RHEL81H223K1M1A03A [MURATA]
汽车[动力总成 / 安全设备],汽车[信息娱乐 / 舒适设备],植入式以外的医疗器械设备 [GHTF A/B/C];型号: | RHEL81H223K1M1A03A |
厂家: | muRata |
描述: | 汽车[动力总成 / 安全设备],汽车[信息娱乐 / 舒适设备],植入式以外的医疗器械设备 [GHTF A/B/C] 医疗 医疗器械 |
文件: | 总18页 (文件大小:1807K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
May.10,2011
C49E.pdf
o Part Numbering
Radial Lead Type Monolithic Ceramic Capacitors
(Part Number)
RP
E
R7 1H 104
K
2
M1 A03
A
q
w
e
r
t
y
u
i
o
!
qProduct ID
wSeries/Terminal
Product ID
Series/Terminal
RP
RH
RD
E
E/D
E
Radial Lead Type Monolithic Ceramic Capacitors (DC25V-DC100V)
Radial Lead Type Monolithic Ceramic Capacitors 150°C max. (for Automotive) (DC50V-DC100V)
Radial Lead Type Monolithic Ceramic Capacitors (For Commercial Use Only) (DC25V-DC630V)
eTemperature Characteristics
Temperature
Code
Reference
Characteristics Temperature
Temperature
Range
Capacitance Change or
Temperature Coefficient
Operating
Temperature Range
5C
5G
C7
D7
F1
F5
C0G*
X8G*
X7S
X7T
F
25°C
25°C
25°C
25°C
20°C
25°C
25 to 125°C
25 to 150°C
-55 to 125°C
-55 to 125°C
-25 to 85°C
-30 to 85°C
-55 to 125°C
125 to 150°C
-55 to 125°C
0±30ppm/°C
0±30ppm/°C
±22%
-55 to 125°C
-55 to 150°C
-55 to 125°C
-55 to 125°C
-25 to 85°C
-30 to 85°C
+22, -33%
+30, -80%
+22, -82%
±15%
Y5V
L8
R7
X8L
X7R
25°C
25°C
-55 to 150°C
-55 to 125°C
+15, -40%
±15%
* Please refer to table for Capacitance change under reference temperature.
• Capacitance change from each temperature
Capacitance Change from 25˚C (% )
-30˚C
Char.
Nominal Values (ppm/˚C) *1
-55˚C
-10˚C
Max.
Min.
Max.
Min.
Max.
Min.
C0G
X8G
0±30
0.58
-0.24
0.40
-0.17
0.25
-0.11
*1: Nominal values denote the temperature coefficient within a range of 25 to 125˚C.
rRated Voltage
yCapacitance Tolerance
Code
1E
Rated Voltage
DC25V
Capacitance Temperature
Tolerance Characteristics
Capacitance
Step
Code
1H
DC50V
C
D
J
±0.25pF
C0G
V5pF : 1pF Step
6 to 9pF : 1pF Step
U10 : E12 Series
2A
DC100V
DC250V
DC450V
DC630V
±0.5pF
2E
±5%
C0G/X8G
2W
2J
X7S/X7T/X7R/
X8L
K
±10%
E6 Series
X7S/X7T/X7R/
X8L
M
Z
±20%
E3 Series
E3 Series
tCapacitance
Expressed by three-digit alphanumerics. The unit is pico-farad
(pF). The first and second figures are significant digits, and the
third figure expresses the number of zeros that follow the two
numbers.
+80% , -20%
F/Y5V
If there is a decimal point, it is expressed by the capital letter "R."
In this case, all figures are significant digits.
Continued on the following page.
2
May.10,2011
C49E.pdf
Continued from the preceding page.
uDimensions (LxW)
oIndividual Specification Code
Expressed by three-digit alphanumerics
Code
Dimensions (LxW)
0
1
4.0g3.5mm or 5.0g3.5mm (Depends on Part Number List)
4.0g3.5mm or 4.5g3.5mm or 5.0g3.5mm (Depends on Part Number List)
5.0g3.5mm or 5.5g4.0mm or 5.7g4.5mm (Depends on Part Number List)
5.0g4.5mm or 5.5g5.0mm or 6.0g5.5mm (Depends on Part Number List)
7.5g7.5mm*
!Packaging
2
Code
A
Packaging
3
Ammo Pack
Bulk
5
B
6
10.0g10.0mm
7
12.5g12.5mm
8
7.5g5.5mm
U
W
7.7g12.5mm*
5.5g7.5mm
* DC630V: W+0.5mm
iLead Style
Code
A2
Lead Style
Straight Long
Lead Spacing
2.5mm
B1
Straight Long
5.0mm
C1
Straight Long
10.0mm
2.5mm
DB
Straight Taping
Straight Taping
Inside Crimp
E1/E2
K1
5.0mm
5.0mm
M1/M2
P1
Inside Crimp Taping
Outside Crimp
5.0mm
2.5mm
S1/S2
Outside Crimp Taping
2.5mm
Lead distance between reference and bottom planes.
M1, S1: H0 = 16.0±0.5mm
M2, S2: H0 = 20.0±0.5mm
E1: H = 17.5±0.5mm
E2: H = 20.0±0.5mm
3
May.10,2011
C49E.pdf
Radial Lead Type Monolithic Ceramic Capacitors
RH Series 150°C max. (for Automotive) (DC50V-DC100V)
L max.
T max.
■ Features
1. Small size and large capacitance
2. Low ESR and ESL suitable for high frequency
3. Applied maximum temperature up to 150 deg. C
Note: Maximum accumulative time to 150 deg. C
is within 2000 hours.
ød : 0.5±0.05
4. Coated with epoxy (LxW=4.0x3.5mm) or
silicone (LxW=4.0x3.5mm over) resin which is
suitable for heat cycle.
3
F±0.8
Dimensions code: 1
Lead style code: A2
· Lead Wire : Solder Coated Copper Wire or
Solder Coated CP Wire
5. The RH series meet AEC-Q200 requirements.
(in mm)
L max.
L max.
T max.
T max.
ød : 0.5±0.05
ød : 0.5±0.05
F±0.8
F±0.8
Dimensions code: 2
Lead style code: A2
Dimensions code: 3
Lead style code: A2
· Lead Wire : Solder Coated Copper Wire or
Solder Coated CP Wire
· Lead Wire : Solder Coated Copper Wire or
Solder Coated CP Wire
(in mm)
(in mm)
L max.
T max.
L max.
T max.
ød : 0.5±0.05
ød : 0.5±0.05
F±0.8
F±0.8
Dimensions code: 1
Lead style code: K1
Dimensions code: 2
Lead style code: K1
Coating extension does not exceed the end of the lead bend.
Lead Wire : Solder Coated Copper Wire or
Coating extension does not exceed the end of the lead bend.
· Lead Wire : Solder Coated Copper Wire or
·
(in mm)
(in mm)
Solder Coated CP Wire
Solder Coated CP Wire
L max.
T max.
L max.
T max.
ød : 0.5±0.05
ød : 0.5±0.05
F±0.8
F±0.8
Dimensions code: 3
Lead style code: K1
Dimensions code: W
Lead style code: K1
Coating extension does not exceed the end of the lead bend.
Lead Wire : Solder Coated Copper Wire or
Coating extension does not exceed the end of the lead bend.
Lead Wire : Solder Coated Copper Wire or
·
·
(in mm)
(in mm)
Solder Coated CP Wire
Solder Coated CP Wire
Continued on the following page.
19
May.10,2011
C49E.pdf
Continued from the preceding page.
■ Dimensions
Dimensions (mm)
Dimensions and
Lead Style Code
L
W
W1
-
T
F
d
1A2/1DB
1K1/1M1
2A2/2DB
2K1/2M1
3A2/3DB
3K1/3M1
WK1/WM1
4.0
4.0
5.7
5.7
6.0
6.0
6.0
3.5
3.5
4.5
4.5
5.5
5.5
8.0
2.5
5.0
2.5
5.0
2.5
5.0
5.0
0.5
0.5
0.5
0.5
0.5
0.5
0.5
5.0
-
See
the individual
product
7.0
-
specifications
7.5
10.0
3
■ Marking
Type
Temperature Compensating Type
DC50V, DC100V
X8G
High Dielectric Constant Type
DC50V DC100V
Rated Voltage
Temp. Char.
Dimensions
Code
X8L
8
102J
8
8
1
2
104K
103K
105
104
M K58
M K18
—
—
M
335
K58
3, W
—
Temperature Characteristics
Nominal Capacitance
Marked with code (X8G, X8L char.: 8)
Marked with 3 figures
Marked with code
Capacitance Tolerance
Marked with code (DC50V: 5, DC100V: 1)
A part is omitted (Please refer to the marking example.)
Rated Voltage
M
Marked with
Manufacturer's Identification
A part is omitted (Please refer to the marking example.)
Temperature Compensating Type, X8G Characteristics
Rated
Voltage
(Vdc)
Dimensions Dimension
Lead
Space F
(mm)
Lead Style Lead Style
Lead Style
Code
Taping (2)
Temp.
Char.
Capacitance
(pF)
Part Number
LxW
T
Code
Bulk
Code
(mm)
(mm)
Taping (1)
RHE5G1H101J1ppA03p
RHE5G1H101J1ppA03p
RHE5G1H121J1ppA03p
RHE5G1H121J1ppA03p
RHE5G1H151J1ppA03p
RHE5G1H151J1ppA03p
RHE5G1H181J1ppA03p
RHE5G1H181J1ppA03p
RHE5G1H221J1ppA03p
RHE5G1H221J1ppA03p
RHE5G1H271J1ppA03p
RHE5G1H271J1ppA03p
RHE5G1H331J1ppA03p
RHE5G1H331J1ppA03p
RHE5G1H391J1ppA03p
RHE5G1H391J1ppA03p
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
50
100 ±5%
100 ±5%
120 ±5%
120 ±5%
150 ±5%
150 ±5%
180 ±5%
180 ±5%
220 ±5%
220 ±5%
270 ±5%
270 ±5%
330 ±5%
330 ±5%
390 ±5%
390 ±5%
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
Continued on the following page.
20
May.10,2011
C49E.pdf
Continued from the preceding page.
Rated
Voltage
(Vdc)
Dimensions Dimension
Lead
Space F
(mm)
Lead Style Lead Style
Lead Style
Code
Taping (2)
Temp.
Char.
Capacitance
(pF)
Part Number
LxW
T
Code
Bulk
Code
(mm)
(mm)
Taping (1)
RHE5G1H471J1ppA03p
RHE5G1H471J1ppA03p
RHE5G1H561J1ppA03p
RHE5G1H561J1ppA03p
RHE5G1H681J1ppA03p
RHE5G1H681J1ppA03p
RHE5G1H821J1ppA03p
RHE5G1H821J1ppA03p
RHE5G1H102J1ppA03p
RHE5G1H102J1ppA03p
RHE5G1H122J1ppA03p
RHE5G1H122J1ppA03p
RHE5G1H152J1ppA03p
RHE5G1H152J1ppA03p
RHE5G2A101J1ppA03p
RHE5G2A101J1ppA03p
RHE5G2A121J1ppA03p
RHE5G2A121J1ppA03p
RHE5G2A151J1ppA03p
RHE5G2A151J1ppA03p
RHE5G2A181J1ppA03p
RHE5G2A181J1ppA03p
RHE5G2A221J1ppA03p
RHE5G2A221J1ppA03p
RHE5G2A271J1ppA03p
RHE5G2A271J1ppA03p
RHE5G2A331J1ppA03p
RHE5G2A331J1ppA03p
RHE5G2A391J1ppA03p
RHE5G2A391J1ppA03p
RHE5G2A471J1ppA03p
RHE5G2A471J1ppA03p
RHE5G2A561J1ppA03p
RHE5G2A561J1ppA03p
RHE5G2A681J1ppA03p
RHE5G2A681J1ppA03p
RHE5G2A821J1ppA03p
RHE5G2A821J1ppA03p
RHE5G2A102J1ppA03p
RHE5G2A102J1ppA03p
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
X8G
50
50
470 ±5%
470 ±5%
560 ±5%
560 ±5%
680 ±5%
680 ±5%
820 ±5%
820 ±5%
1000 ±5%
1000 ±5%
1200 ±5%
1200 ±5%
1500 ±5%
1500 ±5%
100 ±5%
100 ±5%
120 ±5%
120 ±5%
150 ±5%
150 ±5%
180 ±5%
180 ±5%
220 ±5%
220 ±5%
270 ±5%
270 ±5%
330 ±5%
330 ±5%
390 ±5%
390 ±5%
470 ±5%
470 ±5%
560 ±5%
560 ±5%
680 ±5%
680 ±5%
820 ±5%
820 ±5%
1000 ±5%
1000 ±5%
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
50
50
50
50
50
50
50
50
50
50
3
50
50
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
Two blank columns are filled with the lead style code. Please refer to the 3 columns on the right for the appropriate code.
The last blank column is filled with the packaging code. (B: bulk, A: ammo pack)
High Dielectric Constant Type, X8L Characteristics
Rated
Voltage
(Vdc)
Dimensions Dimension
Lead
Space F
(mm)
Lead Style Lead Style
Lead Style
Code
Taping (2)
Temp.
Char.
Part Number
Capacitance
LxW
T
Code
Bulk
Code
(mm)
(mm)
Taping (1)
RHEL81H102K1ppA03p
RHEL81H102K1ppA03p
RHEL81H152K1ppA03p
RHEL81H152K1ppA03p
RHEL81H222K1ppA03p
RHEL81H222K1ppA03p
RHEL81H332K1ppA03p
RHEL81H332K1ppA03p
RHEL81H472K1ppA03p
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
50
50
50
50
50
50
50
50
50
1000pF ±10%
1000pF ±10%
1500pF ±10%
1500pF ±10%
2200pF ±10%
2200pF ±10%
3300pF ±10%
3300pF ±10%
4700pF ±10%
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
A2
K1
A2
K1
A2
K1
A2
K1
A2
DB
M1
DB
M1
DB
M1
DB
M1
DB
-
-
-
-
-
-
-
-
-
Continued on the following page.
21
May.10,2011
C49E.pdf
Continued from the preceding page.
Rated
Voltage
(Vdc)
Dimensions Dimension
Lead
Space F
(mm)
Lead Style Lead Style
Lead Style
Code
Taping (2)
Temp.
Char.
Part Number
Capacitance
LxW
T
Code
Bulk
Code
(mm)
(mm)
Taping (1)
RHEL81H472K1ppA03p
RHEL81H682K1ppA03p
RHEL81H682K1ppA03p
RHEL81H103K1ppA03p
RHEL81H103K1ppA03p
RHEL81H153K1ppA03p
RHEL81H153K1ppA03p
RHEL81H223K1ppA03p
RHEL81H223K1ppA03p
RHEL81H333K1ppA03p
RHEL81H333K1ppA03p
RHEL81H473K1ppA03p
RHEL81H473K1ppA03p
RHEL81H683K1ppA03p
RHEL81H683K1ppA03p
RHEL81H104K1ppA03p
RHEL81H104K1ppA03p
RHDL81H154K2ppC03p
RHDL81H154K2ppC03p
RHDL81H224K2ppC03p
RHDL81H224K2ppC03p
RHDL81H334K2ppC03p
RHDL81H334K2ppC03p
RHDL81H474K2ppC03p
RHDL81H474K2ppC03p
RHDL81H684K2ppC03p
RHDL81H684K2ppC03p
RHDL81H105K2ppC03p
RHDL81H105K2ppC03p
RHDL81H155K2ppC03p
RHDL81H155K2ppC03p
RHDL81H225K3ppC03p
RHDL81H225K3ppC03p
RHDL81H335K3ppC03p
RHDL81H335K3ppC03p
RHDL81H475K3ppC03p
RHDL81H475K3ppC03p
RHDL81H106MWppC03p
RHEL82A102K1ppA03p
RHEL82A102K1ppA03p
RHEL82A152K1ppA03p
RHEL82A152K1ppA03p
RHEL82A222K1ppA03p
RHEL82A222K1ppA03p
RHEL82A332K1ppA03p
RHEL82A332K1ppA03p
RHEL82A472K1ppA03p
RHEL82A472K1ppA03p
RHEL82A682K1ppA03p
RHEL82A682K1ppA03p
RHEL82A103K1ppA03p
RHEL82A103K1ppA03p
RHEL82A153K1ppA03p
RHEL82A153K1ppA03p
RHEL82A223K1ppA03p
RHEL82A223K1ppA03p
RHDL82A333K2ppC03p
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
X8L
50
50
4700pF ±10%
6800pF ±10%
6800pF ±10%
10000pF ±10%
10000pF ±10%
15000pF ±10%
15000pF ±10%
22000pF ±10%
22000pF ±10%
33000pF ±10%
33000pF ±10%
47000pF ±10%
47000pF ±10%
68000pF ±10%
68000pF ±10%
0.10µF ±10%
0.10µF ±10%
0.15µF ±10%
0.15µF ±10%
0.22µF ±10%
0.22µF ±10%
0.33µF ±10%
0.33µF ±10%
0.47µF ±10%
0.47µF ±10%
0.68µF ±10%
0.68µF ±10%
1.0µF ±10%
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
6.0 x 5.5
6.0 x 5.5
6.0 x 5.5
6.0 x 5.5
6.0 x 5.5
6.0 x 5.5
6.0 x 8.0
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
4.0 x 3.5
5.7 x 4.5
2.5
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
2.5
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
K1
A2
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
M1
DB
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
50
2.5
50
2.5
50
2.5
50
2.5
50
2.5
50
2.5
50
2.5
50
3.15
3.15
3.15
3.15
3.15
3.15
3.15
3.15
4.5
50
50
3
50
50
50
50
50
50
50
4.5
50
4.5
50
4.5
50
4.5
50
4.5
50
4.5
50
4.5
50
4.5
50
4.5
50
4.5
50
1.0µF ±10%
4.5
50
1.5µF ±10%
4.5
50
1.5µF ±10%
4.5
50
2.2µF ±10%
5.0
50
2.2µF ±10%
5.0
50
3.3µF ±10%
5.0
50
3.3µF ±10%
5.0
50
4.7µF ±10%
5.0
50
4.7µF ±10%
5.0
50
10µF ±20%
5.0
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
100
1000pF ±10%
1000pF ±10%
1500pF ±10%
1500pF ±10%
2200pF ±10%
2200pF ±10%
3300pF ±10%
3300pF ±10%
4700pF ±10%
4700pF ±10%
6800pF ±10%
6800pF ±10%
10000pF ±10%
10000pF ±10%
15000pF ±10%
15000pF ±10%
22000pF ±10%
22000pF ±10%
33000pF ±10%
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
2.5
3.15
3.15
3.15
3.15
3.15
3.15
4.5
Continued on the following page.
22
May.10,2011
C49E.pdf
Continued from the preceding page.
Rated
Voltage
(Vdc)
Dimensions Dimension
Lead
Space F
(mm)
Lead Style Lead Style
Lead Style
Code
Taping (2)
Temp.
Char.
Part Number
Capacitance
LxW
T
Code
Bulk
Code
(mm)
(mm)
Taping (1)
RHDL82A333K2ppC03p
RHDL82A473K2ppC03p
RHDL82A473K2ppC03p
RHDL82A683K2ppC03p
RHDL82A683K2ppC03p
RHDL82A104K2ppC03p
RHDL82A104K2ppC03p
X8L
X8L
X8L
X8L
X8L
X8L
X8L
100
100
100
100
100
100
100
33000pF ±10%
47000pF ±10%
47000pF ±10%
68000pF ±10%
68000pF ±10%
0.10µF ±10%
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
5.7 x 4.5
4.5
4.5
4.5
4.5
4.5
4.5
4.5
5.0
2.5
5.0
2.5
5.0
2.5
5.0
K1
A2
K1
A2
K1
A2
K1
M1
DB
M1
DB
M1
DB
M1
-
-
-
-
-
-
-
0.10µF ±10%
Two blank columns are filled with the lead style code. Please refer to the 3 columns on the right for the appropriate code.
The last blank column is filled with the packaging code. (B: bulk, A: ammo pack)
3
23
May.10,2011
C49E.pdf
Specifications and Test Methods
Specifications
No.
1
Item
Test Method
Temperature Compensating Type High Dielectric Constant Type
(Char. X8G) (Char. X8L)
Operating Temperature
Range
-55 to +150˚C
–
2
3
Appearance
No defects or abnormalities
See previous pages
Visual inspection
Dimension and Marking
Visual inspection, Vernier Caliper
The capacitor should not be damaged when DC
voltage of 300% of the rated voltage (Temperature
Compensating Type) or 250% of the rated voltage
(High Dielectric Constant Type) is applied between
the terminations for 1 to 5 sec.
Between
Terminals
No defects or abnormalities
3
(Charge/Discharge current V 50mA)
The capacitor is placed in a
container with metal balls of 1mm
diameter so that each terminal,
short-circuit, is kept approximately
2mm from the balls as shown in
the figure, and 250% of the rated
DC voltage is impressed for 1 to 5
sec. between capacitor terminals
and metal balls.
Dielectric
Strength
4
Body
Insulation
Approx. 2mm
No defects or abnormalities
Metal balls
(Charge/Discharge current
V 50mA)
The insulation resistance should be measured at
25±3°C with a DC voltage not exceeding the rated
voltage at normal temperature and humidity and within
2 min. of charging.
Room
Temperature
10,000MΩ or 500MΩ· µF min. (whichever is smaller)
(Charge/Discharge current V 50mA)
Insulation
Resistance
5
The insulation resistance should be measured at
150±3°C with a DC voltage not exceeding the rated
voltage at normal temperature and humidity and within
2 min. of charging.
High
Temperature
100MΩ or 5MΩ· µF min. (whichever is smaller)
(Charge/Discharge current V 50mA)
6
7
Capacitance
Within the specified tolerance
The capacitance, Q/D.F. should be measured at 25˚C
at the frequency and voltage shown in the table.
Char.
X8G (1000pF X8G (more than
and below)
1000pF ), X8L
Q/Dissipation Factor (D.F.) QU1,000
0.025 max.
Item
Frequency
Voltage
1±0.1MHz
1±0.1kHz
AC0.5 to 5V
(r.m.s.)
AC1±0.2V
(r.m.s.)
The capacitance change should be measured after
5 min. at each specified temperature stage.
Within T15%
(Temp. Range: -55 to +125°C)
Within +15/-40%
Capacitance
Change
Within the specified tolerance
(Table A on last column)
Step
Temperature (˚C)
25T2
(Temp. Range: +125 to +150°C)
1
2
3
4
5
Temperature Within the specified tolerance
Coefficient
Capacitance
Temperature
Characteristics
-55T3
25T2
150T3
25T2
(Table A on last column)
8
Capacitance
Drift
Within T0.2% or T0.05pF
(whichever is larger)
• Pretreatment for high dielectric constant type
Perform a heat treatment at 150+0/-10°C for 1 hr., and
then let sit at room temperature for 24±2 hrs.
Continued on the following page.
24
May.10,2011
C49E.pdf
Specifications and Test Methods
Continued from the preceding page.
Specifications
Temperature Compensating Type High Dielectric Constant Type
No.
Item
Test Method
(Char. X8G)
(Char. X8L)
As in the figure, fix the capacitor body, apply the force
gradually to each lead in the radial direction of the
capacitor until reaching 10N and then keep the force
applied for 10T1 sec.
Tensile
Strength
Termination not to be broken or loosened
Terminal
Strength
9
3
F
Each lead wire should be subjected to a force of 2.5N
and then bent 90˚ at the point of egress in one
direction. Each wire is then returned to the original
position and bent 90˚ in the opposite direction at the
rate of one bend per 2 to 3 sec.
Bending
Strength
Termination not to be broken or loosened
Appearance No defects or abnormalities
Capacitance Within the specified tolerance
The capacitor should be firmly soldered to the
supporting lead wire and vibrated at a frequency range
of 10 to 2000Hz, 1.5mm in total amplitude, with about
a 20 min. rate of vibration change from 10Hz to
2000Hz and back to 10Hz. Apply for a total of 6 hrs.,
2 hrs. each in 3 mutually perpendicular directions.
Vibration
Resistance
10
Q/D.F.
QU1,000
0.025 max.
The terminal of a capacitor is dipped into a solution of
ethanol (JIS-K-8101) and rosin (JIS-K-5902) (25% rosin
in weight proportion) and then into molten solder (JIS-
Z-3282) for 2T0.5 sec. In both cases the depth of
dipping is up to about 1.5 to 2mm from the terminal
body.
Lead wire should be soldered with uniform coating on the axial
direction over 3/4 of the circumferential direction.
11 Solderability of Leads
Temp. of solder: 245T5˚C Lead Free Solder (Sn-3.0Ag-0.5Cu)
235T5˚C H60A or H63A Eutectic Solder
Appearance No defects or abnormalities
Capacitance Within T2.5% or T0.25pF
The lead wire is immersed in the melted solder 1.5 to
2mm from the main body at 270T5˚C for 3T0.5 sec.
The specified items are measured after 24T2 hrs.
Resistance
to
Within T7.5%
Change
(whichever is larger)
12
Soldering
Heat
Dielectric
Strength
• Pretreatment for high dielectric constant type
Perform a heat treatment at 150+0/-10˚C for 1 hr., and
then let sit at room temperature for 24T2 hrs.
No defects
(Between
Terminals)
Appearance No defects or abnormalities except color change of outer coating Repeat 1000 cycles according to 4 heat treatments
listed in the following table. Remove and set for
24±2 hrs. at room temperature, then measure.
Capacitance Within T5% or T0.5pF
Within T12.5%
Change
(whichever is larger)
Step
Temperature (˚C)
-55T3
Room Temp.
150T3
Time (min)
30T3
3 max.
30T3
Q/D.F.
QU350
0.05 max.
1
2
3
4
Temperature
Cycle
13
Insulation
Resistance
1,000MΩ or 50MΩ · µF min. (whichever is smaller)
Room Temp.
3 max.
Dielectric
Strength
(Between
Terminals)
• Pretreatment for high dielectric constant type
Perform a heat treatment at 150+0/-10°C for 1 hr., and
then let sit at room temperature for 24±2 hrs.
No defects or abnormalities
Appearance No defects or abnormalities
Capacitance Within T5% or T0.5pF
Set the capacitor at 85T2˚C and relative humidity of 85
W24
Y 0
±2% for 500
hrs. Remove and set for 24T2 hrs. at
Within T12.5%
Humidity
14 (Steady
State)
Change
(whichever is larger)
room temperature, then measure.
• Pretreatment for high dielectric constant type
Perform a heat treatment at 150+0/-10°C for 1 hr., and
then let sit at room temperature for 24±2 hrs.
Q/D.F.
QU350
0.05 max.
Insulation
Resistance
1,000MΩ or 50MΩ · µF min. (whichever is smaller)
Appearance No defects or abnormalities
Capacitance Within T5% or T0.5pF
Apply the rated voltage at 85T2˚C and relative humidity
W24
Y 0
of 85±2% for 500
hrs. Remove and set for 24T2
Within T12.5%
hrs. at room temperature, then measure.
(Charge/Discharge current V 50mA)
• Pretreatment for high dielectric constant type
Perform a heat treatment at 150+0/-10°C for 1 hr., and
then let sit at room temperature for 24±2 hrs.
Change
(whichever is larger)
Humidity
Load
15
Q/D.F.
QU200
0.05 max.
Insulation
Resistance
500MΩ or 25MΩ · µF min. (whichever is smaller)
Continued on the following page.
25
May.10,2011
C49E.pdf
Specifications and Test Methods
Continued from the preceding page.
Specifications
No.
Item
Test Method
Temperature Compensating Type High Dielectric Constant Type
(Char. X8G) (Char. X8L)
Appearance No defects or abnormalities except color change of outer coating Apply a DC voltage of 150% of the rated voltage for
W48
1000
hrs. at the maximum operating temperature.
Y 0
Capacitance Within T3% or T0.3pF
Within T12.5%
Remove and set for 24T2 hrs. at room temperature,
then measure.
Change
(whichever is larger)
High
16 Temperature Q/D.F.
Load
QU350
0.04 max.
(Charge/Discharge current V 50mA)
• Pretreatment for high dielectric constant type
Apply test voltage for 1 hr., at test temperature. Remove
and set for 24T2 hrs. at room temperature.
Insulation
Resistance
1,000MΩ or 50MΩ · µF min. (whichever is smaller)
Appearance No defects or abnormalities
The capacitor should be fully immersed, unagitated, in
reagent at 20 to 25 ˚C for 30T5 sec. and then removed
gently. Marking on the surface of the capacitor should
immediately be visually examined.
Reagent :
3
Solvent
Resistance
17
Marking
Legible
• Isopropyl alcohol
Table A
Capacitance Change from 25°C (% )
Nominal Values
(ppm/°C) *1
Char.
–55°C
Max. Min.
0.58 –0.24 0.40 –0.17 0.25 –0.11
–30°C
–10°C
Max. Min.
Max. Min.
X8G
0±30
*1: Nominal values denote the temperature coefficient within a range of
25 to 150°C
26
May.10,2011
C49E.pdf
RH Series Characteristics Reference Data (Typical Example)
■ Capacitance - Temperature Characteristics
■ Capacitance - DC Voltage Characteristics
25°C, 1kHz, AC1V(r.m.s.)
1kHz, AC1V(r.m.s.) without DC bias
10
10
0
X8G
X8G
0
-10
X8L
-10
-20
-30
-40
-50
-60
X8L 100V
-20
-30
-40
-50
-60
X8L 50V
-75
-50
-25
0
25
50
75
100
125
150
0
10
20
30
40
50
60
70
80
90
100
Temperature (°C)
DC Voltage (V)
■ Capacitance Change - Aging
■ Impedance - Frequency Characteristics
10
25°C, 1kHz, AC1V(r.m.s.) without DC bias
10
0
1000pF
X8G
X8L
0.01µF
1
-10
-20
-30
-40
-50
0.1µF
100pF
5
1µF
0.1
X8G
X8L
0.01
1
10
100
1,000
Pass Time (Hr)
10,000
100,000
10
100
1000
Frequency (MHz)
44
May.10,2011
C49E.pdf
Packaging
Packaging
Two types of packaging for monolithic ceramic capacitors are available.
1. Bulk Packaging
Minimum Quantity
Dimensions Code
Dimensions (LZW)
4.0Z3.5mm or 5.0Z3.5mm (Depends on Part Number List)
4.0Z3.5mm or 4.5Z3.5mm or 5.0Z3.5mm (Depends on Part Number List)
5.0Z3.5mm or 5.5Z4.0mm or 5.7Z4.5mm (Depends on Part Number List)
5.0Z4.5mm or 5.5Z5.0mm or 6.0Z5.5mm (Depends on Part Number List)
7.5Z7.5mm (DC630V: 7.5Z8.0mm)
Minimum Quantity (pcs./Bag)
0
1
2
3
5
500*1
6
10.0Z10.0mm
8
7.5Z5.5mm
W
7
5.5Z7.5mm or 6.0Z8.0mm (Depends on Part Number List)
12.5Z12.5mm
100
200
U
7.7Z12.5mm (DC630V: 7.7Z13.0mm)
Please order with an integral multiple of the minimum quantity above.
*1 400 pcs. for RHDL81HpppK3ppC03B
250 pcs. for RHDL81H106MWK1C03B
2. Tape Carrier Packaging
5
(1) Dimensions of Ammo Pack
(in mm)
(2) Minimum Quantity
Dimensions Code
Dimensions (LZW)
Minimum Quantity (pcs./Ammo Pack)
0
1
4.0Z3.5mm or 5.0Z3.5mm (Depends on Part Number List)
4.0Z3.5mm or 4.5Z3.5mm or 5.0Z3.5mm (Depends on Part Number List)
5.0Z3.5mm or 5.5Z4.0mm or 5.7Z4.5mm (Depends on Part Number List)
5.0Z4.5mm or 5.5Z5.0mm or 6.0Z5.5mm (Depends on Part Number List)
7.5Z7.5mm (DC630V: 7.5Z8.0mm)
2000*2
2
3
5
2000*3
1500*4
1000*5
6
10.0Z10.0mm
8
7.5Z5.5mm
W
U
5.5Z7.5mm or 6.0Z8.0mm (Depends on Part Number List)
7.7Z12.5mm (DC630V: 7.7Z13.0mm)
Please order with an integral multiple of the minimum quantity above.
*2 1500 pcs. for RPER71H335K3M1C60A, RPER71H475K3M1C60A, RDER71H335K3ppC03A, RDEC71E226K3ppC03A, RDEC72A155K3ppC03A,
RDEC72A225K3ppC03A and RHD Series
*3 1500 pcs. for RPER71H335K5ppC03A, RPER71H475K5ppC03A, RPER72A105K5ppC03A and RDE Series
(Two blank columns are filled with the lead style code.)
*4 1000 pcs. for RHDL81H106MWM1C03Aꢀ
*5 1500 pcs. for RDED72W105MUE1C13A, RDER72E105MUE1C13A, RDER72J474MUE1C13A
"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.)
Continued on the following page.
46
May.10,2011
C49E.pdf
Packaging
Continued from the preceding page.
Taping Dimensions
Inside Crimp Taping
Straight Taping
P2
P
P2
P
P1
F
P1
F
H0
H
W
W
2
0
L
W
W
2 W1
W1
L
W
W
0
R
R
øD0
P0
P0
ød
Direction of feed
ød
Direction of feed
øD0
Dimensions and Lead style code
0M1
Dimensions (LZW)
4.0Z3.5mm
Dimensions and Lead style code
Dimensions (LZW)
4.0Z3.5mm
1DB
2DB
3DB
5E1
5E2
6E1
6E2
5.7Z4.5mm
4.0Z3.5mm or 4.5Z3.5mm
(Depends on Part Number List)
1M1
6.0Z5.5mm
2M1
2M2
3M1
3M2
8M1
8M2
WM1
5.0Z3.5mm or 5.5Z4.0mm or 5.7Z4.5mm
(Depends on Part Number List)
7.5Z7.5mm
(DC630V: 7.5Z8.0mm)
5.0Z4.5mm or 5.5Z5.0mm
(Depends on Part Number List)
10.0Z10.0mm
7.7Z12.5mm
(DC630V: 7.7Z13.0mm)
7.5Z5.5mm
5.5Z7.5mm
UE1
Outside Crimp Taping
P2
P
Item
Code
Dimensions (mm)
5
Pitch of Component
Pitch of Sprocket Hole
P
12.7T1.0
P0
12.7T0.2
W0.4
P1
F
2.5
(DB) (S1) (S2)
Y0.2
H0
Lead Spacing
F
W0.6
5.0
W
2 W1
L
Y0.2
W
Length from Hole Center to
Component Center
W
0
P2
P1
6.35T1.3
R
øD0
P0
ød
Direction of feed
3.85T0.7
Length from Hole Center to
Lead
5.1T0.7 (DB) (S1) (S2)
Dimensions and Lead style code
Dimensions (LZW)
5.0Z3.5mm
254T1.5 Total length of components pitch Z 20
0S1
1S1
2S1
2S2
3S1
3S2
Body Dimension
Depends on Part Number List
Deviation Along Tape, Left
or Right Defect
∆S
T2.0
5.0Z3.5mm or 5.5Z4.0mm
(Depends on Part Number List)
Carrier Tape Width
W
18.0T0.5
W0
Position of Sprocket Hole
Lead Distance between
Reference and Bottom Plane
For Straight Lead Type
Diameter of Sprocket Hole
Lead Diameter
W1
9.0
5.0Z4.5mm or 5.5Z5.0mm
(Depends on Part Number List)
Y0.5
16.0T0.5 (M1) (S1)
20.0T0.5 (M2) (S2)
20T0.5 (E2),17.5T0.5 (E1),16T0.5 (DB)
4.0T0.1
H0
H
D0
d
0.5T0.05
Total Tape Thickness
Total Thickness of Tape
and Lead Wire
t1
0.6T0.3
t2
T
1.5 max.
0
∆S
∆h1
∆h2
T max.
Body Thickness
Depends on Part Number List
∆h1 1.0 max. (RHD Series: 1.5 max.,
∆h2 Dimensions code W, U: 2.0 max.)
Deviation Across Tape
Portion to Cut in Case of
Defect
W0
11.0
L
Y1.0
Protrusion Length
Hold Down Tape Width
Hold Down Tape Position
Coating Extension
R
W0
W2
0.5 max.
9.5 min.
1.5T1.5
t2
t1
Depends on Dimensions
47
May.10,2011
C49E.pdf
!Caution
■ !Caution (Storage and Operating Condition)
Operating and storage environment
The insulating coating of capacitors does not form a
perfect seal; therefore, do not use or store
capacitors in a corrosive atmosphere, especially
where chloride gas, sulfide gas, acid, alkali, salt
or the like are present. Also avoid exposure to
moisture. Before cleaning, bonding or molding this
product, verify that these processes do not affect
product quality by testing the performance of a
cleaned, bonded or molded product in the intended
equipment. Store the capacitors where the
temperature and relative humidity do not exceed 5
to 40 degrees centigrade and 20 to 70%.
Use capacitors within 6 months after delivery.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
5
48
May.10,2011
C49E.pdf
!Caution
■ !Caution (Rating)
1. Operating Voltage
When DC-rated capacitors are to be used in AC or ripple
current circuits, be sure to maintain the Vp-p value of the
applied voltage or the V0-p which contains DC bias within
the rated voltage range.
When DC-rated capacitors are to be used in input circuits
from commercial power source (AC filter), be sure to use
Safety Recognized Capacitors because various
regulations on withstand voltage or impulse withstand
established for all equipment should be taken into
consideration.
When the voltage is applied to the circuit, starting or
stopping may generate irregular voltage for a transit
period because of resonance or switching. Be sure to
use a capacitor with a rated voltage range that includes
these irregular voltages.
Voltage
DC Voltage
DC+AC Voltage
AC Voltage
Pulse Voltage (1)
Pulse Voltage (2)
Positional
Measurement
V0-p
V0-p
Vp-p
Vp-p
Vp-p
2. Operating Temperature and Self-generated Heat
Keep the surface temperature of a capacitor below the
upper limit of its rated operating temperature range. Be
sure to take into account the heat generated by the
capacitor itself. When the capacitor is used in a high-
frequency current, pulse current or similar current, it may
have self-generated heat due to dielectric loss. In the
case of "High Dielectric Constant Type Capacitors,"
applied voltage load should be such that self-generated
heat is within 20 °C under the condition where the
capacitor is subjected at an atmosphere temperature of
25 °C. Please contact us if self-generated heat occurs
with "Temperature Compensating Type Capacitors".
When measuring, use a thermocouple of small thermal
capacity -K of ø0.1mm under conditions where the
capacitor is not affected by radiant heat from other
components or wind from surroundings. Excessive heat
may lead to deterioration of the capacitor's characteristics
and reliability. Never attempt to perform measurement
with the cooling fan running. Otherwise, accurate
measurement cannot be ensured.
5
3. Fail-Safe
Be sure to provide an appropriate fail-safe function on
your product to prevent a second damage that may be
caused by the abnormal function or the failure of our
product.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
49
May.10,2011
C49E.pdf
!Caution
■ !Caution (Soldering and Mounting)
1. Vibration and impact
4. Treatment after bonding, resin molding and coating
When the outer coating is hot (over 100 degrees
centigrade) after soldering, it becomes soft and fragile,
so please be careful not to give it mechanical stress.
Do not expose a capacitor or its leads to excessive
shock or vibration during use.
2. Soldering
When soldering this product to a PCB/PWB, do not
exceed the solder heat resistance specification of
the capacitor. Subjecting this product to excessive
heating could melt the internal junction solder and
may result in thermal shocks that can crack the
ceramic element.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
3. Bonding, resin molding and coating
In case of bonding, molding or coating this product,
verify that these processes do not affect the quality
of the capacitor by testing the performance of the
bonded, molded or coated product in the intended
equipment.
In case the amount of application, dryness/
hardening conditions of adhesives and molding resins
containing organic solvents (ethyl acetate, methyl
ethyl ketone, toluene, etc.) are unsuitable, the
outer coating resin of a capacitor may be damaged
by the organic solvents and may result, worst case,
in a short circuit.
5
The variation in thickness of adhesive or molding
resin or coating may cause an outer coating resin
cracking and/or ceramic element cracking of a
capacitor in a temperature cycling.
■ !Caution (Handling)
Vibration and impact
Do not expose a capacitor or its leads to excessive
shock or vibration during use.
FAILURE TO FOLLOW THE ABOVE CAUTIONS MAY
RESULT, WORST CASE, IN A SHORT CIRCUIT
AND CAUSE FUMING OR PARTIAL DISPERSION
WHEN THE PRODUCT IS USED.
50
May.10,2011
C49E.pdf
Notice
■ Notice (Rating)
Capacitance change of capacitor
In case of F/X7R/X7S/X7T/X8L/Y5V char.
Capacitors have an aging characteristic, whereby
the capacitor continually decreases its capacitance
slightly if the capacitor is left on for a long
time. Moreover, capacitance might change greatly
depending on the surrounding temperature or an
applied voltage.
■ Notice (Soldering and Mounting)
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 min. maximum.
Do not vibrate the PCB/PWB directly.
Excessive ultrasonic cleaning may lead to fatigue
destruction of the lead wires.
2. Soldering and Mounting
(1) Allowable Conditions for Soldering Temperature and Time
300
5
Dimensions Code
1, 2 (F: 2.5mm)
0, 1, 2 (F: 5.0mm), 3, 8, W
5, 6, 7, U
q
w
e
280
270
260
240
220
e
q
w
5
10
15
20
Accumulated Immersion Time (sec.)
Perform soldering within tolerance range (shaded portion).
(2) Insertion of the Lead Wire
• When soldering, insert the lead wire into the PCB without
mechanically stressing the lead wire.
• Insert the lead wire into the PCB with a distance appropriate
to the lead space.
51
C49E.pdf
May.10,2011
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