This is the PDF file of catalog No.C80E-4. No.C80E4.

pdf

SAFETY STANDARD RECOGNIZED

CERAMIC CAPACITOR

SAFETY
STANDARD
RECOGNIZED
CERAMIC
CAPACITOR

Murata
Manufacturing Co., Ltd.
Cat.No.C80E-4
This is the PDF file of catalog No.C80E-4. No.C80E4.pdf

!CONTENTS

!GENERAL DESCRIPTION OF CERAMIC CAPACITORS •••••••••••••••••••••••2

!MURATA'S DISC TYPE CERAMIC CAPACITORS••••••••••••••••••••••••••••••2
!MURATA'S SAFETY STANDARD RECOGNIZED CERAMIC CAPACITORS•••••3
1. TABLE OF SAFETY STANDARD RECOGNIZED PRODUCTS ••••••••••••••••••3
2. SAFETY STANDARD MARKING ••••••••••••••••••••••••••••••••••••••••••••••3
3. TYPICAL CHARACTERISTICS ••••••••••••••••••••••••••••••••••••••••••••••••5
4. PART NUMBERING ••••••••••••••••••••••••••••••••••••••••••••••••••••••••••6
5. TAPING SPECIFICATIONS •••••••••••••••••••••••••••••••••••••••••••••••••••7
6. PACKAGING STYLES ••••••••••••••••••••••••••••••••••••••••••••••••••••••••7
7. PRODUCT SPECIFICATIONS
KH TYPE •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••8
( NEW 125D Guaranteed)
KX TYPE••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••10
( NEW 125D Guaranteed)
MX TYPE •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••12
PRODUCTS WHICH ARE BASED ON THE STANDARDS OF THE
ELECTRICAL APPLIANCE AND MATERIAL CONTROL LAW OF JAPAN ••••••13
8. SPECIFICATION AND TEST METHOD
8Y1. KH TYPE, KX TYPE ••••••••••••••••••••••••••••••••••••••••••••••••••••••14
8Y2. MX TYPE, PRODUCTS WHICH ARE BASED ON THE
8Y2. STANDARDS OF THE ELECTRICAL APPLIANCE MATERIAL
8Y2. CONTROL LAW OF JAPAN •••••••••••••••••••••••••••••••••••••••••••••••18
!PRECAUTION •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••21
!NOTICE •••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••••21
!ISO9000 CERTIFICATIONS ••••••••••••••••••••••••••••••••••••••••••••••••••21
!MURATA'S SAFETY STANDARD PRODUCTS •••••••••••••••••••••••••••••••22

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This is the PDF file of catalog No.C80E-4. No.C80E4.pdf

!GENERAL DESCRIPTION OF CERAMIC CAPACITORS

Ceramic capacitors are produced by sandwiching a ceramic- according to structureYmonolithic and disc type.
dielectric layer of titanium oxide (TiO2) or barium titanate The latter type is available in a larger variety, with rated
(BaTiO3) between two electrodes. Special features include voltages of 50V, 250V, 1kV, 2kV, 3.15kV, and 6.3kV,
high reliability, compact size, large capacitance, excellent besides AC voltage. Murata has meanwhile developed its
high-frequency characteristics, and simple mass producton. original BC capacitorsYsemiconductive ceramic capacitors
Furthermore, their low cost enables wide application in which are much more compact in size and much larger in
electronic circuits designed for by-pass, coupling, and capacitance than conventional ceramic capacitors. BC
resonant functions. capacitors are available in rated voltages of 12V, 16V, 25V,
Ceramic capacitors are divided into two distinctive types and 50V.

!MURATA'S DISC TYPE CERAMIC CAPACITORS

TYPE TRATED CAPACITANCE RANGE (pF)

DESCRIPTION SERIES VOLT-
1 2 3 1 10 100 1000 10000 100000 500000
AGE
1 47000
CERAMIC DD100 50V
K K Y
CAPACITOR DD10 500V

12V
1000 470000
BC DD300 16V
Y Y K
CAPACITOR DD400 25V
50V
250V
500V
HIGH-VOLTAGE CONVENTIONAL 10 10000
1kV
CERAMIC HIGH-VOLTAGE K K K
2kV
CAPACITOR HR
3.15kV
6.3kV

KH
KX
SAFETY MX
STANDARD 125VAC 100 10000
PRODUCTS WHICH ARE
RECOGNIZED Y K Y 250VAC
BASED ON THE
CERAMIC STANDARDS OF THE
CAPACITOR ELECTRICAL APPLIANCE
AND MATERIAL CONTOROL
LAW OF JAPAN

!DESIGN KIT
As for KH type and KX type, design kit is available.
Please contact us for detail.

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!MURATA'S SAFETY STANDARD RECOGNIZED CERAMIC CAPACITORS

1. Table of Safety Standard Recognized Products

Type CAPACITANCE RANGE (pF)

Temp
Photo
(Rated Voltage) Characteristic 100 150 220 330 470 680 1000 1500 2200 3300 3900 4700 6800 10000

NEW
""" " " "
B

KH Type " " " " "

E
(250VAC)

"
F

NEW
""" " " "

KX Type
(250VAC)
" " " " "

B " " "

MX Type
E " "
(125VAC)

F
" "

Products Which Are Based

E " " " "
on The Standards of The
Electrical appliance and
Material Control Law of
Japan F " "
(250VAC)

2. Safety Standard Marking

VDE Approval Mark UL Recognized Mark

SEV Approval Mark CSA Recognized Mark

SEMKO Approval Mark FIMKO Approval Mark

IMQ Approval Mark NEMKO Approval Mark

BSI Approval Mark DEMKO Approval Mark

BS415

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Status of Recognition
Special Features Application Fields

BSI VDE SEV SEMKO FIMKO NEMKO IMQ UL CSA SAA

We design capacitors in much more compact size than KC type, having

reduced the diameter by 20% max.Operating temperature range guaranteed
up to 125D (UL/CSA : 85D).
Recognized by IEC384-14 2nd edition (1993) Class X1, Y2 and also
dominant safety standards in major countries (standards in 10 countries) E E E E E E Y E E E
throughout the world, this type is compatible for both European and North
American continents. Adaptable as antenna-coupling, across-the-line, or
line-by-pass component. Coated with flame-retardant epoxy resin
(conforming to UL94V-0 standards).

We design capacitors in much more compact size than KD type, having reduced
the diameter by 20% max. Operating temperature range guaranteed up to 125D
(UL/CSA : 85D).
Recognized by IEC384-14 2nd edition (1993) Class X1, Y1 and also dominant
safety standards in major countries (standards in 10 countries).throughout the
E E E E E E E E E Y
world.
Possible to use with a component in appliance requiring reinforced
insulation and double insulation based on IEC65 and IEC950.
Application in antenna-coupling. across-the-line, or line-by-pass component.
Coated with flame-retardant epoxy resin (Conforming to UL94V-0 standards).

Highly reliable dual-dielectric structure.

Recognized by UL double protection capacitor. Accordingly, a this type can
replace by 2 single isolation capacitors in appliance requiring double
Y Y Y Y Y Y Y E E Y
protection. Also recognized by CSA. Coated with flame-retardant epoxy
resin (conforming to UL94V-0 standards).

This type are based on JIS-C-5154 standards under Class B2, and is
available for application in Japanese AC power-supply circuits.
Coated with flame-retardant epoxy resin (conforming to UL94V-0
YYYYYYY
standards).

FIMKO(Finland)

NEMKO(Norway) SEMKO(Sweden)

VDE(Germany)

CSA(Canada)
DEMKO(Denmark)

UL(U.S.A)

IMQ(Italy)

SEV(Swizerland)

BSI(England) SAA(Australia)

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3. Typical Characteristics
!Capacitance-Temp. Char.
DE0807 B 101K -KH
DE1007 E 222M -KH DE0910 B 101K -KX
DE1607 F 103M -KH DE1610 E 472M -KX

Type KH Type KX
20 20

0 0
Cap. Change (%)

Cap. Change (%)

-20 -20

-40 -40

-60 -60

-80 -80

-100 -100
-60 -40 -20 0 20 40 60 80 100 120 140 -60 -40 -20 0 20 40 60 80 100 120 140
Temp. (D) Temp. (D)

!Impedance-Freq. Char.

Type KH Type KX
100. DE 100.
DE 08
08 07 DE DE
DE 07 B DE 09 09
0 B 10 10 10
DE 80 2 1K DE 09 B
0 7 2 1 -K DE 09 10 B 10
DE 80 B K H 12 10 B 22 1K
DE 10 7 47 -K DE 10 47 1K -K
07 E 1K H 16 E 1K -K X
DE 13 10 -K 10 E 10 X
16 0 7 E 2 M H 22 2M -K
07 E 22 -K E 2M -K X
10. 47 2M 10. 47
F H 2M -K X
Impedance [Ω]
Impedance [Ω]

10 2M -K X
3M -K H -K
-K H X
H

1. 1.

0.1 0.1
1 10 100 1000 1 10 100 1000
Freq. [MHz] Freq. [MHz]

!Leakage Current (23D)

Type KH Type KX
3.0 3.0
H

H
-K
M-K

KX

M
72
2M-
103

2.5 4 2.5 KX
E 2 M-
E 47

7 22
07 F

0
13 1 0E
E 12
610

D DE
6
DE1

2.0 2.0
DE1
Leakage current (mA)

Leakage current (mA)

H
M-K
1.5 222 1.5
007E
DE1
-KX
102M
10 E
1.0 1.0 DE09

102M -KH
D E0807 E
0.5 0.5

0.0 0.0
0 500 1000 1500 2000 2500 3000 0 1000 2000 3000 4000 5000

AC volt [60Hz] (Vrms) AC volt [60Hz] (Vrms)

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4. Part Numbering (*Please specify the part number when ordering)

(Example) DE1307 Y486 E 472 M Omitted -KH

q w e r t y u

qType tCapacitance Tolerance

DEZZZZ Code Tolerance
The first two digits represent maximum body diameter ; K T10%
the next two digits represent lead space. M T20%
(Example) 16 10 W80
Z Y20%
Lead space : 10mm
Maximum body diameter : 16mm
yRated Voltage
Code Rated Voltage
wLead Configuration AC125 125VAC
Code configuration AC250 250VAC
No code Straight Long *Omit KH, KX type (Rated Voltage : 250VAC)
Y1 Straight Short
Y979 uType Designation
Y486
Taping Code Type Designation
Y477
YKH KH Type
Y452
YKX KX Type
YMX MX Type
eTemperature Characteristics *Apply to KH, KX and MX types only.
Code Cap. Change Temp. Range
B T10%
W20
E Y55% Y25D to W85D
W30
F Y80%

rCapacitance
The first two digits represent significant figures ; the last
digit represents the multiplier of 10 in pF.
(Example)
472=47Z102=4700pF

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5. Taping Specification (Apply to KH type, KX type and product which are pased on the standards of the electrical appllance and meterial control law of Japan.)
"12.7mm pitch / lead spacing 5mm taping "15mm pitch / lead spacing 7.5mm taping
(Lead Code : Y979) Vertical crimped type (Lead Code : Y486) Vertical crimped type
P2 P D ∆S P2 P D ∆S

e
P1 φd P1 φd

W0 W2

W0 W2
F F

H0

H0
W1

W1
L

L
W

W
φD0 φD0
P0 R P0 R

"30mm pitch / lead spacing 7.5mm taping "25.4mm pitch / lead spacing 10.0mm taping
(Lead Code : Y477) Vertical crimped type (Lead Code : Y452) Vertical crimped type
P2 P ∆S P2 P ∆S
D D

e
e
φd φd

W0 W2
F

W0 W2
P1 F P1

H0
H0

W1
W1

L
L

W
W
φD0 P0 φD0
P0 R R

O
∆h1 ∆h2

T max.

Marked side
*

*
3.0 max.

t2 t1

Item Code Y979 Y486 Y477 Y452

Pitch of component P 12.7 15.0 30.0 25.4
Pitch of sprocket hole P0 12.7T0.3 15.0T0.3 15.0T0.3 12.7T0.3
W0.8
Lead spacing F 5.0Y0.2 7.5T1.0 7.5T1.0 10.0T1.0
Length from hole center to component center P2 6.35T1.3 7.5T1.5 7.5T1.5 Y
Length from hole center to lead P1 3.85T0.7 3.75T1.0 3.75T1.0 7.7T1.5
Body diameter D See the individual product specification
Deviation along tape, left or right ∆S 0T1.0 0T2.0
Carrier tape width W 18.0T0.5
Position of sprocket hold W1 9.0T0.5
W2.0
Lead distance between reference and bottom planes H0 18.0Y0
Protrusion length R W0.5 to Y1.0
Diameter of sprocket hole φD0 4.0T0.1
Lead diameter φd W0.06
0.6Y0.05 W0.1
0.6Y0.05
Total tape thickness t1 0.6T0.3
Total thickness, tape and lead wire t2 1.5max.
Body thickness T See the individual product specification
W0
Protion to cut in case of defect L 11.0Y1.0
Hold down tape width W0 11.5min.
Hold down tape position W2 1.5T1.5
Coating extension on lead e Up to the end of crimp
Deviation across tape, front ∆h1
1.0 max. 2.0 max.
Deviation across tape, rear. ∆h2

6. Packaging Styles !MINIMUM QUANTITY (Order in Sets Only)

Bulk Taping [Bulk] 1,000pcs.
Polyethylene Bag Ammo Pack [Taping]
1,500pcs. (Lead Code : Y979)
1,000pcs. (Lead Code : Y486 *)
1,400pcs. (Lead Code : Y477, Y452)
*900pcs. for KH type

!MINIMUM ORDER QUANTITY

2,000pcs.

* “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 in case.)

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CERAMIC CAPACITOR
Safety Standard Recognized Ceramic Capacitor Type KH

D Guaranteed
125D
Recognized in 10 Countries
!FEATURES
1. We design capacitors in much more compact size than NEW
KC type,having reduced the diameter by 20%max.
2. Operating temperature range guaranteed up to 125D
(UL / CSA : 85D)
3. IEC384-14 2nd edition (1993) Class X1,Y2
4. The type KH is recognized by UL / CSA / BSI / SEMKO /
SEV / VDE / FIMKO / NEMKO / DEMKO / SAA.
Besides these recognitions,it is based on the standard of
the electrical appliance and material control law of Japan
and JIS-C-5154 (general rules of AC mains supply
capacitors of electronic equipment)
5. Coated with flame-retardant epoxy resin (conforming to
UL94V-0 standards).
6. Automatic insertion can be,and save costs.

!STANDARD NO. RECOGNIZED NO. !MARKING

Recognized No. Rated Item Example
Standard No.
Japan Taiwan Voltage UL Approval Mark
UL UL 1414 E37921 CSA Approval Mark One side marking
CSA C22.2 No.1 LR36214 LR44559 BSI Approval Mark BS415
BSI BSEN60065 (1994) 227636 SEMKO Approval Mark
SEMKO 9503155 SEV Approval Mark
SEV 94, 1 00952 VDE Approval Mark KH472M
VDE IEC384-14 2nd 83663, 83665, 83664, 83666 250VAC FIMKO Approval Mark X1Y2
BS415
edition (1993) 83667 83668 NEMKO Approval Mark 3 M

FIMKO 180451 180450 DEMKO Approval Mark 65

NEMKO P95100388 P95100518 IEC384-14 Class Code X1, Y2 250˜
DEMKO 113878JJa Rated Voltage Mark 250˜
SAA AS3250 CS6529N Type Designation KH
Nominal Capacitance
Capacitance Tolerance
Manufacturer's Identification * For DE1307E472M-KH
Manufactured Date Code
* M 3 : Made in Japan. M 8 : Made in Taiwan.
!DIMENSIONS
•Bulk
Straight Long (Lead Code : No Code) Straight Short (Lead Code : Y1)
Vertical crimped type Vertical crimped type
D max. 7.0 max. D max. 7.0 max.
Coating extension not exceed

Coating extension not exceed

the end of the lead bended.

the end of the lead bended.

3.0max.

3.0max.
5T1.0

φ0.6 W0.06
Y0.05
25min.

7.5T1.0 7.5T1.0
φ0.6 W0.06
Y0.05

(in mm) (in mm)

• For nominal body diameter (D) ,please see "STANDARD LIST".
• Please see page 7 on detailed taping specification

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!STANDARD LIST
B Characteristic
Lead Configuration / Lead Code
Straight Long Straight Short Taping
Part Number
Nominal Maximum ( - : means optional
Capacitance Body Dia. lead code shown
(pF) D(mm) on the right.)

Lead space F : 7.5

Pitch of component P : 15.0
100 DE0807 - B 101K -KH
150 DE0807 - B 151K -KH
220 8 DE0807 - B 221K -KH No Code Y1 Y486
330 DE0807 - B 331K -KH
470 DE0807 - B 471K -KH
680 9 DE0907 - B 681K -KH

E Characteristic
Lead Configuration / Lead Code
Straight Long Straight Short Taping
Part Number
Nominal Maximum ( - : means optional
Capacitance Body Dia. lead code shown
(pF) D(mm) on the right.)

Lead space F : 7.5

Pitch of component P : 15.0
1000 8 DE0807 - E 102M -KH
1500 9 DE0907 - E 152M -KH
2200 10 DE1007 - E 222M -KH No Code Y1 Y486
3300 12 DE1207 - E 332M -KH
4700 13 DE1307 - E 472M -KH

F Characteristic
Lead Configuration / Lead Code
Straight Long Straight Short Taping
Part Number
Nominal Maximum ( - : means optional
Capacitance Body Dia. lead code shown
(pF) D(mm) on the right.)

Lead space F : 7.5

Pitch of component P : 30.0
10000 16 DE1607 - F 103M -KH No Code Y1 Y477
•We have obtained the capacitance under 100pF.
Please feel free to ask us in detail.
•Please contact us for other specification.

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CERAMIC CAPACITOR
Safety Standard Recognized Ceramic Capacitor Type KX

125D Guaranteed
Recognized in 10 Countries
!FEATURES
1. We design capacitors in much more compact size than NEW
KD type,having reduced the diameter by 20% max.
2. Operating temperature range guaranteed up to 125D
(UL / CSA : 85D)
3. IEC 384-14 2nd edition (1993) Class X1,Y1.
4. The type KX is recognized by UL / CSA / BSI / SEMKO /
SEV / VDE / FIMKO / NEMKO / DEMKO / IMQ.
5. Possible to use with a component in appliance requiring
reinforced insulation and double insulation based on
IEC65 and IEC 950.
6. Coated with flame-retardant epoxy resin (conforming to
!MARKING
UL94V-0 standards).
7. Automatic insertion can be,and save costs. Item Example
UL Approval Mark
!STANDARD NO. RECOGNIZED NO. CSA Approval Mark One side marking
BSI Approval Mark BS415
Recognized No. Rated SEMKO Approval Mark
Standard No.
Japan Taiwan Voltage SEV Approval Mark
UL UL 1414 E37921 VDE Approval Mark
CSA C22.2 No.0, No.1 LR36214 LR44559 IMQ Approval Mark KX222M
X1Y1
BSI BS EN60065 (1994) 227859 FIMKO Approval Mark BS415
SEMKO 9511179 NEMKO Approval Mark
M 3
SEV 95, 1 10103 250VAC DEMKO Approval Mark
IEC384-14 65
VDE 89763, 89767 89764, 89768 IEC384-14 Class Code X1, Y1 250˜
2nd edition
FIMKO 184022-01...02 Rated Voltage Mark 250˜
(1993)
NEMKO P95102392 Type Designation KX
DEMKO 304138 Nominal Capacitance
IMQ V4069 Y Capacitance Tolerance
Manufacture's Identification * For DE1210E222M-KX
Manufactured Date Code
* M 3 : Made in Japan. M 8 : Made in Taiwan.

!DIMENSIONS
•Bulk
Straight Long (Lead Code : No Code) Straight Short (Lead Code : Y1)
Vertical crimped type Vertical crimped type

D max. 8.0 max.

D max. 8.0 max.
Coating extension not exceed
the end of the lead bended.

Coating extension not exceed

the end of the lead bended.
4.0max.

4.0max.
5T1.0

φ0.6W0.1
Y0.05
25min.

10 W2.0
Y1.0
10 W2.0
φ0.6W0.1
Y0.05 Y1.0

(in mm) (in mm)

• For nominal body diameter (D) ,please see "STANDARD LIST".
• Please see page 7 on detailed taping specification

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!STANDARD LIST
B Characteristic
Lead Configuration / Lead Code
Straight Long Straight Short Taping
Part Number
Nominal Maximum ( - : means optional
Capacitance Body Dia. lead code shown
(pF) D(mm) on the right.)

Lead space F : 10.0

Pitch of component P : 25.4
100 DE0910 - B 101K -KX
150 DE0910 - B 151K -KX
220 9 DE0910 - B 221K -KX No Code Y1 Y452
330 DE0910 - B 331K -KX
470 DE0910 - B 471K -KX
680 10 DE1010 - B 681K -KX

E Characteristic
Lead Configuration / Lead Code
Straight Long Straight Short Taping
Part Number
Nominal Maximum ( - : means optional
Capacitance Body Dia. lead code shown
(pF) D(mm) on the right.)

Lead space F : 10.0

Pitch of component P : 25.4
1000 9 DE0910 - E 102M -KX
1500 11 DE1110 - E 152M -KX
2200 12 DE1210 - E 222M -KX
3300 14 DE1410 - E 332M -KX No Code Y1 Y452
3900 15 DE1510 - E 392M -KX
4700 16 DE1610 - E 472M -KX
• We have obtained the capacitance under 100pF .
• Please feel free to ask us in detail.
• Please contact us for other specification.

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CERAMIC CAPACITOR
=Double Protection=
Safety Standard Recognized Ceramic Capacitor Type MX =Dual Element=

!FEATURES
1. Possible to use with a piece of part for UL double
protection and CSA double-isolated appliance because of
dual structure dielectric.
2. Coated with flame-retardant epoxy resin (conforming to
UL94V-0 standards).

!STANDARD NO. RECOGNIZED NO.

Standard No. Recognized No. Rated Voltage
UL UL1414 E37921 125VAC
CSA C22.2 No.0, No.1 LR36214 125VAC
MX type is recognized double protection capacitor in UL and dual
!MARKING
element type capacitor in CSA.
Item Example
CSA Monogram
!DIMENSIONS UL Recognized Mark
• Bulk Type Designation MX
MX
D max. Straight Long
Nominal Capacitance 332 M
Capacitance Tolerance M3 65
3.0max.

(Lead Code : No Code) Manufacturer's Identification M3

Type D (mm) Manufactured Date Code DE1610F332M AC 125YMX

DE1110 11
25min.

10T1.5 DE1210 12
φ0.8W0.08
Y0.05

DE1310 13
.*
9.0max

DE1610 16

(in mm) DE1910 19

*10.0 max. for DE1110 B 101K AC125.

!CONSTRUCTION

Epoxy Coating

,,,,,,,
,,,,,,, Ceramics
,,,,,,,
,,,,,,,
Elactrode ,,,,,,,
,,,,,,,
Lead wires

!STANDARD LIST
B Characteristic E Characteristic F Characteristic
Lead Configuration Lead Configuration Lead Configuration
Straight Long Straight Long Straight Long
Nominal Maximum Nominal Maximum Nominal Maximum
Capacitance Body Dia. Capacitance Body Dia. Capacitance Body Dia.
(pF) D(mm) (pF) D(mm) (pF) D(mm)

100 11 DE1110 B 101K AC125-MX 1000 13 DE1310 E 102M AC125-MX 3300 16 DE1610 F 332M AC125-MX
220 11 DE1110 B 221K AC125-MX 2200 16 DE1610 E 222M AC125-MX 4700 19 DE1910 F 472M AC125-MX
470 12 DE1210 B 471K AC125-MX Please contact us for other specification.

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CERAMIC CAPACITOR
=Products which are Based on the
Ceramic Capacitor For A.C. Power-Supply =Standards of the Electrical Appliance=
=And Material Control Law of Japan

!FEATURES
1. Coated with flame-retardant epoxy resin (Conforming to
UL94V-0 standards).
2. Automatic insertion can be,and save costs.
3. This type are based on the standard of the electrical
appliance and material control law of Japan and JIS-C-
5154 (general rules of AC mains supply capacitors of
electronic equipment).

!CONFORMABLE-STANDARDS
"The standards of the electrical appliance and material
control law of Japan, separated table 4.
!MARKING
"JIS-C-5154
Item Example
qNominal Capacitance
wCapacitance Tolerance 1 103Z 2
eRated Voltage 3 250 ˜
*rManufancturer's Identification 4 M 65 5
*tManufactured Date Code
*r is omitted when max. body diameter is less than 8mm, and t is
omitted when max. body diameter is less than 9mm.
!DIMENSIONS But t appears only on E222Z type.

Straight Long (Lead Code : No Code) Straight Short (Lead Code : Y1)

D max. 4.0 max.

D max. 4.0 max.
Coating extension not exceed
the end of the lead bended.

Coating extension not exceed

the end of the lead bended.
3.0max.

3.0max.
5T1.0

φ0.6W0.06
Y0.05
25min.

7.5T1.0 φ0.6W0.06
Y0.05
7.5T0.8
(in mm) (in mm)
• Please refer to "STANDARD LIST" for nominal body diameter (D)
• Please refer to page 7 for detailed taping specification.

!STANDARD LIST
E Characterisric / F Characteristic
Lead Configuration / Lead Code
Part Number Straight Long Straight Short Taping
Nominal Maximum ( - : means optional
Capacitance Body Dia. lead code shown
(pF) D(mm) on the right.)
Lead space F : 5.0 Lead space F : 7.5
Pitch of component P : 12.7 Pitch of component P : 15.0
1000 7 DE0707-E 102 Z AC250
2200 8 DE0807-E 222 Z AC250
No Code Y1 Y979 * Y486
3300 9 DE0907-E 332 Z AC250
4700 11 DE1107-E 472 Z AC250
4700 8 DE0807-F 472 Z AC250
No Code Y1 Y979 * Y486
10000 11 DE1107-F 103 Z AC250
*In this case,type is DEZZ05. (example : DE0705-979 E 102 Z AC250) Please contact us for other specification.

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8.SPECIFICATION AND TEST METHOD

8Y1. KH Type, KX Type
(1) Operating Temperature Range : Y25 to W125D(Y25 to W85D in case of the standard of UL / CSA)
(2) Perfomance Tests

Item Specification Testing Method

1 Capacitance Within specified tolerance. The capacitance shall be measured at 20D with 1T0.1kHz and
5Vrms max.

2 Dissipation Factor Char. Specification The dissipation factor shall be measured at 20D with 1T0.1kHz
(D.F.) B,E D.F.V2.5% and 5Vrms max.
F D.F.V5.0%

3 Insulation 10000MΩ min. The insulation resistance shall be measured with 500T50 VDC
Resistance (I.R.) within 60T5 sec. of charging.

4 Dielectric Between No failure. The capacitors shall not be damage when Test voltage of Table
Strengh lead wires 1 are applied between the lead wires for 60 sec.
(Charge / discharge currentV50mA)
FTable 1G
Type Test voltage
KH 2600VAC
KX 4000VAC

Body No failure. First, the terminals of the capacitor shall be

Insulation connected together. Then, as shown in
Figure below, a metal foil shall be closely
wrapped around the body of the capacitor
to the distance of about 3 to 4mm from Metal
foil about
each terminal. 3 to 4mm

Then,the capacitor shall be inserted into a Metal

cntainer filled with metal balls of about 1mm balls
diameter. Finally, AC voltage of Table 1 is
applied for 60 sec. between the capacitor lead wires and metal
balls.
(Charge / discharge currentV50mA)

5 Temperature Char. Capacitance Change The capacitance measurement shall be made at each step
Characteristic B Within T10% specified in Table 2.
E Within T20
55% FTable 2G
F Within T30
80%
Step Temperature (D)
Temperature characteristic 1 W20T2
guarantee is Y25 to W85D 2 Y25T2
3 W20T2
4 W85T2
5 W20T2

6 Discharge Appearance No marked defect. As in Figure 1, discharge is made 50 times at 5 sec. intervals
Test ( I ) from the capacitor (Cd) charged at DC voltage of specified.
I.R. 1000MΩ min.
R3 S R1

Dielectric Per ltem 4.

Strength Vs Ct R2
Cd

FFigure 1G
Ct: Capacitor under test
Cd: 0.001µF
S: High-voltage switch
R1: 1000Ω
R2: 100MΩ
R3: Surge resistance
Vs: 10kVDC

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Item Specification Testing Method

7 Discharge The cheesecloth around A single layer of cheesecloth is to be placed around the body of
Test ( II ) capacitors shall not glow or the test capacitor. Each sample is to be subjected to four
flame. discharges from a dump capacitor charged to a voltage that,
when discharged, placed 5kV across the capacitor under test.
The interval between successive discharges is to be 5 sec.
240V, 60Hz potential is to be applied across the capacitor under
test and is to be maintained for 30 sec. after the fourth
discharge, unless the circuit is opened in a shorter time by
breakdown of the test capacitor.
The direct current supply is to be adjusted to provide a potential
in accordance with the following.
5000 (CdWCt)
Vdc = (V)
Cd

T F L S

Vac Ct Cd Vdc

SB1179
FFigure 2G

Vdc : Variable direct-current voltage source

S : High-voltage switch
L : Choke coil of approximately 3mH and 0.03Ω
F : Plug fuse rated 30A and 250V
Vac : Supply source rated 240V, 60Hz and 30A
Ct : Capacitor under test
Cd : Dump Capacitor

Capacitance value and D.F. are as follows.

Cap. value of Ct 0 to 0.005µF 0.0051 to 0.05µF
Cap. value of Cd 0.005µF 0.05µF
D.F.of Cd 0.5% max. 0.5% max.

8 Soldering Appearance No marked defect. As in figure,the lead wires shall be

Effect immersed solder of 350T10D or Thermal , Capacitor
screen , ,,
Capacitance Within T10% 260T5D up to 1.5 to 2.0mm from ,
,,,,,,,,,,
,,,,,,,, 1.5
Change the root of terminal for 3.5T0.5 ,,,,,,,,,,
,,,, ,, to 2.0mm
sec (10T1 sec. for 260T5D). ,,,Molten
solder
I.R. 1000MΩ min. Pre-treatment:
Capacitor shall be stored at
Dielectric Per Item 4. 85T2D for 1 hour, then placed at *1room condition for 24T2
Strength hours before initial measurements.
Post-treatment:
Capacitor shall be stored for 1 to 2 hours at *1room condition.

9 Humidity Appearance No marked defect. Set the capacitor for 500T12 hours at 40T2D in 90 to 95%
(Under humidity.
Steady Capacitance Char. Capacitance Change Pre-treatment:
State) Change B Within T10% Capacitor shall be stored at 85T2D for 1 hour, then placed at
*1room condition for 24T2 hours before initial measurements.
E,F Within T15%
Post-treatment:
Capacitor shall be stored for 1 to 2 hours at *1room condition.
D.F. Char. Specification
B,E D.F.V5.0%
F D.F.V7.5%

I.R. 3000MΩ min.

Dielectric Per Item 4.

Strength
*1 "room condition" temperature : 15 to 35D, humidity: 45 to 75%, atomospheric pressure: 86 to 106kPa

15
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Item Specification Testing Method

10 Humidity Appearance No marked defect Apply the rated voltage for 500T12 hours at 40T2D, in 90 to
Loading 95% humidity.
Capacitance Char. Capacitance Change Post-treatment:
Change B Within T10% Capacitor shall be stored for 1 to 2 hours at *1room condition.
E,F Within T15%

D.F. Char. Specification

B,E D.F.V5.0%
F D.F.V7.5%

I.R. 3000MΩ min.

Dielectric Per Item 4

Strength

11 Life Appearance No marked defect Impulse Voltage

Each individual capacitor shall be subjected to a 5kV (KXtype:
Capacitance Within T20% 8kV) impulses for three times. After the capacitors are applied
Change to life test.
100 (%) T1=1.2µsec.=1.67T
I.R. 3000MΩ min. 90 T2=50µsec.
50
Dielectric Per Item 4 30
Strength 0
t
T

T2

Apply a voltage of table 3 for 1000 hours at 125T2D, 50% RH

max.
FTable 3G
Applied voltage
425VAC, except that once each hour the
voltage is increased to 1000VAC for 0.1 sec.
Pre-treatment:
Capacitor shall be stored at 85T2D for 1 hour, then placed at
*1room condition for 24T2 hours before initial measurements.

Post-treatment:
Capacitor shall be stored for 24T2 hours at *1room condition.

12 Flame Test The capacitor flame The capacitor shall be subjected to applied flame for 15 sec. and
discontinue as follows. then removed for 15 sec. until 5 cycle.
Cycle Time
1 to 4 30 sec. max. Capacitor
76 Flame
5 60 sec. max.
7
12
38
20°

Gas Burner
(in mm)

13 Strength of Pull Lead wire shall not cut off. As a figure,fix the body of capacitor, apply a
Lead Capacitor shall not be tensile weight gradually to each lead wire in
broken. the radial direction of capacitor up to 10N and
keep it for 10T1 sec. W

Bending Lead wire shall not cut off. Each lead wire shall be subjected to 5N weight and then a 90°
bend, at the point of egress, in one direction, return to original
position, and then a 90° bend in the opposite direction at the rate
of one bend in 2 to 3 sec.
*1 "room condition" temperature: 15 to 35D, humidity: 45 to 75%, atomospheric perssure: 85 to 106kPa

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Item Specification Testing Method

14 Active Flammability The cheese-cloth shall not be The specimens shall be individually wrapped in at least one but
on fire. more than two complete layers of cheese-cloth.The specimens
shall be subjected to 20 discharges. The interval between
successive discharges shall be 5 sec. The UAC shall be
maintained for 2 min. after the last descharge.
F L1 L2 R
S1

C1 C2 C3 Cx C1 U1
S2 UAC
L3 L4

Oscilloscope

C1,2 : 1µFT10% L1 to 4 : 1.5mHT20%

C3 : 0.33µFT5% 10kV : 16A Rod core choke
C1 : 3µFT5% 10kV R : 100ΩT2%
Cx : Capacitor UAC : URT5%
F : Fuse, Rated 10A UR : Rated Voltage
Ut : Voltage impressed
: on the tank capacitor Ct

Ux

5kV

time

15 Passive Flammability The burning time shall not be The capacitor under test shall be held in the flame in the position
exceeded the time 30 sec. which best promotes burning. Each specimen shall only be
The tissue paper shall not exposed once to the flame. Time of exposure to flame: 30 sec.
ignite.
Length of flame : 12T1mm
Gas burner : Length 35mm min.
Inside Dia. : 0.5T0.1mm
Outside Dia. : 0.9mm max.
Gas : Butane gas Purity 95% min.
Approximately 8mm

Test specimen
200T5mm

45°

Tissue

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8Y2. MX type, Products which are based on the standards of the electrical appliance and material control law of Japan
(1) Operating Temperature Range : Y25 to W85D
(2) Perfomance Tests

Item Specification Testing Method Application

1 Capacitance Within specified tolerance. The capacitance shall be measured at 20D with
1T0.1kHz and 5Vrms max.

2 Dissipation Factor Char. Specification The dissipation factor shall be measured at 20D
(D.F.) B,E D.F.V2.5% with 1T0.1kHz and 5Vrms max.
F D.F.V5.0%

3 Insulation 10000MΩ min. The insulation resistance shall be measured with

Resistance( I.R.) 500T50 VDC within 60T5 sec. of charging.

4 Dielectric Between No failure. The capacitors shall not be damage when Test
Strengh lead wires voltage of Table 1 are applied between the lead
wires for 60 sec.
(Charge / discharge currentV50mA)
FTable 1G
Type Test voltage
MX 3500VAC
* 1500VAC

Body No failure. [Method of using metal foil : MX type]

Insulation First, the terminals of the
capacitor shall be connected
together. Then, as shown in
Figure below, a metal foil shall
be closely wrapped around the Metal about
foil
body of the capacitor to the 3 to 4mm
distance of about 3 to 4mm MX type, *
Metal
from each terminal. balls
Then, the capacitor shall be
inserted into a container filled with metal balls of
about 1 mm diameter. Finally, AC voltage of Table
1 is applied for 60 sec. between the capacitor lead
wires and metal balls.
(Charge / discharge currenV50mA)

[Salt water immersion method : *]

First, the terminals of the
capacitor shall be connected
together. Then, as shown in
about
Figure below, the capacitor 3 to 4mm
shall be immersed into 10% electrode
salt solution up to a position plate
10% salt solution
of about 3 to 4mm apart
from the terminals.
Finally, AC voltage of Table 1 is applied for 60 sec.
between the capacitor lead wires and electrode
plate. (Charge / discharge currentV50mA)

5 Temperature Char. Capacitance Change The capacitance measurement shall be made at

Characteristic B Within T10% each step specified in Table 2.
E Within T20
55% FTable 2G
F Within T30
80% Step Temperature (D)
1 W20T2
2 Y25T2
3 W20T2
4 W85T2
5 W20T2

*Products which are based on the Standards of the Electrical Appliance and Material Control Law of Japan

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Item Specification Testing Method Application

6 Discharge Appearance No marked defect. As in Figure 1, discharge is made 50 times at 5 sec.

Test ( I ) intervals from the capacitor (Cd) charged at DC
I.R. 1000MΩ min. voltage of specified.
R3 S R1
Dielectric Per Item 4.
Strength
Vs Ct R2
Cd
MX type,*2
FFigure 1G
Ct : Capacitor under test R2 : 100MΩ
S : High-voltage switch R3 : Surge resistance
R1 : 1000Ω

*2 MX
Cd 0.001µF 0.0005µF
Vs 10kVDC 20kVDC

7 Discharge The cheesecloth around A single layer of cheesecloth is to be placed around

Test ( II ) capacitors shall not glow or the body of the test capacitor. Each sample is to be
flame. subjected to four discharges from a dump capacitor
charged to a voltage that, when discharged,placed
10kV across the capacitor under test. The interval
between successive discharges is to be 5 sec.
240V, 60Hz potential is to be applied across the
capacitor under test and is to be maintained for 30
sec. after the fourth discharge, unless the circuit is
opened in a shorter time by breakdown of the test
capacitor.
The direct current supply is to be adjusted to
provide a potential in accordance with the following.
10000 (CdWCt)
Vdc= (V)
Cd

T F L S MX type

Vac Ct Cd Vdc

SB1179
FFigure 2G
Vdc : Variable direct-current voltage source
S : High-voltage switch
L : Choke coil of approximately 3mH and 0.03Ω
F : Plug fuse rated 30A and 250V
Vac : Supply source rated 240V, 60Hz and 30A
Ct : Capacitor under test
Cd : Dump Capacitor

Capacitance value and D.F. are as follows.

Cap. value of Ct 0 to 0.0025µF 0.00251 to 0.025µF
Cap. value of Cd 0.0025µF 0.025µF
D.F.of Cd 0.5% max. 0.5% max.

8 Soldering Appearance No marked defect. As in figure, the lead Thermal , Capacitor

screen , ,,
Effect wires shall be immersed ,
,,,,,,,,,,
,,,,,,
,,,,,,,,,,
,,,,,, 1.5
I.R. 1000MΩ min. solder of 350T10D up ,, to 2.0mm
to 1.5 to 2.0mm from the ,,, Molten
solder
Dielectric Per Item 4. root of terminal for
Strength 3.5T0.5 sec. MX type,*2
Pre-treatment:
Capacitor shall be stored at 85T2D for 1 hour,
then placed at *1 room condition for 24T2 hours
before initial measurements.
Post-treatment:
Capacitor shall be stored for 24T2 hours at
*1room condition.

*1 "room condition" temperature : 15 to 35D, humidity : 45 to 75%, atomospheric pressure : 86 to 106kPa

*2 Products which are based on the Standards of the Electrical Appliance and Material Control Law of Japan

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Item Specification Testing Method Application

9 Humidity Appearance No marked defect Set the capacitor for 500T12 hours at 40T2D in 90
(Under to 95% humidity.
Steady Pre-treatment :
State) Capacitor shall be stored at 85T2D for 1 hour,
then placed at *1 room condition for 24T2 hours MX type
I.R. 1000MΩ min. before initial measurements.
Post-treatment :
Dielectric Per Item 4 Capacitor shall be stored for 1 to 2 hours at *1
Strength room condition.

10 Humidity Capacitance Char. Capacitance Change The capacitor shall be subjected to 40T2D, relative
Insulation Change E Within T20% humidity of 90 to 98% for 8 hours, and then
F Within T30% removed in room temperature for 16 hours until 5
cycles.
D.F. Char. Specification Pre-treatment :
E D.F.V5.0% Capacitor shall be stored at 85T2D for 1 hour, *2
F D.F.V7.5% then placed at *1 room condition for 24T2 hours
before initial measurements.
I.R. 1000MΩ min. Post-treatment :
Capacitor shall be stored for 1 to 2 hours at *1
Dielectric Per Item 4 room condition.
Strength

11 Life Appearance No marked defect Apply a voltage of table 3 for 1500 hours at 85T2D,
50% RH max.
I.R. Type Specification FTable 3G
MX 500MΩ min.
Type Applied voltage
*2 1000MΩ min.
MX 440V AC, except that once each hour the
Dielectric Per Item 4 voltage is increased to 880V AC for 0.1 sec.
Strength *2 500V AC, except that once each hour the
voltage is increased to 1000V AC for 0.1 sec.
Discharge Per Item 6
Test ( II ) Pre-treatment:
(Application : Capacitor shall be stored at 85T2D for 1 hour,
MX type) then placed at *1room condition for 24T2 hours
before initial measurements.
Post-treatment:
Capacitor shall be stored for 24T2 hours at
*1room condition.

12 Flame Test The capacitor flame The capacitor shall be subjected to applied flame MX type,*2
discontinue as follows. for 15 sec. and then removed for 15 sec. until 5
cycle (*2 : 3 cycle)
TypeCycle Time Capacitor
1 to 4 30 sec. max. 76 Flame
MX
5 60 sec. max.
1 to 2 15 sec. max. 7
*2 12
3 60 sec. max. 38
20°

Gas Burner (in mm)

13 Strength of Lead wire shall not cut off. As a figure, fix the body of
Lead Pull Capacitor shall not be capacitor, apply a tensile weight
broken. gradually to each lead wire in the
radial direction of capacitor up to
W
10N and keep it for 10T1 sec.

Lead wire shall not cut off. Each lead wire shall be subjected to 5N weight and
Bending then a 90° bend, at the point of egress, in one
direction, return to original position, and then a 90°
bend in the opposite direction at the rate of one
bend in 2 to 3 sec.
*1 "room condition" temperature : 15 to 35D, humidity : 45 to 75%, atomospheric pressure : 86 to 106kPa
*2 Products which are based on the Standards of the Electrical Appliance and Material Control Law of Japan

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!PRECAUTION !NOTICE
1. Operating voltage Soldering
Be sure to use a capacitor only within its rated operating When soldering this product to a PC board, do not exceed
voltage range. the solder heat resistance specification (written in 8.
When DC-rated capacitors are to be used in AC or ripple specification and test method) of the capacitor.
voltage circuits, be sure to maintain the Vp-p value of the Subjecting this product to excessive heating could melt
applied voltage within the rated voltage range. the internal junction solder and may result in thermal
2. Operating temperature and self-generated heat shocks that can crack the ceramic element.
Keep the surface temperature of a capacitor within the
rated operating temperature range. Be sure to take into
account the heat produced by the capacitor itself.
When a capacitor is used in a high-frequency circuit, pulse
voltage circuit or the like, it may produce heat due to
dielectric loss. Keep such self-generated temperature
below 20D.
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. Avoid
exposure to moisture.
Before cleaning, bonding, or molding this product, verify
that these processes do not affect product quality by
testing the perfomance of a cleaned, bonded or molded
product in the internded equipment. Store the capacitors
where the temperature and relative humidity do not
exceed 5 to 40D and 20 to 70% RH. Use capacitors within
6 months.
4. 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 fuming when the product is used.

!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
May. 11. '95 RCJ *1 RCJ-93M-05A ISO9001
Manufacturing Co.,Ltd
Taiwan Murata
Nov. 26. '93 BCIQ *2 5E8Y001-00 ISO9002
Electronics Co.,Ltd
*1 RCJ : Reliability Center for Electronic Component of Japan
*2 BCIQ : Bureau of Commodity Inspection & Quarantine

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!MURATA'S SAFETY STANDARD PRODUCTS

"UL / CSA Recognized Type for Antenna-Coupling
•UL File No. E37921
•CSA File No. LR92026

11.5max.
Capacitor
.
ax

Resistance
0m

11.5max. Application Part Number Circuit

5.

Cap. Temp. Char. Range

-121MF
B2R131C131R---M-141MG 130pF Y5P
25.0min.

7.5T1.5
MF : 1 to 2MΩ
UL / CSA
-121MF
B2R131C271R---M-141MG 270pF Y5U MG : 2.5 to 4MΩ
Recognized MG : 3.2 to 5.2MΩ

(mm) -121MF
B2R131C471R---M-141MG 470pF Y5U

•--- : Resistance Example : R=1 to 2MΩ/B2R131C131R1-2M-121MF

•Common Specification, Rated voltage : 125VAC, Rated Wattage : 1/2W, Capacitance Tolerance : W100
Y100%

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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 Control Law” of Japan, the export license specified by the law is
required for export.
2. Please contact our sales representatives or engineers before using our products listed in this catalog for the applications requiring especially high reliability what
defects might directly cause damage to other party's life, body or property (listed below) or for other applications not specified in this catalog.
q Aircraft equipment
w Aerospace equipment
e Undersea equipment
r Medical equipment
t Transportation equipment (automobiles, trains, ships,etc.)
y Traffic signal equipment
u Disaster prevention / crime prevention equipment
i Data-processing equipment
o Applications of similar complexity or with reliability requirements comparable to the applications listed in the above
3. Product specifications in this catalog are as of February 1997, and are subject to change or stop the supply without notice. Please confirm the specifications
before ordering any product. If there are any questions, please contact our sales representatives or engineers.
4. The categories and specifications listed in this catalog are for information only. Please confirm detailed specifications by checking the product specification
document or requesting for the approval sheet for product specification, before 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.

Head office
2-26-10, Tenjin Nagaokakyo-shi, Kyoto 617-8555, Japan Phone:81-75-951-9111
Marketing Group
1874 Sumiyoshi-cho Kizuki, Nakahara-ku Kawasaki, 211-0021, Japan
Phone:81-44-422-5153 Fax:81-44-433-0798