The maximum ripple current at 85 C and 120 Hz for SKA capacitors is
shown in the Standard Rating Table. Maximum ripple current may be
adjusted by the multipliers in the following tables.
Temperature Characteristics
128
SKA parts are available taped, in
Ammo Pack. See page 136 for details.
Load Life Characteristics
160 to 250
350 to 450
% C
35 to 100
WVDC
6 to 25
Rated
Type SKA
Axial Leaded Capacitors
-20
-10
10
0
Mallory Products for CDE/6325 Digital Way/Indianapolis IN 46278/Phone: (317)275-2285/Fax: (317)275-2293/www.cornell-dubilier.com
0
Capacitance Change Ratio
60Hz 120Hz
.85
.80
.75
.70
Ripple Multipliers
250
Time In Hours
1.0
1.0
1.0
1.0
500
% C
220 F 35V
2200 F 25V
750
-10
-20
20
10
1kHz
1.10
1.15
1.25
1.30
0
1000
-40
Capacitance Change Ratio
Temperature
For Capacitance of more than 1,000 F , add 0.002 for every increase of 1,000 F at
120Hz/20 C
85 C General Purpose
Axial Leads
Miniature Size
High CV per Case Size
2000 Hour Load Life
Data for Longer Life
Suitable for Consumer
Electronic Products,
Such as Stereo Radio, TV. etc.
Ambient
Dissipation Factor:
Rated Voltage (V) 6.3
tan
Temperature C
+85 C
+75 C
+65 C
0
% DF
40
2200 F 25V
220 F 35V
.4
.3
.2
.1
Multiplier
80
Ripple
0.24 0.20 0.17 0.15 0.12 0.10 0.10 0.10
1.00
1.14
1.25
0
120
Dissipation Factor Change
10
250
16
Time In Hours
500
25
Case vented on
diameters 6.3 and greater.
-
% DF
GENERAL
GENERAL
GENERAL
GENERAL
GENERAL
SPECIFICATIONS
SPECIFICATIONS
SPECIFICATIONS
SPECIFICATIONS
SPECIFICATIONS
Operating Temperature:
Voltage Range:
Capacitance Range:
Capacitance Tolerance:
35
35 Min.
220 F 35V
750
1.0
-40 C to +85 C
6.3 WVDC to 450 WVDC
0.47 F to 15,000 F
.5
.1
.05
.01
2200 F 25V
50
20%
1000
-40
63
Dissipation Factor Change
100 160~350
Temperature C
0
Outline Dimensions
% LC
0.20
L
PVC Sleeve
40
(Millimeters)
220 F 35V
100
50
15
10
400~450
5
1
2200 F 25V
0.25
80
Vinyl sleeve adds .5 Max. to diameter
and 2.0 Max. to length.
DC Leakage Current:
6.3 - 100VDC
Over 100VDC
QA Stability Test:
0
Apply WVDC for 2,000 hrs at 85 C
Leakage Current Change
35 Min.
120
I = .01CV or 3 A
at 5 minutes
I = .01CV +100 A
at 5 minutes minimum
d
C = Capacitance in F
V = Rated Voltage
250
I = Leakage Current in A
Capacitance change
from initial limits
DC leakage current meets
initial limits
ESR
measured value
Time In Hours
+
500
150% of initial
220 F 35V
2200 F 25V
750
1000
D
20%