• Material categorization: for definitions of compliance
please see
www.vishay.com/doc?99912
Available
QUICK REFERENCE DATA
DESCRIPTION
Nominal case size
Ø D x L in mm
Operating temperature
Rated capacitance range, C
R
Tolerance on C
R
Rated voltage range, U
R
Termination
VALUE
0.248" x 0.512" [6.3 x 13.0]
to 0.709" x 1.574" [18.0 x 40.0]
-40 °C to +105 °C
1 μF to 4700 μF
± 20 %
3 WV
DC
to 250 WV
DC
Axial leads
2000 h:
CAP
20 % from initial
measurement.
ESR
1.5 x initial specified limit.
DCL
initial specified limit.
500 h:
CAP
20 % from initial
measurement.
ESR
1.5 x initial specified limit.
DCL
2.0 x initial specified limit.
3 WV
DC
to 16 WV
DC
:
I
=
0.1 CV
+
2
25 WV
DC
to 250 WV
DC
:
I
=
0.2 CV
+
2
I in μA, C in μF, V in Volts
RIPPLE CURRENT MULTIPLIERS
TEMPERATURE
AMBIENT TEMPERATURE
MULTIPLIERS
+105 °C
0.5
+85 °C
1.0
65 °C
2.0
FREQUENCY (Hz)
WV
DC
50 TO 60 100 TO 120 300 TO 400 1K TO 100K
3 to 50
0.9
1.0
1.1
1.4
51 to 250
0.8
1.0
1.3
1.6
Life validation test at 105 °C
Shelf life at 85 °C
DC leakage current
DIMENSIONS
in inches [millimeters]
CASE
CODE
BA
BB
CB
CC
DC
DD
DF
DH
EF
EH
FH
FK
GH
GK
LS
NOMINAL
D
0.248 [6.300]
0.248 [6.300]
0.315 [8.000]
0.315 [8.000]
0.374 [9.500]
0.374 [9.500]
0.374 [9.500]
0.374 [9.500]
0.433 [11.000]
0.433 [11.000]
0.492 [12.500]
0.492 [12.500]
0.630 [16.000]
0.630 [16.000]
0.709 [18.000]
L
0.512 [13.000]
0.689 [17.500]
0.689 [17.500]
0.807 [20.500]
0.807 [20.500]
0.945 [24.000]
1.260 [32.000]
1.496 [38.000]
1.260 [32.000]
1.496 [38.000]
1.496 [38.000]
1.752 [44.500]
1.496 [38.000]
1.752 [44.500]
1.575 [40.000]
STYLE 2
D (max.)
0.276 [7.000]
0.276 [7.000]
0.339 [8.600]
0.339 [8.600]
0.402 [10.200]
0.402 [10.200]
0.402 [10.200]
0.402 [10.200]
0.465 [11.800]
0.465 [11.800]
0.516 [13.100]
0.516 [13.100]
0.654 [16.600]
0.654 [16.600]
0.736 [18.700]
L (max.)
0.567 [14.400]
0.756 [19.200]
0.756 [19.200]
0.878 [22.300]
0.878 [22.300]
1.01 [25.500]
1.319 [33.500]
1.567 [39.800]
1.319 [33.500]
1.567 [39.800]
1.567 [39.800]
1.831 [46.500]
1.567 [39.800]
1.831 [46.500]
1.673 [42.500]
STYLE 5
RESIN END SEAL APPLIED
D (max.)
L (max.)
0.276 [7.000]
0.626 [15.900]
0.276 [7.000]
0.815 [20.700]
0.339 [8.600]
0.815 [20.700]
0.339 [8.600]
0.937 [23.800]
0.402 [10.200]
0.937 [23.800]
0.402 [10.200]
1.063 [27.000]
0.402 [10.200]
1.378 [35.000]
0.402 [10.200]
1.626 [41.300]
0.465 [11.800]
1.378 [35.000]
0.465 [11.800]
1.626 [41.300]
0.516 [13.100]
1.626 [41.300]
0.516 [13.100]
1.890 [48.000]
0.654 [16.600]
1.626 [41.300]
0.654 [16.600]
1.890 [48.000]
0.736 [18.700]
1.693 [43.000]
Note
• Lead diameter AWG 20 (0.032" [0.81 mm])
Revision: 20-Jul-16
Document Number: 42041
1
For technical questions, contact:
aluminumcaps4@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
30D
www.vishay.com
ORDERING EXAMPLE
Electrolytic capacitor 30D series: 30D 128 M 025 EH 2 A
Vishay Sprague
DESCRIPTION
CODE
30D
128
M
025
EH
2
A
EXPLANATION
Product type
Capacitance value (1200 μF)
Tolerance (M = ± 20 %)
Voltage rating at 105 °C (024 = 25 V)
Can size (see Dimensions table)
Sleeve and sealing (2 = mylar sleeve)
Packaging (A = bulk)
Note
• For lead (Pb)-free / RoHS-compliant products add suffix “E3” to part number.
Example: 30D128M025EH2AE3
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER
NOMINAL CASE SIZE
DxL
[mm]
6.3 WV
DC
AT +105 °C, SURGE = 8 V
150.0
330.0
1200.0
2200.0
4700.0
30D157M6R3BB2A
30D337M6R3CC2A
30D128M6R3DF2A
30D228M6R3EF2A
30D478M6R3GH2A
0.248 x 0.689 [6.3 x 17.5]
0.315 x 0.807 [8.0 x 20.5]
0.374 x 1.260 [9.5 x 32.0]
0.433 x 1.260 [11.0 x 32.0]
0.630 x 1.496 [16.0 x 38.0]
10 WV
DC
AT +105 °C, SURGE = 12 V
47.0
100.0
330.0
470.0
1000.0
2200.0
30D476M010BA2A
30D107M010BB2A
30D337M010CC2A
30D477M010DC2A
30D108M010DF2A
30D228M010EH2A
0.248 x 0.512 [6.3 x 13.0]
0.248 x 0.689 [6.3 x 17.5]
0.315 x 0.807 [8.0 x 20.5]
0.374 x 0.807 [9.5 x 20.5]
0.374 x 1.260 [9.5 x 32.0]
0.433 x 1.496 [11.0 x 38.0]
16 WV
DC
AT +105 °C, SURGE = 20 V
33.0
150.0
330.0
470.0
1200.0
4700.0
30D336M016BA2A
30D157M016CB2A
30D337M016DC2A
30D477M016DD2A
30D128M016DH2A
30D478M016GK2A
0.248 x 0.512 [6.3 x 13.0]
0.315 x 0.689 [8.0 x 17.5]
0.374 x 0.807 [9.5 x 20.5]
0.374 x 0.945 [9.5 x 24.0]
0.374 x 1.496 [9.5 x 38.0]
0.630 x 1.752 [16.0 x 44.5]
20 WV
DC
AT +105 °C, SURGE = 25 V
150.0
220.0
1000.0
1500.0
3300.0
Revision: 20-Jul-16
30D157M020CC2A
30D227M020DC2A
30D108M020EF2A
30D158M020EH2A
30D338M020GK2A
0.315 x 0.807 [8.0 x 20.5]
0.374 x 0.807 [9.5 x 20.5]
0.433 x 1.260 [11.0 x 32.0]
0.433 x 1.496 [11.0 x 38.0]
0.630 x 1.752 [16.0 x 44.5]
2.110
1.410
0.323
0.221
0.118
0.233
0.318
0.863
1.140
2.040
9.814
2.208
1.981
0.679
0.265
0.093
0.078
0.212
0.379
0.483
0.947
2.290
7.487
3.561
1.081
0.748
0.356
0.184
0.089
0.147
0.325
0.434
0.755
1.240
2.875
1.277
0.345
0.206
0.118
0.163
0.299
0.767
1.080
1.910
MAX. ESR
AT +25 °C
120 Hz
()
MAX. RIPPLE
AT +85 °C
120 Hz
(A)
Document Number: 42041
2
For technical questions, contact:
aluminumcaps4@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
30D
www.vishay.com
Vishay Sprague
MAX. ESR
AT +25 °C
120 Hz
()
MAX. RIPPLE
AT +85 °C
120 Hz
(A)
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER
NOMINAL CASE SIZE
DxL
[mm]
25 WV
DC
AT +105 °C, SURGE = 35 V
22.0
47.0
100.0
220.0
330.0
470.0
1200.0
3300.0
30D226M025BA2A
30D476M025BB2A
30D107M025CC2A
30D227M025DC2A
30D337M025DD2A
30D477M025DF2A
30D128M025EH2A
30D338M025LS2A
0.248 x 0.512 [6.3 x 13.0]
0.248 x 0.689 [6.3 x 17.5]
0.315 x 0.807 [8.0 x 20.5]
0.374 x 0.807 [9.5 x 20.5]
0.374 x 0.945 [9.5 x 24.0]
0.374 x 1.260 [9.5 x 32.0]
0.433 x 1.496 [11.0 x 38.0]
0.709 x 1.575 [18.0 x 40.0]
35 WV
DC
AT +105 °C, SURGE = 45 V
33.0
100.0
220.0
330.0
1000.0
2200.0
30D336M035BB2A
30D107M035DC2A
30D227M035DD2A
30D337M035DF2A
30D108M035EH2A
30D228M035GK2A
0.248 x 0.689 [6.3 x 17.5]
0.374 x 0.807 [9.5 x 20.5]
0.374 x 0.945 [9.5 x 24.0]
0.374 x 1.260 [9.5 x 32.0]
0.433 x 1.496 [11.0 x 38.0]
0.630 x 1.752 [16.0 x 44.5]
40 WV
DC
AT +105 °C, SURGE = 50 V
15.0
22.0
47.0
100.0
470.0
1000.0
2200.0
30D156M040BA2A
30D226M040BB2A
30D476M040CB2A
30D107M040DC2A
30D477M040DH2A
30D108M040FK2A
30D228M040LS2A
0.248 x 0.512 [6.3 x 13.0]
0.248 x 0.689 [6.3 x 17.5]
0.315 x 0.689 [8.0 x 17.5]
0.374 x 0.807 [9.5 x 20.5]
0.374 x 1.496 [9.5 x 38.0]
0.492 x 1.752 [12.5 x 44.5]
0.709 x 1.575 [18.0 x 40.0]
50 WV
DC
AT +105 °C, SURGE = 65 V
10.0
22.0
33.0
100.0
220.0
330.0
1500.0
30D106M050BA2A
30D226M050BB2A
30D336M050CB2A
30D107M050DC2A
30D227M050DF2A
30D337M050DH2A
30D158M050GK2A
0.248 x 0.512 [6.3 x 13.0]
0.248 x 0.689 [6.3 x 17.5]
0.315 x 0.689 [8.0 x 17.5]
0.374 x 0.807 [9.5 x 20.5]
0.374 x 1.260 [9.5 x 32.0]
0.374 x 1.496 [9.5 x 38.0]
0.630 x 1.752 [16.0 x 44.5]
63 WV
DC
AT +105 °C, SURGE = 75 V
15.0
33.0
47.0
100.0
220.0
470.0
1000.0
30D156M063BB2A
30D336M063CB2A
30D476M063CC2A
30D107M063DD2A
30D227M063EF2A
30D477M063EH2A
30D108M063GK2A
0.248 x 0.689 [6.3 x 17.5]
0.315 x 0.689 [8.0 x 17.5]
0.315 x 0.807 [8.0 x 20.5]
0.374 x 0.945 [9.5 x 24.0]
0.433 x 1.260 [11.0 x 32.0]
0.433 x 1.496 [11.0 x 38.0]
0.630 x 1.752 [16.0 x 44.5]
16.580
7.370
5.100
2.426
1.105
0.510
0.242
0.068
0.116
0.149
0.256
0.467
0.745
1.420
25.85
11.700
7.850
2.585
1.177
0.785
0.176
0.048
0.081
0.112
0.233
0.417
0.551
1.670
17.600
11.700
5.435
2.585
0.543
0.258
0.125
0.058
0.081
0.134
0.234
0.663
1.210
2.040
8.330
2.740
1.250
0.830
0.274
0.125
0.096
0.212
0.356
0.495
1.020
1.980
13.270
6.128
2.914
1.327
0.885
0.612
0.239
0.108
0.067
0.112
0.197
0.326
0.423
0.575
1.090
2.190
Revision: 20-Jul-16
Document Number: 42041
3
For technical questions, contact:
aluminumcaps4@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
30D
www.vishay.com
Vishay Sprague
MAX. ESR
AT +25 °C
120 Hz
()
MAX. RIPPLE
AT +85 °C
120 Hz
(A)
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER
NOMINAL CASE SIZE
DxL
[mm]
75 WV
DC
AT +105 °C, SURGE = 85 V
12.0
47.0
120.0
1000.0
30D126M075BB2A
30D476M075DC2A
30D127M075DF2A
30D108M075LS2A
0.248 x 0.689 [6.3 x 17.5]
0.374 x 0.807 [9.5 x 20.5]
0.374 x 1.260 [9.5 x 32.0]
0.709 x 1.575 [18.0 x 40.0]
100 WV
DC
AT +105 °C, SURGE = 125 V
4.7
10.0
100.0
220.0
470.0
30D475M100BB2A
30D106M100CB2A
30D107M100DH2A
30D227M100EK2A
30D477M100LS2A
0.248 x 0.689 [6.3 x 17.5]
0.315 x 0.689 [8.0 x 17.5]
0.374 x 1.496 [9.5 x 38.0]
0.492 x 1.752 [12.5 x 44.5]
0.709 x 1.575 [18.0 x 40.0]
160 WV
DC
AT +105 °C, SURGE = 180 V
1.5
3.3
10.0
22.0
33.0
47.0
100.0
30D155M160BA2A
30D335M160CB2A
30D106M160DC2A
30D226M160DF2A
30D336M160EF2A
30D476M160EH2A
30D107M160GK2A
0.248 x 0.512 [6.3 x 13.0]
0.315 x 0.689 [8.0 x 17.5]
0.374 x 0.807 [9.5 x 20.5]
0.374 x 1.260 [9.5 x 32.0]
0.433 x 1.260 [11.0 x 32.0]
0.433 x 1.496 [11.0 x 38.0]
0.630 x 1.752 [16.0 x 44.5]
200 WV
DC
AT +105 °C, SURGE = 250 V
1.2
4.7
8.2
10.0
22.0
33.0
47.0
100.0
30D125M200BA2A
30D475M200CC2A
30D825M200DC2A
30D106M200DD2A
30D226M200DH2A
30D336M200EH2A
30D476M200EK2A
30D107M200LS2A
0.248 x 0.512 [6.3 x 13.0]
0.315 x 0.807 [8.0 x 20.5]
0.374 x 0.807 [9.5 x 20.5]
0.374 x 0.945 [9.5 x 24.0]
0.374 x 1.496 [9.5 x 38.0]
0.433 x 1.496 [11.0 x 38.0]
0.492 x 1.752 [12.5 x 44.5]
0.709 x 1.575 [18.0 x 40.0]
250 WV
DC
AT +105 °C, SURGE = 300 V
1.0
3.3
12.0
47.0
Statements about product lifetime are based on calculations and internal testing. They should only be interpreted as estimations. Also due to external factors, the
lifetime in the field application may deviate from the calculated lifetime. In general, nothing stated herein shall be construed as a guarantee of durability.
13.200
3.384
1.320
0.160
0.076
0.204
0.392
1.810
33.840
16.097
1.609
0.733
0.338
0.048
0.079
0.386
0.717
1.240
110.10
48.880
16.097
7.333
4.888
3.384
1.609
0.023
0.045
0.093
0.166
0.222
0.289
0.552
132.01
33.850
19.410
16.090
7.331
4.880
3.384
1.609
0.022
0.058
0.085
0.101
0.181
0.241
0.334
0.571
30D105M250BA2A
30D335M250CC2A
30D126M250DF2A
30D476M250GH2A
0.248 x 0.512 [6.3 x 13.0]
0.315 x 0.807 [8.0 x 20.5]
0.374 x 1.260 [9.5 x 32.0]
0.630 x 1.496 [16.0 x 38.0]
160.97
48.010
13.210
3.384
0.021
0.049
0.124
0.355
Revision: 20-Jul-16
Document Number: 42041
4
For technical questions, contact:
aluminumcaps4@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
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,
consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular
purpose, non-infringement and merchantability.
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.
I used the emptyproject in the library and added code to flash two LEDs alternately. The code is as follows. #include "driverlib.h" //******************************************************************...
[align=left]Before, I used the IO port to simulate SPI to drive the OLED. After all, the speed of the IO port is slower than SPI, and there will be obvious delays when refreshing. It is much better to...
I originally had a 2440 source code that I could modify, and I thought that I didn't need to modify the SD card part, so it would be easy. But I found that the 2440 and my 2416 have quite different SD...
Recently, due to the epidemic, we have been closed twice in less than a month. The order backlog is serious and I want to find a patch welding factory for welding. Since the patch was done manually be...
hrRilInit = RIL_Initialize(1, FDNResultCallback, FDNNotifyCallback, dwRILNotificationClasses, NULL, &g_hRil ); When are the callback functions FDNResultCallback and FDNNotifyCallback in the above func...
On August 23rd, Geely's subsidiary, Jiyao Tongxing, announced it has the industry's largest advanced production capacity for tandao
batteries
, with eight production bases across China. Jiy...[Details]
When you are happily watching NBA or football, your wife asks you to turn off the lights in the bedroom. Would you be depressed? Of course, unless you are not afraid of your wife.
Now you are ...[Details]
Electric motors and internal combustion engines of the same power have similar torque levels. High power requires high torque, and torque determines a vehicle's acceleration speed, commonly known a...[Details]
Is pure electric vehicles a false proposition for long-distance driving? At least from my personal perspective, based on current technological and infrastructure standards, I believe so. Below, I'l...[Details]
As the main model among new energy vehicles, pure electric vehicles have received strong support and encouragement from the country in recent years, and their development is changing with each pass...[Details]
Topics: Bring Your Own Device (BYOD) trends; the impact of using employees' own mobile devices to control access to work facilities and equipment on information security; and ways to securely imple...[Details]
1. Introduction
Electronic scales are gradually replacing traditional measuring tools like springs and balances in everyday life, such as electronic price computing scales and electronic weigh...[Details]
Since the beginning of this year, price wars have intensified, new models have been launched one after another, used cars with zero kilometers have become a hot topic, and the industry's internal c...[Details]
While the current industry consensus is that autonomous vehicles are robots and that their systems are managed using robotics-developed thinking, there are also cases where autonomous driving is ac...[Details]
According to Nikkei, Japan has performed poorly in responding to China's power semiconductor challenges.
There are five major companies in Japan's power chip market: Mitsubishi Electric,...[Details]
With the advancement of science and technology and the promotion of green, energy-saving, and circular development, the demand for precise control and accurate measurement is increasing. In the pow...[Details]
Nascent Micro is launching devices covering a wide range of power applications, including gallium nitride (GaN) drivers, dual-channel automotive drivers, and battery protection MOSFETs.
...[Details]
The fracture mechanism is stress concentration, which typically occurs at the capacitor lead pins or pad connection points, as shown in the figure. Under vibration, the capacitor lead pins and pad ...[Details]
1. Introduction
In 2015, Apple's new MacBook and Apple Watch both featured force-sensing technology, which Apple calls Force Touch. Each time a user presses the touchpad, the device not only p...[Details]
On August 20, Huawei Device announced that the all-new M7 is the first to feature an in-cabin laser vision solution. This solution offers enhanced active safety capabilities compared to primary vis...[Details]
Microcontroller MCU
京公网安备 11010802033920号
EEWORLD
