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
511D
www.vishay.com
TAPE AND REEL, SPECIFICATIONS TO EIA-468
in inches [millimeters]
Formed Leads
P
Vishay Sprague
K
H
F
H
0
W
0
W
L
1
P
0
d
D
0
DIMENSIONS
in inches [millimeters]
CASE SIZE
0.236 x 0.433 [6.0 x 11.0]
0.315 x 0.472 [8.0 x 12.0]
F LEAD SPACING
0.197 [5.0]
0.197 [5.0]
STD. QTY/REEL
800
700
Unformed Leads
P
H
F
W
0
W
L
1
P
0
d
D
0
f
DIMENSIONS
in inches [millimeters]
CASE SIZE
0.236 x 0.433 [6.0 x 11.0]
0.315 x 0.472 [8.0 x 12.0]
0.394 x 0.512 [10.0 x 13.0]
0.394 x 0.630 [10.0 x 16.0]
0.394 x 0.787 [10.0 x 20.0]
Note
(1)
Available as special order
F LEAD SPACING
0.098
0.140
(1)
(1)
STD. QTY/REEL
800
700
500
500
500
[2.5]
[3.5]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
Revision: 18-Jul-16
Document Number: 42051
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
511D
www.vishay.com
Vishay Sprague
CASE SIZE (Diameter x Length)
0.315 x 0.472
0.394 x 0.512
0.394 x 0.630
[8.0 x 12.0]
[10.0 x 13.0]
[10.0 x 16.0]
0.025 [0.63]
0.025 [0.63]
0.025 [063]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.157 [4.0]
n/a
n/a
0.787 [20.0]
0.906 [23.0]
0.906 [23.0]
0.630 [16.0]
n/a
n/a
0.709 [18.0]
0.709 [18.0]
0.709 [18.0]
0.591 [15.0]
0.591 [15.0]
0.591 [15.0]
0.157[4.0]
0.157 [4.0]
0.157 [4.0]
0.028 [0.7]
0.157 [4.0]
0.157 [4.0]
0.118 [3.0]
0.118 [3.0]
0.118 [3.0]
DIMENSIONS
in inches [millimeters]
ITEM
d - Lead-wire diameter
P - Pitch of component
P
0
- Feed hole pitch
F - Lead-to-lead distance
K - Clinch height
H - Height of component from tape center
H
0
- Lead-wire clinch height
W - Tape width
W
0
- Hold down tape width
D
0
- Feed hole diameter
t - Total tape thickness
L
1
- Maximum lead protrusion
0.236 x 0.433
[6.0 x 11.0]
0.025 [0.63]
0.500 [12.7]
0.500 [12.7]
0.197 [5.0]
0.098 [2.5]
0.728 [18.5]
0.630 [16.0]
0.709 [18.0]
0.591 [15.0]
0.157 [4.0]
0.028 [0.7]
0.118 [3.0]
0.394 x 0.787
[10.0 x 20.0]
0.020 [0.5]
0.500 [12.7]
0.500 [12.7]
0.197 [5.0]
n/a
0.906 [23.0]
n/a
0.709 [18.0]
0.591 [15.0]
0.157 [4.0]
0.157 [4.0]
0.118 [3.0]
Note
• Terminal code “I” = tape and reel. Terminal code “+” = tape and ammo. Positive leader is standard. Negative leader is available by special
order.
ORDERING EXAMPLE
Electrolytic capacitor 511D series: 511D 157 M 063 CG 4 D
DESCRIPTION
CODE
511D
157
M
063
DF
4
D
EXPLANATION
Product type
Capacitance value (150 μF)
Tolerance (M = ± 20 %)
Voltage rating at 105 °C (063 = 63 V)
Can size (see Dimensions table)
Sleeve and sealing (4 = P.V.C. sleeve)
Packaging (D = bulk; straight leads)
Note
• For lead (Pb)-free / RoHS compliant products add suffix “E3” to part number.
Example: 511D157M063CG4DE3
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER
NOMINAL CASE SIZE
DxL
IN INCHES [mm]
MAX. ESR
AT +25 °C ()
MAX. RIPPLE
AT +85 °C (A)
MAX.
IMPEDANCE
AT +25 °C ()
100 Hz
2.800
0.286
0.090
0.061
2.900
1.300
0.290
0.094
0.067
1.250
0.442
0.140
0.098
0.067
120 Hz 20 kHz TO 40 kHz 120 Hz 20 kHz TO 40 kHz
0.123
0.590
1.580
2.640
0.108
0.198
0.603
1.350
1.740
0.173
0.419
0.971
1.310
1.580
0.132
0.741
2.010
3.070
0.131
0.252
0.715
1.880
2.480
0.241
0.522
1.270
1.840
2.440
150.0
1200.0
4700.0
10 000.0
100.0
(1)
220.0
(1)
1000.0
3300.0
4700.0
511D157M6R3AA4D
511D128M6R3CG4D
511D478M6R3EK4D
511D109M6R3FR4D
511D107M010AA4D
511D227M010BB4D
511D108M010CG4D
511D338M010EK4D
511D478M010EN4D
150.0
511D157M016BB4D
511D477M016CD4D
470.0
(1)
1500.0
511D158M016DK4D
2200.0
511D228M016EK4D
3300.0
511D338M016EN4D
Note
(1)
These values are normally stocked. See Original Ratings for more values that are stocked.
Revision: 18-Jul-16
6.3 WV
DC
AT +105 °C, SURGE = 8 V
0.236 x 0.433 [6.0 x 11.0] 3.130
2.720
0.394 x 0.787 [10.0 x 20.0] 0.420
0.270
0.630 x 0.984 [16.0 x 25.0] 0.121
0.075
0.630 x 1.417 [16.0 x 36.0] 0.068
0.050
10 WV
DC
AT +105 °C, SURGE = 13 V
0.236 x 0.433 [6.0 x 11.0] 4.073
2.800
0.315 x 0.472 [8.0 x 12.0] 1.855
1.150
0.394 x 0.787 [10.0 x 20.0] 0.407
0.290
0.630 x 0.984 [16.0 x 25.0] 0.166
0.086
0.630 x 1.260 [16.0 x 32.0] 0.122
0.060
16 WV
DC
AT +105 °C, SURGE = 20 V
0.315 x 0.472 [8.0 x 12.0] 2.433
1.250
0.394 x 0.630 [10.0 x 16.0] 0.748
0.442
0.492 x 0.984 [12.5 x 25.0] 0.243
0.140
0.630 x 0.984 [16.0 x 25.0] 0.176
0.090
0.630 x 1.260 [16.0 x 32.0] 0.147
0.062
Document Number: 42051
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
511D
www.vishay.com
Vishay Sprague
MAX. ESR
AT +25 °C ()
MAX. RIPPLE
AT +85 °C (A)
MAX.
IMPEDANCE
AT +25 °C ()
100 Hz
1.350
0.900
0.500
0.305
0.100
0.080
0.064
2.950
1.350
0.105
0.074
0.980
0.310
0.112
0.078
0.062
0.981
0.311
0.221
0.157
0.078
1.450
0.488
0.231
0.068
0.068
1.110
0.341
0.125
0.068
1.210
0.341
0.261
0.211
0.105
4.210
1.710
0.531
0.215
0.078
0.074
4.910
3.210
2.250
0.531
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER
NOMINAL CASE SIZE
DxL
IN INCHES [mm]
120 Hz 20 kHz TO 40 kHz 120 Hz 20 kHz TO 40 kHz
0.166
0.266
0.350
0.467
1.120
1.510
1.920
0.089
0.158
1.127
1.580
0.239
0.468
1.170
1.490
1.980
0.232
0.411
0.573
0.719
1.390
0.137
0.302
0.567
1.590
1.760
0.184
0.385
0.995
1.690
0.153
0.318
0.439
0.589
1.110
0.041
0.071
0.165
0.437
0.958
1.150
0.086
0.162
0.216
0.504
0.232
0.331
0.468
0.703
1.660
2.150
2.810
0.127
0.232
1.660
2.520
0.323
0.697
1.660
2.180
2.810
0.323
0.698
0.959
1.190
2.180
0.221
0.509
0.937
2.510
2.710
0.299
0.671
1.560
2.710
0.295
0.661
0.862
1.050
1.880
0.106
0.202
0.477
1.030
2.320
2.610
0.157
0.245
0.319
0.876
120.0
220.0
330.0
470.0
1500.0
2200.0
3300.0
47.0
(1)
100.0
1200.0
2200.0
120.0
330.0
1000.0
1500.0
2200.0
100.0
220.0
330.0
470.0
1000.0
47.0
120.0
270.0
1000.0
1500.0
47.0
150.0
470.0
1200.0
33.0
100.0
150.0
220.0
470.0
4.7
(1)
10.0
(1)
33.0
120.0
330.0
470.0
10.0
22.0
33.0
100.0
511D127M020BB4D
511D227M020CC4D
511D337M020CD4D
511D477M020CG4D
511D158M020EK4D
511D228M020EN4D
511D338M020FR4D
511D476M025AA4D
511D107M025BB4D
511D128M025EK4D
511D228M025ER4D
511D127M035CC4D
511D337M035CG4D
511D108M035EK4D
511D158M035EN4D
511D228M035FR4D
511D107M040CC4D
511D227M040CG4D
511D337M040DG4D
511D477M040DK4D
511D108M040EN4D
511D476M050BB4D
511D127M050CD4D
511D277M050DG4D
511D108M050ER4D
511D158M050FR4D
511D476M063CC4D
511D157M063CG4D
511D477M063EK4D
511D128M063FR4D
511D336M075CC4D
511D107M075CG4D
511D157M075DG4D
511D227M075DK4D
511D477M075EN4D
511D475M100AA4D
511D106M100BB4D
511D336M100CD4D
511D127M100DK4D
511D337M100ER4D
511D477M100FR4D
511D106M160CD4D
511D226M160DG4D
511D336M160DK4D
511D107M160ER4D
20 WV
DC
AT +105 °C, SURGE = 25 V
0.315 x 0.472 [8.0 x 12.0] 2.650
1.350
0.394 x 0.512 [10.0 x 13.0] 1.472
0.950
0.394 x 0.630 [10.0 x 16.0] 0.981
0.550
0.394 x 0.787 [10.0 x 20.0] 0.679
0.300
0.630 x 0.984 [16.0 x 25.0] 0.243
0.110
0.630 x 1.260 [16.0 x 32.0] 0.163
0.080
0.630 x 1.417 [16.0 x 36.0] 0.128
0.060
25 WV
DC
AT +105 °C, SURGE = 32 V
0.236 x 0.433 [6.0 x 11.0] 6.120
2.940
0.315 x 0.472 [8.0 x 12.0] 2.914
1.350
0.630 x 0.984 [16.0 x 25.0] 0.239
0.110
0.630 x 1.417 [16.0 x 36.0] 0.162
0.064
35 WV
DC
AT +105 °C, SURGE = 44 V
0.394 x 0.512 [10.0 x 13.0] 1.830
1.010
0.394 x 0.787 [10.0 x 20.0] 0.677
0.305
0.630 x 0.984 [16.0 x 25.0] 0.223
0.110
0.630 x 1.260 [16.0 x 32.0] 0.165
0.078
0.709 x 1.417 [18.0 x 36.0] 0.121
0.060
40 WV
DC
AT +105 °C, SURGE = 50 V
0.394 x 0.512 [10.0 x 13.0] 1.939
1.010
0.394 x 0.787 [10.0 x 20.0] 0.883
0.305
0.492 x 0.787 [12.5 x 20.0] 0.588
0.210
0.492 x 0.984 [12.5 x 25.0] 0.407
0.151
0.630 x 1.260 [16.0 x 32.0] 0.193
0.078
50 WV
DC
AT +105 °C, SURGE = 63 V
0.315 x 0.472 [8.0 x 12.0] 3.884
1.510
0.394 x 0.630 [10.0 x 16.0] 1.320
0.466
0.492 x 0.787 [12.5 x 20.0] 0.601
0.221
0.630 x 1.417 [16.0 x 36.0] 0.161
0.065
0.709 x 1.417 [18.0 x 36.0] 0.153
0.065
63 WV
DC
AT +105 °C, SURGE = 79 V
0.394 x 0.512 [10.0 x 13.0] 3.076
1.170
0.394 x 0.787 [10.0 x 20.0] 1.010
0.331
0.630 x 0.984 [16.0 x 25.0] 0.307
0.125
0.709 x 1.417 [18.0 x 36.0] 0.165
0.065
75 WV
DC
AT +105 °C, SURGE = 90 V
0.394 x 0.512 [10.0 x 13.0] 4.440
1.210
0.394 x 0.787 [10.0 x 20.0] 1.460
0.341
0.492 x 0.787 [12.5 x 20.0] 1.010
0.261
0.492 x 0.984 [12.5 x 25.0] 0.666
0.211
0.630 x 1.260 [16.0 x 32.0] 0.307
0.105
100 WV
DC
AT +105 °C, SURGE = 125 V
0.236 x 0.433 [6.0 x 11.0] 30.79
4.310
0.314 x 0.472 [8.0 x 12.0] 14.63
1.810
0.394 x 0.630 [10.0 x 16.0] 4.440
0.531
0.492 x 0.984 [12.5 x 25.0] 1.210
0.215
0.630 x 1.260 [16.0 x 32.0] 0.444
0.076
0.709 x 1.417 [18.0 x 36.0] 0.361
0.071
160 WV
DC
AT +105 °C, SURGE = 185 V
0.394 x 0.630 [10.0 x 16.0] 16.09
4.910
0.492 x 0.787 [12.5 x 20.0] 7.330
3.210
0.492 x 0.984 [12.5 x 25.0] 4.880
2.250
0.630 x 1.260 [16.0 x 32.0] 1.610
0.531
Note
(1)
These values are normally stocked. See Original Ratings for more values that are stocked.
Revision: 18-Jul-16
Document Number: 42051
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
511D
www.vishay.com
Vishay Sprague
MAX. ESR
AT +25 °C ()
MAX. RIPPLE
AT +85 °C (A)
MAX.
IMPEDANCE
AT +25 °C ()
100 Hz
33.010
3.210
2.250
1.210
0.491
3.760
1.270
0.721
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER
NOMINAL CASE SIZE
DxL
IN INCHES [mm]
120 Hz 20 kHz TO 40 kHz 120 Hz 20 kHz TO 40 kHz
0.021
0.162
0.216
0.299
0.577
0.096
0.249
0.331
0.038
0.245
0.319
0.501
0.991
0.198
0.489
0.717
1.5
22.0
33.0
47.0
120.0
10.0
33.0
47.0
200 WV
DC
AT +105 °C, SURGE = 225 V
0.236 x 0.433 [6.0 x 11.0] 110.010
33.110
0.492 x 0.787 [12.5 x 20.0] 7.330
3.210
0.492 x 0.984 [12.5 x 25.0] 4.880
2.250
0.630 x 0.984 [16.0 x 25.0] 3.384
1.210
0.709 x 1.417 [18.0 x 36.0] 1.420
0.481
250 WV
DC
AT +105 °C, SURGE = 275 V
511D106M250CG4D 0.394 x 0.787 [10.0 x 20.0] 16.090
3.760
511D336M250EK4D 0.630 x 0.984 [16.0 x 25.0] 4.880
1.270
511D476M250EN4D 0.630 x 1.260 [16.0 x 32.0] 3.380
0.721
511D155M200AA4D
511D226M200DG4D
511D336M200DK4D
511D476M200EK4D
511D127M200FR4D
Note
(1)
These values are normally stocked. See Original Ratings for more values that are stocked.
ORIGINAL RATINGS
CAPACITANCE
(μF)
470.0
1000.0
2200.0
470.0
1000.0
4700.0
47.0
(1)
100.0
(1)
220.0
220.0
470.0
1000.0
22.0
47.0
100.0
(1)
220.0
470.0
1000.0
47.0
220.0
10.0
(1)
22.0
47.0
(1)
100.0
220.0
470.0
22.0
47.0
220.0
(1)
CASE CODE
6.3 WV
DC
AT +105 °C, SURGE = 8 V
CC
CG
DK
10 WV
DC
AT +85 °C, SURGE = 13 V
CD
DG
ER
16 WV
DC
AT +105 °C, SURGE = 20 V
AA
BB
CC
25 WV
DC
AT +105 °C, SURGE = 32 V
CD
DG
EK
35 WV
DC
AT +105 °C, SURGE = 44 V
AA
BB
CC
CG
DK
EN
50 WV
DC
AT +105 °C, SURGE = 63 V
CC
DK
63 WV
DC
AT +105 °C, SURGE = 70 V
AA
BB
CD
CG
EK
EN
100 WV
DC
AT +105 °C, SURGE = 125 V
CD
CG
EN
PART NUMBER
511D477M6R3CC4D
511D108M6R3CG4D
511D228M6R3DK4D
511D477M010CD4D
511D108M010DG4D
511D478M010ER4D
511D476M016AA4D
511D107M016BB4D
511D227M016CC4D
511D227M025CD4D
511D477M025DG4D
511D108M025EK4D
511D226M035AA4D
511D476M035BB4D
511D107M035CC4D
511D227M035CG4D
511D477M035DK4D
511D108M035EN4D
511D476M050CC4D
511D227M050DK4D
511D106M063AA4D
511D226M063BB4D
511D476M063CD4D
511D107M063CG4D
511D227M063EK4D
511D477M063EN4D
511D226M100CD4D
511D476M100CG4D
511D227M100EN4D
Note
These values are normally stocked.
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.
Revision: 18-Jul-16
Document Number: 42051
5
For technical questions, contact:
aluminumcaps4@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
Interrupt is a very important concept, and every microcontroller has interrupts. Different microcontrollers handle interrupts in different ways. Like the Cortex-M4 and M3 , the Cortex-M4 is equipped w...
Please help me: I want to use CVI programming to collect data from multiple points using the 485 serial port. The signals of the 13 points are transmitted to the PC through the 485 bus. The signal is ...
[i=s]This post was last edited by dcexpert on 2016-12-17 21:02[/i] First, let me report on the crowdfunding situation. As of this Saturday, 15 netizens have signed up, and the expected goal has been r...
MSP430WARE is an open source MSP430 hierarchical software architecture based on C++ language, supporting multiple peripherals. This article will introduce how to use GPIO. [/size][/font][/color][color...
I haven't been on the forum for more than a month, because I changed jobs recently and now work in switching power supplies. I've been working for more than a month and I'm busy every day......
I encountered a problem I had never encountered before, the crystal oscillator did not oscillate! Remove capacitors: no oscillation Remove capacitors and resistors: no oscillation Replace crystal osci...
The problem of dynamic sealing of equipment always exists with the operation of the equipment. Today, we have specially sorted out the various commonly used sealing forms, usage scope and character...[Details]
introduction
Bluetooth technology is a short-range wireless communication technology designed to replace wired cables. It is a wireless communication technology standard developed by the SIG, ...[Details]
Recently,
Xpeng Motors and Xinlian Integrated Circuit jointly announced the mass production of China's first hybrid silicon carbide product.
Designed and developed by Xpeng Motors and joint...[Details]
The 2025 China International Automotive Testing Exhibition will be held at the Shanghai World Expo Exhibition and Convention Center from August 27 to 29, 2025.
Clacton Seafront, UK, ...[Details]
Over the past decade, the narrative surrounding fuel vehicles has been one of decline and replacement. Under the onslaught of new energy vehicles, traditional automakers have been forced to acceler...[Details]
Shenzhen Baowei Power Supply high frequency pure sine wave power, communication inverter power supply has two communication interfaces, RS232 and R485 interfaces, their functions and characteristic...[Details]
Speaking of the problem of vehicle spontaneous combustion, whether it is a pure electric vehicle or a fuel vehicle, there will be incidents of spontaneous combustion. For the same spontaneous combu...[Details]
For self-driving cars, LiDAR is the sensory organ that allows them to "see the road." Simply put, its operating principle involves sending out a laser beam, receiving the echo, and ultimately gener...[Details]
Recently, a research team from Shandong University and Huawei Technologies Co., Ltd. achieved a significant breakthrough in the field of power semiconductors. Using fluorine-ion implantation termin...[Details]
On August 18, John Krafcik, former CEO of Google's Waymo, recently questioned Tesla's Robotaxi service. He said: "Please notify me when Tesla launches Robotaxi. I'm still waiting. If there are empl...[Details]
With the global penetration rate of new energy vehicles projected to exceed 45% by 2025, and the industry's transformation entering its second half, the era of intelligentization, LiDAR has rapidly...[Details]
Pure electric vehicles have two batteries: a power battery and a storage battery. The storage battery, as the vehicle's small battery, also serves as the vehicle's main auxiliary power source, plac...[Details]
As urbanization accelerates and public safety demands continue to rise, traditional surveillance systems are gradually exposing their limitations due to their reliance on manual oversight, delayed ...[Details]
It's difficult to give a strict definition of one-segment (global) end-to-end. The core of a VLM/VLA is a large foundational model, typically with 2-4 billion parameters. Large models are not ade...[Details]
The penetration of high-end intelligent driving is accelerating, and the wire-controlled chassis has emerged.
The demand for intelligent vehicles is driving the continuous upgrade of...[Details]
Microcontroller MCU
京公网安备 11010802033920号
EEWORLD
