!Note Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this PDF catalog to prevent smoking and/or burning, etc.
This catalog has only typical specifications. Therefore, you are requested to approve our product specifications or to transact the approval sheet for product specifications before ordering.
High Voltage
Ceramic Capacitors
(DC250V-6.3kV)
Murata
Manufacturing Co., Ltd.
Cat.No.C84E-9
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CONTENTS
Part Numbering
1
2
3
1
2
DES Series (125 deg. C Guaranteed/Low-dissipation Factor/DC500V-1kV)
3
Specifications and Test Methods
5
DEH Series (125 deg. C Guaranteed/Low-dissipation Factor/DC250V-3.15kV)
7
Specifications and Test Methods
10
DEA Series (125 deg. C Guaranteed/Class 1/DC1k-3.15kV)
13
Specifications and Test Methods
16
2
3
4
4
5
DEB Series (Class 2/DC1k-3.15kV)
18
Specifications and Test Methods
21
DEC Series (Class 1, 2/DC6.3kV)
23
Specifications and Test Methods
25
5
Characteristics Data (Typical Example)
27
Packaging
28
!Caution
30
Notice / ISO9000 Certifications
37
Recycled Paper
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o Part Numbering
High Voltage Ceramic Capacitors (250V-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
D
T0.5pF
High Voltage (250V - 6.3kV) /
Safety Standard Recognized Ceramic Capacitors
DE
wSeries Category
Code
Outline
J
T5%
K
T10%
Z
W80%, Y20%
Contents
uLead Style
A
Class 1 (char. SL) DC1-3.15kV Rated
B
Class 2 DC1-3.15kV Rated
C
Class 1, 2 DC6.3kV Rated
Code
H
High Temperature Guaranteed,
Low-dissipation Factor (char. R, C)
A2
S
High Temperature Guaranteed,
Low-dissipation Factor (char. D)
High Voltage
First three digits (qProduct ID and wSeries Category) express "Series
Name".
Lead
Style
Vertical
Crimp
Long
A3
A4
B2/J2
Vertical
Crimp
Short
B3/J3
B4
eTemperature Characteristics
C1
Temperature
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
T20%
Temperature
Range
Y25 to W85D
Code
Straight
Long
C4
Lead Diameter
Pitch of
Components
ø0.6T0.05
Y
ø0.6T0.05
Y
5
7.5
10
5
7.5
10
7.5
10
ø0.5T0.05
ø0.6T0.05
CD
7.5
ø0.5T0.05
D1
5
ø0.5T0.05
7.5
ø0.6T0.05
7.5
ø0.5T0.05
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
Straight
Short
Vertical
Crimp
Taping
Straight
Taping
5
7.5
Y
Y
12.7
ø0.6T0.05
15
7.5
30
5
12.7
7.5
ø0.6T0.05
15
iPackaging
Rated Voltage
Code
Packaging
2E
DC250V
A
Ammo Pack
2H
DC500V
B
Bulk
3A
DC1kV
3D
DC2kV
3F
DC3.15kV
3J
DC6.3kV
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 which follow the two numbers.
If there is a decimal point, it is expressed by the capital letter "R".
In this case, all figures are significant digits.
2
Lead
Spacing
5
C3
D3
rRated Voltage
Dimensions(mm)
oIndividual Specification Code
In case part number cannot be identified without "Individual
Specification", it is added at the end of part number. Expressed
by three figures.
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High Voltage Ceramic Capacitors (DC250V-6.3kV)
1
DES Series (125 deg. C Guaranteed/Low-dissipation Factor/DC500V-1kV)
D max.
1. Low dissipation factor series which 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 DEH series while remaining the same size.
3. Operating temperature range is guaranteed up to 125
degree C.
4. Coated with flame-retardant epoxy resin
(equivalent to UL94V-0 standards).
5. Taping available for automatic insertion.
6. Available product for RoHS Restriction
(EU Directive 2002/95/EC).
T max.
3.0 max.
■ Features
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.
■ Applications
ød
1.0
3.5±0.5
e
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)
F±0.8
(in mm)
[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
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)
3
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1
D Characteristics
Part Number
DC Rated
Voltage
(Vdc)
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
Three blank columns are filled with the lead and packaging codes. Please refer to the three columns on the right for the appropriate code.
4
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Specifications and Test Methods
No.
Item
Specifications
Testing Method
1
Operating Temperature Range
-25 to +125°C
2
Appearance and Dimensions
No marked defect on appearance form
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 current V 50mA)
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.) is
applied for 1 to 5 sec. between capacitor
lead wires and metal balls.
(Charge/Discharge current V 50mA)
Between Lead
Wires
4
Dielectric
Strength
Body Insulation
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 Table.
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
The insulation resistance should be measured with
DC500±50V within 60±5 sec. of charging.
Insulation
Resistance (I.R.)
8
The capacitor should be visually inspected for evidence of
defect.
Dimensions should be measured with slide calipers.
10000MΩ min.
5
1
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.
5
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typicalspecifications.
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Specifications and Test Methods
1
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.
Testing 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 figure, the lead wires
,,,,,,,,,,
,,,,
,
to 2.0mm
,
, Molten
should be immersed solder of
,,,
260+0/-5°C up to 1.5 to 2.0mm
Solder
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.
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. 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 current V 50mA)
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
6
Temperature(°C) Time(min)
-25±3
30
Room Temp.
3
125±3
30
Room Temp.
3
Cycle time: 5 cycle
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our
productsheet
specifications
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sheet for product specifications before ordering.
High Voltage Ceramic Capacitors (DC250V-6.3kV)
DEH Series (125 deg. C Guaranteed/Low-dissipation Factor/DC250V-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
degree C.
3. Coated with flame-retardant epoxy resin
(equivalent to UL94V-0 standards).
4. Taping available for automatic insertion.
5. Available product for RoHS Restriction
(EU Directive 2002/95/EC).
T max.
T max.
2
3.0 max.
D max.
25.0 min.
25.0 min.
e
F±1.0
ød
(in mm)
[Bulk]
Vertical Crimp Long (Fig. 1)
Straight Long (Fig. 2)
Lead Code Coating Extension e
ød
Style
A2, A3, A4 Up to the end of crimp 0.6±0.05
Fig. 1
0.6±0.05
Fig. 2
3.0 max.
C3
■ Applications
T max.
T max.
ød
5.0±1.0
e
5.0±1.0
D max.
3.0 max.
Ideal for use on high frequency pulse circuits such as
a horizontal resonance circuit for CTV and snubber
circuits for switching power supplies.
F±0.8
(in mm)
Lead Code Coating Extension e
[Bulk]
Vertical Crimp Short (Fig. 1)
Straight Short (Fig. 2)
ød
Style
B2, B3, B4 Up to the end of crimp 0.6±0.05
Fig. 1
0.6±0.05
Fig. 2
D3
3.0 max.
■ Marking
DC250V
DC500V
DC1-3.15kV
R
C
R
ø6mm
HR
102
66
HR
471
66
ø7-9mm
HR R
332K
250V
66
HR C
152K
66
HR R
102K
1KV 66
ø10-21mm
HR R
103K
250V
66
HR C
472K
66
HR R
272K
3KV
66
Rated Voltage
Nominal
Body Diameter
Temp. Char.
High Temperature Guaranteed Code
Temperature Characteristics
Nominal Capacitance
Capacitance Tolerance
DC250V
Rated Voltage
DC500V
DC1-3.15kV
HR
Marked with code (omitted for nominal body diameter ø6mm)
Marked with 3 figures
Marked with code (omitted for nominal body diameter ø6mm)
Marked with code
(Marked with horizontal line over nominal capacitance for nominal body diameter ø6mm)
Omitted
Marked with code (In case of DC3.15kV, marked with 3KV)
Manufacturer's Identification
Marked with
Manufactured Date Code
Abbreviation
(omitted for nominal body diameter ø9mm and under)
7
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DC250V, R Characteristics
2
Part Number
DC Rated
Voltage
(Vdc)
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
DEHR32E221Kppp
250
220 ±10%
6
5.0
4.0
A2B
B2B
N2A
DEHR32E331Kppp
250
330 ±10%
6
5.0
DEHR32E471Kppp
250
470 ±10%
6
5.0
4.0
A2B
B2B
N2A
4.0
A2B
B2B
DEHR32E681Kppp
250
680 ±10%
6
N2A
5.0
4.0
A2B
B2B
DEHR32E102Kppp
250
1000 ±10%
N2A
6
5.0
4.0
A2B
B2B
DEHR32E152Kppp
250
N2A
1500 ±10%
7
5.0
4.0
A2B
B2B
N2A
DEHR32E222Kppp
DEHR32E332Kppp
250
2200 ±10%
8
5.0
4.0
A2B
B2B
N2A
250
3300 ±10%
9
5.0
4.0
A2B
B2B
N2A
DEHR32E472Kppp
250
4700 ±10%
10
5.0
4.0
A2B
B2B
N2A
DEHR32E682Kppp
250
6800 ±10%
12
5.0
4.0
A2B
B2B
N2A
DEHR32E103Kppp
250
10000 ±10%
12
5.0
4.0
A2B
B2B
N2A
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.
DC500V, C Characteristics
Part Number
DC Rated
Voltage
(Vdc)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Lead
Body Thickness T
Package
(mm)
Long Bulk
DEHC32H331Kppp
500
330 ±10%
6
5.0
4.0
A2B
B2B
N2A
DEHC32H471Kppp
500
470 ±10%
6
5.0
4.0
A2B
B2B
N2A
DEHC32H681Kppp
500
680 ±10%
7
5.0
4.0
A2B
B2B
N2A
DEHC32H102Kppp
500
1000 ±10%
8
5.0
4.0
A2B
B2B
N2A
DEHC32H152Kppp
500
1500 ±10%
9
5.0
4.0
A2B
B2B
N2A
DEHC32H222Kppp
500
2200 ±10%
10
5.0
4.0
A2B
B2B
N2A
DEHC32H332Kppp
500
3300 ±10%
12
5.0
4.0
A2B
B2B
N2A
DEHC32H472Kppp
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
(Vdc)
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
Continued on the following page.
8
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Continued from the preceding page.
Part Number
DC Rated
Voltage
(Vdc)
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
DEHR33D222Kppp
2000
2200 ±10%
15
7.5
5.0
DEHR33D272Kppp
2000
2700 ±10%
17
7.5
5.0
A3B
B3B
N7A
A3B
B3B
DEHR33D332Kppp
2000
3300 ±10%
19
10.0
N7A
5.0
A4B
B4B
DEHR33D392Kppp
2000
3900 ±10%
20
-
10.0
5.0
A4B
B4B
-
DEHR33D472Kppp
2000
4700 ±10%
DEHR33F151Kppp
3150
150 ±10%
21
10.0
5.0
A4B
B4B
-
7
7.5
6.0
C3B
D3B
P3A
DEHR33F181Kppp
3150
180 ±10%
7
7.5
6.0
C3B
D3B
P3A
DEHR33F221Kppp
DEHR33F271Kppp
3150
220 ±10%
7
7.5
6.0
C3B
D3B
P3A
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
DEHR33F182Kppp
3150
1800 ±10%
16
7.5
6.0
A3B
B3B
N7A
DEHR33F222Kppp
3150
2200 ±10%
17
7.5
6.0
A3B
B3B
N7A
DEHR33F272Kppp
3150
2700 ±10%
19
10.0
6.0
A4B
B4B
-
2
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
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Specifications and Test Methods
No.
Item
Specifications
Testing Method
1
Operating Temperature Range
-25 to +125°C
2
Appearance and Dimensions
No marked defect on appearance form
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 (DC250V, DC500V) is applied
between the lead wires for 1 to 5 sec.
(Charge/Discharge current V 50mA)
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.) is
applied for 1 to 5 sec. between capacitor
lead wires and metal balls.
(Charge/Discharge current V 50mA)
2
Between Lead
Wires
4
Dielectric
Strength
Body Insulation
Char. R[DC1 to 3.15kV], Char. C
: 10000MΩ min.
Char. R[DC250V] : 1000MΩ min.
The insulation resistance should be measured with
DC500±50V (Char. R[DC 250V]: DC100±15V) 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[DC250V] : 0.4% max.
Char. R[DC1 to 3.15kV] : 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%
The capacitance measurement should be made at each step
specified in Table.
Temperature Characteristics
Pre-treatment : Capacitor should be stored at 125±3°C for 1 hr., then placed at
*1room 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
Vibration
Resistance
Appearance
No marked defect
Capacitance
Within specified tolerance
D.F.
Char. R[DC250V] : 0.4% max.
Char. R[DC1 to 3.15kV] : 0.2% max.
Char. C : 0.3% max.
Solderability of Leads
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
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.
Lead wire should be soldered with
uniform coating on the axial direction
over 3/4 of the circumferential direction.
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
* "room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
Continued on the following page.
10
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Specifications and Test Methods
Continued from the preceding page.
No.
12
13
14
15
Item
Soldering Effect
(Non-Preheat)
Soldering Effect
(On-Preheat)
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%
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.
Temperature
Cycle
Humidity (Under
Steady State)
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.
Testing Method
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.
Measurement order:
Dielectric strength -> Pre-treatment -> Capacitance ->
Soldering effect test -> Post-treatment ->
Capacitance • Dielectric strength (Char. R[DC250V])
First the capacitor should be
, Capacitor
Thermal
stored at 120+0/-5°C for
Screen,
,
60+0/-5 sec.
,
,
1.5
,,,,,,,,,,
,
,,,,,,
Then, as in figure, the lead wires
,,,,,,,,,,
,,,,
,
to 2.0mm
,
,
should be immersed solder of
,,,Molten
260+0/-5°C up to 1.5 to 2.0mm
Solder
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.
Measurement order:
Dielectric strength -> Pre-treatment -> Capacitance ->
Soldering effect test -> Post-treatment ->
Capacitance • Dielectric strength (Char. R[DC250V])
The capacitor should be subjected to 5 temperature cycles.
Step
1
2
3
4
Temperature(°C) Time(min)
-25±3
30
Room Temp.
3
125±3
30
Room Temp.
3
Cycle time: 5 cycle
Pre-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at *1room condition for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 24±2 hrs. at *1room condition.
Measurement order:
I.R. • Dielectric strength -> Pre-treatment -> Capacitance •
D.F. -> Temperature cycle test -> Post-treatment ->
Capacitance • D.F. • I.R. • Dielectric strength
(Char. R[DC250V])
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 *1room condition for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at *1room condition.
Measurement order:
I.R. -> Pre-treatment -> Capacitance • D.F. -> Humidity test ->
Post-treatment -> Capacitance • D.F. • I.R.
(Char. R[DC250V])
*1 "room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
Continued on the following page.
11
2
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specifications
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sheet for product specifications before ordering.
Specifications and Test Methods
Continued from the preceding page.
No.
Item
2
16
17
Specifications
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.
Char. R[DC1 to 3.15kV], Char. C
: 2000MΩ min.
Char. R[DC250V] : 1000MΩ min.
Humidity
Loading
Life
Testing Method
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
*1room condition for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at *1room condition.
(Char. R[DC1 to 3.15kV], Char. C)
Post-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at *1room condition for 24±2 hrs. (Char. R[DC250V])
Measurement order:
I.R. -> Pre-treatment -> Capacitance • D.F. ->
Humidity loading test -> *2 I.R. -> Post-treatment ->
Capacitance • D.F. (Char. R[DC250V])
Apply a DC voltage of 200% of the rated voltage (DC250V,
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 *1room condition for 24±2 hrs. before initial measurements.
Post-treatment:
Capacitor should be stored at 125±3°C for 1 hr., then placed
at *1room condition for 24±2 hrs.
Measurement order:
I.R. -> Pre-treatment -> Capacitance • D.F. -> Life test ->
*3I.R. -> Post-treatment -> Capacitance • D.F.
(Char. R[DC250V])
*1 "room condition" Temperature: 15 to 35°C, Relative humidity: 45 to 75%, Atmospheric pressure: 86 to 106kPa
*2 The measurement of I.R. will be held in 1 to 2 hrs. after Humidity loading test.
*3 The measurement of I.R. will be held in 12 to 24 hrs. after Life test.
12
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High Voltage Ceramic Capacitors (DC250V-6.3kV)
DEA Series (125 deg. C Guaranteed/Class 1/DC1k-3.15kV)
D max.
T max.
25.0 min.
e
25.0 min.
1. Temperature compensating type ceramics realize low
heat dissipation than DEH/DES series.
2. Operating temperature range is guaranteed up to 125
degree C.
3. Coated with flame-retardant epoxy resin
(equivalent to UL94V-0 standards).
4. Taping available for automatic insertion.
5. Available product for RoHS Restriction
(EU Directive 2002/95/EC).
T max.
3.0 max.
■ Features
F±1.0
ød
(in mm)
Lead Code Coating Extension e
[Bulk]
Vertical Crimp Long (Fig. 1)
Straight Long (Fig. 2)
A2, A3
C1, CD
C3
ød
Style
Up to the end of crimp 0.6±0.05
Fig. 1
3.0 max.
0.5±0.05
Fig. 2
3.0 max.
0.6±0.05
Fig. 2
■ Applications
T max.
T max.
ød
5.0±1.0
e
5.0±1.0
D max.
3.0 max.
1. Ideal for use as the ballast in back lighting
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.
F±0.8
(in mm)
Lead Code Coating Extension e
B2, B3
[Bulk]
Vertical Crimp Short (Fig. 1)
Straight Short (Fig. 2)
ød
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 (In case of DC3.15kV, marked with 3KV)
Marked with
(omitted for nominal body diameter ø9mm and under)
Abbreviation (omitted for nominal body diameter ø5mm and under)
13
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SL Characteristics
3
Part Number
DC Rated
Voltage
(Vdc)
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.
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Continued from the preceding page.
Part Number
DC Rated
Voltage
(Vdc)
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.
3
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Specifications and Test Methods
No.
Item
Testing Method
1
Operating Temperature Range
2
Appearance and Dimensions
No marked defect on appearance form
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.) is
applied for 1 to 5 sec. between capacitor
lead wires and metal balls.
(Charge/Discharge currentV50mA)
Between Lead
Wires
3
Specifications
-25 to +125°C
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 Table.
5
Insulation
Resistance (I.R.)
6
7
8
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
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 *1room 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)
Continued on the following page.
16
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Specifications and 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
Specifications
Testing 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 figure, the lead wires
,,,,,,,,,,
,,,,
,
to 2.0mm
,
should be immersed solder of
, Molten
,,,
260+0/-5°C up to 1.5 to 2.0mm
Solder
from the root of terminal for
7.5+0/-1 sec.
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at *1room condition.
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 *1room condition.
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.
Step
1
2
3
4
3
Temperature(°C) Time(min)
-25±3
30
Room Temp.
3
125±3
30
Room Temp.
3
Cycle time: 5 cycle
Post-treatment:
Capacitor should be stored for 1 to 2 hrs. at *1room condition.
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 *1room condition.
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 *1room 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)
17
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High Voltage Ceramic Capacitors (DC250V-6.3kV)
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 standards).
3. Taping available for automatic insertion.
4. Available product for RoHS Restriction
(EU Directive 2002/95/EC).
T max.
T max.
3.0 max.
■ Features
25.0 min.
25.0 min.
e
F±1.0
ød
(in mm)
Lead Code Coating Extension e
Ideal for use on decoupling circuits for power supplies.
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
4
D max.
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.
■ Applications
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
■ 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
18
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 (In case of 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)
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B Characteristics
Part Number
DC Rated
Voltage
(Vdc)
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
4
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
(Vdc)
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.
19
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F Characteristics
Part Number
DC Rated
Voltage
(Vdc)
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.
4
20
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Specifications and Test Methods
No.
Item
Specifications
Testing Method
1
Operating Temperature Range
-25 to +85°C
2
Appearance and Dimensions
No marked defect on appearance form
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 Table.
Insulation
Resistance (I.R.)
6
7
Between Lead
Wires
Temperature Characteristics
Lead wire should not be cut off.
Capacitor should not be broken.
Strength of Lead
10
11
12
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.
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
Vibration
Resistance
4
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
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.
21
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Specifications and Test Methods
Continued from the preceding page.
No.
13
4
14
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
Testing 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 figure, the lead wires
,,,,,,,,,,
,,,,
,
to 2.0mm
,
, Molten
should be immersed solder of
,,,
260+0/-5°C up to 1.5 to 2.0mm
Solder
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.
Step
1
2
3
4
Step Temperature(°C) Time(min) Immersion water
1
65 +5/-0
15
Clean water
2
0 ±3
15
Salt water
Cycle time : 2 cycle
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
22
Temperature(°C) Time(min)
-25±3
30
Room Temp.
3
85±3
30
Room Temp.
3
Cycle time: 5 cycle
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High Voltage Ceramic Capacitors (DC250V-6.3kV)
DEC Series (Class 1, 2/DC6.3kV)
D max.
■ Features
1. Coated with flame-retardant epoxy resin
(equivalent to UL94V-0 standards).
2. Available product for RoHS Restriction
(EU Directive 2002/95/EC).
T max.
25.0 min.
e
F±1.0
■ Applications
ød
(in mm)
1. Ideal for use as the ballast in back lighting
inverters for liquid crystal displays (SL Char.).
2. Ideal for use on high voltage circuits such as
Cockcroft circuits (B Char.).
[Bulk]
Straight Long (C4)
Lead Code
Coating Extension e
ød
C4
3.0 max.
0.6±0.05
■ Marking
Temp. Char.
SL
Nominal Body Diameter
B
ø7mm
5D
6KV
ø8-9mm
47J
6KV
66
331K
6KV
66
ø10-15mm
151J
6KV
66
B
102K
6KV
66
Temperature Characteristics
E
5
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
Nominal Capacitance
Capacitance Tolerance
Marked with code
Marked with code (In case of DC6.3kV, marked with 6KV)
Rated Voltage
Manufacturer's Identification
Manufactured Date Code
Marked with
(omitted for nominal body diameter ø9mm and under)
Abbreviation (omitted for nominal body diameter ø7mm)
SL Characteristics
DC Rated
Voltage
(Vdc)
Capacitance
(pF)
Body Dia. D
(mm)
Lead Spacing F
(mm)
Body Thickness T
(mm)
DEC1X3J050DC4BMS1
6300
5 ±0.5pF
7
10.0
7.0
DEC1X3J100JC4BMS1
6300
10 ±5%
7
10.0
7.0
DEC1X3J120JC4B
6300
12 ±5%
8
10.0
7.0
DEC1X3J150JC4B
6300
15 ±5%
8
10.0
7.0
DEC1X3J180JC4B
6300
18 ±5%
9
10.0
7.0
DEC1X3J220JC4B
6300
22 ±5%
9
10.0
7.0
DEC1X3J270JC4B
6300
27 ±5%
9
10.0
7.0
DEC1X3J330JC4B
6300
33 ±5%
9
10.0
7.0
DEC1X3J390JC4B
6300
39 ±5%
9
10.0
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
Part Number
23
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B Characteristics
DC Rated
Voltage
(Vdc)
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
(Vdc)
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
E Characteristics
Part Number
5
24
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Specifications and Test Methods
No.
Item
Specifications
Testing Method
1
Operating Temperature Range
-25 to +85°C
2
Appearance and Dimensions
No marked defect on appearance form
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 Table.
5
Temperature Characteristics
Pre-treatment : Capacitor should be stored at 85±2°C for 1 hr., then placed at
*1room condition for 24±2 hrs. before measurements. (Char. B, E)
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
10
11
12
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
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
Vibration
Resistance
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 *1room condition for 24±2 hrs.
before initial measurements. (Char. B, E)
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
*1room condition. (Char. SL)
Post-treatment: Capacitor should be stored for 4 to 24 hrs. at
*1room condition. (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.
25
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Specifications and Test Methods
Continued from the preceding page.
No.
13
14
Item
16
17
Appearance
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
5
15
Specifications
No marked defect
Humidity (Under
Steady State)
Humidity
Loading
Life
Testing 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 figure, the lead wires
,,,,,,,,,,
,,,,
,
to 2.0mm
,
, Molten
should be immersed solder of
,,,
260+0/-5°C up to 1.5 to 2.0mm
Solder
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 *1room condition for 24±2 hrs.
before initial measurements. (Char. B, E)
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
*1room condition. (Char. SL)
Post-treatment: Capacitor should be stored for 4 to 24 hrs. at
*1room condition. (Char. B, E)
The capacitor should be subjected to 5 temperature cycles,
then consecutively to 2 immersion cycles.
Step
1
2
3
4
Step Temperature(°C) Time(min) Immersion water
1
65 +5/-0
15
Clean water
2
0 ±3
15
Salt water
Cycle time: 2 cycle
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 *1room condition for 24±2 hrs.
before initial measurements. (Char. B, E)
Post-treatment: Capacitor should be stored for 4 to 24 hrs. at
*1room condition.
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 *1room condition for 24±2 hrs.
before initial measurements. (Char. B, E)
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
*1room 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 *1room condition for 24±2 hrs.
before initial measurements. (Char. B, E)
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
*1room condition. (Char. SL)
Post-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at *1room condition 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 *1room condition for 24±2 hrs.
before initial measurements. (Char. B, E)
Post-treatment: Capacitor should be stored for 1 to 2 hrs. at
*1room condition. (Char. SL)
Post-treatment: Capacitor should be stored at 85±2°C for 1 hr.,
then placed at *1room condition 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)
26
Temperature(°C) Time(min)
-25±3
30
Room Temp.
3
85±3
30
Room Temp.
3
Cycle time: 5 cycle
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Packaging
Taping Specification
15.0mm pitch/lead spacing 7.5mm taping
Straight type
(Lead Code : P3)
∆S
e
W0
∆S
P2
∆S
D
P
12.7mm pitch/lead spacing 5.0mm taping
Vertical crimp type
(Lead Code : N2)
∆S
D
P
R
P0
∗
W
ød
L
F
W0 W2
H0
W1
P1
∆h2
∗
e
P2
O
∆h1
Tmax.
Marked
side
øD0
∗
3.0 max.
5
R
P0
Lead Code
N2,N3,N7
H0
Lead Code P2,P3
t1
øD0
R
ød
F
L
L
P0
P1
t2
ød
F
W0 W2
H0
W1
W
P1
W
e
D
H0
W1
W
L
12.7mm pitch/lead spacing 5.0mm taping
Straight type
(Lead Code : P2)
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
W 0 W2
H
W1
D
W2
P
e
P2
15.0mm pitch/lead spacing 7.5mm taping
Vertical crimp type
(Lead Code : N3)
øD0
Item
Code
P3
N3
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 specification
Deviation along tape, left or right
∆S
0±2.0
Carrier tape width
W
Position of sprocket hole
W1
Lead distance between reference
H
and bottom planes
H0
Protrusion length
r
15.0
12.7
30.0
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
+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 specification
Portion to cut in case of defect
L
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
∆h1
∆h2
11.5 min.
2.0 max.
1.0 max.
(in : mm)
Continued on the following page.
28
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Packaging
Continued from the preceding page.
Packaging Styles
Bulk
Polyethylene Bag
Taping
Ammo Pack
Minimum Quantity (Order in Sets Only)
[Bulk] 1,000 pcs.
[Taping]
1,500 pcs. (Lead Code : P2, N2)
1,000 pcs. (Lead Code : P3, N3∗)
500 pcs. (Lead Code : N7)
∗ 900 pcs. for 2kV and 3.15kV
5
Minimum Order Quantity
[Bulk] 3,000 pcs.
[Taping]
3,000 pcs. (Lead Code : P2, N2)
3,000 pcs. (Lead Code : P3, N3∗)
2,000 pcs. (Lead Code : N7)
∗ 2,700 pcs. for 2kV and 3.15kV
“Minimum Quantity” means the numbers of units of each delivery or order. The
quantity should be an integral multiple of the “minimum quantity”. (Please note
that the actual delivery quantity in a package may change sometimes.)
29
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!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 which 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
5
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
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 at an
atmosphere 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 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 would follow
an electric shock, fire or fume.
Continued on the following page.
30
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!Caution
Continued from the preceding page.
Allowable Conditions at High-frequency
DC
Temp.
Rated
Char.
Voltage
R
250V
250Vp-p
10°C Max.
C
500V
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
5°C Max.
1kV
DEH
R
2kV
3.15kV
DEA
DEC
DES
Applied
Self-heating Temp.
Voltage (Max.) (25°C Ambient Temp.) *1
SL
SL
D
1kV
1000Vp-p
2kV
2000Vp-p
3.15kV
3150Vp-p
6.3kV
6300Vp-p
500V
500Vp-p
1kV
800Vp-p
1000Vp-p
Capacitor's
Ambient
Temp. *2
-25 to +85°C
* As of May. 2005, subject series are below.
· DEA/DEH/DES Series: Selection currently available.
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.
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)
25
20
15
10
5
0
100
Rated Voltage: 1kV
2kV
3.15kV
1000
Applied Voltage [Vp-p]
10000
5°C Max.
5°C Max.
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 characteristic for
a sine wave voltage.
DES Series D Char. (Rated Voltage: DC1kV)
Allowable Self-heating Temp. [°C]
Series
Allowable Conditions
at High-frequency *3
We are offering free software the "capacitor selection
tool: Murata Medium Voltage Capacitors Selection Tool
by Voltage Form (*)" which will assist you in selecting a
suitable capacitor.
The software can be downloaded from Murata's Internet
Web site.
(http://www.murata.com/designlib/mmcsv_e.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, in case the selfheating 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 it's 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.
31
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!Caution
Continued from the preceding page.
Dependence of Self-heating Temperature on
Ambient Temperature
DEH Series C Char. and R Char. (Rated Voltage: DC1kV to 3.15kV)
DEH Series R Char. (Rated Voltage: DC250V) and
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
R Char. (250V)
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
5
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.
32
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Characteristics Data (Typical Example)
■ Capacitance-Temperature Characteristics
B, E, F, SL char.
C, D, R char.
20
60
40
D
0
C
R
20
SL
B
Cap. Change [%]
Cap. Change [%]
10
B
SL
-20
0
-10
E
-40
E
-20
R
-60
C
F
-80
-40
F
-20
0
20
40
60
Temp. [°C]
80
100
120
-30
-40
-20
0
20
40
60
Temp. [°C]
80
100
D
120
140
■ Capacitance-DC Bias Characteristics
20
DESD33A471KA2B
DEA1X3D221JA2B
0
Cap. Change [%]
DEHR33D102KA3B
-20
-40
5
DEBB33D102KA2B
-60
DEBE33D222ZA2B
-80
-100
0
500
1000
DC Bias [V]
1500
2000
27
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!Caution
Continued from the preceding page.
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 R Char. (Rated Voltage: DC250V)
DEH Series C Char. (Rated Voltage: DC500V)
10000
Allowable Voltage [Vp-p]
Allowable Voltage [Vp-p]
10000
1000
1000
to 470pF
(500)
1000pF
to 2200pF
4700pF
(250)
2200pF
4700pF
10000pF
100
1
10
Frequency [kHz]
100
100
1000
DEH Series R Char. (Rated Voltage: DC1kV)
10
Frequency [kHz]
100
5
220pF
470pF
1000pF
Allowable Voltage [Vp-p]
10000
1000
1000
220pF
470pF
1000pF
2200pF
2200pF
4700pF
4700pF
100
1000
DEH Series R Char. (Rated Voltage: DC2kV)
10000
Allowable Voltage [Vp-p]
1
1
10
Frequency [kHz]
100
1000
100
1
10
Frequency [kHz]
100
1000
DEH Series R Char. (Rated Voltage: DC3.15kV)
Allowable Voltage [Vp-p]
10000
(3150)
1000
220pF
470pF
1000pF
2200pF
100
1
10
Frequency [kHz]
100
1000
Continued on the following page.
33
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!Caution
Continued from the preceding page.
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: DC1kV)
DEA Series SL Char. (Rated Voltage: DC2kV)
5
10000
to 100pF
220pF
470pF
1000
100
1
10
Frequency [kHz]
100
Allowable Voltage [Vp-p]
Allowable Voltage [Vp-p]
10000
1000
100
1000
DEA Series SL Char. (Rated Voltage: DC3.15kV)
10pF
100pF
220pF
470pF
1
10
Frequency [kHz]
100
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
1000
1
10
Frequency [kHz]
100
1000
to 22pF
47pF
100pF
1000
100
1
10
Frequency [kHz]
100
1000
Continued on the following page.
34
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sheet for product specifications before ordering.
!Caution
Continued from the preceding page.
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.
DES Series D Char. (Rated Voltage: DC500V)
DES Series D Char. (Rated Voltage: DC1kV)
10000
1000
(500)
100
to 1000pF
2200pF
4700pF
1
10
Frequency [kHz]
100
1000
Allowable Voltage [Vp-p]
Allowable Voltage [Vp-p]
10000
100pF
220pF
470pF
1000pF
2200pF
4700pF
1000
5
100
1
10
Frequency [kHz]
100
1000
35
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C84E9.pdf 05.7.4
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!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. And 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.
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)
5
1. Vibration and impact
Do not expose a capacitor or its leads to
excessive shock or vibration during use.
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.
When soldering capacitor with a soldering iron, it
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 and resin molding
Before bonding or molding this product, verify that
these processes do not affect the quality of
■ !Caution (Handling)
Vibration and impact
Do not expose a capacitor or its leads to excessive
shock or vibration during use.
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.
36
capacitor by testing the performance of a bonded
or molded product in the intended equipment.
In case of 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 or molding
resin may cause a outer coating resin cracking
and/or ceramic element cracking of a capacitor in a
temperature cycling.
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.
�catalog
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Notice / ISO9000 Certifications
■ 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 capacitor
1. DEA/DEC series (Temp. Char. 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. So, 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.
So, it is not likely to be suitable for use in a
time constant circuit. Please contact us if you
need detailed information.
5
■ ISO9000 Certifications
Manufacturing plants which 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.
ISO9002
37
�!Note Please read rating and !CAUTION (for storage, operating, rating, soldering, mounting and handling) in this PDF catalog to prevent smoking and/or burning, etc.
This catalog has only typical specifications. Therefore, you are requested to approve our product specifications or to transact the approval sheet for product specifications before ordering.
C84E9.pdf 05.7.4
Note:
1. Export Control
For customers outside Japan
Murata products should not be used or sold for use in the development, production, stockpiling or utilization of any conventional weapons or mass-destructive
weapons (nuclear weapons, chemical or biological weapons, or missiles), or any other weapons.
For customers in Japan
For products which are controlled items subject to the “Foreign Exchange and Foreign Trade Law” of Japan, the export license specified by the law is required
for export.
<
<
>
>
2. Please contact our sales representatives or product engineers before using the products in this catalog for the applications listed below, which require especially
high reliability for the prevention of defects which might directly damage to a third party's life, body or property, or when one of our products is intended for use
in applications other than those specified in this catalog.
q Aircraft equipment
w Aerospace equipment
e Undersea equipment
r Power plant equipment
t Medical equipment
y Transportation equipment (vehicles, trains, ships, etc.)
u Traffic signal equipment
i Disaster prevention / crime prevention equipment
o Data-processing equipment
!0 Application of similar complexity and/or reliability requirements to the applications listed in the above
3. Product specifications in this catalog are as of May 2005. They are subject to change or our products in it may be discontinued without advance notice. Please
check with our sales representatives or product engineers before ordering. If there are any questions, please contact our sales representatives or product
engineers.
4. Please read rating and
CAUTION (for storage, operating, rating, soldering, mounting and handling) in this catalog to prevent smoking and/or burning, etc.
5. This catalog has only typical specifications because there is no space for detailed specifications. Therefore, please approve our product specifications or
transact the approval sheet for product specifications before ordering.
6. Please note that unless otherwise specified, we shall assume no responsibility whatsoever for any conflict or dispute that may occur in connection with the effect
of our and/or a third party's intellectual property rights and other related rights in consideration of your use of our products and/or information described or
contained in our catalogs. In this connection, no representation shall be made to the effect that any third parties are authorized to use the rights mentioned
above under licenses without our consent.
7. No ozone depleting substances (ODS) under the Montreal Protocol are used in our manufacturing process.
http://www.murata.com/
Head Office
1-10-1, Higashi Kotari, Nagaokakyo-shi, Kyoto 617-8555, Japan
Phone: 81-75-951-9111
International Division
3-29-12, Shibuya, Shibuya-ku, Tokyo 150-0002, Japan
Phone: 81-3-5469-6123 Fax: 81-3-5469-6155 E-mail: intl@murata.co.jp
�
