CZ series - Nichicon

ALUMINUM ELECTROLYTIC CAPACITORS
CZ
Chip Type, High Reliability.
Low temperature ESR specification.
series
Chip type, high temperature range, for +125°C use.
Added ESR specification after the test at -40°C.
Applicable to automatic mounting machine fed with carrier tape.
Compliant to the RoHS directive (2011/65/EU)­­.
CX
High
Temperature
CZ
Low ESR
Long Life
CJ
Specifications
Item
Performance Characteristics
Category Temperature Range
–40 to +125°C
Rated Voltage Range
10 to 100V
Rated Capacitance Range
10 to 3300µF
Capacitance Tolerance
± 20% at 120Hz, 20°C
Leakage Current
After 2 minutes' application of rated voltage, leakage current is not more than 0.01CV or 3µA, whichever is greater.
Measurement frequency : 120Hz at 20°C
Tangent of loss angle (tan δ)
Rated voltage (V)
tan δ (MAX.)
10
0.30
16
0.23
25
0.18
35
0.16
50
0.16
63
0.12
80
0.12
100
0.10
For capacitance of more than 1000µF, add 0.02 for every increase of 1000µF.
Stability at Low Temperature
Rated voltage (V)
10
16
25
35
50
63
80
100
Impedance ratio
Z–40°C / Z+20°C
ZT / Z20 (MAX.)
12
8
6
4
4
3
3
3
Measurement frequency :
120Hz
After continuous application of rated voltage at 125°C and then restoring down to 20°C, the readings of measurements shall meet below.
Case size
Endurance time
Capacitance change
tan δ
Leakage current
Endurance
φ6.3 × 5.8L
1000hrs.
φ6.3 × 7.7L
2000hrs.
φ8 to φ12.5
3000hrs.
φ16,18 × 16.5L φ16,18 × 21.5L
3500hrs.
4000hrs.
Within ±30% of the initial capacitance value
300% or less than the initial specified value
Less than or equal to the initial specified value
After storing the capacitors under no load at 125°C for 1000 hours and then performing voltage treatment based on JIS C 5101-4
clause 4.1 at 20°C, they shall meet the specified values for the endurance characteristics listed above.
The capacitors are kept on a hot plate for 30 seconds,
Within ±10% of the initial capacitance value
Capacitance change
which is maintained at 250°C. The capacitors shall meet
Less than or equal to the initial specified value
tan δ
the characteristic requirements listed at right when they
Less than or equal to the initial specified value
Leakage current
are removed from the plate and restored to 20°C.
Shelf Life
Resistance to soldering
heat
Black print on the case top.
‚
φ6.3 × 5.8L : The vibration structure-resistant product can t support.
φ6.3 × 7.7L : The vibration structure-resistant product is available.
Voltage
C±0.2
φ12.5 to φ18 :
The vibration structure-resistant
product is also available upon
request, please ask for details.
B±0.2
φ D±0.5
Series
L±1.0
H
4
5
6
7
8
0.5MAX.
9 10 11 12 13 14
Package code
Rated voltage (35V)
Series name
Type
(φ 8 to φ10) Vibration Resistance
A±0.2 A±0.2
Negative
Negative
Lot No.
Plastic platform
0.3 MAX.
L±1.0
Capacitance
φD×L
Code
GS
MS
ZD
Code
CL
CS
NQ
H
Aid electrode
(mm) Vibration Resistance (mm)
Standard
6.3×5.8
2.4
A
6.6
B
6.6
C
2.2
E
5.8
L
H 0.5 to 0.8
C±0.2
E
Series
B±0.2
0.5MAX.
Voltage (V : 35V )
Trade mark
Size
Package
Taping
φ4 to 10
φ12.5 to 18
Taping
Tray
φ12.5 to 18
φd
Configuration
6.3 to 10 Standard
Vibration Resistance
12.5 or more Standard
A±0.2 A±0.2
Rated capacitance (47µF)
0.5 MAX.
Capacitance tolerance (±20%)
A±0.2 A±0.2
E
Plastic platform
Lot No.
Positive
Positive
0.3 MAX.
Pressure
relief vent
Capacitance
H
3
Negative
E
Standard
680 µF
CZ 35V
H1015
nichicon
Trade mark
C±0.2
2
Size code
A±0.2 A±0.2
φD±0.5
A2
220V
CZ
(φ12.5 to φ18)
Plastic platform
0.3MAX.
L±0.5
Capacitance
Lot No.
H
1
UC Z 1 V 4 7 0 MC L 1 GS
Configuration
E
Series
Trade mark
B±0.2
φD±0.5
A2
47V
CZ
(φ 8 to φ10) Standard
Voltage (V : 35V )
C±0.2
L± 0.3
Capacitance
Lot No.
Positive
Plastic platform
0.3MAX.
Series
B±0.2
Voltage (C:35V)
0.5 MAX.
(φ 6.3) Standard
Type
system
(Example
: 35V: 35V
47µF)
Typenumbering
numbering
system
(Example
47µF)
φ D±0.5
Chip Type
a2
220V
CZ
Marking
6.3×7.7 8×10 10×10 12.5×13.5 16×16.5
2.9 3.2
2.4
4.8
5.4
8.3 10.3 13.6 17.1
6.6
8.3 10.3 13.6 17.1
6.6
3.1 4.5
4
6.3
2.2
10
10 13.5 16.5
7.7
0.5 to 0.8 0.8 to 1.1 0.8 to 1.1 1.0 to 1.4 1.0 to 1.4
Rated Voltage
V
10
16
Code A
C
25
E
35
V
50
H
16×21.5 18×16.5
5.4 6.4
17.1 19.1
17.1 19.1
6.3 6.3
21.5 16.5
1.0 to 1.4 1.0 to 1.4
63
J
80
K
18×21.5
6.4
19.1
19.1
6.3
21.5
1.0 to 1.4
100
2A
φD×L
8×10
2.9
A
8.3
B
8.3
C
3.1
E
10
L
H 1.1 to 1.5
10×10
3.2
10.3
10.3
4.5
10
1.1 to 1.5
CONDUCTIVE POLYMER ALUMINUM SOLID ELECTROLYTIC CAPACITORS
CZ
series
Dimensions
Cap. (µF)
V
10
16
25
35
50
Code
1A
1C
1E
1V
1H
10
100
6.3 × 5.8
1.60 24
−
69
6.3 × 5.8
2.80 42
−
22
220
6.3 × 5.8
1.60 24
−
69
6.3 × 7.7
0.50
5
40 197
33
330
6.3 × 7.7
0.45
5
40 197
● 6.3 × 7.7
0.50
5
40 197
● 6.3 × 7.7
0.45
5
8 × 10
0.20
8 × 10
0.20
8 × 10
10 × 10
6.3 × 5.8
6.3 × 5.8 1.60 24
47
470
68
680
100
101
Recommend 16V
220
221
8 × 10
0.20
3
4.5 270
330
331
390
391
470
471
560
8 × 10
0.20
3
4.5 270
10 × 10
0.15
2
3.5 500
10 × 10
0.15
2
3.5 500
●
−
69
1.60 24
−
69
Recommend 35V
● 6.3 × 7.7
0.45
5
40 197 ● 6.3 × 7.7
0.45
5
40 197
8 × 10
0.20
3
4.5 270
8 × 10
0.20
3
4.5 270
8 × 10
0.20
3
4.5 270
● 8 × 10
0.20
3
4.5 270
10 × 10
0.15
2
3.5 500
10 × 10
0.15
2
3.5 500
10 × 10
0.15
2
3.5 500
10 × 10
0.15
2
3.5 500
51
0.25 3.5
6
40 197 ● 6.3 × 7.7
0.50
40 197
3
4.5 270
0.25 3.5
3
4.5 270
0.20
3
4.5 270
0.15
2
3.5 500
8 × 10
8 × 10
10 × 10
5
6
270
270
0.20 2.5 4.5 500
12.5 × 13.5 0.100 0.44 4.0 1300
12.5 × 13.5 0.060 0.40 3.0 1700
16 × 16.5 0.080 0.34 2.6 2000
561
12.5 × 13.5 0.060 0.40 3.0 1700
16 × 16.5 0.080 0.34 2.6 2000
680
681
12.5 × 13.5 0.060 0.40 3.0 1700
18 × 16.5 0.078 0.32 2.6 2100
820
821
12.5 × 13.5 0.060 0.40 3.0 1700
16 × 16.5 0.047 0.28 1.4 2400
18 × 16.5 0.078 0.32 2.6 2100
1000
102
12.5 × 13.5 0.060 0.40 3.0 1700
16 × 16.5 0.047 0.28 1.4 2400
16 × 21.5 0.040 0.22 1.5 2800
1200
122
16 × 16.5 0.047 0.28 1.4 1700
18 × 16.5 0.045 0.28 1.4 2600
18 × 21.5 0.038 0.20 1.5 2900
1400
142
1600
162
16 × 16.5 0.047 0.28 1.4 2400
16 × 21.5 0.034 0.20 0.6 3000
2200
222
18 × 16.5 0.045 0.23 1.3 2600
18 × 21.5 0.032 0.16 0.5 3250
2700
272
16 × 21.5 0.034 0.20 0.6 3000
3300
332
18 × 21.5 0.032 0.16 0.5 3250
Cap. (µF)
10
V
63
80
Code
1J
1K
100
22
220
33
330
47
470
82
820
6.3 × 7.7
2.00 100 −
60
18 × 16.5 0.045 0.28 1.4 2600
Case size
φD × L
(mm)
after
Initial Initial endurance
20°
C -40°C test Rated
-40°C ripple
100
2A
8 × 10
0.75 50
−
70
8 × 10
0.75 50
−
70
● 8 × 10
0.75 50
−
70 ● 8 × 10
0.75 50
−
70
10 × 10
0.55 35
− 115
10 × 10
0.55 35
− 115
8 × 10
0.70 35
− 100
10 × 10
0.55 35
− 115
● 8 × 10
0.70 35
− 100 ● 8 × 10
0.75 50
−
10 × 10
0.50 25
− 170
10 × 10
0.55 35
− 115
● 8 × 10
0.70 35
− 100
10 × 10
0.50 25
− 170
10 × 10
0.55 35
− 115
70
Guaranteed time of ESR after endurance test
12.5×13.5
0.28 1.9 22 700
150
151 12.5 × 13.5 0.20 1.3 14 1000 12.5 × 13.5 0.28 1.9 14 700
16×16.5
0.19 1.4 4.8 1000
Size
Guaranteed time
180
181 12.5 × 13.5 0.20 1.3 14 1000
18×16.5
0.17 1.1 3.9 1100
φ6.3 to φ12.5
2000hrs.
220
221 12.5 × 13.5 0.20 1.3 14 1000
16×21.5
0.12 0.8 2.6 1600
φ16,18 × 16.5L
2000hrs.
270
271
φ16,18 × 21.5L
3000hrs.
300
301
330
331
390
391
16 × 16.5 0.13 0.9 4.8 1900
470
471
18 × 16.5 0.11 0.82 3.9 2000
520
521
560
561
16 × 21.5 0.07 0.46 2.0 2500
750
751
18 × 21.5 0.068 0.44 1.8 2600
16 × 16.5
0.19 1.4 4.8 1000
18 × 16.5
0.17 1.1 3.9 1100
16 × 21.5
0.12 0.8 2.6 1600
18 × 21.5
0.11 0.7 2.4 1700
18×21.5
0.11 0.7 2.4 1700
Case size
after
Initial Initial endurance
20°
C -40°C test Rated
-40°C ripple
φD × L
(mm)
Frequency coefficient of rated ripple current
0 Frequency0/
Coefficient
50Hz
0.35
120Hz­
0.50
300Hz
0.64
1kHz
0.83
ESR
10kHz or more
1.00
ESR
Max. ESR (Ω) at 20°C / -40°C 100kHz, Rated ripple Current (mArms) at
125°C 100kHz
: In this case, 6 will be put at 12th digit of type numbering system.