135D397X9010F2 [VISHAY]
Tantalum Capacitor, Polarized, Tantalum (wet), 10V, 10% +Tol, 10% -Tol, 390uF, Through Hole Mount, AXIAL LEADED;型号: | 135D397X9010F2 |
厂家: | VISHAY |
描述: | Tantalum Capacitor, Polarized, Tantalum (wet), 10V, 10% +Tol, 10% -Tol, 390uF, Through Hole Mount, AXIAL LEADED 电容器 |
文件: | 总14页 (文件大小:165K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
135D
Vishay
www.vishay.com
Wet Tantalum Capacitors Tantalum-Case with Glass-to-Tantalum
Hermetic Seal for - 55 °C to + 200 °C Operation
FEATURES
• Axial through-hole terminations: Standard
tin/lead (SnPb), 100 % tin (RoHS compliant)
available
• Standard and extended ratings
• Model 135D tantalum-case electrolytic
capacitors incorporate the advantages of all
Available
the varieties of electrolytic capacitors and eliminate most
of the disadvantages. These units have a 3 V reverse
voltage capability at + 85 °C and a higher ripple current
capability than any other electrolytic type with similar
combinations of capacitance and case size.
• Designed for the aerospace applications, this capacitor
was developed under partial sponsorship of the Marshall
Space Flight Center, National Aeronautics and Space
Administration. The capacitors have a high resistance to
damage from shock and vibration. Extended range ratings
and high temperature designs are available.
• Model 135D capacitors are commercial equivalents of
Tansitor Style; AQ, AR, HAQ, HAR, Mallory-NACC Style;
TLT, TXT, THT, THX and Military Style CLR79 and CLR81,
designed to meet the performance requirements of
Military Specification MIL-PRF-39006/22/25. Capacitors
to meet MIL-PRF- 39006/22/25 should be ordered by part
numbers shown in that specification.
• Material categorization: For definitions of compliance
please see www.vishay.com/doc?99912
Note
*
This datasheet provides information about parts that are
RoHS-compliant and/or parts that are non-RoHS-compliant. For
example, parts with lead (Pb) terminations are not RoHS-compliant.
Please see the information/tables in this datasheet for details.
PERFORMANCE CHARACTERISTICS
Operating Temperature: - 55 °C to + 85 °C
Life Test: Capacitors are capable of withstanding a 2000 h
life test at a temperature of + 85 °C or + 125 °C at the
applicable rated DC working voltage.
(to + 200 °C with voltage derating)
Capacitance Tolerance: At 120 Hz, + 25 °C
20 % standard. 10 %, 5 % available as special.
Following life test:
DC Leakage Current (DCL Max.): At + 25 °C and above:
Leakage current shall not exceed the values listed in the
Standard Ratings table.
1. DCL, measured at + 85 °C rated voltage, shall not be in
excess of the original requirement.
2. The equivalent series resistance shall not exceed 150 %
of the initial requirement.
3. Change in capacitance shall not exceed 10 % from the
initial measurement.
ORDERING INFORMATION
135D
306
X0
006
C
2
E3
MODEL
CAPACITANCE
CAPACITANCE
TOLERANCE
DC VOLTAGE RATING
AT + 85 °C
CASE
CODE
STYLE NUMBER
RoHS
COMPLIANT
This is expressed
in picofarads. The
first two digits are
the significant
figures. The third
is the number of
zeros to follow.
X0 = 20 %
X9 = 10 %
X5 = 5 %
This is expressed in
volts. To complete the
three-digit block,
zeros precede the
voltage rating.
See
Ratings
and
Case
Codes
table
Standard temperature
(max. + 125 °C)
0 = No insulating sleeve
2 = Polyester insulationsleeve
3 = High temperature
film insulation
E3 = 100 % tin
termination
(RoHS compliant
design)
Blank = SnPb
termination
(standard design)
High temperature
(max. + 200 °C)
6 = High temperature
film insulation
8 = No insulating sleeve
Note
•
Packaging: The use of formed plastic trays for packaging these axial lead components is standard. Tape and reel is not available due to the
unit weight.
Revision: 09-Apr-13
Document Number: 40024
1
For technical questions, contact: tantalum@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
135D
Vishay
www.vishay.com
DIMENSIONS in inches [millimeters]
E
L1
E
D
Weld
0.0253 0.002 [0.64 0.05] dia.
(no. 22 AWG) tinned nickel leads
solderable and weldable
Tantalum
L2
WEIGHT
(g)
(Max.)
CASE DCLR79/81
D
L2
(max.)
L1
E
CODE
EQUIV.
0.188 0.016
[4.78 0.41]
0.453 + 0.031/- 0.016
[11.51 + 0.79/- 0.41]
0.734
1.500 0.250
[38.10 6.35]
C
F
T
T1
2.6
6.2
[18.64]
0.281 0.016
[7.14 0.41]
0.641 + 0.031/- 0.016
[16.28 + 0.79/- 0.41]
0.922
[23.42]
2.250 0.250
[57.15 6.35]
T2
0.375 0.016
[9.53 0.41]
0.766 + 0.031/- 0.016
[19.46 + 0.79/- 0.41]
1.047
[26.59]
2.250 0.250
[57.15 6.35]
T3
11.6
17.7
0.375 0.016
[9.53 0.41]
1.062 + 0.031/- 0.016
[26.97 + 0.79/- 0.41]
1.343
[34.11]
2.250 0.250
[57.15 6.35]
K
T4
Note
•
For insulated parts, add 0.015" [0.38] to the diameter. The insulation shall lap over the ends of the capacitor body.
STANDARD RATINGS
MAX. DCL
(μA) AT
MAX. CAPACITANCE
CHANGE (%) AT
MAX.
RIPPLE
40 kHz
IRMS
MAX. ESR MAX. IMP.
AT + 25 °C AT - 55 °C
CAPACITANCE CASE
PART NUMBER (1)
(μF)
CODE
120 Hz
120 Hz
+ 85 °C
+ 125 °C
+ 25 °C
- 55 °C + 85 °C + 125 °C
()
()
(mA)
6 VDC AT + 85 °C; 4 VDC AT + 125 °C; 3.6 VDC AT + 200 °C
30
68
C
C
F
F
T
T
K
135D306X0006C2
135D686X0006C2
135D147X0006F2
135D277X0006F2
135D337X0006T2
135D567X0006T2
135D128X0006K2
4.0
3.2
2.0
2.2
1.4
1.3
1.0
100
60
40
25
20
25
20
1.0
1.0
1.0
1.0
2.0
2.0
3.0
2.0
2.0
- 40
- 40
- 40
- 44
- 44
- 64
- 80
+ 10.5
+ 14
+ 12
+ 16
+ 16
+ 20
+ 16
+ 20
+ 25
820
960
140
270
330
560
1200
3.0
+ 14
1200
1375
1800
1900
2265
6.5
+ 17.5
+ 14
7.9
13.0
14.0
+ 17.5
+ 25
8 VDC AT + 85 °C; 5 VDC AT + 125 °C; 4.8 VDC AT + 200 °C
25
C
C
F
F
T
T
K
135D256X0008C2
135D566X0008C2
135D127X0008F2
135D227X0008F2
135D297X0008T2
135D437X0008T2
135D857X0008K2
4.0
3.3
2.6
2.4
1.8
1.4
1.0
100
59
50
30
25
25
22
1.0
1.0
1.0
1.0
2.0
2.0
4.0
2.0
2.0
- 40
- 40
- 44
- 44
- 64
- 64
- 80
+ 10.5
+ 14
+ 12
+ 16
+ 20
+ 20
+ 20
+ 20
+ 25
820
900
56
120
220
290
430
850
2.0
+ 17.5
+ 17.5
+ 17.5
+ 17.5
+ 25
1230
1370
1770
1825
2330
7.0
6.0
14.0
16.0
10 VDC AT + 85 °C; 7 VDC AT + 125 °C; 6 VDC AT + 200 °C
20
C
C
F
F
T
T
K
135D206X0010C2
135D476X0010C2
135D107X0010F2
135D187X0010F2
135D257X0010T2
135D397X0010T2
135D757X0010K2
4.0
3.7
2.4
2.2
1.8
1.5
1.0
120
90
60
40
30
25
23
1.0
1.0
1.0
1.0
2.0
2.0
4.0
2.0
2.0
- 32
- 36
- 36
- 36
- 40
- 64
- 80
+ 10.5
+ 14
+ 12
+ 16
+ 16
+ 16
+ 16
+ 20
+ 25
820
855
47
100
180
250
390
750
4.0
+ 14
1200
1365
1720
1800
2360
7.0
+ 14
10.0
16.0
16.0
+ 14
+ 17.5
+ 25
Note
(1)
Part numbers are for units with 20 % capacitance tolerance, standard + 125 °C maximum temperature, standard polyesterfilm insulation,
and tin-lead terminations. For other capacitance tolerances, other maximum temperatures, insulation and termination options, please
consult Ordering Information on first page for proper part number.
Revision: 09-Apr-13
Document Number: 40024
2
For technical questions, contact: tantalum@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
135D
Vishay
www.vishay.com
STANDARD RATINGS
MAX. DCL
(μA) AT
MAX. CAPACITANCE
CHANGE (%) AT
MAX.
RIPPLE
40 kHz
IRMS
MAX. ESR MAX. IMP.
AT + 25 °C AT - 55 °C
CAPACITANCE CASE
PART NUMBER (1)
(μF)
CODE
120 Hz
120 Hz
+ 85 °C
+ 125 °C
+ 25 °C
- 55 °C + 85 °C + 125 °C
()
()
(mA)
15 VDC AT + 85 °C; 10 VDC AT + 125 °C; 9 VDC AT + 200 °C
15
33
70
120
170
270
540
C
C
F
F
T
T
K
135D156X0015C2
135D336X0015C2
135D706X0015F2
135D127X0015F2
135D177X0015T2
135D277X0015T2
135D547X0015K2
4.4
4.0
2.8
2.6
2.4
2.2
1.0
155
90
75
50
35
30
23
1.0
1.0
1.0
1.0
2.0
2.0
6.0
2.0
2.0
4.0
- 24
- 28
- 28
- 28
- 32
- 56
- 80
+ 10.5
+ 14
+ 14
+ 17.5
+ 14
+ 17.5
+ 25
+ 12
+ 16
+ 16
+ 20
+ 16
+ 20
+ 25
780
820
1150
1450
1480
1740
2330
7.0
10.0
16.0
24.0
25 VDC AT + 85 °C; 15 VDC AT + 125 °C; 12 VDC AT + 200 °C
10
22
50
100
120
180
350
C
C
F
F
T
T
K
135D106X0025C2
135D226X0025C2
135D506X0025F2
135D107X0025F2
135D127X0025T2
135D187X0025T2
135D357X0025K2
5.3
4.2
3.0
2.8
2.6
2.2
1.3
220
140
70
50
38
1.0
1.0
1.0
1.0
2.0
2.0
7.0
2.0
2.0
2.0
10.0
6.0
18.0
28.0
- 16
- 20
- 28
- 28
- 32
- 48
- 70
+ 8
+ 10.5
+ 13
+ 13
+ 13
+ 13
+ 25
+ 9
715
800
+ 12
+ 15
+ 15
+ 15
+ 15
+ 25
1130
1435
1450
1525
1970
32
24
30 VDC AT + 85 °C; 20 VDC AT + 125 °C; 18 VDC AT + 200 °C
8
15
22
40
C
C
F
F
F
T
T
K
135D805X0030C2
135D156X0030C2
135D226X0030F2
135D406X0030F2
135D686X0030F2
135D107X0030T2
135D157X0030T2
135D307X0030K2
6.6
6.2
4.6
4.0
2.9
2.7
2.3
1.4
275
175
95
65
60
40
35
25
1.0
1.0
1.0
1.0
1.0
2.0
2.0
8.0
2.0
2.0
5.0
5.0
8.0
12.0
18.0
32.0
- 16
- 20
- 20
- 24
- 24
- 28
- 48
- 60
+ 8
+ 12
+ 12
+ 12
+ 12
+ 15
+ 12
+ 15
+ 25
640
780
+ 10.5
+ 10.5
+ 10.5
+ 13
+ 10.5
+ 13
1005
1120
1285
1450
1525
1950
68
100
150
300
+ 25
35 VDC AT + 85 °C; 22 VDC AT + 125 °C; 21 VDC AT + 200 °C
15
68
270
C
F
K
135D156X0035C2
135D686X0035F2
135D277X0035K2
6.2
2.9
1.4
175
60
26
0.75
1.0
3.0
1.5
2.0
12.0
- 20
- 24
- 58
+ 10.5
+ 13
+ 25
+ 12
+ 15
+ 25
660
1195
1950
50 VDC AT + 85 °C; 30 VDC AT + 125 °C; 30 VDC AT + 200 °C
5
10
25
47
60
82
160
C
C
F
F
T
T
K
135D505X0050C2
135D106X0050C2
135D256X0050F2
135D476X0050F2
135D606X0050T2
135D826X0050T2
135D167X0050K2
8.0
6.4
4.6
3.7
2.9
2.5
1.5
400
250
95
70
45
1.0
1.0
1.0
1.0
2.0
2.0
8.0
2.0
2.0
5.0
- 16
- 24
- 20
- 28
- 16
- 32
- 50
+ 5
+ 8
+ 6
+ 9
580
715
+ 10.5
+ 13
+ 10.5
+ 13
+ 25
+ 12
+ 15
+ 12
+ 15
+ 25
1005
1155
1335
1400
1900
9.0
12.0
16.0
32.0
45
27
60 VDC AT + 85 °C; 40 VDC AT + 125 °C; 36 VDC AT + 200 °C
4
8.2
20
39
50
C
C
F
F
T
T
K
135D405X0060C2
135D825X0060C2
135D206X0060F2
135D396X0060F2
135D506X0060T2
135D686X0060T2
135D147X0060K2
9.3
6.6
4.7
3.4
2.9
2.5
1.5
550
275
105
90
50
50
1.0
1.0
1.0
1.0
2.0
2.0
8.0
2.0
2.0
5.0
- 16
- 24
- 16
- 28
- 16
- 32
- 40
+ 5
+ 8
+ 8
+ 10.5
+ 10.5
+ 10.5
+ 20
+ 6
+ 9
+ 9
+ 15
+ 12
+ 15
+ 20
525
625
930
1110
1330
1365
1850
9.0
12.0
16.0
32.0
68
140
28
75 VDC AT + 85 °C; 50 VDC AT + 125 °C; 45 VDC AT + 200 °C
3.5
6.8
15
33
40
C
C
F
F
T
T
K
135D355X0075C2
135D685X0075C2
135D156X0075F2
135D336X0075F2
135D406X0075T2
135D566X0075T2
135D117X0075K2
9.5
6.8
5.3
4.2
3.0
2.6
1.5
650
300
150
90
60
60
1.0
1.0
1.0
1.0
2.0
2.0
9.0
2.0
2.0
5.0
10.0
12.0
17.0
36.0
- 16
- 20
- 16
- 24
- 16
- 28
- 35
+ 5
+ 8
+ 8
+ 10.5
+ 10.5
+ 10.5
+ 20
+ 6
+ 9
+ 9
+ 15
+ 12
+ 15
+ 20
525
610
890
1000
1250
1335
1850
56
110
29
Note
(1)
Part numbers are for units with 20 % capacitance tolerance, standard + 125 °C maximum temperature, standard polyesterfilm insulation,
and tin-lead terminations. For other capacitance tolerances, other maximum temperatures, insulation and termination options, please
consult Ordering Information on first page for proper part number.
Revision: 09-Apr-13
Document Number: 40024
3
For technical questions, contact: tantalum@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
135D
Vishay
www.vishay.com
STANDARD RATINGS
MAX. DCL
(μA) AT
MAX. CAPACITANCE
CHANGE (%) AT
MAX.
RIPPLE
40 kHz
IRMS
MAX. ESR MAX. IMP.
AT + 25 °C AT - 55 °C
CAPACITANCE CASE
PART NUMBER (1)
(μF)
CODE
120 Hz
120 Hz
+ 85 °C
+ 125 °C
+ 25 °C
- 55 °C + 85 °C + 125 °C
()
()
(mA)
100 VDC AT + 85 °C; 65 VDC AT + 125 °C; 60 VDC AT + 200 °C
2.2
2.5
3.9
4.7
11
22
30
43
82
86
C
C
C
C
F
F
T
T
K
K
135D225X0100C2
135D255X0100C2
135D395X0100C2
135D475X0100C2
135D116X0100F2
135D226X0100F2
135D306X0100T2
135D436X0100T2
135D826X0100K2
135D866X0100K2
10.6
10.6
10.0
8.5
6.0
4.8
3.3
2.6
1.6
1.6
950
950
600
500
200
100
80
70
39
30
1.0
1.0
1.0
1.0
1.0
1.0
2.0
2.0
3.0
9.0
2.0
2.0
2.0
2.0
4.0
- 16
- 16
- 16
- 16
- 16
- 16
- 16
- 20
- 24
- 25
+ 7
+ 7
+ 7
+ 7
+ 7
+ 7
+ 7
+ 7
+ 18
+ 15
+ 8
+ 8
+ 8
+ 8
+ 8
+ 8
+ 8
+ 8
+ 18
+ 15
505
505
520
565
835
9.0
965
12.0
17.0
24
1240
1335
1860
1800
36.0
125 VDC AT + 85 °C; 85 VDC AT + 125 °C; 75 VDC AT + 200 °C
1.7
3.6
9
14
18
25
56
C
C
F
F
T
T
K
135D175X0125C2
135D365X0125C2
135D905X0125F2
135D146X0125F2
135D186X0125T2
135D256X0125T2
135D566X0125K2
15.6
10.0
7.4
5.7
3.7
1250
600
240
167
129
93
1.0
1.0
1.0
1.0
2.0
2.0
10.0
2.0
2.0
5.0
7.0
9.0
- 16
- 16
- 16
- 16
- 16
- 16
- 25
+ 7
+ 7
+ 7
+ 7
+ 7
+ 7
+ 15
+ 8
+ 8
+ 8
+ 8
+ 8
+ 8
+ 15
415
520
755
860
1130
1200
1800
3.2
1.6
13.0
40.0
32
Note
(1)
Part numbers are for units with 20 % capacitance tolerance, standard + 125 °C maximum temperature, standard polyesterfilm insulation,
and tin-lead terminations. For other capacitance tolerances, other maximum temperatures, insulation and termination options, please
consult Ordering Information on first page for proper part number.
EXTENDED RATINGS
MAX. DCL
(μA) AT
MAX. CAPACITANCE
CHANGE (%) AT
MAX.
RIPPLE
40 kHz
IRMS
MAX. ESR MAX. IMP.
AT + 25 °C AT - 55 °C
CAPACITANCE
(μF)
CASE CODE PART NUMBER (1)
120 Hz
120 Hz
+ 85 °C
+ 125 °C
+ 25 °C
- 55 °C + 85 °C + 125 °C
()
()
(mA)
6 VDC AT + 85 °C; 4 VDC AT + 125 °C; 3.6 VDC AT + 200 °C
220
560
820
1200
1500
2200
C
F
F
T
T
K
135D227X0006C2
135D567X0006F2
135D827X0006F2
135D128X0006T2
135D158X0006T2
135D228X0006K2
3.0
2.5
2.5
1.5
1.5
1.0
36
21
18
18
18
13
2.0
3.0
3.0
5.0
5.0
6.0
9.0
9.0
14
18.0
20.0
24.0
- 64
- 77
- 88
- 88
- 90
- 90
+ 13
+ 16
+ 16
+ 20
+ 20
+ 25
+ 16
+ 20
+ 20
+ 25
+ 25
+ 30
1000
1500
1500
1900
1900
2300
8 VDC AT + 85 °C; 5 VDC AT + 125 °C; 4.8 VDC AT + 200 °C
180
680
1500
1800
C
F
T
135D187X0008C2
135D687X0008F2
135D158X0008T2
135D188X0008K2
3.0
2.5
1.5
1.0
45
22
18
14
2.0
3.0
5.0
7.0
9.0
- 60
- 83
- 90
- 90
+ 13
+ 16
+ 20
+ 25
+ 16
+ 20
+ 25
+ 30
1000
1500
1900
2300
14.0
20.0
25.0
K
10 VDC AT + 85 °C; 7 VDC AT + 125 °C; 6 VDC AT + 200 °C
120
150
390
470
560
C
C
F
F
F
T
K
135D127X0010C2
135D157X0010C2
135D397X0010F2
135D477X0010F2
135D567X0010F2
135D128X0010T2
135D158X0010K2
3.2
3.0
2.5
2.5
2.5
1.5
1.0
54
54
27
27
27
18
15
2.0
2.0
3.0
3.0
3.0
5.0
7.0
6.0
9.0
9.0
16.0
16.0
20.0
25.0
- 40
- 55
- 66
- 66
- 77
- 88
- 88
+ 14
+ 13
+ 16
+ 16
+ 16
+ 20
+ 25
+ 16
+ 16
+ 20
+ 20
+ 20
+ 25
+ 30
900
900
-
1450
1450
1850
2300
1200
1500
Note
(1)
Part numbers are for units with 20 % capacitance tolerance, standard + 125 °C maximum temperature, standard polyesterfilm insulation,
and tin-lead terminations. For other capacitance tolerances, other maximum temperatures, insulation and termination options, please
consult Ordering Information on first page for proper part number.
Revision: 09-Apr-13
Document Number: 40024
4
For technical questions, contact: tantalum@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
135D
Vishay
www.vishay.com
EXTENDED RATINGS
MAX. DCL
(μA) AT
MAX. CAPACITANCE
CHANGE (%) AT
MAX.
RIPPLE
40 kHz
IRMS
(mA)
MAX. ESR MAX. IMP.
AT + 25 °C AT - 55 °C
CAPACITANCE
(μF)
CASE CODE PART NUMBER (1)
120 Hz
120 Hz
+ 85 °C
+ 125 °C
+ 25 °C
- 55 °C + 85 °C + 125 °C
()
()
15 VDC AT + 85 °C; 10 VDC AT + 125 °C; 9 VDC AT + 200 °C
82
100
270
390
680
820
1000
C
C
F
F
T
T
K
135D826X0015C2
135D107X0015C2
135D277X0015F2
135D397X0015F2
135D687X0015T2
135D827X0015T2
135D108X0015K2
3.9
3.9
2.5
2.5
1.8
1.8
1.2
72
72
31
31
22
22
17
2.0
2.0
3.0
3.0
6.0
6.0
8.0
6.0
9.0
- 35
- 44
- 62
- 66
- 74
- 77
- 77
+ 12
+ 13
+ 16
+ 16
+ 20
+ 20
+ 25
+ 16
+ 16
+ 15
+ 20
+ 25
+ 25
+ 30
900
900
9.0
1450
1450
1800
1800
2330
16.0
18.0
24.0
32.0
25 VDC AT + 85 °C; 15 VDC AT + 125 °C; 12 VDC AT + 200 °C
47
C
C
C
F
135D476X0025C2
135D566X0025C2
135D686X0025C2
135D187X0025F2
135D277X0025F2
135D397X0025T2
135D477X0025T2
135D567X0025T2
135D687X0025K2
135D827X0025K2
5.2
4.3
4.3
2.7
2.7
1.8
1.8
1.8
1.2
1.3
100
90
90
33
33
25
24
24
19
26
2.0
2.0
2.0
3.0
3.0
6.0
6.0
7.0
8.0
8.0
6.0
6.0
- 23
- 25
- 40
- 54
- 62
- 55
- 65
- 72
- 72
- 80
+ 12
+ 12
+ 12
+ 13
+ 13
+ 18
+ 18
+ 20
+ 25
+ 25
+ 15
+ 15
+ 15
+ 15
+ 16
+ 25
+ 25
+ 25
+ 30
+ 25
800
850
56
68
9.0
850
180
270
390
470
560
680
820
9.0
1400
1400
1500
1750
1750
2100
-
F
16.0
18.0
18.0
28.0
32.0
32.0
T
T
T
K
K
30 VDC AT + 85 °C; 20 VDC AT + 125 °C; 18 VDC AT + 200 °C
47
C
C
F
F
T
T
T
K
135D476X0030C2
135D566X0030C2
135D157X0030F2
135D227X0030F2
135D307X0030T2
135D397X0030T2
135D477X0030T2
135D567X0030K2
5.2
5.2
2.5
2.5
2.2
1.8
1.8
1.3
100
100
36
2.0
2.0
3.0
3.0
3.0
6.0
8.0
9.0
6.0
9.0
- 23
- 38
- 42
- 60
- 60
- 55
- 65
- 65
+ 12
+ 12
+ 13
+ 13
+ 15
+ 18
+ 20
+ 25
+ 15
+ 15
+ 15
+ 16
+ 15
+ 25
+ 25
+ 30
800
800
56
150
220
300
390
470
560
9.0
1200
1200
-
36
16.0
12.0
18.0
32.0
36.0
44
25
1500
1500
2000
25
20
35 VDC AT + 85 °C; 22 VDC AT + 125 °C; 21 VDC AT + 200 °C
39
C
F
135D396X0035C2
135D127X0035F2
135D337X0035T2
135D377X0035K2
4.1
2.5
1.8
1.3
61
31
20
15
2.0
3.0
6.0
9.0
6.0
- 22
- 40
- 50
- 60
+ 12
+ 13
+ 16
+ 25
+ 14
+ 15
+ 25
+ 30
820
120
330
370
10.0
18.0
36.0
1315
1640
2040
T
K
40 VDC AT + 85 °C; 25 VDC AT + 125 °C; 20 VDC AT + 200 °C
39
C
K
K
K
135D396X0040C2
135D227X0040K2
135D377X0040K2
135D477X0040K2
4.1
1.6
1.5
1.3
61
27
30
30
2.0
3.0
5.0
9.0
6.0
- 22
- 58
- 75
- 80
+ 12
+ 23
+ 25
+ 25
+ 14
+ 23
+ 25
+ 25
820
1900
1900
-
220
370
470
22.0
25.0
35.0
50 VDC AT + 85 °C; 30 VDC AT + 125 °C; 30 VDC AT + 200 °C
33
C
F
F
T
K
135D336X0050C2
135D107X0050F2
135D127X0050F2
135D277X0050T2
135D337X0050K2
5.0
2.8
2.5
2.0
1.5
135
49
49
30
30
2.0
4.0
4.0
8.0
9.0
9.0
- 29
- 36
- 42
- 46
- 46
+ 10
+ 13
+ 12
+ 20
+ 25
+ 12
+ 15
+ 15
+ 25
+ 30
700
100
120
270
330
12.0
24.0
32.0
36.0
1200
1200
1450
1900
Note
(1)
Part numbers are for units with 20 % capacitance tolerance, standard + 125 °C maximum temperature, standard polyesterfilm insulation,
and tin-lead terminations. For other capacitance tolerances, other maximum temperatures, insulation and termination options, please
consult Ordering Information on first page for proper part number.
Revision: 09-Apr-13
Document Number: 40024
5
For technical questions, contact: tantalum@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
135D
Vishay
www.vishay.com
EXTENDED RATINGS
MAX. DCL
(μA) AT
MAX. CAPACITANCE
CHANGE (%) AT
MAX.
RIPPLE
40 kHz
IRMS
(mA)
MAX. ESR MAX. IMP.
AT + 25 °C AT - 55 °C
CAPACITANCE
(μF)
CASE CODE PART NUMBER (1)
120 Hz
120 Hz
+ 85 °C
+ 125 °C
+ 25 °C
- 55 °C + 85 °C + 125 °C
()
()
60 VDC AT + 85 °C; 40 VDC AT + 125 °C; 36 VDC AT + 200 °C
18
27
C
C
F
135D186X0060C2
135D276X0060C2
135D826X0060F2
135D107X0060F2
135D227X0060T2
135D277X0060K2
135D337X0060K2
7.0
5.0
2.9
2.5
1.8
1.4
1.3
160
144
54
2.0
3.0
4.0
4.0
8.0
9.0
10.0
12.0
12.0
16.0
20.0
32.0
36.0
40.0
- 20
- 24
- 30
- 36
- 40
- 45
- 72
+ 7
+ 8
700
700
+ 10
+ 15
+ 12
+ 16
+ 20
+ 25
+ 12
+ 15
+ 15
+ 20
+ 25
+ 25
82
1100
1100
1400
1850
1850
100
220
270
330
F
54
T
29
K
K
23
31
63 VDC AT + 85 °C; 40 VDC AT + 125 °C; 31 VDC AT + 200 °C
10
27
C
C
F
135D106X0063C2
135D276X0063C2
135D107X0063F2
5.3
5.0
2.5
250
144
54
1.0
3.0
2.0
2.0
- 20
- 24
- 36
+ 8
+ 9
715
700
12.0
12.0
+ 10
+ 12
+ 12
+ 15
100
1100
75 VDC AT + 85 °C; 50 VDC AT + 125 °C; 45 VDC AT + 200 °C
5.6
12
C
C
C
F
135D565X0075C2
135D126X0075C2
135D226X0075C2
135D686X0075F2
135D826X0075F2
135D117X0075F2
135D187X0075T2
135D227X0075K2
135D307X0075K2
14.2
5.1
5.1
3.0
2.5
2.5
2.2
1.8
1.8
475
157
157
63
2.0
3.0
5.0
- 17
- 19
- 19
- 25
- 30
- 36
- 35
- 40
- 60
+ 8
+ 8
600
600
12.0
12.0
16.0
24.0
20.0
36.0
40.0
48.0
+ 10
+ 10
+ 12
+ 12
+ 12
+ 16
+ 20
+ 22
+ 12
+ 12
+ 15
+ 15
+ 15
+ 20
+ 25
+ 22
22
3.0
600
68
4.0
1000
1000
1100
1300
1800
2000
82
F
63
4.0
110
180
220
300
F
54
4.0
T
30
9.0
K
K
24
10.0
12.0
32
100 VDC AT + 85 °C; 65 VDC AT + 125 °C; 60 VDC AT + 200 °C
10
56
C
C
T
F
T
T
K
135D106X0100C2
135D565X0100C2
135D566X0100T2
135D396X0100F2
135D476X0100T2
135D686X0100T2
135D127X0100K2
5.9
14
200
475
50
3.0
2.0
12.0
5.0
- 17
- 17
- 25
- 20
- 23
- 30
- 35
+ 10
+ 8
+ 12
+ 8
800
-
56
2.4
3.5
2.5
2.2
2.7
5.0
20.0
24.0
10.0
40.0
48.0
+ 12
+ 12
+ 10
+ 14
+ 15
+ 12
+ 15
+ 10
+ 16
+ 17
1400
1300
-
39
80
5.0
47
70
2.0
68
40
10.0
12.0
1600
2000
120
30
125 VDC AT + 85 °C; 85 VDC AT + 125 °C; 75 VDC AT + 200 °C
3.9
6.8
15
27
47
56
68
82
C
C
F
135D395X0125C2
135D685X0125C2
135D156X0125F2
135D276X0125F2
135D476X0125T2
135D566X0125T2
135D686X0125K2
135D826X0125K2
20.4
11.7
5.3
557
300
167
90
2.0
3.0
5.0
- 16
- 14
- 16
- 18
- 26
- 26
- 28
- 30
+ 7
+ 10
+ 7
+ 8
-
12.0
7.0
+ 12
+ 8
700
1.0
1200
1200
1500
1500
1850
1900
F
3.5
5.0
24.0
40.0
40.0
44.0
48.0
+ 12
+ 14
+ 14
+ 15
+ 15
+ 15
+ 16
+ 16
+ 16
+ 17
T
2.2
50
10.0
10.0
11.0
12.0
T
2.2
50
K
K
2.2
32
2.8
32
Note
(1)
Part numbers are for units with 20 % capacitance tolerance, standard + 125 °C maximum temperature, standard polyesterfilm insulation,
and tin-lead terminations. For other capacitance tolerances, other maximum temperatures, insulation and termination options, please
consult Ordering Information on first page for proper part number.
Revision: 09-Apr-13
Document Number: 40024
6
For technical questions, contact: tantalum@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
135D
Vishay
www.vishay.com
TYPICAL CURVES OF IMPEDANCE AS A FUNCTION OF FREQUENCY AT VARIOUS TEMPERATURES
“C” Case 33 μF, 50 V Capacitors
“K” Case 56 μF, 125 V Capacitors
100
100
10
10
- 55 °C
- 55 °C
- 40 °C
- 20 °C
- 40 °C
- 20 °C
1.0
0.1
1.0
0.1
+ 25 °C
+ 85 °C
100K
+ 25 °C
+ 125 °C
10K
+ 125 °C
+ 85 °C
1M
1M
100
1K
10M
100
1K
100K
Frequency (Hz)
10M
10K
Frequency (Hz)
PERFORMANCE CHARACTERISTICS
1. Operating Temperature: Capacitors are designed to
3.2 Surge Voltage Test: Capacitors shall withstand the
surge voltage applied through a 1000 10 % resistor
in series with the capacitor and voltage source at the
rate of one-half minute on, four and one-half minutes
off, for 1000 successive test cycles at + 85 °C or
+ 125 °C.
operate over a temperature range of - 55 °C to + 200 °C.
UP TO
+ 85 °C
(V)
AT
+ 125 °C
(V)
AT
+ 175 °C
(V)
AT
+ 200 °C
(V)
6
8
4
3
3.3 Following the surge voltage test, the capacitance at
+ 25 °C shall not have changed by more than 10 %
and the equivalent series resistance and DC leakage
current will not exceed the values shown in the
Standard Ratings table for each capacitor.
5
4
10
15
25
30
35
50
60
75
100
125
7
5
10
15
20
23
30
40
50
65
85
8
13
15
18
25
30
38
50
63
4. Capacitance Tolerance: The capacitance of all
capacitors shall be within the specified tolerance limits
of the nominal rating.
(1)
4.1 Measurements shall be made by the bridge method at
or referred to a frequency of 120 Hz at a temperature of
+ 25 °C. The maximum voltage applied to the capacitors
during measurement shall be 1 VRMS. Measurement
accuracy of the bridge shall be within 2 %.
5. Capacitance Change With Temperature: The
capacitance change with temperature shall not exceed
the values given in the Standard Ratings table for each
capacitor.
Note
(1)Consult Vishay Sprague for information at + 200 °C. See
paragraph 9.3.
6. Equivalent Series Resistance: Measurements shall be
made by the bridge method at, or referred to, a
frequency of 120 Hz at a temperature of + 25 °C. A
2. DC Working Voltage: The DC working voltage is the
maximum operating voltage for continuous duty at the
rated temperature.
maximum of
measurement.
1
VRMS shall be applied during
3. Surge Voltage: The surge voltage rating is the
maximum voltage to which the capacitors should be
subjected under any conditions. This includes
transients and peak ripple at the highest line voltage.
6.1 The equivalent series resistance shall not exceed the
maximum value in ohms listed in the Standard Ratings
table for each capacitor.
3.1 The surge voltage of capacitors is 115 % of rated DC
working voltage.
Revision: 09-Apr-13
Document Number: 40024
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For technical questions, contact: tantalum@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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6.2 The dissipation factor may be calculated from the
equivalent series resistance and capacitance values as
shown:
TYPICAL LEAKAGE CURRENT FACTOR
RANGE
2fRC
-----------------
DF =
1.0
0.9
0.8
104
where:
0.7
0.6
DF = Dissipation Factor in %
R = ESR in
0.5
0.4
C = Capacitance in μF
f = Frequency in Hz
0.3
0.2
At 120 Hz, the above equation becomes:
R x C
13.26
--------------
DF =
For example, percent dissipation factor of a 30 μF, 6 V
capacitor, which has a maximum ESR of 4.0 at
+ 25 °C and 120 Hz, would be calculated as shown:
0.1
0.09
0.08
0.07
0.06
2 x 120 x 4 x 30
4 x 30
13.26
---------------------------------------------
---------------
= 9.05 %
DF =
=
104
7. Leakage Current: Measurements shall be made at the
applicable rated working voltage at + 25 °C 5 °C
0.05
0.04
through application of a steady source of power, such
as a regulated power supply. A 1000 resistor to limit
the charging current shall be conected in series with
each capacitor under test. Rated working voltage shall
be applied to capacitors for 5 minutes before making
leakage current measurements.
0.03
0.02
7.1 The maximum leakage current for any capacitor shall
not exceed the maximum value in mA listed in the
Standard Ratings and Extended Ratings table for each
capacitor.
0.01
0
10 20 30 40 50 60 70 80 90 100
PERCENT OF RATED VOLTAGE
Note
•
Leakage current varies with applied voltage. See graph next
column for the appropriate adjustment factor
9.3 Capacitors are capable of withstanding life test at the
following conditions:
8. Low Temperature Impedance: The impedance of any
capacitor at - 55 °C at 120 Hz, shall not exceed the
values given in the Standard Ratings and Extended
Ratings tables.
TEMPERATURE
+ 175 °C
HOURS
2000
300
% RATED VOLTAGE
50
65
60
9. Life Test: Capacitors are capable of withstanding a
2000 h life test at a temperature of + 85 °C or + 125 °C
at the applicable rated DC working voltage.
+ 175 °C
+ 200 °C
300
9.4 Following the life test, the capacitors shall be returned
to + 25 °C 5 °C. The leakage current, at the rated
voltage shall not exceed 200 % of the original
9.1 Following the life test, the capacitors shall be returned
to 25 °C 5 °C. The leakage current, measured at the
+ 85 °C rated voltage, shall not be in excess of the
original requirement; the capacitance value shall not
requirement or
10 μA, whichever is greater; the
equivalent series resistance shall not be greater than
200 % of the original requirement; the capacitance
value shall not increase by more than 10 % or decrease
by more than 20 % from the initial measurement.
exceed 150
% of the initial requirement; the
capacitance value shall not change more than 10 %
from the initial measurement.
Revision: 09-Apr-13
Document Number: 40024
8
For technical questions, contact: tantalum@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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10. Ripple Life Test at + 85 °C: Capacitors shall be tested
in accordance with Military Specification MIL-C-39006
except that:
14. Random Vibration: Capacitors shall withstand
random vibration at all levels up to 51 g RMS overall
when tested in accordance with MIL-STD-202,
method 214, test condition II K. The test shall be
conducted for 1.5 h in each of three mutually
perpenticular directions.
a) Operation conditions: This test shall be run at a
frequency of 40 kHz 2 kHz sinusoidal and at the
RMS ripple current levels specified in the Standard
Ratings and Extended Ratings table.
14.1 Electrical measurements made during the test shall
show no intermittent contacts, open circuits or short
circuits.
b) Applied DC voltage shall be reduced so that the
peak AC voltage plus DC voltage shall not exceed
the rated voltage of the capacitor in either the
forward or reverse direction.
15. Pull Test: Leads shall withstand a tensile stress of 3
lbs. (1.4 kg) for 30 s applied axially in accordance with
MIL-STD-202, method 211, test condition A.
10.1 When tested as specified above, capacitors shall meet
the following requirements:
16. Lead Bend Test: Leads shall meet the bend test
specified in Military Standard MIL-STD-202, method
211 A, condition C except that the number of bends
shall be 4.
a) The DC leakage current at + 25 °C and at + 85 °C
shall not exceed the original requirements.
b) The capacitance shall not change more than 15 %
from the initial measured value.
17. Moisture Resistance: Capacitors shall withstand the
moisture resistance cycling test specified in Military
Standard MIL-STD-202, method 106, without
departure from the original limits of capacitance,
equivalent series resistance and DC leakage current.
c) The dissipation factor shall not exceed the original
requirements.
d) Visual examination: There shall be no damage,
obliteration of marking or leakage of electrolyte.
18. Reduced Pressure: Capacitors shall be stabilized at
a reduced atmospheric pressure of 0.82" [20.83 mm]
of mercury for a period of 5 min. Rated DC voltage
shall be applied for 1 min. Capacitors shall not flash
over nor shall end seals be damaged by this nor
should the capacitors be electrically effected insofar
as capacitance, equivalent series resistance or
leakage current is concerned.
11. Reverse Voltage Test: Capcitors shall withstand a
reverse voltage of 3 VDC at + 85 °C or 2 V at + 125 °C
for 2000 h. The capacitors shall then be restabilized for
24 h at 85 °C with rated DC forward potential applied
through a 1000 resistor.
11.1 Following the reverse voltage test, the DC leakage
current shall not be in excess of the original
requirement; the equivalent series resistance shall not
19. Seal Test:
exceed 200
% of the initial requirement; the
19.1 Capacitors shall be tested in accordance with
MIL-STD-202, method 112, test condition C,
procedure IIIa. Specimens shall be pressurized at 4
atmospheres (gage) for 4 h.
capacitance value shall not be less than 90 % of the
initial measurement.
12. Mechanical Shock Test: Capacitors shall withstand a
shock of 500 g when tested in accordance with
method 213 of MIL-STD-202, test condition D.
20. Thermal Shock: Capacitors shall be subjected to 300
cycles of thermal shock in accordance with Military
specification MIL-C-39006.
12.1 Following the mechanical shock test, capacitors shall
be examined for evidence of mechanical damage and
leakage of electrolyte. Capacitance, equivalent series
resistance, and DC leakage current shall meet the
initial requirements.
20.1 Following the thermal shock test, capacitor leakage
current shall not exceed twice the initial requirement.
21. Marking: Capacitors shall be marked with Sprague,
the Sprague type (135D); rated capacitance and
tolerance (the tolerance shall be coded, using the list
shown in How to Order); rated DC working voltage at
+ 85 °C; the standard EIA date code of manufacture.
13. High Frequency Vibration: Capacitors shall
withstand vibration from 10 Hz to 2000 Hz at 80 g
without internal damage when tested in accordance
with MIL-STD-202, method 204, test condition H.
Electrical measurements made while under these
conditions shall show no intermittent contacts, open
circuits or short circuits.
21.1 Polarity shall be indicated by plus signs (+) adjacent to
the positive terminal.
13.1 Capacitors shall be securely fastened by means of
suitable component clips or brackets.
Revision: 09-Apr-13
Document Number: 40024
9
For technical questions, contact: tantalum@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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GUIDE TO APPLICATION
1. AC Ripple Current: Subjecting a capacitor to an AC
voltage causes an AC current to flow through it. The
amplitude of the current is dependent on the impedance
of the capacitor at the frequency of the applied signal:
There will be a point at the lower frequency and
capacitance values when the peak AC voltage will be the
limiting factor on the ripple current - not its heating
effects.
For example:
V
Z
---
I =
Given a 25 μF, 8 V capacitor in the “C” case code and
assuming a ripple current application at a frequency of
120 Hz, the total maximum allowable peak to peak
voltage at + 25 °C is:
where:
I = Ripple current
V = Applied AC voltage
8 VF + 3 VR = 11 Vpp
Z = Impedance of capacitor (frequency dependent)
In order to allow the full swing of 11 Vpp and not exceed
rated forward or rated reverse, a DC bias of 2.5 V is
assumed to be applied.
This current causes heating in the capacitor because of
I2R losses (R is the equivalent series resistance at the
applied frequency). This heating or power dissipation, is
one of the limiting factors of the capacitor’s ripple current
rating.
From the ”Standard Ratings Table”, the maximum ripple
current at 40 kHz is 0.820 A. Compensating for the lower
frequency from the “Ripple Current Multipliers” tables:
MAXIMUM PERMISSIBLE
IRMS (120 Hz) = 0.820 A x 0.6 = 0.492 ARMS
CASE CODE
POWER DISSIPATION
AT + 25 °C (W) IN FREE AIR
This current rating is calculated strictly on the basis of
maximum power dissipation. Now calculate what
impressed voltage this amount of current will cause
across this capacitor.
C
F
1.00
1.55
1.75
1.95
T
K
Assuming a sinusoidal voltage, calculate the rated peak
to peak current:
These power dissipation ratings are based on a
calculated + 50 °C internal temperature rise in still air. The
maximum allowable ripple currents given in the Standard
and Extended Ratings tables are based on these ratings
and the maximum equivalent series resistance at that
frequency.
Ipp = IRMS x 2 2 = 0.492 x 2.828 = 1.39 App
V
ppimpressed= Ipp x ZC 120 Hz
where:
ZC120Hz
2
ESR2 + (XC
(120 Hz)
The relationship is written as follows:
=
P = I2R
ESR = 4 (from “Standard Ratings” table)
where:
1
1
P = Maximum power
I = Maximum ripple current
R = Equivalent series resistance
Therefore:
XC
=
=
= 53.1
212025 x 10-6
2fC
Therefore:
ZC
=
42 + 53.12 = 53.3
P
R
and
I = ---
Vppimpressed = 1.39 App x 53.3
= 74.1 Vpp 11 Vpp
where:
R is in
P is in W
I is in ARMS
Therefore, the peak voltage of the capacitor is the limiting
factor for the ripple current and can be calculated as
follows:
2. AC Ripple Voltage: In operation, the peak voltage across
the capacitor (DC working voltage plus peak ripple
voltage) must not exceed the rated working voltage of the
capacitor. The DC component of the applied voltage
should be sufficiently large to prevent polarity reversal in
excess of 3 V at + 85 °C or 2 V at 125 °C.
VCppallowed
---------------------------------------- ------------------
= 0.206 App
11.0 V
53.3
Max. Ipp
=
=
ZC
or
0.206
--------------
= 0.073 ARMS at 120 Hz
2 2
Revision: 09-Apr-13
Document Number: 40024
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Verifying that the 40 kHz rating does not exceed the peak
voltage limitations:
3. Ripple Current Multipliers: The “Standard and
Extended Ratings” tables list the maximum permissible
RMS ripple current at 40 kHz for each rating. These
values arebased on the maximum power dissipation
allowed at that frequency.
Irated = 0.820 ARMS
Ipprated = 0.820 x 2 2 = 2.32 App
This ripple current, will cause heating, which adds to the
ambient temperature. The higher ambient temperatures,
voltage derating or current derating is required (see
“Ripple Current Multipliers” tables). Also shown are the
multipliers for ripple currents at various requencies,
caused by the frequency dependence of the (ESR)
equivalent series resistance. (see “Typical ESR as a
Function of Frequency” chart)
2
ZC (40 kHz)
where:
=
ESR40 kHz2 + (XC
(40 Hz)
ESR40 kHz = 4
x 0.34
120 Hz
from Extended Ratings table) = 1.36
and:
1
TYP. ESR AS A FUNCTION OF FREQUENCY
-------------
XC (40 kHz)
=
2fC
1.4
1.2
1.0
1
------------------------------------------------------------------------------
=
= 0.159
2 x 40 x 103 x 25 x 10-6
thus:
0.8
0.6
0.4
0.2
0
ZC 40kHz
=
1.362 + 0.1592 = 1.37
Therefore the impressed voltage is:
VCpp = ZCpp
and:
I
pp= 1.37 x 2.32 App = 3.18 Vpp
10
100
1K
10K
40K 100K
1M
3.18 V 11 V
FREQUENCY (Hz)
Therefore, if the capacitor is biased between - 1.41 VDC
and + 6.41 VDC , it can withstand the rated ripple current,
which is based only on the maximum allowable power
dissipation.
RIPPLE CURRENT MULTIPLIERS (120 Hz to 1 kHz)
RIPPLE CURRENT MULTIPLIERS
% OF + 85 °C
RATED PEAK
VOLTAGE
120 Hz
+ 85 °C
0.39
800 Hz
1 kHz
+ 85 °C
- 55 °C
0.60
+ 125 °C
- 55 °C
0.71
+ 85 °C
0.43
+ 125 °C
- 55 °C
0.72
+ 125 °C
100
90
-
-
0.45
0.55
0.62
0.70
0.72
-
0.60
0.46
-
0.71
0.55
-
0.72
-
80
0.60
0.52
-
-
0.71
0.62
-
-
0.72
-
-
70
0.60
0.58
0.71
0.69
0.72
67
0.60
0.60
0.27
0.71
0.71
0.32
0.72
0.32
RIPPLE CURRENT MULTIPLIERS (10 kHz to 100 kHz)
RIPPLE CURRENT MULTIPLIERS
% OF + 85 °C
RATED PEAK
VOLTAGE
10 kHz
+ 85 °C
0.55
40 kHz
100 kHz
+ 85 °C
0.69
- 55 °C
0.88
+ 125 °C
- 55 °C
1.0
+ 85 °C
0.63
0.77
0.87
0.97
1.0
+ 125 °C
- 55 °C
1.1
+ 125 °C
100
90
-
-
-
0.88
0.67
-
1.0
-
1.1
0.85
-
80
0.88
0.76
-
-
1.0
-
-
1.1
0.96
-
-
70
0.88
0.85
1.0
1.1
1.07
67
0.88
0.88
0.40
1.0
0.45
1.1
1.1
0.50
Revision: 09-Apr-13
Document Number: 40024
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
135D
Vishay
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For example:
4. Storage Life: A storage life of 10 years or more, with no
voltage at room temperature, may be expected.
56 μF
VC1
VC2
R
5. Series Operation: These capacitors may be used in
some series applications. For such an application to
achieve a high voltage rating (e.g. 28 μF, 250 V using two
56 μF, 125 V capacitors), a suitable balancing network of
resistors in parallel with the capacitors is required to
evenly distribute the voltage across each capacitor. The
value of the appropriate resistor will be dependent on the
DC leakage current of the capacitors and, as
recommended value, it should be selected to allow a
current equal to 10 times the DC leakage current limit
(see Standard Ratings and Extended Ratings table at the
appropriate temperature) to flow parallel to each
capacitor.
125 V
56 μF
V = 250 VDC
R
125 V
For example:
R =
VC
125 V
-------------------- -----------------------
=
= 625 k
10 IDCL 200 μA
where:
VC = Voltage across capacitor
IDCL = DC leakage current at + 85 °C from Standard
Ratings and Extended Ratings table
6. Special Applications: Vishay Sprague product
specialists will, on request, furnish recommendations for
your particular application.
TYPICAL CURVES OF IMPEDANCE, AS A FUNCTION OF FREQUENCY
“C” Case 33 μF, 50 V Capacitors (Extended Ratings)
“C” Case 22 μF, 75 V Capacitors (Extended Ratings)
100
100
10
1.0
0.1
10
1.0
0.1
- 55 °C
- 40 °C
- 20 °C
+ 25 °C
- 55 °C
- 40 °C
- 20 °C
+ 25 °C
+ 85 °C
+ 125 °C
10K
+ 85 °C
+ 125 °C
100
1K
10K
Frequency (Hz)
100
1K
100K
1M
10M
100K
Frequency (Hz)
1M
10M
“F” Case 560 μF, 6 V Capacitors (Extended Ratings)
“C” Case 3.6 μF, 125 V Capacitors
100
400
100
- 55 °C
10
1.0
0.1
- 40 °C
- 20 °C
10
- 55 °C
- 40 °C
- 20 °C
+ 25 °C
+ 25 °C
1.0
0.2
+ 125 °C
+ 125 °C
+ 85 °C
+ 85 °C
100
1K
10K
Frequency (Hz)
100K
1M
10M
100
1K
10K
Frequency (Hz)
100K
1M
10M
Revision: 09-Apr-13
Document Number: 40024
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For technical questions, contact: tantalum@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
135D
Vishay
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TYPICAL CURVES OF IMPEDANCE, AS A FUNCTION OF FREQUENCY
“F” Case 180 μF, 10 V Capacitors
“F” Case 180 μF, 25 V Capacitors (Extended Ratings)
100
10
100
- 55 °C
- 40 °C
10
1.0
0.1
- 55 °C
- 40 °C
- 20 °C
- 20 °C
1.0
0.1
+ 25 °C
+ 85 °C
+ 25 °C
+ 125 °C
+ 85 °C
+ 125 °C
1K
100
1K
10K
Frequency (Hz)
100
10K
Frequency (Hz)
100K
1M
10M
100K
1M
10M
Revision: 09-Apr-13
Document Number: 40024
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THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
Legal Disclaimer Notice
www.vishay.com
Vishay
Disclaimer
ALL PRODUCT, PRODUCT SPECIFICATIONS AND DATA ARE SUBJECT TO CHANGE WITHOUT NOTICE TO IMPROVE
RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.
Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,
“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other
disclosure relating to any product.
Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or
the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all
liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special,
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Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of typical
requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements
about the suitability of products for a particular application. It is the customer’s responsibility to validate that a particular
product with the properties described in the product specification is suitable for use in a particular application. Parameters
provided in datasheets and/or specifications may vary in different applications and performance may vary over time. All
operating parameters, including typical parameters, must be validated for each customer application by the customer’s
technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase,
including but not limited to the warranty expressed therein.
Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining
applications or for any other application in which the failure of the Vishay product could result in personal injury or death.
Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk. Please
contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications.
No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by
any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.
Material Category Policy
Vishay Intertechnology, Inc. hereby certifies that all its products that are identified as RoHS-Compliant fulfill the
definitions and restrictions defined under Directive 2011/65/EU of The European Parliament and of the Council
of June 8, 2011 on the restriction of the use of certain hazardous substances in electrical and electronic equipment
(EEE) - recast, unless otherwise specified as non-compliant.
Please note that some Vishay documentation may still make reference to RoHS Directive 2002/95/EC. We confirm that
all the products identified as being compliant to Directive 2002/95/EC conform to Directive 2011/65/EU.
Vishay Intertechnology, Inc. hereby certifies that all its products that are identified as Halogen-Free follow Halogen-Free
requirements as per JEDEC JS709A standards. Please note that some Vishay documentation may still make reference
to the IEC 61249-2-21 definition. We confirm that all the products identified as being compliant to IEC 61249-2-21
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Revision: 02-Oct-12
Document Number: 91000
1
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