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LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Overvoltage resistant design, 105C

Upgrade!

LXH

@Doesn't spark with DC over voltage Downsized
Longer life
@Downsized from current KLG series
@Endurance with ripple current : 2,000hours at 105C KLG CHA
Downsized
@Non solvent resistant type
@RoHS Compliant

?SPECIFICATIONS
Items Characteristics
Category
Temperature Range -25 to +105C

Rated Voltage Range 200 to 450Vdc
Capacitance Tolerance P20% (M) (at 20C, 120Hz)
Leakage Current I[3 CV
Where, I : Max. leakage current (MA), C : Nominal capacitance (MF), V : Rated voltage (Vdc) (at 20C after 5 minutes)
Dissipation Factor 200Vdc : 0.15 max. (0.20 max. for FD=35mm)
(tane) 400Vdc : 0.15 max. (at 20C, 120Hz)
Low Temperature Rated Voltage (Vdc) 200 to 450V
Characteristics Z(-25C) / Z(+20C) 4
(Max.Impedance Ratio)
(at 120Hz)
ESL 50nH max. (at 20C, 1MHz)
Endurance 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
Shelf Life 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 [P15% of the initial value
D.F. (tanE) [150% of the initial specified value
Leakage current [The initial specified value

?DIMENSIONS [mm]
@Terminal Code : VS (F22 to F35)
Sleeve (Pb-free PVC : Brown) Negative mark
PC board pin-out
FD+1max.

10

4.0P0.5 2-F2
LP2
Vent

The standard design has no plastic disc.

?PART NUMBERING SYSTEM
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18

E CHA AAA VS N AAA M AAA M
Supplement code
Size code
Capacitance tolerance code
Capacitance code (ex. 56MF:560,100MF:101)
Dummy terminal code
Terminal code
Voltage code (ex. 200V:201,400V:401)
Series code
Category
Please refer to "Product code guide (snap-in type)"

?RATED RIPPLE CURRENT MULTIPLIERS
@Frequency Multipliers
Frequency (Hz) 50 120 300 1k 10k 50k
200 to 450Vdc 0.77 1.00 1.16 1.30 1.41 1.43

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.

(1/2) CAT. No. E1001K
LARGE CAPACITANCE ALUMINUM ELECTROLYTIC CAPACITORS Overvoltage resistant design, 105C

Upgrade!

?STANDARD RATINGS
Rated ripple Rated ripple
WV Cap Case size current WV Cap Case size current
tane Part No. tane Part No.
(Vdc) (mF) fDbL(mm) (Arms/ (Vdc) (mF) fDbL(mm) (Arms/
105c,120Hz) 105c,120Hz)
180 22B20 0.15 0.82 ECHA201VSN181MP20M 680 30B40 0.15 2.12 ECHA251VSN681MR40M
220 22B20 0.15 0.90 ECHA201VSN221MP20M 680 35B30 0.20 2.19 ECHA251VSN681MA30M
250
270 22B25 0.15 1.02 ECHA201VSN271MP25M 820 30B45 0.15 2.39 ECHA251VSN821MR45M
330 22B30 0.15 1.20 ECHA201VSN331MP30M 820 35B35 0.20 2.42 ECHA251VSN821MA35M
330 25.4B25 0.15 1.20 ECHA201VSN331MQ25M 56 22B20 0.15 0.45 ECHA401VSN560MP20M
390 22B30 0.15 1.35 ECHA201VSN391MP30M 68 22B20 0.15 0.51 ECHA401VSN680MP20M
390 25.4B25 0.15 1.35 ECHA201VSN391MQ25M 82 22B25 0.15 0.58 ECHA401VSN820MP25M
470 22B35 0.15 1.45 ECHA201VSN471MP35M 100 22B25 0.15 0.66 ECHA401VSN101MP25M
470 25.4B30 0.15 1.45 ECHA201VSN471MQ30M 100 25.4B25 0.15 0.66 ECHA401VSN101MQ25M
470 30B25 0.15 1.47 ECHA201VSN471MR25M 120 22B30 0.15 0.76 ECHA401VSN121MP30M
560 22B40 0.15 1.62 ECHA201VSN561MP40M 120 25.4B25 0.15 0.76 ECHA401VSN121MQ25M
200 560 25.4B30 0.15 1.60 ECHA201VSN561MQ30M 150 22B35 0.15 0.85 ECHA401VSN151MP35M
560 30B25 0.15 1.60 ECHA201VSN561MR25M 150 25.4B30 0.15 0.85 ECHA401VSN151MQ30M
680 25.4B35 0.15 1.82 ECHA201VSN681MQ35M 150 30B25 0.15 0.85 ECHA401VSN151MR25M
680 30B30 0.15 1.81 ECHA201VSN681MR30M 180 22B40 0.15 0.94 ECHA401VSN181MP40M
400
680 35B25 0.20 1.86 ECHA201VSN681MA25M 180 25.4B35 0.15 0.95 ECHA401VSN181MQ35M
820 25.4B45 0.15 2.11 ECHA201VSN821MQ45M 180 30B25 0.15 0.95 ECHA401VSN181MR25M
820 30B35 0.15 2.11 ECHA201VSN821MR35M 220 25.4B35 0.15 1.24 ECHA401VSN221MQ35M
820 35B25 0.20 2.11 ECHA201VSN821MA25M 220 30B30 0.15 1.24 ECHA401VSN221MR30M
1,000 30B35 0.15 2.40 ECHA201VSN102MR35M 220 35B25 0.15 1.24 ECHA401VSN221MA25M
1,000 35B30 0.20 2.40 ECHA201VSN102MA30M 270 25.4B45 0.15 1.30 ECHA401VSN271MQ45M
1,200 30B45 0.15 2.69 ECHA201VSN122MR45M 270 30B35 0.15 1.30 ECHA401VSN271MR35M
1,200 35B35 0.20 2.65 ECHA201VSN122MA35M 270 35B25 0.15 1.30 ECHA401VSN271MA25M
120 22B20 0.15 0.68 ECHA251VSN121MP20M 330 30B35 0.15 1.45 ECHA401VSN331MR35M
180 22B25 0.15 0.87 ECHA251VSN181MP25M 330 30B40 0.15 1.47 ECHA401VSN331MR40M
180 25.4B20 0.15 0.93 ECHA251VSN181MQ20M 330 35B30 0.15 1.47 ECHA401VSN331MA30M
220 22B30 0.15 1.00 ECHA251VSN221MP30M 82 25.4B25 0.20 0.61 ECHA451VSN820MQ25M
270 22B35 0.15 1.14 ECHA251VSN271MP35M 120 25.4B30 0.20 0.76 ECHA451VSN121MQ30M
270 25.4B25 0.15 1.13 ECHA251VSN271MQ25M 120 30B25 0.20 0.77 ECHA451VSN121MR25M
270 30B20 0.15 1.25 ECHA251VSN271MR20M 150 25.4B35 0.20 0.88 ECHA451VSN151MQ35M
330 22B40 0.15 1.28 ECHA251VSN331MP40M 180 25.4B40 0.20 0.99 ECHA451VSN181MQ40M
330 25.4B30 0.15 1.29 ECHA251VSN331MQ30M 180 30B30 0.20 0.97 ECHA451VSN181MR30M
250
390 22B45 0.15 1.42 ECHA251VSN391MP45M 180 30B35 0.20 1.00 ECHA451VSN181MR35M
450
390 25.4B35 0.15 1.46 ECHA251VSN391MQ35M 220 30B35 0.20 1.30 ECHA451VSN221MR35M
390 30B25 0.15 1.52 ECHA251VSN391MR25M 220 35B25 0.20 1.20 ECHA451VSN221MA25M
390 35B20 0.20 1.62 ECHA251VSN391MA20M 270 30B40 0.20 1.28 ECHA451VSN271MR40M
470 25.4B40 0.15 1.64 ECHA251VSN471MQ40M 270 35B30 0.20 1.30 ECHA451VSN271MA30M
470 30B30 0.15 1.67 ECHA251VSN471MR30M 330 35B35 0.20 1.40 ECHA451VSN331MA35M
560 25.4B45 0.15 1.82 ECHA251VSN561MQ45M 390 35B40 0.20 1.60 ECHA451VSN391MA40M
560 30B35 0.15 1.87 ECHA251VSN561MR35M 420 35B50 0.20 1.56 ECHA451VSN421MA50M
560 35B25 0.20 1.99 ECHA251VSN561MA25M

?DC OVERVOLTAGE TEST CONDITIONS
The vent will operate and the capacitor shall become an open circuit without burning materials
when the following test DC voltage is applied.

@Test DC voltage @Test Circuit
Rated Voltage Nominal Capacitance Current Limit Test Voltage
<330 4A +
200Vdc 330MF[C<470MF 5A 300/375Vdc AC input SW CX
-
]470MF 7A
<330MF 4A
250Vdc 330MF[C<470MF 5A 350/450Vdc Constant DC voltage/current power supply
]470MF 7A
<100MF 2A
400Vdc 100MF[C<220MF 4A 500/600Vdc
]220MF 7A
<100MF 2A
450Vdc 100MF[C<220MF 4A 550/675Vdc
]220MF 7A

(2/2) CAT. No. E1001K