NIPPON CHEMI-CON CORPORATION
1442
1
Engineering Bulletin
Downsized snap-ins, 105C
Aluminum Electrolytic Capacitors
No.781E / Sep.2008
Tentative
Specifi cations in this bulletin are subject to change without notice.
@For frequently change of regenerative voltage from AC servo amplifi er and inverter control
@Ideal use to power supply, specially power source with turn on and off frequently and highly voltage fl uctuation
@Improved the resistance for charge and discharge from same dimension of KMQ series
@Endurance with ripple current : 3,000 hours at 105C
@Rated voltage range : 350 to 450Vdc, Capacitance 82 to 1,200MF
@Non solvent-proof type
@RoHS Compliant
?SPECIFICATIONS
(at 20C, 120Hz)
(at 20C after 5 minutes)
(at 20C, 120Hz)
(at 120Hz)
Category
Temperature Range
Rated Voltage Range
Capacitance Tolerance
Leakage Current
Dissipation Factor
(tane)
Low Temperature
Characteristics
(Max. Impedance Ratio)
Charge and Discharge
Endurance
Shelf Life
Items
-
25 to +105C
350 to 450Vdc
P20% (M)
I[3 CV
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 charge and discharge test
with the voltage waveform shown below at room temperature (15 to 35C).
Capacitance change
D.F. (tanE)
Leakage current
Frequency
Number of cycles
Voltage waveform
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 3,000 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.
Capacitance change [P15% of the initial value
D.F. (tanE)[150% of the initial specified value
Leakage current [The initial specified value
Characteristics
350 & 400V
0.15
350 to 450V
8
420 & 450V
0.20
[P20% of the initial value
[200% of the initial value
[The initial specified value The charge and discharge condition 1: After applied rated voltage 5 minutes.
The charge and discharge condition 2: After applied 350Vdc 5 minutes.
The charge and discharge condition 1
6Hz
50 million times
The charge and discharge condition 2
1/60Hz
300 thousand times
Items Condition
[150V
Rated voltage
0V
350V
0V
1 cycle
1 cycle
?DIMENSIONS [mm]
@Terminal Code : VS (F22 to F35) : Standard
4.0P0.5
FD+1max.
Vent
Sleeve (PET : Brown)
LP2
Negative mark PC board pin-out
10
2
-
F2
@Terminal Code : LI (F35)
Vent 4.5P1
LP2
FD+1max.
Negative mark
Sleeve (PET : Brown) PC board pin-out
2
-
1.2B6
5P0.5
14.2P1
4.2P0.5
No plastic disk is the standard design.
NIPPON CHEMI-CON CORPORATION
1442
Specifi cations in this bulletin are subject to change without notice.
2
Engineering Bulletin
Downsized snap-ins, 105C
Aluminum Electrolytic Capacitors
No.781E / Sep.2008
Tentative
?STANDARD RATINGS
WV
(Vdc)Cap
(mF) Case size
fDbL(mm)
Rated ripple
current
(Arms/
105c,120Hz)
Max. charge
current and
Max.discharge
current
(Arms/ 6Hz)
Part No.
350
120 22B25 0.74 0.42 EKMV351VSN121MP25S
150 22B30 0.87 0.49 EKMV351VSN151MP30S
180 25.4B25 0.92 0.54 EKMV351VSN181MQ25S
220 22B35 1.08 0.60 EKMV351VSN221MP35S
220 22B40 1.10 0.62 EKMV351VSN221MP40S
220 25.4B30 1.05 0.61 EKMV351VSN221MQ30S
270 22B45 1.24 0.71 EKMV351VSN271MP45S
270 25.4B35 1.21 0.70 EKMV351VSN271MQ35S
270 30B25 1.15 0.68 EKMV351VSN271MR25S
330 22B50 1.41 0.80 EKMV351VSN331MP50S
330 25.4B40 1.37 0.80 EKMV351VSN331MQ40S
330 30B30 1.29 0.77 EKMV351VSN331MR30S
330 35B25 1.31 0.78 EKMV351VSN331MA25S
390 25.4B45 1.51 0.89 EKMV351VSN391MQ45S
390 30B35 1.44 0.88 EKMV351VSN391MR35S
470 25.4B50 1.69 0.99 EKMV351VSN471MQ50S
470 30B40 1.62 1.00 EKMV351VSN471MR40S
470 35B30 1.61 0.97 EKMV351VSN471MA30S
560 30B45 1.82 1.12 EKMV351VSN561MR45S
560 35B35 1.77 1.08 EKMV351VSN561MA35S
680 30B50 2.04 1.27 EKMV351VSN681MR50S
680 35B40 2.02 1.25 EKMV351VSN681MA40S
820 35B45 2.27 1.41 EKMV351VSN821MA45S
820 35B50 2.32 1.46 EKMV351VSN821MA50S
1,200 35B60 2.88 1.84 EKMV351VSN122MA60S
400
100 22B25 0.69 0.38 EKMV401VSN101MP25S
120 22B30 0.79 0.44 EKMV401VSN121MP30S
150 25.4B25 0.87 0.49 EKMV401VSN151MQ25S
180 22B35 0.99 0.55 EKMV401VSN181MP35S
180 22B40 1.01 0.56 EKMV401VSN181MP40S
180 25.4B30 0.98 0.55 EKMV401VSN181MQ30S
220 22B45 1.14 0.64 EKMV401VSN221MP45S
220 25.4B35 1.13 0.63 EKMV401VSN221MQ35S
220 30B25 1.10 0.61 EKMV401VSN221MR25S
270 22B50 1.30 0.73 EKMV401VSN271MP50S
270 25.4B40 1.28 0.72 EKMV401VSN271MQ40S
270 30B30 1.22 0.70 EKMV401VSN271MR30S
270 35B25 1.26 0.71 EKMV401VSN271MA25S
330 25.4B45 1.44 0.82 EKMV401VSN331MQ45S
330 30B35 1.38 0.81 EKMV401VSN331MR35S
390 25.4B50 1.59 0.91 EKMV401VSN391MQ50S
390 30B40 1.55 0.91 EKMV401VSN391MR40S
390 35B30 1.55 0.89 EKMV401VSN391MA30S
470 30B45 1.74 1.03 EKMV401VSN471MR45S
470 35B35 1.71 1.00 EKMV401VSN471MA35S
560 30B50 1.93 1.15 EKMV401VSN561MR50S
560 35B40 1.94 1.14 EKMV401VSN561MA40S
680 35B45 2.19 1.29 EKMV401VSN681MA45S
820 35B50 2.45 1.44 EKMV401VSN821MA50S
1,000 35B60 2.79 1.70 EKMV401VSN102MA60S
WV
(Vdc)Cap
(mF) Case size
fDbL(mm)
Rated ripple
current
(Arms/
105c,120Hz)
Max. charge
current and
Max.discharge
current
(Arms/ 6Hz)
Part No.
420
82 22B25 0.64 0.34
EKMV421VSN820MP25S
120 22B30 0.81 0.44
EKMV421VSN121MP30S
120 25.4B25 0.81 0.44
EKMV421VSN121MQ25S
150 22B35 0.93 0.50
EKMV421VSN151MP35S
150 25.4B30 0.93 0.50
EKMV421VSN151MQ30S
180 22B40 1.04 0.56
EKMV421VSN181MP40S
180 22B45 1.06 0.58
EKMV421VSN181MP45S
180 25.4B35 1.06 0.58
EKMV421VSN181MQ35S
180 30B25 1.02 0.56
EKMV421VSN181MR25S
220 22B50 1.20 0.66
EKMV421VSN221MP50S
220 25.4B40 1.20 0.65
EKMV421VSN221MQ40S
220 30B30 1.14 0.63
EKMV421VSN221MR30S
270 25.4B45 1.36 0.74
EKMV421VSN271MQ45S
270 30B35 1.29 0.73
EKMV421VSN271MR35S
270 35B25 1.26 0.71
EKMV421VSN271MA25S
330 25.4B50 1.52 0.83
EKMV421VSN331MQ50S
330 30B40 1.47 0.84
EKMV421VSN331MR40S
330 35B30 1.42 0.82
EKMV421VSN331MA30S
390 30B45 1.64 0.94
EKMV421VSN391MR45S
390 35B35 1.56 0.91
EKMV421VSN391MA35S
470 30B50 1.83 1.06
EKMV421VSN471MR50S
470 35B40 1.78 1.05
EKMV421VSN471MA40S
560 35B45 1.98 1.18
EKMV421VSN561MA45S
680 35B50 2.23 1.34
EKMV421VSN681MA50S
820 35B60 2.52 1.55
EKMV421VSN821MA60S
450
82 22B25 0.64 0.34
EKMV451VSN820MP25S
100 22B30 0.72 0.40
EKMV451VSN101MP30S
100 25.4B25 0.72 0.40
EKMV451VSN101MQ25S
120 22B35 0.81 0.45
EKMV451VSN121MP35S
150 22B40 0.93 0.51
EKMV451VSN151MP40S
150 25.4B30 0.91 0.50
EKMV451VSN151MQ30S
150 30B25 0.90 0.51
EKMV451VSN151MR25S
180 22B45 1.03 0.58
EKMV451VSN181MP45S
180 22B50 1.06 0.59
EKMV451VSN181MP50S
180 25.4B35 1.04 0.57
EKMV451VSN181MQ35S
220 25.4B40 1.18 0.65
EKMV451VSN221MQ40S
220 25.4B45 1.20 0.67
EKMV451VSN221MQ45S
220 30B30 1.10 0.63
EKMV451VSN221MR30S
220 35B25 1.12 0.64
EKMV451VSN221MA25S
270 25.4B50 1.35 0.75
EKMV451VSN271MQ50S
270 30B35 1.25 0.73
EKMV451VSN271MR35S
270 35B30 1.27 0.74
EKMV451VSN271MA30S
330 30B40 1.42 0.84
EKMV451VSN331MR40S
330 30B45 1.46 0.87
EKMV451VSN331MR45S
330 35B35 1.41 0.84
EKMV451VSN331MA35S
390 30B50 1.61 0.97
EKMV451VSN391MR50S
390 35B40 1.59 0.96
EKMV451VSN391MA40S
470 35B45 1.79 1.08
EKMV451VSN471MA45S
560 35B50 2.00 1.22
EKMV451VSN561MA50S
680 35B60 2.26 1.42
EKMV451VSN681MA60S
?PART NUMBERING SYSTEM
Supplement code
Size code
Capacitance tolerance code
Capacitance code (ex. 270MF:271, 1,200MF:122)
Dummy terminal code
Terminal code (VS, LI)
Voltage code (ex. 350V:351, 400V:401)
Series code
Category
E KMV A A A V S N A A A A A A SM
13426789105121311 16 17 181514
NIPPON CHEMI-CON CORPORATION
1442
3
Engineering Bulletin
Downsized snap-ins, 105C
Aluminum Electrolytic Capacitors
No.781E / Sep.2008
Tentative
Specifi cations in this bulletin are subject to change without notice.
Frequency(Hz)
Coefficient
50
0.77
120
1.00
300
1.16
1k
1.30
10k
1.41
50k
1.43
?RATED RIPPLE CURRENT MULTIPLIERS
@Frequency Mul ti pli ers
The endurance of capacitors is shorted 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.
