MULTILAYER CERAMIC CAPACITOR
RD Series (X7R/X5R/Y5V/Z5U): Radial Leaded
INTRODUCTION
Radial Leaded Multilayer Ceramic Capacitors are
made with a superior epoxy coating for moisture
and mechanical protection. The small size is
suitable for a wide range of applications, including:
data processing, telecommunications,
instrumentation, and industrial controls.
RoHS
FEATURES
• Epoxy Coating
• Minature Size
• Auto Insertable
•
Reliable
PART NUMBER EXAMPLE
7.62
mm
max
W
W
T
H
MIN
20mm
H
RD 25 ZU 104 M 251 B XX XX
Size code
Temperature
Lead
Forming
Lead Code
Packing Code
Voltage Code
Tolerance Code
d
d=0.5±0.05
F
SIZE CODE & CAPACITANCE RANGE
Size
Code
Dimensions (mm)
H
W
T
Voltage
Vdc
Voltage
Code
X7R
( F)
X5R
( F)
1.50~10.00
0.33~4.70
1.00
0.22
Y5V
( F)
Z5U
( F)
6.3V
10V
16V
25V
50V
100V
250V
6.3V
10V
16V
25V
50V
100V
250V
500V
RD2
*
4.0
4.0
2.5
050
100
160
250
500
101
251
060
100
160
250
500
101
251
501
0.22~2.20
0.10~1.50
0.00022~0.33
0.00022~0.10
0.001~0.033
4.70~22.00
2.20~10.00
1.00~4.70
0.47~2.20
0.10~1.00 0.22~1.00
RD3
*
5.0
5.0
3.0
0.30~4.70
0.68~2.20
0.47~1.00
0.033~0.47
0.015~0.15
0.001~0.033
10.00~22.00
6.80~10.00
10.00
3.30
47.00
22.00
10.00
4.70
2.20
*
2 = 2.5mm ± 1mm Lead Spacing, F Dimension
*
5 = 5.0mm ± 1mm Lead Spacing, F Dimension
CAPACITANCE CODE
Code
Capacitance
221
0.00022 F
102
0.001 F
222
0.00022 F
103
0.01 F
473
0.047 F
104
0.1 F
105
1.0 F
106
10 F
Page 1 of 4
C1BD02
2011.08.02
MULTILAYER CERAMIC CAPACITOR
RD Series (X7R/X5R/Y5V/Z5U): Radial Leaded
TOLERANCE CODE
Code
C
D
F
G
J
K
M
Z
Cap.
Tol.
RoHS
TEMPERATURE COEFFICIENT
Code
CG
X5R
XR
Temp.
Charact.
C0G/NPO
X5R
X7R
Y5V
Z5U
Temperature
Range
-55 ~ 125℃
-55 ~ 85℃
-55 ~ 125℃
-30 ~ 85℃
+10 ~ 85℃
Capacitance
Change
0±30
ppm/℃
±15℃
±15℃
+22℃, -82%
+22℃, -56%
±0.25pF
±0.5pF
±1%
±2%
YV
±5%
±10%
±20%
±80%, -20%
ZU
* See other RD Series for COG/NPO
TAPING & PACKAGING
PACKAGING CODE
Code
B
A
R
Style
BULK
AMMO
REEL
Quantity
1000
3000
3000
Lead Forming
Code
KO
KI
Stand off forming
Kink Out
Kink In
LEAD LENGTH EXAMPLE (Bulk Only)
Code
20
04
4±1
10
10±1
16
16±
1.5
1
30
30±3
Length
(mm) standard
Page 2 of 4
C1BD02
2011.08.02
MULTILAYER CERAMIC CAPACITOR
RD Series (X7R/X5R/Y5V/Z5U): Radial Leaded
ELECTRICAL CHARACTERISTICS
X7R/X5R/Y5V/Z5U
Parameter
Capacitance
Specification
With the specified tolerance
25V
min
Dissipation Factor
(tanδ)
16V
10V
max
X7R= 0.03max
X7R= 0.055max.(C
≧ 1.0uF)
Y5V=
0.075max
Z5U=
0.09max
X7R/X5R=0.05max.
Y5V=
0.10max
X7R/X5R=0.05max.
Y5V=
0.125max
Shall be measured at 25
℃
± 2℃ at the
frequency and voltage
X7R/X5R/Y5V
@ 1Hz ± 10%, 1±0.2Vrms
Z5U
@ 1Hz ± 10%, 0.5±0.2Vrms
Measuring Condition
RoHS
6.3V X5R= 0.075max
Applied voltage:
Rated veltage X 2.5
100V~500V Rated voltage (over) X 1.5
Duration: 1 to 5 sec.
The charge/discharge current is less
than 50mA
Apply rated voltage for 1 minute
at 25℃± 2℃ and 70% R.H. max
.
16Vdc product
:
Measurement voltage is 25Vdc
Withstanding Voltage
No defects
Insulation Resistance
More than 10GΩ or 500M
Ω
‧
μ
F
whichever is less
16Vdc product:
More than 10GΩ or 100M
Ω
‧
μ
F
whichever is less
STORAGE
1. The storage conditions < 40℃,
< 70%
R.H.
2. After opening the package, please store in desiccators.
ENVIRONMENTAL AND TEST CHARACTERISTICS
Parameter
Specification
Termination not to be broken or loosened
Force:2 LB min.
Keep time:10±
1
sec.
Measuring Condition
Strength of
termination
Solderability of
leads
Lead wire to be soldered vertically up to
the coating end point.
At least
75%of
lead surface is covered
Solder temperature: 260 ± 5
℃
Dipping: 2 ± 0.5 sec.
(Containing Ag 2~5%)
(Flux shall be used)
Page 3 of 4
C1BD02
2011.08.02
MULTILAYER CERAMIC CAPACITOR
RD Series (X7R/X5R/Y5V/Z5U): Dipped Radial Leaded
ELECTRICAL CHARACTERISTICS
X7R/X5R/Y5V/Z5U
Item
Temperature Compensating
Measuring Condition
Resistance to Soldering heat
X7R/X5R= ±7.5%
C Y5V= ± 20%
Z5U= ± 20%
X7R= 0.03max
25V X7R= 0.055max.(C
≧ 1.0uF)
min
Y5V=
0.075max
Z5U=
0.09max
D.F. 16V X7R/X5R=0.05max.
Y5V=
0.10max
10V X7R/X5R=0.05max.
max Y5V=
0.125max
6.3V X5R= 0.075max
More than 10G or 500M
‧
μ
F,
whichever is less.
I.R.
16V
dc product:
More than 10G or 100M
‧
μ
F,
whichever is less.
Measuring Condition
Thermal shock
RoHS
The lead wire is immersed in the melted solder 1.5mm to 2mm form the main body
at 260 ± 5
℃
for
10
± 0.5
sec
Let sit at room temperature for 48 ± 4hrs. Perform the five cycles according to the
four heat treatments listed in the following
then measure.
table.Remove and let sit at room
temperaturefor 48 ± 4hrs., then measure.
Initial measurement for perform a
0
Step
1
2
3
4
heat treatment at 150
+
10
℃
for
1 hours.
-
Min.
Max.
Temp.
Room
Room
Remove and let sit for 48 ± 4hrs.At
Operating
Operating
(℃)
Temp.
Temp.
Temp.
Temp.
room
temperature.
Time
30± 15
3
30± 15
3
Perform the initial measurement.
Initial measurement for perform a heat
0
treatment at 150
+
10
℃
for
1 hours. Remove
-
and let sit for 48 ± 4hrs.At
room
temperature.
Perform the initial measurement.
Item
Temperature Compensating
Measuring Condition
Moisture resistance
(Steady state)
Measuring Condition
High temperature loading
X7R/X5R= ±15%
C Y5V= ± 30%
Z5U= ± 30%
X7R= 0.06max
25V X7R= 0.11max.(C≧1.0uF)
min
Y5V=
0.1125max
Z5U=
0.135max
Apply the 200% of rated DC voltage for
- 0
1000
+48
hrs.at the maximum operating
temperature ± 2
℃.Remove
and
let sit at
Remove and let sit at
room
temperature room temperaturefor 48 ± 4hrs.,than
measure.
for 48 ± 4hrs,
then measure.
Initial measurement for perform a heat
0
treatment at 150
+
10
℃
for
1 hours.
-
Remove and let sit for 48 ± 4hrs.At
room
temperature.
The charge/discharge current is less
than 50mA.
Initial measurement for Apply 200% of
the rated DC voltage for 1 hour at the
maximum operating temperature ± 2
℃.
Remove
let sit at room temperature for
48 ± 4hrs.
Perform the initial measurement.
* 100%
for
100V~500V
Apply the rated DC voltage at 40 ± 2℃
- 0
and
90
to
95%
R.H.
for
500
+24
hrs.
D.F. 16V X7R/X5R=0.10max.
Y5V=
0.15max
10V X7R/X5R=0.10max.
max Y5V=
0.1875max
Perform the initial measurement.
6.3V X5R= 0.15max
More than 1000G or 50M
‧
μ
F,
whichever is less.
I.R.
16V
dc product:
More than 1000G or 10M
‧
μ
F,
whichever is less.
Page 4 of 4
C1BD02
2011.08.02
