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Datasheet

ManualsBrandsNippon Chemi-Con ManualsAluminium Electrolytic CapacitorsRadial Electrolytic Capacitor, 330uF, 25VDC, 20%
1234
MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS
Downsized, 85
C
CAT. No. E1001F
?
STANDARD RATINGS
?
RATED RIPPLE CURRENT MULTIPLIERS
@Frequency Mul ti pli ers
50
0.65
0.75
0.80
0.85
120
1.00
1.00
1.00
1.00
300
1.35
1.25
1.15
1.03
1k
1.75
1.50
1.30
1.05
10k
2.30
1.75
1.40
1.08
100k
2.50
1.80
1.50
1.08
Capacitance (mF)
Frequency (Hz)
0.1 to 4.7
10 to 47
100 to 1,000
2,200 to
50
0.95
0.92
0.81
0.77
120
1.00
1.00
1.00
1.00
300
1.03
1.07
1.17
1.16
1k
1.05
1.13
1.32
1.30
10k
1.08
1.19
1.45
1.41
100k
1.08
1.20
1.50
1.43
Rated Voltage (Vde)
Frequency (Hz)
6.3 to 50
63 to 100
160 to 250
315 to 450
(
F
5 to
F
18) (
F
20 to
F
25.4)
WV
(V
dc)
Cap
(mF)
Case size
fDbL(mm)
tane
Rated ripple
current
(mArms/
85c,120Hz)
Part No.
400
47 16B31.5 0.24 350 ESMG401ESS470MLN3S
56 20B25 0.15 350 ESMG401ESS560MN25S
68 20B30 0.15 420 ESMG401ESS680MN30S
100 20B35 0.15 520 ESMG401ESS101MN35S
100 22B30 0.15 520 ESMG401ESS101MP30S
120 20B40 0.15 580 ESMG401ESS121MN40S
120 22B35 0.15 580 ESMG401ESS121MP35S
180 25.4B40 0.15 790 ESMG401ESS181MQ40S
450
0.47 10B12.5 0.24 13 ESMG451ESSR47MJC5S
1.0 10B12.5 0.24 19 ESMG451ESS1R0MJC5S
2.2 10B12.5 0.24 32 ESMG451ESS2R2MJC5S
3.3 10B16 0.24 44 ESMG451ESS3R3MJ16S
4.7 10B20 0.24 56 ESMG451ESS4R7MJ20S
10 12.5B20 0.24 91 ESMG451ESS100MK20S
WV
(V
dc)
Cap
(mF)
Case size
fDbL(mm)
tane
Rated ripple
current
(mArms/
85c,120Hz)
Part No.
450
22 16B25 0.24 165 ESMG451ESS220ML25S
22 20B20 0.20 180 ESMG451ESS220MN20S
33 16B31.5 0.24 215 ESMG451ESS330MLN3S
33 20B25 0.20 240 ESMG451ESS330MN25S
47 16B35.5 0.24 265 ESMG451ESS470MLP1S
47 20B25 0.20 290 ESMG451ESS470MN25S
56 20B30 0.20 320 ESMG451ESS560MN30S
68 20B35 0.20 370 ESMG451ESS680MN35S
68 22B30 0.20 370 ESMG451ESS680MP30S
82 20B40 0.20 420 ESMG451ESS820MN40S
82 22B35 0.20 420 ESMG451ESS820MP35S
100 22B40 0.20 470 ESMG451ESS101MP40S
120 25.4B40 0.20 520 ESMG451ESS121MQ40S
SS
: Lead forming / Taping code
is non solvent-proof.
The endurance of capacitors is shorted with internal heating produced by ripple current at the rate of halving the lifetime with every 5
C
rise.
When long life performance is required in actual use, the rms ripple current has to be reduced.
(4/4)