MURATA DE2B3KX102JA2A

!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Safety Standard Certified
Ceramic Capacitors/
High Voltage
Ceramic Capacitors
Cat.No.C85E-3
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
EU RoHS Compliant
•
•
•
All the products in this catalog comply with EU RoHS.
EU RoHS is "the European Directive 2002/95/EC on the Restriction of the Use
of Certain Hazardous Substances in Electrical and Electronic Equipment."
For more details, please refer to our website 'Murata's Approach for EU RoHS'
(http://www.murata.com/info/rohs.html).
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
CONTENTS
Part Numbering
2
Type KY (Basic Insulation) -IEC60384-14 Class X1, Y2-
5
2
Type KH (Basic Insulation) -IEC60384-14 Class X1, Y2-
7
3
Type KX Small Size (Reinforced Insulation) -IEC60384-14 Class X1, Y1-
9
4
Type KX (Reinforced Insulation) -IEC60384-14 Class X1, Y1-
11
Type KY/KH/KX Specifications and Test Methods
13
DEJ Series -Based on the Electrical Appliance and Material Safety Law of Japan-
17
DEJ Series Specifications and Test Methods
18
Safety Certified Ceramic Capacitors Characteristics Data (Typical Example)
21
Safety Certified Ceramic Capacitors Packaging
24
Safety Certified Ceramic Capacitors !Caution
26
Safety Certified Ceramic Capacitors Notice
29
6
7
8
9
10
11
DES Series (125°C Guaranteed/Low-dissipation Factor/DC500V-1kV)
30
DES Series Specifications and Test Methods
32
DEH Series (125°C Guaranteed/Low-dissipation Factor/DC500V-3.15kV)
34
DEH Series Specifications and Test Methods
37
DEA Series (125°C Guaranteed/Class 1/DC1k-3.15kV)
39
DEA Series Specifications and Test Methods
42
DEB Series (Class 2/DC1k-3.15kV)
44
DEB Series Specifications and Test Methods
47
DEC Series (Class 1, 2/DC6.3kV)
49
DEC Series Specifications and Test Methods
51
DEF Series (Only for LCD Backlight Inverter Circuit/6.3kVp-p)
53
DEF Series Specifications and Test Methods
55
High Voltage Ceramic Capacitors Characteristics Data (Typical Example)
57
High Voltage Ceramic Capacitors Packaging
58
High Voltage Ceramic Capacitors !Caution
60
High Voltage Ceramic Capacitors Notice
67
12
Jul.13,2011
1
1
5
C85E.pdf
Type KJ -IEC60384-14 Class X1, Y2-
68
Type KJ Specifications and Test Methods
69
Safety Certified Ceramic Capacitors for Automotive Characteristics Data (Typical Example)
74
Safety Certified Ceramic Capacitors for Automotive Packaging
75
Safety Certified Ceramic Capacitors for Automotive !Caution
76
Safety Certified Ceramic Capacitors for Automotive Notice
79
Safety Certified Ceramic Capacitors/High Voltage Ceramic Capacitors ISO9000 Certifications
80
2
3
4
5
6
7
8
9
10
11
12
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
o Part Numbering
Safety Standard Certified Ceramic Capacitors
(Part Number)
DE
2
E3
KH 102 M
N3
A
q
w
e
r
u
i o
t
y
yCapacitance Tolerance
qProduct ID
Code
Product ID
Safety Standard Certified Ceramic Capacitors/
High Voltage Ceramic Capacitors
DE
wSeries Category
Code
Outline
Contents
1
Safety Standard
Certified
IEC60384-14 Class X1, Y1
2
J
AC250V
(r.m.s.)
T5%
K
T10%
M
T20%
Z
W80%, Y20%
uLead Style
IEC60384-14 Class X1, Y2
-Products based on the
Electrical Appliance and
Material Safety Law of Japan-
For Electrical Appliance and Material Safety Law of Japan, the first
three digits (qProduct ID and wSeries Category) express "Series
Name."
For Safety Certified Capacitors, the first three digits express product
code. The fourth figure expresses certified type shown in rSafety
Standard Certified Type column.
Lead
Style
Code
A2
eTemperature Characteristics
A4
Code
B3
B
T10%
E3
E
W20%,Y55%
F3
F
W30%,Y80%
1X
SL
Temperature
Range
W350 to Y1000ppm/D W20 to W85D
Code
2
Lead Diameter
ø0.6T0.05
10
10
5
Pitch of
Components
Y
ø0.6W0.1,Y0.05
Vertical
Crimp
Short
7.5
10
ø0.6W0.1, Y0.05
C3
Straight Long
7.5
ø0.6T0.05
Y
D3
Straight Short
7.5
ø0.6T0.05
Y
Vertical
Crimp
Taping
7.5
B3
ø0.6T0.05
10
5
N3
N4
N5
N7
rRated Voltage/Safety Standard Certified Type
7.5
B2
N2
Y25 to W85D
Lead
Spacing
A5
B5
Cap. Change
or Temp. Coeff.
Dimensions (mm)
5
Vertical
Crimp
Long
A3
B4
Temperature
Characteristics
Capacitance Tolerance
J
Straight Taping
P3
Y
12.7
ø0.6T0.05
10
15
25.4
10
ø0.6W0.1, Y0.05
25.4
7.5
ø0.6T0.05
30
7.5
ø0.6T0.05
15
Rated Voltage
iPackaging
E2
AC250V
KH
X1, Y2; AC250V, (Safety Standard Certified Type KH)
Code
Packaging
KY
X1, Y2; AC250V, (Safety Standard Certified Type KY)
A
Ammo Pack Taping
KX
X1, Y1; AC250V, (Safety Standard Certified Type KX)
B
Bulk
tCapacitance
oIndividual Specification Code
Expressed by three figures. The unit is pico-farad (pF). The first
and second figures are significant digits, and the third figure
expresses the number of zeros that follow the two numbers.
For part number that cannot be identified without "Individual
Specification," it is added at the end of part number, expressed
by three-digit alphanumerics.
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
High Voltage Ceramic Capacitors (500V-6.3kV)
(Part Number)
DE
B
B3
3A
102
K
N2
A
q
w
e
r
t
y
u
i o
yCapacitance Tolerance
qProduct ID
Product ID
Code
Capacitance Tolerance
C
T0.25pF
D
T0.5pF
High Voltage Ceramic Capacitors (500V-6.3kV) /
Safety Standard Certified Ceramic Capacitors
DE
wSeries Category
Code
Outline
Contents
A
Class 1 (Char. SL) DC1-3.15kV Rated
B
Class 2 DC1-3.15kV Rated
C
Class 1, 2 DC6.3kV Rated
High Temperature Guaranteed,
Low-dissipation Factor (Char. R, C)
S
High Temperature Guaranteed,
Low-dissipation Factor (Char. D)
A2
F
LCD Backlight Inverter Circuit
A4
High Voltage
The first three digits (qProduct ID and wSeries Category) express
"Series Name."
T5%
K
T10%
Z
W80%, Y20%
uLead Style
Code
H
J
Lead
Style
A3
B2/J2
B3/J3
B4
eTemperature Characteristics
Cap. Change
or Temp. Coeff.
B3
B
T10%
E3
E
W20%,Y55%
F3
F
W30%,Y80%
Code
C3
C
R3
R
D3
D
1X
SL
2C
CH
Temperature
Range
Vertical
Crimp
Short
7.5
C4
D1
Straight
Short
D3
T20%
Y25 to W85D
DD
W15%,Y30%
W85 to W125D
N2
T15%
Y25 to W85D
N3
W15%,Y30%
W85 to W125D
N7
W20%,Y30%
Y25 to W125D
P2
W350 to Y1000ppm/D W20 to W85D
P3
0T60ppm/D
Straight
Long
W20 to W85D
rRated Voltage
Vertical
Crimp
Taping
Straight
Taping
Pitch of
Components
ø0.6T0.05
Y
ø0.6T0.05
Y
10
5
10
5
C3
Lead Diameter
5
7.5
CD
Y25 to W85D
Lead
Spacing
Vertical
Crimp
Long
C1
Temperature
Characteristics
Dimensions (mm)
7.5
10
ø0.5T0.05
ø0.6T0.05
7.5
ø0.5T0.05
5
ø0.5T0.05
7.5
ø0.6T0.05
7.5
ø0.5T0.05
5
7.5
30
5
12.7
7.5
ø0.6T0.05
Code
Packaging
A
Ammo Pack Taping
DC500V
B
Bulk
3A
DC1kV
3D
DC2kV
3F
DC3.15kV
DC6.3kV
15
iPackaging
Rated Voltage
6.3kVp-p
15
7.5
2H
3J
Y
12.7
ø0.6T0.05
Code
LH
Y
oIndividual Specification Code
For part number that cannot be identified without "Individual
Specification," it is added at the end of part number, expressed
by three-digit alphanumerics.
tCapacitance
Expressed by three figures. The unit is pico-farad (pF). The first
and second figures are significant digits, and the third figure
expresses the number of zeros that follow the two numbers.
3
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Safety Standard Certified Ceramic Capacitors for Automotive
(Part Number)
DE
6
E3
KJ
q
w
e
r
102 M
t
y
N3
A
u
i o
yCapacitance Tolerance
qProduct ID
Product ID
Code
Capacitance Tolerance
K
T10%
M
T20%
Safety Standard Certified Ceramic Capacitors/
High Voltage Ceramic Capacitors
DE
uLead Style
wSeries Category
Code
Outline
Contents
6
Safety Standard
Certified
IEC60384-14 Class X1, Y2
The first three digits express product code. The fourth figure
expresses certified type shown in rSafety Standard Certified Type
column.
Code
Lead
Style
A3
Vertical Crimp
Long
B3
Vertical Crimp
Short
N3
Vertical Crimp
Taping
eTemperature Characteristics
Code
Temperature
Characteristics
Cap. Change
or Temp. Coeff.
B3
B
T10%
E3
E
W20%,Y55%
Temperature
Range
Y25 to W85D
rRated Voltage/Safety Standard Certified Type
Code
Rated Voltage
KJ
X1, Y2; AC300V, (Safety Standard Certified Type KJ)
tCapacitance
Expressed by three figures. The unit is pico-farad (pF). The first
and second figures are significant digits, and the third figure
expresses the number of zeros that follow the two numbers.
4
Dimensions (mm)
Lead
Spacing
Lead Diameter
Pitch of
Components
Y
7.5
ø0.6T0.05
Y
15
iPackaging
Code
Packaging
A
Ammo Pack Taping
B
Bulk
oIndividual Specification Code
For part number that cannot be identified without "Individual
Specification," it is added at the end of part number, expressed
by three-digit alphanumerics.
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Standard Certified Ceramic Capacitors
1
Type KY (Basic Insulation) -IEC60384-14 Class X1, Y2D max.
T max.
25.0 min.
e
F±1.0
ød
(in mm)
[Bulk]
Vertical Crimp Long (A2, A3)
Lead Code
Coating Extension e
ød
A2, A3
Up to the end of crimp
0.6±0.05
T max.
3.0 max.
D max.
e
5.0±1.0
1. Compact size; diameter 25% less than Type KH.
2. Operating temperature range guaranteed up to 125
degrees (UL: 85 deg.).
3. Dielectric strength:
AC2000V (for lead spacing F=5mm)
AC2600V (for lead spacing F=7.5mm)
4. Class X1/Y2 capacitors certified by
UL/CSA/VDE/BSI/SEMKO/DEMKO/FIMKO/NEMKO/ESTI/
NSW.
5. Coated with flame-retardant epoxy resin
(conforming to UL94V-0 standard).
Please contact us when a halogen-free product*
is necessary.
* Cl=900ppm max., Br=900ppm max. and
Cl+Br=1500ppm max.
6. Taping available for automatic insertion.
3.0 max.
■ Features
■ Applications
ød
F±0.8
1. Ideal for use as X/Y capacitors for AC line filters
and primary-secondary coupling on switching power
supplies and AC adapters.
2. Ideal for use on D-A isolation and noise absorption
for DAA modems without transformers.
(in mm)
[Bulk]
Vertical Crimp Short (B2, B3)
Lead Code
Coating Extension e
ød
B2, B3
Up to the end of crimp
0.6±0.05
Do not use these products in any automotive
power train or safety equipment including battery
chargers for electric vehicles and plug-in hybrids.
Only Murata products clearly stipulated as
"for Automotive use" on its catalog can be used
for automobile applications such as power train and
safety equipment.
■ Standard Certification
UL
CSA
VDE
BSI
■ Marking
Standard No.
Certified No.
UL1414
CSA E60384-14
IEC 60384-14
EN 60384-14
EN 60065 (8.8, 14.2)
IEC 60384-14
EN 60384-14
E37921
1283280
Example
Rated Voltage
40006273
w
q
KM 37901
SEMKO
DEMKO
FIMKO
NEMKO
ESTI
IEC 60384-14
EN 60384-14
812168
314115
24197
P08209361
08.0710
NSW
IEC 60384-14
AS3250
6824
Item
q Type Designation KY
AC250V(r.m.s.)
t
472M
KY250~
X1 Y2
16
8
w Nominal Capacitance
(Under 100pF: Actual value,
100pF and over: Marked with 3 figures)
e
e Capacitance Tolerance
r
r Company Name Code
8 : Made in Taiwan 15 : Made in Thailand
t Manufactured Date Code
Class Code
X1Y2
Rated Voltage Mark
250~
• The certification number might change due to revision of the application
standard and changes in the range of acquisition.
• Please contact us when the certification of Chinese Safety Standard or South
Korean Safety Standard is necessary.
5
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
1
C85E.pdf
Jul.13,2011
Lead Spacing F=7.5mm
Part Number
AC Rated
Voltage
(Vac)
Temp.
Char.
Capacitance
(pF)
Body
Dia. D
(mm)
Lead
Spacing F
(mm)
Body
Thickness T
(mm)
Lead
Package
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping (1)
DE21XKY100JpppM02
250
SL
10 ±5%
8 max.
7.5
5.0 max.
A3B
B3B
N3A
DE21XKY150JpppM02
250
SL
15 ±5%
8 max.
7.5
5.0 max.
A3B
B3B
N3A
DE21XKY220JpppM02
250
SL
22 ±5%
8 max.
7.5
5.0 max.
A3B
B3B
N3A
DE21XKY330JpppM02
250
SL
33 ±5%
8 max.
7.5
5.0 max.
A3B
B3B
N3A
DE21XKY470JpppM02
250
SL
47 ±5%
8 max.
7.5
5.0 max.
A3B
B3B
N3A
DE21XKY680JpppM02
250
SL
68 ±5%
8 max.
7.5
5.0 max.
A3B
B3B
N3A
DE2B3KY101KpppM02
250
B
100 ±10%
7 max.
7.5
5.0 max.
A3B
B3B
N3A
DE2B3KY151KpppM02
250
B
150 ±10%
7 max.
7.5
5.0 max.
A3B
B3B
N3A
DE2B3KY221KpppM02
250
B
220 ±10%
7 max.
7.5
5.0 max.
A3B
B3B
N3A
DE2B3KY331KpppM02
250
B
330 ±10%
7 max.
7.5
5.0 max.
A3B
B3B
N3A
DE2B3KY471KpppM02
250
B
470 ±10%
7 max.
7.5
5.0 max.
A3B
B3B
N3A
DE2B3KY681KpppM02
250
B
680 ±10%
8 max.
7.5
5.0 max.
A3B
B3B
N3A
DE2E3KY102MpppM02
250
E
1000 ±20%
7 max.
7.5
5.0 max.
A3B
B3B
N3A
DE2E3KY152MpppM02
250
E
1500 ±20%
7 max.
7.5
5.0 max.
A3B
B3B
N3A
DE2E3KY222MpppM02
250
E
2200 ±20%
8 max.
7.5
5.0 max.
A3B
B3B
N3A
DE2E3KY332MpppM02
250
E
3300 ±20%
9 max.
7.5
5.0 max.
A3B
B3B
N3A
DE2E3KY472MpppM02
250
E
4700 ±20%
10 max.
7.5
5.0 max.
A3B
B3B
N3A
DE2F3KY103MpppM02
250
F
10000 ±20%
14 max.
7.5
5.0 max.
A3B
B3B
N3A
Three blank columns are filled with the lead and packaging codes. Please refer to the 3 columns on the right for the appropriate code.
Individual specification code "M02" expresses "simplicity marking and guarantee of dielectric strength between lead wires: AC2600V."
Murata part numbers might be changed depending on lead code or any other changes. Therefore, please specify only the type name (KY) and capacitance of products
in the parts list when it is required for applying safety standard of electric equipment.
Lead Spacing F=5mm
Part Number
AC Rated
Voltage
(Vac)
Temp.
Char.
Capacitance
(pF)
Body
Dia. D
(mm)
Lead
Spacing F
(mm)
Body
Thickness T
(mm)
Lead
Package
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping (1)
DE21XKY100JpppM01
250
SL
10 ±5%
8 max.
5.0
5.0 max.
A2B
B2B
N2A
DE21XKY150JpppM01
250
SL
15 ±5%
8 max.
5.0
5.0 max.
A2B
B2B
N2A
DE21XKY220JpppM01
250
SL
22 ±5%
8 max.
5.0
5.0 max.
A2B
B2B
N2A
DE21XKY330JpppM01
250
SL
33 ±5%
8 max.
5.0
5.0 max.
A2B
B2B
N2A
DE21XKY470JpppM01
250
SL
47 ±5%
8 max.
5.0
5.0 max.
A2B
B2B
N2A
DE21XKY680JpppM01
250
SL
68 ±5%
8 max.
5.0
5.0 max.
A2B
B2B
N2A
DE2B3KY101KpppM01
250
B
100 ±10%
7 max.
5.0
5.0 max.
A2B
B2B
N2A
DE2B3KY151KpppM01
250
B
150 ±10%
7 max.
5.0
5.0 max.
A2B
B2B
N2A
DE2B3KY221KpppM01
250
B
220 ±10%
7 max.
5.0
5.0 max.
A2B
B2B
N2A
DE2B3KY331KpppM01
250
B
330 ±10%
7 max.
5.0
5.0 max.
A2B
B2B
N2A
DE2B3KY471KpppM01
250
B
470 ±10%
7 max.
5.0
5.0 max.
A2B
B2B
N2A
DE2B3KY681KpppM01
250
B
680 ±10%
8 max.
5.0
5.0 max.
A2B
B2B
N2A
DE2E3KY102MpppM01
250
E
1000 ±20%
7 max.
5.0
5.0 max.
A2B
B2B
N2A
DE2E3KY152MpppM01
250
E
1500 ±20%
7 max.
5.0
5.0 max.
A2B
B2B
N2A
DE2E3KY222MpppM01
250
E
2200 ±20%
8 max.
5.0
5.0 max.
A2B
B2B
N2A
DE2E3KY332MpppM01
250
E
3300 ±20%
9 max.
5.0
5.0 max.
A2B
B2B
N2A
DE2E3KY472MpppM01
250
E
4700 ±20%
10 max.
5.0
5.0 max.
A2B
B2B
N2A
Three blank columns are filled with the lead and packaging codes. Please refer to the 3 columns on the right for the appropriate code.
Individual specification code "M01" expresses "simplicity marking and guarantee of dielectric strength between lead wires: AC2000V."
Murata part numbers might be changed depending on lead code or any other changes. Therefore, please specify only the type name (KY) and capacitance of products
in the parts list when it is required for applying safety standard of electric equipment.
6
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Standard Certified Ceramic Capacitors
Type KH (Basic Insulation) -IEC60384-14 Class X1, Y22
D max.
T max.
e
25.0 min.
1. Operating temperature range guaranteed up to 125
degrees (UL: 85 deg.).
2. Dielectric strength: AC2600V
3. Class X1/Y2 capacitors certified by
UL/CSA/VDE/BSI/SEMKO/DEMKO/FIMKO/NEMKO/ESTI/
NSW.
4. Coated with flame-retardant epoxy resin (conforming
to UL94V-0 standard).
Please contact us when a halogen-free product*
is necessary.
* Cl=900ppm max., Br=900ppm max. and
Cl+Br=1500ppm max.
5. Taping available for automatic insertion.
3.0 max.
■ Features
F±1.0
ød
(in mm)
[Bulk]
Vertical Crimp Long (A3)
Lead Code
Coating Extension e
ød
A3
Up to the end of crimp
0.6±0.05
D max.
T max.
Ideal for use as X/Y capacitors for AC line filters and
primary-secondary coupling on switching power supplies
and AC adapters.
Do not use these products in any automotive
power train or safety equipment including battery
chargers for electric vehicles and plug-in hybrids.
Only Murata products clearly stipulated as
"for Automotive use" on its catalog can be used
for automobile applications such as power train and
safety equipment.
■ Standard Certification
UL
CSA
VDE
BSI
Standard No.
UL1414
CSA E60384-14
IEC 60384-14
EN 60384-14
EN 60065 (8.8, 14.2)
IEC 60384-14
EN 60384-14
SEMKO
DEMKO
FIMKO
NEMKO
ESTI
IEC 60384-14
EN 60384-14
NSW
IEC 60384-14
AS3250
3.0 max.
■ Applications
5.0±1.0
e
ød
F±0.8
(in mm)
[Bulk]
Vertical Crimp Short (B3)
Lead Code
Coating Extension e
ød
B3
Up to the end of crimp
0.6±0.05
■ Marking
Certified No.
Item
Example
Rated Voltage
E37921
1343805
40002796
KH
w Nominal Capacitance
(Marked with 3 figures)
e Capacitance Tolerance
r Company Name Code
8 : Made in Taiwan
15 : Made in Thailand
w
KM 37901
812163
314578
24195
P08209182
08.0708
q Type Designation
AC250V(r.m.s.)
6529
• The certification number might change due to revision of the application
standard and changes in the range of acquisition.
• Please contact us when the certification of Chinese Safety Standard or South
Korean Safety Standard is necessary.
q
KH472M
X1Y2
BSI
FI
MJ502
250~
8
N 16
D
t Manufactured Date Code
UL Approval Mark
CSA Approval Mark
r
VDE Approval Mark
t
BSI Approval Mark
SEMKO Approval Mark
DEMKO Approval Mark
FIMKO Approval Mark
NEMKO Approval Mark
ESTI Approval Mark
Class Code
Rated Voltage Mark
e
BSI
D
FI
N
MJ502
X1Y2
250~
7
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Temp.
Char.
Capacitance
(pF)
Body
Dia. D
(mm)
Lead
Spacing F
(mm)
Body
Thickness T
(mm)
Lead
Package
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping (1)
DE2B3KH101Kppp
250
B
100 ±10%
8 max.
7.5
7.0 max.
A3B
B3B
N3A
DE2B3KH151Kppp
250
B
150 ±10%
8 max.
7.5
7.0 max.
A3B
B3B
N3A
DE2B3KH221Kppp
250
B
220 ±10%
8 max.
7.5
7.0 max.
A3B
B3B
N3A
DE2B3KH331Kppp
250
B
330 ±10%
8 max.
7.5
7.0 max.
A3B
B3B
N3A
DE2B3KH471Kppp
250
B
470 ±10%
8 max.
7.5
7.0 max.
A3B
B3B
N3A
DE2B3KH681Kppp
250
B
680 ±10%
9 max.
7.5
7.0 max.
A3B
B3B
N3A
DE2E3KH102Mppp
250
E
1000 ±20%
8 max.
7.5
7.0 max.
A3B
B3B
N3A
DE2E3KH152Mppp
250
E
1500 ±20%
9 max.
7.5
7.0 max.
A3B
B3B
N3A
DE2E3KH222Mppp
250
E
2200 ±20%
10 max.
7.5
7.0 max.
A3B
B3B
N3A
DE2E3KH332Mppp
250
E
3300 ±20%
12 max.
7.5
7.0 max.
A3B
B3B
N3A
DE2E3KH472Mppp
250
E
4700 ±20%
13 max.
7.5
7.0 max.
A3B
B3B
N3A
DE2F3KH103Mppp
250
F
10000 ±20%
16 max.
7.5
7.0 max.
A3B
B3B
N7A
Three blank columns are filled with the lead and packaging codes. Please refer to the 3 columns on the right for the appropriate code.
Murata part numbers might be changed depending on lead code or any other changes. Therefore, please specify only the type name (KH) and capacitance of products
in the parts list when it is required for applying safety standard of electric equipment.
8
Jul.13,2011
AC Rated
Voltage
(Vac)
Part Number
2
C85E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Standard Certified Ceramic Capacitors
Type KX Small Size (Reinforced Insulation) -IEC60384-14 Class X1, Y1D max.
T max.
■ Features
3.0 max.
3
25.0 min.
e
F±1.0
ød
(in mm)
Lead Code
Coating Extension e
ød
A4
Up to the end of crimp
0.6±0.05
D max.
T max.
3.0 max.
[Bulk]
Vertical Crimp Long (A4)
e
5.0±1.0
1. We design capacitors much more compact in size than
current Type KX, having reduced the diameter
by 20% max.
2. Operating temperature range guaranteed up to 125
degrees (UL: 85 deg.).
3. Dielectric strength: AC4000V
4. Class X1/Y1 capacitors certified by
UL/CSA/VDE/BSI/SEMKO/DEMKO/FIMKO/NEMKO/ESTI/
IMQ.
5. Can be use with a component in appliances
requiring reinforced insulation and double
insulation based on UL1492, IEC60065 and IEC60950.
6. Coated with flame-retardant epoxy resin (conforming
to UL94V-0 standard).
Please contact us when a halogen-free product*
is necessary.
* Cl=900ppm max., Br=900ppm max. and
Cl+Br=1500ppm max.
7. Taping available for automatic insertion.
ød
F±0.8
(in mm)
■ Applications
1. Ideal for use as X/Y capacitors for AC line filters
and primary-secondary coupling on switching power
supplies and AC adapters.
2. Ideal for use on D-A isolation and noise absorption
for DAA modems without transformers.
[Bulk]
Vertical Crimp Short (B4)
Lead Code
Coating Extension e
ød
B4
Up to the end of crimp
0.6±0.05
Do not use these products in any automotive
power train or safety equipment including battery
chargers for electric vehicles and plug-in hybrids.
Only Murata products clearly stipulated as
"for Automotive use" on its catalog can be used
for automobile applications such as power train and
safety equipment.
*: Small sized Type KX differs from current Type KX
in electrical characteristics, such as the voltage
dependency, capacitance temperature dependency,
and Dielectric strength.
Therefore, before replacing current Type KX,
please make a performance check by equipment.
Please also refer to Notice (Rating) item 2,
"Performance Check by Equipment," below.
9
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
■ Standard Certification
UL
CSA
VDE
BSI
3
SEMKO
DEMKO
FIMKO
NEMKO
ESTI
IMQ
C85E.pdf
Jul.13,2011
■ Marking
Standard No.
Certified No.
UL1414
CSA E60384-14
IEC 60384-14
EN 60384-14
EN 60065 (8.8, 14.2)
IEC 60384-14
EN 60384-14
E37921
1343810
Example
Rated Voltage
q Type Designation KX
40002831
w
q
KM 37901
AC250V(r.m.s.)
t
812158
314577
24191
P08209173
08.0707
V4069
IEC 60384-14
EN 60384-14
EN 60384-14
Item
472M
KX250~
X1 Y1
16
8
e
w Nominal Capacitance
(Marked with 3 figures)
e Capacitance Tolerance
r Company Name Code
8 : Made in Taiwan 15 : Made in Thailand
r
t Manufactured Date Code
Class Code
X1Y1
Rated Voltage Mark
250~
• The certification number might change due to revision of the application
standard and changes in the range of acquisition.
• Please contact us when the certification of Chinese Safety Standard or South
Korean Safety Standard is necessary.
Part Number
AC Rated
Voltage
(Vac)
Temp.
Char.
Capacitance
(pF)
Body
Dia. D
(mm)
Lead
Spacing F
(mm)
Body
Thickness T
(mm)
Lead
Package
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping (1)
DE1B3KX101KpppL01
250
B
100 ±10%
8 max.
10.0
7.0 max.
A4B
B4B
N4A
DE1B3KX151KpppL01
250
B
150 ±10%
8 max.
10.0
7.0 max.
A4B
B4B
N4A
DE1B3KX221KpppL01
250
B
220 ±10%
8 max.
10.0
7.0 max.
A4B
B4B
N4A
DE1B3KX331KpppL01
250
B
330 ±10%
8 max.
10.0
7.0 max.
A4B
B4B
N4A
DE1B3KX471KpppL01
250
B
470 ±10%
8 max.
10.0
7.0 max.
A4B
B4B
N4A
DE1B3KX681KpppL01
250
B
680 ±10%
9 max.
10.0
7.0 max.
A4B
B4B
N4A
DE1E3KX102MpppL01
250
E
1000 ±20%
7 max.
10.0
7.0 max.
A4B
B4B
N4A
DE1E3KX152MpppL01
250
E
1500 ±20%
8 max.
10.0
7.0 max.
A4B
B4B
N4A
DE1E3KX222MpppL01
250
E
2200 ±20%
9 max.
10.0
7.0 max.
A4B
B4B
N4A
DE1E3KX332MpppL01
250
E
3300 ±20%
10 max.
10.0
7.0 max.
A4B
B4B
N4A
DE1E3KX472MpppL01
250
E
4700 ±20%
12 max.
10.0
7.0 max.
A4B
B4B
N4A
Three blank columns are filled with the lead and packaging codes. Please refer to the 3 columns on the right for the appropriate code.
Murata part numbers might be changed depending on lead code or any other changes. Therefore, please specify only the type name (KX) and capacitance of products
in the parts list when it is required for applying safety standard of electric equipment.
10
C85E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Jul.13,2011
Safety Standard Certified Ceramic Capacitors
Type KX (Reinforced Insulation) -IEC60384-14 Class X1, Y1D max.
T max.
25.0 min.
e
F±1.0
4
ød
(in mm)
Lead Code
Coating Extension e
ød
A5
Up to the end of crimp
0.6±0.1
0.05
D max.
T max.
4.0 max.
[Bulk]
Vertical Crimp Long (A5)
e
5.0±1.0
1. Operating temperature range guaranteed up to 125
degrees (UL: 85 deg.).
2. Dielectric strength: AC4000V
3. Class X1/Y1 capacitors certified by
UL/CSA/VDE/BSI/SEMKO/DEMKO/FIMKO/NEMKO/ESTI/
IMQ.
4. Can be use with a component in appliances
requiring reinforced insulation and double
insulation based on UL1492, IEC60065 and IEC60950.
5. Coated with flame-retardant epoxy resin (conforming
to UL94V-0 standard).
Please contact us when a halogen-free product*
is necessary.
* Cl=900ppm max., Br=900ppm max. and
Cl+Br=1500ppm max.
6. Taping available for automatic insertion.
4.0 max.
■ Features
■ Applications
ød
F±0.8
Ideal for use as X/Y capacitors for AC line filters and
primary-secondary coupling on switching power supplies
and AC adapters.
(in mm)
[Bulk]
Vertical Crimp Short (B5)
Lead Code
Coating Extension e
ød
B5
Up to the end of crimp
0.6±0.1
0.05
Do not use these products in any automotive
power train or safety equipment including battery
chargers for electric vehicles and plug-in hybrids.
Only Murata products clearly stipulated as
"for Automotive use" on its catalog can be used
for automobile applications such as power train and
safety equipment.
■ Standard Certification
UL
CSA
VDE
BSI
SEMKO
DEMKO
FIMKO
NEMKO
ESTI
IMQ
■ Marking
Standard No.
Certified No.
UL1414
CSA E60384-14
IEC 60384-14
EN 60384-14
EN 60065 (8.8, 14.2)
IEC 60384-14
EN 60384-14
E37921
1343810
IEC 60384-14
EN 60384-14
EN 60384-14
Item
q Type Designation
Example
Rated Voltage
KX
w Nominal Capacitance
(Under 100pF: Actual value, 100pF and over: Marked with 3 figures)
40002831
e Capacitance Tolerance
r Company Name Code
8 : Made in Taiwan
15 : Made in Thailand
w
KM 37901
AC250V(r.m.s.)
812158
314577
24191
P08209173
08.0707
V4069
• The certification number might change due to revision of the application
standard and changes in the range of acquisition.
• Please contact us when the certification of Chinese Safety Standard or South
Korean Safety Standard is necessary.
q
t Manufactured Date Code
UL Approval Mark
CSA Approval Mark
FI
VDE Approval Mark
MJ502
N
BSI Approval Mark
8 r
SEMKO Approval Mark
250~ D 16 t
DEMKO Approval Mark
FIMKO Approval Mark
NEMKO Approval Mark
ESTI Approval Mark
IMQ Approval Mark
Class Code
Rated Voltage Mark
KX222M
X1Y1
BSI
e
BSI
D
FI
N
MJ502
X1Y1
250~
11
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Jul.13,2011
AC Rated
Voltage
(Vac)
Temp.
Char.
Capacitance
(pF)
Body
Dia. D
(mm)
Lead
Spacing F
(mm)
Body
Thickness T
(mm)
Lead
Package
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping (1)
DE11XKX100Jppp
250
SL
10 ±5%
9 max.
10.0
8.0 max.
A5B
B5B
N5A
DE11XKX150Jppp
250
SL
15 ±5%
9 max.
10.0
8.0 max.
A5B
B5B
N5A
DE11XKX220Jppp
250
SL
22 ±5%
9 max.
10.0
8.0 max.
A5B
B5B
N5A
DE11XKX330Jppp
250
SL
33 ±5%
9 max.
10.0
8.0 max.
A5B
B5B
N5A
DE11XKX470Jppp
250
SL
47 ±5%
9 max.
10.0
8.0 max.
A5B
B5B
N5A
DE11XKX680Jppp
250
SL
68 ±5%
9 max.
10.0
8.0 max.
A5B
B5B
N5A
DE1B3KX101Kppp
250
B
100 ±10%
9 max.
10.0
8.0 max.
A5B
B5B
N5A
DE1B3KX151Kppp
250
B
150 ±10%
9 max.
10.0
8.0 max.
A5B
B5B
N5A
DE1B3KX221Kppp
250
B
220 ±10%
9 max.
10.0
8.0 max.
A5B
B5B
N5A
DE1B3KX331Kppp
250
B
330 ±10%
9 max.
10.0
8.0 max.
A5B
B5B
N5A
DE1B3KX471Kppp
250
B
470 ±10%
9 max.
10.0
8.0 max.
A5B
B5B
N5A
DE1B3KX681Kppp
250
B
680 ±10%
10 max.
10.0
8.0 max.
A5B
B5B
N5A
DE1E3KX102MpppA01
250
E
1000 ±20%
8 max.
10.0
8.0 max.
A5B
B5B
N5A
DE1E3KX152MpppA01
250
E
1500 ±20%
9 max.
10.0
8.0 max.
A5B
B5B
N5A
DE1E3KX222MpppA01
250
E
2200 ±20%
10 max.
10.0
8.0 max.
A5B
B5B
N5A
DE1E3KX332MpppA01
250
E
3300 ±20%
12 max.
10.0
8.0 max.
A5B
B5B
N5A
DE1E3KX392MpppA01
250
E
3900 ±20%
13 max.
10.0
8.0 max.
A5B
B5B
N5A
DE1E3KX472MpppA01
250
E
4700 ±20%
15 max.
10.0
8.0 max.
A5B
B5B
N5A
Part Number
4
C85E.pdf
Three blank columns are filled with the lead and packaging codes. Please refer to the 3 columns on the right for the appropriate code.
Murata part numbers might be changed depending on lead code or any other changes. Therefore, please specify only the type name (KX) and capacitance of products
in the parts list when it is required for applying safety standard of electric equipment.
12
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Standard Certified Type KY/KH/KX
Specifications
and Test
Type KY/KH/KX
Specifications
andMethods
Test Methods
Operating Temperature Range: -25 to +125°C (-25 to +85°C for UL standards )
No.
Item
1
Appearance and Dimensions
2
3
4
Dissipation Factor (D.F.)
Q
Specifications
No visible defect, and dimensions are within
specified range.
The capacitor should be visually inspected for evidence of
defect.
Dimensions should be measured with slide calipers.
Marking
To be easily legible
The capacitor should be visually inspected.
Capacitance
Within specified tolerance
Char.
B, E
F
SL
5
Test Method
Insulation Resistance (I.R.)
Specifications
D.F.V2.5%
D.F.V5.0%
QU400+20C*1(CF30pF)
QU1000
(CU30pF)
10000MΩ min.
The capacitance, dissipation factor and Q should be measured
at 20˚C with 1±0.1kHz (char. SL: 1±0.1MHz) and AC5V(r.m.s.)
max.
The insulation resistance should be measured with
DC500±50V within 60±5 sec. of charging.
The voltage should be applied to the capacitor through a
resistor of 1MΩ.
The capacitor should not be damaged when the test voltages
from Table 1 are applied between the lead wires for 60 sec.
<Table 1>
Between Lead
No failure
Wires
Type
KY
KH
KX
6
Dielectric
Strength
Body
Insulation
No failure
Test Voltage
For lead spacing F=5mm AC2000V(r.m.s.)
For lead spacing F=7.5mm AC2600V(r.m.s.)
AC2600V(r.m.s.)
AC4000V(r.m.s.)
First, the terminals of the capacitor
should be connected together. Then,
as shown in the figure at right, a metal
foil should be closely wrapped around
Metal
the body of the capacitor to the
about
Foil
3 to 6mm
distance of about 3 to 6mm from
each terminal.
Metal
Then, the capacitor should be inserted
Balls
into a container filled with metal balls
of about 1mm diameter. Finally, AC
voltage from Table 2 is applied for 60 sec. between the
capacitor lead wires and metal balls.
<Table 2>
Type
KY
KH
KX
7
Temperature Characteristics
Char.
Capacitance Change
B
Within ±10%
E
Within +20
–55%
F
Within +30
–80%
(Temp. range: -25 to +85°C)
Char.
Temperature Coefficient
SL
+350 to -1000ppm/°C
(Temp. range: +20 to +85°C)
8
Solderability of Leads
Lead wire should be soldered with uniform coating
on the axial direction over 3/4 of the circumferential
direction.
Test Voltage
AC2600V(r.m.s.)
AC2600V(r.m.s.)
AC4000V(r.m.s.)
The capacitance measurement should be made at each step
specified in Table 3.
<Table 3>
Step
1
2
3
4
5
Temperature (ºC)
20±2
-25±2
20±2
85±2
20±2
The lead wire of a capacitor should be dipped into molten
solder for 2±0.5 sec.
The depth of immersion is up to about 1.5 to 2.0mm from the
root of lead wires.
Temp. of solder: Lead Free Solder (Sn-3Ag-0.5Cu) 245±5°C
H63 Eutectic Solder 235±5°C
*1 "C" expresses nominal capacitance value (pF).
Continued on the following page.
13
4
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Standard
Certifiedand
Type
KY/KH/KX
Type KY/KH/KX
Specifications
Test
MethodsSpecifications and Test Methods
Continued from the preceding page.
No.
9
Item
Soldering
Effect
(Non-Preheat)
4
Specifications
Appearance
No marked defect
Capacitance
Change
Within ±10%
I.R.
1000MΩ min.
Dielectric
Strength
Per Item 6
Appearance
No marked defect
Capacitance
Change
Within ±10%
I.R.
1000MΩ min.
Dielectric
Strength
Per Item 6
Appearance
No marked defect
Capacitance
Within the specified tolerance
First the capacitor should be
,,Capacitor
Thermal
stored at 120+0/-5°C for
Screen
,,
,
60+0/-5 sec.
,,
,
,,,,,,,,,,
, 1.5
,,,,,,
Then, as in the figure, the lead
,,,,,,,,,,
,,,,
, to 2.0mm
,
,Molten
wires should be immersed in
,,
solder of 260+0/-5°C up to 1.5 to
Solder
2.0mm from the root of terminal
for 7.5+0/-1 sec.
Pre-treatment:
Capacitor should be stored at 85±2°C for 1 hr., then placed at
room condition*2 for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*2
Soldering
10 Effect
(On-Preheat)
11
Vibration
Resistance
D.F.
Q
Char.
B, E
F
SL
12
Humidity
(Under
Steady
State)
No marked defect
Capacitance
Change
Char.
B
E, F
SL
Capacitance Change
Within ±10%
Within ±15%
Within ± 5%
Char.
B, E
F
Specifications
D.F.V5.0%
D.F.V7.5%
QU275+5/2C*1(CF30pF)
QU350
(CU30pF)
SL
Humidity
13
Loading
Specifications
D.F.V2.5%
D.F.V5.0%
QU400+20C*1(CF30pF)
QU1000
(CU30pF)
Appearance
D.F.
Q
I.R.
3000MΩ min.
Dielectric
Strength
Per Item 6
Appearance
No marked defect
Capacitance
Change
Char.
B
E, F
SL
Capacitance Change
Within ±10%
Within ±15%
Within ± 5%
Char.
B, E
F
Specifications
D.F.V5.0%
D.F.V7.5%
QU275+5/2C*1(CF30pF)
QU350
(CU30pF)
D.F.
Q
SL
I.R.
3000MΩ min.
Dielectric
Strength
Per Item 6
Test Method
As shown in the figure, the lead
Thermal
,,Capacitor
wires should be immersed in
,,
solder of 350±10°C or 260±5°C up Screen
,,,,,,,,,, ,
,
,,,,,,,,,,
,,,,,,
, 1.5
to 1.5 to 2.0mm from the root of
,,,,
,
, to 2.0mm
terminal for 3.5±0.5 sec. (10±1
,Molten
,,
sec. for 260±5°C).
Solder
Pre-treatment:
Capacitor should be stored at 85±2°C for 1 hr., then placed at
room condition*2 for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*2
The capacitor should be firmly soldered to the supporting lead
wire and vibrated at a frequency range of 10 to 55Hz, 1.5mm in
total amplitude, with about a 1-minute rate of vibration change
from 10Hz to 55Hz and back to 10Hz.
Apply for a total of 6 hrs., 2 hrs. each in 3 mutually
perpendicular directions.
Set the capacitor for 500±12 hrs. at 40±2°C in 90 to 95%
relative humidity.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*2
Apply the rated voltage for 500±12 hrs. at 40±2°C in 90 to 95%
relative humidity.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*2
*1 "C" expresses nominal capacitance value (pF).
*2 "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
Continued on the following page.
14
C85E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Jul.13,2011
Safety Standard Certified Type KY/KH/KX
Specifications
and Test
Type KY/KH/KX
Specifications
andMethods
Test Methods
Continued from the preceding page.
No.
Item
Specifications
Appearance
No marked defect
Capacitance
Change
Within ±20%
I.R.
3000MΩ min.
Test Method
Impulse Voltage
Each individual capacitor should be subjected to a 5kV (Type
KX: 8kV) impulses for three times. Then the capacitors are
applied to life test.
100 (%)
90
Front time (T1) =1.2µs=1.67T
Time to half-value (T2) =50µs
50
30
0
t
T
T1
14 Life
4
T2
Dielectric
Strength
Apply a voltage from Table 4 for 1000 hrs. at 125+2/-0°C, and
relative humidity of 50% max.
Per Item 6
<Table 4>
Applied Voltage
AC425V(r.m.s.), except that once each hour the voltage
is increased to AC1000V(r.m.s.) for 0.1 sec.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*2
The capacitor should be subjected to applied flame for 15 sec.
and then removed for 15 sec. until 5 cycles are completed.
The capacitor flame extinguishes as follows.
Cycle
1 to 4
5
Capacitor
Flame
76
Time (sec.)
30 max.
60 max.
7
12
38
20°
15 Flame Test
Gas Burner: Inside Dia. 9.5
Tensile
Robustness
16 of
Terminations
Lead wire should not be cut off. Capacitor should
not be broken.
As shown in the figure at right, fix the body
of the capacitor and apply a tensile weight
gradually to each lead wire in the radial
direction of the capacitor up to 10N and keep
it for 10±1 sec.
(in mm)
W
Each lead wire should be subjected to 5N of weight and bent
90° at the point of egress, in one direction, then returned to its
original position and bent 90° in the opposite direction at the
rate of one bend in 2 to 3 sec.
Bending
The capacitor should be individually wrapped in at least one but
not more than two complete layers of cheesecloth. The
capacitor should be subjected to 20 discharges. The interval
between successive discharges should be 5 sec. The UAC
should be maintained for 2 min. after the last discharge.
F
S1
Tr
S2
C1
UAC
L1
C2
L3
R
L2
C3
Cx
Ct
Ut
L4
Oscilloscope
17 Active Flammability
The cheesecloth should not be on fire.
C1,2
L1 to 4
Ct
Cx
F
: 1µF±10%
C3
: 0.033µF±5% 10kV
: 1.5mH±20% 16A Rod core choke
: 3µF±5% 10kV
R
: 100Ω±2%
: Capacitor under test
UAC
: UR±5%
: Rated Voltage
: Fuse, Rated 10A
UR
: Voltage applied to Ct
Ut
Ux
5kV
time
*2 "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
Continued on the following page.
15
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Standard
Certifiedand
Type
KY/KH/KX
Type KY/KH/KX
Specifications
Test
MethodsSpecifications and Test Methods
Continued from the preceding page.
Item
The burning time should not exceed 30 sec.
The tissue paper should not ignite.
Test Method
The capacitor under test should be held in the flame in the
position that best promotes burning. Each specimen should
only be exposed once to the flame. Time of exposure to flame:
30 sec.
Length of flame : 12±1mm
Gas burner
: Length 35mm min.
Inside Dia. 0.5±0.1mm
Outside Dia. 0.9mm max.
Gas
: Butane gas Purity 95% min.
Test Specimen
About 8mm
18 Passive Flammability
Specifications
4
45°
200T5mm
No.
Tissue
About 10mm Thick Board
No marked defect
Capacitance
Change
Char.
B
E, F
SL
Capacitance Change
Within ±10%
Within ±20%
Within ± 5%
Char.
B, E
F
Specifications
D.F.V5.0%
D.F.V7.5%
QU275+5/2C*1(CF30pF)
QU350
(CU30pF)
D.F.
Q
19
Temperature
and
Immersion
Cycle
The capacitor should be subjected to 5 temperature cycles,
then consecutively to 2 immersion cycles.
Appearance
SL
I.R.
Dielectric
Strength
3000MΩ min.
<Temperature Cycle>
Step
1
2
3
4
Temperature (ºC)
-25+0/-3
Room temp.
125+3/-0
Room temp.
<Immersion Cycle>
Step
Temperature (ºC)
Time
(min)
1
65+5/-0
15
2
0±3
15
Immersion
Water
Clean
water
Salt
water
Cycle time: 2 cycles
Per Item 6
Pre-treatment:
Capacitor should be stored at 85±2˚C for 1 hr., then placed at
room condition*2 for 24±2 hrs.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at room condition.*2
*1 "C" expresses nominal capacitance value (pF).
*2 "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
16
Time (min)
30
3
30
3
Cycle time: 5 cycles
C85E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Jul.13,2011
Safety Standard Certified Ceramic Capacitors
DEJ Series Based on the Electrical Appliance and Material Safety Law of Japan
■ Features
<Fig. 1>
<Fig. 2>
T max.
T max.
1. This type is based on the electrical appliance and
material safety law of Japan (separated table 4).
2. Coated with flame-retardant epoxy resin (conforming
to UL94V-0 standard).
Please contact us when a halogen-free product*
is necessary.
* Cl=900ppm max., Br=900ppm max. and
Cl+Br=1500ppm max.
3. Taping available for automatic insertion.
3.0 max.
D max.
25.0 min.
25.0 min.
e
F±1.0
ød
(in mm)
Lead Code Coating Extension e
[Bulk]
Vertical Crimp Long (A3)
Straight Long (C3)
A3
ød
Style
Up to the end of crimp 0.6±0.05
Fig. 1
0.6±0.05
Fig. 2
3.0 max.
C3
5
■ Applications
Do not use these products in any automotive
power train or safety equipment including battery
chargers for electric vehicles and plug-in hybrids.
Only Murata products clearly stipulated as
"for Automotive use" on its catalog can be used
for automobile applications such as power train and
safety equipment.
<Fig. 1>
<Fig. 2>
T max.
T max.
ød
5.0±1.0
e
5.0±1.0
D max.
3.0 max.
Ideal for use on AC line filters and primary-secondary
coupling for switching power supplies and AC adapters.
F±0.8
(in mm)
Lead Code Coating Extension e
[Bulk]
Vertical Crimp Short (B3)
Straight Short (D3)
B3
ød
Style
Up to the end of crimp 0.6±0.05
Fig. 1
0.6±0.05
Fig. 2
3.0 max.
D3
■ Marking
Nominal
Body Diameter
Temp. Char.
Part Number
AC Rated
Voltage
(Vac)
Temp.
Char.
Capacitance
(pF)
Body
Dia. D
(mm)
DEJE3E2102Zppp
250
E
1000 +80/-20%
7 max.
7.5
DEJE3E2222Zppp
250
E
2200 +80/-20%
8 max.
7.5
DEJE3E2332Zppp
250
E
3300 +80/-20%
9 max.
DEJE3E2472Zppp
250
E
4700 +80/-20% 11 max.
DEJF3E2472Zppp
250
F
4700 +80/-20%
DEJF3E2103Zppp
250
F
E, F
ø7-8mm
102Z
250~
16
ø9-11mm
332Z
250~
16
Nominal Capacitance
Marked with 3 figures
Capacitance Tolerance
Marked with code
Rated Voltage
Marked with code
Manufacturer's
Identification
Marked with
(omitted for nominal body diameter ø8mm and under)
Manufactured Date Code
Abbreviation
Lead
Body
Spacing F Thickness T
(mm)
(mm)
Lead
Package
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping (1)
Lead
Package
Taping (2)
4.0 max.
C3B
D3B
N2A
P3A
4.0 max.
A3B
B3B
N2A
N3A
7.5
4.0 max.
A3B
B3B
N2A
N3A
7.5
4.0 max.
A3B
B3B
N2A
N3A
8 max.
7.5
4.0 max.
A3B
B3B
N2A
N3A
10000 +80/-20% 11 max.
7.5
4.0 max.
A3B
B3B
N2A
N3A
Three blank columns are filled with the lead and packaging codes. Please refer to the 3 columns on the right for the appropriate code.
Taping (1): Lead spacing F=5.0mm, Taping (2): Lead spacing F=7.5mm.
17
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
DEJ Series Specifications
(Which Meet Japanese
Specifications and Test Methods
and TestLaw)
Methods
Operating Temperature Range: -25 to +85°C
No.
Item
1
Appearance and Dimensions
No visible defect, and dimensions are within
specified range.
The capacitor should be visually inspected for evidence of
defect.
Dimensions should be measured with slide calipers.
2
Marking
To be easily legible
The capacitor should be visually inspected.
3
Capacitance
Within specified tolerance
The capacitance should be measured at 20˚C with 1±0.1kHz
and AC5V(r.m.s.) max.
4
Dissipation Factor
(D.F.)
5
Insulation Resistance (I.R.)
5
6
Dielectric
Strength
Specifications
Char.
E
F
Specifications
D.F.V2.5%
D.F.V5.0%
Test Method
The dissipation factor should be measured at 20˚C with
1±0.1kHz and AC5V(r.m.s.) max.
The insulation resistance should be measured with
DC500±50V within 60±5 sec. of charging.
10000MΩ min.
Between Lead
No failure
Wires
The capacitor should not be damaged when AC1500V(r.m.s.)
are applied between the lead wires for 60 sec.
Body
Insulation
First, the terminals of the capacitor should be connected
together. Then, as shown in the figure at right,
the capacitor should be immersed
into 10% salt solution up to a position
About
of about 3 to 4mm apart from the
3 to 4mm
terminals.
Electrode
Finally, AC1500V(r.m.s.) is applied
Plate
for 60 sec. between the capacitor lead
10% Salt Solution
wires and electrode plate.
No failure
The capacitance measurement should be made at each step
specified in Table 1.
<Table 1>
7
Temperature Characteristics
Char.
E
F
Appearance
No marked defect
I.R.
1000MΩ min.
Capacitance Change
Within +20
–55%
Within +30
–80%
Step
1
2
3
4
5
Temperature (ºC)
20±2
-25±2
20±2
85±2
20±2
As in Figure 1, discharge is made 50 times at 5 sec. intervals
from the capacitor (Cd) charged at DC voltage of specified.
R3
S
R1
Vs
Cd
8
Discharge
Test
Dielectric
Strength
Ct: Capacitor under test
S: High-voltage switch
R1: 1000Ω
Cd
Vs
9
Solderability of Leads
R2
Fig.1
Per Item 6
Lead wire should be soldered with uniform coating
on the axial direction over 3/4 of the circumferential
direction.
Ct
R2: 100MΩ
R3: Surge resistance
0.001µF
DC10kV
The lead wire of a capacitor should be dipped into molten
solder for 2±0.5 sec.
The depth of immersion is up to about 1.5 to 2.0mm from the
root of lead wires.
Temp. of solder: Lead Free Solder (Sn-3Ag-0.5Cu) 245±5°C
H63 Eutectic Solder 235±5°C
Continued on the following page.
18
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
DEJ Series (Which Meet Japanese
Law) Specifications and Test Methods
DEJ Series
Continued from the preceding page.
No.
Item
Soldering
10 Effect
(Non-Preheat)
Soldering
11 Effect
(On-Preheat)
12
No marked defect
I.R.
1000MΩ min.
Dielectric
Strength
Per Item 6
Appearance
No marked defect
I.R.
1000MΩ min.
14
15
Solvent
Resistance
Humidity
(Under
Steady
State)
Humidity
Insulation
First the capacitor should be
,,Capacitor
Thermal
stored at 120+0/-5°C for
Screen
,,
,
,,
,
60+0/-5 sec.
,,,,,,,,,,
,,,,,,
, 1.5
,,,,,,,,,,
,,,,
,
Then, as in the figure, the lead
, to 2.0mm
,
,,Molten
wires should be immersed in
Solder
solder of 260+0/-5°C up to 1.5 to
2.0mm from the root of terminal
for 7.5+0/-1 sec.
Pre-treatment:
Capacitor should be stored at 85±2˚C for 1 hr., then placed at
room condition*1 for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 4 to 24 hrs. at
room condition.*1
Per Item 6
Appearance
No marked defect
Capacitance
Within the specified tolerance
Vibration
Resistance
Char.
E
F
Specifications
D.F.V2.5%
D.F.V5.0%
No marked defect
Appearance
No marked defect
Capacitance
Change
Char.
E
F
Capacitance Change
Within ±20%
Within ±30%
D.F.
Char.
E
F
Specifications
D.F.V5.0%
D.F.V7.5%
I.R.
1000MΩ min.
Dielectric
Strength
Per Item 6
Appearance
No marked defect
Capacitance
Change
Char.
E
F
Capacitance Change
Within ±20%
Within ±30%
D.F.
Char.
E
F
Specifications
D.F.V5.0%
D.F.V7.5%
1000MΩ min.
Dielectric
Strength
Per Item 6
The capacitor should be firmly soldered to the supporting lead
wire and vibrated at a frequency range of 10 to 55Hz, 1.5mm in
total amplitude, with about a 1-minute rate of vibration change
from 10Hz to 55Hz and back to 10Hz.
Apply for a total of 6 hrs., 2 hrs. each in 3 mutually perpendicular
directions.
The capacitor should be immersed into a isopropyl alcohol for
30±5 sec.
Appearance
I.R.
Test Method
As shown in the figure, the lead
Thermal
,,Capacitor
wires should be immersed in
Screen
,
,,
,,,,,,,,,, ,
solder of 350±10˚C up to 1.5 to
, 1.5
,,,,,,,,,,
,,,,,,
,,,,
, to 2.0mm
2.0mm from the root of terminal for
,
,Molten
3.5±0.5 sec.
,,
Solder
Pre-treatment:
Capacitor should be stored at 85±2˚C for 1 hr., then placed at
room condition*1 for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 4 to 24 hrs. at room
condition.*1
Dielectric
Strength
D.F.
13
Specifications
Appearance
Set the capacitor for 500±12 hrs. at 40±2˚C in 90 to 95%
relative humidity.
Pre-treatment:
Capacitor should be stored at 85±2˚C for 1 hr., then placed at
room condition*1 for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*1
The capacitor should be subjected to 40±2˚C, relative humidity
of 90 to 98% for 8 hrs., and then removed in room temperature
for 16 hrs. until 5 cycles are completed.
Pre-treatment:
Capacitor should be stored at 85±2˚C for 1 hr., then placed at
room condition*1 for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*1
*1 "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
Continued on the following page.
19
5
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
DEJ Series Specifications
(Which Meet Japanese
Specifications and Test Methods
and TestLaw)
Methods
Continued from the preceding page.
16
Item
Humidity
Loading
5
17 Life
Specifications
Appearance
No marked defect
Capacitance
Change
Char.
E
F
Capacitance Change
Within ±20%
Within ±30%
D.F.
Char.
E
F
Specifications
D.F.V5.0%
D.F.V7.5%
I.R.
1000MΩ min.
Dielectric
Strength
Per Item 6
Appearance
No marked defect
Capacitance
Change
Char.
E
F
I.R.
Dielectric
Strength
Apply the rated voltage for 500±12 hrs. at 40±2˚C in 90 to 95%
relative humidity.
Pre-treatment:
Capacitor should be stored at 85±2˚C for 1 hr., then placed at
room condition*1 for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*1
Apply a voltage from Table 2 for 1500 hrs. at 85±2˚C, relative
humidity 50% max.
Capacitance Change
Within ±20%
Within ±30%
1000MΩ min.
<Table 2>
Applied Voltage
AC500V(r.m.s.), except that once each hour the voltage
is increased to AC1000V(r.m.s.) for 0.1 sec.
Per Item 6
Pre-treatment:
Capacitor should be stored at 85±2˚C for 1 hr., then placed at
room condition*1 for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 4 to 24 hrs. at room condition.*1
The capacitor flame discontinued as follows.
The capacitor should be subjected
to applied flame for 15 sec. and then
removed for 15 sec. until 3 cycles
are completed.
Cycle
1 to 2
3
18 Flame Test
Test Method
Time (sec.)
15 max.
60 max.
7
Gas Burner: Inside Dia. 9.5
Lead wire should not be cut off. Capacitor should
not be broken.
W
The capacitor should be subjected to 5 temperature cycles,
then consecutively to 2 immersion cycles.
Appearance
No marked defect
Capacitance
Change
Char.
E
F
Capacitance Change
Within ±20%
Within ±30%
D.F.
Char.
E
F
Specifications
D.F.V5.0%
D.F.V7.5%
I.R.
(in mm)
Each lead wire should be subjected to 5N of weight and bent
90° at the point of egress, in one direction, then returned to its
original position and bent 90° in the opposite direction at the
rate of one bend in 2 to 3 sec.
Bending
Temperature
and
20
Immersion
Cycle
38
As shown in the figure at right, fix the body of the
capacitor, apply a tensile weight gradually to
each lead wire in the radial direction of the
capacitor up to 10N and keep it for 10±1 sec.
Tensile
Robustness
19 of
Terminations
Capacitor
Flame
76
12
20°
No.
<Temperature Cycle>
Step
1
2
3
4
Temperature (ºC)
-25+0/-3
Room temp.
85+3/-0
Room temp.
Time (min)
30
3
30
3
Cycle time: 5 cycles
1000MΩ min.
<Immersion Cycle>
Dielectric
Strength
Step
Temperature (ºC)
Time
(min)
1
65+5/-0
15
2
0±3
15
Per Item 6
Immersion
Water
Clean
water
Salt
water
Cycle time: 2 cycles
Pre-treatment:
Capacitor should be stored at 85±2˚C for 1 hr., then placed at
room condition*1 for 24±2 hrs.
Post-treatment:
Capacitor should be stored for 4 to 24 hrs. at room condition.*1
*1 "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
20
C85E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Jul.13,2011
Safety Certified Ceramic Capacitors Characteristics Data (Typical Example)
■ Capacitance - Temperature Characteristics
40
20
SL
Cap. Change (%)
0
B
B
SL
-20
-40
E
-60
F
E
-80
F
-100
-40
-20
0
20
40
60
80
100
120
140
5
Temperature (°C)
■ Insertion Loss - Frequency Characteristics
Type KY
Type KH
0
Signal power: 1mW
AC240V(r.m.s.) / 60Hz is
applied on the capacitor.
(1) DE2B3KY101KA2BM01
(2) DE2B3KY221KA2BM01
(3) DE2B3KY471KA2BM01
(4) DE2E3KY102MA2BM01
(5) DE2E3KY222MA2BM01
(6) DE2E3KY472MA2BM01
(7) DE2F3KY103MA3BM02
20
(1)
30
(3)
(5) (4)
(2)
(6)
40
Type KH
Signal power: 1mW
AC240V(r.m.s.) / 60Hz is
applied on the capacitor.
10
Insertion Loss (dB)
10
Insertion Loss (dB)
0
Type KY
(1)
30
(5)
(4)
(2)
(3)
(6)
40
(7)
(7)
50
50
1
10
100
1
1000
10
100
Type KX Small Size
Type KX
0
0
Type KX Small Size
Signal power: 1mW
AC240V(r.m.s.) / 60Hz is
applied on the capacitor.
(1) DE1B3KX101KA4BL01
(2) DE1B3KX221KA4BL01
(3) DE1B3KX471KA4BL01
(4) DE1E3KX102MA4BL01
(5) DE1E3KX222MA4BL01
(6) DE1E3KX472MA4BL01
20
(3)
(2)
(1)
(4)
Signal power: 1mW
AC240V(r.m.s.) / 60Hz is
applied on the capacitor.
(1) DE1B3KX101KA5B
(2) DE1B3KX221KA5B
(3) DE1B3KX471KA5B
(4) DE1E3KX102MA5BA01
(5) DE1E3KX222MA5BA01
(6) DE1E3KX472MA5BA01
20
(1)
(2)
30
(5)
40
Type KX
10
Insertion Loss (dB)
10
30
1000
Frequency (MHz)
Frequency (MHz)
Insertion Loss (dB)
(1) DE2B3KH101KA3B
(2) DE2B3KH221KA3B
(3) DE2B3KH471KA3B
(4) DE2E3KH102MA3B
(5) DE2E3KH222MA3B
(6) DE2E3KH472MA3B
(7) DE2F3KH103MA3B
20
(6)
(4)
(3)
(5)
(6)
40
50
1
10
100
Frequency (MHz)
1000
1
10
100
1000
Frequency (MHz)
21
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Safety Certified Ceramic Capacitors Characteristics Data (Typical Example)
■ Leakage Current Characteristics
Type KY (E,F char.)
Type KY (B char.)
AC voltage : 60Hz
Temperature : 25°C
AC voltage : 60Hz
Temperature : 25°C
6.0
5
Leakage current [mA(r.m.s.)]
Leakage current [mA(r.m.s.)]
1.0
0.8
0.6
1
BM0
KA2
Y471
3K
E2B
D
0.4
1K
2
3KY2
DE2B
0.2
01
A2BM
2BM01
5.0
DE2
Y1
F3K
3.0
M01
472MA2B
DE2E3KY
2.0
DE2E3KY222MA2BM01
DE2E3KY102MA2BM01
1.0
KA
DE2B3KY101
0.0
0.0
0
1000
2000
0
3000
1000
2000
3000
AC voltage [V(r.m.s.)]
AC voltage [V(r.m.s.)]
Type KH (B char.)
Type KH (E, F char.)
AC voltage : 60Hz
Temperature : 25°C
AC voltage : 60Hz
Temperature : 25°C
1.0
6.0
0.8
B
DE2
A3B
Leakage current [mA(r.m.s.)]
Leakage current [mA(r.m.s.)]
M02
A3B
03M
4.0
471K
3KH
0.6
3B
1KA
H22
B3K
DE2
0.4
B
101KA3
E2B3KH
0.2
D
A3B
03M
KH1
F3
DE2
5.0
4.0
3B
72MA
3KH4
DE2E
3.0
2.0
DE2E3KH222
1.0
MA3B
DE2E3KH102MA3B
0.0
0.0
0
1000
2000
3000
0
1000
AC voltage [V(r.m.s.)]
2000
3000
AC voltage [V(r.m.s.)]
Type KX Small Size (B char.)
Type KX Small Size (E char.)
AC voltage : 60Hz
Temperature : 25°C
AC voltage : 60Hz
Temperature : 25°C
1.0
4.0
0.8
71KA
3KX4
DE1B
0.6
01
4BL
1KA
X22
3K
E1B
D
0.4
0.2
L01
01KA4B
1B3KX1
Leakage current [mA(r.m.s.)]
Leakage current [mA(r.m.s.)]
01
A4BL
4BL01
72M
3KX4
DE1E
3.0
2.0
L01
222MA4B
DE1E3KX
1.0
DE1E3KX102MA4BL01
DE
0.0
0.0
0
1000
2000
AC voltage [V(r.m.s.)]
3000
4000
0
1000
2000
3000
4000
AC voltage [V(r.m.s.)]
Continued on the following page.
22
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Certified Ceramic Capacitors Characteristics Data (Typical Example)
Continued from the preceding page.
Type KX (B char.)
Type KX (E char.)
AC voltage : 60Hz
Temperature : 25°C
AC voltage : 60Hz
Temperature : 25°C
6.0
1.0
X
B3K
DE1
471K
A5B
Leakage current [mA(r.m.s.)]
Leakage current [mA(r.m.s.)]
1.2
0.8
0.6
A5B
221K
3KX
B
DE1
0.4
DE1B3K
0.2
X101KA
5B
0.0
5.0
01
5BA
2MA
47
3KX
E
DE1
4.0
3.0
5BA01
X222MA
DE1E3K
2.0
BA01
DE1E3KX102MA5
1.0
5
0.0
0
1000
2000
AC voltage [V(r.m.s.)]
3000
4000
0
1000
2000
3000
4000
AC voltage [V(r.m.s.)]
23
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Safety Certified Ceramic Capacitors Packaging
Taping Specifications
12.7mm pitch / lead spacing 5mm taping
Vertical crimp type
(Lead Code: N2)
∆S
P2
P
∆S
D
e
∆S
P2
P
25.4mm pitch / lead spacing 10.0mm taping
Vertical crimp type
(Lead Code: N4, N5)
∆h1
R
Item
∗
∗
∗
3.0 max.
4.0 max.
H0
Lead Code
N5
Lead Code
P3
W
W1
L
F
W0 W2
H0
ød
øD0
R
H0
Lead Code
N2, N3, N4, N7
∗
e
D
O ∆h2
T max.
Marked side
∆S
P
P0
t2
t1
øD0
N2
P
12.7±1.0
Pitch of sprocket hole
P0
12.7±0.3
15.0±0.3
12.7±0.3
Lead spacing
F
5.0 +0.8
–0.2
7.5±1.0
10.0±1.0
Length from hole center to component center
P2
6.35±1.3
7.5±1.5
—
Length from hole center to lead
P1
3.85±0.7
3.75±1.0
7.7±1.5
Body diameter
D
Deviation along tape, left or right
∆S
Carrier tape width
W
Position of sprocket hole
W1
Lead distance between reference
H0
N3
P3
N7
N5
Code
Pitch of component
N4
30.0±2.0
15.0±2.0
25.4±2.0
See the individual product specifications.
0±1.0
0±2.0
18.0±0.5
9.0±0.5
18.0 +2.0
–0
18.0 +2.0
–0
–
20.0 +1.5
–1.0
–
–
and bottom planes
H
Protrusion length
r
+0.5 to -1.0
Diameter of sprocket hole
øD0
4.0±0.1
Lead diameter
ød
0.6 +0.1
–0.05
0.6±0.05
Total tape thickness
t1
0.6±0.3
Total thickness, tape and lead wire
t2
1.5 max.
Body thickness
T
See the individual product specifications.
Portion to cut in case of defect
L
11.0 +0
–1.0
Hold down tape width
W0
11.5 min.
Hold down tape position
W2
Coating extension on lead
W
L
P0
P1
W1
e
ød
F
øD0
R
P0
P1
W
W0
L
W2
ød
F
H
W1
P1
∆S
D
W0 W2
H0
D
W
30mm pitch / lead spacing 7.5mm taping
Vertical crimp type
(Lead Code: N7)
e
P
W2
W0
L
W1
L
P2
øD0
R
P0
15mm pitch / lead spacing 7.5mm taping
Straight type
(Lead Code: P3)
5
ød
F
øD0
R
P0
P1
W
ød
F
W0 W2
H0
P1
H0
W1
D
P
e
P2
15mm pitch / lead spacing 7.5mm taping
Vertical crimp type
(Lead Code: N3)
e
Deviation across tape, front
∆h1
Deviation across tape, rear
∆h2
1.5±1.5
Up to the end of crimp
1.0 max.
3.0 max.
Up to the end of crimp
2.0 max.
(in mm)
Continued on the following page.
24
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Certified Ceramic Capacitors Packaging
Continued from the preceding page.
Packaging Styles
Bulk
Taping
Polyethylene Bag
Ammo Pack
5
■ Minimum Quantity (Order in Sets Only)
[Bulk]
(pcs./Bag)
Body Dia. D
(mm)
Lead Code
Ap, Cp
Lead Code
Bp, Dp
Long
Short
7
250 *
500
Type KH
8 to 11
250
500
Type KX (Small Size)
12 to 14
200
250
15, 16
100
200
8, 9
250
500
10
100
250
12 to 15
100
200
Type KY
DEJ Series
Type KX
* Lead Spacing F=5.0mm (Code: A2): 500pcs.
[Taping]
Lead Code
(pcs./Ammo Pack)
N2
N3, P3
Type KY
1,000
900
–
Type KH
–
900
400
Type KX (Small Size)
–
–
500
Type KX
–
–
500
1,500
1,000
–
DEJ Series
N4, N5, N7
25
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Safety Certified Ceramic Capacitors !Caution
■ !Caution (Rating)
1. Operating Voltage
When DC-rated capacitors are to be used in AC or ripple
current circuits, be sure to maintain the Vp-p value of the
applied voltage or the Vo-p that contains DC bias within
the rated voltage range.
When the voltage is applied to the circuit, starting or
stopping may generate irregular voltage for a transit
period because of resonance or switching. Be sure to
use a capacitor with a rated voltage range that includes
these irregular voltages.
Voltage
DC Voltage
DC+AC Voltage
AC Voltage
Pulse Voltage (1)
Pulse Voltage (2)
5
Positional
Measurement
V0-p
V0-p
Vp-p
Vp-p
Vp-p
2. Operating Temperature and Self-generated Heat
(Apply to B/E/F Char.)
Keep the surface temperature of a capacitor below the
upper limit of its rated operating temperature range. Be
sure to take into account the heat generated by the
capacitor itself. When the capacitor is used in a highfrequency current, pulse current or similar current, it may
have self-generated heat due to dielectric loss. Applied
voltage load should be such that self-generated heat is
within 20°C under the condition where the capacitor is
subjected to an atmospheric temperature of 25°C. When
measuring, use a thermocouple of small thermal
capacity-K of ø0.1mm under conditions where the
capacitor is not affected by radiant heat from other
components or wind from surroundings. Excessive heat
may lead to deterioration of the capacitor's characteristics
and reliability. (Never attempt to perform measurement
with the cooling fan running. Otherwise, accurate
measurement cannot be ensured.)
3. Test Condition for Withstanding Voltage
(1) Test Equipment
Test equipment for AC withstanding voltage should be
used with the performance of the wave similar to
50/60Hz sine wave.
If the distorted sine wave or overload exceeding the
specified voltage value is applied, a defect may be
caused.
Continued on the following page.
26
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Certified Ceramic Capacitors !Caution
Continued from the preceding page.
(2) Voltage Applied Method
When the withstanding voltage is applied, the capacitor's
lead or terminal should be firmly connected to the output
of the withstanding voltage test equipment, and then the
voltage should be raised from near zero to the test
voltage.
If the test voltage without the raise from near zero voltage
would be applied directly to capacitor, test voltage should
be applied with the zero cross.* At the end of the test
time, the test voltage should be reduced to near zero,
and then capacitor's lead or terminal should be taken off
the output of the withstanding voltage test equipment.
If the test voltage without the raise from near zero voltage
would be applied directly to capacitor, the surge voltage
may rise, and therefore, a defect may be caused.
*ZERO CROSS is the point where voltage sine wave
passes 0V. See the figure at right.
5
Voltage sine wave
0V
zero cross
4. Fail-Safe
When the capacitor is broken, failure may result in a short
circuit. Be sure to provide an appropriate fail-safe
function like a fuse on your product if failure could result
in an electric shock, fire or fuming.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
27
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Safety Certified Ceramic Capacitors !Caution
■ !Caution (Storage and Operating Condition)
5
Operating and Storage Environment
The insulating coating of capacitors does not form a
perfect seal; therefore, do not use or store
capacitors in a corrosive atmosphere, especially
where chloride gas, sulfide gas, acid, alkali, salt
or the like are present. Also, avoid exposure to
moisture. Before cleaning, bonding, or molding this
product, verify that these processes do not affect
product quality by testing the performance of a
cleaned, bonded or molded product in the intended
equipment. Store the capacitors where the
temperature and relative humidity do not exceed -10
to 40 degrees centigrade and 15 to 85%.
Use capacitors within 6 months after delivery.
Check the solderability after 6 months or more.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
■ !Caution (Soldering and Mounting)
1. Vibration and Impact
Do not expose a capacitor or its lead wires to
excessive shock or vibration during use.
Excessive shock or vibration may cause fatigue
destruction of lead wires mounted on the circuit
board.
Please take measures to hold a capacitor on the
circuit boards by adhesive, molding resin or another
coating.
Please confirm there is no influence of holding
measures on the product with the intended equipment.
2. Soldering
When soldering this product to a PCB/PWB, do not
exceed the solder heat resistance specifications of
the capacitor. Subjecting this product to excessive
heating could melt the internal junction solder and
may result in thermal shocks that can crack the
ceramic element.
Soldering the capacitor with a soldering iron should
be performed in the following conditions.
Temperature of iron-tip: 400 degrees C. max.
Soldering iron wattage: 50W max.
Soldering time: 3.5 sec. max.
3. Bonding, Resin Molding and Coating
For bonding, molding or coating this product, verify
that these processes do not affect the quality of the
capacitor by testing the performance of the bonded,
molded or coated product in the intended equipment.
When the amount of applications, dryness/hardening
conditions of adhesives and molding resins containing
organic solvents (ethyl acetate, methyl ethyl ketone,
toluene, etc). are unsuitable, the outer coating resin
of a capacitor is damaged by the organic solvents and
it may result, worst case, in a short circuit.
The variation in thickness of adhesive, molding resin
or coating may cause outer coating resin cracking
and/or ceramic element cracking of a capacitor in a
temperature cycling.
4. Treatment after Bonding, Resin Molding and Coating
When the outer coating is hot (over 100 degrees C.)
after soldering, it becomes soft and fragile.
Therefore, please be careful not to give it mechanical
stress.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
■ !Caution (Handling)
Vibration and Impact
Do not expose a capacitor or its lead wires to
excessive shock or vibration during use.
Excessive shock or vibration may cause fatigue
destruction of lead wires mounted on the circuit
board.
Please take measures to hold a capacitor on the
circuit boards by adhesive, molding resin or another
coating.
28
Please confirm there is no influence of holding
measures on the product with the intended equipment.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Certified Ceramic Capacitors Notice
■ Notice (Soldering and Mounting)
Cleaning (ultrasonic cleaning)
To perform ultrasonic cleaning, observe the following
conditions.
Rinse bath capacity: Output of 20 watts per liter or less.
Rinsing time: 5 min. maximum.
Do not vibrate the PCB/PWB directly.
Excessive ultrasonic cleaning may lead to fatigue
destruction of the lead wires.
■ Notice (Rating)
1. Capacitance Change of Capacitors
(1) For SL char.
Capacitance might change a little depending on a
surrounding temperature or an applied voltage.
Please contact us if you use a strict constant time
circuit.
(2) For B/E/F char.
Capacitors have an aging characteristic, whereby
the capacitor continually decreases its
capacitance slightly if the capacitor is left on
for a long time. Moreover, capacitance might
change greatly depending on the surrounding
temperature or an applied voltage. Therefore,
it is not likely to be suitable for use in a constant
time circuit.
Please contact us if you need detailed information.
2. Performance Check by Equipment
Before using a capacitor, check that there is no
problem in the equipment's performance and the
specifications.
Generally speaking, CLASS 2 (B/E/F char.) ceramic
capacitors have voltage dependence characteristics
and temperature dependence characteristics in
capacitance, so the capacitance value may change
depending on the operating condition in the
equipment. Therefore, be sure to confirm the
apparatus performance of receiving influence in
the capacitance value change of a capacitor,
such as leakage current and noise suppression
characteristic.
Moreover, check the surge-proof ability of a
capacitor in the equipment, if needed, because the
surge voltage may exceed specific value by the
inductance of the circuit.
5
29
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
High Voltage Ceramic Capacitors
DES Series (125°C Guaranteed/Low-dissipation Factor/DC500V-1kV)
D max.
25.0 min.
e
F±1.0
ød
(in mm)
Lead Code
Coating Extension e
ød
A2, A3
Up to the end of crimp
0.6±0.05
D max.
T max.
e
■ Applications
ød
Ideal for use on high-frequency pulse circuits such as
snubber circuits for switching power supplies.
3.0 max.
[Bulk]
Vertical Crimp Long (A2,A3)
1.0
3.5±0.5
6
1. Low dissipation factor series that can be used for
power supplies with an increased switching
frequency.
2. The allowable power in the 100 to 300kHz band is
improved to approximately one and a half times that
of the DEH series while remaining the same size.
3. Operating temperature range is guaranteed up to 125
degrees C.
4. Coated with flame-retardant epoxy resin
(equivalent to UL94V-0 standard).
Please contact us when a halogen-free product*
is necessary.
* Cl=900ppm max., Br=900ppm max. and
Cl+Br=1500ppm max.
5. Taping available for automatic insertion.
T max.
3.0 max.
■ Features
F±0.8
(in mm)
Do not use these products in any automotive
power train or safety equipment including battery
chargers for electric vehicles and plug-in hybrids.
Only Murata products clearly stipulated as
"for Automotive use" on its catalog can be used
for automobile applications such as power train and
safety equipment.
[Bulk]
Vertical Crimp Short (J2,J3)
Lead Code
Coating Extension e
ød
J2, J3
Up to the end of crimp
0.6±0.05
■ Marking
Rated Voltage
DC500V
DC1kV
ø6mm
SD
101
66
SD
101
1KV 66
ø7-9mm
SD
102K
66
SD
471K
1KV 66
ø10-17mm
SD
222K
66
SD
152K
1KV
66
Nominal Body Diameter
Series Code
Temperature Characteristic
Nominal Capacitance
Capacitance Tolerance
Rated Voltage
30
Abbreviation (S)
Marked with code
Marked with 3 figures
Marked with code (omitted for nominal body diameter ø6mm)
Marked with code (omitted for DC500V)
Manufacturer's Identification
Marked with
Manufactured Date Code
Abbreviation
(omitted for nominal body diameter ø9mm and under)
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
D Characteristics
Part Number
DC Rated
Voltage
(V)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Lead
Body Thickness T
Package
(mm)
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping
DESD32H101Kppp
500
100 ±10%
6
5.0
4.0
A2B
J2B
N2A
DESD32H151Kppp
500
150 ±10%
6
5.0
DESD32H221Kppp
500
220 ±10%
6
5.0
4.0
A2B
J2B
N2A
4.0
A2B
J2B
DESD32H331Kppp
500
330 ±10%
6
N2A
5.0
4.0
A2B
J2B
DESD32H471Kppp
500
470 ±10%
N2A
6
5.0
4.0
A2B
J2B
DESD32H681Kppp
500
N2A
680 ±10%
6
5.0
4.0
A2B
J2B
N2A
DESD32H102Kppp
DESD32H152Kppp
500
1000 ±10%
8
5.0
4.0
A2B
J2B
N2A
500
1500 ±10%
9
5.0
4.0
A2B
J2B
N2A
DESD32H222Kppp
500
2200 ±10%
10
5.0
4.0
A2B
J2B
N2A
DESD32H332Kppp
500
3300 ±10%
12
7.5
4.0
A3B
J3B
N3A
DESD32H472Kppp
500
4700 ±10%
14
7.5
4.0
A3B
J3B
N7A
DESD33A101Kppp
1000
100 ±10%
6
5.0
4.5
A2B
J2B
N2A
DESD33A151Kppp
1000
150 ±10%
6
5.0
4.5
A2B
J2B
N2A
DESD33A221Kppp
1000
220 ±10%
6
5.0
4.5
A2B
J2B
N2A
DESD33A331Kppp
1000
330 ±10%
6
5.0
4.5
A2B
J2B
N2A
DESD33A471Kppp
1000
470 ±10%
7
5.0
4.5
A2B
J2B
N2A
DESD33A681Kppp
1000
680 ±10%
8
5.0
4.5
A2B
J2B
N2A
DESD33A102Kppp
1000
1000 ±10%
9
5.0
4.5
A2B
J2B
N2A
DESD33A152Kppp
1000
1500 ±10%
10
5.0
4.5
A2B
J2B
N2A
DESD33A222Kppp
1000
2200 ±10%
12
7.5
4.5
A3B
J3B
N3A
DESD33A332Kppp
1000
3300 ±10%
14
7.5
4.5
A3B
J3B
N7A
DESD33A472Kppp
1000
4700 ±10%
17
7.5
4.5
A3B
J3B
N7A
6
Three blank columns are filled with the lead and packaging codes. Please refer to the three columns on the right for the appropriate code.
31
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
DESSeries
Series
Specifications
and Test Methods
DES
(125°C
Guaranteed / Low-dissipation
Factor / DC500V-1kV) Specifications and Test Methods
No.
Item
Test Method
1
Operating Temperature Range
2
Appearance and Dimensions
No visible defect, and dimensions are
within specified range.
3
Marking
To be easily legible
The capacitor should be visually inspected.
No failure
The capacitor should not be damaged when DC voltage of
200% of the rated voltage (DC1kV) or DC voltage of 250% of
the rated voltage (DC500V) is applied between the lead wires
for 1 to 5 sec.
(Charge/Discharge currentV50mA)
No failure
The capacitor is placed in the container with
metal balls of diameter 1mm so that each
lead wire, short circuited, is kept about 2mm
off the metal balls as shown in the figure at
right, and AC1250V(r.m.s.) <50/60Hz> is
applied for 1 to 5 sec. between capacitor
lead wires and metal balls.
(Charge/Discharge currentV50mA)
Between Lead
Wires
4
Dielectric
Strength
Body Insulation
6
Specifications
-25 to +125°C
The insulation resistance should be measured with
DC500±50V within 60±5 sec. of charging.
Capacitance
Within specified tolerance
The capacitance should be measured at 20°C with 1±0.2kHz
and AC5V(r.m.s.) max.
Dissipation Factor (D.F.)
0.3% max.
The dissipation factor should be measured at 20°C with
1±0.2kHz and AC5V(r.m.s.) max.
Within +20/-30%
(Temp. range: -25 to +125°C)
The capacitance measurement should be made at each step
specified in the Table.
Insulation
Resistance (I.R.)
6
7
Between Lead
Wires
Temperature Characteristics
Pre-treatment: Capacitor should be stored at 125±3°C for 1 hr., then placed at
room condition* for 24±2 hrs. before measurements.
2
3
4
5
1
Step
20±2
-25±3
20±2
125±2
20±2
Temp. (°C)
Pull
9
Lead wire should not be cut off.
Capacitor should not be broken.
Strength of Lead
11
12
Vibration
Resistance
Appearance
No marked defect
Capacitance
Within specified tolerance
D.F.
0.3% max.
Solderability of Leads
Soldering Effect
(Non-Preheat)
As shown in the figure at right, fix the body of
the capacitor and apply a tensile weight
gradually to each lead wire in the radial
direction of the capacitor up to 10N and keep
it for 10±1 sec.
W
Each lead wire should be subjected to 5N of weight and bent
90° at the point of egress, in one direction, then returned to its
original position and bent 90° in the opposite direction at the
rate of one bend in 2 to 3 sec.
Bending
10
About 2mm
Metal balls
10000MΩ min.
5
8
The capacitor should be visually inspected for evidence of
defect.
Dimensions should be measured with slide calipers.
Lead wire should be soldered with
uniform coating on the axial direction
over 3/4 of the circumferential direction.
Appearance
No marked defect
Capacitance
Change
Within ±10%
Dielectric Strength
(Between Lead
Wires)
Per item 4.
The capacitor should be firmly soldered to the supporting lead
wire and vibrated at a frequency range of 10 to 55Hz, 1.5mm in
total amplitude, with about a 1-minute rate of vibration change
from 10Hz to 55Hz and back to 10Hz. Apply for a total of 6 hrs.,
2 hrs. each in 3 mutually perpendicular directions.
The lead wire of a capacitor should be dipped into a ethanol
solution of 25wt% rosin and then into molten solder for 2±0.5
sec. In both cases the depth of dipping is up to about 1.5 to
2mm from the root of lead wires.
Temp. of solder: Lead Free Solder (Sn-3Ag-0.5Cu) 245±5°C
H63 Eutectic Solder 235±5°C
The lead wire should be immersed into the melted solder of
350±10°C up to about 1.5 to 2mm from the main body for
3.5±0.5 sec.
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at room condition.*
* "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
Continued on the following page.
32
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
DES
Series
Specifications
andand
Test
Methods
DES Series (125°C Guaranteed / Low-dissipation
Factor
/ DC500V-1kV)
Specifications
Test
Methods
Continued from the preceding page.
No.
13
14
15
16
17
Item
Soldering Effect
(On-Preheat)
Temperature
Cycle
Humidity (Under
Steady State)
Humidity
Loading
Life
Specifications
Appearance
No marked defect
Capacitance
Change
Within ±10%
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Appearance
No marked defect
Capacitance
Change
Within ±10%
D.F.
0.4% max.
I.R.
1000MΩ min.
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Appearance
No marked defect
Capacitance
Change
Within ±10%
D.F.
0.4% max.
I.R.
1000MΩ min.
Appearance
No marked defect
Capacitance
Change
Within ±10%
D.F.
0.6% max.
I.R.
1000MΩ min.
Appearance
No marked defect
Capacitance
Change
Within ±10%
D.F.
0.4% max.
I.R.
2000MΩ min.
Test Method
First the capacitor should be
, Capacitor
Thermal
stored at 120+0/-5°C for
Screen,
,
60+0/-5 sec.
,
,
,,,,,,,,,,
,,,,,,
, 1.5
Then, as in the figure, the lead
,,,,,,,,,,
,,,,
,
, to 2.0mm
,
wires should be immersed in
,,,Molten
solder of 260+0/-5°C up to 1.5 to
Solder
2.0mm from the root of terminal
for 7.5+0/-1 sec.
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at room condition.*
The capacitor should be subjected to 5 temperature cycles.
<Temperature Cycle>
Step
1
2
3
4
Temperature (°C) Time (min)
-25±3
30
Room Temp.
3
125±3
30
Room Temp.
3
Cycle time: 5 cycles
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at room condition.*
Set the capacitor for 500+24/-0 hrs. at 40±2°C in 90 to 95%
relative humidity.
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*
Apply the rated voltage for 500+24/-0 hrs. at 40±2°C in 90 to
95% relative humidity. (Charge/Discharge currentV50mA)
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*
Apply a DC voltage of 200% of the rated voltage (DC500V) or
DC voltage of 150% of the rated voltage (DC1kV) for 1000
+48/-0 hrs. at 125±2°C with a relative humidity of 50% max.
(Charge/Discharge currentV50mA)
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs.
* "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
33
6
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
High Voltage Ceramic Capacitors
DEH Series (125°C Guaranteed/Low-dissipation Factor/DC500V-3.15kV)
■ Features
1. Reduced heat dissipation permitted due to small
dielectric loss of the ceramic material.
2. Operating temperature range is guaranteed up to 125
degrees C.
3. Coated with flame-retardant epoxy resin
(equivalent to UL94V-0 standard).
Please contact us when a halogen-free product*
is necessary.
* Cl=900ppm max., Br=900ppm max. and
Cl+Br=1500ppm max.
4. Taping available for automatic insertion.
<Fig. 2>
T max.
T max.
25.0 min.
F±1.0
ød
(in mm)
Lead Code Coating Extension e
Fig. 1
0.6±0.05
Fig. 2
3.0 max.
<Fig. 1>
<Fig. 2>
T max.
T max.
ød
5.0±1.0
e
F±0.8
(in mm)
Lead Code Coating Extension e
[Bulk]
Vertical Crimp Short (Fig. 1)
Straight Short (Fig. 2)
0.6±0.05
Fig. 2
D3
3.0 max.
34
C
R
ø7-9mm
HR C
152K
66
HR R
102K
1KV 66
ø10-21mm
HR C
472K
66
HR R
272K
3KV
66
Capacitance Tolerance
Rated Voltage
DC1-3.15kV
HR
471
66
Nominal Capacitance
HR
Marked with code (omitted for nominal body diameter ø6mm)
Marked with 3 figures
Marked with code (omitted for nominal body diameter ø6mm)
DC500V
Omitted
DC1-3.15kV
Marked with code (for DC3.15kV, marked with 3KV)
Manufacturer's Identification
Marked with
Manufactured Date Code
Abbreviation
Style
Fig. 1
ø6mm
Temperature Characteristics
ød
B2, B3, B4 Up to the end of crimp 0.6±0.05
DC500V
Temp. Char.
High Temperature Guaranteed Code
5.0±1.0
C3
■ Marking
Nominal
Body Diameter
Style
A2, A3, A4 Up to the end of crimp 0.6±0.05
D max.
Do not use these products in any automotive
power train or safety equipment including battery
chargers for electric vehicles and plug-in hybrids.
Only Murata products clearly stipulated as
"for Automotive use" on its catalog can be used
for automobile applications such as power train and
safety equipment.
ød
3.0 max.
[Bulk]
Vertical Crimp Long (Fig. 1)
Straight Long (Fig. 2)
Ideal for use on high-frequency pulse circuits such as
a horizontal resonance circuit for CTV and snubber
circuits for switching power supplies.
Rated Voltage
25.0 min.
e
■ Applications
7
<Fig. 1>
3.0 max.
D max.
(omitted for nominal body diameter ø9mm and under)
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
DC500V, C Characteristics
Part Number
DC Rated
Voltage
(V)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Lead
Body Thickness T
Package
(mm)
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping
DEHC32H331Kppp
500
330 ±10%
6
5.0
4.0
A2B
B2B
N2A
DEHC32H471Kppp
500
470 ±10%
6
5.0
DEHC32H681Kppp
500
680 ±10%
7
5.0
4.0
A2B
B2B
N2A
4.0
A2B
B2B
DEHC32H102Kppp
500
1000 ±10%
8
N2A
5.0
4.0
A2B
B2B
DEHC32H152Kppp
500
1500 ±10%
N2A
9
5.0
4.0
A2B
B2B
DEHC32H222Kppp
500
N2A
2200 ±10%
10
5.0
4.0
A2B
B2B
N2A
DEHC32H332Kppp
DEHC32H472Kppp
500
3300 ±10%
12
5.0
4.0
A2B
B2B
N2A
500
4700 ±10%
14
10.0
4.0
A4B
B4B
-
Lead
Package
Short Bulk
Lead
Package
Taping
Three blank columns are filled with the lead and packaging codes. Please refer to the three columns on the right for the appropriate code.
DC1-3.15kV, R Characteristics
Part Number
DC Rated
Voltage
(V)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Lead
Body Thickness T
Package
(mm)
Long Bulk
DEHR33A221Kppp
1000
220 ±10%
7
5.0
4.5
A2B
B2B
N2A
DEHR33A331Kppp
1000
330 ±10%
7
5.0
4.5
A2B
B2B
N2A
DEHR33A471Kppp
1000
470 ±10%
7
5.0
4.5
A2B
B2B
N2A
DEHR33A681Kppp
1000
680 ±10%
8
5.0
4.5
A2B
B2B
N2A
DEHR33A102Kppp
1000
1000 ±10%
9
5.0
4.5
A2B
B2B
N2A
DEHR33A152Kppp
1000
1500 ±10%
11
5.0
4.5
A2B
B2B
N2A
DEHR33A222Kppp
1000
2200 ±10%
13
7.5
4.5
A3B
B3B
N3A
DEHR33A332Kppp
1000
3300 ±10%
15
7.5
4.5
A3B
B3B
N7A
DEHR33A472Kppp
1000
4700 ±10%
17
7.5
4.5
A3B
B3B
N7A
DEHR33D221Kppp
2000
220 ±10%
7
7.5
5.0
C3B
D3B
P3A
DEHR33D271Kppp
2000
270 ±10%
7
7.5
5.0
C3B
D3B
P3A
DEHR33D331Kppp
2000
330 ±10%
8
7.5
5.0
A3B
B3B
N3A
DEHR33D391Kppp
2000
390 ±10%
8
7.5
5.0
A3B
B3B
N3A
DEHR33D471Kppp
2000
470 ±10%
9
7.5
5.0
A3B
B3B
N3A
DEHR33D561Kppp
2000
560 ±10%
9
7.5
5.0
A3B
B3B
N3A
DEHR33D681Kppp
2000
680 ±10%
10
7.5
5.0
A3B
B3B
N3A
DEHR33D821Kppp
2000
820 ±10%
11
7.5
5.0
A3B
B3B
N3A
DEHR33D102Kppp
2000
1000 ±10%
12
7.5
5.0
A3B
B3B
N3A
DEHR33D122Kppp
2000
1200 ±10%
12
7.5
5.0
A3B
B3B
N3A
DEHR33D152Kppp
2000
1500 ±10%
12
7.5
5.0
A3B
B3B
N3A
DEHR33D182Kppp
2000
1800 ±10%
14
7.5
5.0
A3B
B3B
N7A
DEHR33D222Kppp
2000
2200 ±10%
15
7.5
5.0
A3B
B3B
N7A
DEHR33D272Kppp
2000
2700 ±10%
17
7.5
5.0
A3B
B3B
N7A
DEHR33D332Kppp
2000
3300 ±10%
19
10.0
5.0
A4B
B4B
-
DEHR33D392Kppp
2000
3900 ±10%
20
10.0
5.0
A4B
B4B
-
DEHR33D472Kppp
2000
4700 ±10%
21
10.0
5.0
A4B
B4B
-
DEHR33F151Kppp
3150
150 ±10%
7
7.5
6.0
C3B
D3B
P3A
DEHR33F181Kppp
3150
180 ±10%
7
7.5
6.0
C3B
D3B
P3A
DEHR33F221Kppp
3150
220 ±10%
7
7.5
6.0
C3B
D3B
P3A
DEHR33F271Kppp
3150
270 ±10%
7
7.5
6.0
C3B
D3B
P3A
DEHR33F331Kppp
3150
330 ±10%
8
7.5
6.0
A3B
B3B
N3A
DEHR33F391Kppp
3150
390 ±10%
9
7.5
6.0
A3B
B3B
N3A
DEHR33F471Kppp
3150
470 ±10%
10
7.5
6.0
A3B
B3B
N3A
DEHR33F561Kppp
3150
560 ±10%
10
7.5
6.0
A3B
B3B
N3A
DEHR33F681Kppp
3150
680 ±10%
11
7.5
6.0
A3B
B3B
N3A
DEHR33F821Kppp
3150
820 ±10%
12
7.5
6.0
A3B
B3B
N3A
DEHR33F102Kppp
3150
1000 ±10%
13
7.5
6.0
A3B
B3B
N3A
DEHR33F122Kppp
3150
1200 ±10%
14
7.5
6.0
A3B
B3B
N7A
DEHR33F152Kppp
3150
1500 ±10%
15
7.5
6.0
A3B
B3B
N7A
7
Continued on the following page.
35
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Continued from the preceding page.
Part Number
DC Rated
Voltage
(V)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Lead
Body Thickness T
Package
(mm)
Long Bulk
DEHR33F182Kppp
3150
1800 ±10%
16
7.5
6.0
DEHR33F222Kppp
3150
2200 ±10%
17
7.5
6.0
DEHR33F272Kppp
3150
2700 ±10%
19
10.0
6.0
Lead
Package
Short Bulk
Lead
Package
Taping
A3B
B3B
N7A
A3B
B3B
N7A
A4B
B4B
-
Three blank columns are filled with the lead and packaging codes. Please refer to the three columns on the right for the appropriate code.
7
36
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
DEH Series (125°C Guaranteed / Low-dissipationDEH
FactorSeries
/ DC250V-3.15kV)
Specifications
and Test
Methods
Specifications
and Test
Methods
No.
Item
Specifications
Test Method
Operating Temperature Range
-25 to +125°C
2
Appearance and Dimensions
No visible defect, and dimensions are
within specified range.
The capacitor should be visually inspected for evidence of
defect. Dimensions should be measured with slide calipers.
3
Marking
To be easily legible
The capacitor should be visually inspected.
No failure
The capacitor should not be damaged when DC voltage of
200% of the rated voltage (DC1 to 3.15kV) or DC voltage of
250% of the rated voltage (DC500V) is applied between the
lead wires for 1 to 5 sec.
(Charge/Discharge currentV50mA)
No failure
The capacitor is placed in the container with
metal balls of diameter 1mm so that each
lead wire, short circuited, is kept about 2mm
off the metal balls as shown in the figure at
right, and AC1250V(r.m.s.) <50/60Hz> is
applied for 1 to 5 sec. between capacitor
lead wires and metal balls.
(Charge/Discharge currentV50mA)
1
Between Lead
Wires
Dielectric
Strength
4
Body Insulation
10000MΩ min.
The insulation resistance should be measured with
DC500±50V within 60±5 sec. of charging.
Capacitance
Within specified tolerance
The capacitance should be measured at 20°C with 1±0.2kHz
and AC5V(r.m.s.) max.
Dissipation Factor (D.F.)
Char. R: 0.2% max.
Char. C: 0.3% max.
The dissipation factor should be measured at 20°C with
1±0.2kHz and AC5V(r.m.s.) max.
5
Insulation
Resistance (I.R.)
6
7
Between Lead
Wires
T. C.
R
C
8
About 2mm
Metal balls
Temp. Char.
-25 to +85°C +85 to +125°C
Within ±15%
Within +15/-30%
Within ±20%
7
The capacitance measurement should be made at each step
specified in the Table.
Temperature Characteristics
Pre-treatment: Capacitor should be stored at 125±3°C for 1 hr., then placed at
room condition* for 24±2 hrs. before measurements.
Step
Temp. (°C)
1
20±2
Pull
9
Lead wire should not be cut off.
Capacitor should not be broken.
Strength of Lead
Vibration
Resistance
Appearance
No marked defect
Capacitance
Within specified tolerance
D.F.
Char. R: 0.2% max.
Char. C: 0.3% max.
11 Solderability of Leads
Soldering Effect
12
(Non-Preheat)
*1
3
20±2
4
125±2
5
20±2
As shown in the figure at right, fix the body of
the capacitor and apply a tensile weight
gradually to each lead wire in the radial
direction of the capacitor up to 10N (5N for
lead diameter 0.5mm), and keep it for 10±1
sec.
W
Each lead wire should be subjected to 5N (2.5N for lead
diameter 0.5mm) of weight and bent 90° at the point of egress,
in one direction, then returned to its original position and bent
90° in the opposite direction at the rate of one bend in 2 to 3
sec.
Bending
10
2
-25±3
Lead wire should be soldered with
uniform coating on the axial direction
over 3/4 of the circumferential direction.
Appearance
No marked defect
Capacitance
Change
Within ±10%
Dielectric Strength
(Between Lead
Wires)
Per item 4.
The capacitor should be firmly soldered to the supporting lead
wire and vibrated at a frequency range of 10 to 55Hz, 1.5mm in
total amplitude, with about a 1-minute rate of vibration change
from 10Hz to 55Hz and back to 10Hz. Apply for a total of 6 hrs.,
2 hrs. each in 3 mutually perpendicular directions.
The lead wire of a capacitor should be dipped into a ethanol
solution of 25wt% rosin and then into molten solder for 2±0.5
sec. In both cases the depth of dipping is up to about 1.5 to
2mm from the root of lead wires.
Temp. of solder: Lead Free Solder (Sn-3Ag-0.5Cu) 245±5°C
H63 Eutectic Solder 235±5°C
The lead wire should be immersed into the melted solder of
350±10°C up to about 1.5 to 2mm from the main body for
3.5±0.5 sec.
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at room condition.*
"Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
Continued on the following page.
37
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
DEH Series
(125°C
Guaranteed / Low-dissipation
Factor / DC250V-3.15kV) Specifications and Test Methods
DEH
Series
Specifications
and Test Methods
Continued from the preceding page.
No.
13
Item
Soldering Effect
(On-Preheat)
Temperature
14
Cycle
7
15
16
Humidity (Under
Steady State)
Humidity
Loading
Specifications
Appearance
No marked defect
Capacitance
Change
Within ±10%
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Appearance
No marked defect
Capacitance
Change
Within ±10%
D.F.
0.4% max.
I.R.
1000MΩ min.
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Appearance
No marked defect
Capacitance
Change
Within ±10%
D.F.
0.4% max.
I.R.
1000MΩ min.
Appearance
No marked defect
Capacitance
Change
Within ±10%
D.F.
0.6% max.
I.R.
1000MΩ min.
Appearance
No marked defect
Capacitance
Change
Within ±10%
D.F.
0.4% max.
I.R.
2000MΩ min.
17 Life
Test Method
First the capacitor should be
Thermal
,,Capacitor
stored at 120+0/-5°C for
Screen,,
,
60+0/-5 sec.
,,,,,,,,,, , 1.5
,,,,,,,,,,
,,,,,,,
,
Then, as in the figure, the lead
to 2.0mm
,
,,,,
,
wires should be immersed in
,Molten
,,
solder of 260+0/-5°C up to 1.5 to
Solder
2.0mm from the root of terminal
for 7.5+0/-1 sec.
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at room condition.*
The capacitor should be subjected to 5 temperature cycles.
<Temperature Cycle>
Step Temperature (°C) Time (min)
1
30
-25±3
2
3
Room Temp.
3
30
125±3
4
3
Room Temp.
Cycle time: 5 cycles
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at room condition.*
Set the capacitor for 500 +24/-0 hrs. at 40±2°C in 90 to 95%
relative humidity.
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*
Apply the rated voltage for 500+24/-0 hrs. at 40±2°C in 90 to
95% relative humidity. (Charge/Discharge currentV50mA)
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed at
room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*
Apply a DC voltage of 200% of the rated voltage (DC500V) or
DC voltage of 150% of the rated voltage (DC1 to 3.15kV) for
1000 +48/-0 hrs. at 125±2°C with a relative humidity of 50%
max.
(Charge/Discharge currentV50mA)
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs.
* "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
38
C85E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Jul.13,2011
High Voltage Ceramic Capacitors
DEA Series (125°C Guaranteed/Class 1/DC1k-3.15kV)
D max.
T max.
25.0 min.
e
25.0 min.
F±1.0
ød
(in mm)
Lead Code Coating Extension e
A2, A3
Style
Fig. 1
C1, CD
3.0 max.
0.5±0.05
Fig. 2
C3
3.0 max.
0.6±0.05
Fig. 2
D max.
■ Applications
1. Ideal for use as the ballast in backlighting
inverters for liquid crystal display.
2. Ideal for use on high-frequency pulse circuits such
as a horizontal resonance circuit for CTV and snubber
circuits for switching power supplies.
ød
Up to the end of crimp 0.6±0.05
<Fig. 1>
<Fig. 2>
T max.
T max.
ød
5.0±1.0
e
5.0±1.0
[Bulk]
Vertical Crimp Long (Fig. 1)
Straight Long (Fig. 2)
3.0 max.
1. Temperature compensating type ceramics realize lower
heat dissipation than DEH/DES series.
2. Operating temperature range is guaranteed up to 125
degrees C.
3. Coated with flame-retardant epoxy resin
(equivalent to UL94V-0 standard).
Please contact us when a halogen-free product*
is necessary.
* Cl=900ppm max., Br=900ppm max. and
Cl+Br=1500ppm max.
4. Taping available for automatic insertion.
<Fig. 2>
T max.
3.0 max.
■ Features
<Fig. 1>
F±0.8
(in mm)
Do not use these products in any automotive
power train or safety equipment including battery
chargers for electric vehicles and plug-in hybrids.
Only Murata products clearly stipulated as
"for Automotive use" on its catalog can be used
for automobile applications such as power train and
safety equipment.
Lead Code Coating Extension e
B2, B3
[Bulk]
Vertical Crimp Short (Fig. 1)
Straight Short (Fig. 2)
ød
8
Style
Up to the end of crimp 0.6±0.05
Fig. 1
D1, DD
3.0 max.
0.5±0.05
Fig. 2
D3
3.0 max.
0.6±0.05
Fig. 2
■ Marking
Temp. Char.
SL
Nominal Body Diameter
ø4.5-5mm
68
1KV
ø6mm
39
3KV
66
ø7-9mm
181J
2KV
66
ø10-16mm
391J
3KV
66
Nominal Capacitance
Capacitance Tolerance
Rated Voltage
Manufacturer's Identification
Manufactured Date Code
Under 100pF: Actual value, 100pF and over: Marked with 3 figures
Marked with code (omitted for nominal body diameter ø6mm and under)
Marked with code (for DC3.15kV, marked with 3KV)
Marked with
(omitted for nominal body diameter ø9mm and under)
Abbreviation (omitted for nominal body diameter ø5mm and under)
39
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
SL Characteristics
8
Part Number
DC Rated
Voltage
(V)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Lead
Body Thickness T
Package
(mm)
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping
DEA1X3A100Jppp
1000
10 ±5%
4.5
5.0
4.0
C1B
D1B
P2A
DEA1X3A120Jppp
1000
12 ±5%
4.5
5.0
DEA1X3A150Jppp
1000
15 ±5%
4.5
5.0
4.0
C1B
D1B
P2A
4.0
C1B
D1B
DEA1X3A180Jppp
1000
18 ±5%
4.5
P2A
5.0
4.0
C1B
D1B
DEA1X3A220Jppp
1000
22 ±5%
P2A
4.5
5.0
4.0
C1B
D1B
DEA1X3A270Jppp
1000
P2A
27 ±5%
4.5
5.0
4.0
C1B
D1B
P2A
DEA1X3A330Jppp
DEA1X3A390Jppp
1000
33 ±5%
4.5
5.0
4.0
C1B
D1B
P2A
1000
39 ±5%
4.5
5.0
4.0
C1B
D1B
P2A
DEA1X3A470Jppp
1000
47 ±5%
4.5
5.0
4.0
C1B
D1B
P2A
DEA1X3A560Jppp
1000
56 ±5%
5
5.0
4.0
C1B
D1B
P2A
DEA1X3A680Jppp
1000
68 ±5%
5
5.0
4.0
C1B
D1B
P2A
DEA1X3A820Jppp
1000
82 ±5%
6
5.0
4.0
A2B
B2B
N2A
DEA1X3A101Jppp
1000
100 ±5%
6
5.0
4.0
A2B
B2B
N2A
DEA1X3A121Jppp
1000
120 ±5%
6
5.0
4.0
A2B
B2B
N2A
DEA1X3A151Jppp
1000
150 ±5%
7
5.0
4.0
A2B
B2B
N2A
DEA1X3A181Jppp
1000
180 ±5%
7
5.0
4.0
A2B
B2B
N2A
DEA1X3A221Jppp
1000
220 ±5%
8
5.0
4.0
A2B
B2B
N2A
DEA1X3A271Jppp
1000
270 ±5%
9
5.0
4.0
A2B
B2B
N2A
DEA1X3A331Jppp
1000
330 ±5%
10
5.0
4.0
A2B
B2B
N2A
DEA1X3A391Jppp
1000
390 ±5%
10
5.0
4.0
A2B
B2B
N2A
DEA1X3A471Jppp
1000
470 ±5%
11
5.0
4.0
A2B
B2B
N2A
DEA1X3A561Jppp
1000
560 ±5%
12
7.5
4.0
A3B
B3B
N3A
DEA1X3D100Jppp
2000
10 ±5%
4.5
5.0
5.0
C1B
D1B
P2A
DEA1X3D120Jppp
2000
12 ±5%
4.5
5.0
5.0
C1B
D1B
P2A
DEA1X3D150Jppp
2000
15 ±5%
4.5
5.0
5.0
C1B
D1B
P2A
DEA1X3D180Jppp
2000
18 ±5%
4.5
5.0
5.0
C1B
D1B
P2A
DEA1X3D220Jppp
2000
22 ±5%
4.5
5.0
5.0
C1B
D1B
P2A
DEA1X3D270Jppp
2000
27 ±5%
4.5
5.0
5.0
C1B
D1B
P2A
DEA1X3D330Jppp
2000
33 ±5%
4.5
5.0
5.0
C1B
D1B
P2A
DEA1X3D390Jppp
2000
39 ±5%
5
5.0
5.0
C1B
D1B
P2A
DEA1X3D470Jppp
2000
47 ±5%
6
5.0
5.0
A2B
B2B
N2A
DEA1X3D560Jppp
2000
56 ±5%
6
5.0
5.0
A2B
B2B
N2A
DEA1X3D680Jppp
2000
68 ±5%
6
5.0
5.0
A2B
B2B
N2A
DEA1X3D820Jppp
2000
82 ±5%
7
5.0
5.0
A2B
B2B
N2A
DEA1X3D101Jppp
2000
100 ±5%
7
5.0
5.0
A2B
B2B
N2A
DEA1X3D121Jppp
2000
120 ±5%
8
5.0
5.0
A2B
B2B
N2A
DEA1X3D151Jppp
2000
150 ±5%
8
5.0
5.0
A2B
B2B
N2A
DEA1X3D181Jppp
2000
180 ±5%
9
5.0
5.0
A2B
B2B
N2A
DEA1X3D221Jppp
2000
220 ±5%
10
5.0
5.0
A2B
B2B
N2A
DEA1X3D271Jppp
2000
270 ±5%
11
5.0
5.0
A2B
B2B
N2A
DEA1X3D331Jppp
2000
330 ±5%
12
7.5
5.0
A3B
B3B
N3A
DEA1X3D391Jppp
2000
390 ±5%
13
7.5
5.0
A3B
B3B
N3A
DEA1X3D471Jppp
2000
470 ±5%
14
7.5
5.0
A3B
B3B
N7A
DEA1X3D561Jppp
2000
560 ±5%
15
7.5
5.0
A3B
B3B
N7A
DEA1X3F100Jppp
3150
10 ±5%
5
7.5
6.0
CDB
DDB
P3A
DEA1X3F120Jppp
3150
12 ±5%
5
7.5
6.0
CDB
DDB
P3A
DEA1X3F150Jppp
3150
15 ±5%
5
7.5
6.0
CDB
DDB
P3A
DEA1X3F180Jppp
3150
18 ±5%
5
7.5
6.0
CDB
DDB
P3A
DEA1X3F220Jppp
3150
22 ±5%
5
7.5
6.0
CDB
DDB
P3A
DEA1X3F270Jppp
3150
27 ±5%
6
7.5
6.0
C3B
D3B
P3A
DEA1X3F330Jppp
3150
33 ±5%
6
7.5
6.0
C3B
D3B
P3A
DEA1X3F390Jppp
3150
39 ±5%
6
7.5
6.0
C3B
D3B
P3A
DEA1X3F470Jppp
3150
47 ±5%
7
7.5
6.0
C3B
D3B
P3A
DEA1X3F560Jppp
3150
56 ±5%
7
7.5
6.0
C3B
D3B
P3A
Continued on the following page.
40
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Continued from the preceding page.
Part Number
DC Rated
Voltage
(V)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Lead
Body Thickness T
Package
(mm)
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping
DEA1X3F680Jppp
3150
68 ±5%
8
7.5
6.0
DEA1X3F820Jppp
3150
82 ±5%
8
7.5
6.0
A3B
B3B
N3A
A3B
B3B
DEA1X3F101Jppp
3150
100 ±5%
9
7.5
N3A
6.0
A3B
B3B
DEA1X3F121Jppp
3150
120 ±5%
10
N3A
7.5
6.0
A3B
B3B
N3A
DEA1X3F151Jppp
3150
150 ±5%
DEA1X3F181Jppp
3150
180 ±5%
11
7.5
6.0
A3B
B3B
N3A
11
7.5
6.0
A3B
B3B
DEA1X3F221Jppp
3150
N3A
220 ±5%
12
7.5
6.0
A3B
B3B
DEA1X3F271Jppp
N3A
3150
270 ±5%
14
7.5
6.0
A3B
B3B
N7A
DEA1X3F331Jppp
3150
330 ±5%
15
7.5
6.0
A3B
B3B
N7A
DEA1X3F391Jppp
3150
390 ±5%
16
7.5
6.0
A3B
B3B
N7A
Three blank columns are filled with the lead and packaging codes. Please refer to the three columns on the right for the appropriate code.
8
41
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
DEASeries
Series(125°C
Specifications
Test /Methods
DEA
Guaranteedand
/ Class1
DC1kV-3.15kV) Specifications and Test Methods
No.
Item
Specifications
Test Method
1
Operating Temperature Range
-25 to +125°C
2
Appearance and Dimensions
No visible defect, and dimensions are
within specified range.
The capacitor should be visually inspected for evidence of
defect. Dimensions should be measured with slide calipers.
3
Marking
To be easily legible
The capacitor should be visually inspected.
No failure
The capacitor should not be damaged when DC voltage of
200% of the rated voltage is applied between the lead wires for
1 to 5 sec. (Charge/Discharge currentV50mA)
No failure
The capacitor is placed in the container with
metal balls of diameter 1mm so that each
lead wire, short circuited, is kept about 2mm
off the metal balls as shown in the figure at
right, and AC1250V(r.m.s.) <50/60Hz> is
applied for 1 to 5 sec. between capacitor
lead wires and metal balls.
(Charge/Discharge currentV50mA)
Between Lead
Wires
4
Dielectric
Strength
Body Insulation
10000MΩ min.
The insulation resistance should be measured with
DC500±50V within 60±5 sec. of charging.
Capacitance
Within specified tolerance
The capacitance should be measured at 20°C with 1±0.2MHz
and AC5V(r.m.s.) max.
Q
400+20C*2min. (30pF under)
1000 min. (30pF min.)
The Q should be measured at 20°C with 1±0.2MHz and
AC5V(r.m.s.) max.
+350 to -1000ppm/°C
(Temp. range: +20 to +85°C)
The capacitance measurement should be made at each step
specified in the Table.
5
Insulation
Resistance (I.R.)
6
7
8
Between Lead
Wires
Temperature Characteristics
Step
Temp. (°C)
1
20±2
8
Pull
9
Lead wire should not be cut off.
Capacitor should not be broken.
Strength of Lead
11
12
Vibration
Resistance
Appearance
No marked defect
Capacitance
Within specified tolerance
Q
400+20C*2min. (30pF under)
1000 min. (30pF min.)
Solderability of Leads
Soldering Effect
(Non-Preheat)
2
-25±3
3
20±2
4
85±2
5
20±2
As shown in the figure at right, fix the body of
the capacitor and apply a tensile weight
gradually to each lead wire in the radial
direction of the capacitor up to 10N (5N for
lead diameter 0.5mm), and keep it for 10±1
sec.
W
Each lead wire should be subjected to 5N (2.5N for lead
diameter 0.5mm) of weight and bent 90° at the point of egress,
in one direction, then returned to its original position and bent
90° in the opposite direction at the rate of one bend in 2 to 3
sec.
Bending
10
About 2mm
Metal balls
Lead wire should be soldered with
uniform coating on the axial direction
over 3/4 of the circumferential direction.
Appearance
No marked defect
Capacitance
Change
Within ±2.5%
Dielectric Strength
(Between Lead
Wires)
Per item 4.
The capacitor should be firmly soldered to the supporting lead
wire and vibrated at a frequency range of 10 to 55Hz, 1.5mm in
total amplitude, with about a 1-minute rate of vibration change
from 10Hz to 55Hz and back to 10Hz. Apply for a total of 6 hrs.,
2 hrs. each in 3 mutually perpendicular directions.
The lead wire of a capacitor should be dipped into a ethanol
solution of 25wt% rosin and then into molten solder for 2±0.5
sec. In both cases the depth of dipping is up to about 1.5 to
2mm from the root of lead wires.
Temp. of solder: Lead Free Solder (Sn-3Ag-0.5Cu) 245±5°C
H63 Eutectic Solder 235±5°C
The lead wire should be immersed into the melted solder of
350±10°C (Body of ø5mm and under: 270±5°C) up to about 1.5
to 2mm from the main body for 3.5±0.5 sec.
(Body of ø5mm and under: 5±0.5 sec.)
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*1
*1 "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
*2 "C" expresses nominal capacitance value (pF).
Continued on the following page.
42
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Series Specifications
DEA Series (125°C Guaranteed / Class1 /DEA
DC1kV-3.15kV)
Specificationsand
andTest
Test Methods
Methods
Continued from the preceding page.
No.
13
14
15
16
17
Item
Soldering Effect
(On-Preheat)
Temperature
Cycle
Humidity (Under
Steady State)
Humidity
Loading
Specifications
Test Method
First the capacitor should be
, Capacitor
Thermal
stored at 120+0/-5°C for
Screen,
,
60+0/-5 sec.
,
,
,,,,,,,,,,
, 1.5
,,,,,,
Then, as in the figure, the lead
,,,,,,,,,,
,,,,
,
, to 2.0mm
wires should be immersed in
,
,,,Molten
solder of 260+0/-5°C up to 1.5 to
Solder
2.0mm from the root of terminal
for 7.5+0/-1 sec.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*1
Appearance
No marked defect
Capacitance
Change
Within ±2.5%
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Appearance
No marked defect
Capacitance
Change
Within ±5%
Q
275+5/2C*2min. (30pF under)
350 min. (30pF min.)
I.R.
1000MΩ min.
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Appearance
No marked defect
Capacitance
Change
Within ±5%
Set the capacitor for 500+24/-0 hrs. at 40±2°C in 90 to 95%
relative humidity.
Q
275+5/2C*2min. (30pF under)
350 min. (30pF min.)
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*1
I.R.
1000MΩ min.
Appearance
No marked defect
Capacitance
Change
Within ±5%
Q
275+5/2C*2min. (30pF under)
350 min. (30pF min.)
I.R.
1000MΩ min.
Appearance
No marked defect
Capacitance
Change
Within ±3%
Q
275+5/2C*2min. (30pF under)
350 min. (30pF min.)
I.R.
2000MΩ min.
Life
The capacitor should be subjected to 5 temperature cycles.
<Temperature Cycle>
Step
1
2
3
4
Temperature (°C) Time (min)
-25±3
30
Room Temp.
3
125±3
30
Room Temp.
3
Cycle time: 5 cycles
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*1
Apply the rated voltage for 500+24/-0 hrs. at 40±2°C in 90 to
95% relative humidity.
(Charge/Discharge currentV50mA)
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*1
Apply a DC voltage of 150% of the rated voltage for
1000+48/-0 hrs. at 125±2°C with a relative humidity of 50%
max. (Charge/Discharge currentV50mA)
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*1
* "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
*2 "C" expresses nominal capacitance value (pF).
1
43
8
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
High Voltage Ceramic Capacitors
DEB Series (Class 2/DC1k-3.15kV)
D max.
1. Small size and high capacitance
2. Coated with flame-retardant epoxy resin
(equivalent to UL94V-0 standard).
Please contact us when a halogen-free product*
is necessary.
* Cl=900ppm max., Br=900ppm max. and
Cl+Br=1500ppm max.
3. Taping available for automatic insertion.
<Fig. 2>
T max.
T max.
3.0 max.
■ Features
<Fig. 1>
25.0 min.
25.0 min.
e
F±1.0
ød
(in mm)
Lead Code Coating Extension e
[Bulk]
Vertical Crimp Long (Fig. 1)
Straight Long (Fig. 2)
■ Applications
A2, A3
ød
Style
Up to the end of crimp 0.6±0.05
Fig. 1
C1, CD
3.0 max.
0.5±0.05
Fig. 2
C3
3.0 max.
0.6±0.05
Fig. 2
Ideal for use on decoupling circuits for power supplies.
<Fig. 2>
T max.
T max.
ød
5.0±1.0
e
5.0±1.0
Do not use these products in any automotive
power train or safety equipment including battery
chargers for electric vehicles and plug-in hybrids.
Only Murata products clearly stipulated as
"for Automotive use" on its catalog can be used
for automobile applications such as power train and
safety equipment.
<Fig. 1>
3.0 max.
D max.
F±0.8
(in mm)
Lead Code Coating Extension e
B2, B3
[Bulk]
Vertical Crimp Short (Fig. 1)
Straight Short (Fig. 2)
ød
Fig. 1
D1, DD
3.0 max.
0.5±0.05
Fig. 2
D3
3.0 max.
0.6±0.05
Fig. 2
9
■ Marking
Temp. Char.
B
E
F
ø4.5-5mm
221
3KV
102
1KV
102
2KV
ø6mm
331
3KV
66
102
2KV
66
222
1KV
66
ø7-9mm
102K
3KV
66
102Z
3KV
66
472Z
2KV
66
ø10-16mm
B
332K
3KV
66
E
472Z
3KV
66
103Z
2KV
66
Nominal Body Diameter
Temperature Characteristics
Nominal Capacitance
Capacitance Tolerance
Rated Voltage
Manufacturer's Identification
Manufactured Date Code
44
Marked with code for char. B and E (omitted for nominal body diameter ø9mm and under)
Marked with 3 figures
Marked with code (omitted for nominal body diameter ø6mm and under)
Marked with code (for DC3.15kV, marked with 3KV)
Marked with
Style
Up to the end of crimp 0.6±0.05
(omitted for nominal body diameter ø9mm and under)
Abbreviation (omitted for nominal body diameter ø5mm and under)
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
B Characteristics
Part Number
DC Rated
Voltage
(V)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Lead
Body Thickness T
Package
(mm)
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping
DEBB33A101Kppp
1000
100 ±10%
4.5
5.0
4.0
C1B
D1B
P2A
DEBB33A151Kppp
1000
150 ±10%
4.5
5.0
DEBB33A221Kppp
1000
220 ±10%
4.5
5.0
4.0
C1B
D1B
P2A
4.0
C1B
D1B
DEBB33A331Kppp
1000
330 ±10%
4.5
P2A
5.0
4.0
C1B
D1B
DEBB33A471Kppp
1000
470 ±10%
P2A
5
5.0
4.0
C1B
D1B
DEBB33A681Kppp
1000
P2A
680 ±10%
6
5.0
4.0
A2B
B2B
N2A
DEBB33A102Kppp
DEBB33A152Kppp
1000
1000 ±10%
6
5.0
4.0
A2B
B2B
N2A
1000
1500 ±10%
8
5.0
4.0
A2B
B2B
N2A
DEBB33A222Kppp
1000
2200 ±10%
9
5.0
4.0
A2B
B2B
N2A
DEBB33A332Kppp
1000
3300 ±10%
10
5.0
4.0
A2B
B2B
N2A
DEBB33A472Kppp
1000
4700 ±10%
12
7.5
4.0
A3B
B3B
N3A
DEBB33A682Kppp
1000
6800 ±10%
15
7.5
4.0
A3B
B3B
N7A
DEBB33D101Kppp
2000
100 ±10%
4.5
5.0
5.0
C1B
D1B
P2A
DEBB33D151Kppp
2000
150 ±10%
4.5
5.0
5.0
C1B
D1B
P2A
DEBB33D221Kppp
2000
220 ±10%
4.5
5.0
5.0
C1B
D1B
P2A
DEBB33D331Kppp
2000
330 ±10%
5
5.0
5.0
C1B
D1B
P2A
DEBB33D471Kppp
2000
470 ±10%
6
5.0
5.0
A2B
B2B
N2A
DEBB33D681Kppp
2000
680 ±10%
7
5.0
5.0
A2B
B2B
N2A
DEBB33D102Kppp
2000
1000 ±10%
8
5.0
5.0
A2B
B2B
N2A
DEBB33D152Kppp
2000
1500 ±10%
9
5.0
5.0
A2B
B2B
N2A
DEBB33D222Kppp
2000
2200 ±10%
10
5.0
5.0
A2B
B2B
N2A
DEBB33D332Kppp
2000
3300 ±10%
12
7.5
5.0
A3B
B3B
N3A
DEBB33D472Kppp
2000
4700 ±10%
15
7.5
5.0
A3B
B3B
N7A
DEBB33F101Kppp
3150
100 ±10%
5
7.5
6.0
CDB
DDB
P3A
DEBB33F151Kppp
3150
150 ±10%
5
7.5
6.0
CDB
DDB
P3A
DEBB33F221Kppp
3150
220 ±10%
5
7.5
6.0
CDB
DDB
P3A
DEBB33F331Kppp
3150
330 ±10%
6
7.5
6.0
C3B
D3B
P3A
DEBB33F471Kppp
3150
470 ±10%
7
7.5
6.0
C3B
D3B
P3A
DEBB33F681Kppp
3150
680 ±10%
8
7.5
6.0
A3B
B3B
N3A
DEBB33F102Kppp
3150
1000 ±10%
9
7.5
6.0
A3B
B3B
N3A
DEBB33F152Kppp
3150
1500 ±10%
11
7.5
6.0
A3B
B3B
N3A
DEBB33F222Kppp
3150
2200 ±10%
13
7.5
6.0
A3B
B3B
N3A
DEBB33F332Kppp
3150
3300 ±10%
15
7.5
6.0
A3B
B3B
N7A
Lead
Package
Short Bulk
Lead
Package
Taping
9
Three blank columns are filled with the lead and packaging codes. Please refer to the three columns on the right for the appropriate code.
E Characteristics
Part Number
DC Rated
Voltage
(V)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Lead
Body Thickness T
Package
(mm)
Long Bulk
DEBE33A102Zppp
1000
1000 +80/-20%
5
5.0
4.0
C1B
D1B
P2A
DEBE33A222Zppp
1000
2200 +80/-20%
7
5.0
4.0
A2B
B2B
N2A
DEBE33A472Zppp
1000
4700 +80/-20%
9
5.0
4.0
A2B
B2B
N2A
DEBE33A103Zppp
1000
10000 +80/-20%
13
7.5
4.0
A3B
B3B
N3A
DEBE33D102Zppp
2000
1000 +80/-20%
6
5.0
5.0
A2B
B2B
N2A
DEBE33D222Zppp
2000
2200 +80/-20%
8
5.0
5.0
A2B
B2B
N2A
DEBE33D472Zppp
2000
4700 +80/-20%
11
5.0
5.0
A2B
B2B
N2A
DEBE33D103Zppp
2000
10000 +80/-20%
16
7.5
5.0
A3B
B3B
N7A
DEBE33F102Zppp
3150
1000 +80/-20%
7
7.5
6.0
C3B
D3B
P3A
DEBE33F222Zppp
3150
2200 +80/-20%
10
7.5
6.0
A3B
B3B
N3A
DEBE33F472Zppp
3150
4700 +80/-20%
13
7.5
6.0
A3B
B3B
N3A
Three blank columns are filled with the lead and packaging codes. Please refer to the three columns on the right for the appropriate code.
45
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
F Characteristics
Part Number
DC Rated
Voltage
(V)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Lead
Body Thickness T
Package
(mm)
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping
DEBF33A222Zppp
1000
2200 +80/-20%
6
5.0
4.0
A2B
B2B
N2A
DEBF33A472Zppp
1000
4700 +80/-20%
7
5.0
DEBF33A103Zppp
1000
10000 +80/-20%
10
5.0
4.0
A2B
B2B
N2A
4.0
A2B
B2B
DEBF33D102Zppp
2000
1000 +80/-20%
5
N2A
5.0
5.0
C1B
D1B
DEBF33D222Zppp
2000
2200 +80/-20%
P2A
7
5.0
5.0
A2B
B2B
N2A
DEBF33D472Zppp
2000
4700 +80/-20%
9
5.0
5.0
A2B
B2B
N2A
DEBF33D103Zppp
2000
10000 +80/-20%
12
7.5
5.0
A3B
B3B
N3A
Three blank columns are filled with the lead and packaging codes. Please refer to the three columns on the right for the appropriate code.
9
46
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Series Specifications
and Test Methods
DEB Series (Class2 / DC1kV-3.15kV) DEB
Specifications
and Test Methods
No.
Item
Specifications
Test Method
1
Operating Temperature Range
-25 to +85°C
2
Appearance and Dimensions
No visible defect, and dimensions are
within specified range.
3
Marking
To be easily legible
The capacitor should be visually inspected.
No failure
The capacitor should not be damaged when DC voltage of
200% of the rated voltage is applied between the lead wires for
1 to 5 sec. (Charge/Discharge currentV50mA)
No failure
The capacitor is placed in the container
with metal balls of diameter 1mm so that
each lead wire, short circuited, is kept
about 2mm off the metal balls as shown in
the figure at right, and DC voltage of 1.3kV
is applied for 1 to 5 sec. between capacitor
lead wires and metal balls.
(Charge/Discharge currentV50mA)
Between Lead
Wires
4
Dielectric
Strength
Body Insulation
The insulation resistance should be measured with
DC500±50V within 60±5 sec. of charging.
Capacitance
Within specified tolerance
The capacitance should be measured at 20°C with 1±0.2kHz
and AC5V(r.m.s.) max.
Dissipation Factor (D.F.)
Char. B, E: 2.5% max.
Char. F: 5.0% max.
The dissipation factor should be measured at 20°C with
1±0.2kHz and AC5V(r.m.s.) max.
Char. B: Within ±10%
Char. E: Within +20/-55%
Char. F: Within +30/-80%
The capacitance measurement should be made at each step
specified in the Table.
Insulation
Resistance (I.R.)
6
7
Between Lead
Wires
Temperature Characteristics
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr., then placed at
room condition* for 24±2 hrs. before measurements.
1
2
3
4
5
Step
20±2
-25±3
20±2
85±2
20±2
Temp. (°C)
Pull
9
Lead wire should not be cut off.
Capacitor should not be broken.
Strength of Lead
11
12
Vibration
Resistance
Appearance
No marked defect
Capacitance
Within specified tolerance
D.F.
Char. B, E: 2.5% max.
Char. F: 5.0% max.
Solderability of Leads
Soldering Effect
(Non-Preheat)
As shown in the figure at right, fix the body of
the capacitor and apply a tensile weight
gradually to each lead wire in the radial
direction of the capacitor up to 10N (5N for
lead diameter 0.5mm), and keep it for 10±1
sec.
9
W
Each lead wire should be subjected to 5N (2.5N for lead
diameter 0.5mm) of weight and bent 90° at the point of egress,
in one direction, then returned to its original position and bent
90° in the opposite direction at the rate of one bend in 2 to 3
sec.
Bending
10
About 2mm
Metal balls
10000MΩ min.
5
8
The capacitor should be visually inspected for evidence of
defect. Dimensions should be measured with slide calipers.
Lead wire should be soldered with
uniform coating on the axial direction
over 3/4 of the circumferential direction.
Appearance
No marked defect
Capacitance
Change
Char. B: Within ±5%
Char. E: Within ±15%
Char. F: Within ±20%
Dielectric Strength
(Between Lead
Wires)
Per item 4.
The capacitor should be firmly soldered to the supporting lead
wire and vibrated at a frequency range of 10 to 55Hz, 1.5mm in
total amplitude, with about a 1-minute rate of vibration change
from 10Hz to 55Hz and back to 10Hz. Apply for a total of 6 hrs.,
2 hrs. each in 3 mutually perpendicular directions.
The lead wire of a capacitor should be dipped into a ethanol
solution of 25wt% rosin and then into molten solder for 2±0.5
sec. In both cases the depth of dipping is up to about 1.5 to
2mm from the root of lead wires.
Temp. of solder: Lead Free Solder (Sn-3Ag-0.5Cu) 245±5°C
H63 Eutectic Solder 235±5°C
The lead wire should be immersed into the melted solder of
350±10°C (Body of ø5mm and under: 270±5°C) up to about 1.5
to 2mm from the main body for 3.5±0.5 sec.
(Body of ø5mm and under: 5±0.5 sec.)
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition* for 24±2 hrs.
before initial measurements.
Post-treatment: Capacitor should be stored for 4 to 24 hrs. at
room condition.*
* "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
Continued on the following page.
47
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Specifications
and Test Methods
DEB Series (Class2
/ DC1kV-3.15kV)
Specifications and Test Methods
Continued from the preceding page.
No.
13
14
9
15
16
17
Item
Specifications
Appearance
No marked defect
Capacitance
Change
Char. B: Within ±5%
Char. E: Within ±15%
Char. F: Within ±20%
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Appearance
No marked defect
Capacitance
Change
Char. B: Within ±10%
Char. E: Within ±20%
Char. F: Within ±30%
D.F.
Char. B, E: 4.0% max.
Char. F: 7.5% max.
I.R.
2000MΩ min.
Soldering Effect
(On-Preheat)
Temperature
and Immersion
Cycle
Humidity (Under
Steady State)
Humidity
Loading
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Appearance
No marked defect
Capacitance
Change
Char. B: Within ±10%
Char. E: Within ±20%
Char. F: Within ±30%
D.F.
Char. B, E: 5.0% max.
Char. F: 7.5% max.
I.R.
1000MΩ min.
Appearance
No marked defect
Capacitance
Change
Char. B: Within ±10%
Char. E: Within ±20%
Char. F: Within ±30%
D.F.
Char. B, E: 5.0% max.
Char. F: 7.5% max.
I.R.
500MΩ min.
Appearance
No marked defect
Capacitance
Change
Char. B: Within ±10%
Char. E: Within ±20%
Char. F: Within ±30%
D.F.
Char. B, E: 4.0% max.
Char. F: 7.5% max.
I.R.
2000MΩ min.
Life
Test Method
First the capacitor should be
, Capacitor
Thermal
stored at 120+0/-5°C for
Screen,
,
60+0/-5 sec.
,
,
,,,,,,,,,,
, 1.5
,,,,,,
Then, as in the figure, the lead
,,,,,,,,,,
,,,,
,
, to 2.0mm
,
wires should be immersed in
,,,Molten
solder of 260+0/-5°C up to 1.5 to
Solder
2.0mm from the root of terminal
for 7.5+0/-1 sec.
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition* for 24±2 hrs.
before initial measurements.
Post-treatment: Capacitor should be stored for 4 to 24 hrs. at
room condition.*
The capacitor should be subjected to 5 temperature cycles,
then consecutively to 2 immersion cycles.
<Temperature Cycle>
Step
1
2
3
4
<Immersion Cycle>
Step Temperature (°C) Time (min) Immersion Water
1
65+5/-0
15
Clean water
2
0±3
15
Salt water
Cycle time : 2 cycles
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition* for 24±2 hrs.
before initial measurements.
Post-treatment: Capacitor should be stored for 4 to 24 hrs. at
room condition.*
Set the capacitor for 500+24/-0 hrs. at 40±2°C in 90 to 95%
relative humidity.
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition* for 24±2 hrs.
before initial measurements.
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
room condition.*
Apply the rated voltage for 500+24/-0 hrs. at 40±2°C in 90 to
95% relative humidity. (Charge/Discharge currentV50mA)
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition* for 24±2 hrs.
before initial measurements.
Post-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition* for 24±2 hrs.
Apply a DC voltage of 150% of the rated voltage for
1000+48/-0 hrs. at 85±2°C with a relative humidity of 50% max.
(Charge/Discharge currentV50mA)
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition* for 24±2 hrs.
before initial measurements.
Post-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition* for 24±2 hrs.
* "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
48
Temperature (°C) Time (min)
-25±3
30
Room Temp.
3
85±3
30
Room Temp.
3
Cycle time: 5 cycles
C85E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Jul.13,2011
High Voltage Ceramic Capacitors
DEC Series (Class 1, 2/DC6.3kV)
■ Features
Coated with flame-retardant epoxy resin
(equivalent to UL94V-0 standard).
Please contact us when a halogen-free product*
is necessary.
* Cl=900ppm max., Br=900ppm max. and
Cl+Br=1500ppm max.
<Fig. 1>
<Fig. 2>
T max.
T max.
4.0 max.
D max.
25.0 min.
25.0 min.
e
F±1.0
ød
(in mm)
■ Applications
[Bulk]
Vertical Crimp Long (Fig. 1)
Straight Long (Fig. 2)
1. Ideal for use as the ballast in backlighting
inverters for liquid crystal displays (SL Char.).
2. Ideal for use on high voltage circuits such as
Cockcroft circuits (B Char.).
Lead Code Coating Extension e
A3
ød
Style
Up to the end of crimp 0.6±0.05
Fig. 1
0.6±0.05
Fig. 2
C4
3.0 max.
Do not use these products in any automotive
power train or safety equipment including battery
chargers for electric vehicles and plug-in hybrids.
Only Murata products clearly stipulated as
"for Automotive use" on its catalog can be used
for automobile applications such as power train and
safety equipment.
■ Marking
Temp. Char.
SL
Nominal Body Diameter
B
ø7mm
10J
6KV
ø8-9mm
47J
6KV
66
331K
6KV
66
ø10-15mm
151J
6KV
66
B
102K
6KV
66
E
10
Temperature Characteristics
Nominal Capacitance
Capacitance Tolerance
Rated Voltage
Manufacturer's Identification
Manufactured Date Code
222Z
6KV
66
Marked with code for char. B (omitted for nominal body diameter ø9mm and under)
Under 100pF: Actual value, 100pF and over: Marked with 3 figures
Marked with code
Marked with code (for DC6.3kV, marked with 6KV)
Marked with
(omitted for nominal body diameter ø9mm and under)
Abbreviation (omitted for nominal body diameter ø7mm)
49
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
SL Characteristics
DC Rated
Voltage
(V)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Body Thickness T
(mm)
DEC1X3J100JA3BMS1
6300
10 ±5%
7
7.5
7.0
DEC1X3J100JC4BMS1
6300
10 ±5%
7
10.0
7.0
DEC1X3J120JA3B
6300
12 ±5%
8
7.5
7.0
DEC1X3J120JC4B
6300
12 ±5%
8
10.0
7.0
DEC1X3J150JA3B
6300
15 ±5%
8
7.5
7.0
DEC1X3J150JC4B
6300
15 ±5%
8
10.0
7.0
DEC1X3J180JA3B
6300
18 ±5%
9
7.5
7.0
DEC1X3J180JC4B
6300
18 ±5%
9
10.0
7.0
DEC1X3J220JA3B
6300
22 ±5%
9
7.5
7.0
DEC1X3J220JC4B
6300
22 ±5%
9
10.0
7.0
DEC1X3J270JA3B
6300
27 ±5%
9
7.5
7.0
DEC1X3J270JC4B
6300
27 ±5%
9
10.0
7.0
DEC1X3J330JA3B
6300
33 ±5%
9
7.5
7.0
DEC1X3J330JC4B
6300
33 ±5%
9
10.0
7.0
DEC1X3J390JA3B
6300
39 ±5%
9
7.5
7.0
DEC1X3J390JC4B
6300
39 ±5%
9
10.0
7.0
DEC1X3J470JA3B
6300
47 ±5%
9
7.5
7.0
DEC1X3J470JC4B
6300
47 ±5%
9
10.0
7.0
DEC1X3J560JC4B
6300
56 ±5%
10
10.0
7.0
DEC1X3J680JC4B
6300
68 ±5%
12
10.0
7.0
DEC1X3J820JC4B
6300
82 ±5%
12
10.0
7.0
DEC1X3J101JC4B
6300
100 ±5%
13
10.0
7.0
DEC1X3J121JC4B
6300
120 ±5%
14
10.0
7.0
DEC1X3J151JC4B
6300
150 ±5%
15
10.0
7.0
DC Rated
Voltage
(V)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Body Thickness T
(mm)
DECB33J101KC4B
6300
100 ±10%
9
10.0
7.0
DECB33J151KC4B
6300
150 ±10%
9
10.0
7.0
DECB33J221KC4B
6300
220 ±10%
9
10.0
7.0
DECB33J331KC4B
6300
330 ±10%
9
10.0
7.0
DECB33J471KC4B
6300
470 ±10%
10
10.0
7.0
DECB33J681KC4B
6300
680 ±10%
11
10.0
7.0
DECB33J102KC4B
6300
1000 ±10%
13
10.0
7.0
DC Rated
Voltage
(V)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Body Thickness T
(mm)
DECE33J102ZC4B
6300
1000 +80/-20%
11
10.0
7.0
DECE33J222ZC4B
6300
2200 +80/-20%
15
10.0
7.0
Part Number
B Characteristics
Part Number
10
E Characteristics
Part Number
50
C85E.pdf
Jul.13,2011
C85E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Jul.13,2011
DEC Series and
Specifications
and Test Methods
DEC Series (Class1, 2 / DC6.3kV) Specifications
Test Methods
No.
Item
Specifications
Test Method
1
Operating Temperature Range
-25 to +85°C
2
Appearance and Dimensions
No visible defect, and dimensions are
within specified range.
3
Marking
To be easily legible
The capacitor should be visually inspected.
No failure
The capacitor should not be damaged when DC voltage of
200% of the rated voltage is applied between the lead wires for
1 to 5 sec. (Charge/Discharge currentV50mA)
No failure
The capacitor is placed in the container
with metal balls of diameter 1mm so that
each lead wire, short circuited, is kept
about 2mm off the metal balls as shown in
the figure at right, and DC voltage of 1.3kV
is applied for 1 to 5 sec. between capacitor
lead wires and metal balls.
(Charge/Discharge currentV50mA)
Between Lead
Wires
4
Dielectric
Strength
Body Insulation
About 2mm
Metal balls
10000MΩ min.
The insulation resistance should be measured with
DC500±50V within 60±5 sec. of charging.
Capacitance
Within specified tolerance
The capacitance should be measured at 20°C with 1±0.2kHz
(Char. SL: 1±0.2MHz) and AC5V(r.m.s.) max.
Q
Char. SL: 400+20C*2min. (30pF under)
1000 min. (30pF min.)
Dissipation Factor (D.F.)
Char. B, E: 2.5% max.
5
Insulation
Resistance (I.R.)
6
Between Lead
Wires
7
Char. SL: +350 to -1000ppm/°C
(Temp. range: +20 to +85°C)
Char. B: Within ±10%
Char. E: Within +20/-55%
8
The capacitor should be visually inspected for evidence of
defect. Dimensions should be measured with slide calipers.
The dissipation factor and Q should be measured at 20°C with
1±0.2kHz (Char. SL: 1±0.2MHz) and AC5V(r.m.s.) max.
The capacitance measurement should be made at each step
specified in the Table.
Temperature Characteristics
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr., then placed at
room condition*1 for 24±2 hrs. before measurements. (Char. B, E)
2
3
4
5
1
Step
20±2
-25±3
20±2
85±2
20±2
Temp. (°C)
Pull
9
Lead wire should not be cut off.
Capacitor should not be broken.
Strength of Lead
11
12
Vibration
Resistance
Appearance
No marked defect
Capacitance
Within specified tolerance
Q
Char. SL: 400+20C*2min. (30pF under)
1000 min. (30pF min.)
D.F.
Char. B, E: 2.5% max.
Solderability of Leads
Lead wire should be soldered with
uniform coating on the axial direction
over 3/4 of the circumferential direction.
Appearance
No marked defect
Capacitance
Change
Char. SL: Within ±2.5%
Char. B: Within ±5%
Char. E: Within ±15%
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Soldering Effect
(Non-Preheat)
W
10
Each lead wire should be subjected to 5N of weight and bent
90° at the point of egress, in one direction, then returned to its
original position and bent 90° in the opposite direction at the
rate of one bend in 2 to 3 sec.
Bending
10
As shown in the figure at right, fix the body of
the capacitor and apply a tensile weight
gradually to each lead wire in the radial
direction of the capacitor up to 10N and keep
it for 10±1 sec.
The capacitor should be firmly soldered to the supporting lead
wire and vibrated at a frequency range of 10 to 55Hz, 1.5mm in
total amplitude, with about a 1-minute rate of vibration change
from 10Hz to 55Hz and back to 10Hz. Apply for a total of 6 hrs.,
2 hrs. each in 3 mutually perpendicular directions.
The lead wire of a capacitor should be dipped into a ethanol
solution of 25wt% rosin and then into molten solder for 2±0.5
sec. In both cases the depth of dipping is up to about 1.5 to
2mm from the root of lead wires.
Temp. of solder: Lead Free Solder (Sn-3Ag-0.5Cu) 245±5°C
H63 Eutectic Solder 235±5°C
The lead wire should be immersed into the melted solder of
350±10°C up to about 1.5 to 2mm from the main body for
3.5±0.5 sec.
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition*1 for 24±2 hrs.
before initial measurements. (Char. B, E)
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
room condition.*1 (Char. SL)
Post-treatment: Capacitor should be stored for 4 to 24 hrs. at
room condition.*1 (Char. B, E)
*1 "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
*2 "C" expresses nominal capacitance value (pF).
Continued on the following page.
51
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Specifications
and Test
Methods
DEC Series (Class1,
2 / DC6.3kV)
Specifications
and Test Methods
Continued from the preceding page.
No.
13
14
10
15
16
17
Item
Specifications
Appearance
No marked defect
Capacitance
Change
Char. SL: Within ±2.5%
Char. B: Within ±5%
Char. E: Within ±15%
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Appearance
No marked defect
Capacitance
Change
Char. SL: Within ±3%
Char. B: Within ±10%
Char. E: Within ±20%
Q
Char. SL: 275+5/2C*2min. (30pF under)
350 min. (30pF min.)
D.F.
Char. B, E: 4.0% max.
I.R.
2000MΩ min.
Soldering Effect
(On-Preheat)
Temperature
and Immersion
Cycle
Humidity (Under
Steady State)
Humidity
Loading
Life
Test Method
First the capacitor should be
, Capacitor
Thermal
stored at 120+0/-5°C for
Screen,
,
60+0/-5 sec.
,
,
,,,,,,,,,,
, 1.5
,,,,,,
Then, as in the figure, the lead
,,,,,,,,,,
,,,,
,
, to 2.0mm
,
wires should be immersed in
,,,Molten
solder of 260+0/-5°C up to 1.5 to
Solder
2.0mm from the root of terminal
for 7.5+0/-1 sec.
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition*1 for 24±2 hrs.
before initial measurements. (Char. B, E)
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
room condition.*1 (Char. SL)
Post-treatment: Capacitor should be stored for 4 to 24 hrs. at
room condition.*1 (Char. B, E)
The capacitor should be subjected to 5 temperature cycles,
then consecutively to 2 immersion cycles.
<Temperature Cycle>
Step
1
2
3
4
<Immersion Cycle>
Step Temperature (°C) Time (min) Immersion Water
1
65+5/-0
15
Clean water
2
0±3
15
Salt water
Cycle time: 2 cycles
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Appearance
No marked defect
Capacitance
Change
Char. SL: Within ±5%
Char. B: Within ±10%
Char. E: Within ±20%
Q
Char. SL: 275+5/2C*2min. (30pF under)
350 min. (30pF min.)
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition*1 for 24±2 hrs.
before initial measurements. (Char. B, E)
Post-treatment: Capacitor should be stored for 4 to 24 hrs. at
room condition.*1
D.F.
Char. B, E: 5.0% max.
I.R.
1000MΩ min.
Appearance
No marked defect
Capacitance
Change
Char. SL: Within ±7.5%
Char. B: Within ±10%
Char. E: Within ±20%
Q
Char. SL:
100+10/3C*2min. (30pF under)
200 min. (30pF min.)
D.F.
Char. B, E: 5.0% max.
I.R.
500MΩ min.
Appearance
No marked defect
Capacitance
Change
Char. SL: Within ±3%
Char. B: Within ±10%
Char. E: Within ±20%
Q
Char. SL: 275+5/2C*2min. (30pF under)
350 min. (30pF min.)
D.F.
Char. B, E: 4.0% max.
I.R.
2000MΩ min.
Set the capacitor for 500+24/-0 hrs. at 40±2°C in 90 to 95%
relative humidity.
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition*1 for 24±2 hrs.
before initial measurements. (Char. B, E)
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
room condition.*1
Apply the rated voltage for 500+24/-0 hrs. at 40±2°C in 90 to
95% relative humidity. (Charge/Discharge currentV50mA.)
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition*1 for 24±2 hrs.
before initial measurements. (Char. B, E)
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
room condition.*1 (Char. SL)
Post-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition*1 for 24±2 hrs.
(Char. B, E)
Apply a DC voltage of 150% of the rated voltage for
1000+48/-0 hrs. at 85±2°C with a relative humidity of 50% max.
(Charge/Discharge currentV50mA.)
Pre-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition*1 for 24±2 hrs.
before initial measurements. (Char. B, E)
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
room condition.*1 (Char. SL)
Post-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at room condition*1 for 24±2 hrs.
(Char. B, E)
*1 "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
*2 "C" expresses nominal capacitance value (pF).
52
Temperature (°C) Time (min)
-25±3
30
Room Temp.
3
85±3
30
Room Temp.
3
Cycle time: 5 cycles
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
High Voltage Ceramic Capacitors
DEF Series (Only for LCD Backlight Inverter Circuit/6.3kVp-p)
D max.
1. Compact size: Diameter is 20% less than DEC series.
2. Low self-heating at high frequency and high voltage
due to low dielectric loss of the ceramic material.
3. Operating temperature range is guaranteed up to 105
degrees C.
4. Coated with flame-retardant epoxy resin
(equivalent to UL94V-0 standard).
Please contact us when a halogen-free product*
is necessary.
* Cl=900ppm max., Br=900ppm max. and
Cl+Br=1500ppm max.
5. Taping available for automatic insertion.
T max.
4.0 max.
■ Features
25.0 min.
e
F±1.0
ød
(in mm)
[Bulk]
Vertical Crimp Long (A3)
Lead Code
Coating Extension e
ød
A3
Up to the end of crimp
0.6±0.05
D max.
T max.
Ideal for use in LCD backlight inverters.
Do not use these products in any automotive
power train or safety equipment including battery
chargers for electric vehicles and plug-in hybrids.
Only Murata products clearly stipulated as
"for Automotive use" on its catalog can be used
for automobile applications such as power train and
safety equipment.
ød
1.0
3.5±0.5
e
4.0 max.
■ Applications
F±0.8
(in mm)
[Bulk]
Vertical Crimp Short (J3)
Lead Code
Coating Extension e
ød
J3
Up to the end of crimp
0.6±0.05
■ Marking
Temp. Char.
CH
SL
10J
6K~
66
33J
6K~
66
Upper horizontal line
–
Nominal Body Diameter
ø7-9mm
Temperature Characteristics
Nominal Capacitance
11
Actual value
Capacitance Tolerance
Marked with code
Rated Voltage
Marked with code (Marked with 6K~)
Manufactured Date Code
Abbreviation
SL Characteristics
Part Number
Rated
Voltage
(Vp-p)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Lead
Body Thickness T
Package
(mm)
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping
DEF1XLH100Jppp
6300
10 ±5%
7
7.5
6.0
DEF1XLH120Jppp
6300
12 ±5%
7
7.5
6.0
A3B
J3B
N3A
A3B
J3B
DEF1XLH150Jppp
6300
15 ±5%
7
7.5
N3A
6.0
A3B
J3B
DEF1XLH180Jppp
6300
18 ±5%
7
N3A
7.5
6.0
A3B
J3B
N3A
DEF1XLH220Jppp
6300
22 ±5%
DEF1XLH270Jppp
6300
27 ±5%
7
7.5
6.0
A3B
J3B
N3A
8
7.5
6.0
A3B
J3B
DEF1XLH330Jppp
6300
N3A
33 ±5%
9
7.5
6.0
A3B
J3B
DEF1XLH390Jppp
N3A
6300
39 ±5%
9
7.5
6.0
A3B
J3B
DEF1XLH470Jppp
N3A
6300
47 ±5%
9
7.5
6.0
A3B
J3B
N3A
Three blank columns are filled with the lead and packaging codes. Please refer to the three columns on the right for the appropriate code.
53
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
CH Characteristics
Part Number
Rated
Voltage
(Vp-p)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Lead
Body Thickness T
Package
(mm)
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping
DEF2CLH020Cppp
6300
2 ±0.25pF
7
7.5
6.0
A3B
J3B
N3A
DEF2CLH030Cppp
6300
3 ±0.25pF
7
7.5
DEF2CLH040Cppp
6300
4 ±0.25pF
7
7.5
6.0
A3B
J3B
N3A
6.0
A3B
J3B
DEF2CLH050Dppp
6300
5 ±0.5pF
7
N3A
7.5
6.0
A3B
J3B
DEF2CLH060Dppp
6300
6 ±0.5pF
N3A
7
7.5
6.0
A3B
J3B
DEF2CLH070Dppp
6300
N3A
7 ±0.5pF
8
7.5
6.0
A3B
J3B
N3A
DEF2CLH080Dppp
DEF2CLH090Dppp
6300
8 ±0.5pF
8
7.5
6.0
A3B
J3B
N3A
6300
9 ±0.5pF
8
7.5
6.0
A3B
J3B
DEF2CLH100Jppp
N3A
6300
10 ±5%
8
7.5
6.0
A3B
J3B
N3A
Three blank columns are filled with the lead and packaging codes. Please refer to the three columns on the right for the appropriate code.
11
54
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
DEF Series (Only for LCD Backlight InverterDEF
Circuit
/ 6.3kVp-p)
Specifications
TestMethods
Methods
Series
Specifications
andand
Test
No.
Item
Specifications
Test Method
Operating Temperature Range
-25 to +105°C
2
Appearance and Dimensions
No visible defect, and dimensions are
within specified range.
The capacitor should be visually inspected for evidence of
defect. Dimensions should be measured with slide calipers.
3
Marking
To be easily legible
The capacitor should be visually inspected.
No failure
The capacitor should not be damaged when DC12.6kV is
applied between the lead wires for 1 to 5 sec.
(Charge/Discharge currentV50mA)
No failure
The capacitor is placed in the container
with metal balls of diameter 1mm so that
each lead wire, short circuited, is kept
about 2.0mm off the metal balls as shown
in the figure at right, and DC voltage of
1.3kV is applied for 1 to 5 sec. between
capacitor lead wires and metal balls.
(Charge/Discharge currentV50mA)
1
Between Lead
Wires
4
Dielectric
Strength
Body Insulation
The insulation resistance should be measured with
DC500±50V within 60±5 sec. of charging.
Capacitance
Within specified tolerance
The capacitance should be measured at 20°C with 1±0.2MHz
and AC5V(r.m.s.) max.
Q
400+20C*2min. (30pF under)
1000 min. (30pF min.)
The Q should be measured at 20°C with 1±0.2MHz and
AC5V(r.m.s.) max.
Char. CH: 0±60ppm/°C
Char. SL: +350 to -1000ppm/°C
(Temp. range: +20 to +85°C)
The capacitance measurement should be made at each step
specified in the Table.
Insulation
Resistance (I.R.)
6
7
Between Lead
Wires
Temperature Characteristics
Step
Temp. (°C)
1
20±2
Pull
9
Lead wire should not be cut off.
Capacitor should not be broken.
Strength of Lead
Vibration
Resistance
Appearance
No marked defect
Capacitance
Within specified tolerance
Q
400+20C*2min. (30pF under)
1000 min. (30pF min.)
11 Solderability of Leads
12
Soldering Effect
(Non-Preheat)
2
-25±3
3
20±2
4
85±2
5
20±2
As shown in the figure at right, fix the body of
the capacitor and apply a tensile weight
gradually to each lead wire in the radial
direction of the capacitor up to 10N and keep
it for 10±1 sec.
W
Each lead wire should be subjected to 5N of weight and bent
90° at the point of egress, in one direction, then returned to its
original position and bent 90° in the opposite direction at the
rate of one bend in 2 to 3 sec.
Bending
10
Metal balls
10000MΩ min.
5
8
About
2.0mm
Lead wire should be soldered with
uniform coating on the axial direction
over 3/4 of the circumferential direction.
Appearance
No marked defect
Capacitance
Change
Within ±2.5%
Dielectric Strength
(Between Lead
Wires)
Per item 4.
The capacitor should be firmly soldered to the supporting lead
wire and vibrated at a frequency range of 10 to 55Hz, 1.5mm in
total amplitude, with about a 1-minute rate of vibration change
from 10Hz to 55Hz and back to 10Hz. Apply for a total of 6 hrs.,
2 hrs. each in 3 mutually perpendicular directions.
The lead wire of a capacitor should be dipped into a ethanol
solution of 25wt% rosin and then into molten solder for 2±0.5
sec. In both cases the depth of dipping is up to about 1.5 to
2.0mm from the root of lead wires.
Temp. of solder: Lead Free Solder (Sn-3Ag-0.5Cu) 245±5°C
H63 Eutectic Solder 235±5°C
The lead wire should be immersed into the melted solder of
350±10°C up to about 1.5 to 2.0mm from the main body for
3.5±0.5 sec.
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
room condition.*1
*1 "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
*2 "C" expresses nominal capacitance value (pF).
Continued on the following page.
55
11
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
DEF Series
(Only
for LCD Backlight
Circuit / 6.3kVp-p) Specifications and Test Methods
DEF
Series
Specifications
and Inverter
Test Methods
Continued from the preceding page.
No.
13
Item
Soldering Effect
(On-Preheat)
Temperature
14 and Immersion
Cycle
Specifications
Appearance
No marked defect
Capacitance
Change
Within ±2.5%
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Appearance
No marked defect
Capacitance
Change
Within ±3%
Q
200+10C*2min. (10pF under)
275+5/2C*2min. (10pF min. and 30pF under)
350 min. (30pF min.)
I.R.
2000MΩ min.
Test Method
First the capacitor should be
Thermal
,,Capacitor
stored at 120+0/-5°C for
Screen,,
,
60+0/-5 sec.
,,,,,,,,,, , 1.5
,,,,,,,,,,
,,,,,,
,
Then, as in the figure, the lead
,
,,,,
, to 2.0mm
wires should be immersed in
,Molten
,,
solder of 260+0/-5°C up to 1.5 to
Solder
2.0mm from the root of terminal
for 7.5+0/-1 sec.
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
room condition.*1
The capacitor should be subjected to 5 temperature cycles,
then consecutively to 2 immersion cycles.
<Temperature Cycle>
Step
1
2
3
4
Temperature (°C) Time (min)
-25±3
30
Room Temp.
3
105±3
30
Room Temp.
3
Cycle time: 5 cycles
<Immersion Cycle>
Dielectric Strength
(Between Lead
Wires)
Per item 4.
Step
1
2
Temperature (°C) Time (min) Immersion Water
65+5/-0
15
Clean water
0±3
15
Salt water
Cycle time: 2 cycles
Post-treatment: Capacitor should be stored for 4 to 24 hrs. at
room condition.*1
Appearance
No marked defect
Capacitance
Change
Within ±5%
Humidity (Under
15
Steady State)
Q
16 Life
11
Set the capacitor for 500 +24/-0 hrs. at 40±2°C in 90 to 95%
relative humidity.
200+10C* min. (10pF under)
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
2
275+5/2C* min. (10pF min. and 30pF under)
room condition.*1
350 min. (30pF min.)
2
I.R.
1000MΩ min.
Appearance
No marked defect
Capacitance
Change
Within ±3%
Q
200+10C*2min. (10pF under)
275+5/2C*2min. (10pF min. and 30pF under)
350 min. (30pF min.)
I.R.
2000MΩ min.
Apply 6.3kVp-p at the frequency in the Table for 1000+48/-0
hrs. at 105±2°C with a relative humidity of 50% max.
(Charge/Discharge currentV50mA.)
<Frequency>
Capacitance (pF)
to 10
12 to 22
27 to 47
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
room condition.*1
*1 "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
*2 "C" expresses nominal capacitance value (pF).
56
Frequency (kHz)
100
45
33
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
High Voltage Ceramic Capacitors Characteristics Data (Typical Example)
■ Capacitance - Temperature Characteristics
CH, SL, B, E, F char.
C, D, R char.
20
20
10
SL
CH
B
Cap. Change (%)
D
CH
SL
B
-10
10
-20
-30
-40
E
E
-50
C
R
Cap. Change (%)
0
0
-10
-60
-70
-80
F
-20
F
R
C
-90
-100
-40
-20
0
20
40
60
Temp. (°C)
80
100
120
-30
-40
-20
0
20
40
60
Temperature (°C)
80
100
D
120
140
■ Capacitance - DC Bias Characteristics
20
DESD33A471KA2B
DEA1X3D221JA2B
0
Cap. Change (%)
DEHR33D102KA3B
-20
-40
DEBB33D102KA2B
-60
DEBE33D222ZA2B
-80
-100
0
500
1000
DC Bias (V)
1500
2000
11
57
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
High Voltage Ceramic Capacitors Packaging
■ Taping Specifications
15.0mm pitch / lead spacing 7.5mm taping
Straight type
(Lead Code: P3)
∆S
e
L
W0
12.7mm pitch / lead spacing 5.0mm taping
Straight type
(Lead Code: P2)
∆S
P2
∆S
D
P
e
øD0
R
P0
∗
3.0 max.
P3
N3
H0
Lead Code
N3
Lead Code P2, P3
t1
H0
Except DEF Series
Code
W
∗
Lead Code
N2, N3, N7
øD0
Item
11
∗
W
e
L
F
∆h2
∗
W0 W2
H0
W1
P1
ød
O
∆h1
T max.
Marked
side
øD0
R
P0
∆S
D
P
ød
4.0 max.
R
12.7mm pitch / lead spacing 5.0mm taping
Vertical crimp type
(Lead Code: N2)
P2
F
L
L
P0
P1
W0 W2
H
W1
ød
F
W0 W2
H0
W1
W
P1
t2
D
e
P
øD0
R
P0
30.0mm pitch / lead spacing 7.5mm taping
Vertical crimp type
(Lead Code: N7)
P2
ød
F
øD0
R
P0
P1
W
W0
L
W2
ød
F
H
W1
P1
∆S
D
P
P2
H0
W1
W
D
W2
P
e
P2
15.0mm pitch / lead spacing 7.5mm taping
Vertical crimp type
(Lead Code: N3)
DEF Series
P2
N7
N2
Pitch of component
P
Pitch of sprocket hole
P0
15.0±0.3
12.7±0.3
Lead spacing
F
7.5±1.0
5.0+0.8
–0.2
Length from hole center to component center
P2
7.5±1.5
6.35±1.3
Length from hole center to lead
P1
3.75±1.0
3.85±0.7
Body diameter
D
See the individual product specifications.
Deviation along tape, left or right
∆S
Carrier tape width
W
Position of sprocket hole
W1
Lead distance between reference
and bottom planes
H
H0
15.0±2.0
12.7±1.0
30.0±2.0
0±2.0
0±1.0
18.0±0.5
9.0±0.5
20.0 +1.5
–1.0
—
20.0 +1.5
–1.0
—
—
18.0 +2.0
–0
—
18.0 +2.0
–0
r
+0.5 to -1.0
Diameter of sprocket hole
φD0
4.0±0.1
Lead diameter
φd
0.6±0.05
Total tape thickness
t1
0.6±0.3
Total thickness, tape and lead wire
t2
1.5 max.
Body thickness
T
See the individual product specifications.
Portion to cut in case of defect
L
Protrusion length
11.0
+0
–1.0
Hold down tape width
W0
Hold down tape position
W2
1.5±1.5
e
3.0 max. (Vertical crimp type: Up to the end of crimp)
Coating extension on lead
Deviation across tape, front
∆h1
Deviation across tape, rear
∆h2
11.5 min.
2.0 max.
1.0 max.
(in : mm)
Continued on the following page.
58
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
High Voltage Ceramic Capacitors Packaging
Continued from the preceding page.
■ Packaging Styles
Bulk
Taping
Polyethylene Bag
Ammo Pack
■ Minimum Quantity (Order in Sets Only)
[Bulk]
(pcs./Bag)
Body Dia. D
(mm)
Lead Code
Ap, Cp
Lead Code
Bp, Dp, Jp
Long
Short
500
500
4.5 to 6
DES Series
DEH Series
DEA Series
DEB Series
DEC Series
DEF Series
7
250
*1
500
8 to 11
250
500
12
200 *2
250 *3
13, 14
200
250
15 to 18
100
200
19 to 21
50
100
7 to 9
250
500
10, 11
100
–
12 to 15
100
–
*1 Lead Spacing F=5.0mm (Code: A2): 500pcs.
*2 Rated Voltage DC500V (Code: 2H): 250pcs.
*3 Rated Voltage DC500V (Code: 2H): 500pcs.
[Taping]
Lead Code
(pcs./Ammo Pack)
N2, P2
N3, P3
N7
DES Series
1,500
1,000
500
DEH Series
1,500
900 *4
500
DEA Series
1,500
900 *4
500
DEB Series
1,500
*4
500
DEF Series
–
900
900
11
–
*4 Rated Voltage DC1kV (Code: 3A): 1,000pcs.
59
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
High Voltage Ceramic Capacitors !Caution
■ !Caution (Rating)
<DES/DEH/DEA/DEB/DEC Series>
1. Operating Voltage
When DC-rated capacitors are to be used in AC or ripple
current circuits, be sure to maintain the Vp-p value of the
applied voltage or the Vo-p that contains DC bias within
the rated voltage range.
When the voltage is applied to the circuit, starting or
stopping may generate irregular voltage for a transit
period because of resonance or switching. Be sure to use
a capacitor with a rated voltage range that includes these
irregular voltages.
When using the low-dissipation DEA (SL Char.) /DEC (SL
Char.) /DEH (C, R Char.) /DES (D Char.) series in a highfrequency and high-voltage circuit, be sure to read the
instructions in item 4.
Voltage
Positional
Measurement
11
DC Voltage
V0-p
DC+AC Voltage
V0-p
When DC-rated capacitors are to be used in input circuits
from commercial power source (AC filter), be sure to use
Safety Certified Capacitors because various regulations
on withstand voltage or impulse withstand established for
each type of equipment should be taken into consideration.
AC Voltage
Vp-p
Pulse Voltage (1)
Vp-p
Pulse Voltage (2)
Vp-p
2. Operating Temperature and Self-generated Heat
Keep the surface temperature of a capacitor below the
upper limit of its rated operating temperature range. Be
sure to take into account the heat generated by the
capacitor itself. When the capacitor is used in a highfrequency current, pulse current or similar current, it may
self-generate heat due to dielectric loss. The frequency of
the applied sine wave voltage should be less than
300kHz. The applied voltage load (*) should be such that
the capacitor's self-generated heat is within 20°C in an
atmospheric temperature of 25°C. When measuring, use
a thermocouple of small thermal capacity-K of ø0.1mm in
conditions where the capacitor is not affected by radiant
heat from other components or surrounding ambient
fluctuations.
Excessive heat may lead to deterioration of the
capacitor's characteristics and reliability.
(Never attempt to perform measurement with the cooling
fan running. Otherwise, accurate measurement cannot
be ensured.)
*Before using the low-dissipation DEA/DEC (SL Char.)
/DEH/DES series, be sure to read the instructions in
item 4.
3. Fail-Safe
When the capacitor is broken, failure may result in a short
circuit. Be sure to provide an appropriate fail-safe
function like a fuse on your product if failure could follow
an electric shock, fire or fume.
Continued on the following page.
60
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
High Voltage Ceramic Capacitors !Caution
Continued from the preceding page.
<Table 1> Allowable Conditions at High frequency
DC
Temp.
Rated
Char.
Voltage
C
500V
1kV
DEH
R
2kV
3.15kV
DEA
SL
DEC
SL
DES
D
Applied
Self-heating Temp.
Voltage (Max.) (25°C Ambient Temp.) *1
500Vp-p
20°C Max.
800Vp-p
20°C Max.
1000Vp-p
5°C Max.
1400Vp-p
20°C Max.
2000Vp-p
5°C Max.
1600Vp-p
20°C Max.
3150Vp-p
1kV
1000Vp-p
2kV
2000Vp-p
3.15kV
3150Vp-p
6.3kV
6300Vp-p
500V
500Vp-p
1kV
800Vp-p
1000Vp-p
5°C Max.
Capacitor's
Ambient
Temp. *2
-25 to +85°C
FAILURE TO FOLLOW THE ABOVE CAUTIONS (ITEMS 1
TO 4) MAY RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION WHEN
THE PRODUCT IS USED.
<Fig. 1> Relationship Between Applied Voltage and
Self-heating Temperature (Allowable Self-heating
Temp. at 25°C Ambient Temp.)
DEH Series R Char. (Rated Voltage: DC1kV to 3.15kV)
5°C Max.
25
20
15
10
5
0
100
11
Rated Voltage: 1kV
2kV
3.15kV
1000
Applied Voltage (Vp-p)
10000
5°C Max.
DES Series D Char. (Rated Voltage: DC1kV)
15°C Max.
5°C Max.
*1 Fig. 1 shows the relationship between the applied voltage and the allowable selfheating temperature regarding 1 to 3.15kV rated voltage of the DEH series R
characteristic and 1kV rated voltage of the DES series D characteristic.
*2 When the ambient temperature is 85 to 125°C, the applied voltage needs to be
further reduced. If the DEA/DEH/DES series needs to be used at an ambient
temperature of 85 to 125°C, please contact our sales representatives or product
engineers.
*3 Fig. 3 shows reference data on the allowable voltage - frequency characteristics
for a sine wave voltage.
Allowable Self-heating Temp. (°C)
Series
Allowable Conditions
at High-frequency *3
We are offering free software, The Capacitor Selection
Tool: by Voltage Form, which will assist you in selecting a
suitable capacitor.
The software can be downloaded from Murata's Web site
(http://www.murata.com/products/design_support/mmcsv/
index.html).
By inputting capacitance values and applied voltage
waveform of the specific capacitor series, this software
will calculate the capacitor's power consumption and list
suitable capacitors.
When the result of this software is different from the
measurement result of the self-heating temperature on
your side, please contact our sales representatives or
product engineers.
Allowable Self-heating Temp. (°C)
4. Load Reduction and Self-generated Heat During
Application of High-frequency and High-voltage
Due to the low self-heating characteristics of lowdissipation capacitors, the allowable electric power of
these capacitors is generally much higher than that of B
characteristic capacitors. However, if the self-heating
temperature is 20°C under a high-frequency voltage
whose peak-to-peak value equals the capacitor's rated
voltage, the capacitor's power consumption may exceed
its allowable electric power.
Therefore, when using the DEA/DEC (SL Char.) /DEH
/DES series in a high-frequency and high-voltage circuit
with a frequency of 1kHz or higher, make sure that the
Vp-p values including the DC bias, do not exceed the
applied voltage value specified in Table 1. Also make
sure that the self-heating temperature (the difference
between the capacitor's surface temperature and the
capacitor's ambient temperature) at an ambient
temperature of 25°C does not exceed the value specified
in Table 1.
As shown in Fig. 2, the self-heating temperature
depends on the ambient temperature. Therefore, if you
are not able to set the ambient temperature to
approximately 25°C, please contact our sales
representatives or product engineers.
25
20
15
10
5
0
100
Rated Voltage: DC1kV
1000
Applied Voltage (Vp-p)
10000
Continued on the following page.
61
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
High Voltage Ceramic Capacitors !Caution
Continued from the preceding page.
<Fig. 2> Dependence of Self-heating Temperature on
Ambient Temperature
DEH Series C Char. and R Char. (Rated Voltage: DC1kV to 3.15kV)
DEA/DEC Series SL Char. (Rated Voltage: DC1kV to 6.3kV)
20
Self-heating Temperature (°C)
Self-heating Temperature (°C)
25
20
15
C Char. (500V)
R Char. (1 to 3.15kV)
10
5
0
15
10
5
SL Char. (1 to 6.3kV)
0
20 (25)
0
40
60
80
100
Ambient Temperature (°C)
0
20 (25)
40
60
80
100
Ambient Temperature (°C)
DES Series D Char.
(Rated Voltage: DC500V to 1kV)
Self-heating Temperature (°C)
25
20
15
D Char. (500V to 1kV)
10
5
0
0
20 (25)
40
60
80
100
Ambient Temperature (°C)
Continued on the following page.
11
62
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
High Voltage Ceramic Capacitors !Caution
Continued from the preceding page.
<Fig. 3> Allowable Voltage (Sine Wave Voltage) - Frequency Characteristics (At Ambient Temperature of 85°C or less)
Because of the influence of harmonics, when the applied
to the allowable voltage for a sine wave whose fundamental
voltage is a rectangular wave or pulse wave voltage (instead
frequency is twice as large as that of the rectangular wave or
of a sine wave voltage), the heat generated by the capacitor
pulse wave. This allowable voltage, however, varies
is higher than the value obtained by application of the sine
depending on the voltage and current waveforms.
wave with the same fundamental frequency.
Therefore, you are requested to make sure that the selfRoughly calculated for reference, the allowable voltage for a
heating temperature is not higher than the value specified in
rectangular wave or pulse wave corresponds approximately
Table 1.
DEH Series C Char. (Rated Voltage: DC500V)
DEH Series R Char. (Rated Voltage: DC1kV)
10000
1000
to 470pF
(500)
1000pF
Allowable Voltage (Vp-p)
Allowable Voltage (Vp-p)
10000
1000
220pF
470pF
1000pF
2200pF
2200pF
4700pF
4700pF
100
1
10
Frequency (kHz)
100
100
1000
DEH Series R Char. (Rated Voltage: DC2kV)
10
Frequency (kHz)
100
1000
DEH Series R Char. (Rated Voltage: DC3.15kV)
10000
1000
220pF
470pF
1000pF
2200pF
Allowable Voltage (Vp-p)
10000
Allowable Voltage (Vp-p)
1
(3150)
1000
220pF
470pF
1000pF
2200pF
11
4700pF
100
1
10
Frequency (kHz)
100
100
1000
DEA Series SL Char. (Rated Voltage: DC1kV)
100
1000
10000
to 100pF
220pF
470pF
1000
1
10
Frequency (kHz)
100
1000
Allowable Voltage (Vp-p)
Allowable Voltage (Vp-p)
10
Frequency (kHz)
DEA Series SL Char. (Rated Voltage: DC2kV)
10000
100
1
10pF
100pF
220pF
470pF
1000
100
1
10
Frequency (kHz)
100
1000
Continued on the following page.
63
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
High Voltage Ceramic Capacitors !Caution
Continued from the preceding page.
<Fig. 3 (continued)> Allowable Voltage (Sine Wave Voltage) Frequency Characteristics
(At Ambient Temperature of 85°C or less)
Because of the influence of harmonics, when the applied
voltage is a rectangular wave or pulse wave voltage
(instead of a sine wave voltage), the heat generated by
the capacitor is higher than the value obtained by
application of the sine wave with the same fundamental
frequency.
Roughly calculated for reference, the allowable voltage
for a rectangular wave or pulse wave corresponds
approximately to the allowable voltage for a sine wave
whose fundamental frequency is twice as large as that of
the rectangular wave or pulse wave.
This allowable voltage, however, varies depending on the
voltage and current waveforms.
Therefore, you are requested to make sure that the selfheating temperature is not higher than the value specified
in Table 1.
DEA Series SL Char. (Rated Voltage: DC3.15kV)
DEC Series SL Char. (Rated Voltage: DC6.3kV)
10000
10000
(3150)
Allowable Voltage (Vp-p)
Allowable Voltage (Vp-p)
(6300)
10pF
100pF
220pF
1000
100
1
10
Frequency (kHz)
100
1000
100
1000
DES Series D Char. (Rated Voltage: DC500V)
(500)
to 1000pF
2200pF
4700pF
1
10
Frequency (kHz)
100
1000
Allowable Voltage (Vp-p)
Allowable Voltage (Vp-p)
10
Frequency (kHz)
100
1000
10000
1000
100
1
DES Series D Char. (Rated Voltage: DC1kV)
10000
11
to 22pF
47pF
100pF
100pF
220pF
470pF
1000pF
2200pF
4700pF
1000
100
1
10
Frequency (kHz)
100
1000
Continued on the following page.
64
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
High Voltage Ceramic Capacitors !Caution
Continued from the preceding page.
<DEF Series>
1. Operating Voltage
The frequency of the applied sine wave voltage should be
less than 100kHz. The applied voltage should be less
than the value shown in the figure below. For non-sine
wave that includes a harmonic frequency, please contact
our sales representatives or product engineers.
10000
to 10pF
Allowable Voltage (Vp-p)
(6300)
The temperature of the surface of the capacitor:
below the upper limit of its rated operating temperature
range (including self-heating).
12 to 22pF
27 to 47pF
The capacitor can be applied at a maximum of
6.3kVp-p at 100kHz when the lamp is turned on.
Voltage
1000
Positional
Measurement
1
10
Frequency (kHz)
AC Voltage
Vp-p
100
2. Operating Temperature and Self-generated Heat
Keep the surface temperature of a capacitor below the
upper limit of its rated operating temperature range.
Be sure to take into account the heat generated by the
capacitor itself. When the capacitor is used in a highfrequency current, pulse current or similar current, it may
self-generate heat due to dielectric loss.
Excessive heat may lead to deterioration of the
capacitor's characteristics and reliability. (Never attempt
to perform measurement with the cooling fan running.
Otherwise, accurate measurement cannot be ensured.)
3. Fail-Safe
When the capacitor is broken, failure may result in a short
circuit. Be sure to provide an appropriate fail-safe
function like a fuse on your product if failure could result
in an electric shock, fire or fume.
11
65
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
High Voltage Ceramic Capacitors !Caution
■ !Caution (Storage and Operating Condition)
Operating and Storage Environment
The insulating coating of capacitors does not form a
perfect seal; therefore, do not use or store
capacitors in a corrosive atmosphere, especially
where chloride gas, sulfide gas, acid, alkali, salt
or the like are present. Also, avoid exposure to
moisture. Before cleaning, bonding or molding this
product, verify that these processes do not affect
product quality by testing the performance of a
cleaned, bonded or molded product in the intended
equipment. Store the capacitors where the
temperature and relative humidity do not exceed -10
to 40 degrees centigrade and 15 to 85%.
Use capacitors within 6 months after delivery.
Check the solderability after 6 months or more.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
■ !Caution (Soldering and Mounting)
11
1. Vibration and Impact
Do not expose a capacitor or its lead wires to
excessive shock or vibration during use.
Excessive shock or vibration may cause fatigue
destruction of lead wires mounted on the circuit
board.
Please take measures to hold a capacitor on the
circuit boards by adhesive, molding resin or another
coating.
Please confirm there is no influence of holding
measures on the product with the intended equipment.
2. Soldering
When soldering this product to a PCB/PWB, do not
exceed the solder heat resistance specification of
the capacitor. Subjecting this product to excessive
heating could melt the internal junction solder and
may result in thermal shocks that can crack the
ceramic element.
Soldering the capacitor with a soldering iron should
be performed in following conditions.
Temperature of iron-tip: 400 degrees C. max.
Soldering iron wattage: 50W max.
Soldering time: 3.5 sec. max.
3. Bonding, Resin Molding and Coating
For bonding, molding or coating this product, verify
that these processes do not affect the quality of the
capacitor by testing the performance of the bonded,
molded or coated product in the intended equipment.
When the amount of applications, dryness/hardening
conditions of adhesives and molding resins containing
organic solvents (ethyl acetate, methyl ethyl ketone,
toluene, etc). are unsuitable, the outer coating resin
of a capacitor is damaged by the organic solvents and
it may result, worst case, in a short circuit.
The variation in thickness of adhesive, molding resin
or coating may cause outer coating resin cracking
and/or ceramic element cracking of a capacitor in a
temperature cycling.
4. Treatment after Bonding, Resin Molding and Coating
When the outer coating is hot (over 100 degrees C.)
after soldering, it becomes soft and fragile.
Therefore, please be careful not to give it mechanical
stress.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
■ !Caution (Handling)
Vibration and Impact
Do not expose a capacitor or its lead wires to
excessive shock or vibration during use.
Excessive shock or vibration may cause fatigue
destruction of lead wires mounted on the circuit
board.
Please take measures to hold a capacitor on the
circuit boards by adhesive, molding resin or another
coating.
66
Please confirm there is no influence of holding
measures on the product with the intended equipment.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
High Voltage Ceramic Capacitors Notice
■ Notice (Soldering and Mounting)
Cleaning (ultrasonic cleaning)
To perform ultrasonic cleaning, observe the following
conditions.
Rinse bath capacity: Output of 20 watts per liter or less.
Rinsing time: 5 min. maximum.
Do not vibrate the PCB/PWB directly.
Excessive ultrasonic cleaning may lead to fatigue
destruction of the lead wires.
■ Notice (Rating)
Capacitance Change of Capacitors
1. DEA/DEC/DEF Series (Temp. Char. CH, SL)
Capacitance might change a little depending on the
surrounding temperature or an applied voltage.
Please contact us if you intend to use this
product in a strict time constant circuit.
2. DEB/DEC Series (Temp. Char. B, E, F)
Capacitors have an aging characteristic, whereby
the capacitor continually decreases its
capacitance slightly if the capacitor is left on
for a long time. Moreover, capacitance might change
greatly depending on the surrounding temperature or
an applied voltage. Therefore, it is not likely to be
suitable for use in a time constant circuit.
Please contact us if you need detailed information.
3. DEH/DES Series
Capacitance might change greatly depending on the
surrounding temperature or an applied voltage.
Therefore, it is not likely to be suitable for use in a
time constant circuit. Please contact us if you need
detailed information.
11
67
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Standard Certified Ceramic Capacitors for Automotive
Type KJ -IEC60384-14 Class X1, Y2D max.
T max.
1. Capacitors designed for AC line filters for PHEV/EV.
2. Meet AEC-Q200
3. Heat cycle: 1000cycle (-55/+125 deg.)
4. Class X1/Y2 capacitors certified by UL/ENEC(VDE).
5. Rated Voltage: AC300V
6. Coated with flame-retardant epoxy resin
(conforming to UL94V-0 standard).
7. Available product for RoHS Restriction
(EU Directive 2002/95/EC).
8. Taping available for automatic insertion.
3.0 max.
■ Features
25.0 min.
e
F±1.0
ød
(in mm)
[Bulk]
Vertical Crimp Long (A3)
Lead Code
Coating Extension e
ød
A3
Up to the end of crimp
0.6±0.05
■ Applications
T max.
3.0 max.
D max.
1. Ideal for use as Y capacitors for AC line filters
and primary-secondary coupling on battery chargers
for PHEV/EV.
2. Ideal for use as a filter capacitor for DC-DC
converters for PHEV/EV and HEV.
5.0±1.0
e
ød
F±0.8
(in mm)
[Bulk]
Vertical Crimp Short (B3)
■ Standard Certification
Coating Extension e
ød
B3
Up to the end of crimp
0.6±0.05
■ Marking
Standard No.
UL
ENEC (VDE)
Lead Code
Certified No.
UL 60384-14
EN 60384-14
E37921
40031217
Example
Rated Voltage
Item
q Type Designation KJ
AC300V(r.m.s.)
w
q
t
w Nominal Capacitance
(Marked with 3 figures)
472M
KJ300~
X1 Y2
e
15
r
1D
e Capacitance Tolerance
r Company Name Code
15: Made in Thailand
t Manufactured Date Code
Class Code
X1Y2
Rated Voltage Mark
300~
12
AC Rated
Voltage
(Vac)
Temp.
Char.
Capacitance
(pF)
Body
Dia. D
(mm)
Lead
Spacing F
(mm)
Body
Thickness T
(mm)
Lead
Package
Long Bulk
Lead
Package
Short Bulk
Lead
Package
Taping (1)
DE6B3KJ101Kppp
300
B
100 ±10%
8 max.
7.5
7.0 max.
A3B
B3B
N3A
DE6B3KJ151Kppp
300
B
150 ±10%
8 max.
7.5
7.0 max.
A3B
B3B
N3A
DE6B3KJ221Kppp
300
B
220 ±10%
8 max.
7.5
7.0 max.
A3B
B3B
N3A
DE6B3KJ331Kppp
300
B
330 ±10%
8 max.
7.5
7.0 max.
A3B
B3B
N3A
DE6B3KJ471Kppp
300
B
470 ±10%
8 max.
7.5
7.0 max.
A3B
B3B
N3A
DE6B3KJ681Kppp
300
B
680 ±10%
9 max.
7.5
7.0 max.
A3B
B3B
N3A
DE6E3KJ102Mppp
300
E
1000 ±20%
7 max.
7.5
7.0 max.
A3B
B3B
N3A
DE6E3KJ152Mppp
300
E
1500 ±20%
8 max.
7.5
7.0 max.
A3B
B3B
N3A
DE6E3KJ222Mppp
300
E
2200 ±20%
9 max.
7.5
7.0 max.
A3B
B3B
N3A
DE6E3KJ332Mppp
300
E
3300 ±20%
10 max.
7.5
7.0 max.
A3B
B3B
N3A
DE6E3KJ472Mppp
300
E
4700 ±20%
12 max.
7.5
7.0 max.
A3B
B3B
N3A
Part Number
Three blank columns are filled with the lead and packaging codes. Please refer to the 3 columns on the right for the appropriate code.
Murata part numbers might be changed depending on lead code or any other changes. Therefore, please specify only the type name (KJ) and capacitance of products
in the parts list when it is required for applying safety standard of electric equipment.
68
C85E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Jul.13,2011
Safety Standard Certified Type KJ for Automotive
Specifications and Test
Type KJ Specifications
Test Methods
Methods
Operating Temperature Range: -40 to +125°C
No.
Item
1
Appearance and Dimensions
2
3
4
Dissipation Factor (D.F.)
5
Insulation Resistance (I.R.)
Specifications
Test Method
No visible defect, and dimensions are within
specified range.
The capacitor should be visually inspected for evidence of
defect.
Dimensions should be measured with slide calipers.
Marking
To be easily legible
The capacitor should be visually inspected.
Capacitance
Within specified tolerance
Char.
B, E
Specifications
D.F.V2.5%
10000MΩ min.
The dissipation factor should be measured at 20˚C with
1±0.1kHz and AC5V(r.m.s.) max.
The insulation resistance should be measured with
DC500±50V within 60±5 sec. of charging.
The voltage should be applied to the capacitor through a
resistor of 1MΩ.
The capacitor should not be damaged when the test voltages
from Table 1 are applied between the lead wires for 60 sec.
Between Lead
No failure
Wires
6
Dielectric
Strength
Body
Insulation
No failure
<Table 1>
Type
KJ
Test Voltage
AC2600V(r.m.s.)
First, the terminals of the capacitor
should be connected together. Then,
as shown in the figure at right, a metal
foil should be closely wrapped around
Metal
the body of the capacitor to the
about
Foil
3 to 4mm
distance of about 3 to 4mm from
each terminal.
Metal
Then, the capacitor should be inserted
Balls
into a container filled with metal balls
of about 1mm diameter. Finally, AC
voltage from Table 2 is applied for 60 sec. between the
capacitor lead wires and metal balls.
<Table 2>
Type
KJ
Test Voltage
AC2600V(r.m.s.)
The capacitance measurement should be made at each step
specified in Table 3.
<Table 3>
7
Temperature Characteristics
Char.
Capacitance Change
B
Within ±10%
E
Within +20
–55%
(Temp. range: -25 to +85°C)
Step
1
2
3
4
5
Temperature (ºC)
20±2
-25±2
20±2
85±2
20±2
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
8
9
Lead wire should be soldered with uniform coating
on the axial direction over 3/4 of the circumferential
direction.
Solderability
Resistance to
Soldering
Heat
Appearance
No marked defect
Capacitance
Change
Within ±10%
I.R.
1000MΩ min.
Dielectric
Strength
Per Item 6
Should be placed into steam aging for 8 hrs.±15 min. After the
steam aging, the lead wire of a capacitor should be dipped into
an ethanol solution of 25% rosin and then into molten solder for
5+0/-0.5 sec.
The depth of immersion is up to about 1.5 to 2.0mm from the
root of lead wires.
Temp. of solder: Lead Free Solder (Sn-3Ag-0.5Cu) 245±5°C
H63 Eutectic Solder 235±5°C
As shown in the figure, the lead
,,
Thermal
wires should be immersed in
,,Capacitor
,,
,
Screen
solder of 260±5°C up to 1.5 to
,,
,
,,,,,,,,,,
,,,,,,
,
1.5
,,,,,,,,,,
,,,,
,
2.0mm from the root of terminal for
to 2.0mm
,
,
10±1 sec.
,,
,Molten
Pre-treatment:
Solder
Capacitor should be stored at
125±3°C for 1 hr., then placed at room condition* for 24±2
hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*
* "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
Continued on the following page.
69
12
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety
Certified
Type
KJMethods
for Automotive Specifications and Test Methods
Type
KJStandard
Specifications
and
Test
Continued from the preceding page.
No.
Item
Specifications
Appearance
No marked defect
Capacitance
Within the specified tolerance
10 Vibration
D.F.
11
12
13
Mechanical
Shock
Humidity
(Under
Steady
State)
Char.
B, E
Specifications
D.F.V2.5%
Appearance
No marked defect
Capacitance
Within the specified tolerance
D.F.
Char.
B, E
Specifications
D.F.V5.0%
I.R.
10000MΩ min.
Appearance
No marked defect
Capacitance
Change
Char.
B
E
Capacitance Change
Within ±10%
Within ±15%
D.F.
Char.
B, E
Specifications
D.F.V5.0%
I.R.
3000MΩ min.
Dielectric
Strength
Per Item 6
Appearance
No marked defect
Capacitance
Change
Char.
B
E
Capacitance Change
Within ±10%
Within ±15%
Char.
B, E
Specifications
D.F.V5.0%
Humidity
Loading
D.F.
I.R.
3000MΩ min.
Appearance
No marked defect
Capacitance
Change
Within ±20%
I.R.
3000MΩ min.
Test Method
Solder the capacitor and gum
up the body to the test jig
Resin (Adhesive)
(glass epoxy board) by resin
(adhesive).
The capacitor should be firmly soldered to the supporting lead
wire, 1.5mm in total amplitude, with about a 20 minutes rate of
vibration change from 10Hz to 2000Hz and back to 10Hz.
This motion should be applied 12 times in each of 3 mutually
perpendicular directions (total of 36 times).
The acceleration is 5g max.
Solder the capacitor and gum
up the body to the test
Resin (Adhesive)
jig (glass epoxy board) by
resin (adhesive).
Three shocks in each direction should be applied along 3
mutually perpendicular axes to and from of the test specimen
(18 shocks).
The specified test pulse should be half-sine and should have a
duration: 0.5ms, peak value: 100g and velocity change: 4.7m/s.
Set the capacitor for 1000±12 hrs. at 85±3°C in 80 to 85%
relative humidity.
Pre-treatment:
Capacitor should be stored at 125±3°C for 1hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*
Apply the rated voltage for 1000±12 hrs. at 85±3°C in 80 to
85% relative humidity.
Pre-treatment:
Capacitor should be stored at 125±3°C for 1hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*
Impulse Voltage
Each individual capacitor should be subjected to a 5kV
impulses for three times. Then the capacitors are applied to life
test.
100 (%)
90
Front time (T1) =1.2µs=1.67T
Time to half-value (T2) =50µs
50
30
0
12
t
T
T1
14
T2
Apply a voltage from Table 4 for 1000 hrs. at 125+2/-0°C, and
relative humidity of 50% max.
Life
Dielectric
Strength
<Table 4>
Per Item 6
Applied Voltage
AC510V(r.m.s.), except that once each hour the voltage
is increased to AC1000V(r.m.s.) for 0.1 sec.
Pre-treatment:
Capacitor should be stored at 125±3°C for 1hr., then placed
at room condition* for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at room condition.*
* "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
Continued on the following page.
70
C85E.pdf
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Jul.13,2011
Safety Standard Certified Type KJ for Automotive
Specifications and Test
Type KJ Specifications
Test Methods
Methods
Continued from the preceding page.
No.
Item
Specifications
Test Method
The capacitor should be subjected to applied flame for 15 sec.
and then removed for 15 sec. until 5 cycles are completed.
The capacitor flame extinguishes as follows.
Cycle
1 to 4
5
Capacitor
Flame
76
Time (sec.)
30 max.
60 max.
7
12
38
20°
15 Flame Test
Gas Burner: Inside Dia. 9.5
Tensile
Robustness
16 of
Terminations
Lead wire should not be cut off. Capacitor should
not be broken.
As shown in the figure at right, fix the body
of the capacitor and apply a tensile weight
gradually to each lead wire in the radial
direction of the capacitor up to 10N and keep
it for 10±1 sec.
(in mm)
W
Each lead wire should be subjected to 5N of weight and bent
90° at the point of egress, in one direction, then returend to
its original position and bent 90° in the opposite direction at the
rate of one bend in 2 to 3 sec.
Bending
The capacitor should be individually wrapped in at least one,
but not more than two, complete layers of cheesecloth. The
capacitor should be subjected to 20 discharges. The interval
between successive discharges should be 5 sec. The UAC
should be maintained for 2 min. after the last discharge.
F
S1
Tr
S2
L1
C1
UAC
R
L2
C2
C3
L3
Cx
Ct
Ut
L4
Oscilloscope
17 Active Flammability
The cheesecloth should not catch on fire.
C1,2
L1 to 4
Ct
Cx
F
: 1µF±10%
C3
: 0.033µF±5% 10kV
: 1.5mH±20% 16A Rod core choke
: 3µF±5% 10kV
R
: 100Ω±2%
: Capacitor under test
UAC
: UR±5%
: Rated Voltage
: Fuse, Rated 10A
UR
: Voltage applied to Ct
Ut
Ux
5kV
time
Test Specimen
45°
200T5mm
The burning time should not exceed 30 sec.
The tissue paper should not ignite.
About 8mm
18 Passive Flammability
The capacitor under test should be held in the flame in the
position that best promotes burning. Each specimen should
only be exposed once to the flame. Time of exposure to flame:
30 sec.
Length of flame : 12±1mm
Gas burner
: Length 35mm min.
Inside Dia. 0.5±0.1mm
Outside Dia. 0.9mm max.
Gas
: Butane gas Purity 95% min.
Tissue
About 10mm Thick Board
* "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
Continued on the following page.
71
12
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety
Certified
Type
KJMethods
for Automotive Specifications and Test Methods
Type
KJStandard
Specifications
and
Test
Continued from the preceding page.
No.
19
Item
Temperature
Cycle
High
Temperature
20
Exposure
(Storage)
21
22
23
Thermal
Shock
No marked defect
Capacitance
Change
Char.
B
E
Capacitance Change
Within ±10%
Within ±20%
D.F.
Char.
B, E
Specifications
D.F.V5.0%
I.R.
3000MΩ min.
Dielectric
Strength
Per Item 6
Capacitance
Change
Within ±20%
D.F.
Char.
B, E
Specifications
D.F.V5.0%
No marked defect except color change of outer
coating.
Capacitance
Change
Char.
B
E
Capacitance Change
Within ±10%
Within ±20%
D.F.
Char.
B, E
Specifications
D.F.V5.0%
I.R.
3000MΩ min.
Appearance
No marked defect
Capacitance
Change
Char.
B
E
Capacitance Change
Within ±10%
Within ±20%
D.F.
Char.
B, E
Specifications
D.F.V5.0%
I.R.
3000MΩ min.
Appearance
No marked defect
Capacitance
Change
Char.
B
E
Capacitance Change
Within ±10%
Within ±15%
Char.
B, E
Specifications
D.F.V5.0%
I.R.
Temperature (ºC)
-55+0/-3
Room temp.
125+3/-0
Room temp.
Time (min)
30
3
30
3
Cycle time: 1000 cycles
Set the capacitor for 1000±12 hrs. at 150±3°C.
Appearance
Biased
Humidity
Step
1
2
3
4
Pre-treatment:
Capacitor should be stored at 125±3˚C for 1 hr., then placed
at room condition* for 24±2 hrs.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at room condition.*
1000MΩ min.
Resistance to
Solvents
Test Method
The capacitor should be subjected to 1000 temperature cycles.
I.R.
D.F.
12
Specifications
Appearance
Pre-treatment:
Capacitor should be stored at 125±3˚C for 1 hr., then placed
at room condition* for 24±2 hrs.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at room condition.*
The capacitor should be subjected to 300 cycles.
Step
1
2
Temperature (ºC)
-55+0/-3
125+3/-0
Time (min)
30
30
Pre-treatment:
Capacitor should be stored at 125±3˚C for 1 hr., then placed
at room condition* for 24±2 hrs.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at room condition.*
Per MIL-STD-202 Method 215
Solvent 1: 1 part (by volume) of isopropyl alcohol
3 parts (by volume) of mineral spirits
Solvent 2: Terpene defluxer
Solvent 3: 42 parts (by volume) of water
1 part (by volume) of propylene glycol
monomethyl ether
1 part (by volume) of monoethanolomine
Apply the rated voltage and DC1.3+0.2/-0V (add 6.8kΩ resistor)
at 85±3°C and 80 to 85% humidity for 1000±12 hrs.
Pre-treatment:
Capacitor should be stored at 125±3°C for 1hr., then placed
at room condition* for 24±2 hrs.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at room condition.*
3000MΩ min.
* "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
Continued on the following page.
72
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Standard Certified Type KJ for Automotive
Specifications and Test
Type KJ Specifications
Test Methods
Methods
Continued from the preceding page.
24
Item
Specifications
Appearance
No marked defect
Capacitance
Change
Char.
B
E
Capacitance Change
Within ±10%
Within ±20%
D.F.
Char.
B, E
Specifications
D.F.V5.0%
Moisture
Resistance
I.R.
3000MΩ min.
Test Method
Apply 24 hrs. of heat (25 to 65°C) and humidity (80 to 98%)
treatment shown below, 10 consecutive times.
Pre-treatment:
Capacitor should be stored at 125±3˚C for 1 hr., then placed
at room condition* for 24±2 hrs.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at room condition.*
°C
70
65
60
55
50
45
40
35
30
25
20
15
10
5
0
-5
-10
Humidity
90-98%
Temperature
No.
Humidity Humidity Humidity
80-98% 90-98% 80-98%
Humidity
90-98%
+10
-2 °C
Initial measurement
One cycle 24 hours
0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
Hours
* "Room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
12
73
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Safety Certified Ceramic Capacitors for Automotive Characteristics Data (Typical Example)
■ Capacitance - Temperature Characteristics
■ Insertion Loss - Frequency Characteristics
40
0
Type KJ
20
Signal power: 1mW
AC240V(r.m.s.) / 60Hz is
applied on the capacitor.
10
B
Insertion Loss (dB)
Cap. Change (%)
0
B
-20
-40
E
(1) 100pF
(2) 220pF
(3) 470pF
(4) 1000pF
(5) 2200pF
(6) 4700pF
20
(3)
30
(2)
(1)
(4)
-60
(5)
40
E
(6)
-80
50
-100
-40
1
-20
0
20
40
60
80
100
120
10
140
100
1000
Frequency (MHz)
Temperature (°C)
■ Leakage Current Characteristics
Type KJ (B char.)
Type KJ (E char.)
AC voltage : 60Hz
Temperature : 25°C
AC voltage : 60Hz
Temperature : 25°C
1.0
4.0
470pF
0.8
0.6
220pF
0.4
0.2
100pF
0
1000
2000
AC voltage [V(r.m.s.)]
74
3.0
2.0
2200pF
1.0
1000pF
0.0
0.0
12
Leakage current [mA(r.m.s.)]
Leakage current [mA(r.m.s.)]
4700pF
3000
4000
0
1000
2000
AC voltage [V(r.m.s.)]
3000
4000
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Certified Ceramic Capacitors for Automotive Packaging
■ Taping Specifications
15mm pitch / lead spacing 7.5mm taping
Vertical crimp type
(Lead Code: N3)
P
∆S
D
∆h1
O
∆h2
e
P2
ød
W
H0
W1
W0
L
F
W2
P1
T max.
Marked side
∗
∗
3.0 max.
P0
R
øD0
H0
t2
Item
t1
Code
N3
Pitch of component
P
15.0±2.0
Pitch of sprocket hole
P0
15.0±0.3
Lead spacing
F
7.5±1.0
Length from hole center to component center
P2
7.5±1.5
Length from hole center to lead
P1
3.75±1.0
Body diameter
D
See the individual product specifications.
Deviation along tape, left or right
∆S
0±2.0
Carrier tape width
W
18.0±0.5
Position of sprocket hole
W1
9.0±0.5
Lead distance between reference and bottom planes
H0
18.0 +2.0
–0
r
+0.5 to -1.0
Protrusion length
Diameter of sprocket hole
øD0
4.0±0.1
Lead diameter
ød
0.6±0.05
Total tape thickness
t1
0.6±0.3
Total thickness, tape and lead wire
t2
1.5 max.
Body thickness
T
7.0 max.
Portion to cut in case of defect
L
11.0 +0
–1.0
Hold down tape width
W0
11.5 min.
Hold down tape position
W2
1.5±1.5
e
Up to the end of crimp
Coating extension on lead
Deviation across tape, front
∆h1
Deviation across tape, rear
∆h2
2.0 max.
(in mm)
12
■ Minimum Quantity (Order in Sets Only)
■ Packaging Styles
Bulk
Polyethylene Bag
Taping
Ammo Pack
[Bulk]
(pcs./Bag)
Lead Code
A3
Lead Code
B3
Long
Short
7 to 10
250
500
12
200
250
Body Dia. D
(mm)
[Taping]
Lead Code: N3
700pcs./Ammo Pack
75
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Safety Certified Ceramic Capacitors for Automotive !Caution
■ !Caution (Rating)
1. Operating Voltage
When DC-rated capacitors are to be used in AC or ripple
current circuits, be sure to maintain the Vp-p value of the
applied voltage or the Vo-p that contains DC bias within
the rated voltage range.
When the voltage is applied to the circuit, starting or
stopping may generate irregular voltage for a transit
period because of resonance or switching. Be sure to
use a capacitor with a rated voltage range that includes
these irregular voltages.
Voltage
Positional
Measurement
DC Voltage
V0-p
DC+AC Voltage
V0-p
AC Voltage
Vp-p
Pulse Voltage (1)
Vp-p
Pulse Voltage (2)
Vp-p
2. Operating Temperature and Self-generated Heat
Keep the surface temperature of a capacitor below the
upper limit of its rated operating temperature range. Be
sure to take into account the heat generated by the
capacitor itself. When the capacitor is used in a highfrequency current, pulse current or similar current, it may
have self-generated heat due to dielectric loss. Applied
voltage load should be such that self-generated heat is
within 20°C under the condition where the capacitor is
subjected to an atmospheric temperature of 25°C. When
measuring, use a thermocouple of small thermal
capacity-K of ø0.1mm under conditions where the
capacitor is not affected by radiant heat from other
components or wind from surroundings. Excessive heat
may lead to deterioration of the capacitor's characteristics
and reliability. (Never attempt to perform measurement
with the cooling fan running. Otherwise, accurate
measurement cannot be ensured.)
12
3. Test Condition for Withstanding Voltage
(1) Test Equipment
Test equipment for AC withstanding voltage should be
used with the performance of the wave similar to
50/60Hz sine wave.
If the distorted sine wave or overload exceeding the
specified voltage value is applied, a defect may be
caused.
Continued on the following page.
76
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Certified Ceramic Capacitors for Automotive !Caution
Continued from the preceding page.
(2) Voltage Applied Method
When the withstanding voltage is applied, the capacitor's
lead or terminal should be firmly connected to the output
of the withstanding voltage test equipment, and then the
voltage should be raised from near zero to the test
voltage.
If the test voltage without the raise from near zero voltage
would be applied directly to capacitor, test voltage should
be applied with the zero cross.* At the end of the test
time, the test voltage should be reduced to near zero,
and then capacitor's lead or terminal should be taken off
the output of the withstanding voltage test equipment.
If the test voltage without the raise from near zero voltage
would be applied directly to capacitor, the surge voltage
may rise, and therefore, a defect may be caused.
*ZERO CROSS is the point where voltage sine wave
passes 0V. See the figure at right.
Voltage sine wave
0V
zero cross
4. Fail-Safe
When the capacitor is broken, failure may result in a short
circuit. Be sure to provide an appropriate fail-safe
function like a fuse on your product if failure could result
in an electric shock, fire or fuming.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
12
77
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Safety Certified Ceramic Capacitors for Automotive !Caution
■ !Caution (Storage and Operating Condition)
Operating and Storage Environment
The insulating coating of capacitors does not form a
perfect seal; therefore, do not use or store
capacitors in a corrosive atmosphere, especially
where chloride gas, sulfide gas, acid, alkali, salt
or the like are present. Also, avoid exposure to
moisture. Before cleaning, bonding, or molding this
product, verify that these processes do not affect
product quality by testing the performance of a
cleaned, bonded or molded product in the intended
equipment. Store the capacitors where the
temperature and relative humidity do not exceed -10
to 40 degrees centigrade and 15 to 85%.
Use capacitors within 6 months after delivery.
Check the solderability after 6 months or more.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
■ !Caution (Soldering and Mounting)
12
1. Vibration and Impact
Do not expose a capacitor or its lead wires to
excessive shock or vibration during use.
Excessive shock or vibration may cause fatigue
destruction of lead wires mounted on the circuit
board.
Please take measures to hold a capacitor on the
circuit boards by adhesive, molding resin or another
coating.
Please confirm there is no influence of holding
measures on the product with the intended equipment.
2. Soldering
When soldering this product to a PCB/PWB, do not
exceed the solder heat resistance specifications of
the capacitor. Subjecting this product to excessive
heating could melt the internal junction solder and
may result in thermal shocks that can crack the
ceramic element.
Soldering the capacitor with a soldering iron should
be performed in the following conditions.
Temperature of iron-tip: 400 degrees C. max.
Soldering iron wattage: 50W max.
Soldering time: 3.5 sec. max.
3. Bonding, Resin Molding and Coating
For bonding, molding or coating this product, verify
that these processes do not affect the quality of the
capacitor by testing the performance of the bonded,
molded or coated product in the intended equipment.
When the amount of applications, dryness/hardening
conditions of adhesives and molding resins containing
organic solvents (ethyl acetate, methyl ethyl ketone,
toluene, etc). are unsuitable, the outer coating resin
of a capacitor is damaged by the organic solvents and
it may result, worst case, in a short circuit.
The variation in thickness of adhesive, molding resin
or coating may cause outer coating resin cracking
and/or ceramic element cracking of a capacitor in a
temperature cycling.
4. Treatment after Bonding, Resin Molding and Coating
When the outer coating is hot (over 100 degrees C.)
after soldering, it becomes soft and fragile.
Therefore, please be careful not to give it mechanical
stress.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
■ !Caution (Handling)
Vibration and Impact
Do not expose a capacitor or its lead wires to
excessive shock or vibration during use.
Excessive shock or vibration may cause fatigue
destruction of lead wires mounted on the circuit
board.
Please take measures to hold a capacitor on the
circuit boards by adhesive, molding resin or another
coating.
78
Please confirm there is no influence of holding
measures on the product with the intended equipment.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011
Safety Certified Ceramic Capacitors for Automotive Notice
■ Notice (Soldering and Mounting)
Cleaning (ultrasonic cleaning)
To perform ultrasonic cleaning, observe the following
conditions.
Rinse bath capacity: Output of 20 watts per liter or less.
Rinsing time: 5 min. maximum.
Do not vibrate the PCB/PWB directly.
Excessive ultrasonic cleaning may lead to fatigue
destruction of the lead wires.
■ Notice (Rating)
1. Capacitance Change of Capacitors
Capacitors have an aging characteristic, whereby
the capacitor continually decreases its
capacitance slightly if the capacitor is left on
for a long time. Moreover, capacitance might
change greatly depending on the surrounding
temperature or an applied voltage. Therefore,
it is not likely to be suitable for use in a constant
time circuit.
Please contact us if you need detailed information.
2. Performance Check by Equipment
Before using a capacitor, check that there is no
problem in the equipment's performance and the
specifications.
Generally speaking, CLASS 2 ceramic capacitors
have voltage dependence characteristics and
temperature dependence characteristics in
capacitance. Therefore, the capacitance value may
change depending on the operating condition in the
equipment. Therefore, be sure to confirm the
apparatus performance of receiving influence in
the capacitance value change of a capacitor,
such as leakage current and noise suppression
characteristic.
Moreover, check the surge-proof ability of a
capacitor in the equipment, if needed, because the
surge voltage may exceed specific value by the
inductance of the circuit.
12
79
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
Safety Certified Ceramic Capacitors/High Voltage Ceramic Capacitors ISO9000 Certifications
Manufacturing plants that produce the products in this
catalog have obtained the ISO9000 quality system certificate.
Plant
Applied Standard
Izumo Murata Manufacturing Co., Ltd.
ISO9001
Murata Electronics (Thailand), Ltd.
ISO9001
Taiwan Murata Electronics Co., Ltd.
ISO9001
12
80
C85E.pdf
Jul.13,2011
!Note • Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
• This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please review our product specifications or consult the approval sheet for product specifications before ordering.
C85E.pdf
Jul.13,2011