Chip Type, 105ºC Low Impedance, Large Capacitance Capacitors

VZH
CHIP TYPE Aluminum Electolytic Capacitors
Chip Type, 105ºC Low Impedance, Large Capacitance Capacitors
 4 ~ 18, 105℃, 2,000 ~ 5,000 hours assured.
 Large capacitance with ultra low impedance capacitors.
 Designed for surface mounting on high density PC board.
■ SPECIFICATIONS
Marking color：Black
Item
Performance
Category Temperature Range
55℃~+105℃
20%
Capacitance Tolerance
(20℃, 120Hz)
(A)
I = 0.01CV or 3 ((
A) whichever is greater (after 2 minutes)
Where, C = Rated capacitance in F；V = Rated DC working voltage in V
Leakage Current (A)
Rated Voltage
Tan (max)
6.3
10
16
25
35
50
0.30
0.26
0.22
0.16
0.13
0.10
When the capacitance exceeds 1,000
1,000F,
1,000
F, 0.02 shall be added every 1,000
1,000
1,000F
F increase.
Dissipation Factor
(Tan at 120Hz, 20℃)
Impedance ratio shall not exceed the values given in the table below.
Rated voltage (V)
6.3
10
16
25
4
3
2
2
Z (25℃)/ Z (+20℃)
Impedance
Ratio
8
5
4
3
Z (55℃)/ Z (+20℃)
Low Temperature Characteristics
(at 120Hz)
35
2
3
63
0.08
80
0.08
100
0.07
(20
(20℃)
50
2
3
63
2
3
80
2
3
100
2
3
8
& 107.7L;
2,000 Hrs for D6.3mm & 86.5L
5,000 Hrs for D8mm
Capacitance Change
Within 30% of initial value
Dissipation Factor
Less than 300% of specified value
Leakage Current
Within specified value
* The above Specifications shall be satisfied when the capacitors are restored to 20℃ after the rated voltage applied for
2,000 ~ 5,000 hours at 105℃.
Test time
Endurance (105℃)
(Applied ripple current)
Shelf life (105℃)
Test time
1,000 Hrs
Capacitance Change
Within 30% of initial value
Dissipation Factor
Less than 300% of specified value
Leakage Current
Within specified value
* The above Specifications shall be satisfied when the capacitors are restored to 20℃ after exposing them for 1,000 hours at
105℃ without voltage applied.
Ripple Current &
Frequency Multipliers
Frequency (Hz)
Multiplier
50, 60
0.60
120
0.70
1k
0.85
■ OUTLINE DRAWING
D  6.3mm
10k up
1.0
Unit：mm
D = 8 ~ 10 mm
D
4
5
6.3
6.3
8
8
10
10
12.5
12.5
16
16
18
18
D  12.5 mm
24
L
5.7  0.3
5.7  0.3
5.7  0.3
7.7  0.3
6.5  0.3
10  0.5
7.7  0.3
10  0.5
13.5  0.5
16  0.5
16.5  0.5
21.5  0.5
16.5  0.5
21.5  0.5
A
4.3
5.3
6.6
6.6
8.4
8.4
10.4
10.4
13.0
13.0
17.0
17.0
19.0
19.0
B
4.3
5.3
6.6
6.6
8.4
8.4
10.4
10.4
13.0
13.0
17.0
17.0
19.0
19.0
C
5.1
5.9
7.2
7.2
9.0
9.0
11.0
11.0
13.7
13.7
18.0
18.0
20.0
20.0
P0.2 Fig. No.
W
0.5 ~ 0.8 1.0
1
0.5 ~ 0.8 1.5
1
0.5 ~ 0.8 2.0
1
0.5 ~ 0.8 2.0
1
0.5 ~ 0.8 2.3
1
0.7 ~ 1.1 3.1
1
0.7 ~ 1.3 4.7
1
0.7 ~ 1.3 4.7
1
1.1 ~ 1.4 4.4
2
1.1 ~ 1.4 4.4
2
1.1 ~ 1.4 6.4
2
1.1 ~ 1.4 6.4
2
1.1 ~ 1.4 6.4
2
1.1 ~ 1.4 6.4
2
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.
VZH
CHIP TYPE Aluminum Electolytic Capacitors
■ STANDARD RATINGS
6.3
Rated voltage (V)
Item
Rated
capacitance (F)
10
16
25
35
50
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
1
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
45.7
2.9
60
2.2
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
45.7
2.9
60
3.3
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
45.7
2.9
60
4.7
─
─
─
─
─
─
─
─
─
─
─
─
45.7
1.35
80
55.7
1.52
85
10
─
─
─
─
─
─
45.7
1.35
80
45.7
1.35
80
55.7
0.80
150
6.35.7
0.88
165
22
45.7
1.35
80
45.7
1.35
80
55.7
0.80
150
55.7
0.80
150
6.55.7
0.44
230
6.35.7
0.88
165
33
45.7
1.35
80
55.7
0.80
150
6.35.7
0.44
230
6.35.7
0.44
230
6.35.7
0.44
230
6.37.7
0.68
185
6.37.7
0.68
185
86.5
0.68
185
47
55.7
0.80
150
6.35.7
0.44
230
6.35.7
0.44
230
68
─
─
─
─
─
─
─
─
─
6.35.7
100
0.44
230
150
6.35.7
0.44
230
220
6.37.7
0.36
280
330
470
680
1000
2200
230
6.37.7
0.36
280
86.5
0.36
280
6.35.7
0.44
230
6.37.7
0.36
280
86.5
0.36
280
6.37.7
0.36
280
0.36
280
810
0.17
450
810
0.17
450
0.17
450
107.7
0.17
450
107.7
0.17
450
230
─
─
─
86.5
0.36
280
6.37.7
0.36
280
86.5
0.36
280
810
0.17
450
810
0.34
369
810
0.34
369
1010
0.18
553
1010
0.18
553
810
0.17
450
810
0.17
450
107.7
0.17
450
1010
0.09
670
12.513.5 0.12
650
810
0.17
450
107.7
0.17
450
810
0.17
450
12.513.5 0.070
820
12.513.5 0.12
650
1010
0.09
670
12.516 0.060
950
1616.5 0.073
1000
450
810
0.17
450
810
0.17
450
450
450
450
107.7
0.17
450
1010
0.09
670
1010
0.09
670
1010
0.09
670
12.513.5 0.070
820
12.516 0.060
950
1616.5 0.073
1000
810
0.17
450
1010
0.09
670
12.513.5 0.070
820
12.516 0.060
950
1616.5 0.054
1260
1816.5 0.066
1500
1616.5 0.054
1260
1816.5 0.048
1621.5 0.038
1500
1630
1821.5 0.05
1620
1821.5 0.038
1750
─
─
─
0.09
670
12.513.5 0.070
12.513.5 0.070
820
12.516 0.060
950
1260
12.516 0.060
950
950
1616.5 0.054
1260
1616.5 0.054
1260
1260
1616.5 0.054
1260
1621.5 0.038
1630
1816.5 0.048
1621.5 0.038
1821.5 0.038
1500
1630
1750
1816.5 0.048
1621.5 0.038
1500
1630
820
1616.5 0.054
1616.5 0.054
63
1260
80
Case
Impedance
Rated
ripple
current
Case
Impedance
Rated
ripple
current
DL
(mm)

mArms
DL
(mm)

mArms
DL
(mm)

mArms
4.7
55.7
1.90
70
─
─
─
─
─
─
10
6.35.7
1.20
130
─
─
─
─
─
─
22
6.37.7
0.90
150
810
1.3
130
810
1.3
130
33
810
0.50
280
810
1.3
130
1010
0.7
200
47
810
0.50
280
1010
0.7
200
1010
0.7
200
100
1010
0.25
450
1010
0.7
200
12.513.5 0.32
450
150
12.513.5 0.15
700
12.513.5 0.32
450
12.516 0.26
550
220
12.513.5 0.15
700
12.516 0.26
550
1616.5 0.17
1821.5 0.15
950
330
1616.5 0.082
900
1616.5 0.17
650
1816.5 0.15
1621.5 0.15
900
470
1616.5 0.082
900
1816.5 0.15
1621.5 0.15
850
1821.5 0.15
950
1816.5 0.080
1621.5 0.080
1821.5 0.06
1150
1150
1250
1821.5 0.15
950
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
─
100
Rated
ripple
current
1000
0.44
0.17
0.17
0.17
Impedance
680
6.35.7
0.17
Case
Rated
capacitance (F)
230
810
Rated voltage (V)
Item
0.44
107.7
810
107.7
1616.5 0.054
4700
0.44
230
810
12.516 0.060
3300
6.35.7
0.44
86.5
1010
1500
6.35.7
6.35.7
900
650
850
(Note) Rated ripple current：mA/rms at 100kHz, 105℃, Impedance：/at 100kHz, 20℃
25
NOTE
Design, Specifications are subject to change without notice.
Ask factory for technical specifications before purchase and/or use.