Type ACA
Aluminum Electrolytic Capacitor
with Conductive Polymer
Solid Electrolyte
PRODUCTS DATA SHEET
RoHS COMPLIANT
LEAD FREE
No. P-ACA-003
DATE 2008-10
Surface mount
−2−
FEATURES
OUTLINE
DIMENSIONS
Type ACA is an aluminum solid electrolytic capacitor which uses conductive polymer as cathode layer. In order to meet the
customer needs of digitization and higher frequency of electronics device, we have developed conductive polymer aluminum
solid electrolytic capacitor with ULTRA Low ESR, which is excellent in electrically conductive and high-temperature stability.
APPLICATION
Computer, computer peripherals, mother board, DC/DC converter, regulator peripherals.
1. Low ESR and Low impedance
Using conductive polymer as cathode layer makes possible of lower ESR and impedance, especially at high-frequency
range.
2. Temperature Stability
ESR and capacitance are stable from low temperature through high temperature.
3. Category temperature range is -55˚C to +105˚C. No delating with temperature is required.
4. Failure mode
ACA offers very safe characteristics which makes ignition and smorking harder by taking advantages of characteristics of
materials if the capacitor be short-circuited.
5. Lead free and RoHS compliant.
Case
Size
4D
6D
8D
L
7.3
±
0.2
7.3
±
0.2
7.3
±
0.3
W
4.3
±
0.2
4.3
±
0.2
4.3
±
0.3
T
1.9
±
0.1
2.8
±
0.3
4.2
±
0.3
P1±0.2
1.3
1.3
1.3
P2 min.
4.1
4.1
4.0
C±0.2
(mm)
2.4
2.4
2.4
Case Size
4D, 6D, 8D
EIA
Code
7343
c
(mm)
4.6
b
2.7
a
2.4
RECOMMENDED PAD DIMENSIONS
MARKING
Year
2005
2009
Month
1
2
3
4
5
6
7
8
9
10
11
12
Code
A
B
C
D
E
F
G
H
J
K
L
M
Year
2006
2010
Month
1
2
3
4
5
6
7
8
9
10
11
12
Code
N
P
Q
R
S
T
U
V
W
X
Y
Z
Year
2007
2011
Month
1
2
3
4
5
6
7
8
9
10
11
12
Code
a
b
c
d
e
f
g
j
m
Year
2008
2012
Month
1
2
3
4
5
6
7
8
9
10
11
12
Code
n
p
q
r
In order to expect the self alignment effect, it is recommended that land width is almost the same size as terminal of capacitor,
and space between lands(c) nearly equal to the space between terminals for appropriate soldering.
ca
b
RATING
Item
Category Temperature Range
(Operating Temperature Range)
Rating
-55~+105°C
Rated Temperature
(Max. Operating Temp. at Rated Voltage) +105°C
Capacitance 10~470µF
Rated Voltage 2-2.5-4-6.3-8-10VDC
Capacitance Tolerance ±20%
L
P1P1P2
T
C
W
Rated voltage
Manufacturing date code
Capacitance
Polarity (anode notation)
157J
2.5
−3−
Table-1
Rated voltage
2V
2.5V
4V
6.3V
8V
10V
Marking
2001
2501
4001
6301
8001
1002
Capacitance
Tolerance
±20%
Marking
M
Capacitance
10µF
15µF
22µF
33µF
47µF
56µF
68µF
82µF
100µF
150µF
180µF
220µF
270µF
330µF
390µF
470µF
Marking
106
156
226
336
476
566
686
826
107
157
187
227
277
337
397
477
ACA
TYPE
2001
RATED
VOLTAGE
107
CAPACITANCE
M
CAPACITANCE
TOLERANCE
R
STYLE OF REELED
PACKAGE
4D
CASE CODE
0016
ESR(mΩ)
ORDERING INFORMATION
EIA Code
7343L
7343
7343H
Case Code
4D
6D
8D
R
N
Feed hole: -
Feed hole: -
φ180 Reel
φ330 Reel
Reel SizeCode Anode
Notation
CATALOG NUMBERS AND RATING
(1)
_
1 : No code for single item. “R” or “N” for taping specification.
(2) Reference value.
ACA 2001 107 M_1 4D 0016
ACA 2001 157 M_1 4D 0009
ACA 2001 227 M_1 4D 0009
ACA 2001 227 M_1 4D 0015
ACA 2001 227 M_1 6D 0009
ACA 2001 227 M_1 6D 0015
ACA 2001 337 M_1 6D 0007
ACA 2001 337 M_1 6D 0012
ACA 2001 397 MN 8D 0007
ACA 2001 477 MN 8D 0007
ACA 2001 477 MN 8D 0010
ACA 2501 826 M_1 4D 0018
ACA 2501 107 M_1 4D 0015
ACA 2501 157 M_1 6D 0015
ACA 2501 187 M_1 6D 0015
ACA 2501 187 MN 8D 0015
ACA 2501 227 MN 8D 0010
ACA 2501 277 MN 8D 0010
ACA 2501 337 MN 8D 0010
ACA 4001 686 M_1 4D 0018
ACA 4001 826 M_1 4D 0018
ACA 4001 826 M_1 4D 0028
ACA 4001 107 M_1 4D 0015
ACA 4001 157 M_1 6D 0015
ACA 4001 187 M_1 6D 0015
ACA 4001 187 MN 8D 0010
ACA 4001 187 MN 8D 0015
ACA 4001 227 MN 8D 0010
ACA 4001 227 MN 8D 0015
ACA 4001 277 MN 8D 0010
ACA 4001 337 MN 8D 0010
ACA 6301 106 M_1 4D 0055
ACA 6301 226 M_1 4D 0045
ACA 6301 336 M_1 4D 0025
ACA 6301 476 M_1 4D 0025
ACA 6301 566 M_1 4D 0025
ACA 6301 686 M_1 4D 0015
ACA 6301 686 M_1 4D 0025
ACA 6301 107 M_1 4D 0015
ACA 6301 107 M_1 6D 0018
ACA 6301 157 M_1 6D 0010
ACA 6301 157 M_1 6D 0015
ACA 6301 157 MN 8D 0015
ACA 6301 187 MN 8D 0010
ACA 6301 337 MN 8D 0009
ACA 8001 226 M_1 4D 0045
ACA 8001 336 M_1 4D 0025
ACA 8001 686 M_1 6D 0015
ACA 8001 107 MN 8D 0010
ACA 8001 157 MN 8D 0010
ACA 1002 336 M_1 4D 0025
ACA 1002 686 M_1 6D 0015
ACA 1002 107 MN 8D 0010
ACA 1002 107 MN 8D 0015
ACA 1002 157 MN 8D 0010
2
2.5
4
6.3
8
10
100
150
220
330
390
470
82
100
150
180
220
270
330
68
82
100
150
180
220
270
330
10
22
33
47
56
68
100
150
180
330
22
33
68
100
150
33
68
100
150
20 4D
6D
8D
4D
6D
8D
4D
6D
8D
4D
6D
8D
4D
6D
8D
4D
6D
8D
12.0
18.0
26.4
39.6
46.8
56.4
12.3
15.0
22.5
27.0
33.0
27.0
33.0
16.3
19.7
24.0
36.0
43.2
52.8
64.8
79.2
2.52
5.54
8.32
11.8
14.1
17.1
25.2
37.8
45.4
83.2
7.04
10.6
21.8
32.0
48.0
13.2
27.2
40.0
60.0
20°C
0.06
20 0.06
20 0.06
20 0.06
20 0.06
20 0.06
16
9
15
9
15
7
12
7
10
18
15
10
18
28
15
10
15
10
15
10
55
45
25
15
25
15
18
10
15
10
9
45
25
15
10
25
15
10
15
10
2.1
2.8
2.2
3.1
2.4
3.5
2.7
3.8
3.2
2.0
2.2
2.4
2.6
3.2
2.0
1.6
2.2
2.4
3.2
2.6
3.2
2.6
3.2
1.1
1.3
1.7
2.2
1.7
2.2
2.9
2.4
2.6
3.2
3.4
1.3
1.7
2.4
3.2
1.7
2.4
3.2
2.6
3.2
Catalog number (1)
Rated
Voltage
(VDC)
Capacitance
(µF)
ESR
(mΩ)
100kHz
Tolerance
(±%)
Case
Code
Max.
Dissipation
Factor
Lct. (µA)
Max. Permissible
Ripple (
2
)
Current (Arms)
100kHz
October, 2008
PERFORMANCE
STANDARD RATING October, 2008
−4−
10
15
22
33
47
56
R.V. (VDC)
Cap.(µF) 2 2.5 4 6.3 8
4D
4D
4D
4D
4D
4D
4D
10
4D
68
82
100
150
180
220
R.V. (VDC)
Cap.(µF) 2 2.5 4 6.3 8
4D
4D
6D
6D,8D
8D
4D
4D
4D,6D
4D
4D
4D
6D
6D,8D
8D
4D
4D,6D
6D,8D
8D
6D
8D
8D
10
6D
8D
8D
270
330
390
470
R.V. (VDC)
Cap.(µF) 22.546.3 8
8D
8D6D
8D
8D
8D
8D 8D
10
No
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
In case of less than 4R.V., Leakage Current is 0.06CV Max..
In case of more than 6.3R.V., Leakage Current is 0.04CV Max..
Shall be within specified tolerance.
Shall not exceed the values shown in CATALOG NUMBERS AND RATING.
Shall not exceed the values shown in CATALOG NUMBERS AND RATING.
Leakage Current: Shall not exceed the value in No.1.
Capacitance Change: Within ±10% of the value before the test
Dissipation Factor: Shall not exceed the value in No.3.
Visual Examination: There shall be no evidence of mechanical damage.
No separation of terminal from solder.
Capacitance: Initial value to remain steady during measurement.
Visual Examination: There shall be no evidence of damage.
Capacitance: Initial value to remain steady during measurement.
Visual Examination: There shall be no evidence of damage.
There shall be no intermittent contact of 0.5ms or greater, short, or open. Nor shall
there be any spark discharge, insulation breakdown, or evidence of mechanical
damage.
Solder shall completely cover the terminal surface (there shall be no pin holes,
nonwetting or solder repelling).
However, no plating edges of the terminal shall not be evaluated.
Leakage Current: Shall not exceed the value in No.1.
Capacitance Change: Within ±10% of the value before the test
Dissipation Factor: Shall not exceed the value in No.3.
Visual Examination: There shall be no evidence of mechanical damage.
Leakage Current: Shall not exceed the value in No.1.
Capacitance Change: Within ±10% of the value before the test
Dissipation Factor: Shall not exceed the value in No.3.
Visual Examination: There shall be no evidence of mechanical damage.
Leakage Current: Shall not exceed 7.5 times the value in No.1.
Capacitance Change: Within +50% of the value before the test
Dissipation Factor: Shall not exceed two times the value in No.3.
Visual Examination: There shall be no evidence of mechanical damage.
Leakage Current: Shall not exceed the value in No.1.
Capacitance Change: Within +50% of the value before the test
Dissipation Factor: Shall not exceed two times the value in No.3.
Visual Examination: There shall be no evidence of mechanical damage.
Leakage Current: Shall not exceed the value in No.1.
Capacitance Change: Within ±10% of the value before the test
Dissipation Factor: Shall not exceed the value in No.3.
Visual Examination: There shall be no evidence of mechanical damage.
Leakage Current: Shall not exceed the value in No.1.
Capacitance Change: Within ±10% of the value before the test
Dissipation Factor: Shall not exceed the value in No.3.
Visual Examination: There shall be no evidence of mechanical damage.
JIS C 5101-1 4.9
Applied voltage: Rated voltage for 2 minutes through 1000Ω resistance.
JIS C 5101-1 4.7 120Hz
JIS C 5101-1 4.8 120Hz
EIAJ RC-2460 4.5.4 100kHz
JIS C 5101-1 4.29
20±2°C
-55±3°C
20±2°C
105±2°C
20±2°C
JIS C 5101-1 4.26
Temperature: 15~35°C
Surge voltage:
Protective resistance: 1000Ω
JIS C 5101-1 4.34
Reflow Temperature: 240±10°C / Time: 10 seconds or less
Force: 5N
Duration: 5±1s
JIS C 5101-1 4.35
Bending: 3mm
JIS C 5101-1 4.17
Frequency range: 10-55Hz Swing width: 1.5mm
Vibration direction: 3 directions with mutually right-angled
Duration: 2 hours in each of these mutually perpendicular
directions (total 6 hours)
Mounting: Solder terminal to the printed board
JIS C 5101-1 4.19
Peak acceleration: 490m/s2
Duration: 11ms
Wave form: Half-sine
JIS C 5101-1 4.15
Solder temperature: 235±5°C
Dipping time: 5±0.5 seconds
Dipping depth: Terminal shall be dipped into melted solder
EIAJ RC-2460 4.6
IR reflow method
Preheat: 160±10°C 120±10s
Reflow: 230°C 25~30s
Peak 240°C max.
JIS C5101-1 4.16
Step 1: -55±3°C 30±3 minutes
Step 2: 25 (-5/+10) °C, 3 minutes or less
Step 3: 105±2°C, 30±3 minutes
Step 4: 25 (-5/+10) °C, 3 minutes or less
Number of cycle: 5
JIS C5101-1 4.22
Temperature: 60±2°C
Moisture: 90~95%R.H.
Duration: 500 (-0/+24) hours
JIS C5101-1 4.22
Temperature: 60±2°C
Moisture: 90~95%R.H.
Applied voltage: Rated voltage
Duration: 1000 (-0/+48) hours
JIS C5101-1 4.25
Temperature: 105±2°C
Duration: 1000 (-0/+48) hours
JIS C5101-1 4.23
Temperature: 105±2°C
Applied voltage: Rated voltage
Duration: 1000 (-0/+48) hours
Item Performance Test Method
Leakage Current (µ
A
)
Capacitance (µ
F
)
Dissipation Factor
Equivalent Series
Resistance
Characteristics at High
and Low Temperature
Step 1
Step 2
Step 3
Step 4
Step 5
Surge
Shear
(formerly adhesion) Test
Substrate Bending Test
Vibration
Shock
Solderability
Resistance to Soldering
Heat
Rapid Change of
Temperature
High Temperature /
Moisture
High Temperature /
Moisture load
High Temperature Storage
Endurance
Leakage Current
Shall not exceed the value in No.1
Shall not exceed the value in No.1
Shall not exceed two times of No.1
Shall not exceed the value in No.1
Capacitance
Within the nominal value specified
Within ±15% of the value in Step 1
Within ±5% of the value in Step 1
Within ±20% of the value in Step 1
Within ±5% of the value in Step 1
Dissipation Factor
Shall not exceed the value in No.3
Shall not exceed the value in No.3
Shall not exceed the value in No.3
Shall not exceed the value in No.3
Shall not exceed the value in No.3
-20
-20
Rated voltage(V)
Surge voltage(V)
2
2.3
2.5
2.9
4
4.6
6.3
7.2
8
9.2
10
12
−5−
FREQUENCY CHARACTERISTICS
Frequency (kHz)
10000
1000
100
10
1
0.1
0.01
0.001
100001000
10000
1001010.1
Impedance & ESR (Ω)
Type ACA 6.3VDC-100µF 4D-case, Sample size : 5pcs.
Frequency (kHz)
10000
1000
100
10
1
0.1
0.01
0.001
10001001010.1
Impedance & ESR (Ω)
Type ACA 6.3VDC-150µF 6D-case, Sample size : 5pcs.
Frequency (kHz)
10000
1000
100
10
1
0.1
0.01
0.001
1000010001001010.1
Impedance & ESR (Ω)
Type ACA 4.0VDC-330µF 8D-case, Sample size : 5pcs.
Frequency (kHz)
10000
1000
100
10
1
0.1
0.01
0.001
10001001010.1
Impedance & ESR (Ω)
Type ACA 10VDC-150µF 8D-case, Sample size : 5pcs.
10000
Impedance
ESR
Impedance
ESR
Impedance
ESR
Impedance
ESR
−6−
CHARACTERISTICS AT HIGH AND LOW TEMPERATURE
Capacitance
change (%)
Dissipation factorESR (mΩ)
Leakage current (µA)
Max.
Mean
Min.
Type ACA 6.3VDC-100µF 4D-case
-20
-15
-10
-5
0
5
10
15
20
0.00
0.02
0.04
0.06
0.08
0.10
0.1
1
10
100
1000
020406080100 120
Temperature (°C)
0
10
20
30
40
50
-60 -40 -20 0 20 40 60 80 100 120
Temperature (°C)
-60 -40 -20 0 20 40 60 80 100 120
Temperature (°C)
-60 -40 -20 0 20 40 60 80 100 120
Temperature (°C)
Capacitance
change (%)
Dissipation factorESR (mΩ)
Leakagecurrent(µA)
Max.
Mean
Min.
Type ACA 6.3VDC-150µF 6D-case
-20
-15
-10
-5
0
5
10
15
20
0.00
0.02
0.04
0.06
0.08
0.10
0.1
1
10
100
1000
020406080100 120
Temperature (°C)
0
10
20
30
40
50
-60 -40 -20 0 20 40 60 80 100 120
Temperature (°C)
-60 -40 -20 0 20 40 60 80 100 120
Temperature (°C)
-60 -40 -20 0 20 40 60 80 100 120
Temperature (°C)
Sample size : 5pcs.
Sample size : 5pcs.
−7−
Capacitance
change (%)
Dissipation factorESR (mΩ)
Leakage current (µA)
Max.
Mean
Min.
Type ACA 4.0VDC-330µF 8D-case
-20
-15
-10
-5
0
5
10
15
20
0.00
0.02
0.04
0.06
0.08
0.10
0.1
1
10
100
1000
020406080100 120
Temperature (°C)
0
10
20
30
40
50
-60 -40 -20 0 20 40 60 80 100 120
Temperature (°C)
-60 -40 -20 0 20 40 60 80 100 120
Temperature (°C)
-60 -40 -20 0 20 40 60 80 100 120
Temperature (°C)
Capacitance
change (%)
Dissipation factorESR (mΩ)
Leakage current (µA)
Max.
Mean
Min.
Type ACA 10VDC-150µF 8D-case
-20
-15
-10
-5
0
5
10
15
20
0.00
0.02
0.04
0.06
0.08
0.10
0.1
1
10
100
1000
020406080100 120
Temperature (°C)
0
10
20
30
40
50
-60 -40 -20 0 20 40 60 80 100 120
Temperature (°C)
-60 -40 -20 0 20 40 60 80 100 120
Temperature (°C)
-60 -40 -20 0 20 40 60 80 100 120
Temperature (°C)
Sample size : 5pcs.
Sample size : 5pcs.
−8−
HIGH TEMPERATURE/MOISTURE LOAD 60°C 90% RATED VOLTAGE
-20
-10
0
10
20
30
40
50
0.00
0.02
0.04
0.06
0.08
0.10
0.12
0.1
1
10
100
1000
0
10
20
30
40
50
Leakage current (µA) ESR (mΩ)Dissipation
factor Capacitance
change (%)
Type ACA 6.3VDC-100µF 4D-case
100 1000 10000INITIAL
VALUE IR-REFLOW
240°C peak
Hours
Max.
Mean
Min.
Sample size : 50pcs.
-20
-10
0
10
20
30
40
50
0.00
0.02
0.04
0.06
0.08
0.10
0.12
0.1
1
10
100
1000
0
10
20
30
40
50
Leakage current (µA) ESR (mΩ)Dissipation
factor Capacitance
change (%)
Type ACA 6.3VDC-150µF 6D-case
100 1000 10000INITIAL
VALUE IR-REFLOW
240°C peak
Hours
Max.
Mean
Min.
Sample size : 50pcs.
−9−
-20
-10
0
10
20
30
40
50
0.00
0.02
0.04
0.06
0.08
0.10
0.12
0.1
1
10
100
1000
0
10
20
30
40
50
Leakage current (µA) ESR (mΩ)Dissipation
factor Capacitance
change (%)
Type ACA 4.0VDC-330µF 8D-case
100 1000 10000INITIAL
VALUE IR-REFLOW
240°C peak
Hours
Max.
Mean
Min.
Sample size : 50pcs.
-20
-10
0
10
20
30
40
50
0.00
0.02
0.04
0.06
0.08
0.10
0.12
0.1
1
10
100
1000
0
10
20
30
40
50
Leakage current (µA) ESR (mΩ)Dissipation
factor Capacitance
change (%)
Type ACA 10VDC-150µF 8D-case
100 1000 10000INITIAL
VALUE IR-REFLOW
240°C peak
Hours
Max.
Mean
Min.
Sample size : 50pcs.
−10−
ENDURANCE 105°C RATED VOLTAGE
-20
-10
0
10
20
30
40
50
0.00
0.02
0.04
0.06
0.08
0.10
0.12
0.1
1
10
100
1000
0
10
20
30
40
50
Leakage current (µA) ESR (mΩ)Dissipation
factor Capacitance
change (%)
Type ACA 6.3VDC-100µF 4D-case
100 1000 10000INITIAL
VALUE IR-REFLOW
240°C peak
Hours
Max.
Mean
Min.
Sample size : 50pcs.
-20
-10
0
10
20
30
40
50
0.00
0.02
0.04
0.06
0.08
0.10
0.12
0.1
1
10
100
1000
0
10
20
30
40
50
Leakage current (µA) ESR (mΩ)Dissipation
factor Capacitance
change (%)
Type ACA 6.3VDC-150µF 6D-case
100 1000 10000INITIAL
VALUE IR-REFLOW
240°C peak
Hours
Max.
Mean
Min.
Sample size : 50pcs.
−11−
-20
-10
0
10
20
30
40
50
0.00
0.02
0.04
0.06
0.08
0.10
0.12
0.1
1
10
100
1000
0
10
20
30
40
50
Leakage current (µA) ESR (mΩ)Dissipation
factor Capacitance
change (%)
Type ACA 4.0VDC-330µF 8D-case
100 1000 10000INITIAL
VALUE IR-REFLOW
240°C peak
Hours
Max.
Mean
Min.
Sample size : 50pcs.
-20
-10
0
10
20
30
40
50
0.00
0.02
0.04
0.06
0.08
0.10
0.12
0.1
1
10
100
1000
0
10
20
30
40
50
Leakage current (µA) ESR (mΩ)Dissipation
factor Capacitance
change (%)
Type ACA 10VDC-150µF 8D-case
100 1000 10000INITIAL
VALUE IR-REFLOW
240°C peak
Hours
Max.
Mean
Min.
Sample size : 50pcs.
−12−
■Application Notes for Conductive Polymer Aluminum Solid Electrolytic Capacitor
Specifications on this catalog are subject to change without prior notice. Please inquire of our Sales Department
to confirm specifications prior to use.
Case size
4D
6D
8D
Ceramic board
0.110
0.150
0.165
Glass epoxy board
0.072
0.085
0.100
Pmax (watt)
E2×ESR
Z2
Pmax
ESR
Pmax
ESR
1. Operating Voltage
Aluminum Capacitor shall be operated at the rated voltage or lower. Over rated
voltage applied even for a short time may cause short failure.
When designing the circuit, the equipment’s required reliability must be considered
and appropriate voltage derating must be performed.
2. Application that contain AC Voltage
Special attention to the following 3 items.
(1) The sum of the DC bias voltage and the positive peak value of the AC voltage
should not exceed the rated voltage.
(2) Reverse voltage should not exceed the allowable values of the negative peak AC
voltage (refer page3)
(3) Ripple voltage should not exceed the allowable values.
3. Reverse Voltage
Special attention to the polar character.
Reverse Voltage should not be applied.
4. Permissible Ripple Voltage
Permissible ripple current and voltage is determined by the following formula and
influenced by P max value and ESR standard value. Please consult us in case of
different frequency.
Note: Above values are measured at 0.6t ceramic board-mounting and 0.8t glass
epoxy board mounting in free air and may be changed depending on the kind of
board, packing density, and air convection condition. Please consult us if
calculated power loss value is different from above list of P max value.
5. Leakage current
Leakage current can be increased by heat and mechanical stress of soldering.
Tu r ning on electricity decreases leakage current.
6. Non Polar Connection
Aluminum Solid Electrolytic Capacitor cannot be used as a non-polar unit.
7. Soldering
7.1. Pre-heating
To obtain optimal reliability, lowering the heat shock during the soldering process is
favorable. Capacitors should be pre-heated at 130-160
°C
for approximately 60 seconds.
7.2. Soldering
The body of the capacitor should not exceed 240°C during soldering.
(1) Reflow Soldering
Reflow soldering is a process in which the capacitors are mounted on a printed
board with solder paste. Two methods of Reflow Soldering: Direct and
Atmospheric Heat
· Direct Heat (Hot plate)
· Atmospheric Heat
a) Near and Far IR Ray
b) Convection Oven
Vapor Phase Soldering and Flow Soldering are not recommended.
(2) Soldering Iron
Soldering with a soldering iron cannot be recommended due to the lack of
consistency in maintaining temperatures and process times. If this method should
be necessary, the iron should never touch the capacitor’s terminals, and the
temperature of the soldering iron should never exceed 350°C. The application of
the iron should not exceed 3 seconds and 30 watt.
(3) Please consult us for other methods.
8. Solvent Cleaning
Cleaning by organic solvent may damage capacitor’s appearance and performance.
However, our capacitors are not effected even when soaked at 20-30
°C
2-propanol for 5
minutes. When introducing new cleaning methods or changing the cleaning term,
please consult us.
9. Ultrasonic cleaning
Ultrasonic cleaning under severe condition may break terminals. Also, from an electrical
characteristics aspect, it is unfavorable. Therefore, please do not use ultrasonic
cleaning if possible. If the Ultrasonic cleaning process will be used, please note the
following.
(1) The solvent should not be boiled. (Lower the ultrasonic wave output or use solvent
with the high boiling point.)
(2) The recommended wattage is less than 0.5 watts per cm2.
(3) The cleaning time should be kept to a minimum. Also, samples must be swang in
the solvent. Please consult us.
10. Storage
Capacitors should be tightly sealed in moisture prevention bag and stored with
supplied reel.
Imax Permissible current at regulated frequency.
Emax Permissible voltage at regulated frequency.
Pmax Permissible power less. (W)
ESR ESR valule at regulated frequency. (Ω)
ZImpedance at regulated frequency. (Ω)
P=I2 × ESR or P=
Permissible ripple current Imax =(Arms)
Permissible ripple voltage Emax =× Z=Imax × Z (Vrms)
Permissible power loss for each case.
Overseas Sales Dep.
USA
Head Office
URL
5-3, 3-Chome, Sennari-cho, Toyonaka-shi, Osaka 561-8558, Japan
Matsuo Electronics of America, Inc.
2134 Main Street, Suite 200, Huntington Beach, CA 92648
5-3, 3-Chome, Sennari-cho, Toyonaka-shi, Osaka 561-8558, Japan
http://www.ncc-matsuo.co.jp/
Please feel free to ask our Sales Department for more information on the Conductive Polymer Aluminum
Solid Electrolytic Capacitor.
Tel : 06-6332-0883
Tel : 714-969-2491
Tel : 06-6332-0871
Fax : 06-6332-0920
Fax : 714-960-6492
Fax : 06-6331-1386
