Category Precautions Failure mode and corrective action
Circuit Operating temperature
design and ripple current
Applied voltage
Capacitor insulation
Operating
environment
Mounting
precautions
Mounting Prior knowledge
of mounting
1.If an excessive ripple is allowed to flow to the
capacitors, shorting, ignition, or other fatal failure can
result.
2.Make wiring connections so that all capacitors are
subjected to the same wiring resistance.
3.Operate the equipment under normal conditions to
check the equipment internal temperature and capacitor
temperature.
1. If a reverse voltage or AC voltage is applied to the
capacitors, abnormal heat generation can take place,
resulting in ignition or other fatal failure.
2. Note that even bipolar capacitors cannot be used in AC
circuits.
3.If a voltage higher than the rating is applied to the
capacitors, abnormal heat generation can take place,
resulting in shorting, ignition, or other fatal failure.
4.When using two or more capacitors, take the above-
mentioned wiring resistance into account. If not, the
voltage applied to the capacitors may vary to incur
capacitor deterioration.
5.For charging and discharging a welding machine or
other equipment, use dedicated capacitors designed for
use in such applications.
1. The blank terminals are not internally insulated. Take
the precautions to avoid circuit shorting.
2.If the sleeve has to have an insulation capability,
consult your local Hitachi AIC agent.
1. If the capacitors are splashed with water or saline water
or get wet with condensed moisture, short-circuiting will
occur.
If oil is deposited on the capacitors, the sealing rubber
can swell, thus impairing airtightness and shortening
the useful life.
2. A harmful gas will damage the sealing rubber, resulting
in interior corrosion and wiring breakage.
3.On-board self-supporting capacitors protected with
epoxy resin are available. Contact your local Hitachi
AIC agent.
4. If the capacitors are subjected to excessive vibration or
shock, consult your local Hitachi AIC agent.
1. An electrolytic solution or compound may flow out of the
safety vents.
2. The electrolytic solution is conductive. Gushing out of a
combustible gas upon safety vent actuation can cause
ignition or other secondary disaster.
3. A screw terminal type safety vent is positioned toward
the terminal side. In the case of an on-board self-
supporting type, the case bottom swells to actuate the
safety vent.
1.If a reverse voltage is applied to the capacitors, they
must not be used any longer. Even if they have no
apparent defects, they are seriously damaged.
2. Do not tighten the curled section with a band or the like
because solution leakage or sleeve cutting can result.
3. If the capacitors fall on the floor or bump against any
object, their external surfaces and internal structures
can be rendered abnormal, resulting in electrical
performance deterioration or destruction. Replace such
capacitors.
10
ALUMINUM ELECTROLYTIC CAPACITORS
Hitachi AIC Inc.
Precautions in using Aluminum Electrolytic Capacitors
If the capacitors are used beyond the prescribed limits, short-circuiting, opening, solution leakage, explosion, ignition, or other fatal failure may
occur. The precautions to be taken are detailed below.
1.Ensure that the operating temperature and
ripple current are within the prescribed ranges.
2.When connecting two or more capacitors in
parallel, take the wiring resistance into account.
3. The capacitors also generate heat themselves.
Keep in mind that they will raise the equipment
internal temperature.
1. The capacitors are polarized. Do not apply any
reverse voltage or AC voltage to them.
2.In circuits where polarity reversal occurs,
bipolar capacitors must be used.
3. When an AC component is superimposed over
a DC voltage, ensure that the peak value does
not exceed the voltage rating.
4.When connecting a number of capacitors in
series, use capacitors having the same rating
and connect balancing resistors in parallel.
5.Do not use the capacitors in circuits where
sudden charging/discharging repeatedly occurs.
1. Blank terminals (reinforcement terminals) of on-
board self-supporting multi-terminal (4-terminal)
capacitors must not be connected to any other
circuit.
2. Note that the external sleeves of on-board self-
supporting capacitors are not insulated.
1. The capacitors must not be used while they are
splashed with water, saline water, or oil or wet
with condensed moisture.
2. Do not use the capacitors in an atmosphere of
hydrogen sulfide, sulfurous acid, chlorine, or
other harmful gas.
3. Do not use the capacitors at a place where they
may be exposed to ozone or ultraviolet or other
radiations.
4. Do not use the capacitors at a place where they
may be subjected to vibration or undue shock.
1. Ensure that screw terminal type safety vents do
not face downward.
2. Do not position any wiring or circuit conductor
pattern near safety vents.
3.Be sure that safety vent operations are not
disturbed.
1. Use care to avoid polarity reversal.
2.Ensure that the curled section (sealed end of
the case) is not stressed.
3. Use extreme care in handling the capacitors.
Category Precautions Failure mode and corrective action
Mounting Notes on storing
capacitors
On-board self-
supporting (snap-in)
capacitors
Screw terminal type
capacitors
During use Test run
Preventive
maintenance
Disposal
Other
ALUMINUM ELECTROLYTIC CAPACITORS
11 Hitachi AIC Inc.
1. The capacitors must be stored at normal
temperature with normal humidity and kept out
of of direct sunlight. The maximum storage
period is three years.
2. There may be cases where an electric charge is
generated due to transient phenomena. To
avoid electrical shock hazard, do not touch the
terminals with bare hands.
1.Properly insert the capacitors into the wiring
board.
Solder them while they are in close contact with
the wiring board.
2.Ensure that the flux is not applied to portions
other than the terminal section.
3. Soldering must be conducted within 10 seconds
at 260°C or within 3 seconds at 350°C.
4.For washing off the flux, the use of water-
soluble or high-grade alcoholic cleaning agent
or isopropyl alcohol is recommended. It is also
recommended that the flux concentration be 2
wt% relative to the cleaning agent.
5.After the use of cleaning solution, it must be
allowed to dry. Even when the flux is not to be
removed, allow it to dry.
6.When securing a capacitor to a circuit board
with a coating or a fixing material, be sure that
the employed coating or fixing material does not
contain halogen compounds. Before coating
the capacitor, allow the flux or cleaning agent to
dry completely.
7.When securing a capacitor to a circuit board
with a coating or a fixing material, use care so
that the sealed end of the capacitor is not
entirely covered. Ensure, also, that no coating
or fixing material is applied to the safety vent
section at the bottom of capacitor. When
conducting overall coating, consult your local
Hitachi AIC agent.
1.The terminal section tightening torque should
be 2.2 N-m (3.0 N-m max.) When using the
capacitors in significantly vibrating equipment,
consult your local Hitachi AIC agent.
1.Before allowing the capacitors to conduct,
mount them on a chassis.
1.Capacitors used in industrial equipment must be
inspected on a periodic basis. The inspection
items are as follows:
(1) Appearance (e.g., safety vent condition)
(2) Electrical performance (e.g., capacitance,
power loss, current leakage)
2. If the capacitors have reached the end of their
useful life, they must be replaced.
1. When disposing of the capacitors, hole or crush
their cases and then incinerate them.
2. When the capacitors are not to be incinerated,
they must be buried by an expert industrial
waste disposal agent.
1.After the capacitors have been stored for a period of
more than 3 years, subject them to voltage treatment.
2.Before touching the terminals, discharge them with a
resistor (10 to 100) or discharge plate.
1. If the capacitors are soldered while they are lifted above
the wiring board, terminal breakage or conductive
pattern separation can be caused by mechanical
vibration or shock.
2.If the flux comes into contact with the sealing rubber
surface, corrosion can be caused by the halogen
compound in the flux.
3. If soldering is conducted without satisfying the
prescribed soldering conditions, the capacitors will be
thermally stressed so that electrical characteristic
deterioration or other problem can occur.
4. If the flux concentration in the cleaning solution rises,
the halogen concentration also increases. Therefore,
corrosion can occur as indicated in paragraph 2 above.
5.If any cleaning solution or flux remains between the
circuit board and capacitor, the halogen compound can
permeate into the sealing rubber, resulting in corrosion.
6.If the employed coating or fixing material contains a
halogen compound, corrosion can take place.
7.If the overall coating method is employed, the flux or
cleaning solution halogen compound residue is
confined so that corrosion can occur.
If a coating or a fixing material is applied to the safety
vent section, the safety vent operations will be
obstructed.
1. If the copper bar or the like exceeds 2.0 mm in length,
the screw length should be increased accordingly.
1. If any abnormally high voltage is applied to the
capacitors, they can explode.
1.Before performing periodic maintenance tasks, turn
OFF the switch and allow the capacitors to completely
discharge.
2.If any capacitor in equipment needs to be replaced,
replace all the capacitors used in the same equipment.
If new and old ones are used together, an unbalanced
ripple current or voltage sharing can result.
1. If an attempt is made to incinerate the capacitors
without holing or crushing their cases, they will explode,
resulting in a safety hazard. Be sure that incineration is
conducted at high temperature. If it is done at low
temperature, chlorine or other poisonous gas may be
generated from the external sleeves (made of polyvinyl
chloride).
2.When the capacitors are disposed of by an industrial
waste disposal agent, verify that they are properly
buried. Ensure that no discarded capacitors will be put
back on the market.
1. For further details, refer to EIAJ RCR-2367, Precautions and Guidelines for Using Electronic Device Fixed
Aluminum Nonsolid Electrolytic Capacitors.
2. If you have any questions, feel free to contact your local Hitachi AIC gent.
12
ALUMINUM ELECTROLYTIC CAPACITORS
Hitachi AIC Inc.
Large Can Aluminum Electrolytic Capacitors
HGG7 series [Small size] (Warranty of 2000 hours at 85°C)
The size is reduced by 15% of HGG6 series through development of new foil technology and
has the same permissible ripple current capability as HCG6 series.
HCGH series [105° type] (Warranty of 2000 hours at 105°C)
Small in size and large power high ripple current aluminum electrolytic capacitors with a 2000
hour long life at 105°C through development of new electrolyte.
HCGF5, HCGF5P series [High-ripple type for inverters] (Warranty of 2000 hours at 85°C)
Products that have been supplied as standard for many years.
HCGF6 series [Large capacitance type for investers] (Warranty of 2000 hours at 85°C)
The size is reduced by 14% of HCGF5, and high voltage series 500 VDC.
Long-life series for inverters
FXA series (Warranty of 5000 hours at 85°C)
HXA series (Warranty of 20000 hours at 85°C)
GXA series (Warranty of 5000 hours at 105°C)
Adoption of electrolytic liquid of organic acid family, foil technology for high voltage use and improved
etching technique have allowed a long life and high ripple current capability of this series for inverter applications.
øD a b
51 ~ 77 6 4.5
90 7 5
øD a b
51 ~ 90 7 4.5
101 8 4.5
Case øD L P Itype bracket Y type bracket
code W1 W2 W3 W4
A5 36 53 12.7 48.0 58.0
A6 36 65 12.7 48.0 58.0
A8 36 83 12.7 48.0 58.0
A10 36 100 12.7 48.0 58.0
A12 36 121 12.7 48.0 58.0
C8 51 83 22.0 (68.0) (80.0) 63.5 73.0
C10 51 100 22.0 (68.0) (80.0) 63.5 73.0
C12 51 121 22.0 (68.0) (80.0) 63.5 73.0
D10 64 100 28.6 (81.0) (93.0) 76.2 85.1
D12 64 121 28.6 (81.0) (93.0) 76.2 85.1
D15 64 144 28.6 (81.0) (93.0) 76.2 85.1
E10 77 100 32.0 (93.5) (106.0) 88.9 98.4
E12 77 121 32.0 (93.5) (106.0) 88.9 98.4
E15 77 144 32.0 (93.5) (106.0) 88.9 98.4
E16 77 160 32.0 (93.5) (106.0) 88.9 98.4
F15 90 145 32.0 (108.0) (120.5) 101.6 111.1
F16 90 161 32.0 (108.0) (120.5) 101.6 111.1
C8R 51 75 22.0 (68.0) (80.0) 63.5 73.0
C10R 51 96 22.0 (68.0) (80.0) 63.5 73.0
C12R 51 115 22.0 (68.0) (80.0) 63.5 73.0
C13R 51 130 22.0 (68.0) (80.0) 63.5 73.0
D10R 64 96 28.6 (81.0) (93.0) 76.2 85.1
D12R 64 115 28.6 (81.0) (93.0) 76.2 85.1
D13R 64 130 28.6 (81.0) (93.0) 76.2 85.1
D16R 64 155 28.6 (81.0) (93.0) 76.2 85.1
D20R 64 195 28.6 (81.0) (93.0) 76.2 85.1
E10R 77 96 32.0 (93.5) (106.0) 88.9 98.4
E12R 77 115 32.0 (93.5) (106.0) 88.9 98.4
E13R 77 130 32.0 (93.5) (106.0) 88.9 98.4
E16R 77 155 32.0 (93.5) (106.0) 88.9 98.4
E17R 77 171 32.0 (93.5) (106.0) 88.9 98.4
E20R 77 195 32.0 (93.5) (106.0) 88.9 98.4
F13R 90 131 32.0 (108.0) (120.5) 101.6 111.1
F16R 90 157 32.0 (108.0) (120.5) 101.6 111.1
F17R 90 171 32.0 (108.0) (120.5) 101.6 111.1
F20R 90 196 32.0 (108.0) (120.5) 101.6 111.1
F24R 90 236 32.0 (108.0) (120.5) 101.6 111.1
G18R 101 175 −−115 127
G20R 101 195 −−115 127
G24R 101 237 −−115 127
32.0
(41.5)
32.0
(41.5)
32.0
(41.5)
Dimensions (Unit : mm)
Note: Y type bracket is standard for case diameter or over øD51, but
when Itype bracket is required, the size of ( ) is used.
6.0
3.5
W1±2
W2±2
W1±2
W2±2
W3±2
W4±2
I type
(øD = 36)
a
a
b
b
I type
(øD = 51 to 90)
Y type
(øD = 51 to 101)
Hexagon-head bolt
Anode
marking
Safety vent
Insulation plate
Insulation sleeve
Screw terminal
Marking
L±2
øD±1
P±1
TMAX
T: 15MAX
Hexagon-head bolt
Case code (A to F): M5×10
Case code (G): M6×10
Outline of drawings and dimensions (Unit : mm)
Items Specifications
Temperature range –25°C to +85°C
Capacitance tolerance
±20% (20°C, 120Hz)
Leakage current 0.01CV (µA) or 5mA,
whichever is smaller.
High temp.Load life test
Warranty of 2,000 hours at 85°C.
Others Subject to JIS C 5141.
ALUMINUM ELECTROLYTIC CAPACITORS
13 Hitachi AIC Inc.
Product Specifications
Ripple current correction coefficient
6800
10000
15000
22000
33000
47000
68000
100000
150000
220000
330000
470000
680000
1000
1500
2200
3300
4700
6800
10000
15000
22000
33000
47000
68000
102
152
222
332
472
682
103
153
223
333
473
683
682
103
153
223
333
473
683
104
154
224
334
474
684
A5
A6
A8
C8
C10
D10
D12
E12
A5
A8
A10
C8
C10
D10
D15
E15
A5
A8
A10
C8
C12
D10
D15
E15
A8
A10
C8
C10
D10
D12
E12
A6
A8
A12
C8
C12
D12
E12
8.7
12.4
13.2
16.9
24.1
25.9
33.0
37.6
6.9
9.2
12.0
15.3
20.4
26.5
34.4
5.2
6.9
9.9
12.0
16.6
21.9
28.1
A8
A12
C8
C12
D10
D15
E15
5.6
8.1
9.9
13.9
16.9
23.5
30.0
10.4
12.1
16.0
20.7
23.5
28.5
39.0
45.3
A5
A6
A8
A12
C8
C12
D12
E12
11.9
15.2
20.3
25.0
27.6
37.6
46.5
52.0
A5
A6
A8
A12
C8
C12
D10
E12
A6
A8
A12
C10
C12
D10
D15
E15
A5
A6
A8
A12
C8
C10
D10
D15
E15
A5
A6
A8
A12
C8
C10
D10
D15
E15
A5
A8
A10
C8
C10
D10
D15
E15
9.6
10.7
13.4
19.4
22.5
27.6
29.5
41.4
46.8
8.8
11.6
12.7
18.2
20.3
25.9
32.2
36.8
37.8
10.2
12.8
15.1
20.9
23.6
32.1
37.2
41.1
12.1
14.2
19.8
25.1
28.5
34.7
48.9
52.7
11.2
14.8
19.6
27.7
29.4
34.0
39.7
49.2
13.4
14.8
19.7
25.6
33.5
43.6
50.8
54.4
µFCode 6.3(0J) 10(1A) 16(1C) 25(1E)
Rated voltage (Code)
Rated voltage (Code)
35(1V)
80(1K) 100(2A) 160(2C) 200(2D) 250(2E)
50(1H) 63(1J)
Capacitance
µFCode
Capacitance
Maximum ripple current (A)
at 40°C,120Hz
Case code
330
470
680
1000
1500
2200
3300
4700
6800
10000
15000
22000
33000
47000
68000
100000
150000
220000
330000
331
471
681
102
152
222
332
472
682
103
153
223
333
473
683
104
154
224
334
A5
A8
A8
A10
C8R
C12R
D10R
D12R
E12R
F13R
A5
A8
A8
A10
C8R
C10R
C12R
D12R
E12R
F13R
A5
A5
A8
A8
A10
C8R
C12R
D10R
D12R
E12R
F13R
A5
A5
A8
A8
A10
C8R
C10R
D10R
D12R
E12R
F13R
A5
A8
A8
A10
C8R
C10R
D10R
E10R
E12R
F13R
A5
A5
A8
A8
A10
C8R
C10R
D10R
E10R
E13R
F13R
A5
A5
A8
A8
A10
C8R
C10R
D10R
E10R
E13R
F13R
A5
A5
A5
A8
A10
C8R
C10R
D10R
D12R
E12R
F13R
2.9
4.2
5.1
6.3
8.0
10.0
11.3
12.9
14.8
19.9
2.6
3.7
4.5
5.5
6.7
8.1
10.0
12.1
13.8
17.6
2.2
2.3
3.4
4.1
4.9
5.9
7.8
9.5
11.6
14.1
18.9
2.1
2.2
3.1
3.7
4.4
5.7
6.8
9.2
10.9
13.0
17.2
2.1
3.0
3.6
4.0
5.2
6.2
8.2
9.7
12.5
16.4
1.4
1.7
2.5
3.0
3.9
5.0
6.5
7.6
9.7
11.8
15.0
1.0
1.1
1.7
2.0
2.7
3.5
4.4
5.9
7.6
10.3
13.2
0.8
1.0
1.1
1.7
2.2
2.8
3.7
4.9
6.3
8.1
10.9
A5
A5
A8
A10
C8R
C10R
D10R
D12R
E12R
E16R
F16R
0.8
1.0
1.4
1.9
2.3
3.1
4.2
5.4
6.9
9.3
12.2
25(1E) 35(1V) 50(1H) 63(1J) 80(1K) 100(2A) 160(2C) 200(2D) 250(2E)
Rated voltage (Code)
µFCode
Capacitance
Maximum ripple current (A)
105°C,120Hz
Case code
HCG7 A OJ 224 Y
Type of bracket
Capacitance code
Rated voltage code
Terminal code A (screw)
Type of series
Product symbol : (Example) HCG7 Series A case 6.3V 220,000µF ±20%
Ripple current should be under 50A.
Standard value and case size
Standard value and case size
Ripple current should be under 60A.
Temperature (°C) 40 55 70 85
Correction coefficient
1.0 0.81 0.62 0.37
Frequency (Hz) 50/60 120 400 1K 10K
Correction coefficient
0.8 1.0 1.1 1.3 1.4
Temperature (°C) 40 55 70 85 105
Correction coefficient
4.9 3.9 3.0 1.8 1.0
Frequency (Hz) 50/60 120 400 1K 10K
Correction coefficient
0.8 1.0 1.1 1.3 1.4
Ripple current correction coefficient
Items Specifications
Temperature range –40°C to +105°C
Capacitance tolerance
±20% (20°C, 120Hz)
Leakage current 0.01CV (µA) or 5mA,
whichever is smaller.
High temp.Load life test
Warranty of 2,000 hours at 105°C.
Others Subject to JIS C 5141.
Product Specifications
HCG7 Series (Warranty of 2000 hours at 85°C)
HCGH Series (Warranty of 2000 hours at 105°C)
>
=
>
=
Maximum ripple current (A) at 40°C,120Hz
Case code
400(2G) Rated voltage (Code)
µFCode
Capacitance
1200
1500
1800
2200
2700
3300
3900
4700
5600
6800
8200
10000
12000
15000
18000
22000
122
152
182
222
272
332
392
472
562
682
822
103
123
153
183
223
C12R
D10R
D12R
D13R
E12R
E13R
E16R
F16R
F20R
G24R
16.5
20.7
24.1
27.8
30.6
35.4
41.6
53.8
65.7
86.8
450(2W) 500(2H)
C13R 19.2 D10R 18.7
E20R 50.5 F13R 45.8
F24R 77.7 G18R 69.8
C12R
D10R
D12R
D13R
E12R
E13R
E16R
F17R
G24R
14.9
18.7
22.2
25.3
28.1
32.1
37.9
50.6
78.5
D12R
D13R
E12R
E13R
E16R
F17R
G24R
16.4
19.0
21.3
24.6
28.7
41.8
64.1
C13R 17.3 D10R 16.9
E20R 45.8 F13R 41.5
F24R 70.9 G20R 66.5
F20R 58.7 G18R 57.0
C13R 14.3 D10R 13.9
C12R 12.2 D10R 12.5
E20R 37.8 F16R 36.7
E17R 32.9 F13R 31.4
F24R 57.9 G20R 54.3
F20R 48.5 G18R 47.1
Standard value and case size
14
ALUMINUM ELECTROLYTIC CAPACITORS
Hitachi AIC Inc.
160(2C) 200(2D) 250(2E) 350(2V) 400(2G) 450(2W)
Rated voltage (Code)
µFCode
Capacitance
270
330
390
470
560
680
820
1000
1200
1500
1800
2200
2700
3300
3900
4700
5600
6800
8200
10000
12000
15000
18000
22000
27000
33000
39000
271
331
391
471
561
681
821
102
122
152
182
222
272
332
392
472
562
682
822
103
123
153
183
223
273
333
393
A12
C8R
C8R
C10R
C10R
C12R
D10R
D10R
D13R
D13R
E13R
E13R
F13R
F16R
14.0
14.4
15.8
19.0
21.0
24.7
28.0
30.6
38.6
42.2
49.4
54.7
64.2
75.3
A10
A12
C8R
C8R
C10R
C12R
C13R
D10R
D10R
E10R
E10R
E13R
E16R
F13R
F16R
10.6
12.7
13.3
14.4
17.4
20.4
23.7
25.4
28.0
32.6
39.0
44.6
53.0
58.2
69.0
A10
A10
C8R
C8R
C10R
C12R
D10R
D10R
D12R
D12R
D13R
E12R
E13R
E16R
F16R
8.7
9.5
10.8
12.0
14.6
17.0
19.2
21.0
24.7
27.1
31.5
34.8
40.8
47.8
56.5
A5
A8
A8
A8
A10
A10
C8R
C8R
C10R
C10R
C13R
C13R
D12R
D13R
E12R
E13R
E16R
F16R
F16R
F20R
F24R
4.5
5.8
6.4
7.0
8.3
9.2
10.3
11.5
13.9
15.4
19.3
21.4
24.2
27.9
30.7
35.4
41.7
49.0
54.1
66.2
77.9
A5
A8
A8
A8
A10
A10
C8R
C8R
C10R
C10R
C13R
D10R
D12R
D13R
E12R
E13R
E16R
F16R
F16R
F20R
F24R
4.1
5.3
5.8
6.4
7.6
8.3
9.4
10.3
12.7
13.9
17.4
18.8
22.2
25.4
28.2
32.2
38.0
44.4
49.4
59.1
71.1
A5
A8
A8
A8
A10
A10
C8R
C8R
C10R
C12R
C13R
D10R
D12R
D13R
E12R
E13R
E16R
F16R
F16R
F20R
F24R
3.7
4.9
5.3
5.8
6.9
7.6
8.6
9.4
11.4
13.7
15.8
17.0
20.2
23.4
25.6
29.4
34.6
40.5
44.6
53.9
63.8
Maximum ripple current (A)
at 40°C,120Hz
Case code
Standard value and case size
Ripple current should be under 50A.
Ripple current should be under 50A.
( ) Put first letter of case code to ( ) in case there are two case sizes in
the same CV value.
Type of series
Case code
Type of bracket
Capacitance code
Rated voltage code
Terminal code A (screw)
Product symbol : (Example) HCGF6 Series A case 400V 10,000µF ±20%
HCGF6 A 2G 103 Y ( )
Temperature (°C) 40 60 70 85
Correction coefficient
1.0 0.75 0.62 0.37
Frequency (Hz) 50/60 120 300 1K 10K
Correction coefficient
0.7 1.0 1.1 1.3 1.4
Ripple current correction coefficient
Temperature (°C) 40 60 70 85
Correction coefficient
1.0 0.75 0.62 0.37
Frequency (Hz) 50/60 120 300 1K 10K
Correction coefficient
0.7 1.0 1.1 1.3 1.4
Ripple current correction coefficient
Items Specifications
Temperature range –25°C to +85°C
Capacitance tolerance
±20% (20°C, 120Hz)
Leakage current 0.01CV (µA) or 5mA,
whichever is smaller.
High temp.Load life test
Warranty of 2,000 hours at 85°C.
Others Subject to JIS C 5141.
HCGF5 and HCGF6 Product Specifications
HCGF5 Series Aluminum Electrolytic Capacitors (Warranty of 2000 hours at 85°C)
HCGF6 Series Aluminum Electrolytic Capacitors
(Warranty of 2000 hours at 85°C)
>
=
>
=
Items Specifications
Temperature range –40°C to +85°C
Capacitance tolerance
±20% (20°C, 120Hz)
Dissipation factor 0.15 (20°C, 120Hz)
Leakage current 0.01CV (µA) or 5mA, whichever is smaller.
Others Subject to JIS C 5141.
ALUMINUM ELECTROLYTIC CAPACITORS
15 Hitachi AIC Inc.
Standard value and case size
Standard value and case size Standard value and case size
( ) Put first letter of case code to ( ) in case there are two case sizes in
the same CV value.
350(2V) 400(2G) 450(2W)
Rated voltage (Code)
µFCode
Capacitance
Maximum ripple current (A)
at 85°C,120Hz
Case code
1000
1200
1500
1800
2200
2700
3300
3900
4700
5600
272
332
392
472
562
6800
8200
10000
12000
15000
682
822
103
123
153
102
122
152
182
222
C8R
C8R
C10R
C10R
C13R
D10R
D12R
D13R
D16R
E12R
D20R
E13R
E16R
F16R
F16R
F20R
F24R
3.8
4.2
5.2
5.6
7.1
7.6
9.0
10.3
12.2
11.5
14.6
13.1
15.5
18.1
19.9
23.8
28.8
C8R
C10R
C12R
C13R
D10R
D12R
D13R
D16R
E12R
D20R
E13R
D20R
E16R
F16R
F16R
F20R
F24R
3.8
4.6
5.5
6.4
6.9
8.2
9.5
11.1
10.4
13.4
12.0
14.6
14.4
16.5
18.1
21.7
25.8
C10R
C12R
C13R
D10R
D12R
D13R
E12R
D16R
E13R
D20R
E16R
E20R
F16R
F20R
F20R
F24R
4.2
5.0
5.8
6.2
7.4
8.6
8.7
10.2
10.0
12.2
12.9
15.4
14.9
18.0
19.8
23.5
-
-
-
-
-
-
-
Case code
350(2V) 400(2G) 450(2W)
Rated voltage (Code)
µFCode
Capacitance
Maximum ripple current (A)
at 85°C,120Hz
1000
1200
1500
1800
2200
2700
3300
3900
4700
5600
272
332
392
472
562
6800
8200
10000
12000
15000
682
822
103
123
153
102
122
152
182
222
C8R
C8R
C10R
C10R
C13R
D10R
D12R
D13R
D16R
E12R
D20R
E13R
E16R
F16R
F16R
F20R
F24R
3.9
4.2
5.2
5.7
7.1
7.7
9.1
10.4
12.2
11.5
14.6
13.1
15.5
18.1
19.9
23.8
28.8
C8R
C10R
C12R
C13R
D10R
D12R
D13R
D16R
E12R
D20R
E13R
D20R
E16R
F16R
F16R
F20R
F24R
3.9
4.6
5.6
6.4
6.9
8.2
9.5
11.1
10.4
13.4
12.0
14.6
14.0
16.5
18.1
21.7
25.8
C10R
C12R
C13R
D10R
D12R
D13R
E12R
D16R
E13R
D20R
E16R
E20R
F16R
F20R
F20R
F24R
4.2
5.0
5.9
6.3
7.4
8.6
8.7
10.2
10.1
12.3
12.9
15.4
14.9
18.0
19.8
23.6
-
-
-
-
-
-
-
Product symbol : (Example) FXA Series 400V 47,000µF ±20%
FXA 2G 472 Y (D)
Case code
Type of bracket
Capacitance code
Rated voltage code
Type of series
Product Specifications
Items Specifications
Temperature range –40°C to +105°C
Capacitance tolerance
±20% (20°C, 120Hz)
Dissipation factor 0.15 (20°C, 120Hz)
Leakage current 0.01CV (µA) or 5mA, whichever is smaller.
Others Subject to JIS C 5141.
Product Specifications
Items Specifications
Temperature range –40°C to +85°C
Capacitance tolerance
±20% (20°C, 120Hz)
Dissipation factor 0.15 (20°C, 120Hz)
Leakage current 0.01CV (µA) or 5mA, whichever is smaller.
Others Subject to JIS C 5141.
Product Specifications
Temperature (°C) 40 60 85
Correction coefficient
2.44 2.16 1.00
Frequency (Hz) 50/60 120 300 1K 10K
Correction coefficient
0.7 1.0 1.1 1.3 1.4
Ripple current should be under 60A.
Ripple current correction coefficient
Temperature (°C) 40 60 85
Correction coefficient
1.89 1.67 1.00
Frequency (Hz) 50/60 120 300 1K 10K
Correction coefficient
0.7 1.0 1.1 1.3 1.4
Ripple current should be under 60A.
Ripple current correction coefficient
FXA Series Aluminum Electrolytic Capacitors (Warranty of 5000 hours at 85°C)
HXA Series Aluminum Electrolytic Capacitors
(Warranty of 20,000 hours at 85°C)
GXA Series Aluminum Electrolytic Capacitors
(Warranty of 5000 hours at 105°C)
Temperature (°C) 40 60 85 105
Correction coefficient
2.44 2.16 2.00 1.00
Frequency (Hz) 50/60 120 300 1K 10K
Correction coefficient
0.7 1.0 1.1 1.3 1.4
Ripple current should be under 60A.
Ripple current correction coefficient
>
=
>
=
>
=
ALUMINUM ELECTROLYTIC CAPACITORS
16 Hitachi AIC Inc.
Snap-in Type Aluminum Electrolytic Capacitors
HU4 series Small size (Warranty of 2000 hours at 105°C)
HP3 series Standard type (Warranty of 2000 hours at 85°C)
HU3 series Standard type (Warranty of 2000 hours at 105°C)
HL1 series Long life (Warranty of 5000 hours at 105°C)
HUL, HVL series Long life (Warranty of 5000 hours at 105°C)
SS3 series Safety-enhancement type (Warranty of 2000 hours at 105°C)
SS2 series Safety-enhancement type (Warranty of 2000 hours at 105°C)
HF2 series Low Profile (Warranty of 2000 hours at 85°C)
HV2 series Low Profile (Warranty of 2000 hours at 105°C)
Features
A large selection of series to meet the needs
An extended range of standard values for each series
Easily snapped in PC board and fixed by soldering
The HL1 type is a small-size version of the predecessors named
HUL and HVL (500 hours at 105°C).
The HU4 type is a 10% smaller version of the preceding type
named HU3 (2000 hours at 105°C).
Product Symbol of Snap-in Type Aluminum Electrolytic Capacitors
L±2
Shape-1 (Terminal symbol R)
Circuit board
hole dimension
(Unit : mm)
P.V.C. Insulation sleeve
Safety vent
2-ø2 hole 10 10±1
øD±1 6.3±1
6.5MAX
3.5
Shape-2 (Terminal symbol T)
P.V.C. Insulation sleeve
Safety vent
2-1.2×6
4.2±0.5
5±0.5
14.2±1
14.2±1
øD±1L±2
Shape-3 (Terminal symbol S)
P.V.C. Insulation sleeve
Safety vent
BLANK terminals must
not be connected
to any other circuits
4-ø2 hole 60°
f22.5
BLANK BLANK
øD±1L±2
6.3±1
60°
Shape-4 (Terminal symbol U)
P.V.C. Insulation sleeve
Safety vent
2-ø2 hole 10 10±1
øD±1L±2
+1
–0.5
Circuit board
hole dimension
(Unit : mm)
Circuit board
hole dimension
(Unit : mm)
Circuit board
hole dimension
(Unit : mm)
Type of series
Rated voltage code
JIS code
Non insulation plate (WP).
This symbol is not required
for standard types.
Capacitance code
Capacitance tolerance
M: ±20%
The first two digits are significant.
The last digit indicates the number
of following zeros.
Terminal symbol code
R: 2-claw terminal
U:
Straight short terminal
S: 4-claw terminal
T: T-terminal
Epoxy coated type
(washable)
HU4 2G 471 M R A WP AS
(Example) HU4 Series 400V.DC 470µF ±20% Terminal symbol R
Case code
Code
X
Y
Z
A
B
øD
22
25
30
35
40
Outline of drawings and dimensions
17
ALUMINUM ELECTROLYTIC CAPACITORS
Hitachi AIC Inc.
HU4 Series Aluminum Electrolytic Capacitor (105°C, Small Size) (Warranty of 2000 hours at 105°C)
Features
Rendered about 10% smaller than the preceding HU3 Series
products thanks to anode foil magnification increase.
200V.DC(2D) 250V.DC(2E) 400V.DC(2G) 450V.DC(2W) 3530252235302522353025223530
30
1.24
35
1.45
40.
1.66
45
1.92
30
1.40
35
1.61
40
1.86
45
2.14
50
2.47
25
1.45
30
1.86
35
2.17
40
2.49
50
3.03
25
1.52
30
1.78
35
2.04
40
2.39
45
2.73
50
3.14
25
0.86
30
1.12
35
1.31
40
1.50
45
1.72
50
1.96
25
0.58
30
0.68
35
0.79
40
0.93
45
1.07
50
1.23
25
0.48
30
0.62
35
0.72
40
0.83
50
1.02
25
0.55
30
0.64
35
0.74
40
0.88
45
1.00
50
1.16
25
0.72
30
0.85
35
1.09
45
1.32
50
1.52
25
0.80
30
1.02
35
1.19
40
1.37
45
1.56
50
1.78
30
0.85
35
0.98
40
1.14
45
1.33
25
0.80
30
1.03
35
1.20
40
1.40
45
1.59
50
1.81
25
0.96
30
1.13
35
1.43
40
1.64
45
1.87
30
1.37
35
1.59
40
1.83
45
2.11
30
1.65
35
1.91
40
2.20
45
2.54
50
2.90
30
1.76
35
2.04
40
2.34
50
2.84
2522
Rated voltage (Code)
µFCode
Upper : Case size L (mm)
Lower : Max Ripple rms at 105°C 120Hz
Capacitance
56
82
100
120
150
180
220
270
330
390
470
560
680
820
1000
1200
1500
1800
2200
560
820
101
121
151
181
221
271
331
391
471
561
681
821
102
122
152
182
222
Case dia dimensions øD (mm)
Standard value and case size
Items Specifications
Temperature range –40°C to +105°C
Rated voltage 200 to 450V.DC
Capacitance tolerance
±20% (20°C, 120Hz)
Leakage current 0.02CV (µA) or 3mA, whichever is smaller.
[C=Capacitance (µA), V=Rated voltage (V)]
Dissipation factor Less than 0.15 (20°C, 120Hz)
Permissible ripple current
As per table of standard ratings below. (105°C,120Hz)
After 105°C,2000h,rated voltage(specified ripple current superposition)application
High temp. Capacitance variation : Initial value ±15%
Load life test Dissipation factor : 175% of less of specified initial valuea
Leakage current : Not greater than the specified initial value
Others Subject to JIS C 5141.
Product Specifications
Temperature (°C) 40 55 70 85 105
Correction coefficient
2.5 2.2 2.0 1.8 1.0
Frequency (Hz) 50/60 120 400 1K 10K
Correction coefficient
0.8 1.0 1.1 1.3 1.4
Ripple current correction coefficient
For out line drawings and dimensions, see page 16.
Shape-1 (Terminal symbol R)
Circuit board
hole dimension
(Unit : mm)
Circuit board
hole dimension
(Unit : mm)
P.V.C. Insulation sleeve
Safety vent
2-ø2 hole 10
10
10±1
10±1
øD±1
øD±1
L±2
L±2
6.3±1
Shape-4 (Terminal symbol U)
P.V.C. Insulation sleeve
Safety vent
2-ø2 hole
3.5+1
–0.5
Outline of drawings and dimensions
Case dia code
Terminal symbol code
Capacitance tolerance code
Capacitance code
Rated voltage code
Type of series
Product symbol : (Example) HU4 Series 200V 1,800µF ±20%
HU4 2D 182 M R A
Case dia code
øD Code
22 X
25 Y
30 Z
35 A
>
=
ALUMINUM ELECTROLYTIC CAPACITORS
18 Hitachi AIC Inc.
HP3 Series Aluminum Electrolytic Capacitors (85°C, Standard Size) (Warranty of 2000 hours at 85°C)
Features
Rendered about 20% to 30% smaller than the preceding HPR and
HFR type predecessor thanks to etching foil magnification increase.
L±2
Shape-1 (Terminal symbol R)
Shape-2 (Terminal symbol T)
Circuit board
hole dimension
(Unit : mm)
P.V.C. Insulation sleeve
Safety vent
2-ø2 hole 10 10±1
øD±16.3±1
6.5MAX
P.V.C. Insulation sleeve
Safety vent
2-1.2×6
4.2±0.5
5±0.5
14.2±1
14.2±1
øD±1L±2
Shape-3 (Terminal symbol S)
P.V.C. Insulation sleeve
Safety vent
BLANK terminals must
not be connected
to any other circuits
4-ø2 hole 60°
ø22.5
BLANK BLANK
øD±1L±2
6.3±1
60°
Standard value and case size for HP3 Series (16 to 100 V.DC)
16(1C) 25(1E) 35(1V) 50(1H) 63(1J) 80(1K)
22 25 30 35 22 25 30 35 22 25 30 35 22 25 30 35 22 25 30 35 22 25 30 35
Rated voltage (Code)
µFCode
Upper : Case size L (mm)
Middle : Dissipation factor
Lower : Max Ripple rms at 85°C 120Hz
Capacitance
1000
1500
2200
3300
4700
6800
10000
15000
22000
33000
102
152
222
332
472
682
103
153
223
333
Case dia dimensions øD (mm)
25
0.50
1.78
30
0.50
1.94
40
0.50
2.65
25
0.50
1.92
(30)
45
0.50
3.52
25
0.50
2.52
(30)
45
0.50
4.28
25
0.50
3.23
36
0.50
4.12
25
0.40
1.48
30
0.40
1.89
35
0.40
2.06
45
0.40
2.78
25
0.35
1.38
30
0.35
1.57
35
0.35
2.01
45
0.35
2.27
25
0.35
1.56
(30)
(35)
50
0.35
3.03
25
0.35
2.01
(30)
(35)
45
0.35
3.73
25
0.35
2.18
30
0.35
2.82
40
0.35
3.76
50
0.40
4.67
25
0.30
1.13
30
0.30
1.47
35
0.30
1.67
50
0.30
2.31
25
0.30
1.46
(30)
(40)
50
0.35
2.48
25
0.30
1.67
(30)
(35)
50
0.35
3.21
25
0.30
2.13
30
0.35
2.30
40
0.35
3.10
25
0.25
1.08
30
0.25
1.20
35
0.25
1.56
45
0.25
1.84
25
0.25
1.19
(30)
(35)
50
0.25
2.42
25
0.25
1.56
(30)
(35)
45
0.35
2.52
25
0.20
0.88
30
0.20
1.15
40
0.20
1.34
50
0.25
1.80
25
0.20
1.13
(30)
(40)
50
0.25
2.01
25
0.20
1.28
(30)
(40)
50
0.25
2.56
25
0.25
1.65
30
0.25
1.87
40
0.25
2.47
25
0.25
1.77
30
0.25
2.25
40
0.35
2.53
50
0.35
3.36
25
0.40
1.87
(30)
(35)
45
0.40
3.52
25
0.40
2.06
(30)
(35)
50
0.40
4.45
25
0.40
2.67
30
0.40
3.41
40
0.40
4.31
Items Specifications
Temperature range –40°C to +85°C
Rated voltage 16 to 450V.DC
Capacitance tolerance
±20% (20°C, 120Hz)
Leakage current 0.02CV (µA) or 3mA, whichever is smaller.
[C=Capacitance (µA), V=Rated voltage (V)]
Dissipation factor Less than the valve as per table of standard ratings below.
(20°C,120Hz)
Permissible ripple current
As per table of standard ratings below. (85°C,120Hz)
Permissible ripple
current multiplier
After 85°C, 2000h,rated voltage(specified ripple current superposition)application
High temp. Capacitance variation : Initial value ±15%
Load life test Dissipation factor : 175% of less of specified initial value
Leakage current : Not greater than the specified initial value
Others Subject to JIS C 5141.
Product Specifications
50/60 120 400 1K 10K
16~100V 0.8 1.0 1.1 1.2 1.2
160~450V 0.8 1.0 1.1 1.3 1.4
Frequency (Hz)
Rated voltage (V)
40 60 70 85
16~450V 1.8 1.4 1.2 1.0
Frequency Multiplier
Temperature Multiplier
Temperature (°C)
Rated voltage (V)
Outline of drawings and dimensions
: Shape 2 or 3
(terminal shape symbol T or S)
mark
NOTE : Products 35 mm dia×50 mm
long may also be manufactured in
shape 1 (terminal shape symbol R.)
As for nonstandard products which
are parenthesized, consult your local
Hitachi AIC agent.
>
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19
ALUMINUM ELECTROLYTIC CAPACITORS
Hitachi AIC Inc.
øD Code
22 X
25 Y
30 Z
35 A
40 B
Case dia code
100(2A) 160V.DC(2C)
22 25 30 22 25 30 35 180V.DC(2P)
22 25 30 35 40 200V.DC(2D)
22 25 30 35 40 250V.DC(2E)
22 25 30 35 4035
Rated voltage (Code)
µ
FCode
Capacitance
220
270
330
390
470
560
680
820
1000
1200
1500
1800
2200
3300
4700
6800
221
271
331
391
471
561
681
821
102
122
152
182
222
332
472
682
30
0.20
0.94
35
0.20
1.22
50
0.20
1.47
25
0.20
0.93
(30)
(40)
50
0.20
2.12
25
0.20
1.22
(30)
(40)
50
0.25
2.12
25
0.20
1.35
30
0.20
1.75
40
0.25
2.05
50
0.25
2.68
25
0.15
1.38
30
0.15
1.60
30
0.15
1.76
35
0.15
2.03
40
0.15
2.36
45
0.15
2.72
25
0.15
1.86
30
0.15
1.76
35
0.15
2.03
40
0.15
2.36
45
0.15
2.72
50
0.15
3.13
25
0.15
1.36
25
0.15
1.50
30
0.15
1.76
30
0.15
1.92
35
0.15
2.23
40
0.15
2.57
45
0.15
2.98
25
0.15
1.36
30
0.15
1.60
35
0.15
1.87
35
0.15
2.04
40
0.15
2.35
50
0.15
2.81
25
0.15
1.58
30
0.15
1.86
(30)
(35)
(40)
45
0.15
3.11
50
0.15
3.55
25
0.15
2.04
(25)
(30)
(35)
(40)
45
0.15
4.00
50
0.15
4.55
25
0.15
2.38
25
0.15
2.59
30
0.15
3.01
30
0.15
3.31
36
0.15
3.88
40
0.15
4.40
50
0.15
5.34
36
0.15
4.46
41
0.15
5.29
51
0.15
6.11
25
0.15
1.89
25
0.15
1.90
(30)
(35)
(35)
40
0.15
3.26
50
0.15
3.92
25
0.15
2.23
25
0.15
2.44
(30)
(30)
(35)
40
0.15
4.19
25
0.15
2.86
25
0.15
3.13
30
0.15
3.66
36
0.15
4.25
40
0.15
4.93
50
0.15
5.84
36
0.15
4.99
41
0.15
5.66
25
0.15
1.58
25
0.15
1.74
(30)
(35)
(40)
45
0.15
3.14
50
0.15
3.59
25
0.15
2.03
25
0.15
2.24
(30)
(35)
(40)
45
0.15
4.08
25
0.15
2.61
25
0.15
2.88
30
0.15
3.34
36
0.15
3.96
40
0.15
4.50
36
0.15
4.56
25
0.15
1.74
30
0.15
2.02
(30)
(35)
(40)
45
0.15
3.44
25
0.15
2.24
30
0.15
2.61
(30)
(35)
40
0.15
3.91
45
0.15
4.47
25
0.15
2.88
30
0.15
3.34
36
0.15
3.96
36
0.15
4.34
Upper : Case size L (mm)
Lower : Max Ripple rms at 85°C 120Hz
Case dia dimensions øD (mm)
: Shape 2 or 3
(terminal shape symbol T or S)
Case dia code
Terminal symbol code
Capacitance tolerance code
Capacitance code
Rated voltage code
Type of series
Product symbol : (Example) HP3 Series 16V 10,000µF ±20%
HP3 1C 103 M R X
mark
NOTE : Products 35 mm dia×50 mm
long may also be manufactured in
shape 1 (terminal shape symbol R.)
As for nonstandard products which
are parenthesized, consult your local
Hitachi AIC agent.
350V.DC(2V)
22 25 30 35 40 400V.DC(2G)
22 25 30 35 40 450V.DC(2W)
22 25 30 35 40
Rated voltage (Code)
µ
FCode
Capacitance
82
100
120
150
180
220
270
330
390
470
560
680
820
101
121
151
181
221
271
331
391
471
561
681
25
0.15
0.76
30
0.15
0.89
30
0.15
0.99
35
0.15
1.15
40
0.15
1.34
50
0.15
1.63
25
0.15
0.83
30
0.15
0.97
30
0.15
1.07
35
0.15
1.26
40
0.15
1.46
50
0.15
1.76
30
0.15
0.89
35
0.15
1.03
40
0.15
1.19
45
0.15
1.39
50
0.15
1.60
25
0.15
0.88
(30)
(30)
(35)
(40)
45
0.15
1.76
25
0.15
1.03
25
0.15
1.13
30
0.15
1.34
(30)
(35)
40
0.15
1.99
45
0.15
2.29
25
0.15
1.46
30
0.15
1.72
36
0.15
2.02
36
0.15
2.23
40
0.15
2.51
45
0.15
2.88
36
0.15
2.54
41
0.15
2.89
51
0.15
3.41
25
0.15
0.96
25
0.15
1.06
(30)
(35)
(40)
45
0.15
1.96
50
0.15
2.26
25
0.15
1.26
25
0.15
1.38
(30)
(35)
(40)
45
0.15
2.50
25
0.15
1.62
30
0.15
1.90
30
0.15
2.10
36
0.15
2.42
40
0.15
2.76
45
0.15
3.13
50
0.15
3.59
36
0.15
2.80
41
0.15
3.16
25
0.15
0.88
25
0.15
0.98
(30)
(35)
(40)
45
0.15
1.80
50
0.15
2.04
25
0.15
1.15
(25)
(30)
(35)
(40)
40
0.15
2.19
50
0.15
2.59
25
0.15
1.50
30
0.15
1.75
30
0.15
1.90
36
0.15
2.22
(40)
45
0.15
2.88
36
0.15
2.54
41
0.15
2.90
Standard value and case size for HP3 Series (100 to 250V.DC)
Standard value and case size for HP3 Series (350 to 450 V.DC)
ALUMINUM ELECTROLYTIC CAPACITORS
20 Hitachi AIC Inc.
HU3 Series Aluminum Electrolytic Capacitors (105°C, Standard Size) (Warranty of 2000 hours at 105°C)
Features
The size is reduced by 20 to 30% of conventional HUR and HVR
through development of etched foil technology.
L±2
Shape-1 (Terminal symbol R)
Shape-2 (Terminal symbol T)
Circuit board
hole dimension
(Unit : mm)
P.V.C. Insulation sleeve
Safety vent
2-ø2 hole 10 10±1
øD±16.3±1
6.5MAX
P.V.C. Insulation sleeve
Safety vent
2-1.2×6
4.2±0.5
5±0.5
14.2±1
14.2±1
øD±1L±2
Shape-3 (Terminal symbol S)
P.V.C. Insulation sleeve
Safety vent
BLANK terminals must
not be connected
to any other circuits
4-ø2 hole 60°
ø22.5
BLANK BLANK
øD±1L±2
6.3±1
60°
16V.DC(1C)
22 25 30 35 25V.DC(1E)
22 25 30 35 35V.DC(1V)
22 25 30 35 50V.DC(1H)
22 25 30 35 63V.DC(1J)
22 25 30 35 80V.DC(1K)
22 25 30 35 100V.DC(2A)
22 25 30 35
Rated voltage (Code)
µFCode
Upper : Case size L (mm)
Middle : Dissipation factor
Lower : Max Ripple rms at 105°C 120Hz
Capacitance
1000
1500
2200
3300
4700
6800
10000
15000
22000
33000
102
152
222
332
472
682
103
153
223
333
25
0.50
0.93
35
0.50
1.27
45
0.50
1.43
25
0.40
0.87
30
0.40
1.00
35
0.40
1.27
45
0.40
1.43
25
0.35
0.71
30
0.35
0.93
35
0.35
1.05
50
0.35
1.46
25
0.30
0.68
30
0.30
0.76
35
0.30
0.99
45
0.30
1.16
25
0.25
0.56
30
0.25
0.73
35
0.25
0.81
45
0.25
1.09
30
0.20
0.59
35
0.20
0.77
50
0.20
0.93
25
0.20
0.59
(30)
(40)
50
0.20
1.19
25
0.15
0.77
(30)
(40)
50
0.25
1.34
25
0.20
0.85
30
0.20
1.11
40
0.25
1.30
50
0.25
1.69
30
0.20
0.59
40
0.20
0.81
25
0.20
0.59
(35)
45
0.20
0.93
25
0.20
0.77
35
0.20
0.90
45
0.20
1.21
36
0.20
1.16
45
0.25
1.35
25
0.25
0.72
30
0.25
0.80
40
0.25
1.09
50
0.25
1.27
25
0.25
0.81
30
0.25
1.05
35
0.25
1.18
45
0.25
1.55
25
0.25
1.05
30
0.25
1.18
40
0.25
1.56
50
0.35
1.74
25
0.30
0.75
30
0.30
0.98
35
0.30
1.11
50
0.30
1.53
25
0.30
0.99
30
0.30
1.12
35
0.30
1.42
45
0.35
1.59
25
0.30
1.12
30
0.30
1.42
40
0.35
1.60
50
0.35
2.13
25
0.35
0.92
(30)
(40)
50
0.35
1.57
25
0.35
1.05
(30)
(35)
50
0.35
2.03
25
0.35
1.34
30
0.35
1.46
40
0.35
1.96
25
0.40
0.98
(30)
(35)
45
0.40
1.84
25
0.40
1.27
(30)
(35)
45
0.40
2.36
25
0.40
1.38
30
0.40
1.78
40
0.40
2.38
50
0.40
2.95
30
0.50
0.26
(35)
45
0.50
1.84
25
0.50
1.30
(35)
45
0.50
2.36
30
0.50
1.78
36
0.50
2.27
50
0.50
2.95
Case dia dimensions øD (mm)
Standard value and case size for HU3 Series (16 to 100 V.DC)
Items Specifications
Temperature range –40°C to +105°C
Rated voltage 16 to 450V.DC
Capacitance tolerance
±20% (20°C, 120Hz)
Leakage current 0.02CV (µA) or 3mA, whichever is smaller.
[C=Capacitance (µA), V=Rated voltage (V)]
Dissipation factor Less than the valve as per table of standard ratings below.
(20°C,120Hz)
Permissible ripple current
As per table of standard ratings below. (105°C,120Hz)
Permissible ripple
current multiplier
After 105°C,2000h,rated voltage(specified ripple current superposition)application
High temp. Capacitance variation : Initial value ±15%
Load life test Dissipation factor : 175% of less of specified initial value
Leakage current : Not greater than the specified initial value
Others Subject to JIS C 5141.
Product Specifications (HU3 Series)
50/60 120 400 1K 10K
16~100V 0.8 1.0 1.1 1.2 1.2
160~450V 0.8 1.0 1.1 1.3 1.4
Frequency (Hz)
Rated voltage (V)
40 60 70 85 105
16~450V 2.5 2.2 2.0 1.8 1.0
Frequency Multiplier
Temperature Multiplier
Temperature (°C)
Rated voltage (V)
Outline of drawings and dimensions
>
=
25
0.47
30
0.56
30
0.61
35
0.72
40
0.83
50
1.01
25
0.52
30
0.60
30
0.67
35
0.78
40
0.91
45
1.04
25
0.42
30
0.55
35
0.64
40
0.74
45
0.85
25
0.54
30
0.64
35
0.74
35
0.80
45
1.00
50
1.14
25
0.71
30
0.82
35
0.96
35
1.06
40
1.22
50
1.48
25
0.82
30
0.96
30
1.06
36
1.24
40
1.43
45
1.64
50
1.86
25
0.60
25
0.66
30
0.77
35
0.91
40
1.04
45
1.21
50
1.40
25
0.78
30
0.92
30
1.01
35
1.18
40
1.37
45
1.57
25
1.01
30
1.18
30
1.31
36
1.52
40
1.73
45
1.97
50
2.23
36
1.74
41
1.95
25
0.55
25
0.60
(30)
(35)
(40)
45
1.12
50
1.29
25
0.72
30
0.84
(30)
(35)
(40)
45
1.43
25
0.93
30
1.09
30
1.20
36
1.38
40
1.58
45
1.79
36
1.60
41
1.80
350V.DC(2V)
22 25 30 35 40 400V.DC(2G)
22 25 30 35 40 450V.DC(2W)
22 25 30 35
Rated voltage (Code)
µFCode
Upper : Case size L (mm)
Lower : Max Ripple rms at 105°C 120Hz
Capacitance
47
68
82
100
120
150
180
220
270
330
390
470
560
470
680
820
101
121
151
181
221
271
331
391
471
561
Case dia dimensions øD (mm)
Case dia code
Terminal symbol code
Capacitance tolerance code
Capacitance code
Rated voltage code
Type of series
Product symbol : (Example) HU3 Series 16V 10,000µF ±20%
HU3 1C 103 M R X
: Shape 2 or 3 (terminal shape symbol T or S)
mark
NOTE : Products 35 mm dia×50 mm long may also be
manufactured in shape 1 (terminal shape symbol R).
As for nonstandard products which are parenthesized,
consult your local Hitachi AIC agent.
21
ALUMINUM ELECTROLYTIC CAPACITORS
Hitachi AIC Inc.
øD Code
22 X
25 Y
30 Z
35 A
40 B
Case dia code
25
0.98
30
1.10
30
1.21
35
1.40
40
1.62
45
1.86
25
0.86
30
1.01
30
1.10
35
1.28
40
1.47
45
1.70
50
1.94
25
0.92
25
1.03
30
1.21
35
1.39
40
1.62
45
1.85
45
2.04
30
1.00
35
1.16
35
1.28
40
1.48
50
1.76
25
0.98
25
1.08
30
1.27
35
1.46
40
1.69
45
1.93
50
2.22
25
1.28
25
1.39
30
1.63
35
1.87
35
2.06
45
2.48
25
1.62
25
1.78
30
2.06
36
2.41
40
2.76
45
3.14
50
3.66
36
2.80
41
3.17
51
4.20
25
1.20
25
1.31
30
1.52
35
1.75
40
2.04
45
2.34
50
2.70
25
1.54
30
1.78
30
1.96
35
2.27
40
2.63
45
3.00
25
1.96
30
2.27
30
2.51
36
2.92
45
3.38
50
4.01
36
3.43
41
3.89
25
1.00
25
1.09
(30)
(30)
(35)
(40)
45
2.15
25
1.28
25
1.48
30
1.63
(30)
(35)
40
2.39
50
2.91
25
1.63
25
1.79
30
2.09
30
2.29
36
2.72
40
3.09 36
3.13
25
1.09
25
1.19
(30)
(35)
(40)
45
2.15
50
2.46
25
1.40
25
1.54
(30)
(35)
(35)
45
2.80
25
1.79
25
1.98
30
2.29
36
2.72
40
3.09 36
3.13
160V.DC(2C)
22 25 30 35 40 180V.DC(2P)
22 25 30 35 40 200V.DC(2D)
22 25 30 35 40 250V.DC(2E)
22 25 30 35 40
Rated voltage (Code)
µFCode
Upper : Case size L (mm)
Lower : Max Ripple rms at 105°C 120Hz
Capacitance
150
180
220
270
330
390
470
560
680
820
1000
1200
1500
1800
151
181
221
271
331
391
471
561
681
821
102
122
152
182
Case dia dimensions øD (mm)
Standard value and case size for HU3 Series (160 to 250 V.DC)
Standard value and case size for HU3 Series (350 to 450 V.DC)
ALUMINUM ELECTROLYTIC CAPACITORS
22 Hitachi AIC Inc.
øD Code
22 X
25 Y
30 Z
35 A
40 B
Case dia code
HL1 Series Aluminum Electrolytic Capacitors (Long-life, high-reliability, and small-size)
(Warranty of 5000 hours at 105°C)
Features
Smaller-sized versions of HUL and HVL type 200 to 400 V.DC series
products, with the addition of a 450 V.DC series.
200V.DC(2D) 250V.DC(2E) 400V.DC(2G) 450V.DC(2W) 35302522353025223530252235302522
Rated voltage (Code)
µFCode
Upper : Case size L (mm)
Lower : Max Ripple rms at 105°C 120Hz
Capacitance
47
56
68
82
100
120
150
180
220
270
330
390
470
560
680
820
1000
1200
1500
1800
470
560
680
820
101
121
151
181
221
271
331
391
471
561
681
821
102
122
152
182
Case dia dimensions øD (mm)
25
0.76
30
0.90
35
1.05
35
1.15
45
1.40
50
1.59
25
0.62
30
0.73
30
0.81
35
0.95
40
1.11
45
1.27
25
0.41
30
0.48
35
0.57
40
0.67
45
0.78
50
0.90
25
0.34
30
0.41
35
0.46
35
0.51
40
0.60
50
0.73
30
0.50
35
0.59
40
0.67
45
0.80
25
0.56
30
0.66
35
0.78
40
0.90
45
1.03
50
1.20
25
0.66
30
0.78
30
0.86
36
1.00
40
1.16
45
1.33
30
0.55
35
0.64
40
0.76
45
0.87
50
1.00
25
0.62
30
0.74
35
0.85
35
0.94
45
1.15
50
1.32
25
0.81
30
0.94
36
1.11
40
1.28
45
1.45
50
1.66
25
0.70
30
0.92
35
1.07
40
1.23
45
1.42
25
1.03
30
1.20
35
1.39
35
1.51
45
1.83
50
2.09
25
1.32
30
1.52
30
1.67
36
1.94
40
2.23
50
2.65
25
0.86
30
1.01
35
1.29
40
1.48
50
1.77
25
1.13
30
1.32
30
1.44
35
1.67
40
1.92
45
2.22
50
2.53
25
1.58
30
1.83
36
2.15
40
2.44
45
2.85
50
3.25
: Shape 2 or 3 (terminal shape symbol T or S)
mark
NOTE : Products 35 mm dia×50 mm long may also be
manufactured in shape 1 (terminal shape symbol R).
As for nonstandard products which are parenthesized,
consult your local Hitachi AIC agent.
For outline drawings and dimensions, product symbol, see p. 16.
Standard value and case size
Items Specifications
Temperature range –40°C to +105°C
Rated voltage 200 to 450V.DC
Capacitance tolerance
±20% (20°C, 120Hz)
Leakage current 0.02CV (µA) or 3mA, whichever is smaller.
[C=Capacitance (µA), V=Rated voltage (V)]
Dissipation factor Less than 0.15 (20°C,120Hz)
Permissible ripple current
As per table of standard ratings below. (105°C,120Hz)
After 105°C,5000h,rated voltage(specified ripple current superposition)application
High temp. Capacitance variation : Initial value ±15%
Load life test Dissipation factor : 175% of less of specified initial value
Leakage current : Not greater than the specified initial value
Others Subject to JIS C 5141.
Product Specifications
Temperature (°C) 40 55 70 85 105
Correction coefficient
2.5 2.2 2.0 1.8 1.0
Frequency (Hz) 50/60 120 400 1K 10K
Correction coefficient
0.8 1.0 1.1 1.3 1.4
Ripple current correction coefficient
Case dia code
Terminal symbol code
Capacitance tolerance code
Capacitance code
Rated voltage code
Type of series
Product symbol : (Example) HL1 Series 16V 10,000µF ±20%
HL1 2D 182 M R A
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Capacitance Rated voltage (Code)
200V.DC (2D) 400V.DC (2G)
µF Code 22 25 30 35 22 25 30 35
68 680 30
0.58
82 820 30 25
0.67 0.61
100 101 40 30
0.79 0.72
120 121 45 35 25
0.91 0.84 0.81
150 151 25 40 30
0.62 0.99 0.96
180 181 30 45 30 25
0.73 1.14 1.05 1.05
220 221 30 25 35 30
0.79 0.77 1.23 1.24
270 271 35 30 40 36
0.95 0.90 1.43 1.45
330 331 40 30 50 40
1.10 1.00 1.73 1.67
390 391 50 35 25 45
1.31 1.16 1.11 1.90
470 471 40 30 50
1.33 1.30 2.16
560 561 45 30 25
1.52 1.42 1.41
680 681 35 30
1.65 1.65
820 821 40 30
1.89 1.82
1000 102 50 36
2.29 2.13
1200 122 40
2.42
1500 152 50
2.95
23
ALUMINUM ELECTROLYTIC CAPACITORS
Hitachi AIC Inc.
øD Code
22 X
25 Y
30 Z
35 A
Case dia code
Capacitance Rated voltage (Code) : 400V.DC (2G)
Case size dimensions øD (mm)
µF Code 22 25 30 35
68 680 25
0.54 Upper : Case size L (mm)
82 820 30 25 Lower : Max Ripple rms at
0.64 0.61 105°C 120Hz
100 101 35 30
0.74 0.71
120 121 40 30
0.86 0.79
150 151 45 35 25
1.01 0.93 0.91
180 181 40 30 25
1.06 1.05 1.05
220 221 45 35 30
1.24 1.11 1.23
270 271 40 30
1.43 1.36
330 331 45 35
1.64 1.58
390 391 40
1.80
470 471 45
2.06
Standard value and case size for SS3 Series
Standard value and case size for SS2 Series
Case size L (mm)
Max Ripple rms
at 105°C 120Hz
Case dia øD (mm)
Case dia code
Terminal symbol code
Capacitance tolerance code
Capacitance code
Rated voltage code
Type of series
Product symbol : (Example) SS3 Series 400V 220µF ±20%
SS3 2G 221 M R X
Shape-1 (Terminal symbol R)
Circuit board
hole dimension
(Unit : mm)
Circuit board
hole dimension
(Unit : mm)
P.V.C. Insulation sleeve
Safety vent
2-ø2 hole 10
10
10±1
10±1
øD±1
øD±1
L±2
L±2
6.3±1
Shape-4 (Terminal symbol U)
P.V.C. Insulation sleeve
Safety vent
2-ø2 hole
3.5+1
–0.5
Features
SS2 series has good safe characteristics which shall be failed with
open mode without catching any spike or fire when it is applied
excess voltage. (Maximum 1.5 times of rated voltage with 7 A max.)
SS3 series is smaller sized versions of SS2 400V type.
SS2 Series Aluminum Electrolytic Capacitors
(Overvoltage-resistant and standard size) (Warranty of 2000 hours at 105°C)
SS3 Series Aluminum Electrolytic Capacitors
(Overvoltage-resistant and small size) (Warranty of 2000 hours at 105°C)
Items Specifications
Temperature range –40°C to +105°C
Rated voltage 200 to 450V.DC
Capacitance tolerance
±20% (20°C, 120Hz)
Leakage current 0.02CV (µA) or 3mA, whichever is smaller.
[C=Capacitance (µA), V=Rated voltage (V)]
Dissipation factor Less than 0.15 (20°C,120Hz)
Permissible ripple current
As per table of standard ratings below. (105°C,120Hz)
After 85°C,2000h,rated voltage(specified ripple current superposition)application
High temp. Capacitance variation : Initial value ±15%
Load life test Dissipation factor : 175% of less of specified initial value
Leakage current : Not greater than the specified initial value
Withstanding Do not catch any spike of fire when capacitor is applied.
excess voltage 1.5 times of rated voltage with current 7A (MAX).
Others Subject to JIS C 5141.
Product Specifications
Temperature (°C) 40 55 70 85 105
Correction coefficient
2.5 2.2 2.0 1.8 1.0
Frequency (Hz) 50/60 120 400 1K 10K
Correction coefficient
0.8 1.0 1.1 1.3 1.4
Ripple current correction coefficient
For outline drawings, dimensions, and product symbol, see p. 16.
Outline of drawings and dimensions
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Items Specifications
Temperature range –40°C to +105°C
Rated voltage 160 to 450V.DC
Capacitance tolerance
±20% (20°C, 120Hz)
Leakage current 0.02CV (µA) or 3mA, whichever is smaller.
[C=Capacitance (µA), V=Rated voltage (V)]
Dissipation factor Less than 160 to 450V : 0.15 (20°C,120Hz)
Permissible ripple current
As per table of standard ratings below. (105°C,120Hz)
Permissible ripple
current multiplier
After 105°C,2000h,rated voltage(specified ripple current superposition)application
High temp. Capacitance variation : Initial value ±15%
Load life test Dissipation factor : 175% of less of specified initial value
Leakage current : Not greater than the specified initial value
Others Subject to JIS C 5141.
Items Specifications
Temperature range –40°C to +85°C
Rated voltage 160 to 450V.DC
Capacitance tolerance
±20% (20°C, 120Hz)
Leakage current 0.02CV (µA) or 3mA, whichever is smaller.
[C=Capacitance (µA), V=Rated voltage (V)]
Dissipation factor Less than 160 to 450V : 0.15 (20°C,120Hz)
Permissible ripple current
As per table of standard ratings below. (85°C,120Hz)
Permissible ripple
current multiplier
After 85°C,2000h,rated voltage(specified ripple current superposition)application
High temp. Capacitance variation : Initial value ±15%
Load life test Dissipation factor : 175% of less of specified initial value
Leakage current : Not greater than the specified initial value
Others Subject to JIS C 5141.
ALUMINUM ELECTROLYTIC CAPACITORS
24 Hitachi AIC Inc.
Capacitance Rated voltage V.DC (Code)
µF Code 160 (2C) 180 (2P) 200 (2D) 250 (2E) 350 (2V) 400 (2G) 450 (2W)
33 330 22 × 20
Upper : Case size L (mm) 0.35
47 470 Lower : Max Ripple rms at 85°C 120Hz 22 × 20 22 × 20 25 × 20
0.42 0.42 0.46
68 680 25 × 20 25 × 20 30 × 20
0.54 0.54 0.59
100 101 22 × 20 22 × 20 22 × 20 30 × 20 30 × 20 35 × 20
0.61 0.61 0.61 0.72 0.72 0.77
150 151 22 × 20 22 × 20 35 × 20 25 × 20 35 × 20 35 × 20
0.74 0.74 0.74 0.81 0.94 0.94
220 221 22 × 20 22 × 20 35 × 20 30 × 20
0.98 0.98 0.98 1.07
330 331 30 × 20 30 × 20 35 × 20 35 × 20
1.31 1.31 1.23 1.23
470 471 35 × 20 35 × 20
1.47 1.47
Standard value and case size
HF2 Series Aluminum Electrolytic Capacitors (Low Profile 20 mm Type) (Warranty of 2000 hours at 85°C)
HV2 Series Aluminum Electrolytic Capacitors
(Low Profile 20 mm Type) (Warranty of 2000 hours at 105°C)
Specification
The HF2 type is the same as the HP3 type.
The HV2 type is the same as the HU3 type.
Circuit board
hole dimension
(Unit : mm)
P.V.C. Insulation sleeve
Safety vent
2-ø2 hole 10 10±1
øD±1L±2
6.3±1
Standard value and case size Product Specifications
50/60 120 400 1K 10K
160~450V 0.8 1.0 1.1 1.3 1.4
Frequency (Hz)
Rated voltage (V)
40 60 70 85 105
16~450V 2.5 2.2 2.0 1.8 1.0
Frequency Multiplier
Temperature Multiplier
Temperature (°C)
Rated voltage (V)
Product Specifications
50/60 120 400 1K 10K
160~450V 0.8 1.0 1.1 1.3 1.4
Frequency (Hz)
Rated voltage (V)
40 60 70 85
16~450V 1.8 1.4 1.2 1.0
Frequency Multiplier
Temperature Multiplier
Temperature (°C)
Rated voltage (V)
Outline of drawings and dimensions >
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