EC SMD

TABLE OF CONTENTS
 Product Guide
1. List of the products .......................................................................................2
2. Part Number System ....................................................................................3
3. Soldering Conditions for Chip type ...............................................................5
4. Taping Specifications for Chip type...............................................................6
5. Cautions for Using Chip type, Aluminum Electrolytic Capacitors..................7
 Specifications for Chip Type Aluminum Electrolytic Capacitors by Series .........11
 Electric Double Layer Capacitors (EDLC)
1. Application Guidelines for using EDLC.......................................................27
2. Specifications for EDLC by DYNACAP Series............................................32
3. Specifications for EDLC by ULTRACAP Series ..........................................36
List of the products
Electric double layer Capacitors
Chip Type Aluminum Electrolytic Capacitors
Series
Applications
Temperature
Range (℃)
Load
Life Time
Rated Voltage
Range (V)
Capacitance
Range (F)
Page
RV
Higher Capacitance Range
40 to +85
2000
6.3~100
10~1000
11
RV2
5.3mmL Standard
40 to +85
2000
4~50
0.22~220
12
RV3
5.3mm / 7.7mmL High C/V
40 to +85
2000
6.3~50
4.7~330
13
RV5
High C/V
40 to +85
2000
6.3~100
2.2~1500
14
RVS
105℃, 5.5mmL
55 to +105
1000
6.3~50
0.22~100
16
RVJ
105℃, Higher Capacitance
55 to +105
2000
6.3~100
10~1000
17
VEJ
105℃ Higher C/V
55 to +105
2000
6.3~450
1~4700
18
RVZ
105℃, Low Impedance
55 to +105
1000~2000
6.3~35
4.7~1500
20
RVD
105℃, Low Impedance,
Long Life
55 to +105
2000~5000
6.3~50
4.7~1500
22
VZH
105℃, Low Impedance,
High Reliability
55 to +105
2000~5000
6.3~100
1~4700
24
DB
Standard type
25 to +70
1000
5.5
0.047~1.5F
32
DX
Miniaturized Standard type
25 to +70
1000
5.5
0.047~1.5F
33
Coin type
10 to +60
500~1000
3.3
0.2~0.4F
34
25 to +70
500~1000
2.5
0.2 / 0.33F
35
10 to +60
500~1000
3.3
0.2 / 0.33F
35
DCK
DS
Reflow Soldering Coin type
DSK
PL
Radial type
40 to +65
1000
2.7
0.5~100F
36
NL
Snap in type
40 to +65
1000
2.7
100~400F
38
MPL
Module type
40 to +65
1000
5.4
0.25~5F
39
2
■ Part Number System
 Chip type Aluminum Electrolytic Capacitors
□□□─□□□
Series code
V
Rated voltage
symbol
□□□
□
□□□
□
Rated
Capacitance
symbol
Capacitance
tolerance
symbol
Casing
symbol
Additional
symbol
Tolerance on Capacitance
Symbol
10%
K
20%
M
Write down the rated voltage itself;
however, write 6 for 6.3WV
Capacitance ( F)
Symbol
0.1
R10
1
010
2.2
2R2
33
330
100
101
1000
102
 Electric Double Layer Capacitor for “DYNACAP”
□□□─□□□
Series code
Rated voltage
symbol
□
□□□
□
Terminal
code
Rated capacitance
symbol
Additional
symbol
Voltage (V)
Symbol
Capacitance (F)
Symbol
3.3
3R3
0.047
473
5.5
5R5
0.1
104
0.2
204
0.22
224
0.33
334
1
105
─ □
 Electric Double Layer Capacitor for “ULTRACAP”
□□□─□□□
□□□
□□□□
Series code
Rated
capacitance
symbol
Dimension
(Diameter  Length)
Rated voltage
symbol
Voltage (V)
Symbol
2.7
2R7
5.4
5R4
Capacitance (F)
Symbol
0.5
504
1
105
3.3
335
10
106
100
107
3
Taping,
Lead-forming
U─□□□
Taping
symbol
Chip Type Aluminum Electrolytic Capacitors
4
SOLDERING CONDITIONS FOR CHIP TYPE
■ Recommended land pattern and size
 Standard type
Unit:mm
Case Size
ø DL
Land Size
X
Y
W
Thickness of
Solder paste
35.3
1.6
2.2
0.8
0.15
45.3, 5.7, 5.8
1.6
2.6
1.0
0.15
55.3, 5.7, 5.8
1.6
3.0
1.4
0.15
6.35.3, 5.7, 5.8
1.6
3.6
1.9
0.15
6.37.7
1.6
3.6
1.9
0.15
86.5, 6.7
1.6
4.0
2.1
0.15
810, 10.5
2.5
3.5
3.0
0.15
2.5
4.0
4.0
0.15
107.7, 10, 10.5
■ Recommended soldering conditions
 Standard type (Lead free)
(1) Methods
see the following
Methods
Reflow soldering
Soldering iron
Flow soldering
Advisability
○
○

(2) Soldering iron conditions
Iron tip temperature shall be 400℃ 5℃ within the duration of 3
1
0
seconds.
(3) Reflow soldering conditions
T200: Duration while capacitor head
temperature exceeds 200℃(s)
T230: Duration while capacitor head
temperature exceeds 230℃(s)
The measurement temperature point
is the case top.
1. Preheating shall be under 180℃ within
120 seconds.
2. Peak temperature shall be within the
peak temperature matrix.
3. For conditions exceeding the
tolerances, consult with us.
5
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
TAPING SPECIFICATIONS FOR CHIP TYPE
■ Taping
 Carrier tape dimension (taping polarity R)
Unit:mm
Outside Size
ø DL
W
A
B
P
t2
F
t1
35.3
12
3.4
3.4
8.0
5.9
5.5
0.4
44.5
12
4.7
4.7
8.0
4.8
5.5
0.4
45.3
12
4.7
4.7
8.0
5.8
5.5
0.4
45.7, 5.8
12
4.7
4.7
8.0
6.2
5.5
0.4
54.5
12
5.7
5.7
12
4.8
5.5
0.4
55.3
12
5.7
5.7
12
5.8
5.5
0.4
55.7, 5.8
12
5.7
5.7
12
6.2
5.5
0.4
6.34.5
16
7.0
7.0
12
4.8
7.5
0.4
6.35.3
16
7.0
7.0
12
5.8
7.5
0.4
6.35.7, 5.8
16
7.0
7.0
12
6.2
7.5
0.4
 Taping polarity
6.37.7
16
7.0
7.0
12
8.3
7.5
0.4
86.5
16
8.7
8.7
12
6.8
7.5
0.4
86.7
24
8.7
8.7
12
7.2
11.5
0.4
810
24
8.7
8.7
16
11
11.5
0.4
810.5
24
8.7
8.7
16
11.5
11.5
0.4
107.7
24
10.7
10.7
16
8.2
11.5
0.4
1010
24
10.7
10.7
16
11
11.5
0.4
1010.5
24
10.7
10.7
16
11.5
11.5
0.4
 Reel dimension
 Packing quantity (Reel)
Unit:mm
Outside Size
ø DL
3, 4
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
Unit:mm
Outside Size
ø DL
Quatity
(PCS.)
W
t
14
3
3, 4
2000
1000
5
14
3
5, 6.3
6.3
18
3
86.5
1000
3
86.7
1000
8, 10
500
86.5
NOTE
Reel dimension
18
86.7
26
3
8, 10
26
3
6
CHIP TYPE ALUMINUM ELECTROLYTIC CAPACITORS
 Cautions for Using Aluminum Electrolytic Capacitors
Please read product specifications before using the products.
The following cautions should be observed when using our aluminum electrolytic capacitors to assure their maximum
stability and performance. When your application design conditions or operating conditions exceed the limit of the
product specification, please contact us. If used under conditions beyond the limit of our specifications, it may cause
defects such as short circuit, open circuit, leakage, explosion or combustion.
 Cautions for usage
1. DC electrolytic capacitors are polarized.
 If used with a wrong polarity, it creates an abnormal
current resulting in a short circuit or damage to itself.
Use DC bipolar electrolytic capacitors for use with
uncertain or unknown polarity. DC capacitors cannot
be used in AC circuits.
change with a change in the temperature. Such
changes are temporary and the original
characteristics will be restored at the original
temperature (if the characteristics are not
deteriorated by remaining at a high temperature for a
long time). If used at a temperature exceeding the
guaranteed temperature range, the capacitor may be
damaged due to the increased leakage current. Pay
attention to the capacitor temperature being affected
by the ambient temperature of the unit, the
temperature inside the appliance, the heat radiated
by another hot component in the unit and the heat
inside the capacitor itself due to the ripple current.
(1) The electrostatic capacitance is normally shown
as the value at 20C-120Hz. It increases as the
temperature raises and decreases as it lowers.
(2) The tangent of loss angle (tan) is normally
shown as the value at 20C-120Hz. it decreases
as the ambient temperature gets high and
increases as it gets low.
(3) The leakage current increases as the temperature
gets high and decreases as it gets low.
2. Use within the rated voltage.
 If a voltage exceeding the rated voltage is applied, it
may cause characteristic deterioration or damage
due to the increased leakage current.
 When ripple current is loaded, make sure that the
peak value of the ripple voltage does not exceed the
rated voltage.
3. Using for power supply circuit.
 While aluminum electrolytic capacitors are operated
electrolyte liquid inside dries up and E.S.R.
(Equivalent Series Resistance) of the capacitor
increases. In case operated longer than rated life
time, the capacitance much decreases, tangent of
loss angle and E.S.R. much increases. Therefore for
some case the sum of bias direct voltage and the
peak of ripple voltage is over the rated voltage of the
capacitor.
 For any type of circuit, in case the sum of bias direct
voltage and the peak of ripple voltage is over the
rated voltage of the capacitors or in case the
minimum voltage is lower than 0 (zero) volt, the
voltage control for the capacitors shall be provided.
7. Changes in the characteristics due to frequency.
 The characteristics of an electrolytic capacitor will
change according to the change in the operating
frequency.
(1) The electrostatic capacity is normally shown as
the value at 20C-120Hz. It decreases as the
frequency increases.
(2) The tangent of loss angle (tan) is normally
shown as the value at 20C-120Hz. It increases
as the frequency gets high.
(3) The impedance is normally shown as the value at
100kHz 20C. It increases as the frequency
lowers.
4. Do not use in a circuit which requires rapid
charging or discharging.
 If used in a circuit requiring rapid charging or
discharging, it may cause characteristic deterioration
or damage to itself due to the heat generated inside
the capacitor. In such cases, contact us for our rapid
charging/discharging capacitors.
8. Aluminum electrolytic capacitor life.
 The life of an aluminum electrolytic capacitor
terminates when it fails due to the deterioration in its
electronic characteristics. Temperature and the ripple
current since they especially affect the life. See chart
on page.
5. Use within the rated ripple current.
 If applied ripple current exceeds rated ripple current,
the life of the capacitor may be shortened, or in an
extreme case it gets destroyed due to its internal heat.
Use high-ripple type capacitors for such circuits.
9. Changes in aluminum electrolytic capacitors
during storage.
 After storage for a long period, whether unused of
mounted on the appliance, the leakage current of an
6. Changes in characteristics due to operating
temperature.
 The characteristics of an electrolytic capacitor will
7
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
CHIP TYPE ALUMINUM ELECTROLYTIC CAPACITORS
given to the lead wire terminals due to the difference
between the hole pitch and the lead pitch.
aluminum electrolytic capacitor will increase. This
tendency is more prominent when the ambient
temperature is high. If a capacitor has been stored for
more than 2 years under normal temperature (shorter
if high temperature) and it shows increased leakage
current, a treatment by voltage application is
recommended. Addition of a protective circuit in the
design of the appliance is also recommended,
considering the effect of the initial increased current.
16. Capacitors with pressure valves.
 A part of the capacitor case is made thin to have the
function as the pressure valve in order to prevent
explosion due to the rise of inside pressure when a
reverse or excessive voltage is applied to the
capacitor. Once it has worked as a valve, the whole
capacitor needs to be replaced since the valve will
not restore.
 When you use a capacitor with pressure valve,
provide certain space above the pressure valve as
below to prevent an interference when it works as a
valve.
10. Insulation between the capacitor case and the
cathode terminal.
 The capacitor case and the cathode terminal are
connected through the electrolyte which has
uncertain resistance. If a complete insulation of the
case is necessary, add an insulator at assembly.
11. External sleeve.
 During a preheating or a hardening of mounting
adhensive may cause a sleeve cracked.
The capacitors are usually sleeved with poly vinylchroraide or poly ethylene terephtharate for the
indication purpose only. Please do not consider it as
an insulation.
Required space
above the valve(mm)
2.0
18. Regarding to connection of capacitors
 Aluminum electrolytic capacitor has electrolyte liquid
so that the most portion of electric loss characteristics
came from E.S.R (Equivalent Series Resistance) of
electrolyte liquid. Therefore the capacitor is an
electronic devise which can flow high ripple current in
case the temperature increases and it decreases
E.S.R.
In case connecting two capacitors or more, E.S.R. of
the capacitors is close to the resistance of the circuit.
Therefore in case current is unbalanced and some
capacitors has high ripple current, temperature
increase, it makes more high current and finally it is
over the rated ripple current.
For parallel connection of capacitors the proper
design of electric circuit such as b alancing of each
capacitors resistance or control of total ripple current
shall be provided to avoid excess ripple current and
voltage.
 When two or more capacitors are arranged in series,
the voltage given to each capacitors shall be kept
below the rated voltage level, by also giving
consideration to the balance of the voltage impressed
on the capacitors. Further, partial pressure resistor
which considers leakage current shall be provided
parallel to each condenser not to have over-voltage
impressed on.
13. Specific Operating Environments
 Capacitors may corrode when stored or used in a
place filled with acidic toxic gases (such as hydrogen
sulfide, sulfurous acid, nitrous acid, chlorine, bromine,
methyl bromide, etc.)
If capacitors are used or stored in such environments,
please let us know.
14. Use at a high altitude
 The use of capacitors at high altitudes such as on an
airplane causes a large difference between the
internal pressure of the capacitors and the
atmospheric pressure. However, there is no problem
in use under atmospheric pressure up to about an
altitude of 10,000 meters. Please check the operation
of electronic equipment at the operating
environmental temperature because the temperature
lowers with increased altitude.
15. Hole pitch adjustment of the PCB to the
capacitors.
 Set the hole pitch of the PCB to the lead pitch (the “F”
distance in the catalog) of the capacitor. Be careful
since a short circuit, a cut or an increase in the
leakage current etc. may be caused by the stress
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
18 to less
17. Double-sided PCB’s
 When you use electrolytic capacitors on a
double-sided PCB, be careful not to have the circuit
pattern run under where the capacitor is mounted.
Otherwise it may cause a short circuit on the PCB
depending on the condition of mounting.
12. Fumigation Process
 When exporting electronic equipment abroad,
fumigation process may be performed on wooden
packaging material with a halogen (compound) gas
such as methyl bromide. Exercise care as this
halogen gas may corrode capacitors. Also, use
caution to epidemic preventive agent as corrosive
component such as halogen may be contained.
NOTE
Diameter of the capacitor
(mm)
8
CHIP TYPE ALUMINUM ELECTROLYTIC CAPACITORS
5. Cleaning after Soidering
 Recommended cleaning method
(1) cleaning solutions:
(a) CLEANTHROUGH 710M, 750H, 750L
(b) PINEALPHA ST-100S
(c) Techno Care FRW-4~17
(d) Isopropyl alcohol (2-propanol)
(2) Cleaning conditions:
(a) The temperature of cleaning solution shall be
less than 60ºC.
(b) Use immersion or ultrasonic waves within two
minutes.
(c) After cleaning, capacitors and PCB’s shall
thoroughly be rinsed and dried with hot blast
for more than 10 minutes. The temperature of
such breeze should be less than the upper
category temperature.
(d) After cleaning, do not keep capacitors in
cleaning solution atmosphere or airtight
containers.
 During cleaning, control the cleaning solution against
contamination.
 Cautions for Mounting
1. Cautions for mounting.
 Check the ratings (electrostatic capacitance and
rated voltage) of the capacitor before mounting.
 Check the polarity of the capacitor to the chassis.
 Do not drop the capacitor to the floor. Do not use the
dropped capacitor.
 Do not deform the capacitor for mounting.
2. Do not apply excessive pressure to the capacitor,
its terminals or lead wires.
 Make sure that the contact path of the capacitor
meets the hole pitch of the PCB before mounting.
 Transient recovery voltage may be generated in the
capacitor due to dielectric absorption. If required, this
voltage can be discharged with a resistor with a value
of about 1 k.
 A PCB self-standing (snap-in) type capacitor should
be pushed to the end (till there is no space) to the
PCB for mounting.
 Do not set the automatic insertion machine to clinch
the capacitor lead wires too strong.
 Pay attention to the impact given by the component
receptacles of the automatic insertion/mounting
machines and the product checker, and from the
centering operation.
6. Fixing adhesives and coating materials.
 Do not use fixing adhesive or coating material
containing halogen-based solvent.
 Before applying the fixing adhesive or the coating
material, make sure that there is no remaining flux or
stains between the PCB and the sealed part of the
capacitor.
 Before applying the fixing adhesive or the coating
material, make sure that the detergent etc. has dried
up.
 Do not cover the whole surface of the sealed part
(terminal side) of the capacitor with the fixing
adhesive or the coating material.
 Observe the description in the catalog or the product
specifications concerning the thermal stiffening
conditions of the fixing adhesive or the coating
material. (If there is no such description, contact us.)
When both discrete and SMT components are on the
same PCB, the fixing material for the SMT
components may cause crack, tear or shrinkage on
the external sleeve depending on the thermal
stiffening condition.
3. Soldering.
 Do not dip the capacitor into melted solder.
 The soldering conditions
Chip type: Please refer 5 page.
small and large type: 260ºC, 10 s (max.)
The preliminary heating and other conditions
described in the catalog or product specifications.
 Do not flux other part than the terminals.
 If there is a direct contact between the sleeve of the
capacitor and the printed circuit pattern or a metal
part of another component such as a lead wire, it may
cause shrinkage of crack.
 When you use the capacitor with its sleeve touching
directly to the PCB, excessive solder temperature or
excessive soldering time may cause the sleeve to
shrink or crack during the heat.
 If the application is for extended use, understand and
manage the soldering characteristics to avoid
abnormal current caused by a contact failure
between the capacitor and the PCB.
 Other Cautions
1. Do not touch capacitor terminals with bare
hands.
You may get electric shock or your hand may be burnt.
Discharge it with a 1 K resistance before use if
necessary.
4. Handling after soldering.
 After soldering, do not tilt, push down or twist the
capacitor.
 After soldering, do not hold the capacitor as a handle
to carry the PCB.
 After soldering, do not hit the capacitor with any
obstacle. If PCB’s are piled up for storage, the
capacitor should not touch another PCB or
component.
2. Do not short the capacitor terminals with a
conductor.
Do not spill conductive solution including acid or
alkaline solution on the capacitor.
9
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
CHIP TYPE ALUMINUM ELECTROLYTIC CAPACITORS
3. Periodical inspections should be established for
the capacitors used in industrial appliances.
 The following items should be checked:
(1) Appearance: Check if there is any open valve or
leakage.
(2) Electronic performance: Check the leakage
current, the electrostatic capacitance, the tangent
of loss angle and other items described in the
catalog or the product specifications.


4. Take the following measures in case of
emergency.
 If you see gas coming out of the capacitor valve when
the set is in operation, turn off the power switch of the
unit or unplug the power cord from the outlet.
 Keep your face away from the capacitor pressure
valve, since the high temperature gas at over 100ºC
bursts out when the valve works. If the gas gets into
your eyes or your mouth, wash your eyes or your
mouth. Do not ingest the capacitor electrolyte. If the
electrolyte gets on your skin, wash it out with soap.


6. Disposing of capacitors.
 Punch a hole or crush the capacitors (to prevent
explosion) before incineration at approved facility.
 If they are not to be incinerated, bring them to a
professional industrial waste disposal company.
5. Storing conditions.
 Avoid high temperature or high humidity when storing
capacitors. Keep the storing temperature at 5ºC to
35ºC and the relative humidity not more than 75%.
 The leakage current of an aluminum electrolytic
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
capacitor tends to increase when stored for a long
time. This tendency becomes more prominent if the
ambient temperature is high. The leakage current will
be decreased by voltage application. If necessary,
treatment by voltage application should be made on
the capacitors which have been stored for a long
period (more than 2 years after production).
Do not store capacitors at a place where there is a
possibility that they may get water, salt or oil spill.
Do not store capacitors at a place where the air
contains dense hazardous gas (hydrogen sulfide,
sulfurous acid, nitrous acid, chlorine, ammonia, etc.).
Fumigation treatment with toxic gas covering the
whole wooden container frames as moth proofing
during shipment may leave residual toxic gas.
Do not store capacitors at a place where it gets
ultraviolet or radioactive rays.
7. Other notes.
 Please refer to the following literature for anything not
described in the product specifications or the catalog.
10
RV
CHIP TYPE Aluminum Electolytic Capacitors
Chip Type Large Capacitance Capacitors
 Compatible with surface mounting.
 Supplied with carrier taping.
 Guarantees 2000 hours at 85℃.
Marking color:Black print (86.5L)
White print on a brown sleeve (810L‧1010L)
■ SPECIFICATIONS
Item
Performance
Category Temperature Range
40℃~+85℃
20%
Capacitance Tolerance
Leakage Current (A)
(20℃, 120Hz)
Less than 0.01CV or 3 whichever is larger (after 2 minutes) C:Rated capacitance (F);V:Rated voltage (V) (20℃)
Dissipation Factor
(Tan at 120Hz, 20℃)
Low Temperature Characteristics
(at 120Hz)
Rated voltage (V)
tan  (max.)
6.3
0.28
10
0.24
16
0.20
25
0.14
35
0.12
50
0.10
63
0.10
100
0.10
Rated voltage (V)
Z25℃/Z+20℃
Z40℃/Z+20℃
6.3
4
8
10
3
5
16
2
4
25
2
3
35
2
3
50
2
3
63
2
3
100
2
3
Impedance ratio (max.)
Test Time
Capacitance Change
Dissipation Factor
Leakage Current
Endurance (85℃)
(Applied ripple current)
2000 hours
Within 20% of initial value
200% or less of the initial specified value
The initial specified value or less
Test time:1000 hours; other items are the same as those for the endurance. Voltage application treatment:According to
JIS C5101-1
Shelf life (85℃)
Frequency (Hz)
Rated voltage (V)
Coefficient of Frequency
for Rated Ripple Current
50.60
120
1k
10k.100k
0.80
0.80
0.80
0.70
1
1
1
1
1.15
1.25
1.35
1.35
1.25
1.40
1.50
1.50
6.3 to 16
25 to 35
50 to 63
100
Applicable standards
JIS C5101-1 1998, -18 1999 (IEC 60384-1 1992, -18 1993)
■ OUTLINE DRAWING
C
Unit:mm
L
P
D
A
B
C
W
P
C
8 6.5  0.3 8.4 8.4 3.4 0.5 to 0.8 2.3
8 10  0.5 8.4 8.4 3.0 0.7 to 1.1 3.1
10 10  0.5 10.4 10.4 3.3 0.7 to 1.1 4.7
Casing
symbol
G68
G10
H10
■ STANDARD RATINGS
6.3
Rated voltage (V)
10
16
25
35
50
63
100
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
10
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
810 16.6
94
22
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
86.5
7.5
155
810
7.5
139 1010 7.5
189
33
─
─
─
─
─
─
─
─
─
─
─
─
86.5
6.0
155
86.5
5.0
155
810
5.0
139 1010 5.0
189
47
─
─
─
─
─
─
─
─
─
86.5
4.9
155
86.5
4.2
155
810
3.5
252 1010 3.5
226
─
─
─
68
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
1010 2.4
226
─
─
─
100
─
─
─
86.5
4.0
155
86.5
3.3
155
86.5
2.3
155
810
2.0
252 1010 1.7
458 1010 1.7
226
─
─
─
220
86.5
2.1
155
86.5
1.8
155
810
1.5
252
810
1.1
252 1010 0.91
458
─
─
─
─
─
─
─
─
─
330
86.5
1.4
155
810
1.2
252
810
1.0
252 1010 0.70
458
─
─
─
─
─
─
─
─
─
─
─
─
458
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
Item
Rated
capacitance
(F)
470
810 0.99
252 1010 0.85
810 0.71
458
1010 0.71
1000
1010 0.46
458 1010 0.34
458
─
─
252
458
─
1010 0.49
─
─
(Note) Rated ripple current:85℃, 120Hz;ESR:20℃, 120Hz
11
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
RV2
CHIP TYPE Aluminum Electolytic Capacitors
Chip Type Standard Capacitors
 Compatible with surface mounting for 5.3mm high capacitors.
 Supplied with carrier taping.
 Guarantees 2000 hours at 85℃.
■ SPECIFICATIONS
Marking color:Black print
Item
Performance
Category Temperature Range
Capacitance Tolerance
Leakage Current (A)
40℃~+85℃
20%
(20℃, 120Hz)
Less than 0.01CV or 3 whichever is larger (after 2 minutes) C:Rated capacitance (F);V:Rated voltage (V)
(20℃)
Rated voltage (V)
4
6.3
10
16
25
35
50
3
0.42
0.30
0.24
0.22
0.16
0.14
0.12
tan  (max.)
4 to 6.3
0.42
0.28
0.24
0.20
0.14
0.12
0.10
Dissipation Factor
(Tan at 120Hz, 20℃)
Rated voltage (V)
Low Temperature Characteristics
(at 120Hz)
Impedance ratio (max.)
4 to 6.3
Test time
Capacitance Change
Dissipation Factor
Leakage Current
Endurance (85℃)
(Applied ripple current)
4
7
17
7
15
Z25℃/Z+20℃
Z40℃/Z+20℃
Z25℃/Z+20℃
Z40℃/Z+20℃
3
6.3
4
10
3
8
10
3
8
3
5
16
2
6
2
4
25
2
4
2
3
35
2
3
2
3
50
2
3
2
3
2000 hours (3:1000 hours)
Within 20% of initial value (4WV:30%)
200% or less of the initial specified value (4WV:300%)
The initial specified value or less
Test time:1000 hours; other items are the same as those for the endurance. Voltage application treatment:According to JIS
C5101-1
Frequency (Hz)
50.60
120
1k
10k.100k
Rated voltage (V)
4 to 16
0.80
1
1.15
1.25
25 to 35
0.80
1
1.25
1.40
50
0.80
1
1.35
1.50
JIS C5101-1 1998, -18 1999 (IEC 60384-1 1992, -18 1993)
Shelf life (85℃)
Coefficient of Frequency
for Rated Ripple Current
Applicable standards
■ OUTLINE DRAWING
C
P
C
Unit:mm
D
L
A
B
3
4
5
6.3
5.3  0.2
5.3  0.2
5.3  0.2
5.3  0.2
3.3
4.3
5.3
6.6
3.3
4.3
5.3
6.6
C
W
P
1.5 0.45 to 0.75
2.0 0.5 to 0.8
2.3 0.5 to 0.8
2.7 0.5 to 0.8
0.8
1.0
1.5
2.0
Casing
symbol
B55
―
―
―
■ STANDARD RATINGS
4
Rated voltage (V)
Item
Rated
capacitance
(F)
6.3
Case
ESR
Rated
ripple
current
DL
(mm)

mArms
Case
DL
(mm)
10
ESR
Rated
ripple
current
Case

mArms
DL
(mm)
16
ESR
Rated
ripple
current
Case

mArms
DL
(mm)
25
ESR
Rated
ripple
current
Case

mArms
DL
(mm)
35
ESR
Rated
ripple
current
Case

mArms
DL
(mm)
50
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current

mArms
DL
(mm)

mArms
905
754
603
503
424
353
199
166
75
50
2
5
3
6
4
7
6
10
15
19
0.22
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
0.33
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
0.47
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
1
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
2.2
3.3
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
8
9
─
─
─
─
─
─
─
─
─
─
11
19
106
70
─
─
─
57
49
35.3
35.3
4.7
─
─
35.3
45.3
35.3
45.3
35.3
45.3
35.3
45.3
35.3
45.3
45.3
45.3
45.3
42
20
55.3
35
26
23
32
55.3
20
34
6.35.3
17
44
11
7.0
6.4
─
─
55
67
75
─
─
6.35.3
─
─
─
─
9.1
─
─
─
─
59
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
10
─
─
─
─
─
─
45.3
40
23
22
33
47
100
220
35.3
45.3
45.3
55.3
6.35.3
32
21
15
7.0
3.2
14
31
37
63
110
45.3
55.3
55.3
6.35.3
─
21
14
10
5.0
─
31
44
52
89
─
55.3
55.3
6.35.3
6.35.3
─
18
12
8.5
4.0
─
39
48
67
98
─
─
─
─
35.3
45.3
55.3
6.35.3
6.35.3
6.35.3
─
37
33
15
10
7.1
3.3
─
18
55.3
26
44 6.35.3
63 6.35.3
75 6.35.3
103
─
─
─
(Note) Rated ripple current:85℃, 120Hz;ESR:20℃, 120Hz
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
12
RV3
CHIP TYPE Aluminum Electolytic Capacitors
Chip Type 85ºC Capacitors
 Compatible with surface mounting for 5.3mm, 7.7mm high capacitors.
 Supplied with carrier taping.
 Guarantees 2000 hours at 85℃.
■ SPECIFICATIONS
Marking color:Black print
Item
Performance
Category Temperature Range
40℃~+85℃
20%
Capacitance Tolerance
(20℃, 120Hz)
Less than 0.01CV or 3 whichever is larger (after 2 minutes) C:Rated capacitance (F);V:Rated voltage (V)
Leakage Current (A)
Rated voltage (V)
tan  (max.)
Dissipation Factor
(Tan at 120Hz, 20℃)
Rated voltage (V)
Z25℃/Z+20℃
Impedance ratio
(max.)
Z40℃/Z+20℃
Low Temperature Characteristics
(at 120Hz)
6.3
0.42
10
0.32
16
0.26
25
0.18
35
0.14
50
0.12
6.3
4
8
10
3
8
16
2
5
25
2
5
35
2
4
50
2
4
Test time
Capacitance Change
Dissipation Factor
Leakage Current
Endurance (85℃)
(Applied ripple current)
(20℃)
2000 hours
Within 30% of initial value
300% or less of the initial specified value
The initial specified value or less
Test time:1000 hours; other items are the same as those for the endurance. Voltage application treatment:According to JIS
C5101-1
Shelf life (85℃)
Frequency (Hz)
Rated voltage (V)
6.3 to 16
25 to 35
50
Coefficient of Frequency
for Rated Ripple Current
50
120
1k
10k100k
0.80
1
1.15
0.80
1
1.25
0.70
1
1.35
JIS C5101-1 1998, -18 1999 (IEC 60384-1 1992, -18 1993)
Applicable standards
1.25
1.40
1.50
■ OUTLINE DRAWING
C
P
C
Unit:mm
D
L
A
B
C
W
P
4
5
6.3
6.3
5.3  0.2
5.3  0.2
5.3  0.2
7.7  0.2
4.3
5.3
6.6
6.6
4.3
5.3
6.6
6.6
2.0
2.3
2.7
2.7
0.5 to 0.8
0.5 to 0.8
0.5 to 0.8
0.5 to 0.8
1.0
1.5
2.0
2.5
Casing
symbol
D55
E55
F55
F80
■ STANDARD RATINGS
6.3
Rated voltage (V)
10
16
25
35
50
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
4.7
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
45.3
42
20
10
─
─
─
─
─
─
─
─
─
45.3
30
23
45.3
23
27
55.3
20
34
22
─
─
─
45.3
24
26
45.3
20
30
55.3
14
43
55.3
11
47
6.35.3
9.0
59
33
45.3
21
28
45.3
16
33
55.3
13
44
55.3
9.0
54
6.35.3
7.0
67
6.37.7
6.0
82
47
45.3
15
34
55.3
11
45
55.3
9.2
50
6.35.3
6.4
75
6.37.7
4.9
90
6.37.7
4.2
98
68
55.3
10
47
55.3
7.8
54
6.35.3
6.3
74
6.35.3
4.4
90
6.37.7
3.4
109
─
─
─
100
55.3
7.0
58
─
─
─
6.35.3
4.3
103
6.37.7
3.0
124
─
─
─
─
─
─
150
6.35.3
4.6
83
6.37.7
3.5
98
6.37.7
2.9
109
─
─
─
─
─
─
─
─
─
220
6.35.3
3.2
113
6.37.7
2.4
130
6.37.7
2.0
144
─
─
─
─
─
─
─
─
─
330
6.37.7
2.1
139
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
Item
Rated
capacitance (F)
(Note) Rated ripple current:85℃, 120Hz;ESR:20℃, 120Hz
13
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
RV5
CHIP TYPE Aluminum Electolytic Capacitors
Chip Type Large Capacitance Capacitors
 Compatible with surface mounting.
 Supplied with carrier taping.
 Guarantees 2000 hours at 85℃.
Marking color:Black print (35.3L– 810L)
White print on a brown sleeve (1010L)
■ SPECIFICATIONS
Item
Performance
Category Temperature Range
40℃~+85℃
20%
Capacitance Tolerance
Leakage Current (A)
Rated voltage (V)
tan  (max.)
Dissipation Factor
(Tan at 120Hz, 20℃)
Rated voltage (V)
Z25℃/Z+20℃
Impedance ratio
(max.)
Z40℃/Z+20℃
Low Temperature Characteristics
(at 120Hz)
(20℃)
6.3
0.35
10
0.32
16
0.28
25
0.18
35
0.14
50
0.12
63
0.12
100
0.12
6.3
4
10
10
3
8
16
2
6
25
2
4
35
2
3
50
2
3
63
2
3
100
2
3
2000 hours (3: 1000hours)
Within 30% of initial value
200% or less of the initial specified value
The initial specified value or less
Test time
Capacitance Change
Dissipation Factor
Leakage Current
Endurance (85℃)
(Applied ripple current)
Shelf life (85℃)
(20℃, 120Hz)
Less than 0.01CV or 3 whichever is larger (after 2 minutes) C:Rated capacitance (F);V:Rated voltage (V)
Test time:1000 hours; other items are the same as those for the endurance. Voltage application treatment:According to JIS
C5101-1
Frequency (Hz)
Coefficient of Frequency
for Rated Ripple Current
Rated voltage (V)
50.60
120
1k
10k.100k
0.8
0.8
0.8
0.7
1
1
1
1
1.15
1.25
1.35
1.35
1.25
1.40
1.50
1.50
6.3 to 16
25 to 35
50 to 63
100
JIS C5101-1 1998, -18 1999 (IEC 60384-1 1992, -18 1993)
Applicable standards
■ OUTLINE DRAWING
C
P
C
Unit:mm
Casing symbol
D
L
A
B
C
W
P
3
5.3  0.2
3.3
3.3
1.5
0.45 to 0.75
0.8
B55
4
5.3  0.2
4.3
4.3
2.0
0.5 to 0.8
1.0
D55
5
5.3  0.2
5.3
5.3
2.3
0.5 to 0.8
1.5
E55
6.3
5.3  0.2
6.3
6.3
2.7
0.5 to 0.8
2.0
F55
6.3
7.7  0.3
6.6
6.6
2.7
0.5 to 0.8
2.0
F80
8
6.5  0.3
8.4
8.4
3.4
0.5 to 0.8
2.3
G68
8
10  0.5
8.4
8.4
3.0
0.7 to 1.1
3.1
G10
10
10  0.5
10.4
10.4
3.3
0.7 to 1.1
4.7
H10
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
14
RV5
CHIP TYPE Aluminum Electolytic Capacitors
■ STANDARD RATINGS
6.3
Rated voltage (V)
10
Case
Rated
ripple
current
DL
(mm)
2.2
16
Case
Rated
ripple
current
mArms
DL
(mm)
─
─
3.3
─
4.7
25
Case
Rated
ripple
current
mArms
DL
(mm)
─
─
─
─
─
─
10
─
22
35
Case
Rated
ripple
current
mArms
DL
(mm)
─
─
─
─
─
─
─
─
35.3
21
33
─
47
50
Case
Rated
ripple
current
mArms
DL
(mm)
─
─
─
─
─
─
─
35.3
35.3
20
─
─
45.3
34
100
55.3
150
220
Item
Rated
capacitance (F)
63
Case
Rated
ripple
current
mArms
DL
(mm)
─
─
─
─
─
─
18
35.3
─
─
─
45.3
45.3
33
55
55.3
─
─
6.35.3
88
100
Case
Rated
ripple
current
Case
Rated
ripple
current
mArms
DL
(mm)
mArms
DL
(mm)
mArms
─
─
35.3
7
─
─
─
35.3
10
45.3
12
─
─
35.3
13
45.3
18
55.3
20
─
─
16
45.3
24
55.3
30
6.35.3
32
─
─
45.3
24
55.3
41
6.35.3
47
6.37.7
60
86.5
62
─
─
32
55.3
47
─
─
86.5
83
─
─
810
94
55.3
52
─
─
6.35.3
54
6.37.7
85
810
139
1010
189
54
6.35.3
70
6.37.7
120
86.5
6.37.7
120
810
252
1010
118
226
─
─
6.35.3
79
─
─
─
─
─
─
─
─
─
─
─
─
6.37.7
173
86.5
6.37.7
162
─
─
810
175
260
─
─
─
─
─
─
─
─
─
─
810
300
1010
360
─
─
─
─
─
─
6.37.7
188
86.5
190
470
─
─
810
310
810
307
1010
400
─
─
─
─
─
─
─
─
680
─
─
─
─
1010
380
─
─
─
─
─
─
─
─
─
─
1000
─
─
1010
454
─
─
─
─
─
─
─
─
─
─
─
─
1500
1010
489
─
─
─
─
─
─
─
─
─
─
─
─
─
─
330
(Note) Rated ripple current:85℃, 120Hz
15
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
RVS
CHIP TYPE Aluminum Electolytic Capacitors
Chip Type 105ºC Standard Capacitors
 Compatible with surface mounting.
 Supplied with carrier taping.
 Guarantees 1000 hours at 105℃.
■ SPECIFICATIONS
Marking color:Black print
Item
Performance
Category Temperature Range
55℃~+105℃
20%
Capacitance Tolerance
Leakage Current (A)
(20℃, 120Hz)
Less than 0.01CV or 3 whichever is larger (after 2 minutes) C:Rated capacitance (F);V:Rated voltage (V)
Dissipation Factor
(Tan at 120Hz, 20℃)
Low Temperature Characteristics
(at 120Hz)
Rated voltage (V)
tan  (max.)
6.3
0.30
10
0.26
16
0.22
25
0.16
35
0.13
50
0.12
Rated voltage (V)
Z25℃/Z+20℃
Z40℃/Z+20℃
6.3
4
8
10
3
5
16
2
4
25
2
3
35
2
3
50
2
3
Impedance ratio
(max.)
Test time
Capacitance Change
Dissipation Factor
Leakage Current
Endurance (105℃)
(Applied ripple current)
(20℃)
1000 hours
Within 20% of initial value
200% or less of the initial specified value
The initial specified value or less
Test time:1000 hours; other items are the same as those for the endurance. Voltage application treatment:According to
JIS C5101-1
Shelf life (105℃)
Frequency (Hz)
Rated voltage (V)
6.3 to 16
25 to 35
50
Coefficient of Frequency
for Rated Ripple Current
50
120
1k
10k100k
0.80
1
1.15
0.80
1
1.25
0.80
1
1.35
JIS C5101-1, -18 1998 (IEC 60384-1 1992, -18 1993)
Applicable standards
1.25
1.40
1.50
■ OUTLINE DRAWING
C
L
A
B
C
W
P
4
5
6.3
6.3
5.3  0.2
5.3  0.2
5.3  0.2
7.7  0.3
4.3
5.3
6.6
6.6
4.3
5.3
6.6
6.6
2.0
2.3
2.7
2.7
0.5 to 0.8
0.5 to 0.8
0.5 to 0.8
0.5 to 0.8
1.0
1.5
2.0
2.0
P
D
C
Unit:mm
Casing
symbol
D55
E55
F55
F80
■ STANDARD RATINGS
6.3
Rated voltage (V)
10
16
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
0.22
0.33
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
45.3
45.3
905
603
3
4
0.47
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
45.3
424
5
1
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
45.3
199
7
2.2
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
45.3
91
10
3.3
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
45.3
60
12
4.7
10
─
─
─
─
─
─
─
─
─
─
─
─
45.3
43
15
45.3
36
16
45.3
55.3
57
27
12
21
45.3
55.3
46
22
14
23
22
45.3
23
21
55.3
20
25
55.3
17
28
6.35.3
12
36
15
30
55.3
13
31
6.35.3
11
40
6.35.3
8.0
44
50
─
17
26
─
55.3
10
─
42
20
─
33
6.35.3
─
55.3
6.35.3
─
47
55.3
11
36
6.35.3
9.2
43
6.35.3
7.8
47
6.35.3
6.4
70
─
─
─
100
6.35.3
5.0
61
6.35.3
4.3
60
6.35.3
3.6
60
6.37.7
2.7
91
6.37.7
2.2
84
Rated
capacitance (F)
ESR
Case
ESR
Case
(Note) Rated ripple current:105℃, 120Hz;ESR:20℃, 120Hz
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
16
ESR
Rated
ripple
current
Case
50
ESR
Case
Rated
ripple
current
35
Case
Item
Rated
ripple
current
25
Rated
ripple
current
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
6.37.7
6
60
6.37.7
─
4.2
─
63
─
RVJ
CHIP TYPE Aluminum Electolytic Capacitors
Chip Type, 105ºC Use, Large Capacitance Capacitors
 Compatible with surface mounting.
 Supplied with carrier taping.
 Guarantees 2000 hours at 105℃.
Marking color:Black print (86.5L)
White print on a brown sleeve (810L‧1010L)
■ SPECIFICATIONS
Item
Performance
Category Temperature Range
55℃~+105℃
20%
Capacitance Tolerance
Leakage Current (A)
(20℃, 120Hz)
Less than 0.01CV or 3 whichever is larger (after 2 minutes) C:Rated capacitance (F);V:Rated voltage (V)
Rated voltage (V)
tan  (max.)
Dissipation Factor
(Tan at 120Hz, 20℃)
Applicable standards
16
0.22
25
0.16
35
0.13
50
0.12
63
0.11
100
0.10
6.3
4
8
10
3
5
16
2
4
25
2
3
35
2
3
50
2
3
63
2
3
100
2
3
Test time
Capacitance Change
Dissipation Factor
Leakage Current
Endurance (105℃)
(Applied ripple current)
Coefficient of Frequency
for Rated Ripple Current
10
0.24
Rated voltage (V)
Z25℃/Z+20℃
Impedance ratio
(max.)
Z40℃/Z+20℃
Low Temperature Characteristics
(at 120Hz)
Shelf life (105℃)
6.3
0.30
(20℃)
2000 hours
Within 20% of initial value
200% or less of the initial specified value
The initial specified value or less
Test time:1000 hours; other items are the same as those for the endurance. Voltage application treatment:According to
JIS C5101-1
Frequency (Hz)
50.60
10k.100k
120
1k
Rated voltage (V)
6.3 to 16
0.80
1
1.15
1.25
25 to 35
0.80
1
1.25
1.40
50 to 63
0.80
1
1.35
1.50
100
0.70
1
1.35
1.50
JIS C5101-1 1998, -18 1999 (IEC 60384-1 1992, -18 1993)
■ OUTLINE DRAWING
C
8
8
10
P
D
C
Unit:mm
L
A
Casing
symbol
3.4 0.5 to 0.8 2.3
G68
3.0 0.7 to 1.1 3.1
G10
3.3 0.7 to 1.1 4.7
H10
B
C
8.4
6.5  0.3 8.4
8.4
10  0.5 8.4
10  0.5 10.4 10.4
W
P
■ STANDARD RATINGS
6.3
Rated voltage (V)
10
16
25
35
50
63
100
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
10
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
810 16.6
67
22
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
86.5
9.1
110
810
8.3
99
1010 7.5
133
33
─
─
─
─
─
─
─
─
─
─
─
─
86.5
6.5
110
810
6.0
178 1010 5.5
160 1010 5.0
133
47
─
─
─
─
─
─
─
─
─
86.5
5.7
110
86.5
4.6
110
810
4.2
86.5
810
3.6
110
178
Item
Rated
capacitance
(F)
178 1010 3.9
160
─
─
─
178
324
─
─
─
─
─
─
2.7
178 1010 2.2
810 2.0
324
1010 2.0
324 1010 1.2
324 1010 0.98
324
─
─
─
─
─
─
─
─
─
324 1010 1.1
324 1010 0.80
324
─
─
─
─
─
─
─
─
─
─
─
─
324 1010 0.78
324
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
100
─
─
─
86.5
4.3
110
220
810
2.3
178
810
2.0
178 1010 1.7
330
810
1.5
178 1010 1.3
470
1010 1.0
324 1010 0.92
1000
1010 0.5
324 1010 0.4
324
─
─
810
(Note) Rated ripple current:105℃, 120Hz;ESR:20℃, 120Hz
17
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
VEJ
CHIP TYPE Aluminum Electolytic Capacitors
Chip Type, 105ºC Use, High CV Capacitors
 4 ~ 18, 105℃, 2,000 hours assured.
 Designed for surface mounting on high density PC board.
Marking color:Black
■ SPECIFICATIONS
Item
Performance
Category Temperature Range
6.3 ~ 100V
160 ~ 400V
55℃~+105℃
40℃~+105℃
20%
Capacitance Tolerance
Rated voltage
Time
Case size
(20℃, 120Hz)
6.3 ~ 100V
after 2 minutes
160 ~ 450V
after 5 minutes
12.5 ~ 18 
4 ~ 10 
12.5 ~ 18 
I = 0.01CV or 3 A,
I = 0.03CV or 4 A,
whichever is greater
whichever is greater
Where, C = Rated capacitance in F;V = Rated DC working voltage in V
Leakage Current (A)
I = 0.04CV + 100 A
Leakage Current
Rated Voltage
4 ~ 10 
12.5 ~ 18 
Dissipation Factor
(Tan at 120Hz, 20℃)
6.3
0.45
0.40
Rated voltage (V)
Z (25℃)
/ Z (+20℃)
Impedance
Ratio
Z (55/-40℃)
/ Z (+20℃)
Low Temperature Characteristics
(at 120Hz)
10
0.35
0.38
D<12.5
D12.5
D<12.5
D12.5
16
0.28
0.34
6.3
4
5
12
10
25
0.18
0.26
10
4
4
8
8
35
0.16
0.22
16
3
3
6
6
25
2
2
4
4
50
0.14
0.18
35
2
2
3
3
50
2
2
3
3
63
0.12
0.14
63
2
2
3
3
(20℃)
100
0.12
0.10
100
3
2
4
3
160 ~ 250 400 ~ 450
0.20
0.25
160 ~ 250
3
6
400 ~ 450
6
10
Test time
Endurance (105℃)
(Applied ripple current)
Shelf life (105℃)
2000 hours
Within 25% of initial value for D6.3mm;
Capacitance Change
Within 20% of initial value for D8mm
Less than 300% of specified value for D6.3mm;
Dissipation Factor
Less than 200% of specified value for D8mm
Leakage Current
Within specified value
* The above Specifications shall be satisfied when the capacitors are restored to 20℃ after the rated voltage applied for 2,000 hours at 105℃.
Test time:1,000 hours; other items are the same as those for the Endurance.
The rated voltage shall be applied to the capacitors before the measurements for 160 ~ 450V (Refer to JIS C5101-4 4.1)
Frequency (Hz)
Ripple Current &
Frequency Multipliers
Cap. (F)
Under 1,000
1000 < C  6,800
50
120
1k
10k up
0.80
0.85
1.00
1.00
1.25
1.15
1.40
1.25
■ OUTLINE DRAWING
D  6.3mm
Unit:mm
D = 8 ~ 10 mm
D
4
5
6.3
6.3
8
8
10
10
12.5
12.5
16
16
18
18
D  12.5 mm
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
18
L
5.7  0.3
5.7  0.3
5.7  0.3
7.7  0.3
6.5  0.3
10  0.5
7.7  0.3
10  0.5
13.5  0.5
16  0.5
16.5  0.5
21.5  0.5
16.5  0.5
21.5  0.5
A
4.3
5.3
6.6
6.6
8.4
8.4
10.4
10.4
13.0
13.0
17.0
17.0
19.0
19.0
B
4.3
5.3
6.6
6.6
8.4
8.4
10.4
10.4
13.0
13.0
17.0
17.0
19.0
19.0
C
5.1
5.9
7.2
7.2
9.0
9.0
11.0
11.0
13.7
13.7
18.0
18.0
20.0
20.0
P0.2 Fig. No.
W
0.5 ~ 0.8 1.0
1
0.5 ~ 0.8 1.5
1
0.5 ~ 0.8 2.0
1
0.5 ~ 0.8 2.0
1
0.5 ~ 0.8 2.3
1
0.7 ~ 1.1 3.1
1
0.7 ~ 1.3 4.7
1
0.7 ~ 1.3 4.7
1
1.1 ~ 1.4 4.4
2
1.1 ~ 1.4 4.4
2
1.1 ~ 1.4 6.4
2
1.1 ~ 1.4 6.4
2
1.1 ~ 1.4 6.4
2
1.1 ~ 1.4 6.4
2
VEJ
CHIP TYPE Aluminum Electolytic Capacitors
■ STANDARD RATINGS
6.3
Rated voltage (V)
10
16
25
35
50
63
100
Case
Rated
ripple
current
Case
Rated
ripple
current
Case
Rated
ripple
current
Case
Rated
ripple
current
Case
Rated
ripple
current
Case
Rated
ripple
current
Case
Rated
ripple
current
Case
Rated
ripple
current
DL
(mm)
mArms
DL
(mm)
mArms
DL
(mm)
mArms
DL
(mm)
mArms
DL
(mm)
mArms
DL
(mm)
mArms
DL
(mm)
mArms
DL
(mm)
mArms
1
─
─
─
─
─
─
─
─
─
─
45.7
8
45.7
8
─
─
2.2
─
─
─
─
─
─
─
─
─
─
45.7
12
45.7
12
─
─
3.3
─
─
─
─
─
─
─
─
─
─
45.7
14
55.7
17
─
─
4.7
─
─
─
─
─
─
45.7
17
45.7
17
55.7
20
6.35.7
22
─
─
10
─
─
─
─
45.7
20
45.7
20
55.7
27
6.35.7
32
6.35.7
32
─
─
22
45.7
22
45.7
22
55.7
30
55.7
30
6.35.7
44
6.35.7
38
6.37.7
58
810
100
33
55.7
34
55.7
34
55.7
34
6.35.7
46
6.35.7
46
6.37.7
65
810
140
1010
150
47
55.7
38
55.7
38
6.35.7
48
6.35.7
48
6.37.7
80
6.37.7
70
810
170
12.513.5
250
100
6.35.7
69
6.35.7
69
6.35.7
69
6.37.7
100
810
240
810
210
1010
310
12.513.5
380
6.37.7
120
6.37.7
120
6.37.7
120
810
270
1010
330
12.513.5
470
1616.5
450
370
12.513.5
490
1616.5
650
1816.5
590
1621.5
750
Item
Rated
capacitance (F)
220
86.5
120
330
810
290
470
810
1000
1010
2200
810
290
810
270
107.7
270
810
290
1010
810
290
107.7
290
1010
380
1010
380
12.513.5
520
12.516
550
1616.5
700
1821.5
980
810
320
107.7
320
410
1010
410
12.513.5
550
12.516
550
1616.5
800
1816.5
990
─
─
─
─
12.513.5
680
12.513.5
680
1616.5
900
1616.5
900
1816.5
1050
─
─
─
─
─
─
3300
12.516
850
1616.5
950
1616.5
950
1816.5
1150
1621.5
─
─
─
─
─
─
─
─
1200
4700
1616.5
1000
1616.5
1821.5
1300
─
─
─
─
─
─
─
─
Case
Rated
ripple
current
Case
Rated
ripple
current
Case
Rated
ripple
current
Case
Rated
ripple
current
Case
Rated
ripple
current
DL
(mm)
mArms
DL
(mm)
mArms
DL
(mm)
mArms
DL
(mm)
mArms
DL
(mm)
mArms
3.3
─
─
─
─
12.513.5
60
─
─
12.513.5
40
4.7
─
─
─
─
12.513.5
65
12.513.5
45
12.513.5
45
10
─
─
12.513.5
80
12.513.5
70
12.513.5
50
12.516
75
22
─
─
12.516
110
12.513.5
105
1616.5
85
1616.5
85
33
12.513.5
95
12.516
120
1616.5
180
1816.5
100
1816.5
100
47
1616.5
240
1616.5
220
1616.5
220
1821.5
130
─
─
100
1616.5
250
1816.5
280
1816.5
260
─
─
─
─
160
Rated voltage (V)
Item
Rated
capacitance (F)
320
1000
200
1816.5
1225
1621.5
1275
250
400
450
(Note) Rated ripple current:mA/rms at 120Hz, 105℃
19
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
RVZ
CHIP TYPE Aluminum Electolytic Capacitors
Chip Type, 105ºC Use, Low Impedance Capacitors
 Compatible with surface mounting.
 Supplied with carrier taping.
 Guarantees 2000 hours at 105℃.
Marking color:Black print (45.3L86.5L)
White print on a brown sleeve (810L‧1010L)
■ SPECIFICATIONS
Item
Performance
Category Temperature Range
55℃~+105℃
20%
Capacitance Tolerance
Leakage Current (A)
(20℃, 120Hz)
Less than 0.01CV or 3 whichever is larger (after 2 minutes) C:Rated capacitance (F);V:Rated voltage (V)
Dissipation Factor
(Tan at 120Hz, 20℃)
Rated voltage (V)
tan  (max.)
6.3
0.28
10
0.24
16
0.20
25
0.16
35
0.14
Low Temperature
Characteristics (at 120Hz)
Rated voltage (V)
Z25℃/Z+20℃
Impedance ratio (max.)
Z55℃/Z+20℃
6.3
4
8
10
3
5
16
2
4
25
2
3
35
2
3
2000 hours (86.5 or less: 1000 hours)
Within 25% of initial value
200% or less of the initial specified value
The initial specified value or less
Test time
Capacitance Change
Dissipation Factor
Leakage Current
Endurance (105℃)
(Applied ripple current)
(20℃)
Test time:1000 hours; other items are the same as those for the endurance. Voltage application treatment:According to
JIS C5101-1
Shelf life (105℃)
Frequency (Hz)
Coefficient of Frequency
for Rated Ripple Current
Rated voltage (V)
6.3 to 35
Applicable standards
120
1k
10k
100k
0.5
0.75
0.9
1.0
JIS C5101-1 1998, -18 1999 (IEC 60384-1 1992, -18 1993)
■ OUTLINE DRAWING
C
P
C
Unit:mm
D
L
A
B
C
W
P
Casing symbol
4
5.3  0.2
4.3
4.3
2.0
0.5 to 0.8
1.0
D55
4
5.8  0.3
4.3
4.3
2.0
0.5 to 0.8
1.0
D61
5
5.3  0.2
5.3
5.3
2.3
0.5 to 0.8
1.5
E55
5
5.8  0.3
5.3
5.3
2.3
0.5 to 0.8
1.5
E61
6.3
5.3  0.2
6.6
6.6
2.7
0.5 to 0.8
2.0
F55
6.3
5.8  0.3
6.6
6.6
2.7
0.5 to 0.8
2.0
F61
6.3
7.7  0.3
6.6
6.6
2.7
0.5 to 0.8
2.0
F80
8
6.5  0.3
8.4
8.4
3.4
0.5 to 0.8
2.3
G68
8
10  0.5
8.4
8.4
3.0
0.7 to 1.1
3.1
G10
8
10.5  0.5
8.4
8.4
3.0
0.7 to 1.1
3.1
GA5
10
10  0.5
10.4
10.4
3.3
0.7 to 1.1
4.7
H10
10
10.5  0.5
10.4
10.4
3.3
0.7 to 1.1
4.7
HA5
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
20
RVZ
CHIP TYPE Aluminum Electolytic Capacitors
■ STANDARD RATINGS
6.3
Rated voltage (V)
10
16
25
35
Case
Impedance
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
Case
ESR
Rated
ripple
current
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
4.7
─
─
─
─
─
─
─
─
─
45.3
3.20
65
45.3
3.20
65
45.8
1.80
80
55.3
1.50
110
10
─
─
─
45.3
3.20
65
45.3
3.20
65
55.3
1.50
110
55.8
0.76
150
Item
Rated
capacitance (F)
15
─
─
─
─
─
─
45.8
1.80
80
55.8
0.76
150
55.8
0.76
150
45.3
3.20
65
45.8
1.80
80
55.3
1.50
110
55.8
0.76
150
55.8
0.76
150
45.8
1.80
80
55.3
1.50
110
55.8
0.76
150
6.35.3
0.85
170
6.35.3
0.85
170
55.3
1.50
110
55.3
1.50
110
6.35.3
0.85
170
6.35.3
0.85
170
6.35.3
0.85
170
55.8
0.76
150
55.8
0.76
150
6.35.8
0.44
230
6.35.8
0.44
230
22
33
47
68
100
150
220
330
55.3
1.50
110
6.35.3
0.85
170
6.35.3
0.85
170
6.35.3
0.85
170
55.8
0.76
150
6.35.8
0.44
230
6.35.8
0.44
230
6.35.8
0.44
230
6.35.8
0.44
230
6.35.8
0.44
230
6.35.3
0.85
170
6.35.3
0.85
170
6.35.8
0.44
230
6.35.8
0.44
230
6.35.8
0.44
230
6.35.8
0.44
230
6.37.7
0.34
280
86.5
0.34
280
6.35.8
0.44
230
6.35.3
0.85
170
6.35.8
0.44
230
86.5
0.34
6.37.7
230
230
6.37.7
0.34
280
86.5
0.34
280
6.37.7
0.34
280
86.5
0.34
280
230
0.34
280
810
0.20
450
280
86.5
0.34
280
810.5
0.17
450
0.34
280
810
0.20
450
810.5
0.17
450
86.5
0.34
280
810.5
0.17
450
1010
0.10
670
6.37.7
0.34
280
810.5
0.17
450
810.5
0.17
450
1010
0.10
670
1010.5
0.09
670
6.35.8
0.44
230
6.37.7
0.34
280
810
0.20
450
810
0.20
450
1010
0.10
670
6.37.7
0.34
280
86.5
0.34
200
810.5
0.17
450
810.5
0.17
450
810.5
0.17
450
810
0.20
450
1010
0.10
670
1010
0.10
670
1010
0.10
670
810.5
0.17
450
810.5
0.17
450
810.5
0.17
450
1010.5
0.09
670
─
─
─
1010
0.10
670
1010
0.10
670
1010
0.10
670
810.5
0.17
450
1010.5
0.09
670
1010.5
0.09
670
─
─
─
─
─
─
810.5
0.17
450
1010.5
0.09
670
─
─
─
─
─
─
─
─
─
1010
0.10
670
1010.5
0.09
670
─
─
─
─
─
─
─
─
─
─
─
─
1000
1500
0.44
0.44
0.44
6.37.7
470
680
6.35.8
6.35.8
6.35.8
(Note) Rated ripple current:105℃, 100kHz;Impedance:20℃, 100kHz
21
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
RVD
CHIP TYPE Aluminum Electolytic Capacitors
Chip Type, 105ºC Use, Long Life Capacitors
 Compatible with surface mounting.
 Supplied with carrier taping.
 Guarantees 2000 hours at 105℃.
(10.5L:5000 hours)
Marking color:Black print
■ SPECIFICATIONS
Item
Performance
Category Temperature Range
55℃~+105℃
20%
Capacitance Tolerance
Leakage Current (A)
(20℃, 120Hz)
Less than 0.01CV or 3 whichever is larger (after 2 minutes) C:Rated capacitance (F);V:Rated voltage (V)
(20℃)
Dissipation Factor
(Tan at 120Hz, 20℃)
Rated voltage (V)
tan  (max.)
6.3
0.26
10
0.19
16
0.16
25
0.14
35
0.12
50
0.10
Low Temperature
Characteristics (at 120Hz)
Rated voltage (V)
Z25℃/Z+20℃
Impedance ratio (max.)
Z40℃/Z+20℃
Z55℃/Z+20℃
6.3
2
3
8
10
2
3
4
16
2
3
4
25
2
3
3
35
2
3
3
50
2
3
3
Test time
Capacitance Change
Dissipation Factor
Leakage Current
Endurance (105℃)
(Applied ripple current)
2000 hours (10.5L: 5000 hours)
Within 30% of initial value
200% or less of the initial specified value (10, 5L: 300% or less)
The initial specified value or less
Test time:1000 hours; other items are the same as those for the endurance. Voltage application treatment:According to
JIS C5101-1
Shelf life (105℃)
Frequency (Hz)
Coefficient of Frequency
for Rated Ripple Current
Rated voltage (V)
6.3 to 50
Applicable standards
50
120
1k
10k . 100k
0.5
0.5
0.75
1.0
JIS C5101-1 1998, -18 1999 (IEC 60384-1 1992, -18 1993)
■ OUTLINE DRAWING
C
P
C
Unit:mm
D
L
A
B
C
W
P
Casing symbol
4
5.8  0.3
4.3
4.3
2.0
0.5 to 0.8
1.0
D61
5
5.8  0.3
5.3
5.3
2.3
0.5 to 0.8
1.5
E61
6.3
5.8  0.3
6.6
6.6
2.7
0.5 to 0.8
2.0
F61
6.3
7.7  0.3
6.6
6.6
2.7
0.5 to 0.8
2.0
F80
8
6.5  0.3
8.4
8.4
3.4
0.5 to 0.8
2.3
G68
8
10.5  0.5
8.4
8.4
3.0
0.7 to 1.1
3.1
GA5
10
10.5  0.5
10.4
10.4
3.3
0.7 to 1.1
4.7
HA5
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
22
RVD
CHIP TYPE Aluminum Electolytic Capacitors
■ STANDARD RATINGS
6.3
Rated voltage (V)
10
16
25
35
50
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
4.7
─
─
─
─
─
─
─
─
─
─
─
─
45.8
1.35
90
45.8
2.70
60
45.8
1.35
90
55.8
1.50
90
10
─
─
─
─
─
─
45.8
1.35
90
45.8
1.35
90
55.8
0.70
170
6.35.8
0.86
170
55.8
0.70
170
6.35.8
0.86
170
6.37.7
0.66
195
6.35.8
0.36
250
86.5
0.63
200
6.37.7
0.66
195
86.5
0.63
200
810.5
0.32
350
1010.5 0.18
700
Item
Rated
capacitance (F)
22
45.8
1.35
90
45.8
45.8
33
─
45.8
─
1.35
1.35
0.70
170
55.8
0.70
170
100
55.8
0.70
170
─
─
─
0.36
250
6.35.8
0.36
250
90
55.8
0.70
170
─
─
─
55.8
─
6.35.8
1.35
90
90
55.8
45.8
90
─
47
220
1.35
─
─
0.70
55.8
0.70
170
55.8
0.70
170
6.35.8
0.36
250
6.35.8
0.36
250
170
6.35.8
0.36
250
6.35.8
0.36
250
6.35.8
0.36
250
6.37.7
0.30
300
6.37.7
0.30
300
86.5
0.30
300
810.5
0.16
600
810.5
0.16
600
810.5
0.16
600
1010.5 0.08
850
─
─
─
6.37.7
0.30
300
6.37.7
0.30
300
86.5
0.30
300
86.5
0.30
300
810.5
0.16
600
810.5
0.16
600
810.5
0.16
600
1010.5 0.08
850
─
─
─
─
─
─
6.37.7
0.30
300
86.5
0.30
300
470
810.5
0.16
600
810.5
0.16
600
810.5
0.16
600
680
─
─
─
810.5
0.16
600
1010.5 0.08
850
─
─
─
─
─
─
─
─
─
1000
810.5
0.16
600
1010.5 0.08
850
─
─
─
─
─
─
─
─
─
─
─
─
1500
1010.5
0.08
850
─
─
─
─
─
─
─
─
─
─
─
─
─
330
─
─
(Note) Rated ripple current:105℃, 100kHz;Impedance:20℃, 100kHz
23
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
VZH
CHIP TYPE Aluminum Electolytic Capacitors
Chip Type, 105ºC Low Impedance, Large Capacitance Capacitors
 4 ~ 18, 105℃, 2,000 ~ 5,000 hours assured.
 Large capacitance with ultra low impedance capacitors.
 Designed for surface mounting on high density PC board.
■ SPECIFICATIONS
Marking color:Black
Item
Performance
Category Temperature Range
55℃~+105℃
20%
Capacitance Tolerance
(20℃, 120Hz)
I = 0.01CV or 3 (A) whichever is greater (after 2 minutes)
Where, C = Rated capacitance in F;V = Rated DC working voltage in V
Leakage Current (A)
Rated Voltage
Tan (max)
6.3
10
16
25
35
50
0.30
0.26
0.22
0.16
0.13
0.10
When the capacitance exceeds 1,000F, 0.02 shall be added every 1,000F increase.
Dissipation Factor
(Tan at 120Hz, 20℃)
Impedance ratio shall not exceed the values given in the table below.
Rated voltage (V)
6.3
10
16
25
4
3
2
2
Z (25℃)/ Z (+20℃)
Impedance
Ratio
8
5
4
3
Z (55℃)/ Z (+20℃)
Low Temperature Characteristics
(at 120Hz)
35
2
3
63
0.08
80
0.08
100
0.07
(20℃)
50
2
3
63
2
3
80
2
3
100
2
3
2,000 Hrs for D6.3mm & 86.5L & 107.7L;
5,000 Hrs for D8mm
Capacitance Change
Within 30% of initial value
Dissipation Factor
Less than 300% of specified value
Leakage Current
Within specified value
* The above Specifications shall be satisfied when the capacitors are restored to 20℃ after the rated voltage applied for
2,000 ~ 5,000 hours at 105℃.
Test time
Endurance (105℃)
(Applied ripple current)
Shelf life (105℃)
Test time
1,000 Hrs
Capacitance Change
Within 30% of initial value
Dissipation Factor
Less than 300% of specified value
Leakage Current
Within specified value
* The above Specifications shall be satisfied when the capacitors are restored to 20℃ after exposing them for 1,000 hours at
105℃ without voltage applied.
Ripple Current &
Frequency Multipliers
Frequency (Hz)
Multiplier
50, 60
0.60
120
0.70
1k
0.85
■ OUTLINE DRAWING
D  6.3mm
10k up
1.0
Unit:mm
D = 8 ~ 10 mm
D
4
5
6.3
6.3
8
8
10
10
12.5
12.5
16
16
18
18
D  12.5 mm
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
24
L
5.7  0.3
5.7  0.3
5.7  0.3
7.7  0.3
6.5  0.3
10  0.5
7.7  0.3
10  0.5
13.5  0.5
16  0.5
16.5  0.5
21.5  0.5
16.5  0.5
21.5  0.5
A
4.3
5.3
6.6
6.6
8.4
8.4
10.4
10.4
13.0
13.0
17.0
17.0
19.0
19.0
B
4.3
5.3
6.6
6.6
8.4
8.4
10.4
10.4
13.0
13.0
17.0
17.0
19.0
19.0
C
5.1
5.9
7.2
7.2
9.0
9.0
11.0
11.0
13.7
13.7
18.0
18.0
20.0
20.0
P0.2 Fig. No.
W
0.5 ~ 0.8 1.0
1
0.5 ~ 0.8 1.5
1
0.5 ~ 0.8 2.0
1
0.5 ~ 0.8 2.0
1
0.5 ~ 0.8 2.3
1
0.7 ~ 1.1 3.1
1
0.7 ~ 1.3 4.7
1
0.7 ~ 1.3 4.7
1
1.1 ~ 1.4 4.4
2
1.1 ~ 1.4 4.4
2
1.1 ~ 1.4 6.4
2
1.1 ~ 1.4 6.4
2
1.1 ~ 1.4 6.4
2
1.1 ~ 1.4 6.4
2
VZH
CHIP TYPE Aluminum Electolytic Capacitors
■ STANDARD RATINGS
6.3
Rated voltage (V)
Item
Rated
capacitance (F)
10
16
25
35
50
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
1
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
45.7
2.9
60
2.2
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
45.7
2.9
60
3.3
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
45.7
2.9
60
4.7
─
─
─
─
─
─
─
─
─
─
─
─
45.7
1.35
80
55.7
1.52
85
10
─
─
─
─
─
─
45.7
1.35
80
45.7
1.35
80
55.7
0.80
150
6.35.7
0.88
165
22
45.7
1.35
80
45.7
1.35
80
55.7
0.80
150
55.7
0.80
150
6.55.7
0.44
230
6.35.7
0.88
165
33
45.7
1.35
80
55.7
0.80
150
6.35.7
0.44
230
6.35.7
0.44
230
6.35.7
0.44
230
6.37.7
0.68
185
6.37.7
0.68
185
86.5
0.68
185
47
55.7
0.80
150
6.35.7
0.44
230
6.35.7
0.44
230
68
─
─
─
─
─
─
─
─
─
6.35.7
100
0.44
230
150
6.35.7
0.44
230
220
6.37.7
0.36
280
330
470
680
1000
2200
230
6.37.7
0.36
280
86.5
0.36
280
6.35.7
0.44
230
6.37.7
0.36
280
86.5
0.36
280
6.37.7
0.36
280
0.36
280
810
0.17
450
810
0.17
450
0.17
450
107.7
0.17
450
107.7
0.17
450
230
─
─
─
86.5
0.36
280
6.37.7
0.36
280
86.5
0.36
280
810
0.17
450
810
0.34
369
810
0.34
369
1010
0.18
553
1010
0.18
553
810
0.17
450
810
0.17
450
107.7
0.17
450
1010
0.09
670
12.513.5 0.12
650
810
0.17
450
107.7
0.17
450
810
0.17
450
12.513.5 0.070
820
12.513.5 0.12
650
1010
0.09
670
12.516 0.060
950
1616.5 0.073
1000
450
810
0.17
450
810
0.17
450
450
450
450
107.7
0.17
450
1010
0.09
670
1010
0.09
670
1010
0.09
670
12.513.5 0.070
820
12.516 0.060
950
1616.5 0.073
1000
810
0.17
450
1010
0.09
670
12.513.5 0.070
820
12.516 0.060
950
1616.5 0.054
1260
1816.5 0.066
1500
1616.5 0.054
1260
1816.5 0.048
1621.5 0.038
1500
1630
1821.5 0.05
1620
1821.5 0.038
1750
─
─
─
0.09
670
12.513.5 0.070
12.513.5 0.070
820
12.516 0.060
950
1260
12.516 0.060
950
950
1616.5 0.054
1260
1616.5 0.054
1260
1260
1616.5 0.054
1260
1621.5 0.038
1630
1816.5 0.048
1621.5 0.038
1821.5 0.038
1500
1630
1750
1816.5 0.048
1621.5 0.038
1500
1630
820
1616.5 0.054
1616.5 0.054
63
1260
80
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
4.7
55.7
1.90
70
─
─
─
─
─
─
10
6.35.7
1.20
130
─
─
─
─
─
─
22
6.37.7
0.90
150
810
1.3
130
810
1.3
130
33
810
0.50
280
810
1.3
130
1010
0.7
200
47
810
0.50
280
1010
0.7
200
1010
0.7
200
100
1010
0.25
450
1010
0.7
200
12.513.5 0.32
450
150
12.513.5 0.15
700
12.513.5 0.32
450
12.516 0.26
550
220
12.513.5 0.15
700
12.516 0.26
550
1616.5 0.17
1821.5 0.15
950
330
1616.5 0.082
900
1616.5 0.17
650
1816.5 0.15
1621.5 0.15
900
470
1616.5 0.082
900
1816.5 0.15
1621.5 0.15
850
1821.5 0.15
950
1816.5 0.080
1621.5 0.080
1821.5 0.06
1150
1150
1250
1821.5 0.15
950
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
100
Rated
ripple
current
1000
0.44
0.17
0.17
0.17
Impedance
680
6.35.7
0.17
Case
Rated
capacitance (F)
230
810
Rated voltage (V)
Item
0.44
107.7
810
107.7
1616.5 0.054
4700
0.44
230
810
12.516 0.060
3300
6.35.7
0.44
86.5
1010
1500
6.35.7
6.35.7
900
650
850
(Note) Rated ripple current:mA/rms at 100kHz, 105℃, Impedance:/at 100kHz, 20℃
25
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
Electric Double Layer Capacitors
“DYNACAP” & “ULTRACAP”
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
26
ELECTRIC DOUBLE LAYER CAPACITORS
 Application Guidelines for Using Electric Double Layer Capacitor (EDLC)
1. Circuit Design
Ensure that operational and mounting conditions follow the specified conditions detailed in the catalog and
specification sheets.
a) Lifetime
EDLC have a longer lifetime than do secondary batteries, but their life is still limited. During use, capacitance
decreases and internal resistance rises. The lifetime of a EDLC is greatly affected by ambient temperature,
applied voltage and operating current. By reducing these factors as much as possible, capacitor lifetime can be
lengthened.
b) Voltage
If a EDLC is used at a voltage exceeding its rated voltage, not only is its lifetime shortened, but depending on the
actual voltage, gas generated by electrochemical reactions inside the capacitor may cause it to leak or rupture.
c) Polarity
The anode and cathode of EDLCs are comprised of the same material and theoretically have no true polarity. For
manufacturing and consistency purposes, the terminals are marked with polarity.
After EDLCs are completely discharged, the electrodes may maintain a very small amount of charge. Even
though catastrophic failure will not occur if the polarity is accidentally reversed, the reverse polarity may cause
life reduction in applications.
d) Circuitry
1) EDLC is polarized. Do not apply reverse voltage. Reverse polarity may increase leakage current or decrease
life span.
2) Do not apply any voltage higher than the rated voltage. Over-voltage may damage the EDLC by causing
abrupt increase of leakage current, and overheating.
3) ELDC has a higher Internal resistance than do electrolytic capacitors and is more susceptible to internal heat
generation when exposed to ripple current. Do not use EDLC in ripple current applications.
4) When a short circuit occurs, EDLC should be retired if sparkling on lead terminals is observed. Please contact
us for information when connecting EDLC in series or parallel.
e) Temperature
ULTRACAP have wide operating temperature range (-40℃ ~ 65℃) or (-40℃ ~ 70℃). DYNACAP have wide
operating temperature range (-40℃ ~ 60℃) or (-25℃ ~ 70℃). The temperature is in direct proportion to the
capacitance and resistance of the EDLCs because the raise of the temperature will affect the mobility on
electrons within electrolyte.
f) Ambient Temperature
1) Capacitor life is affected by operating temperature. In general, lowering ambient temperature by 10℃ will
double the life of a capacitor. Use the capacitor at the lowest possible temperature under the maximum
guaranteed temperature.
2) Operation above the maximum specified temperature not only shortens capacitor life, but can also cause
serious damage such as electrolyte leakage. Verify the operating temperature of the capacitor by taking into
consideration not only the ambient temperature and temperature inside the unit, but also the radiation from
heat generating elements inside the unit (power transistors, IC’s, resistors, etc.) and self-heating due to ripple
current. Be careful not to place heat-generating elements across from the capacitor on the opposite side of
the PCB.
27
ELECTRIC DOUBLE LAYER CAPACITORS
g) Characteristics of constant current and constant (For ULTRACAP)
Resistance discharging The time required for the constant current and constant resistance discharging are
respectively represented the equation (1) and (2) below: Discharging time (t) of constant current discharge
t = C(V0  V1)/I ..........(1)
Discharging time (t) of constant resistance discharge
t = CRln(V1/V0) ........(2)
t = charging time (s)
V0 = initial voltage (v)
V1 = terminal voltage (v)
I = current during back-up (A)
The above equations may not always be accurate, the terminal down voltage must be considered after the start
of discharge if load resistance or load current present. Back-up characteristics for IC Also, if the capacitor is used
to back-up and IC, the characteristics of the IC must also be considered. It can therefore be said that if the
voltage is low, the current is also low and the aftual back-up time will be longer than that calculated. To be certain
that if the capacitor selected is of sufficient value to maintain the necessary energy and time, it should be
checked and measured under actual operating conditions.
h) Voltage Drop During Backup Operation
Take careful notice of the voltage drop caused by the instantaneous operating current and the internal resistance
of the EDLCs during the switch from power-failure-detection to backup mode. Because internal resistance varies
by product, use the following table to decide the correct operating (discharge) current.
t = charging time (s)
V0 = initial voltage (v)
V1 = terminal voltage (v)
I = current during back-up (A)
i) Ripple Current
EDLC have a higher internal resistance than do electrolytic capacitors and are more susceptible to internal heat
generation when exposed to ripple current. When the temperature of the element rises, a reaction current flows
inside the EDLC, generating reaction products and raising internal resistance even further. This makes it difficult
to maintain capacitance. Set the allowable limit for the ripple current-induced rise in capacitor temperature to 3℃
measured at the surface of the capacitor.
j) Connecting Capacitors in Series
Taking into consideration the possibility of an imbalance in the voltages across the capacitors, make sure that the
voltage applied to each capacitor will not exceed the Maximum operating voltage. If the voltage balance breaks
down, an over voltage condition could result. To prevent this from occurring, add a voltage dividing resistor in
parallel with each capacitor, allowing for the capacitor’s leakage current.
Always consider safety when designing equipment and circuits. Plan for worst case failure modes such as short
circuits and open circuits which could occur during use.
1) Provide protection circuits and protection devices to allow safe failure modes.
2) Design redundant or secondary circuits where possible to assure continued operation in case of main circuit
failure.
28
ELECTRIC DOUBLE LAYER CAPACITORS
2. Mounting Considerations
a) Heat Stress During Soldering
Excessive heat stress may result in the deterioration of the electrical characteristics of the capacitor, loss of
air-tightness, and electrolyte leakage due to the rise in internal pressure.
1) EDLC is tinned with 1.5 mm of capacitor body. Do not scratch lead terminals. Removal of tin coating on lead
terminals may lead to poor solderability.
2) EDLC may be soldered or wave soldered. Do not overheat when soldering. Temperature low then 260℃ for
5 seconds or less and under 350℃. Solder the capacitor 3 times or less at intervals of 15 seconds or more.
3) Never perform reflow soldering on EDLC using infrared heating or atmospheric heating methods.
4) Do not apply excessive force to lead terminals. Do not pull or twist terminals. If deforming of lead terminals is
necessary, please use a plier to bend the terminals while support the base of the terminals.
5) Do not drop EDLC on hard surface and avoid tearing of sleeve label.
6) Do not deform or compress EDLC.
7) Please request supplemental information related to mounting instructions if necessary.
b) Circuit Board Patterns Under the Capacitor
Avoid circuit board runs under the capacitor as electrolyte leakage could cause an electrical short.
c) Elevate the EDLC Above the PCB For Mounting
If the capacitor is soldered directly to a double-sided PCB, a short circuit may occur between the capacitor body
and the wiring pattern. In the case of a through hole board, flux or solder blowing out of the holes can shrink or
break the external sleeve and possibly cause internal damage to the capacitor.
d) Circuit Board Cleaning
Circuit boards can be immersed or ultrasonically cleaned using suitable cleaning solvents for up to 5 minutes and
up to 60℃ maximum temperatures. The boards should be thoroughly rinsed and dried. [Recommended cleaning
solvent include] Pine Alpha ST-100S, Sunelec B-12, DK be clear CW-5790, Aqua Cleaner 210SEP, Cold
Cleaner P3-375, Telpen Cleaner EC-7R, Clean-thru 750H, Clean-thru 750L, Clean-thru 710M, Techno Cleaner
219, Techno Care FRW-17, Techno Care FRW-1,Techno Care FRV-1, IPA (isopropyl alcohol) ] Consult with us if
you are using a solvent other than any of those listed above.] The use of ozone depleting cleaning agents are not
recommended in the interest of protecting the environment.
3. Precautions for msing capacitors
a)
b)
c)
d)
Do not operate EDLC outside the recommended limits.
Do not dissemble EDLC. Electrolyte maybe harmful if come in contact with skin and eyes.
Seek medical attention immediately if EDLC is accidentally ingested or swallowed.
Keep your face and hands away from EDLC. When the temperature of EDLC exceeds recommended limit,
EDLC might burst or bum.
e) Disconnect EDLC immediately when capacitor body is swollen, or gaseous vapor is detected.
f) Do not combine new and old EDLC. Do not mix and match different types of EDLC.
g) Do not use EDLC in life support equipments.
4. Emergency Procedures
If the capacitor overheats or starts to smell, immediately switch off the unit’s main power supply to stop operation.
Keep your face and hands away from the capacitor, since the temperature may be high enough to cause the
capacitor to ignite and burn.
29
ELECTRIC DOUBLE LAYER CAPACITORS
5. Long Term Storage
a) Store EDLC at a temperature between 20℃-30℃ with a relative humidity less than 60%.
b) Avoid storing EDLC under any of the following conditions:
1) High temperature and high humidity environment
2) Direct contact with water, salt water or oil
3) ln acid or alkaline environment
4) ln contact with the chemically active gas
5) Exposed to direct sunlight
6. Capacitor Disposal
When disposing of capacitors, follow the instructions below:
a) Crush or make a hole in the capacitor before burning. If the capacitor is burned “as is,” it can explode. If taking
apart the capacitor before disposal, wear protective gear such as gloves and goggles.
b) Because of the capacitor’s plastic (polyvinyl chloride) sleeve, burn at high temperature. Low temperature
burning will result in the production of toxic gases such as chlorine.
c) If you choose not to burn used capacitors, consign them to a specialized industrial waste processor for
disposal.
The application guidelines above are take from: Technical Report EIAJ RCR-2370 issued by the Japan Electronic
Industry Association, Inc. Guideline of notabilia for fixed electric double layer capacitors with non-solid electrolyte for
use in electronic equipment. Refer to this Technical Report for additional details.
 Precautions for Your Safety
The Electric Double Layers capacitors contain flammable organic solvents. For your safety, please follow following
prohibitions.
1. Waming!
a) Do not charge by high current or high voltage.
Doing so may generate gas inside the capacitor, resulting swelling, catching fire, heat generation or bursting.
b) Do not reverse placement of (+) and (-)
The capacitors have polarity. If the (+) and (-) side of the capacitor is reverse inserted, it may cause a
short-circuiting or over discharge of the capacitor on some equipment and it may induce overheating, explosion
or fire.
c) Do not solder directly to the capacitor
If soldering is performed directly to the capacitor, the capacitor is heated up, consequently cause leakage,
explosion or fire due to overheating from internal short-circuiting.
d) Keep capacitors out of children’s reach.
If leaked liquid is ingested or a capacitor is swallowed, consult a physician immediately.
e) Do not heat, disassemble nor dispose of in fire
Doing so damages the insulation materials and may cause catching fire, heat generation, leakage or bursting.
f) Do not discharge by force
If the capacitor is discharged by direct connection to an external power supply etc., voltage of the capacitor will
decline lower than 0 volts (electrical reversal) and will cause the capacitor case to expand, overheat, leak,
explode or burn.
30
ELECTRIC DOUBLE LAYER CAPACITORS
g) Incase of leakage or a strange-smell, keep away from fire to prevent ignition of any leaked electrolyte.
2. CAUTION!
a) If leaked liquid gets in the eyes, wash them with clean water and consult a physician immediately.
b) Do not use nor leave the capacitors in direct sunlight nor in high-temperature areas.
It may cause catching fire, heat generation, leakage or bursting.
c) Do not use new and used capacitors together. Do not use different types of capacitors together.
It may cause catching fire, heat generation, leakage or bursting.
d) If you connect two or more capacitors in series or parallel, please consult us in advance.
It may cause bursting or catching fire due unbalanced load or voltage.
e) Keep capacitors away from direct sunlight, high temperature and humidity.
It may cause heat generation or performance deterioration.
31
DB
ELECTRIC DOUBLE LAYER CAPACITORS “DYNACAP”
5.5V Standard Capacitor Series DB
GREEN
CAP
70℃
 Small-sized, large capacity, excellent voltage holding.
 For all ratings, uniform 5mm pitch of terminal spacing.
 Wider temperature range (-25 to +70℃) than battery.
 21.5×7.5 size can encase up to 1.5F.
 Ideal for backing up of CMOS’s, IC’s, microcomputers,
RAM’s, RTC’s and the like used in Video’s, tuners,
TV sets, telephone sets and others.
Marking color:White print on an indigo sleeve
■ SPECIFICATIONS
Item
Performance
Category Temperature Range
25℃~+70℃
Tolerance at rated capacitance
20%~+80%
Internal resistance
at 1 kHz
Characteristics at high
and low temperature
Rated capacitance (F)
0.047
0.1
0.22
0.33
0.47
0.47
1.0
1.5
Internal resistance ()
120
75
75
75
75 (13.5)
30 (21.5)
30
30
Percentage of capacitance change
Internal resistance
Less than five times of the value at 20℃
Test time
Endurance (70℃)
Within ±30% of the value at 20℃
1000 hours
Percentage of capacitance change
Internal resistance
Within 30% of the initial measured value
Within four times of the initial specified value
Shelf life (70℃)
Test time:1000 hours; Same as endurance.
Applicable standards
Conforms to JIS C5160-1 2009 (IEC 62391-1 2006)
■ OUTLINE DRAWING
■ STANDARD RATINGS
Unit:mm
Max. operating
voltage (V)
Rated
capacitance (F)
ELNA Parts No.
DL (mm)
5.5
0.047
DB-5R5D473T
13.57.5
5.5
0.1
DB-5R5D104T
13.57.5
5.5
0.22
DB-5R5D224T
13.57.5
5.5
0.33
DB-5R5D334T
13.57.5
5.5
0.47
DB-5R5D474ST
13.57.5
5.5
0.47
DB-5R5D474T
21.58.0
5.5
1.0
DB-5R5D105T
21.58.0
5.5
1.5
DB-5R5D155T
21.58.0
Part numbering system (example : 5.5V0.1F)
DB
Series code
─
5R5
D
104
□
Rated voltage
symbol
Terminal
code
Rated capacitance
symbol
Additional
symbol
Part number is refer to above table.
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
32
T
DX
ELECTRIC DOUBLE LAYER CAPACITORS
5.5V Miniaturized Standard Capacitor
GREEN
CAP
70℃
 Smaller and lighter than Series DB.
 5mm tall. Max. thin profile (H-shaped).
 Miniaturized but can encase up to 0.47F in 11.5×5mm case,
and 1.5F in 19.0×20.5mm case.
Marking color:White print on an indigo sleeve
■ SPECIFICATIONS
Item
Performance
Category Temperature Range
25℃~+70℃
Tolerance at rated capacitance
20%~+80%
Rated capacitance (F)
Internal resistance ()
Internal resistance
at 1 kHz
0.047
120
0.1
75
0.22
75
0.33
75
0.47
75 (11.5)
0.47
75 (19.0)
1.0
30
Characteristics at high
and low temperature
Percentage of capacitance change
Internal resistance
Within ±30% of the value at 20℃
Less than five times of the value at 20℃
Endurance (70℃)
Test time
Percentage of capacitance change
Internal resistance
1000 hours
Within 30% of the initial measured value
Less than four times of the initial specified value
Shelf life (70℃)
Test time:1000 hours; Same as endurance.
Applicable standards
Conforms to JIS C5160-1 2009 (IEC 62391-1 2006)
■ OUTLINE DRAWING
Unit:mm
Note
Part numbering system (example : 5.5V0.1F)
DB
Series code
─
1.5
30
5R5
□
104
□
Rated voltage
symbol
Terminal
code
Rated capacitance
symbol
Additional
symbol
U
Part number is refer to below table.
Do not apply external force to products or terminals as stress such as twisting,
bending, pushing, or falling of such products or terminals may remove the
terminals, resulting in an open/short circuit or liquid leakage.
Avoid applying excessive heat to capacitors during heating of an adhesive
curing oven. For details, refer to the precautions in use of DYNACAP.
■ STANDARD RATINGS
Max. operating voltage (V)
Rated capacitance (F)
5.5
0.047
5.5
0.1
5.5
5.5
5.5
0.22
0.33
0.47
ELNA Parts No.
DL (mm)
DX-5R5V473U
11.513.0
DX-5R5H473U
11.55.0
DX-5R5V104U
11.513.0
DX-5R5H104U
11.55.0
DX-5R5V224U
11.513.0
DX-5R5H224U
11.55.0
DX-5R5V334U
11.513.0
DX-5R5H334U
11.55.0
DX-5R5V474SU
11.513.0
DX-5R5H474SU
11.55.0
DX-5R5V474U
19.020.5
5.5
1.0
DX-5R5V105U
19.020.5
5.5
1.5
DX-5R5V155U
19.020.5
33
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
DCK
ELECTRIC DOUBLE LAYER CAPACITORS “DYNACAP”
Coin Cell Capacitors
GREEN
CAP
60℃
 Unlike batteries, the number of charging/
discharging cycles unlimited and rapid
charging / discharging is possible.
 High reliability, Safe and unlike secondary
batteries, this is pollution free devices.
Marking color:White print on an indigo sleeve
■ SPECIFICATIONS
Item
Performance
Max. operating voltage
3.3V
Category Temperature Range
10℃~+60℃
Tolerance at rated capacitance
20%~+80%
Internal resistance
at 1 kHz
Size code
Rated capacitance (F)
Internal resistance ()
614
0.2
200
621
0.4
200
Characteristics at high
and low temperature
Size code
Rated capacitance (F)
Internal resistance ()
614
Within ±50% of the value at 20℃
Less than five times the initial specified value
Endurance (60℃)
Size code
Test time and temp
Rated capacitance (F)
Internal resistance ()
614
60℃ 1000 hours
Within 30% of the initial measured value
2k Max.
621
Within ±50% of the value at 20℃
Less than ten times of the value at 20℃
621
60℃ 500 hours
Within 40% of the initial measured value
800 Max
Shelf life (60℃)
Applicable standards
Same as endurance.
Conforms to JIS C5160-1 2009 (IEC 62391-1 2006)
■ OUTLINE DRAWING
Unit:mm
Part numbering system (example : 621, 3.3V0.22F, terminal shaped : E)
DCK
─
Series code
3R3
Max. operating voltage
symbol
224
□
Rated capacitance
symbol
Additional
symbol
E
─ E
Part number is refer to below table.
■ STANDARD RATINGS
Rated capacitance (F)
ELNA Parts No.
DL (mm)
3.3
0.2
DCK-3R3E204T614-E
6.81.4
3.3
0.22
DCK-3R3E224U-E
6.82.1
3.3
0.4
DCK-3R3E404T-E
6.82.1
Max. operating voltage (V)
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
34
DS, DSK
ELECTRIC DOUBLE LAYER CAPACITORS “DYNACAP”
Coin Cell Capacitors
60℃
GREEN
CAP
70℃
 Reflow soldering method available.
 Unlike batteries, the number of charging/
discharging cycles unlimited and rapid
charging/ discharging is possible.
 Unlike batteries, excellent charge and discharge
characteristics with no chemical reactions.
1.8mm
height type 614 made lineup in the DS,

DSK series.
Marking color:White print on an indigo sleeve
■ SPECIFICATIONS
Item
Performance
Series Name
Series DS
Series DSK
Max. operating voltage
Category
Temperature Range
Tolerance at rated
capacitance
2.5V
3.3V
25℃~+70℃
10℃~+60℃
20%~+80%
20%~+80%
Size code
Rated capacitance (F)
Internal resistance ()
Internal resistance
at 1 kHz
614
0.2
100
621
0.33
100
Size code
Rated capacitance (F)
Internal resistance ()
614
0.2
200
621
0.33
200
Characteristics at
high and low
temperature
Size code
614
621
Rated capacitance (F) Within ±30% of the value at 20℃
Internal resistance () Less than five times of the value at 20℃
Size code
614
621
Rated capacitance (F) Within ±50% of the value at 20℃
Internal resistance () Less than five times of the value at 20℃
Endurance
Size code
614
621
Test time and temp 70℃ 1000 hours 70℃ 500 hours
Rated capacitance (F) Within 30% of the initial measured value
Internal resistance ()
1k Max.
400 Max
Size code
614
621
Test time and temp
60℃ 1000 hours 60℃ 500 hours
Rated capacitance (F) Within 30% of the initial measured value
Internal resistance ()
2k Max.
800 Max
Shelf life
Applicable standards
Same as endurance.
Same as endurance.
Conforms to JIS C5160-1 2009 (IEC 62391-1 2006)
■ OUTLINE DRAWING
Recommended land pattern size
Unit:mm
※Please consult with us about other terminal form.
Part numbering system (2.5V0.2F, terminal shaped: H2)
DCK ─
Series code
2R5
H
Max. operating voltage
symbol
204
Rated capacitance
symbol
T614 ─
Additional
symbol
Part numbering system (example:621, 3.3V0.33F, terminal shaped: H)
H2
L
Terminal
shaped
Taping
DCK ─
Series code
3R3
H
Max. operating voltage
symbol
334
T
Rated capacitance
symbol
Additional
symbol
─
H
L
Terminal
shaped
Taping
Part number is refer to below table.
Part number is refer to below table.
■ STANDARD RATINGS
ELNA Parts No.
DL (mm)
0.20
DS-2R5H204T614-H2L
6.81.4
0.20
DSK-3R3H204T614-H2L
6.81.4
2.5
0.33
DS-2R5H334T-HL
6.82.1
3.3
0.33
DSK-3R3H334T-HL
6.82.1
Max. operating voltage (V)
Rated capacitance (F)
2.5
3.3
35
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
PL
ELECTRIC DOUBLE LAYER CAPACITORS “ULTRACAP”
Features
Small size and low-resistance
Quick charge & discharge
Environmentally friendly products
RoHS compliant
UL recognized





Recommended Applications
 Pulse power demand
 Hybrid battery packs
 Power tools
■ SPECIFICATIONS
Item
Characteristics
Rated Voltage
Surge Voltage
2.7V
2.85V
20%
Capacitance Tolerance
Operating Temperature
40℃ ~ +65℃
Storage Temperature
40℃ ~ +70℃
Endurance
1000 hours @65℃ at Rated Voltage
Life time
10y @25℃ at Rated Voltage
500k cycles
Cycle Life
C
Within 30% of initial measured value
ESR
Within 2 times of initial specified value
C
Within 30% of initial measured value
ESR
Within 2 times of initial specified value
C
Within 30% of initial measured value
ESR
Within 2 times of initial specified value
Cycle: between specified voltage and half voltage under constant current at 25℃
■ OUTLINE DRAWING
Unit:mm
Size
812
814
816
820
828
1020
1025
1030
12.531.5
12.535.5
1626
1631.5
1840
1845
1860
2245
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
36
D
8
8
8
8
8
10
10
10
12.5
12.5
16
16
18
18
18
22
L
12
14
16
20
28
20
25
30
31.5
35.5
26
31.5
40
45
60
45
D
0.6
0.6
0.6
0.6
0.6
0.6
0.6
0.6
0.8
0.8
0.8
0.8
0.8
1
1
1
F
3.5
3.5
3.5
3.5
3.5
5.0
5.0
5.0
5.3
5.3
7.5
7.5
7.5
7.5
7.5
9.5
PL
ELECTRIC DOUBLE LAYER CAPACITORS “ULTRACAP”
■ STANDARD RATINGS
Size
(mm)
Internal Resistance
(m)
LC
(mA)
Measure
at 25℃
DL
AC
(1kHz)
DC
72hrs
25℃
(Wh)
(Wh/kg)
0.5
812
700
1800
0.002
0.0005
1
812
315
700
0.006
1.5
814
190
410
2
816
180
3.3
820
4
Rated
Cap (F)
Stored
Energy
Specific
Energy
Specific
Power
Max.
Current
Isc
Weight
(g)
(Wh/I)
Pd
(W/kg)
Pmax
(W/kg)
1s to
1/2V (A)
(A)
0.5063
0.8397
486
2604
0.355
1.50
1
0.0010
0.9205
1.6794
1136
5260
0.794
3.86
1.1
0.008
0.0015
1.2656
2.1593
1778
7993
1.254
6.59
1.2
350
0.010
0.0020
1.5577
2.5192
1923
7788
1.588
7.71
1.3
190
300
0.012
0.0033
2.0250
3.3253
1767
5813
2.239
9.00
1.65
1020
150
250
0.014
0.0041
1.8409
2.5796
1591
5523
2.700
10.80
2.2
5
1020
90
160
0.015
0.0051
2.2011
3.2245
2377
8804
3.750
16.88
2.3
6
828
80
140
0.015
0.0061
2.6413
4.3186
2717
9905
4.402
19.29
2.3
6
1020
70
130
0.015
0.0061
2.4300
3.8694
2692
10414
4.551
20.77
2.5
8
1025
60
100
0.020
0.0081
2.7000
4.1274
2916
10125
6.000
27.00
3
10
1030
60
85
0.030
0.0101
2.8929
4.2994
2941
8679
7.297
31.76
3.5
15
12.531.5
35
60
0.035
0.0152
2.8656
3.9308
2751
9825
10.658
45.00
5.3
22
12.535.5
30
45
0.055
0.0223
3.4269
5.1156
2991
9346
14.925
60.00
6.5
25
1626
28
42
0.060
0.0253
3.3750
4.8445
2777
8679
16.463
64.29
7.5
30
1631.5
25
35
0.080
0.0304
3.4517
4.7984
2840
8284
19.756
77.14
8.8
50
1840
15
20
0.130
0.0506
3.8942
4.9761
3365
9346
33.750
135.0
13
60
1845
14
20
0.130
0.0608
3.7969
5.3079
2734
8136
36.818
135.0
16
70
1845
13
20
0.150
0.0709
4.2955
6.1925
2651
8497
39.375
135.0
16.5
100
2245
10
15
0.260
0.1013
4.4022
5.9220
2536
7924
54.000
180.0
23
100
1860
10
16
0.260
0.1013
4.6023
6.6348
2485
8284
51.923
168.7
22
37
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
NL
ELECTRIC DOUBLE LAYER CAPACITORS “ULTRACAP”
Features
High capacitance and low-resistance
Quick charge & discharge
Environmentally friendly products
RoHS compliant
UL recognized





Recommended Applications
 Pulse power demand
 Hybrid battery packs
 Power tools
■ SPECIFICATIONS
Item
Characteristics
Rated Voltage
Surge Voltage
2.7V
2.85V
20%
Capacitance Tolerance
Operating Temperature
40℃ ~ +65℃
Storage Temperature
40℃ ~ +70℃
Endurance
1000 hours @65℃ at Rated Voltage
Life time
10y @25℃ at Rated Voltage
500k cycles
Cycle Life
C
Within 30% of initial measured value
ESR
Within 2 times of initial specified value
C
Within 30% of initial measured value
ESR
Within 2 times of initial specified value
C
Within 30% of initial measured value
ESR
Within 2 times of initial specified value
Cycle: between specified voltage and half voltage under constant current at 25℃
■ OUTLINE DRAWING
Unit:mm
■ STANDARD RATINGS
Size
(mm)
Internal Resistance
(m)
LC
(mA)
measure
at 25℃
DL
AC
(1kHz)
DC
72hrs
25℃
(Wh)
(Wh/kg)
(Wh/I)
Pd
(W/kg)
100
2245
9
15
0.26
0.1013
4.6023
5.9220
120
2250
7
14
0.33
0.1215
4.8600
6.3957
150
2550
7
14
0.50
0.1519
4.7461
200
3050
7
13
0.60
0.2025
300
3550
7
13
0.80
350
3560
7
13
1.00
400
3560
5
12
1.20
Rated
Cap (F)
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
Stored
Energy
Specific
Energy
Max.
Current
Isc
Pmax
(W/kg)
1s to
1/2V (A)
(A)
2651
9205
54.000
180
22
2499
10414
60.448
192
25
6.1911
1953
8136
65.323
192
32
4.8214
5.7325
1602
6199
75.000
208
42
0.3038
5.3289
6.3174
1181
4568
82.653
208
57
0.3544
4.9912
6.1419
948
3667
85.135
208
71
0.4050
5.4730
7.0194
985
4926
93.103
225
74
38
Specific
Power
Weight
(g)
MPL
ELECTRIC DOUBLE LAYER CAPACITORS “ULTRACAP”
Features




Passive Balanced Cells
Higher Voltage Rating
RoHS compliant
UL recognized
Recommended Applications
 Hybrid battery packs
 Stereo and Audio System
 Battery Alternatives
 Renewable Energy Systems
■ SPECIFICATIONS
Item
Characteristics
Rated Voltage
Surge Voltage
5.4V
5.7V
20%
Capacitance Tolerance
Operating Temperature
40℃ ~ +65℃
Storage Temperature
40℃ ~ +70℃
Endurance
1000 hours @65℃ at Rated Voltage
Life time
10y @25℃ at Rated Voltage
500k cycles
Cycle Life
C
Within 30% of initial measured value
ESR
Within 2 times of initial specified value
C
Within 30% of initial measured value
ESR
Within 2 times of initial specified value
C
Within 30% of initial measured value
ESR
Within 2 times of initial specified value
Cycle: between specified voltage and half voltage under constant current at 25℃
■ OUTLINE DRAWING
Unit:mm
Size
91716
91718
91720
112124
112129
112134
A
9
9
9
11
11
11
B
17
17
17
21
21
21
C
16
18
20
24
29
34
d
0.6
0.6
0.6
0.6
0.6
0.6
F
12
12
12
15.8
15.8
15.8
■ STANDARD RATINGS
Size
(mm)
Internal Resistance
(m)
LC
(mA)
measure
at 25℃
DL
AC
(1kHz)
DC
72hrs
25℃
(Wh)
(Wh/kg)
(Wh/I)
0.25
91716
1400
3700
0.06
0.0010
0.4050
0.5
91716
630
1400
0.09
0.0020
0.8100
0.75
91718
380
860
0.095
0.0030
1
91720
380
760
0.1
1.5
112124
300
580
0.15
2
112124
300
500
2.5
112124
200
3
112124
140
4
112129
5
112134
Rated
Cap (F)
Stored
Energy
Specific
Energy
Specific
Power
Max.
Current
Isc
Weight
(g)
Pd
(W/kg)
Pmax
(W/kg)
1s to
1/2V (A)
(A)
0.8397
378
2083
0.35
1.46
2.5
1.6794
1000
4629
0.79
3.86
2.5
1.0125
2.1593
1356
6395
2.20
6.28
3
0.0041
1.1571
2.5192
1315
5481
1.53
7.11
3.5
0.0061
1.3500
1.9347
1341
5400
2.17
9.31
4.5
0.16
0.0081
1.6875
2.5796
1458
5063
2.70
10.80
4.8
340
0.27
0.0101
2.0250
3.2245
2058
7290
3.65
15.88
5
260
0.28
0.0122
2.2091
3.8694
2447
9468
4.55
20.77
5.5
120
200
0.28
0.0162
2.3143
4.1274
2499
8679
6.00
27.00
7
120
170
0.42
0.0203
2.7000
4.2994
2744
8100
7.30
31.76
7.5
39
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
MEMO
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