Aluminum Electrolytic Capacitors
Large Type
Features
•
Has a snap-in terminal which can solder to PCB directly
and need not fixture to save processing time
•
Suitable for electronic equipment with medium-high voltage circuits
•
Printed circuit board terminal snap-in type and lug terminal type
available.
SPECIFICATIONS
Items
Operating Temperature Range
Capacitance Tolerance
Leakage Current (at 20℃)
Dissipation Factor
(Tanδat 120Hz, 20℃)
Low Temperature
Characteristics (at 120Hz)
Performance
-25℃ ~ +105℃
±20%
I = 0.01CV or 3 mA whichever is smaller (after 5 minutes)
Where, C= rated capacitance in
μF.
V = rated DC working voltage in V.
Rated Voltage
Tanδ(max)
200
0.15
250
0.15
350
0.15
400
0.15
450
0.15
LSK
(at 120Hz, 20℃)
Impedance ratio shall not exceed the values given in the table below.
Rated Voltage
Impedance Ratio
Z(-25℃)/Z(+20℃)
Test Time
Capacitance Change
200
4
250
4
5000 Hrs
Within
±25%of
initial value
Less than 250% of specified value
350
4
400
8
450
8
Load Life Test
Dissipation Factor
Leakage Current
Within specified value
* The above specifications shall be satisfied when the capacitors are restored to 20℃after the rated voltage
applied for 5000 hrs at 105℃.
Test Time
Capacitance Change
Dissipation Factor
1000 Hrs
Within
±20%of
initial value
Less than 150% of specified value
Shelf Life Test
Leakage Current
Within specified value
* The above specifications shall be satisfied when the capacitors are restored to 20℃ after exposing them for
1000 hrs at 105℃without voltage applied.
Ripple Current &
Frequency Multipliers
Other Standards
Freq.(Hz)
Multiplier
50/60
0.8
120
1.0
300
1.1
1K
1.3
10K up
1.4
JIS C 5101-4
■
Part Numbering System
LSK
101
M
2G
-
2230
(A)
Terminal Length
Case Size 22*30mm
Terminal type
Rated voltage 400V
Capacitance tolerance ( ± 20% )
Capacitance ( 100
μF)
Series name
E.CAP.No1.2002/2003
75
LSK
■
Type
Ⅰ
Aluminum Electrolytic Capacitors
Large Type
Diagram of dimensions
Unit: mm
DIMENSION & PERMISSIBLE RIPPLE CURRENT
V.DC
μF
68
82
100
120
150
180
220
270
330
390
470
560
680
820
1000
1200
φD
680
820
101
121
151
181
221
271
331
391
471
561
681
821
102
122
V.DC
μF
39
47
56
68
82
100
120
150
180
220
270
330
390
φD
390
470
560
680
820
101
121
151
181
221
271
331
391
22×25
0.34
22×30
0.44
22×35
0.50
22×35
0.56
22×40
0.57
22×50
0.67
22×25
0.72
22×30
0.81
22×35
0.92
22×40
1.02
22×50
1.17
25×25
0.81
25×30
0.92
25×30
1.01
25×35
1.15
25×45
1.28
25×50
1.48
22×25
0.57
22×30
0.66
22×35
0.75
22×40
0.85
22×45
0.96
22×50
1.08
35×25
1.22
35×25
1.31
35×30
1.47
35×35
1.65
35×40
1.9
35×50
2.21
25×25
0.66
25×25
0.75
25×30
0.83
25×35
0.96
25×40
1.07
25×50
1.22
Dimension:
φD
× L(mm)
Ripple Current: A/rms at 120 Hz, 105°C
250V (2E)
350V (2V)
35
22
22×25
0.39
22×30
0.49
22×35
0.55
22×40
0.63
22×45
0.61
22×50
0.73
200V (2D)
22
25
30
35
22
25
30
25
30
35
25×25
0.49
25×30
0.55
25×35
0.60
25×40
0.72
25×50
0.93
30×25
0.94
30×25
1.01
30×30
1.15
30×35
1.3
30×40
1.49
30×45
1.67
30×50
1.91
30×25
0.85
30×30
0.96
30×30
1.07
30×35
1.19
30×40
1.35
30×50
1.58
35×25
1.02
35×25
1.12
35×30
1.22
35×35
1.36
35×40
1.57
35×45
1.75
35×50
2.02
30×25
0.56
30×25
0.60
30×30
0.71
30×35
0.82
30×40
0.94
30×50
1.19
35×25
0.69
35×25
0.80
35×30
0.83
35×35
1.04
35×40
1.19
35×45
1.22
35×50
1.38
400V (2G)
22
25
30
35
22
22×25
0.37
22×30
0.41
22×30
0.44
22×35
0.50
22×40
0.56
22×45
0.64
22×50
0.72
450V (2W)
25
30
35
25×25
0.40
25×25
0.50
25×30
0.50
25×35
0.58
25×40
0.66
25×45
0.75
25×50
0.84
30×25
0.51
30×25
0.59
30×25
0.65
30×35
0.74
30×40
0.84
30×50
1.10
35×25
0.61
35×25
0.73
35×30
0.83
35×35
0.94
35×40
1.09
35×45
1.24
35×50
1.26
25×25
0.47
25×30
0.53
25×30
0.55
25×35
0.63
25×40
0.71
25×45
0.71
25×50
0.91
30×25
0.57
30×30
0.64
30×30
0.71
30×35
0.81
30×40
0.92
30×45
1.05
35×25
0.71
35×30
0.83
35×35
0.93
35×40
1.07
35×45
1.22
35×50
1.39
76
E.CAP.No1.2002/2003
