This is the PDF file of catalog No.C83E-3. No.C83E3.pdf 00.4.

11

CERAMIC CAPACITORS 12V/16V/25V/50V/500V

DD100 •DD10 •DD300 •DD400 Series

CERAMIC
CAPACITORS

Murata
Manufacturing Co., Ltd.
Cat.No.C83E-3
This is the PDF file of catalog No.C83E-3. No.C83E3.pdf 00.4.11

!CONTENT

!GENERAL DESCRIPTION OF CERAMIC CAPACITORS ............................2

!MURATA'S DISC TYPE CERAMIC CAPACITORS ........................................2
!MURATA'S CERAMIC CAPACITORS
1. TABLE OF CAPACITANCE RANGE............................................................................3Y4
2. PART NUMBERING ......................................................................................................3Y4
3. PRODUCT SPECIFICATIONS
DD100 SERIES 50V CERAMIC CAPACITORS ...............................................................5
DD10 SERIES 500V CERAMIC CAPACITORS ...............................................................9
DD300/DD400 SERIES BC CAPACITORS ....................................................................13
4. TAPING SPECIFICATIONS.............................................................................................16
5. PACKAGING STYLES .....................................................................................................16
6. SPECIFICATION AND TEST METHOD
6-1. TEMPERATURE COMPENSATING TYPE DD100/DD10 SERIES .......................17
6-2. HIGH DIELECTRIC CONSTANT TYPE DD100/DD10 SERIES ............................19
6-3. SEMICONDUCTIVE DIELECTRIC TYPE DD300/DD400 SERIES .......................21
7. TYPICAL CHARACTERISTICS DATA ............................................................................23
! CAUTION ...........................................................................................................24
!NOTICE ...................................................................................................................24
!ISO9000 CERTIFICATIONS ...............................................................................24
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!GENERAL DESCRIPTION OF CERAMIC CAPACITORS

Ceramic capacitors are produced by sandwiching a ceramic-dielectric layer of titanium oxide (TiO 2) or barium titanate (BaTiO3)
between two electrodes. Special features include high reliability, compact size, large capacitance, excellent high-frequency
characteristics, and simple mass production. Furthermore, their low cost enables wide application in electronic circuits designed for
by-pass, coupling, and resonant functions.
Ceramic capacitors are divided into two distinctive types according to structure YYYY monolithic and disc type.
The latter type is available in a larger variety, with rated voltages of 50V, 250V, 500V, 1kV, 2kV, 3.15kV and 6.3kV, besides AC
voltage. Murata has meanwhile developed its original BC capacitors YYYY semiconductive ceramic capacitors which are much
more compact in size and much larger in capacitance than conventional ceramic capacitors. BC capacitors are available in rated
voltages of 12V, 16V, 25V and 50V.

!MURATA'S DISC TYPE CERAMIC CAPACITORS

TYPE
RATED
DESCRIPTION SERIES CAPACITANCE RANGE (pF)
VOLTAGE
1 2 3
1 10 100 1000 10000 100000 500000

1 47000
CERAMIC DD100 50V
O O Y
CAPACITORS DD10 500V

12V
1000 470000
BC DD300 16V
Y Y O
CAPACITORS DD400 25V
50V

250V
500V
HIGH-VOLTAGE 10 10000
GENERAL 1kV
CERAMIC O O O
HR 2kV
CAPACITORS
3.15kV
6.3kV

SAFETY
STANDARD KH 100 10000
RECOGNIZED KX Y O Y AC250V
CERAMIC AC250V
CAPACITORS

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!MURATA'S CERAMIC CAPACITORS

1. TABLE OF CAPACITANCE RANGE
DC Nominal Capacitance Range (pF)
Rated Temp. Type
Series Page
Voltage Char. 1 50 100 200 500 1000 2000 5000 10000 20000 50000 100000 200000 500000
(V)

C∆ 1Y270
1
SL 1Y1000
DD100 50 5Y8
B 100Y10000
2
F 2200Y47000

C∆ 1Y270
1
SL 1Y560
DD10 500 9Y12
B 100Y10000
2
E 1000Y10000

50 F 22000Y100000

DD300 25 F 22000Y100000
Surface 3
( layer ) 16 F 220000
13Y15
12 F 100000Y470000

DD400 25 SR 1000Y100000
Boundary 3
( layer ) 16 SR 10000Y100000

2. PART NUMBERING
(Please specify the part number when ordering.)

(Ex.) DD104 – 63 B 101 K 50

q w e r t y
q Type e Temperature Characteristics
Series Code Code Cap. Change or Temp. Coeff. Temperature Range (D)
DDZZZ CK 0T250 (ppm/D)
DD plus the first digit denotes the series; the CJ 0T120 (ppm/D) Y25 to W85
DD100
next two digits denote nominal body diameter. CH 0T160 (ppm/D)
DD300
(Example) DD1 06 SL W350 to Y1000 (ppm/D) W20 to W85
DD400
Nominal Body Dia. 6mm B Within T10%
DD100 Series W20
E Within Y55 %
W30
Y25 to W85
DDZZ F Within Y80 %
The two digits denote the nominal body diameter. SR Within T15%
DD10
(Example) DD 07
Nominal Body Dia. 7.5mm r Nominal Capacitance

The first two digits denote significant figures; the last digit
w Lead Configuration denotes the multiplier of 10 in pF.
Code Configuration (Example)
-63 472=47Z102=4700pF
Inside Crimp
-64
-959
-989 Crimp Taping
-999

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Photo Special Feature and Application Fields

High reliability and low cost due to simple structure.

Low residual inductance permits application at high frequency.
The temperature-compensating type, in particular, is much more stable than conventional capacitors against
temperature variations.
The temperature-compensating type is applied mainly in oscillation, tuning, and coupling circuits; the high
dielectric-constant type in decoupling and by-pass capacitors.

Widely used in electronic circuits for TV and power sources.

BC capacitors have been designed to be more compact in size than the conventional ceramic capacitors
and are available at a lower cost.
The series is divided into two types by structure surface-layer and boundary-layer.
The surface-layer series can be used in the same way as the high dielectric-constant type of ceramic
capacitors.
The boundary-layer series can replace polyester-film capacitors because of similar characteristics.

t Capacitance Tolerance
Code Tolerance
C T0.25pF
D T0.5pF
J T005%
K T010%
M T020%
W100
P Y100 %
W180
Z Y120 %

y Rated Voltage
Code DC Rated Voltage
12 012V
16 016V
25 025V
50 050V
500 500V

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CERAMIC CAPACITORS
50V Ceramic Capacitors DD100 Series

!FEATURES
1. High reliability and low cost.
2. Little residual inductance. Can be used in the high
frequencies.
3. Temperature compensating type with high Q and stable
against temperature changes.
4. 50V-capacitors are designed to be suitable for 63V-
applications.

!DIMENSIONS
Packaging form Bulk Taping*2
Configuration Inside Crimp Inside Crimp
Lead code -63 -989, -999, -959

3.5 max.*1
Coating extension not exceed

D
4.8 max.
the center of crimp.

Dimensions
(in mm) φ 0.6 W0.06
Y0.05 Lead spacing F : 5.0
4.8 W0.8
Y0.4

Pitch of component P : 12.7

5.0T0.8
Pitch of sprocket hole P0 : 12.7

*1 4.0 max. in the case of temperature compensating type of 22pF and under, and high dielectric constant type of 470pF and under.
*2 Please see page 16 on other taping specification.

!MARKING
Type Temperature Compensating Type High Dielectric Constant Type
Temp. Char.
CK, CJ, CH SL B F
Item

12 12 B 472
DD104YDD106 102

121J 331J B 223Z

DD107 & DD108 332K M 67

B
271J 561J 682K 473Z
DD109YDD112 M 67 M 67 M 67 M 67

Temperature Characteristics Identified by color (Black). Omitted. Identified by code. Omitted.

Nominal Capacitance Under 100pF : Actual value. 100pF and over : Identified by 3-figure code.
Capacitance Tolerance Identified by code. Omitted for Nom. Dia. φ 6mm and under except F103Z.
Rated Voltage Identified by horizontal line under capacitance.
Manufacturer's Identification Identified by M . Omitted for Nom. Dia. φ 8mm and under except F223Z.
Manufactured Date Abbreviation. Omitted for Nom. Dia. φ 8mm and under except F223Z.

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!STANDARD LIST
Temperature Compensating Type DD100 Series
CK Characteristics (0T250ppm/D)
CJ Characteristics (0T120ppm/D)
CH Characteristics (0T260ppm/D)
Lead Code
Bulk Taping
Nominal Body Dia. DC Rated Inside Crimp Crimp
Capacitance Part Number
Capacitance D Voltage
Tolerance ( - : means optional lead code shown on the right.)
(pF) (mm max.) (V)

001 DD104 - CK 010 C 50

001.5 DD104 - CK 1R5 C 50
002 DD104 - CK 020 C 50
T0.25pF
003 DD104 - CJ 030 C 50
004 DD104 - CH 040 C 50
005 DD104 - CH 050 C 50
006 DD104 - CH 060 D 50
007 DD104 - CH 070 D 50
008 T0.5pF DD104 - CH 080 D 50
009 4.0 DD104 - CH 090 D 50
–989
010 DD104 - CH 100 D 50
012 DD104 - CH 120 J 50
015 DD104 - CH 150 J 50
018 DD104 - CH 180 J 50
50 –63
022 DD104 - CH 220 J 50
027 DD104 - CH 270 J 50
033 DD104 - CH 330 J 50
039 DD104 - CH 390 J 50
047 DD104 - CH 470 J 50
056 5.0 T5% DD105 - CH 560 J 50
068 DD106 - CH 680 J 50
6.0 –999
082 DD106 - CH 820 J 50
100 DD107 - CH 101 J 50
7.5
120 DD107 - CH 121 J 50
150 8.0 DD108 - CH 151 J 50
–959
180 DD109 - CH 181 J 50
9.5
220 DD109 - CH 221 J 50
270 10.5 DD110 - CH 271 J 50

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Temperature Compensating Type DD100 Series

SL Characteristics (W350 to Y1000ppm/D)
Lead Code
Bulk Taping
Nominal Body Dia. DC Rated Inside Crimp Crimp
Capacitance Part Number
Capacitance D Voltage
Tolerance ( - : means optional lead code shown on the right.)
(pF) (mm max.) (V)

0001 DD104 - SL 010 C 50

0001.5 DD104 - SL 1R5 C 50
0002 DD104 - SL 020 C 50
T0.25pF
0003 DD104 - SL 030 C 50
0004 DD104 - SL 040 C 50
0005 DD104 - SL 050 C 50
0006 DD104 - SL 060 D 50
0007 DD104 - SL 070 D 50
0008 T0.5pF DD104 - SL 080 D 50
0009 DD104 - SL 090 D 50
0010 DD104 - SL 100 D 50
0012 DD104 - SL 120 J 50
4.5
0015 DD104 - SL 150 J 50 –989
0018 DD104 - SL 180 J 50
0022 DD104 - SL 220 J 50
0027 DD104 - SL 270 J 50
0033 DD104 - SL 330 J 50
0039 50 DD104 - SL 390 J 50 –63
0047 DD104 - SL 470 J 50
0056 DD104 - SL 560 J 50
0068 DD104 - SL 680 J 50
0082 DD104 - SL 820 J 50
0100 DD104 - SL 101 J 50
T5%
0120 DD104 - SL 121 J 50
0150 5.5 DD105 - SL 151 J 50
0180 DD106 - SL 181 J 50
6.5 –999
0220 DD106 - SL 221 J 50
0270 DD107 - SL 271 J 50
0330 7.5 DD107 - SL 331 J 50
0390 DD107 - SL 391 J 50
0470 8.5 DD108 - SL 471 J 50 –959
0560 9.5 DD109 - SL 561 J 50
0680 DD110 - SL 681 J 50
10.5
0820 DD110 - SL 821 J 50
1000 12.5 DD112 - SL 102 J 50 Y

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High Dielectric Constant Type DD100 Series

B Characteristics (T10%)
Lead Code
Bulk Taping
Nominal Body Dia. Capacitance DC Rated
Part Number Inside Crimp Crimp
Capacitance D Tolerance Voltage
( - : means optional lead code shown on the right.)
(pF) (mm max.) (%) (V)

00100 DD104 - B 101 K 50

00120 DD104 - B 121 K 50
00150 DD104 - B 151 K 50
00180 DD104 - B 181 K 50
00220 DD104 - B 221 K 50
00270 DD104 - B 271 K 50
00330 DD104 - B 331 K 50
00390 4.0 DD104 - B 391 K 50
–989
00470 DD104 - B 471 K 50
00560 DD104 - B 561 K 50
00680 DD104 - B 681 K 50
00820 DD104 - B 821 K 50
01000 T10 50 DD104 - B 102 K 50 –63
01200 DD104 - B 122 K 50
01500 DD104 - B 152 K 50
01800 5.0 DD105 - B 182 K 50
02200 DD106 - B 222 K 50
6.0 –999
02700 DD106 - B 272 K 50
03300 DD107 - B 332 K 50
03900 7.5 DD107 - B 392 K 50
04700 DD107 - B 472 K 50
05600 8.0 DD108 - B 562 K 50 –959
06800 9.5 DD109 - B 682 K 50
08200 10.5 DD110 - B 822 K 50
10000 11.0 DD111 - B 103 K 50

F Characteristics (W30
Y80%)

Lead Code
Bulk Taping
Nominal Body Dia. Capacitance DC Rated
Part Number Inside Crimp Crimp
Capacitance D Tolerance Voltage
( - : means optional lead code shown on the right.)
(pF) (mm max.) (%) (V)

02200 DD104 - F 222 Z 50

4.0
04700 DD104 - F 472 Z 50 –989
06800 5.0 W80 DD105 - F 682 Z 50
Y20 50 –63
10000 6.0 DD106 - F 103 Z 50 –999
22000 8.0 DD108 - F 223 Z 50
–959
47000 10.5 DD110 - F 473 Z 50

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This is the PDF file of catalog No.C83E-3. No.C83E3.pdf 00.4.11

CERAMIC CAPACITORS
500V Ceramic Capacitors DD10 Series

!FEATURES
1. High reliability and low cost.
2. Little residual inductance. Can be used in the high
frequencies.
3. Temperature compensating type with high Q and stable
against temperature changes.

!DIMENSIONS
Packaging form Bulk Taping*2
Configuration Inside Crimp Inside Crimp
Lead code -63, -64 -989, -999, -959
Coating extension not exceed

D 4.0 max.
4.8 max.
the center of crimp.

Dimensions
(in mm) φ 0.6 W0.06
Y0.05 Lead spacing F : 5.0
4.8 W0.8
Y0.4

Pitch of component P : 12.7

F*1T0.8
Pitch of sprocket hole P0 : 12.7

*1 F : 5.0 (Lead code : -63) or F : 10.0 (Lead code : -64)

*2 Please see page 16 on other taping specification.

!MARKING
Type Temperature Compensating Type High Dielectric Constant Type
Temp. Char.
CK, CJ, CH SL B E
Item

B E
DD05 & DD06 10 10 101 102

B E
DD07 & DD08 33J 181J
122K 222P

B E
221J 561J
DD09YDD18 103K 103P
M 67 M 67 M 67 M 67

Temperature Characteristics Identified by color (Black). Omitted. Identified by code. Identified by code.
Nominal Capacitance Under 100pF : Actual value. 100pF and over : Identified by 3-figure code.
Capacitance Tolerance Identified by code. Omitted for Nom. Dia. φ 6mm and under.
Rated Voltage Omitted.
Manufacturer's Identification Identified by M . Omitted for Nom. Dia. φ 8mm and under.
Manufactured Date Abbreviation. Omitted for Nom. Dia. φ 8mm and under.

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!STANDARD LIST
Temperature Compensating Type DD10 Series
CK Characteristics (0T250ppm/D)
CJ Characteristics (0T120ppm/D)
CH Characteristics (0T260ppm/D)
Lead Code
Bulk Taping
Nominal Body Dia. DC Rated Inside Crimp Crimp
Capacitance Part Number
Capacitance D Voltage
Tolerance ( - : means optional lead code shown on the right.)
(pF) (mm max.) (V)

001 DD05 - CK 010 C 500

001.5 DD05 - CK 1R5 C 500
002 DD05 - CK 020 C 500
T0.25pF
003 DD05 - CJ 030 C 500
004 DD05 - CH 040 C 500
005 DD05 - CH 050 C 500
006 DD05 - CH 060 D 500
007 DD05 - CH 070 D 500 –989
008 5.0 T0.5pF DD05 - CH 080 D 500
009 DD05 - CH 090 D 500
010 DD05 - CH 100 D 500
012 DD05 - CH 120 J 500
015 DD05 - CH 150 J 500
–63
018 DD05 - CH 180 J 500
500
022 DD05 - CH 220 J 500
027 6.0 DD06 - CH 270 J 500 –999
033 DD07 - CH 330 J 500
039 7.5 DD07 - CH 390 J 500
047 DD07 - CH 470 J 500
056 8.0 T5% DD08 - CH 560 J 500
068 DD09 - CH 680 J 500 –959
9.5
082 DD09 - CH 820 J 500
100 DD10 - CH 101 J 500
10.5
120 DD10 - CH 121 J 500
150 11.0 DD11 - CH 151 J 500
180 12.5 DD12 - CH 181 J 500
220 DD14 - CH 221 J 500 Y
14.5 –64
270 DD14 - CH 271 J 500

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Temperature Compensating Type DD10 Series

SL Characteristics (W350 to Y1000ppm/D)
Lead Code
Bulk Taping
Nominal Body Dia. DC Rated Inside Crimp Crimp
Capacitance Part Number
Capacitance D Voltage
Tolerance ( - : means optional lead code shown on the right.)
(pF) (mm max.) (V)

001 DD05 - SL 010 C 500

001.5 DD05 - SL 1R5 C 500
002 DD05 - SL 020 C 500
T0.25pF
003 DD05 - SL 030 C 500
004 DD05 - SL 040 C 500
005 DD05 - SL 050 C 500
006 DD05 - SL 060 D 500
007 DD05 - SL 070 D 500
008 T0.5pF DD05 - SL 080 D 500
009 DD05 - SL 090 D 500
010 5.0 DD05 - SL 100 D 500 –989
012 DD05 - SL 120 J 500
015 DD05 - SL 150 J 500
018 DD05 - SL 180 J 500
022 DD05 - SL 220 J 500
027 DD05 - SL 270 J 500
500 –63
033 DD05 - SL 330 J 500
039 DD05 - SL 390 J 500
047 DD05 - SL 470 J 500
056 DD05 - SL 560 J 500
068 DD05 - SL 680 J 500
082 DD06 - SL 820 J 500
6.0 –999
100 DD06 - SL 101 J 500
T5%
120 DD07 - SL 121 J 500
7.5
150 DD07 - SL 151 J 500
180 8.0 DD08 - SL 181 J 500
220 DD09 - SL 221 J 500
9.5 –959
270 DD09 - SL 271 J 500
330 DD10 - SL 331 J 500
10.5
390 DD10 - SL 391 J 500
470 11.0 DD11 - SL 471 J 500
560 12.5 DD12 - SL 561 J 500 Y

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High Dielectric Constant Type DD10 Series

B Characteristics (T10%)
Lead Code
Bulk Taping
Nominal Body Dia. Capacitance DC Rated
Part Number Inside Crimp Crimp
Capacitance D Tolerance Voltage
( - : means optional lead code shown on the right.)
(pF) (mm max.) (%) (V)

00100 DD05 - B 101 K 500

00120 DD05 - B 121 K 500
00150 DD05 - B 151 K 500
00180 DD05 - B 181 K 500
00220 DD05 - B 221 K 500
5.0 –989
00270 DD05 - B 271 K 500
00330 DD05 - B 331 K 500
00390 DD05 - B 391 K 500
00470 DD05 - B 471 K 500
00560 DD05 - B 561 K 500
00680 DD06 - B 681 K 500 –63
6.0 –999
00820 DD06 - B 821 K 500
01000 T10 500 DD07 - B 102 K 500
7.5
01200 DD07 - B 122 K 500
01500 DD08 - B 152 K 500
8.0
01800 DD08 - B 182 K 500
–959
02200 9.5 DD09 - B 222 K 500
02700 10.5 DD10 - B 272 K 500
03300 DD11 - B 332 K 500
11.0
03900 DD11 - B 392 K 500
04700 12.5 DD12 - B 472 K 500
05600 DD14 - B 562 K 500
14.5
06800 DD14 - B 682 K 500 Y
–64
08200 16.5 DD16 - B 822 K 500
10000 18.5 DD18 - B 103 K 500

E Characteristics (W20
Y55%)

Lead Code
Bulk Taping
Nominal Body Dia. Capacitance DC Rated
Part Number Inside Crimp Crimp
Capacitance D Tolerance Voltage
( - : means optional lead code shown on the right.)
(pF) (mm max.) (%) (V)

01000 6.0 DD06 - E 102 P 500 –999

01500 7.5 DD07 - E 152 P 500
02200 8.0 DD08 - E 222 P 500
W100 –63 –959
03300 9.5 500 DD09 - E 332 P 500
Y000
04700 10.5 DD10 - E 472 P 500
06800 12.5 DD12 - E 682 P 500
Y
10000 14.5 DD14 - E 103 P 500 –64

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BC CAPACITORS
12/16/25/50V BC Capacitors DD300/DD400 Series

!FEATURES
Murata has devoted constant effort to developing
semiconductive ceramics technology. We design capacitors in
much more compact sizes than conventional ceramic
capacitors, having reduced the diameter by 50% and the
effective thickness by 90%. Capacitance values available are
0.001 to 0.47µF, perfect for meeting the need for high density
assemblies.
There are two kinds of BC capacitors, both designated by their
inside construction YYYY DD300 series (Surface layer type)
and DD400 series (Boundary layer type).

!COMPARATIVE LIST OF EACH SERIES

Series
DD300 Series (Surface Layer) DD400 Series (Boundary Layer)
Item

Surface Layer Boundary Layer Electrode

Inside Construction Electrode

and
Equivalent Circuit
Semiconductive Ceramics Semiconductive Ceramics

!DIMENSIONS
Packaging form Bulk Taping*2
Configuration Inside Crimp Inside Crimp
Lead code -63 -989, -999, -959

3.0 max.*1
Coating extension not exceed

D
4.8 max.
the center of crimp.

Dimensions
(in mm) φ 0.6 W0.06
Y0.05 Lead spacing F : 5.0
4.8 W0.8
Y0.4

Pitch of component P : 12.7

5.0T0.8
Pitch of sprocket hole P0 : 12.7

*1 3.5mm max. in case of DD312

*2 Please see page 16 on other taping specification.

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!MARKING
Series DD300 Series DD400 Series
Temp. Char. F Temp. Char. SR

Rated 12V Rated 16V

Voltage 16V 50V Voltage 25V
Type 25V Type

DD304 F F DD404 SR
473 223
DD305 DD405 102M

F F DD406 SR
DD306 104Z 473Z
473M
25V DD407 25V

F F SR
DD308 224Z 104Z DD408 683M
25V M
12V M M

F SR
DD310 334Z 104M
12V M
DD410 25V M
DD312 67 67

Temperature
Identified by code. Identified by code.
Characteristics

Nominal
Identified by 3-figure code. Identified by 3-figure code.
Capacitance

Capacitance Identified by code.

Identified by code.
Tolerance Omitted for Nom. Dia. φ 5mm and under.

Identified by code.
12/16/25V
Rated Voltage Omitted for Nom. Dia. φ 5mm and under. Identified by code.
Omitted for Nom. Dia. φ 5mm and under.
50V Indentified by horizontal line (Y) under capacitance.

Manufacturer's Identified by M . Identified by M .

Identification Omitted for Nom. Dia. φ 6.3mm and under. Omitted for Nom. Dia. φ 7mm and under.

Manufactured Abbreviation. Abbreviation.

Date Omitted for Nom. Dia. φ 8mm and under. Omitted for Nom. Dia. φ 8mm and under.
¡Marking of color : color of red

!STANDARD LIST
DD300 Series
F Characteristics (W30
Y80%)

Lead Code
Bulk Taping
Nominal Body Dia. Capacitance DC Rated
Part Number Inside Crimp Crimp
Capacitance D Tolerance Voltage
( - : means optional lead code shown on the right.)
(pF) (mm) (%) (V)

100000 00.5T1.0 DD305 - F 104 Z 12 –999

220000 00.8T1.0 DD308 - F 224 Z 12
12 –959
330000 0.10T1.0 DD310 - F 334 Z 12
470000 12.5T1.3 DD312 - F 474 Z 12 Y
220000 0.10T1.0 16 DD310 - F 224 Z 16 –959
022000 DD304 - F 223 Z 25
W80
033000 00.4T1.0 DD304 - F 333 Z 25 –63 –989
Y20 25
047000 DD304 - F 473 Z 25
100000 06.3T1.0 DD306 - F 104 Z 25 –959
022000 00.4T1.0 DD304 - F 223 Z 50 –989
033000 00.5T1.0 DD305 - F 333 Z 50 –999
50
047000 06.3T1.0 DD306 - F 473 Z 50
–959
100000 00.8T1.0 DD308 - F 104 Z 50

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DD400 Series
SR Characteristics (T15%)
Lead Code
Bulk Taping
Nominal Body Dia. Capacitance DC Rated Inside Crimp Crimp
Part Number
Capacitance D Tolerance Voltage
( - : means optional lead code shown on the right.)
(pF) (mm) (%) (V)

010000 DD404 - SR 103 M 16

012000 DD404 - SR 123 M 16
015000 6.4T1 DD404 - SR 153 M 16 –989
018000 DD404 - SR 183 M 16
022000 DD404 - SR 223 M 16
027000 DD405 - SR 273 M 16
033000 16 DD405 - SR 333 M 16
6.5T1 –999
039000 DD405 - SR 393 M 16
047000 DD405 - SR 473 M 16
056000 DD406 - SR 563 M 16
6.3T1
068000 DD406 - SR 683 M 16
–959
082000 DD407 - SR 823 M 16
6.7T1
100000 DD407 - SR 104 M 16
001000 DD404 - SR 102 M 25
001200 DD404 - SR 122 M 25
001500 DD404 - SR 152 M 25
001800 DD404 - SR 182 M 25
002200 DD404 - SR 222 M 25
002700 T20 DD404 - SR 272 M 25
–63
003300 DD404 - SR 332 M 25
003900 6.4T1 DD404 - SR 392 M 25 –989
004700 DD404 - SR 472 M 25
005600 DD404 - SR 562 M 25
006800 DD404 - SR 682 M 25
008200 DD404 - SR 822 M 25
010000 25 DD404 - SR 103 M 25
012000 DD404 - SR 123 M 25
015000 DD404 - SR 153 M 25
018000 DD405 - SR 183 M 25
6.5T1 –999
022000 DD405 - SR 223 M 25
027000 DD406 - SR 273 M 25
6.3T1
033000 DD406 - SR 333 M 25
039000 DD407 - SR 393 M 25
6.7T1
047000 DD407 - SR 473 M 25
–959
056000 DD408 - SR 563 M 25
6.8T1
068000 DD408 - SR 683 M 25
082000 DD410 - SR 823 M 25
.10T1
100000 DD410 - SR 104 M 25
¡Capacitance tolerance K (T10%) is also available.

15
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4. TAPING SPECIFICATIONS
Lead Code : -989, -999 Lead Code : -959
∆h1 0 ∆ h2
P2 P ∆h1 0 ∆h2 P2 P ∆S T
∆S T D
D

H2
e

H2
e
F φd F φd

W2
P1 P1

W2
H0

H0
W1

W1
W0
L

W0
L
W

W
P0 φD0 P0 φ D0
t2 t1 t2 t1

Item Code Dimensions (mm) Item Code Dimensions (mm)

Pitch of component P 12.7 Diameter of sprocket hole φ D0 14.0T0.10
Pitch of sprocket hole P0 12.7T0.3 Lead diameter φd 10.6W0.06
Y0.05

W0.8
Lead spacing F 15.0Y0.2 Total tape thickness t1 10.6T0.30
Length from hole center to component center P2 6.35T1.3 Total thickness, tape and lead wire t2 1.5 max.
Length from hole center to lead P1 3.85T0.7 Body thickness T See the individual product specification
Body diameter D See the individual product specification Deviation across tape ∆h1, ∆h2 1.0 max.
Deviation along tape, left or right ∆S 10.0T1.0 Portion to cut in case of defect L 11.0W0.1
Y1.0

Carrier tape width W 18.0T0.5 Hold down tape width W0 9.5 min.
Position of sprocket hole W1 19.0T0.5 Hold down tape position W2 11.5T1.50
6.0 max. (Y989) Coating extension on lead e Up to the center of crimp
Lead distance between
H2 5.0 max. (Y999)
reference and bottom
4.8 max. (Y959)
planes
H0 16.0T0.5

5. PACKAGING STYLES
Bulk Taping

Polyethylene Bag Flat Pack

!MINIMUM QUANTITY* (Order in Sets Only)

[Bulk] 1,000 (pcs.) [Taping] 2,000 (pcs.)

!MINIMUM ORDER QUANTITY

10,000 (pcs.)
* "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.)

16
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6. SPECIFICATION AND TEST METHOD

6-1. TEMPERATURE COMPENSATING TYPE DD100/DD10 SERIES
Item Specification Testing Method
1 Operating Temperature Range Y25 to W85D Y
The capacitance shall be measured at 20D with 1T0.2MHz
2 Capacitance Within Specified tolerance.
and AC5V (r.m.s.) max..
C U 30pF : Q U 1000 Same condition as capacitance.
3 Q
C F 30pF : Q U 400W20C*1
The insulation resistance shall be measured with DC10T1V
4 Insulation Resistance (I. R.) 10000MΩ min.
(DC500T50V for DD10 Series) within 60T5 s of charging.
The capacitor shall not be damage when DC voltage of
Between 300% of the rated voltage are applied between the lead
No failure.
lead wires wires for 1 to 5 s.
(Charge/discharge currentV 50mA)
The capacitor is placed in the container
with metal balls of diameter 1mm so that
Dielectric
5 each lead wire, short-circuited, is kept Approx. 2mm
Strength
approximately 2mm off the balls as
Body
No failure. shown in the figure, and DC voltage of
Insulation Metal balls
250% of the rated voltage is applied for 1
to 5 s between capacitor lead wires and
small metals.
(Charge/discharge currentV 50mA)
Temperature Within specified tolerance. The capacitance measurement shall be made at each step
Coefficient (See Table A) specified in table. Capacitance change from the value of
step 3 shall not exceed the limit specified.
Temperature
6 Step 1 2 3 4 5
Characteristic Capacitance Within T0.2% or T0.05pF whichever
Drift is greater. C∆ 20T2D Y25T3D 20T2D 85T2D 20T2D
SL Y Y 20T2D 85T2D 20T2D

Appearance No marked defect. The capacitor shall firmly be soldered to the supporting lead
Capacitance Within specified tolerance. wire and vibration which is 10 to 55Hz in the vibration
frequency range.
Vibration
7 1.5mm in total amplitude, and about 1 min in the rate of
Resistance C U 30pF : Q U 1000
Q vibration change from 10Hz to 55Hz and back to 10Hz is
C F 30pF : Q U 400W20C*1
applied for a total of 6 h ; 2 h each in 3 mutually
perpendicular directions.
Appearance No marked defect. The lead wire shall be immersed into the melted solder of
Capacitance Within T2.5% or T0.25pF whichever 350T10D (Nominal body diameter φ 5mm and under
Change is greater. 270T5D) up to about 1.5 to 2mm from the main body for
Soldering
8 Dielectric 3.5T0.5 s. (Nominal body diameter φ 5mm and under
Effect
Strength 5T0.5 s.)
Pass the item No. 5.
(Between
lead wires ) Post-treatment : Capacitor shall be stored for 1 to 2 h at
*2
room condition.
Appearance No marked defect. Set the capacitor for 500W24Y20 h at 40T2D in 90 to 95%

Capacitance Within T5% or T0.5pF whichever is relative humidity.

Change greater. Post-treatment : Capacitor shall be stored for 1 to 2 h at
C U 30pF : Q U 350 *2
room condition.
Humidity 5
Q 10 V C F 30pF: Q U 275W 2 C*1
Under
9
( )
steady
state
I. R.
Dielectric
C F 10pF
1000MΩ min.
: Q U 200W10C*1

Strength
Pass the item No. 5.
( Between
lead wires )
*1 "C" expresses nominal capacitance value (pF).
*2 "room condition" temperature : 15 to 35D relative humidity : 45 to 75% atmospheric pressure : 86 to 106kPa

Table A
Cap. Change (%) Cap. Change (%)
Temp. Coeff. (ppm/D) between W20D and Y25D Temp. Coeff. (ppm/D) between W20D and Y25D
Char. Char.
between W20D and W85D between W20D and W85D
max. min. max. min.
CK 0T250 1.54 Y1.13 CH 0T60 0.49 Y0.27
CJ 0T120 0.82 Y0.54 SL W350 to Y1000 Y Y

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Item Specification Testing Method

W24
Appearance No marked defect. Apply the rated voltage for 500Y20 h at 40T2D in 90 to 95%
Capacitance Within T7.5% or T0.75pF relative humidity.
Change whichever is greater. Post-treatment : Capacitor shall be stored for 1 to 2 h at
C U 30pF : Q U 200 *2
room condition.
Q 10
Humidity C F 30pF : Q U 100W 3 C*1 (Charge/discharge currentV50mA)
10
Loading I. R. 500MΩ min.
Dielectric
Strength
Pass the item No. 5.
( Between
lead wires )
Appearance No marked defect. Apply a DC voltage of 200% of the rated voltage for
Capacitance Within T3% or T0.3pF W48
1000Y40 h at 85T2D.
Change whichever is greater. Post-treatment : Capacitor shall be stored for 1 to 2 h at
C U 30pF : Q U 350 *2
room condition.
5
Q 10VCF30pF: QU275W 2 C*1 (Charge/discharge currentV50mA)
11 Life C F 10pF : Q U 200W10C*1
I. R. 2000MΩ min.
Dielectric
Strength
Pass the item No. 5.
( Between
lead wires )
Appearance No marked defect. The capacitor shall be subjected to 5 cycles of temperature
Capacitance Within T5% or T0.5pF variation according to Table 1, then the capacitor shall be
Change whichever is greater. immersed into two baths, the one a clean water bath at
C U 30pF : Q U 350 temperature 65W5Y0D and the other a saturated salt water
5
Q 10VCF30pF: QU275W 2 C*1 bath at temperature 0T3D for 15 min.
C F 10pF : Q U 200W10C*1 This immersion cycle shall be repeated 2 times, then the
I. R. 1000MΩ min. capacitor shall be washed in running water, wiped or dried
Temperature with air draught.
12 and immersion Post-treatment : Capacitor shall be stored for 1 to 2 h at
*2
cycling room condition.
Dielectric (Table 1)
Strength Step Temperature (D) Time
Pass the item No. 5.
(Between
lead wires ) 1
2
Y25W0
Y3

room temp.
30 min
33 min
3 85W3
Y0 30 min
4 room temp. 33 min

As a figure, fix the body of capacitor, apply a

tensile weight gradually to each lead wire in
Pull the radial direction of capacitor up to 10N
and keep it for 10T1 s. W
Strength of Lead wire shall not cut off.
13
Lead Capacitor shall not be broken.
Each lead wire shall be subjected to 5N weight and then a
90° bend, at the point of egress, in one direction, return to
Bending
original position, and then a 90° bend in the opposite
direction at the rate of one bend in 2 to 3 s.
Lead wire shall be soldered with The lead wire of a capacitor shall be dipped into a methanol
uniformly coated on the axial solution of 25wt% rosin and then into molten solder of
14 Solderability of Leads 3
direction over 4 of the 235T5D for 2T0.5 s. In both cases the depth of dipping is up
circumferential direction. to about 1.5 to 2 mm from the root of lead wires.
*1 "C" expresses nominal capacitance value (pF).
*2 "room condition" temperature : 15 to 35D relative humidity : 45 to 75% atmospheric pressure : 86 to 106kPa

18
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6-2. HIGH DIELECTRIC CONSTANT TYPE DD100/DD10 SERIES

Item Specification Testing Method
1 Operating Temperature Range Y25 to W85D Y
The capacitance shall be measured at 20D with 1T0.2kHz
2 Capacitance Within Specified tolerance.
and AC5V (r.m.s.) max..
B/E : D. F. V 2.5% Same condition as capacitance.
3 Dissipation Factor (D. F.)
F/E : D. F. V 5.0%
C*1 V 0.02µF : 10000MΩ min. The insulation resistance shall be measured with DC10T1V
4 Insulation Resistance (I. R.)
C*1 G 0.02µF : 17500MΩ min. (DC500T50V for DD10 Series) within 60T5 s of charging.
The capacitor shall not be damage when DC voltage of
Between 250% of the rated voltage are applied between the lead
No failure.
lead wires wires for 1 to 5 s.
(Charge/discharge current V 50mA)
The capacitor is placed in the container
with metal balls of diameter 1mm so that
Dielectric
5 each lead wire, short-circuited, is kept Approx. 2mm
Strength
approximately 2mm off the balls as
Body
No failure. shown in the figure, and DC voltage of
Insulation Metal balls
250% of the rated voltage is applied for 1
to 5 s between capacitor lead wires and
small metals.
(Charge/discharge current V50mA)
B : Within T10% The capacitance measurement shall be made at each step
No W20
E : Within Y55 % specified in table and at a sufficient number of intermediate
DC voltage W30
F : Within Y80% temperatures between step 2 and 7.
Capacitance change from the value of step 3 shall not
exceed the limit specified.
Step 1 2 3 4
Temp. 20T2D Y25T3D 20T2D 85T2D
Temperature
6 DC Voltage applied None None None None
Characteristic B : Within W10
Y20%
With W20 Step 5 6 7 8
E : Within Y80 %
DC voltage W30 Temp. 85T2D 20T2D Y25T3D 20T2D
F : Within Y95 %
DC Voltage applied Rated Rated Rated Rated

Pre-treatment : Capacitor shall be stored at 85T2D for 1 h,

then placed at *2room condition for 24T2 h
before measurements.
Appearance No marked defect. The capacitor shall firmly be soldered to the supporting lead
Capacitance Within specified tolerance. wire and vibration which is 10 to 55Hz in the vibration
Vibration frequency range. 1.5 mm in total amplitude, and about 1 min
7
Resistance in the rate of vibration change from 10Hz to 55Hz and back
D. F. Satisfies initial requirement.
to 10Hz is applied for a total of 6 h ; 2 h each in 3 mutually
perpendicular directions.
Appearance No marked defect. The lead wire shall be immersed into the melted solder of
B : Within T15% 350T10D (Nominal body diameter φ 5mm and under
Capacitance
E : Within T15% 270T5D) up to about 1.5 to 2mm from the main body for
Change
F : Within T20% 3.5T0.5 s. (Nominal body diameter φ 5mm and under 5T0.5 s.)
Soldering
8 Pre-treatment : Capacitor shall be stored at 85T2D for 1 h,
Effect Dielectric
then placed at *2room condition for 24T2 h
Strength
Pass the item No. 5. before initial measurements.
(Between
lead wires ) Post-treatment : Capacitor shall be stored for 24T2 h at
*2
room condition.
Appearance No marked defect. Set the capacitor for 500W24
Y20 h at 40T2D in 90 to 95%

B : Within T10% relative humidity.

Capacitance
E : Within T20% Pre-treatment : Capacitor shall be stored at 85T2D for 1 h,
Change
F : Within T30% then placed at *2room condition for 24T2 h
Humidity B/E : D. F. V 5.0% before initial measurements.
D. F.
Under F/E : D. F. V 7.5% Post-treatment : Capacitor shall be stored for 1 to 2 h at
9
( )
steady
state
I. R.
Dielectric
1000MΩ min. *2
room condition.

Strength
Pass the item No. 5.
( Between
lead wires )
*1 "C" expresses nominal capacitance value.
*2 "room condition" temperature : 15 to 35D relative humidity : 45 to 75% atmospheric pressure : 86 to 106kPa

19
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Item Specification Testing Method

W24
Appearance No marked defect. Apply the rated voltage for 500Y20 h at 40T2D in 90 to 95%
B : Within T10% relative humidity.
Capacitance
E : Within T20% Pre-treatment : Capacitor shall be stored at 85T2D for 1 h,
Change
F : Within T30% then placed at *2room condition for 24T2 h
B/E : D. F. V 5.0% before initial measurements.
Humidity D. F.
10 F/E : D. F. V 7.5% Post-treatment : Capacitor shall be stored for 1 to 2 h at
Loading *2
I. R. 500MΩ min. room condition.
Dielectric (Charge/discharge currentV50mA)
Strength
Pass the item No. 5.
( Between
lead wires )
Appearance No marked defect. Apply a DC voltage of 200% of the rated voltage for
B : Within T10% W48
1000Y40 h at 85T2D.
Capacitance
E : Within T20% Pre-treatment : Capacitor shall be stored at 85T2D for 1 h,
Change
F : Within T30% then placed at *2room condition for 24T2 h
B/E : D. F. V 4.0% before initial measurements.
D. F.
11 Life F/E : D. F. V 7.5% Post-treatment : Capacitor shall be stored for 24T2 h at
*2
I. R. 2000MΩ min. room condition.
Dielectric (Charge/discharge currentV50mA)
Strength
Pass the item No. 5.
( Between
lead wires )
Appearance No marked defect. The capacitor shall be subjected to 5 cycles of temperature
B : Within T10% variation according to Table 1, then the capacitor shall be
Capacitance
E : Within T20% immersed into two baths, the one a clean water bath at
Change
F : Within T30% temperature 65W5Y0D and the other a saturated salt water

B/E : D. F. V 5.0% bath at temperature 0T3D for 15 min.

D. F.
F/E : D. F. V 7.5% This immersion cycle shall be repeated 2 times, then the
I. R. 1000MΩ min. capacitor shall be washed in running water, wiped or dried
with air draught.
Pre-treatment : Capacitor shall be stored at 85T2D for 1 h,
Temperature
then placed at *2room condition for 24T2 h
12 and immersion
before initial measurements.
cycling
Post-treatment : Capacitor shall be stored for 24T2 h at
Dielectric *2
room condition.
Strength
Pass the item No. 5. (Table 1)
(Between
lead wires ) Step Temperature (D) Time
1 Y25W0
Y3 30 min
2 room temp. 33 min
3 85W3
Y0 30 min
4 room temp. 33 min

As a figure, fix the body of capacitor, apply a

tensile weight gradually to each lead wire in
Pull the radial direction of capacitor up to 10N
and keep it for 10T1 s. W
Strength of Lead wire shall not cut off.
13
Lead Capacitor shall not be broken.
Each lead wire shall be subjected to 5N weight and then a
90° bend, at the point of egress, in one direction, return to
Bending
original position, and then a 90° bend in the opposite
direction at the rate of one bend in 2 to 3 s.
Lead wire shall be soldered with The lead wire of a capacitor shall be dipped into a methanol
uniformly coated on the axial solution of 25wt% rosin and then into molten solder of
14 Solderability of Leads 3
direction over 4 of the 235T5D for 2T0.5 s. In both cases the depth of dipping is up
circumferential direction. to about 1.5 to 2 mm from the root of lead wires.
*2 "room condition" temperature : 15 to 35D relative humidity : 45 to 75% atmospheric pressure : 86 to 106kPa

20
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6-3. SEMICONDUCTIVE DIELECTRIC TYPE DD300/DD400 SERIES

Item Specification Testing Method
1 Operating Temperature Range Y25 to W85D Y
The capacitance shall be measured at 20D with 1T0.2kHz
2 Capacitance Within Specified tolerance.
and AC0.1V (r.m.s.) max.. (SR : AC1.0V (r.m.s.) max..)
F : D. F. V 5.0% SR : D. F. V 2.5% (16V) Same condition as capacitance.
3 Dissipation Factor (D. F.)
F : D. F. V 5.0% SR : D. F. V 1.0% (25V)
FR : 5MΩ • µF min. The insulation resistance shall be measured with DC10T1V
SR : 100MΩ min. (16V)
4 Insulation Resistance (I. R.) SR : 1000MΩ or 20MΩ • µF min.
within 60T5 s of charging.
SR : whichever is smaller. (25V)
The capacitor shall not be damage when DC voltage of
Between
No failure. 250% of the rated voltage are applied between the lead
lead wires
wires for 1 to 5 s.(Charge/discharge currentV 10mA)
The capacitor is placed in the container with
Dielectric metal balls of diameter 1mm so that each
5 Approx. 2mm
Strength lead wire, short-circuited, is kept
Body
No failure. approximately 2mm off the balls as shown
Insulation Metal balls
in the figure, and DC voltage of 250% of the
rated voltage is applied for 1 to 5 s between capacitor lead
wires and small metals. (Charge/discharge currentV10mA)
The capacitance measurement shall be made at each step
W30
specified in table and at a sufficient number of intermediate
No FR : Within Y80 %
temperatures between step 2 and 7.
DC voltage SR : Within T15%
Capacitance change from the value of step 3 shall not
exceed the limit specified.
Step 1 2 3 4
Temperature Temp. 20T2D Y25T3D 20T2D 85T2D
6 DC Voltage applied None None None None
Characteristic
Step 5 6 7 8
With FR : Within W30
Y95
%
W15 Temp. 85T2D 20T2D Y25T3D 20T2D
DC voltage SR : Within Y30 % 1 1 1 1
DC Voltage applied 2 Rated 2 Rated 2 Rated 2 Rated

Pre-treatment : Capacitor shall be stored at 125T3D for 1 h,

then placed at *room condition for 24T2 h
before measurements.
Appearance No marked defect. The capacitor shall firmly be soldered to the supporting lead
Capacitance Within specified tolerance. wire and vibration which is 10 to 55Hz in the vibration
Vibration frequency range. 1.5mm in total amplitude, and about 1 min
7
Resistance in the rate of vibration change from 10Hz to 55Hz and back
D. F. Satisfies initial requirement.
to 10Hz is applied for a total of 6 h ; 2 h each in 3 mutually
perpendicular directions.
Appearance No marked defect. The lead wire shall be immersed into the melted solder of
Capacitance FR : Within T20% 350T10D (Nominal body diameter φ 4mm 270T5D) up to
Change SR : Within T15% about 1.5 to 2mm from the main body for 3.5T0.5 s. (Nominal
D. F. Satisfies initial requirement. body diameter φ 4mm 5T0.5 s.)
I. R. Satisfies initial requirement. Pre-treatment : Capacitor shall be stored at 125T3D for 1 h,
then placed at *room condition for 24T2 h before
Soldering
8 measurements of capacitance and D. F.
Effect
Dielectric Post-treatment : Capacitor shall be stored for 24T2 h at
Strength *
room condition.
Pass the item No. 5.
(Between
lead wires ) Measurement Order :
I. R. • Dielectric Strength/Pre-treatment /Capacitance •
D. F./Soldering Effect test/Post-treatment/
Capacitance • D. F. • I. R. • Dielectric Strength
Appearance No marked defect. Set the capacitor for 500W24 Y20 h at 40T2D in 90 to 95%
Capacitance FR : Within T20% relative humidity.
Change SR : Within T10% Pre-treatment : Capacitor shall be stored at 125T3D for 1 h,
F : D. F. V 7.5% SR : D. F. V 4.0% (16V) then placed at *room condition for 24T2 h before
Humidity D. F.
F : D. F. V 7.5% SR : D. F. V 1.5% (25V) measurements of capacitance and D. F.
Under
9
( )
steady
state
I. R.
Dielectric
FR : Satisfies initial requirement.
SR : 1 2 of initial requirement or over.
Post-treatment : Capacitor shall be stored for 1 to 2 h at

Measurement Order:
*
room condition.

Strength I. R. • Dielectric Strength/Pre-treatment /Capacitance •

Pass the item No. 5.
(Between
lead wires ) D. F./Humidity test /Post-treatment/Capacitance •
D. F. • I. R. • Dielectric Strength
* "room condition" temperature : 15 to 35D relative humidity : 45 to 75% atmospheric pressure : 86 to 106kPa

21
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Item Specification Testing Method

W24
Appearance No marked defect. Apply the rated voltage for 500Y20 h at 40T2D in 90 to 95%
Capacitance FR : Within T20% relative humidity.
Change SR : Within T10% Pre-treatment and Post-treatment :
Capacitor shall be stored at 125T3D for 1 h, then placed at
F : D. F. V 7.5% SR : D. F. V 4.0% (16V)
*
D. F. room condition for 24T2 h before measurements of
F : D. F. V 5.0% SR : D. F. V 1.5% (25V)
Humidity capacitance and D. F.
10
Loading FR : Satisfies initial requirement. Measurement Order :
I. R.
SR : 1
2 of initial requirement or over. I. R. • Dielectric Strength/Pre-treatment /Capacitance •
Dielectric D. F./Humidity Loading test /I. R. • Dielectric Strength*
Strength /Post-treatment/Capacitance • D. F.
Pass the item No. 5.
(Charge/discharge currentV10mA)
(Between
lead wires )
Appearance No marked defect. Apply a DC voltage of 150% of the rated voltage for
Capacitance FR : Within T20% W48
1000Y40 h at 85T2D.
Change SR : Within T10% Pre-treatment and Post-treatment:
Capacitor shall be stored at 125T3D for 1 h, then placed at
F : D. F. V 7.5% SR : D. F. V 4.0% (16V)
*
D. F. room condition for 24T2 h before measurements of
F : D. F. V 5.0% SR : D. F. V 1.5% (25V)
capacitance and D. F.
11 Life
FR : Satisfies initial requirement. Measurement Order:
I. R.
SR : 1
2 of initial requirement or over. I. R. • Dielectric Strength/Pre-treatment /Capacitance •
Dielectric D. F./Life test /I. R. • Dielectric Strength* /Post-
Strength treatment /Capacitance • D. F.
Pass the item No. 5.
(Charge/discharge currentV10mA)
(Between
lead wires )
Appearance No marked defect. The capacitor shall be subjected to 5 cycles of temperature
Capacitance FR : Within T20% variation according to Table 1, then the capacitor shall be
Change SR : Within T10% immersed into two baths, the one a clean water bath at
temperature 65W5 Y0D and the other a saturated salt water
F : D. F. V 7.5% SR : D. F. V 4.0% (16V)
D. F. bath at temperature 0T3D for 15 min.
F : D. F. V 5.0% SR : D. F. V 1.5% (25V)
This immersion cycle shall be repeated 2 times, then the
FR : Satisfies initial requirement. capacitor shall be washed in running water, wiped or dried
I. R.
SR : 1
2 of initial requirement or over. with air draught.
Pre-treatment : Capacitor shall be stored at 125T3D for 1 h,
then placed at *room condition for 24T2 h
before measurements of capacitance and
Temperature D. F.
12 and immersion Post-treatment : Capacitor shall be stored for 24T2 h at
*
cycling room condition.
Measurement Order:
Dielectric
I. R. • Dielectric Strength/Pre-treatment /Capacitance •
Strength
Pass the item No. 5. D. F./Temperature and Immersion cycling test /Post-
(Between
lead wires ) treatment /Capacitance • D. F. • I.R. • Dielectric Strength
(Table 1)
Step Temperature (D) Time
1 Y25W0
Y3 30 min
2 room temp. 33 min
3 85W3
Y0 30 min
4 room temp. 33 min

As a figure, fix the body of capacitor, apply a

tensile weight gradually to each lead wire in
Pull the radial direction of capacitor up to 10N
and keep i t for 10T1 s. W
Strength of Lead wire shall not cut off.
13
Lead Capacitor shall not be broken.
Each lead wire shall be subjected to 5N weight and then a
90° bend, at the point of egress, in one direction, return to
Bending
original position, and then a 90° bend in the opposite
direction at the rate of one bend in 2 to 3 s.
Lead wire shall be soldered with The lead wire of a capacitor shall be dipped into a methanol
uniformly coated on the axial solution of 25wt% rosin and then into molten solder of
14 Solderability of Leads 3
direction over 4 of the 235T5D for 2T0.5 s. In both cases the depth of dipping is up
circumferential direction. to about 1.5 to 2 mm from the root of lead wires.
* "room condition" temperature : 15 to 35D relative humidity : 45 to 75% atmospheric pressure : 86 to 106kPa
· The measurement of I. R. and Dielectric Strength will be held in 1 to 2 h after Humidity Loading test and in 24T2 h after Life test.

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7. TYPICAL CHARACTERISTICS DATA

7.1 DD100/DD10 SERIES
¡CapacitanceYTemp. Char. ¡Impedance (Z)YFreq. Char.
100

CK2pF
50

CH18
CH 82
3.0

SL
SL

270

pF
100

pF
2.0 10

pF
pF0
5
1.0

NP0 (C) NP0

∆C Z 1
0
(%) (Ω)
0.5
−1.0

−2.0 0.1
0.05
−3.0 Lead dia. φ0.5mm
Lead length 7 to 8mm

−60 −40 −20 0 20 40 60 80 10MHz 100MHz 1GHz

Temperature (D) Frequency

¡CapacitanceYTemp. Char. ¡Impedance (Z)YFreq. Char.

40

50

B
F

.0

B1
B4
F
.0

01
20

.0
1µ

00
70
µF
04
F

pF
pF
7µ
B

F
10
0
5

−20
∆C Z 1
E
(%) (Ω)
−40 0.5

−60 Z
(Ω) 0.1

F 0.05
−80 Lead dia. φ0.5mm
Lead length 7 to 8mm

−100 100kHz 1MHz 10MHz 100MHz

−20 0 20 40 60 80
Temperature (D) Frequency

7.2 DD300/DD400 SERIES

¡CapacitanceYTemp. Char. ¡Impedance (Z)YFreq. Char.
10
10
5 0.001µF
0.1µF 0.01µF

5 2

1
∆C
(%) 0
0.5
Z
(Ω)
−5 0.2

0.1
−10
−25 0 20 40 60 0.05
85
Temperature (D)
0.02
BC Capacitor DD400 Series SR Char. 25V.
0.01
Polyester Film Capacitor Ceneral Type.
1 2 5 10 20 50 100 200
Polyester Film Capacitor Noninductive Type.
Frequency (MHz)

¡CapacitanceYTemp. Char. ¡Impedance (Z)YFreq. Char.

10 10
0
5
−10
0.047µF
−20
2
−30
∆C
(%) −40 1
0.1µF
−50
0.5
−60 Z
(Ω)
−70 0.2

−25 0 20 40 60 85 0.1
Temperature (D)
0.05

0.02
BC Capacitor DD300 Series F Char. 25V.
BC Capacitor DD300 Series F Char. 50V. 0.01
1 2 5 10 20 50 100
Frequency (MHz)

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This is the PDF file of catalog No.C83E-3. No.C83E3.pdf 00.4.11

! CAUTION
1. Operating voltage
When DC-rated capacitors are to be used in AC or ripple
current signal circuits, be sure to maintain the Vp-p value
of the applied voltage signal or the Vo-p which contains
DC bias within the rated voltage range.
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 high-frequency circuit,
pulse signal circuit or the like, it may have the self-
generated heat due to dielectric-loss. Applied voltage
should be the load such as self-generated heat is within
20D on the condition of atmosphere temperature 25D.
Excessive heat may lead to deterioration of the
capacitor's characteristics and reliability.
3. 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 5 to 40D and 20 to 70%. Use
capacitors within 6 months.
4. Vibration and impact
Do not expose a capacitor or its leads to excessive
shock or vibration during use.
5 Soldering
When soldering this product to a PC board, 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.

Failure to follow the above cautions may result, worst case,

in a short circuit and fuming when the product is used.

!NOTICE
1. 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 minutes max..
Do not vibrate the PCB/PWB directly.
Excessive ultrasonic cleaning may lead to fatigue
destruction of the lead wires.

!ISO9000 CERTIFICATIONS
Manufacturing plants of these products in this catalog have obtained the ISO9000 quality system certificate.
Plant Certified Date Organization Registration No. Applied standard
Izumo Murata Manufacturing Co., Ltd. Jul. 25. '97 Under Writers Laboratories Inc. A5587 ISO9001
Murata Electronics (Thailand) , Ltd. Mar. 17. '98 Under Writers Laboratories Inc. A6279 ISO9001

24
This is the PDF file of catalog No.C83E-3. No.C83E3.pdf 00.4.11

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 our products listed in this catalog for the applications listed below which require
especially high reliability for the prevention of defects which might directly cause damage to the third party's life, body or property, or when intending to use one
of our products for other applications than 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 April 2000. 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 your ordering. If there are any questions, please contact our sales representatives or product
engineers.
4. The parts numbers and specifications listed in this catalog are for information only. You are requested to approve our product specification or to transact the
approval sheet for product specification, before your ordering.
5. 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 third party's intellectual property rights and other related rights in consideration of your using 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.
6. None of ozone depleting substances (ODS) under the Montreal Protocol is used in manufacturing process of us.

http://www.murata.co.jp/products/
Head Office International Division
2-26-10, Tenjin Nagaokakyo-shi, Kyoto 617-8555, Japan Phone:81-75-955-6502 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