Type 252 M Series (AEC-Q200 compliant)
Type 252 M series is specially designed to SMD, based on our technology of chip tantalum capacitors acquired
over many years.
This series is high-reliability capacitors developed for devices, such as automotive electric components, to be
used under severe environmental conditions.
FEATURES
1.Face-Down
Terminal structure has superior volume efficiency for smaller size and high capacitance.
2.Can
be downsized suitable for limited space because face down terminal makes possible for land design.
3.Lead-free
and perfect RoHS Compliant
4.AEC-Q200
compliant
RATING
Item
Category Temperature Range
(Operating Temperature Range)
Rated Temperature
(Max. Operating Temp, at Rated Voltage)
Rated Voltage
Capacitance (Nominal Capacitance Range)
Capacitance Tolerance
-55
Rating
½ +125℃
+85℃
4
½
0.68
½
35VDC
100 µF
See CATALOG NUMBERS AND RATING OF
STANDARD PRODUCTS
Remarks
To be used at derated voltage when
Temperature exceeds 85℃
( At 125℃, 2/3
×rated
voltage )
±20%,±10%
DIMENSIONS
L
W
P
1
P
2
P
1
T
C
(mm)
Case Code
09M
12S
12A
16A
L±0.1
1.6
2.0
3.2
↓
W±0.1
0.85
1.25
1.6
↓
T±0.1
0.8
1.1
1.1
1.5
P
1
±0.1
0.5
0.5
0.8
↓
P
2
±0.1
0.65
1.05
1.65
↓
C±0.1
0.7
0.9
1.2
↓
RECOMMENDED SOLDER PAD LAYOUT
(mm)
Case
Size
EIA
Code
1608
2012
3216
a
More than 1.0
More than 1.0
More than 1.5
b
0.85
1.05
1.35
c
0.4
0.8
1.4
b
09M
c
a
12S
12A,16A
1
ORDERING INFORMATION
252
TYPE
M
SERIES
6301
RATED
VOLTAGE
106
CAPACITANCE
M
CAPACITANCE
TOLERANCE
R
STYLE
OF REELED
PACKAGE
09M
CASE CODE
(Taping
specification)
Marking
4001
6301
1002
1602
2002
2502
3502
Rated
voltage
4VDC
6.3VDC
10VDC
16VDC
20VDC
25VDC
35VDC
Marking
684
105
155
225
335
475
685
106
156
226
336
476
686
107
Capacitance
Code
R
Reel Size
Anode
Notation
Feed hole: -
Case Code
09M
12S
12A
16A
0.68F
1.0
F
1.5F
2.2F
3.3F
4.7F
6.8F
10F
15F
22F
33F
47F
68F
100F
φ180
Height of
component
max.(mm)
0.9
1.2
1.2
1.6
EIA Code
1608
2012
3216
3216
MARKING
[09M
case]
[12S
case]
Capacitance (
2
)
Rated voltage (
1
)
J
GS
6.3
J
10
A
Rated voltage (
1
)
Capacitor tolerance (In case that capacitance tolerancs is +/-10%,
there is a bar marking)
Polarity (Anode notion)
Polarity (Anode notion)
[12A,16A
case]
Rated voltage
½ J8
Capacitance (
3
)
Capacitor tolerance (In case that capacitance tolerancs is +/-10%,
there is a bar marking)
Polarity (Anode notion)
(1) Rated voltage is indicated with one alphabetic letter.
Rated voltage
code
4
G
16
C
20
D
25
E
35
V
*The
rated voltage of case A is indicated with a small letter g (4 V) or j (6.3 V).
(2)
Capacitance is indicated with one alphabetic letter or the alphabetic letter with an overbar or underbar.
Capacitance ( µF)
code
1
A
1.5
E
2.2
J
3.3
N
4.7
S
6.8
W
Beside the capacitance which is not listed above, _ (1/10),(10 times)or = (100 times) is used.
(Ex.: J indicates 1/10 of J (2.2), which means 0.22).
(3)
Capacitance is indicated with one alphabetic letter and one numeral.
code
Capacitance ( µF)
code
Capacitance ( µF)
A6
1.0
N7
33
E6
1.5
S7
47
J6
2.2
W7
68
N6
3.3
A8
100
S6
4.7
E8
150
W6
6.8
J8
220
A7
10
N8
330
E7
15
S8
470
J7
22
W8
680
2
STANDARD RATING
RV.(VDC)
Cap.(F)
0.68
1.0
1.5
2.2
3.3
4.7
6.8
10
15
22
33
47
68
100
12S
12A
16A
12S
12A
16A
09M
09M
09M
09M
4
6.3
August,2010
10
16
20
09M
09M
09M
09M
09M
12S
12A
12S
12A
12S
12A
16A
16A
16A
12A
16A
09M
12S
12A
16A
12S
25
35
CATALOG NUMBERS AND RATING OF STANDARD PRODUCTS
Rated
Voltage
(VDC)
4
↓
↓
↓
6.3
↓
↓
↓
↓
↓
10
↓
↓
↓
↓
16
↓
↓
↓
↓
20
↓
↓
↓
↓
25
↓
↓
35
↓
↓
Surge voltage
(VDC)
85℃
125℃
Capac
itance
August,2010
ESR
Ω
Lct. (A)
Case
Code
-55℃
20℃
85℃
125℃
Max. Dissipation Factor
-55℃
20℃
85℃
125℃
Catalog number(1)(2)
(F)
15
47
68
100
4.7
6.8
10
33
47
68
2.2
3.3
22
33
47
1
1.5
10
15
22
0.68
1
3.3
6.8
10
1.5
3.3
4.7
1
2.2
3.3
100kHz
8
4
2
2
10
8
8
4
2
2
15
15
4
2
2
15
15
4
2
2
15
15
8
4
4
8
4
4
8
4
4
252M 4001 156 _
1
_
2
09M
252M 4001 476 _ _ 12S
252M 4001 686 _ _ 12A
252M 4001 107 _ _ 16A
252M 6301 475 _ _ 09M
252M 6301 685 _ _ 09M
252M 6301 106 _ _ 09M
252M 6301 336 _ _ 12S
252M 6301 476 _ _ 12A
252M 6301 686 _ _ 16A
252M 1002 225 _ _ 09M
252M 1002 335 _ _ 09M
252M 1002 226 _ _ 12S
252M 1002 336 _ _ 12A
252M 1002 476 _ _ 16A
252M 1602 105 _ _ 09M
252M 1602 155 _ _ 09M
252M 1602 106 _ _ 12S
252M 1602 156 _ _ 12A
252M 1602 226 _ _ 16A
252M 2002 684 _ _ 09M
252M 2002 105 _ _ 09M
252M 2002 335 _ _ 12S
252M 2002 685 _ _ 12A
252M 2002 106 _ _ 16A
252M 2502 155 _ _ 12S
252M 2502 335 _ _ 12A
252M 2502 475 _ _ 16A
252M 3502 105 _ _ 12S
252M 3502 225 _ _ 12A
252M 3502 335 _ _ 16A
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
1
2
4.6
↓
↓
↓
7.2
↓
↓
↓
↓
↓
11.5
↓
↓
↓
↓
18.4
↓
↓
↓
↓
23
↓
↓
↓
↓
28.7
↓
↓
40.2
↓
↓
3.0
↓
↓
↓
4.8
↓
↓
↓
↓
↓
7.6
↓
↓
↓
↓
12.2
↓
↓
↓
↓
15.3
↓
↓
↓
↓
19.1
↓
↓
26.8
↓
↓
09M
12S
12A
16A
09M
09M
09M
12S
12A
16A
09M
09M
12S
12A
16A
09M
09M
12S
12A
16A
09M
09M
12S
12A
16A
12S
12A
16A
12S
12A
16A
0.6
1.9
2.7
4.0
0.5
0.5
0.6
2.1
3.0
4.3
0.5
0.5
2.2
3.3
4.7
0.5
0.5
1.6
2.4
3.5
0.5
0.5
0.7
1.4
2.0
0.5
0.8
1.2
0.5
0.8
1.2
6
19
27
40
5
5
6
21
30
43
5
5
22
33
47
5
5
16
24
35
5
5
7
14
20
5
8
12
5
8
12
7.5
24
34
50
6.3
6.3
7.9
26
37
54
6.3
6.3
28
41
59
6.3
6.3
20
30
44
6.3
6.3
8.3
17
25
6.3
10
15
6.3
9.6
14
0.16
0.16
0.16
0.16
0.12
0.15
0.15
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.12
0.12
0.16
0.12
0.12
0.16
0.12
0.12
0.08
0.08
0.08
0.08
0.06
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.06
0.06
0.08
0.06
0.06
0.08
0.06
0.06
0.16
0.16
0.16
0.16
0.12
0.15
0.15
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.12
0.12
0.16
0.12
0.12
0.16
0.12
0.12
0.16
0.16
0.16
0.16
0.12
0.15
0.15
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.12
0.12
0.16
0.12
0.12
0.16
0.12
0.12
Notes (1) _
1
: Permissible tolerance K (±10%) or M (±20%)
(2) _
2
:No code for single item. ‘R’for taping specification
3
PERFORMANCE
No.
Item (1)
Leakage Current (µA)
1
Capacitance (µF)
2
Dissipation Factor
3
4
Equivalent Series Resistance
Characteristics
at High and LowTemperature
Leakage Current
Step
Capacitance
1
Dissipation Factor
Leakage Current
Step
2
Capacitance
Change
Dissipation Factor
Leakage Current
Capacitance
Change
Dissipation Factor
Leakage Current
Capacitance
Change
Dissipation Factor
Leakage Current
Capacitance
Change
Dissipation Factor
Leakage Current
Capacitance
Change
Dissipation Factor
Leakage Current
Capacitance
Change
Dissipation Factor
Appearance
Leakage Current
Capacitance
Change
Dissipation Factor
Appearance
Leakage Current
Capacitance
Change
Dissipation Factor
Appearance
Leakage Current
Capacitance
Change
Dissipation Factor
Appearance
Leakage Current
Capacitance
Change
Dissipation Factor
Shall not exceed the values shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS .
Shall not exceed the values shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS .
Shall be within tolerance of the nominal value specified.
Performance
Shall not exceed 0.01 CV or 0.5 µA whichever is greater.
Test method
IEC 60384-1 4.9
Applied voltage : Rated voltage
Duration : 5 min
Measuring temperature : Room temperature
IEC 60384-1, 4.7
Measuring frequency : 120 Hz ± 20%
Measuring voltage : 0.5 Vrms +1.5 ~ 2 VDC
Measuring temperature : Room temperature
IEC 60384-1, 4.8
Measuring frequency : 120 Hz ± 20%
Measuring voltage : 0.5 Vrms +1.5 ~ 2 VDC
Measuring temperature : Room temperature
Measuring frequency : 100 kHz
Measuring temperature : Room temperature
IEC 60384-1, 4.29
Measuring temperature : 20 ± 2°C
5
Step
3
Step
4
Step
5
Step
6
HighTempera
ture
Exposure
Shall not exceed the value in No.1.
Shall be within tolerance of the nominal value specified.
Shall not exceed the values shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS .
Shall not exceed the values shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS .
0
Shall be within
-12
% of the value at Step 1
Shall not exceed the values shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS .
Shall not exceed the value in No.1.
Shall be within ± 2% of the value at Step 1.
Shall not exceed the values shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS.
Shall not exceed 0.1 CV or 5 µA whichever is greater.
Shall be within
+10
% of the value at Step 1
0
Shall not exceed the values shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS .
Shall not exceed 0.125CV or 6.3 µA whichever is greater.
Shall be within
+15
% of the value at Step 1
0
Shall not exceed the values shown in CATALOG
NUMBERS AND RATING OF STANDARD PRODUCTS.
Shall not exceed the value in No.1.
Shall be within ± 2% of the value at Step 1.
Shall not exceed the values shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS.
Shall not exceed 10 times value in No.1
Within ± 15%of initial value.
Shall not exceed 1.5 times value shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS.
There shall be no evidence of mechanical damage.
Shall not exceed 5 times value in No.1
Within ± 15%of initial value.
Shall not exceed 1.5 times value shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS.
There shall be no evidence of mechanical damage.
Shall not exceed 10 times value in NO.1
Within ± 15%of initial value.
Shall not exceed 1.5 times value shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS.
There shall be no evidence of mechanical damage.
Shall not exceed 10 times value in No.1
Within ± 15%of initial value.
Shall not exceed 1.5 times value shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS.
There shall be no evidence of mechanical damage.
Shall not exceed 1.25 times value in No.1
Within ± 15%of initial value.
Shall not exceed 1.5 times value shown in CATALOG NUMBERS
AND RATING OF STANDARD PRODUCTS.
There shall be no evidence of mechanical damage.
There shall be no evidence of mechanical damage.
There shall be no intermittent contact of 0.5 ms or greater
duration, nor shall there be any open or short-circuiting.
Measuring temperature : -55 ± 3°C
Measuring temperature : 20 ± 2°C
Measuring temperature : 85 ± 2°C
Measuring temperature : 125 ± 2°C
Measuring voltage : Derated voltage at 125°C
Measuring temperature : 20 ± 2°C
6
MIL-STD-202 Method 108
Temperature : 125 ± 2°C
Duration : 1000
+48
hrs
0
Temperature
Cycle
7
Moisture
Resistance
8
JESD22 Method JA-104
Step 1 : -55 ± 3°C, 30 ± 3 min.
+10
Step 2 : 25
-5
°C, 3 min.max.
Step 3 : 125 ± 2°C, 30 ± 3 min.
Step 4 : 25
+10
°C, 3 min.max.
-5
Number of cycles : 1000
MIL-STD-202 Method 106
Biased
Humidity
9
MIL-STD-202 Method 103
Temperature : 85 ± 2°C
Moisture : 85± 5%RH
Applied voltage : DC rated voltage
Duration : 1000
+48
hrs
0
MIL-STD-202 Method 108
Test temperature : 125 ± 3°C
Applied voltage :DC rated voltage × 2/3
Duration : 2000
+72
hrs
0
Series resistance: do not exceed 3 Ω
MIL-STD-202 Method 215
MIL-STD-202 Method 213
Test condition : F
Peak value: 1500G
Duration : 0.5ms
Wave form : Half-sine
Operational
Life
10
11
Appearance
Resistance to Solvents
Mechanical Shock (specified pulse)
12
4
No.
Vibration
13
Item (1)
Capacitance
Appearance
Performance
There shall be no intermittent contact of 0.5 ms or greater
duration, nor shall there be any open or short-circuiting.
Test method
MIL-STD-202 Method 204
Vibration Amplitude : 5G (peak)
Frequency range : 10 ~ 2000 Hz
Duration : 20min in each of three mutually
perpendicular directions , 12 cycles.
MIL-STD-202 Method 210
Test condition : K (IR/convection reflow)
In conformance with JEDEC J-STD-020C
Reflow : 260°C max.
Number of cycles : 2
MIL-STD-202 Method 107
Step 1 : -55 ± 3°C, 15 min.
Step 2 : 125 ± 2°C, 15 min.
maximum transfer time : 20s
Number of cycles : 300
AEC-Q200-002
Component classification
1B
J-STD-002
Solder temperature : 235 ± 5°C
Dipping time : 5 ± 0.5 sec
Capacitor terminal shall be dipped into melted
solder.
J-STD-002
Solder temperature : 260 ± 5°C
Dipping time : 30± 0.5 sec
Capacitor terminal shall be dipped into melted
solder.
AEC-Q200-005
Bend the board : 3 mm
Duration : 5s
AEC-Q200-006
Applied pressure
: 17.7N(A case size) and 5N(M,S case
size)
Duration : 60s
AEC-Q200,4.3.4
IEC 60384-1,4.22
Temperature : 85 ± 2°C
Moisture : 85± 5%RH
Duration : 1000
+48
hrs
0
14
Resistance to
Soldering
Heat
Leakage Current
Capacitance
Change
Dissipation Factor
Appearance
Leakage Current
Capacitance
Change
Dissipation Factor
Appearance
Shall not exceed the value in No.1.
Shall n Within ± 15%of initial value.
Shall not exceed 1.5 times value shown in CATALOG
NUMBERS AND RATING OF STANDARD PRODUCTS.
There shall be no cracks and other damage.
Shall not exceed 5 times value in No.1
Within ± 15%of initial value.
Shall not exceed 1.5 times value shown in CATALOG
NUMBERS AND RATING OF STANDARD PRODUCTS.
There shall be no evidence of mechanical damage.
There shall be no evidence of mechanical damage.
The dipped portion of the lead shall be covered more than
95% with new solder.
Thermal
Shock
15
16
ESD
Solderability
Solder Bath/Dip
And Look Test
17
Resistance to
Dissolution
Metallization Test
Leaching/dewetting shall be no more than 5% of the
solderable metallization exhibiting exposed underlying.
18
Board Flex
Capacitance
(Substrate
Appearance
bending test)
Terminal strength (Shear Test)
Capacitance shall be stable during bending position of the
substrate.
There shall be no evidence of mechanical damage.
No exfoliation between lead terminal and board.
There shall be no evidence of mechanical damage.
19
20
Whisker
Damp heat
(Steady
state)
Leakage Current
Capacitance
Change
Dissipation Factor
Appearance
Leakage Current
Capacitance
Change
Dissipation Factor
Appearance
Whisker shall be less than 50
m
under high power (>50x)
microscope.
Shall not exceed 10 times value in No.1
Within ± 15%of initial value.
Shall not exceed 1.5 times value shown in CATALOG
NUMBERS AND RATING OF STANDARD PRODUCTS.
There shall be no evidence of mechanical damage.
Shall not exceed the value in No.1.
Shall n Within ± 15%of initial value.
Shall not exceed 1.5 times value shown in CATALOG
NUMBERS AND RATING OF STANDARD PRODUCTS.
There shall be no evidence of mechanical damage.
21
Surge
22
IEC 60384-1, 4.26
Test temperature and applied voltage : To
each half of specimens
• 85 ± 2°C, rated voltage
×1.15
• 125 ± 2°C, 2/3
×
rated voltage
×1.15
Series protective resistance : 1000 Ω
Discharge resistance : 1000 Ω
5
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