700
U P 0 5 0 B 3 3 2 K Z RoHS 3300
U P 0 5 0 B 3 9 2 K Z RoHS 3900
U P 0 5 0 B 4 7 2 K Z RoHS 4700
U P 0 5 0 B 5 6 2 K Z RoHS 5600
U P 0 5 0 B 6 8 2 K Z RoHS 6800
U P 0 5 0 B 8 2 2 K Z RoHS 8200
U P 0 5 0 B 1 0 3 K Z RoHS 10000
U P 0 5 0 B 1 2 3 K Z RoHS 12000
U P 0 5 0 B 1 5 3 K Z RoHS 15000
U P 0 5 0 B 1 8 3 K Z RoHS 18000
U P 0 5 0 B 2 2 3 K Z RoHS 22000
U P 0 5 0 B 2 7 3 K Z RoHS 27000
U P 0 5 0 B 3 3 3 K Z RoHS 33000
U P 0 5 0 B 3 9 3 K Z RoHS 39000
U P 0 5 0 B 4 7 3 K Z RoHS 47000
tanδ≦5.0%
1000MΩmin.
U P 0 5 0 B 5 6 3 K Z RoHS 56000
U P 0 5 0 B 6 8 3 K Z RoHS 68000
U P 0 5 0 B 8 2 3 K Z RoHS 82000
U P 0 5 0 B 1 0 4 K Z RoHS 100000
U P 0 5 0 B 2 2 4 K Z RoHS 220000 500MΩmin.
U P 0 5 0 B 4 7 4 K Z RoHS 470000 200MΩmin.
35V G P 0 5 0 B 1 0 5 K Z RoHS 1000000 100MΩmin.
16V
E P 0 5 0 B 2 2 5 K Z RoHS 2200000 tanδ≦7.5% 50MΩmin.
E P 0 5 0 B 4 7 5 K Z RoHS 4700000 tanδ≦12.5% 20MΩmin.
E P 0 5 0 B 1 0 6 K Z RoHS 10000000
50V
U P 0 5 0 F 1 0 3 Z Z RoHS
F
10000
80
20
tanδ≦7.5% 1000MΩmin.
U P 0 5 0 F 2 2 3 Z Z RoHS 22000
U P 0 5 0 F 4 7 3 Z Z RoHS 47000
U P 0 5 0 F 1 0 4 Z Z RoHS 100000
U P 0 5 0 F 2 2 4 Z Z RoHS 220000 tanδ≦10.0% 500MΩmin.
U P 0 5 0 F 4 7 4 Z Z RoHS 470000
U P 0 5 0 F 1 0 5 Z Z RoHS 1000000 tanδ≦15% 250MΩmin.
16V E P 0 5 0 F 2 2 5 Z Z RoHS 2200000 125MΩmin.
10V L P 0 5 0 F 4 7 5 Z Z RoHS 4700000 tanδ≦17.5% 50MΩmin.
L P 0 5 0 F 1 0 6 Z Z RoHS 10000000 25MΩmin.
50V U P 0 7 5 B 1 0 5 K RoHS
B
1000000
±10%
tanδ≦5.0% 100MΩmin.
35V G P 0 7 5 B 2 2 5 K RoHS 2200000 tanδ≦7.5% 50MΩmin.
G P 0 7 5 B 4 7 5 K RoHS 4700000 20MΩmin.
25V T P 0 7 5 B 1 0 6 K RoHS 10000000 tanδ≦12.5%
35V G P 0 7 5 F 1 0 6 Z RoHS F 10000000 80
20 tanδ≦17.5% 25MΩmin.
Please specify the temperature characteristics code and lead configuration code.
: Option
40
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ELECTRICAL CHARACTERISTICS
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
-6
-7
SL
-20020 40 60 80
UP050 F104Z
-10
-5
0
5
10
-20020 40 60 80
UP050B103K
UP050B104K
Capacitance -vs- Temperature Characteristics
1
leaded_c_reli-PRP1
leaded_c_reli_e-01
PACKAGING
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
Minimum Quantity
Dimensions of Bulk Products
NA configuration
Type Lead configuration code Minimum QuantityPCS
Bulk Taping
Multilayer
type
075, 050, 025
A1.024 inch wide
2000075
3000050
5000025
B
2.047 inches wide
NA 1000
KE 0753000
KF 0503000
KF 0254000
Type Dimensionsmm
φD L φd
Multilayer
type 025
2.0max
0.079
2.3max
0.09
0.45±0.05
0.018±0.002
20.0min.
0.787
Multilayer
type 050
2.2max
0.087
3.2max
0.126
0.45±0.05
0.018±0.002
20.0min.
0.787
Multilayer
type 075
3.2max
0.126
4.2max
0.165
0.55±0.05
0.022±0.002
20.0min.
0.787
Unitmminch
KF/KE configuration
Type
ド形状記号
Dimensionsmm
φD L W φd
Multilayer
type 025 KF 2.0max 2.3max
5.0±0.5
0.45±0.05
6.5±0.5
0.079max
0.09max
0.197±0.020 0.018±0.002 0.256±0.020
Multilayer
type 050 KF 2.2max 3.2max
5.0±0.5
0.45±0.05
6.5±0.5
0.087max 0.126max
0.197±0.020 0.018±0.002 0.256±0.020
Multilayer
type 075 KE 3.2max 4.2max
7.5±0.5
0.55±0.05
6.5±0.5
0.126max 0.165max
0.295±0.020 0.022±0.002 0.256±0.020
Unitmminch
Taping Dimensions
Aa1.024 inch wideconfiguration
Ba2.047 inches wideconfiguration
Type
Dimensionsmm
Minimum
insertion
pitch
φD L a b
L1L2
φd
Multilayer
type 025
2.0max 2.3max
522
1
2.047
0.079
0.039
1.2max.
0.047max.
1.0max
0.039max.
0.45±0.05
5.0
0.197
0.079max 0.09max
0.018±0.002
Multilayer
type 050
2.2max 3.2max
0.45±0.05
0.087max 0.126max
0.018±0.002
Multilayer
type 075
3.2max 4.2max
0.55±0.05
7.5
0.295
0.126max 0.165max
0.022±0.002
Radial taping is available for 075 type (Optional) Unitmminch
Type
Dimensionsmm
Minimum
insertion
pitch
φD L a b
L
1
L
2
φd
Multilayer
type 025
2.0max 2.3max
26
0.5
0
1.024
0.020
0
0.8max.
0.031max.
0.5max
0.020max.
0.45±0.05
5.0
0.197
0.079max 0.09max
0.018±0.002
Multilayer
type 050
2.2max 3.2max
0.45±0.05
0.087max 0.126max
0.018±0.002
Multilayer
type 075
3.2max 4.2max
0.55±0.05
7.5
0.295
0.126max 0.165max
0.022±0.002
Unitmminch
1
leaded_c_reli-PRP2 leaded_c_reli_e-01
RELIABILITYDATA
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
1. Operating Temperature Range
Specified
Value
Temperature CompensatingClass1Multilayer type
25 to 85
High PermittivityClass2
Multilayer type
CharacteristicsB
Multilayer type
CharacteristicsF
2. Storage Temperature Range
Specified
Value
Temperature CompensatingClass1Multilayer type
25 to 85
High PermittivityClass2
Multilayer type
CharacteristicsB
Multilayer type
CharacteristicsF
3. Rated Voltage
Specified
Value
Temperature CompensatingClass1Multilayer type 50VDC
High PermittivityClass2
Multilayer type
CharacteristicsB16VDC25VDC35VDC50VDC
Multilayer type
CharacteristicsF10VDC16VDC25VDC35VDC50VDC
4. Withstanding Voltage
Between terminals
Specified
Value No abnorminality
Test Methods and Remarks
Applied voltage Rated Voltage×3 Class 1
Rated Voltage×2.5Class 2
Duration1 to 5 sec.
Charge/discharge current50mA max. Class 1,2
Between terminals and body
Specified
Value No abnorminality
Test Methods and Remarks
Metal globule method Applied voltage Rated Voltage×2.5, Duration 1 to 5 sec., Charge/Discharge current 50mA max.
Insulation Resistance
Specified
Value
Temperature CompensatingClass1Multilayer type 10000Ωmin.
High PermittivityClass2
Multilayer type
CharacteristicsB
Rated Ivoltage16VDC
1200pF22000pFItem△) 5000MΩ min
220000pF 500MΩ min
470000pF 200MΩ min
1000000pF 100MΩ min
4700000pF 20MΩ min
2200000pF 50MΩ min
10000000pF 20MΩ min
10000000pF 20MΩ min
Rated Ivoltage25VDC
10000000pF 20MΩmin
Rated Ivoltage35VDC
1000000pF 100MΩ min
2200000pF 50MΩ min
4700000pF 20MΩ min
Rated Ivoltage50VDC
100pF39000pF 5000MΩ min
47000pF100000pF 1000MΩ min
220000pF 500MΩ min
470000pF 200MΩ min
1000000pF 100MΩ min
Multilayer type
CharacteristicsF
Rated Ivoltage10VDC
4700000pF 50MΩ min
10000000pF 25MΩ min
Rated Ivoltage16VDC
220000pF 500MΩ min
470000pF 500MΩ min
1000000pF 250MΩ min
2200000pF 125MΩ min
Rated voltage25VDC
10000pF47000pFItemJ 1000MΩ min
Rated voltage35VDC
10000000pF 25MΩ min
Rated voltage50VDC
10000pF100000pF
000MΩ min
220000pF470000pF 500MΩ min
1000000pF 250MΩ min
Test Methods and Remarks
Applied voltage Rated voltage, Duration 60±5 sec.
6Capacitance
Specified
Value
Temperature CompensatingClass1Multilayer type
±0.5pF
±5%
±10%
High PermittivityClass2
Multilayer type
CharacteristicsB±10%±20%ItemJ
Multilayer type
CharacteristicsF
80
20%
Test Methods and Remarks
Measuring frequency 1MHz±10 Class 1 C1000pF Measuring voltage 1.0±0.5Vrms Class 1C1000pF Bias application None
1kHz±10 Class 1 C1000pF 1.0±0.2Vrms Class 1C1000pF
1kHz±10 Class 2 C10μF 1.0±0.2Vrms Class 2 C10μF
120Hz±10 Class 2 C10μF 0.5±0.1Vrms Class 2 C10μF
Withstanding voltage is also referred to as "voltage proof" under IEC specications.
AXIAL LEADED CERAMIC CAPACITORS
1
leaded_c_reli-PRP3
leaded_c_reli_e-01
RELIABILITYDATA
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
Q or Tangent of Loss Angletanδ
Specified
Value
Temperature CompensatingClass1Multilayer type
30pF or underQ40020C
33pF or overQ1000
CNominal CapacitancepF
High PermittivityClass2
Multilayer type
CharacteristicsB
Rated Ivoltage16VDC
1200pF22000pFItemJ 3.5% max
100000pF 5.0% max
220000pF470000pF 5.0% max
1000000pF2200000pF 7.5% max
4700000pF10000000pF 12.5% max
Rated Ivoltage25VDC
10000000pF 12.5% max
Rated Ivoltage35VDC
1000000pF 5.0% max
2200000pF4700000pF 7.5% max
Rated Ivoltage50VDC
100pF39000pF 3.5% max
47000pF1000000pF 5.0% max
Multilayer type
CharacteristicsF
Rated Ivoltage10VDC
4700000pF10000000pF 17.5% max
Rated Ivoltage16VDC
220000pF 10.0% max
470000pF 10.0% max
1000000pF 17.5% max
2200000pF 15.0% max
Rated Ivoltage25VDC
10000pF47000pFItemJ 7.5% max
Rated Ivoltage35VDC
10000000pF 17.5% max
Rated Ivoltage50VDC
10000pF100000pF 7.5% max
220000pF470000pF 10.0% max
1000000pF 15.0% max
Test Methods and Remarks
Measuring frequency 1MHz±10 Class 1 C1000pF Measuring voltage 1.0±0.5Vrms Class 1C1000pF Bias application None
1kHz±10 Class 1 C1000pF 1.0±0.2Vrms Class 1C1000pF
1kHz±10 Class 2 C10μF 1.0±0.2Vrms Class 2 C10μF
120Hz±10 Class 2 C10μF 0.5±0.1Vrms Class 2 C10μF
Capacitance Change due to Temperature or Rate of Capacitance Change
When voltage is not applied
Specified
Value
Temperature CompensatingClass1Multilayer type CH 0±60
SL
3501000 [ppm/]
High PermittivityClass2
Multilayer type
CharacteristicsB±10%
Multilayer type
CharacteristicsF
30
85%
Test Methods and Remarks
Measurement of capacitance at 20 and 85, 25 shall be made to calculate temperature characteristic by the following equation. Class 1
C85C20
—————— ×106
ppm/℃)
C20
×T
Change of maximum capacitance deviation in step 1 to 5 Class 2
Temperature at step 120 Temperature at step 485
Temperature at step 2 25 Temperature at step 520
Temperature at step 320 Reference temperature
9Terminal Strength
Tensile
Specified
Value
Temperature CompensatingClass1Multilayer type
No abnomalities, such as cuts or looseness of terminals.
High PermittivityClass2
Multilayer type
CharacteristicsB
Multilayer type
CharacteristicsF
Test Methods and Remarks
Apply the stated tensile force progressively in the direction to draw terminal. Nominal wire diametermmTensile forceNDuratios
0.45 19.6 5
Torsional
Specified
Value
Temperature CompensatingClass1Multilayer type
No abnomalities, such as cuts or looseness of terminals.
High PermittivityClass2
Multilayer type
CharacteristicsB
Multilayer type
CharacteristicsF
Test Methods and Remarks
Suspend a mass at the end the terminal, incline the body through angle of 90˚ and return it to initial position.
This operation is done over a period of 5 sec. Then second bend in the opposite direction shall be made.
Number of bends 2 times
Nominal wire diametermmBending forceNMass weightkg
0.45 2.45 0.25
Withstanding voltage is also referred to as "voltage proof" under IEC specications.
AXIAL LEADED CERAMIC CAPACITORS
1
leaded_c_reli-PRP4 leaded_c_reli_e-01
RELIABILITYDATA
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
10Resistance to Vibration
Specified
Value
Temperature
CompensatingClass1Multilayer type
Appearance No significant abnomality
Withstanding Voltage No abnomality
Capacitance
4.7pF or under Within ±0.5pF
5.6pF8.2pF Within ±10%
10pF or over Within ±5%
Q30pF or under Q400+20C
33pF or over Q1000
Insulation resistance 10000MΩmin.
CNominal Capacitance [pF]
High PermittivityClass2
Multilayer typeCharacteristicsB
Appearance : No significant abnomality
Withstanding Voltage : No abnomality
Rated Voltage16VDC
Capacitance Within ±10%
1200pF22000pFItemJ Within ±20%
220000pF~10000000pF Within ±10%
tanδ
1200pF22000pFItemJ 3.5% max
220000pF470000pF 5.0% max
1000000pF2200000pF 7.5% max
4700000pF10000000pF 12.5% max
Insulation Resistance
1200pF22000pFItemJ 5000MΩ min
220000pF 500MΩ min
470000pF 200MΩ min
1000000pF 100MΩ min
2200000pF 50MΩ min
4700000pF10000000pF 20MΩ min
Rated Voltage25VDC
Capacitance Within ±10%
tanδ
10000000pF 12.5% max
Insulation Resistance
10000000pF 20MΩ min
Rated Voltage35VDC
Capacitance Within ±10%
tanδ
1000000pF 5.0% max
2200000pF4700000pF 7.5% max
Insulation Resistance
1000000pF 100MΩ min
2200000pF 50MΩ min
4700000pF 20MΩ min
Rated Voltage50VDC
Capacitance Within ±10%
tanδ
100pF39000pF 3.5% max
47000pF1000000pF 5.0% max
Insulation Resistance
100pF39000pF 5000MΩ min
47000pF100000pF 1000MΩ min
220000pF 500MΩ min
470000pF 200MΩ min
1000000pF 100MΩ min
Multilayer typeCharacteristicsF
Appearance : No significant abnomality
Withstanding Voltage : No abnomality
Rated Voltage10VDC
Capacitance Within80
20 %
tanδ
4700000pF10000000pF 17.5% max
Insulation Resistance
4700000pF 50MΩ min
10000000pF 25MΩ min
Rated Voltage16VDC
Capacitance Within80
20 %
tanδ
220000pF 10.0% max
470000pF 10.0% max
1000000pF 17.5% max
2200000pF 15.0% max
Insulation Resistance
220000pF 500MΩ min
470000pF 500MΩ min
1000000pF 250MΩ min
2200000pF 125MΩ min
Withstanding voltage is also referred to as "voltage proof" under IEC specications.
AXIAL LEADED CERAMIC CAPACITORS
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RELIABILITYDATA
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
10Resistance to Vibration
Specified
Value High PermittivityClass2Multilayer typeCharacteristicsF
Rated Voltage25VDC
Capacitance Within80
20 %
tanδ
10000pF47000pFItemJ 7.5% max
Insulation Resistance
10000pF47000pFItemJ 1000MΩ min
Rated Voltage35VDC
Capacitance Within80
20 %
tanδ
10000000pF 17.5% max
Insulation Resistance
10000000pF 25MΩ min
Rated Voltage50VDC
Capacitance Within80
20 %
tanδ
10000pF100000p 7.5% max
220000pF470000pF 10.0% max
1000000pF 15.0% max
Insulation Resistance
10000pF100000p 1000MΩ min
220000pF470000pF 500MΩ min
1000000pF 250MΩ min
Test Methods and Remarks
According to JIS C 5102 clause 8.2
Vibration type A
Directions 2 hrs each in X, Y and Z directions
Total 6 hrs
Frequency range 10 to 55 to 10Hz1min
Amplitude 1.5 mm
Mounting method Soldering onto the PC board
11Free Fall
Specified
Value
Temperature
CompensatingClass1Multilayer type
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Capacitance
4.7pF or under Within ±0.5pF
5.6pF8.2pF Within ±10%
10pF or over Within ±5%
Q30pF or under Q400+20C
33pF or over Q1000
Insulation resistance10000MΩ min.
CNominal Capacitance[pF]
High PermittivityClass2Multilayer typeCharacteristicsB
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Rated Voltage16VDC
Capacitance
1200pF22000pFItemJ Within ±20%
220000pF10000000pFWithin ±10%
tanδ
1200pF22000pFItemJ 3.5% max
220000pF470000pF 5.0% max
1000000pF2200000pF 7.5% max
4700000pF10000000pF 12.5% max
Insulation resistance
1200pF22000pFItemJ 5000MΩ min
220000pF 500MΩ min
470000pF 200MΩ min
1000000pF 100MΩ min
2200000pF 50MΩ min
4700000pF10000000pF 20MΩ min
Rated Voltage25VDC
Capacitance Within ±10%
tanδ
10000000pF 12.5% max
Insulation resistance
10000000pF 20MΩ min
Rated Voltage35VDC
Capacitance Within ±10%
tanδ
1000000pF 5.0% max
2200000pF4700000pF 7.5% max
Insulation resistance
1000000pF 100MΩ min
2200000pF 50MΩ min
4700000pF 20MΩ min
Rated Voltage50VDC
Capacitance Within±10%
tanδ
100pF39000pF 3.5% max
47000pF1000000pF 5.0% max
Insulation resistance
100pF39000pF 5000MΩ min
47000pF100000pF 1000MΩ min
220000pF 500MΩ min
470000pF 200MΩ min
1000000pF 100MΩ min
Withstanding voltage is also referred to as "voltage proof" under IEC specications.
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RELIABILITYDATA
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
11Free Fall
Specified
Value High PermittivityClass2Multilayer typeCharacteristicsF
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Rated Voltage10VDC
Capacitance Within80
20 %
tanδ
4700000pF10000000pF17.5% max 
Insulation resistance
4700000pF 50MΩ min
10000000pF 25MΩ min
Rated Voltage16VDC
Capacitance Within80
20 %
tanδ
220000pF 10.0% max
470000pF 10.0% max
1000000pF 17.5% max
2200000pF 15.0% max
Insulation resistance
220000pF 500MΩ min
470000pF 500MΩ min
1000000pF 250MΩ min
2200000pF 125MΩ min
Rated Voltage25VDC
Capacitance Within80
20 %
tanδ
10000pF47000pFItemJ 7.5% max
Insulation resistance
10000pF47000pFItemJ1000MΩ min
Rated Voltage35VDC
Capacitance Within80
20 %
tanδ
10000000pF 17.5% max
Insulation resistance
10000000pF 25MΩ min
Rated Voltage50VDC
Capacitance Within80
20 %
tanδ
10000pF100000pF 7.5% max
220000pF470000pF 10.0% max
1000000pF 15.0% max
Insulation resistance
10000pF100000pF 1000MΩ min
220000pF470000pF 500MΩ min
1000000pF 250MΩ min
Test Methods and Remarks
Drop Test Free fall
Impact material Floor
Height 1 m
Total number of drops 5 times
12Body Strength
Specified
Value
Temperature
CompensatingClass1Multilayer type
No abnomality such as damage.
High PermittivityClass2Multilayer typeCharacteristicsB
Multilayer typeCharacteristicsF
Test Methods and Remarks
Applied force 19.6N
Duration 5 sec.
Speed Shall attain to specified force in 2 sec.
1.5mm 025type
13
Solderability
Specified
Value
Temperature
CompensatingClass1Multilayer type
At least 75% of lead surface is covered with new solder.
High PermittivityClass2Multilayer typeCharacteristicsB
Multilayer typeCharacteristicsF
Test Methods and Remarks
Solder temperature 230±5
Duration 2±0.5 sec.This test may be applicable after 6 months storage.
Withstanding voltage is also referred to as "voltage proof" under IEC specications.
AXIAL LEADED CERAMIC CAPACITORS
1
leaded_c_reli-PRP7
leaded_c_reli_e-01
RELIABILITYDATA
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
14
Soldering
Specified
Value
Temperature
CompensatingClass1Multilayer type
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Capacitance change
8.2pF or under Within ±0.25pF
10pF or over Within ±2.5%
Q30pF or under Q400+20C
33pF or over Q1000
Insulation resistance10000MΩ min.
CNominal Capacitance[pF]
High PermittivityClass2
Multilayer typeCharacteristicsB
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Rated Voltage16VDC
Capacitance change
1200pF22000pFItemJ Within ±7.5%
220000pF10000000pF Within ±10.0%
tanδ
1200pF22000pFItemJ 3.5% max
220000pF470000pF 5.0% max
1000000pF2200000pF 7.5% max
4700000pF10000000pF 12.5% max
Insulation resistance
1200pF22000pFItemJ 5000MΩ min
220000pF 500MΩ min
470000pF 200MΩ min
1000000pF 100MΩ min
2200000pF 50MΩ min
4700000pF10000000pF 20MΩ min
Rated Voltage25VDC
Capacitance change
10000000pF Within ±10.0%
tanδ
10000000pF 12.5% max
Insulation resistance
10000000pF 20MΩ min
Rated Voltage35VDC
Capacitance change
1000000pF4700000pF Within ±10.0%
tanδ
1000000pF 5.0% max
2200000pF4700000pF 7.5% max
Insulation resistance
1000000pF 100MΩ min
2200000pF 50MΩ min
4700000pF 20MΩ min
Rated Voltage50VDC
Capacitance change
100pF39000pF Within ±7.5%
47000pF1000000pF Within ±10.0%
tanδ
100pF39000pF 3.5% max
47000pF1000000pF 5.0% max
Insulation resistance
100pF39000pF 5000MΩ min
47000pF100000pF 1000MΩ min
220000pF 500MΩ min
470000pF 200MΩ min
1000000pF 100MΩ min
Multilayer typeCharacteristicsF
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Rated Voltage10VDC
Capacitance changeWithin ±20%
tanδ
4700000pF10000000pF 17.5% max
Insulation resistance
4700000pF 50MΩ min
10000000pF 25MΩ min
Rated Voltage16VDC
Capacitance changeWithin ±20%
tanδ
220000pF470000pF 10.0% max
1000000pF 17.5% max
2200000pF 15.0% max
Insulation resistance
220000pF470000pF 500MΩ min
1000000pF 250MΩ min
2200000pF 125MΩ min
Rated Voltage25VDC
Capacitance changeWithin ±20%
tanδ
10000pF47000pFItemJ7.5% max
Insulation resistance
10000pF47000pFItemJ1000MΩ min
Withstanding voltage is also referred to as "voltage proof" under IEC specications.
Thermal Shock is also referred to as "rapid change of temperature" under IEC specifications.
AXIAL LEADED CERAMIC CAPACITORS
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leaded_c_reli-PRP8 leaded_c_reli_e-01
RELIABILITYDATA
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
14
Soldering
Specified
Value High PermittivityClass2Multilayer typeCharacteristicsF
Rated Voltage35VDC
Capacitance changeWithin ±20%
tanδ
10000000pF 17.5% max
Insulation resistance
10000000pF 25MΩ min
Rated Voltage50VDC
Capacitance change
10000pF1000000pF Within ±20.0%
tanδ
10000pF100000pF 7.5% max
220000pF470000pF 10.0% max
1000000pF 15.0% max
Insulation resistance
10000pF100000pF 1000MΩ min
220000pF470000pF 500MΩ min
1000000pF 250MΩ min
Test Methods and Remarks
Solder temperature 270±5
Duration 5±0.5 sec.
Immersed conditions Inserted into the PC boardwith t=1.6mm, hole=1.0mm diameter
Preconditioning 1 hr of preconditioning at 150 0
10 followed by 48±4 hrs of recovery under the standard condition.
Recovery Recovery for the following period under the standard condition after the test.
24±2 hrsClass 1
48±4 hrsClass 2
15
Resistance to Solvent
Specified
Value
Temperature
CompensatingClass1Multilayer type
No significant abnormality in appearance and legible marking.
High PermittivityClass2Multilayer typeCharacteristicsB
Multilayer typeCharacteristicsF
Test Methods and Remarks
According to JIS C 5102 clause 8.7.4.
Type of test Method 1
Solvent temperature 20 to 25
Duration 30±5 sec.
Solvent Type A in Table 23, Isopropyl alcohol
16
Thermal Shock
Specified
Value
Temperature
CompensatingClass1Multilayer type
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Capacitance change
8.2pF or under Within ±0.5pF
10pF or over Within ±5.0%
Q 8.2pF or under Q200+10C
10pF30pF Q275+2.5C
33pF or over Q350
Insulation resistance1000MΩ or over
CNominal Capacitance[pF]
High PermittivityClass2Multilayer typeCharacteristicsB
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Rated Voltage16VDC
Capacitance change
1200pF22000pFItemJWithin ±12.5%
220000pF10000000pF Within ±15.0%
tanδ
1200pF22000pFItemJ5.0% max
220000pF470000pF 7.5% max
1000000pF2200000pF 10.0% max
4700000pF10000000pF 22.5% max
Insulation resistance
1200pF22000pFItemJ1000MΩ min
220000pF 125MΩ min
470000pF 50MΩ min
1000000pF 25MΩ min
2200000pF 12.5MΩ min
4700000pF10000000pF 5MΩ min
Rated Voltage25VDC
Capacitance change
10000000pF Within ±15.0%
tanδ
10000000pF 15.0% max
Insulation resistance
10000000pF 5MΩ min
Rated Voltage35VDC
Capacitance change
1000000pF Within ±15.0%
2200000pF4700000pF Within ±15.0%
tanδ
1000000pF 7.5% max
2200000pF4700000pF 10.0% max
Insulation resistance
1000000pF 25MΩ min
2200000pF 25MΩ min
4700000pF 5MΩ min
Withstanding voltage is also referred to as "voltage proof" under IEC specications.
Thermal Shock is also referred to as "rapid change of temperature" under IEC specifications.
AXIAL LEADED CERAMIC CAPACITORS
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leaded_c_reli-PRP9
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RELIABILITYDATA
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
16
Thermal Shock
Specified
Value High PermittivityClass2
Multilayer typeCharacteristicsB
Rated Voltage50VDC
Capacitance change
100pF39000pF Within ±12.5%
47000pF1000000pF Within ±15.0%
tanδ
100pF39000pF 5.0% max
47000pF1000000pF 7.5% max
Insulation resistance
100pF39000pF 1000MΩ min
47000pF100000pF 500MΩ min
220000pF 250MΩ min
470000pF 100MΩ min
1000000pF 50MΩ min
Multilayer typeCharacteristicsF
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Rated Voltage10VDC
Capacitance change Within ±30.0%
tanδ
4700000pF10000000pF20.0% max
Insulation resistance
4700000pF 10MΩ min
10000000pF 5MΩ min
Rated Voltage16VDC
Capacitance change Within ±30.0%
tanδ
220000pF470000pF 15.0% max
1000000pF 22.5% max
2200000pF 17.5% max
Insulation resistance
220000pF 100MΩ min
470000pF 50MΩ min
1000000pF 25MΩ min
2200000pF 25MΩ min
Rated Voltage25VDC
Capacitance change Within ±30%
tanδ
10000pF47000pFItemJ12.5% max
Insulation resistance
10000pF47000pFItemJ500MΩ min
Rated Voltage35VDC
Capacitance change Within ±30.0%
tanδ
10000000pF 20.0% max
Insulation resistance
10000000pF 5MΩ min
Rated Voltage50VDC
Capacitance change
10000pF1000000pF Within ±30.0%
tanδ
10000pF100000pF 12.5% max
220000pF470000pF 15.0% max
1000000pF 17.5% max
Insulation resistance
10000pF100000pF 500MΩ min
220000pF470000pF 250MΩ min
1000000pF 50MΩ min
Test Methods and Remarks
Conditions for 1 cycle
Step Temperature℃] Duration min.
1 Room temperature Within 3
225±0
330±3
3 Room temperature Within 3
485±3
030±3
5 Room temperature Within 3
Number of cycles 5
Preconditioning 1 hr of preconditioning at 150 0
10 followed by 48±4 hrs of recovery under the standard condition.
Recovery Recovery for the following period under the standard condition after the removal from test chamber.
24±2 hrs Class 1
48±4 hrs Class 2
Withstanding voltage is also referred to as "voltage proof" under IEC specications.
Thermal Shock is also referred to as "rapid change of temperature" under IEC specifications.
AXIAL LEADED CERAMIC CAPACITORS
1
leaded_c_reli-PRP10 leaded_c_reli_e-01
RELIABILITYDATA
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
17
Damp Heatsteady state
Specified
Value
Temperature
CompensatingClass1Multilayer type
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Capacitance change
8.2pF or under Within ±0.5pF
10pF or over Within ±5.0%
Q8.2pF or under Q20010C
10pF30pF Q2752.5C
33pF or over Q350
Insulation resistance1000MΩ min
CNominal CapacitancepF
High PermittivityClass2
Multilayer typeCharacteristicsB
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Rated Voltage16VDC
Capacitance change
1200pF22000pFItemJ Within ±12.5%
220000pF10000000pF Within ±15.0%
tanδ
1200pF22000pFItemJ 5.0% max
220000pF470000pF 7.5% max
1000000pF2200000pF 10.0% max
4700000pF10000000pF 22.5% max
Insulation resistance
1200pF22000pFItemJ 1000MΩ min
220000pF 125MΩ min
470000pF 50MΩ min
1000000pF 25MΩ min
2200000pF 12.5MΩ min
4700000pF10000000pF 5MΩ min
Rated Voltage25VDC
Capacitance change
10000000pF Within ±15.0%
tanδ
10000000pF 15.0% max
Insulation resistance
10000000pF 5MΩ min
Rated Voltage35VDC
Capacitance change
1000000pF Within ±15.0%
2200000pF4700000pF Within ±15.0%
tanδ
1000000pF 10.0% max
2200000pF4700000pF 10.0% max
Insulation resistance
1000000pF 25MΩ min
2200000pF 25MΩ min
4700000pF 5MΩ min
Rated Voltage50VDC
Capacitance change
100pF39000pF Within ±12.5%
47000pF1000000pF Within ±15.0%
tanδ
100pF39000pF 5.0% max
47000pF1000000pF 7.5% max
Insulation resistance
100pF39000pF 1000MΩ min
47000pF100000pF 500MΩ min
220000pF 250MΩ min
470000pF 100MΩ min
1000000pF 50MΩ min
Multilayer typeCharacteristicsF
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Rated Voltage:10VDC
Capacitance change Within ±30.0%
tanδ:
4700000pF~10000000pF 20.0% max
Insulation resistance:
4700000pF 10MΩ min
10000000pF 5MΩ min
Rated Voltage:16VDC
Capacitance change Within ±30.0%
tanδ:
220000pF470000pF 15.0% max
1000000pF 22.5% max
2200000pF 17.5% max
Insulation resistance:
220000pF 100MΩ min
470000pF 50MΩ min
1000000pF 25MΩ min
2200000pF 25MΩ min
Withstanding voltage is also referred to as "voltage proof" under IEC specications.
AXIAL LEADED CERAMIC CAPACITORS
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leaded_c_reli-PRP11
leaded_c_reli_e-01
RELIABILITYDATA
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
18
Loading under Damp Heat
Specified
Value
Temperature
CompensatingClass1Multilayer type
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Capacitance change
8.2pF or under Within ±0.75pF
10pF or over Within ±7.5%
Q30pF or under Q10010/3*C
33pF or over Q200
Insulation resistance 500MΩ min
CNominal CapacitancepF
High PermittivityClass2Multilayer typeCharacteristicsB
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Rated Voltage16VDC
Capacitance change
1200pF22000pFItemJWithin ±12.5%
220000pF470000pF Within ±15.0%
1000000pF10000000pF Within ±22.5%
tanδ
1200pF22000pFItemJ5.0% max
220000pF470000pF 7.5% max
1000000pF2200000pF 10.0% max
4700000pF10000000pF 22.5% max
Insulation resistance
1200pF22000pFItemJ500MΩ min
220000pF 50MΩ min
470000pF 25MΩ min
1000000pF 12.5MΩ min
2200000pF 5.0MΩ min
4700000pF10000000pF 2.5MΩ min
Rated Voltage25VDC
Capacitance change
10000000pF Within ±22.5%
tanδ
10000000pF 22.5% max
Insulation resistance
10000000pF 2.5MΩ min
Rated Voltage35VDC
Capacitance change
1000000pF Within ±15.0%
2200000pF Within ±15.0%
4700000pF Within ±22.5%
tanδ
1000000pF 10.0% max
2200000pF4700000pF 10.0% max
Insulation resistance
1000000pF 12.5MΩ min
2200000pF 5.0MΩ min
4700000pF 2.5MΩ min
Rated Voltage50VDC
Capacitance change
100pF39000pF Within ±12.5%
47000pF1000000p Within ±15.0%
tanδ
100pF39000pF 5.0% max
47000pF1000000pF 7.5% max
Insulation resistance
100pF39000pF 500MΩ min
47000pF100000pF 250MΩ min
220000pF 125MΩ min
470000pF 25MΩ min
1000000pF 12.5MΩ min
17
Damp Heatsteady state
Specified
Value High PermittivityClass2Multilayer typeCharacteristicsF
Rated Voltage:25VDC
Capacitance change Within ±30%
tanδ:
10000pF47000pFItemJ:12.5% max
Insulation resistance:
10000pF47000pFItemJ500MΩ min
Rated Voltage35VDC
Capacitance change Within ±30.0%
tanδ:
10000000pF 20.0% max
Insulation resistance:
10000000pF 5MΩ min
Rated Voltage:50VDC
Capacitance change:
10000pF1000000pF Within ±30.0%
tanδ:
10000pF100000pF 12.5% max
220000pF470000pF 15.0% max
1000000pF 17.5% max
Insulation resistance:
10000pF100000pF 500MΩ min
220000pF470000pF 250MΩ min
1000000pF 50MΩ min
Test Methods and Remarks
Temperature 40±2
Humidity 90 to 95 % RH
Duration 500hrs24
0 hrs
Preconditioning 1 hr of preconditioning at 150 0
10 followed by 48±4 hrs of recovery under the standard condition.
Recovery 24±2 hrs of recovery under the standard condition after the removal from test chamber. Class 1
1 hr of preconditioning at 150 10
0 followed by 48±4 hrs of recovery under the standard condition after the removal from chamber. Class 2
Withstanding voltage is also referred to as "voltage proof" under IEC specications.
AXIAL LEADED CERAMIC CAPACITORS
To next page
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leaded_c_reli-PRP12 leaded_c_reli_e-01
RELIABILITYDATA
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
18
Loading under Damp Heat
Specified
Value High PermittivityClass2Multilayer typeCharacteristicsF
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Rated Voltage10VDC
Capacitance change Within ±30.0%
tanδ
4700000pF10000000pF 20.0% max
Insulation resistance
4700000pF 5MΩ min
10000000pF 2.5MΩ min
Rated Voltage16VDC
Capacitance change Within ±30.0%
tanδ
220000pF470000pF 15.0% max
1000000pF 22.5% max
2200000pF 17.5% max
Insulation resistance
220000pF 50MΩ min
470000pF 25MΩ min
1000000pF 12.5MΩ min
2200000pF 12.5MΩ min
Rated Voltage25VDC
Capacitance change Within ±30.0%
tanδ
10000pF47000pFItemJ12.5% max
Insulation resistance
10000pF47000pFItemJ250MΩ min
Rated Voltage35VDC
Capacitance change Within ±30.0%
tanδ
10000000pF 20.0% max
Insulation resistance
10000000pF 2.5MΩ min
Rated Voltage50VDC
Capacitance change
10000pF1000000pF Within ±30.0%
tanδ
10000pF100000pF 12.5% max
220000pF470000pF 15.0% max
1000000pF 17.5% max
Insulation resistance
10000pF100000pF 250MΩ min
220000pF470000pF 125MΩ min
1000000pF 25MΩ min
Test Methods and Remarks
Temperature 40±2
Humidity 90 to 95 % RH
Duration 500 24
0 hrs
Applied voltage Rated voltage
Preconditioning 1 hr of preconditioning at 150 0
10 followed by 48±4 hrs of recovery under the standard condition.
Recovery 24±2 hrs of recovery under the standard condition after the removal from test cham-ber. Class 1
1 hr of preconditioning at 150 10
0 followed by 48±4 hrs of recovery under the standard condition after the removal from chamber. Class 2
19
High Temperature Lading Test
Specified
Value
Temperature
CompensatingClass1Multilayer type
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Capacitance change
8.2pF or under Within ±0.3pF
10pF or over Within ±3.0%
Q 8.2pF or under Q200+10C
10pF30pF Q275+2.5C
33pF or over Q350
Insulation resistance1000MΩ min
CNominal Capacitance[pF]
High PermittivityClass2Multilayer typeCharacteristicsB
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Rated Voltage16VDC
Capacitance change
1200pF22000pFItemJWithin ±12.5%
220000pF470000pF Within ±15.0%
1000000pF10000000pF Within ±22.5%
tanδ
1200pF22000pFItemJ5.0% max
220000pF470000pF 7.5% max
1000000pF2200000pF 10.0% max
4700000pF10000000pF 22.5% max
Insulation resistance
1200pF22000pFItemJ1000MΩ min
220000pF 125MΩ min
470000pF 50MΩ min
1000000pF 25MΩ min
2200000pF 12.5MΩ min
4700000pF10000000pF : 5.0MΩ min
Withstanding voltage is also referred to as "voltage proof" under IEC specications.
AXIAL LEADED CERAMIC CAPACITORS
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leaded_c_reli-PRP13
leaded_c_reli_e-01
RELIABILITYDATA
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
19
High Temperature Lading Test
Specified
Value High PermittivityClass2
Multilayer typeCharacteristicsB
Rated Voltage25VDC
Capacitance change
10000000pF Within ±22.5%
tanδ
10000000pF 22.5% max
Insulation resistance
10000000pF 5MΩ min
Rated Voltage35VDC
Capacitance change
1000000pF Within ±15.0%
2200000pF Within ±15.0%
4700000pF Within ±22.5%
tanδ
1000000pF 10.0% max
2200000pF4700000pF 10.0% max
Insulation resistance
1000000pF 25MΩ min
2200000pF 25MΩ min
4700000pF 5MΩ min
Rated Voltage50VDC
Capacitance change
100pF39000pF Within ±12.5%
47000pF~1000000pF Within ±15.0%
tanδ
100pF39000pF 5.0% max
47000pF1000000pF 7.5% max
Insulation resistance
100pF39000pF 1000MΩ min
47000pF100000pF 500MΩ min
220000pF 250MΩ min
470000pF 100MΩ min
1000000pF 50MΩ min
Multilayer typeCharacteristicsF
AppearanceNo significant abnomality
Withstanding VoltageNo abnomality
Rated Voltage10VDC
Capacitance change Within ±30.0%
tanδ
4700000pF10000000pF 20.0% max
Insulation resistance
4700000pF 10MΩ min
10000000pF 5MΩ min
Rated Voltage16VDC
Capacitance change ±30%
tanδ
220000pF470000pF 15.0% max
1000000pF 22.5% max
2200000pF 17.5% max
Insulation resistance
220000pF 100MΩ min
470000pF 50MΩ min
1000000pF 25MΩ min
2200000pF 25MΩ min
Rated Voltage25VDC
Capacitance change Within ±30%
tanδ
10000pF47000pFItemJ10.0% max
Insulation resistance
10000pF47000pFItemJ500MΩ min
Rated Voltage35VDC
Capacitance change Within ±30.0%
tanδ
10000000pF 20.0% max
Insulation resistance
10000000pF 5MΩ min
Rated Voltage50VDC
Capacitance change
10000pF1000000pF Within 30.0%
tanδ
10000pF100000pF 10.0% max
220000pF470000pF 12.5% max
1000000pF 17.5% max
Insulation resistance
10000pF100000pF 500MΩ min
220000pF470000pF 250MΩ min
1000000pF 50MΩ min
Test Methods and Remarks
Temperature 85±3
0
Duration 1000±48
0hrs
Applied voltage Rated voltage×2
Rated voltage×1.5
Class 2 B 1000000pF025Type
B 220000pF10000000pF050Type, 075Type
Preconditioning 1 hr of preconditioning at 150 10
0 followed by 48±4 hrs of recovery under the standard condition.
Recovery 24±2hrs of recovery under the standard condition after the removal from test chamber. Class1
1 hr of preconditioning at 150 10
0 followed by 48±4 hrs of recovery under the standard condition after the removal from chamber. Class 2
Note on standard condition "standard condition" referred to herein is defined as follows
5 to 35 of temperature, 45 to 85% relative humidity, and 86 to 106kPa of air pressure.
When there are questions concerning measurement results
In order to provide correlation data, the test shall be conducted under condition of 20±2 of temperature, 60 to 70% relative humidity,
and 86 to 106kPa of air pressure.Unless otherwise specified, all the tests are conducted under the "standard condition."
Withstanding voltage is also referred to as "voltage proof" under IEC specications.
AXIAL LEADED CERAMIC CAPACITORS
1
leaded_c_reli-PRP14 leaded_c_reli_e-01
PRECAUTIONS
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
1. Circuit Design
Precautions
Verification of operating environment, electrical rating and performance
1. A malfunction in medical equipment, spacecraft, nuclear reactors, etc. may cause serious harm to human life or have severe social ramifications. As such,
any capacitors to be used in such equipment may require higher safety and/or reliability considerations and should be clearly differentiated from components
used in general purpose applications.
Verification of Rated voltage DC rated voltage
1. The operating voltage for capacitors must always be lower than their rated values.
If an AC voltage is loaded on a DC voltage, the sum of the two peak voltages should be lower than the rated value of the capacitor chosen. For a circuit where
both an AC and a pulse voltage may be present, the sum of their peak voltages should also be lower than the capacitor's rated voltage.
Self-generated heat (Verification of Temperature)
1. If the capacitors specified only for DC use are used in AC or pulse circuits, the AC or a pulse current can generate heat inside the capacitor so the self-
generated temperature rise should be limited to within 20. The surface temperature measured should include this self-temperature rise. Therefore, it is
required to limit capacitor surface temperature including self -generated heat should not exceed the maximum operating temperature of +85.
Operating Environment precautions
1. Capacitors should not be used in the following environments:
1Environmental conditions to avoid
a. exposure to water or salt water.
b. exposure to moisture or condensation.
c. exposure to corrosive gases (such as hydrogen sulfide, sulfurous acid, chlorine, and ammonia)
Technical
consider-
ations
1-1. When an AC or a pulse voltage is applied to capacitors specified for DC use, even if the voltage is less than the rated voltage, the AC current or pulse current
running through the capacitor will cause the capacitor to self-generate heat because of the loss characteristics.
The amount of heat generated depends on the dielectric materials used, capacitance, applied voltage, frequency, voltage waveform, etc. The surface
temperature changes due to emitted heat which differs by capacitor shape or mounting method.
Please contact Taiyo Yuden with any questions regarding emitted heat levels in your particular application. It is recommended the temperature rise be
measured in the actual circuit to be used.
1-2. For capacitors, the voltage and frequency relationship is generally determined by peak voltage at low frequencies, and by self-generated heat at high
frequencies. (Refer to the following curve.)
2. PCB Design
Precautions
Design of the capacitor mount
1. When capacitors are mounted onto a PC board, hole dimensions on the board should match the lead pitch of the component, if not it will cause breakage of the
terminals or cracking of terminal roots covered with resin as excess stress travels through the terminal legs. As a result, humidity resistance performance would
be lost and may lead to a reduction in insulation resistance and cause a withstand voltage failure.
3. Considerations for automatic insertion
Precautions
Adjustment Automatic Insertion machines leaded components
1.
When inserting capacitors in a PC board by auto-insertion machines the impact load imposed on the capacitors should be minimized to prevent the leads from
chucking or clinching.
Technical
consider-
ations
When installing products, care should be taken not to apply distortion stress as it may deform the products.
Our company recommends the method to place the lead with fewer loads that join the product.
4. Soldering
Precautions
Selection of Flux
1. When soldering capacitors are on the board, flux should be applied thinly and evenly.
2. Flux used should be with less than or equal to 0.1 wt% (equivalent to Chroline) of halogenated content. Flux having a strong acidity content should not be applied.
3. When using water-soluble flux, special care should be taken to properly clean the boards.
Wave Soldering
1. Temperature, time, amount of solder, etc. are specified in accordance with the following recommended conditions.
2. Do not immerse the entire capacitor in the flux during the soldering operation. Only solder the lead wires on the bottom of the board.
Recommended conditions for using a soldering iron:
1. Put the soldering iron on the land-pattern.
Soldering iron's temperature - below 350
Duration - 3 seconds or less
Numbers of times - 1 times
The soldering iron should not directly touch the capacitor.
Technical
consider-
ations
Selection of Flux
1.
Flux is used to increase solderability in wave soldering, but if too much is applied, a large amount of flux gas may be emitted and may detrimentally affect
solderability. To minimize the amount of flux applied, it is recommended to use a flux-bubbling system.
2. With too much halogenated substance (Chlorine, etc.) content is used to activate the flux, an excessive amount of residue after soldering may lead to corrosion of the
terminal electrodes or degradation of insulation resistance on the surface of the capacitors.
3.
Since the residue of water-soluble flux is easily dissolved by water content in the air, the residue on the surface of capacitors in high humidity conditions may cause a
degradation of insulation resistance and therefore affect the reliability of the components. The cleaning methods and the capability of the machines used should also
be considered carefully when selecting water-soluble flux.
Wave Soldering
1. If capacitors are used beyond the range of the recommended conditions, heat stresses may cause cracks inside the capacitors, and consequently degrade the
reliability of the capacitors.
2. When the capacitors are dipped in solder, some soldered parts of the capacitor may melt due to solder heat and cause short-circuits or cracking of the ceramic
material. Deterioration of the resin coating may lower insulation resistance and cause a reduction of withstand voltage.
Recommended conditions for using a soldering iron:
1.If products are used beyond the range of the recommended conditions,heat stress may deform the products,and consequently degrade the reliability of the products.
1
leaded_c_reli-PRP15
leaded_c_reli_e-01
PRECAUTIONS
This catalog contains the typical specication only due to the limitation of space. When you consider purchase of our products, please check our specification.
For details of each product (characteristics graph, reliability information, precautions for use, and so on), see our Web site (http://www.ty-top.com/) or CD catalogs.
5. Cleaning
Precautions Board cleaning
1. When cleaning the mounted PC boards, make sure that cleaning conditions are consistent with prescribed usage conditions.
Technical
consider-
ations
1. The resin material used for the outer coating of capacitors is occasionally a wax substance for moisture resistance which can easily be dissolved by some solutions.
So before cleaning, special care should be taken to test the components vulnerability to the solutions used.
When using water-soluble flux please clean the PCB with purified water sufficiently and dry thoroughly at the end of the process. Insufficient washing or drying
could lower the reliability of the capacitors.
6. Post-cleaning-process
Precautions
Application of resin molding, etc. to the PCB and components.
1. Please contact your local Taiyo Yuden sales office before performing resin coating or molding on mounted capacitors. Please verify on the actual application that
the coating process will not adversely affect the component quality.
Technical
consider-
ations
1-1. The thermal expansion and coefficient of contraction of the molded resin are not necessarily matched with those of the capacitor. The capacitors may be exposed
to stresses due to thermal expansion and contraction during and after hardening. This may lower the specified characteristics and insulation resistance or cause
reduced withstanding voltage by cracking the ceramic or separating the coated resin from the ceramics.
1-2. With some types of mold resins, the resin's decomposition gas or reaction gas may remain inside the resin during the hardening period or while left under normal
conditions, causing a deterioration of the capacitor's performance.
1-3. Some mold resins may have poor moisture proofing properties. Please verify the contents of the resins before they are applied.
1-4. Please contact Taiyo Yuden before using if the hardening process temperature of the mold resins is higher than the operating temperature of the capacitors.
7. Handling
Precautions
Mechanical considerations
1. Be careful not to subject the capacitors to excessive mechanical shocks. Withstanding voltage failure may result.
2. If ceramic capacitors are dropped onto the floor or a hard surface they should not be used.
Technical
consider-
ations
1. Because the capacitor is made of ceramic, mechanical shocks applied to the board may damage or crack the capacitors.
2. Ceramic capacitors which are dropped onto the floor or a hard surface may develop defects and have a higher risk of failure over time.
8. Storage conditions
Precautions
Storage
1. To maintain the solderability of terminal electrodes and to keep the packaging material in good condition, care must be taken to control temperature and humidity
in the storage area. Humidity should especially be kept as low as possible. Recommended conditions: Ambient temperature Below 40 Humidity Below 70% RH.
Products should be used within 6 months after delivery. After the above period, the solderability should be checked before using the capacitors.
2.
Capacitors should not be kept in an environment filled with decomposition gases such as sulfurous hydrogen, sulfurous acid, chlorine, ammonia, etc.
3.
Capacitors should not be kept in a location where they may be exposed to moisture, condensation or direct sunlight.
Technical
consider-
ations
1. Under high temperature/high humidity conditions, the decrease in solderability due to the oxidation of terminal electrodes and deterioration of taping and packaging
characteristics may be accelerated.