MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS
Overvoltage resistant design, 105C
CAT. No. E1001K
L' 15min. 4min.
FD'
Fd
Vent
FP0.5
Sleeve (PET : Brown)
@Doesn't spark with DC over voltage
@Endurance with ripple current : 2,000 hours at 105C
@Non solvent resistant type
@RoHS Compliant
?SPECIFICATIONS
(at 20C, 120Hz)
(at 20C after 1 minute)
(at 20C, 120Hz)
(at 120Hz)
Category
Temperature Range
Rated Voltage Range
Capacitance Tolerance
Leakage Current
Dissipation Factor
(tane)
Low Temperature
Characteristics
(Max. Impedance Ratio)
Endurance
Shelf Life
Items
-
25 to +105C
200 & 400Vdc
P20% (M)
I=0.04CV+100
Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (V)
Rated voltage (Vdc)
tanE (Max.)
Rated voltage (Vdc)
Z(
-
25C)/Z(+20C)
The following specifications shall be satisfied when the capacitors are restored to 20C after subjected to DC voltage with the rated
ripple current is applied for 2,000 hours at 105C.
Capacitance change [P20% of the initial value
D.F. (tanE)[200% of the initial specified value
Leakage current [The initial specified value
The following specifications shall be satisfied when the capacitors are restored to 20C after exposing them for 1,000 hours at 105C without
voltage applied. Before the measurement, the capacitor shall be preconditioned by applying voltage according to Item 4.1 of JIS C 5101-4.
Capacitance change [P20% of the initial value
D.F. (tanE)[200% of the initial specified value
Leakage current [500% of the initial specified value
Characteristics
200V
0.20 400V
0.24
200V
4400V
6
?DIMENSIONS [mm]
?PART NUMBERING SYSTEM
Gas escape end seal
@Terminal Code : E
Please refer to "Product code guide (radial lead type)"
Supplement code
Size code
Capacitance tolerance code
Capacitance code (ex. 47MF:470,100MF:101)
Lead formingยทtaping code
Terminal code
Voltage code (ex. 200V:201,400V:401)
Series code
Category
E K L G A A A EA A A A A A A A SM
13426789105121311 16 17 181514
Downsized
KLG
KLJ
fD
fd
F
fD'
L'
16 18
0.8
7.5
FD+0.5max.
L+1.5max.
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MINIATURE ALUMINUM ELECTROLYTIC CAPACITORS
Overvoltage resistant design, 105C
CAT. No. E1001K
?DC OVERVOLTAGE TEST CONDITIONS
The vent will operate and the capacitor shall become an open circuit with out
burning materials when the following excess DC volt age is applied.
@Test DC voltage
Rated voltage
200Vdc
400Vdc
Current limit
4A
2A
Test DC voltage
300/375Vdc
500/600Vdc
@Test circuit
AC input SW CX
+
-
Constant DC voltage/cur rent power supply
?RATED RIPPLE CURRENT MULTIPLIERS
50
0.75
0.80
120
1.00
1.00
300
1.25
1.15
1k
1.50
1.30
10k
1.75
1.40
50k
1.80
1.50
100k
1.85
1.60
Frequency (Hz)
22 to 47mF
56 to 330mF
@Frequency Multipliers
?STANDARD RATINGS
WV
(Vdc)Cap
(mF) Case size
fDbL(mm) tane
Rated ripple
current
(mArms/
105c,120Hz)
Part No.
200
82 16B20 0.20 230 EKLG201ESS820ML20S
100 16B25 0.20 425 EKLG201ESS101ML25S
100 18B20 0.20 250 EKLG201ESS101MM20S
120 16B31.5 0.20 500 EKLG201ESS121MLN3S
120 18B25 0.20 475 EKLG201ESS121MM25S
130 18B20 0.20 285 EKLG201ESS131MM20S
150 16B31.5 0.20 560 EKLG201ESS151MLN3S
150 18B20 0.20 315 EKLG201ESS151MM20S
150 18B25 0.20 530 EKLG201ESS151MM25S
180 16B40 0.20 645 EKLG201ESS181ML40S
180 18B31.5 0.20 630 EKLG201ESS181MMN3S
220 18B35.5 0.20 725 EKLG201ESS221MMP1S
220 18B40 0.20 735 EKLG201ESS221MM40S
270 18B45 0.20 830 EKLG201ESS271MM45S
330 18B45 0.20 920 EKLG201ESS331MM45S
WV
(Vdc)Cap
(mF) Case size
fDbL(mm) tane
Rated ripple
current
(mArms/
105c,120Hz)
Part No.
400
22 16B20 0.24 145 EKLG401ESS220ML20S
22 16B25 0.24 200 EKLG401ESS220ML25S
33 16B25 0.24 220 EKLG401ESS330ML25S
33 18B20 0.24 225 EKLG401ESS330MM20S
39 16B31.5 0.24 245 EKLG401ESS390MLN3S
39 18B25 0.24 250 EKLG401ESS390MM25S
47 16B31.5 0.24 275 EKLG401ESS470MLN3S
47 18B25 0.24 280 EKLG401ESS470MM25S
56 16B40 0.24 350 EKLG401ESS560ML40S
56 18B31.5 0.24 315 EKLG401ESS560MMN3S
68 18B35.5 0.24 350 EKLG401ESS680MMP1S
82 18B40 0.24 395 EKLG401ESS820MM40S
100 18B40 0.24 450 EKLG401ESS101MM40S
SS : Enter the appropriate lead forming or taping code.
The endurance of capacitors is reduced with internal heating produced by ripple current at the rate of halving the lifetime with every 5C rise.
When long life performance is required in actual use, the rms ripple current has to be reduced.
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