SMD, Radial, and Axial Aluminum Electrolytic Capacitors

V I SHAY I NTE RTE CHNO L OGY, IN C .
INTERACTIVE
data book
SMD · RADIAL · AXIAL
ALUMINUM ELECTROLYTIC CAPACITORS
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VSE-DB0111-1505
V I SHAY I NTE RTE CHNO L OGY, IN C .
www.vishay.com
SMD · RADIAL · AXIAL
ALUMINUM ELECTROLYTIC CAPACITORS
DATA BOOK
VSE-DB0111-1505
V I SHAY I NTE RTE CHNO L OGY, IN C .
www.vishay.com
ABOUT VISHAY INTERTECHNOLOGY, INC.
GLOBAL INDUSTRY LEADER
SOLUTIONS FOR GROWTH
Vishay Intertechnology was founded in 1962 by Dr. Felix
Zandman, with a loan from his cousin Alfred P. Slaner. The
Company was named after Dr. Zandman’s ancestral village in
Lithuania, in memory of family members who perished in the
Holocaust. The Company’s initial product portfolio consisted
of foil resistors and foil resistance strain gages. In 1985, having
grown from a start-up into the world’s leading manufacturer
of these products, the Company began a series of strategic
acquisitions to become a broad-line manufacturer of electronic
components. Today, Vishay Intertechnology is one of the world’s
largest manufacturers of discrete semiconductors and passive
electronic components.
Vishay is very well positioned to provide components for
new macroeconomic growth drivers such as connectivity,
mobility, and, sustainability. Through its R&D, engineering,
quality programs, and sales initiatives, it generates a steady
stream of innovative components to enable designers to create
new generations of end products.
As Vishay Intertechnology grew through innovations and
acquisitions, its resistive foil technology products became noncore businesses. In 2010, Vishay Intertechnology spun off these
non-core businesses into an independent company listed on
the New York Stock Exchange: Vishay Precision Group (NYSE:
VPG).
DIVERSE MARKETS
STRATEGIC ACQUISITIONS
Vishay Intertechnology supports customers in virtually every
major market sector. Vishay components are used every day
in designs around the world, for applications in industrial,
communications, transportation, consumer, medical, and
defense products. Vishay has manufacturing plants in the
Americas, Asia, Europe, and Israel, as well as sales offices
worldwide. Its innovations in technology, successful acquisition
strategy, superior product quality, and “one-stop shop” service
to customers have made the Company a global industry leader.
2014
2013
2012
2011
2008
2007
2002
2001
DATA BOOK
Capella Microsystems
Holy Stone Polytech
MCB Industrie
HiRel Systems
Huntington Electric: Resistor businesses
KEMET: Wet tantalum capacitor business
International Rectifier: PCS business
BCcomponents
Beyschlag
General Semiconductor
Infineon: Infrared components business
Mallory (NACC)
Tansitor
2000
1998
1994
1993
1992
1988
1987
1985
Cera-Mite
Electro-Films
Spectrol
Siliconix
Telefunken
Vitramon
Roederstein
Sprague
Sfernice
Draloric
Dale
In tablets, smartphones, and wearables, Vishay components
support power management, wireless connectivity, display
interface, and touch screen controls, provide protection from
the electrostatic discharge (ESD) that can cause component and
system failure, and perform other functions. Vishay components
are also found in wireless charging devices, mobile payment
systems and other near-field communications systems, servers,
network devices, base stations, solid-state drives, telematics
systems, and other products and systems in our increasingly
interconnected world.
In the area of mobility, to take just one example, Vishay
components support a wide range of functions in electric power
steering, including electromagnetic interference (EMI) filtering,
quiescent current switch-off, three-phase motor switching,
current sensing, and voltage division. Vishay components also
are used in transmission control units, exhaust systems, startstop systems, climate controls, braking and safety, lighting,
infotainment, proximity and gesture recognition, and more. In
hybrid vehicles, Vishay components are used in main inverters,
high-voltage bus systems, and energy recuperation. Power
capacitors, inductors, and high-power resistors are used to
move high-speed trains, buses, intralogistic devices, aircraft,
ships, and other carriers in modern infrastructure.
In the area of sustainability, Vishay components are used in the
main inverters, power filters, and pitch and system controls of
wind turbines. Components in wind turbine systems include
high-power semiconductor modules, high-voltage MOSFETs,
power ICs, diodes and rectifiers, optical isolators, shunt resistors,
crowbar resistors, inductors, and power capacitors. Vishay
components are used in solar panels and inverters, and for onpanel power conversion. They are used in smart meters and
smart grids, power transmission and distribution systems, power
grid quality stabilization, oil and gas exploration equipment,
energy harvesting, and more.
VSE-DB0111-1505
SMD · RADIAL · AXIAL
Aluminum Electrolytic Capacitors
Vishay BCcomponents
Austria GmbH
Ebentaler Strasse 140
A-9021 Klagenfurt
Austria
Phone: +43 463 3834 0
Fax: +43 463 3834 303
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Vishay BCcomponents
Nederland B.V.
Ceintuurbaan 15
NL-8022 AW Zwolle
Netherlands
Phone: +31 38 4575 111
Fax: +31 38 4575 462
www.vishay.com
Vishay Electronic
GmbH
Dr.-Felix-Zandman-Platz 1
D-95100 Selb
Germany
Phone: +49 9287 710
Fax: +49 9287 70435
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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.
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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
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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 conform to JEDEC JS709A standards.
Table of Contents
www.vishay.com
Vishay
SMD · RADIAL · AXIAL
Aluminum Electrolytic Capacitors
GENERAL
Alphabetical Index ..................................................................................................................................................................
Replacement Table.................................................................................................................................................................
Selection Chart SMD/Radial...................................................................................................................................................
Selection Chart Axial ..............................................................................................................................................................
3
5
7
8
VISHAY BCCOMPONENTS
Introduction ............................................................................................................................................................................
Product Safety........................................................................................................................................................................
Tests and Requirements.........................................................................................................................................................
Quality Flowchart....................................................................................................................................................................
General Specification Conductive Polymer ............................................................................................................................
Packaging SMD......................................................................................................................................................................
Packaging Radial....................................................................................................................................................................
Packaging Axial ......................................................................................................................................................................
196 HVC ENYCAPTM ......................... Hybrid Energy Storage, 70 °C / 85 °C ........................................................................
196 DLC............................................. Energy Storage Double Layer, 70 °C .........................................................................
153 CRV ............................................ SMD Long Life, 105 °C ...............................................................................................
150 CRZ ............................................ SMD Long Life, Low Impedance, 105 °C ...................................................................
140 CRH ............................................ SMD Long Life, High Temperature, 125 °C ................................................................
146 CTI .............................................. SMD High Temperature, Low Impedance, 125 °C .....................................................
160 CLA............................................. SMD Advanced Temperature, Low Impedance, 150 °C ............................................
180 CPS ............................................ SMD Conductive Polymer, Low Impedance, 105 °C .................................................
181 CPL............................................. SMD Conductive Polymer, Low Impedance, 105 °C .................................................
134 RLP 5 .......................................... Radial Low Profile, 5 mm, 85 °C ................................................................................
097 RLP 7 .......................................... Radial Low Profile, 7 mm, 85 °C ................................................................................
038 RSU ............................................ Radial Standard Ultra Miniature, 85 °C ......................................................................
013 RLC............................................. Radial Low Leakage Current, 85 °C ...........................................................................
036 RSP............................................. Radial Semi-Professional, 85 °C ................................................................................
148 RUS ............................................ Radial Ultra High CV per Volume, Semi-Professional, 105 °C ...................................
116 RLL ............................................. Radial Long Life, 105 °C .............................................................................................
142 RHS ............................................ Radial Miniature, High CV per Volume, 105 °C ..........................................................
048 RML ............................................ Radial Miniature Long Life, 105 °C .............................................................................
152 RMH............................................ Radial Miniature, High Voltage, 105 °C ......................................................................
136 RVI .............................................. Radial Very Low Impedance, 105 °C ..........................................................................
150 RMI ............................................. Radial Miniature, Low Impedance, 105 °C .................................................................
140 RTM ............................................ Radial High Temperature Miniature, 125 °C ...............................................................
146 RTI .............................................. Radial High Temperature, Low Impedance, 125 °C ...................................................
128 SAL-RPM.................................... Solid Aluminum Radial Pearl Miniature, 125 °C .........................................................
021 ASM ............................................ Axial Standard Miniature, 85 °C .................................................................................
030/031 AS........................................ Axial Standard, 85 °C .................................................................................................
041 ASH, 042 ASH, 043 ASH ............ Axial Standard, High Voltage, 85 °C ..........................................................................
042 AMH-ELB, 043 AMH-ELB .......... Axial Miniature High Voltage for Electronic Lighting Ballast, 85 °C ...........................
042 AHH-ELB, 043 AHH-ELB............ Axial High Temperature High Voltage for Electronic Lighting Ballast, 105 °C ...........
138 AML ............................................ Axial Miniature Long-Life, 105 °C ...............................................................................
118 AHT............................................. Axial High Temperature, 125 °C .................................................................................
119 AHT-DIN ..................................... Axial High Temperature, DIN Based, 125 °C..............................................................
120 ATC............................................. Axial High Temperature, High Ripple Current, 125 °C ...............................................
123 SAL-A ......................................... Axial Solid, 125 °C ......................................................................................................
10
23
25
32
33
38
41
49
52
64
70
78
90
102
113
122
129
135
139
144
150
156
161
168
173
181
188
193
203
210
216
224
233
240
248
256
260
264
275
285
295
301
Revision: 19-May-15
1
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
Table of Contents
www.vishay.com
Vishay
VISHAY ROEDERSTEIN
Introduction ............................................................................................................................................................................
ECA.................................................... SMD Standard, 85 °C .................................................................................................
ECV.................................................... SMD Standard, 105 °C ...............................................................................................
ECL .................................................... SMD Low Impedance, 105 °C ....................................................................................
EKA.................................................... Radial Miniature, 85 °C...............................................................................................
EKB.................................................... Radial Miniature, 105 °C.............................................................................................
EKE .................................................... Radial Low Impedance, 105 °C ..................................................................................
EKV .................................................... Radial Lighting Ballast, 105 °C ...................................................................................
VISHAY OS-CON
General Specifications............................................................................................................................................................
Construction and Characteristics...... Organic Electrolyte Capacitors...................................................................................
Electrical Characteristics ................... Organic Electrolyte Capacitors...................................................................................
Reliability ........................................... Organic Electrolyte Capacitors...................................................................................
Precautions when Using in Circuits... Solid Aluminum Capacitor with Organic Semiconductor Electrolyte .........................
Reel Specifications ............................ Type 94SVP/94SVPD Solid Aluminum Capacitor with Organic Semiconductor
Electrolyte Surface Mount Chip .................................................................................
Soldering Profile and Land Pattern ... Type 94SVP/94SVPD Solid Aluminum Capacitor with Organic Semiconductor
Electrolyte Surface Mount Chip .................................................................................
94SVP................................................ SMD Organic Electrolyte, 105 °C ...............................................................................
94SVPD ............................................. SMD Organic Electrolyte, 125 °C ...............................................................................
VISHAY SPRAGUE
515D .................................................. Radial Miniature, 85 °C...............................................................................................
511D .................................................. Radial General Purpose, Miniature, 105 °C ................................................................
517D .................................................. Radial General Purpose, Miniature, 105 °C ................................................................
678D .................................................. Radial Miniature, 105 °C.............................................................................................
672D .................................................. Radial Miniature, Low Impedance, 105 °C .................................................................
510DX ................................................ Radial Miniature, 125 °C.............................................................................................
TVA ATOM® ....................................... Axial Standard Miniature, 85 °C .................................................................................
39D .................................................... Axial Powerlytic®, 85 °C .............................................................................................
53D .................................................... Axial General Purpose, 85 °C .....................................................................................
500D .................................................. Axial General Purpose, Miniature, 85 °C ....................................................................
516D .................................................. Axial Miniature, 85 °C .................................................................................................
TE ...................................................... Axial Little-Lytic®, 105 °C ...........................................................................................
601D .................................................. Axial Miniature, 105 °C ...............................................................................................
604D .................................................. Axial 4-Terminal, 105 °C .............................................................................................
30D .................................................... Axial General Purpose, Miniature, 105 °C ..................................................................
630D .................................................. Axial Miniature, 125 °C ...............................................................................................
600D .................................................. Axial Miniature, High Reliability, 125 °C .....................................................................
610D .................................................. Axial Miniature, Non-Polar, 125 °C.............................................................................
313
325
330
334
338
345
352
358
363
367
368
371
372
375
377
379
382
395
403
408
415
420
427
431
435
442
445
453
459
463
471
476
480
482
488
E-Series Values.................................... Standard Series of Values in a Decade for Resistances and Capacitances .............. 490
Revision: 19-May-15
2
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
Alphabetical Index
www.vishay.com
BRAND
Vishay
CODE
DATA BOOK
CODE
BCcomponents
BC
SMD . Radial . Axial (VSE-DB0111-1505)
Roederstein
RO
Large and Screw Terminal (VSE-DB0078-1501)
Sprague
SP
S.R.A
L&S
PRODUCT DESIGNATION
DESCRIPTION
PAGE
BRAND
DATA BOOK
013 RLC
Radial Low Leakage Current, 85 °C
150
BC
S.R.A
021 ASM
Axial Standard Miniature, 85 °C
233
BC
S.R.A
030/031 AS
Axial Standard, 85 °C
240
BC
S.R.A
036 RSP
Radial Semi-Professional, 85 °C
156
BC
S.R.A
038 RSU
Radial Standard Ultra Miniature, 85 °C
144
BC
S.R.A
041 ASH, 042 ASH, 043 ASH
Axial Standard, High Voltage, 85 °C
248
BC
S.R.A
042 AHH-ELB, 043 AHH-ELB
Axial High Temp. High Voltage for Electronic Lighting Ballast, 105 °C
260
BC
S.R.A
042 AMH-ELB, 043 AMH-ELB
Axial Miniature High Voltage for Electronic Lighting Ballast, 85 °C
256
BC
S.R.A
048 RML
Radial Miniature Long Life, 105 °C
181
BC
S.R.A
050/052 PED-PW
Power Eurodin Printed Wiring, 85 °C
33
BC
L&S
051/053 PEC-PW
Power Economic Printed Wiring, 85 °C
44
BC
L&S
056/057 PSM-SI
Power Standard Miniature Snap-In, 85 °C
53
BC
L&S
058/059 PLL-SI
Power Long Life Snap-In, 105 °C
63
BC
L&S
090 PUL-SI
Power Ultra Long Life Snap-In, 105 °C
73
BC
L&S
093 PMG-SI
Power Miniaturized General Purpose Snap-In, 85 °C
79
BC
L&S
094 PME-SI
Power Miniaturized Economy Long Life Snap-In, 105 °C
84
BC
L&S
095 PLL-4TSI
Power Long Life 4-Terminal Snap-In, 85 °C
91
BC
L&S
096 PLL-4TSI
Power Long Life 4-Terminal Snap-In, 85 °C
97
BC
L&S
097 RLP 7
Radial Low Profile, 7 mm, 85 °C
139
BC
S.R.A
101/102 PHR-ST
Power High Ripple Current Screw Terminals, 85 °C
103
BC
L&S
104 PHL-ST
Power High Ripple Current Long Life Screw Terminals, 105 °C
113
BC
L&S
106 PED-ST
Power Eurodin Screw Terminals, 85 °C
120
BC
L&S
110 PHT-ST
Power High Ripple for Traction Screw Terminals, 85 °C
126
BC
L&S
116 RLL
Radial Long Life, 105 °C
168
BC
S.R.A
118 AHT
Axial High Temperature, 125 °C
275
BC
S.R.A
119 AHT-DIN
Axial High Temperature, DIN Based, 125 °C
285
BC
S.R.A
120 ATC
Axial High Temperature, High Ripple Current, 125 °C
295
BC
S.R.A
123 SAL-A
Axial Solid, 125 °C
301
BC
S.R.A
128 SAL-RPM
Solid Aluminum Radial Pearl Miniature, 125 °C
224
BC
S.R.A
134 RLP 5
Radial Low Profile, 5 mm, 85 °C
135
BC
S.R.A
136 RVI
Radial Very Low Impedance, 105 °C
193
BC
S.R.A
138 AML
Axial Miniature Long-Life, 105 °C
264
BC
S.R.A
140 CRH
SMD Long Life, High Temperature, 125 °C
90
BC
S.R.A
140 RTM
Radial High Temperature Miniature, 125 °C
210
BC
S.R.A
142 RHS
Radial Miniature, High CV per Volume, 105 °C
173
BC
S.R.A
146 CTI
SMD High Temperature, Low Impedance, 125 °C
102
BC
S.R.A
146 RTI
Radial High Temperature, Low Impedance, 125 °C
216
BC
S.R.A
148 RUS
Radial Ultra High CV per Volume, Semi-Professional, 105 °C
161
BC
S.R.A
150 CRZ
SMD Long Life, Low Impedance, 105 °C
78
BC
S.R.A
150 RMI
Radial Miniature, Low Impedance, 105 °C
203
BC
S.R.A
152 RMH
Radial Miniature, High Voltage, 105 °C
188
BC
S.R.A
153 CRV
SMD Long Life, 105 °C
70
BC
S.R.A
156 PUM-SI
Power Ultra Miniature Snap-In, Low Voltage, 85 °C
132
BC
L&S
157 PUM-SI
Power Ultra Miniature Snap-In, High Voltage, 85 °C
138
BC
L&S
Revision: 20-May-15
3
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
Alphabetical Index
www.vishay.com
Vishay
PRODUCT DESIGNATION
DESCRIPTION
PAGE
BRAND
158 PUL-SI
Power Ultra Long Life Snap-In, 105 °C
146
BC
DATA BOOK
L&S
159 PUL-SI
Power Ultra Long Life Snap-In, 105 °C
154
BC
L&S
160 CLA
SMD Advanced Temperature, Low Impedance, 150 °C
113
BC
S.R.A
162/163 PLL-PW
Power Long Life Printed Wiring, 105 °C
162
BC
L&S
180 CPS
SMD Conductive Polymer, Low Impedance, 105 °C
122
BC
S.R.A
181 CPL
SMD Conductive Polymer, Low Impedance, 105 °C
129
BC
S.R.A
193 PUR-SI Solar
Power Ultra High Ripple Current Snap-In for Solar, 105 °C
169
BC
L&S
196 DLC
Energy Storage Double Layer, 70 °C
64
BC
S.R.A
196 HVC ENYCAPTM
Hybrid Energy Storage, 70 °C/85 °C
52
BC
S.R.A
197 PGP-SI
Power General Purpose Snap-In, 85 °C
172
BC
L&S
198 PHR-SI
Power High Ripple Current Snap-In, High Voltage, 85 °C
179
BC
L&S
199 PEL-SI
Power Economy Long Life Snap-In, 105 °C
186
BC
L&S
256 PMG-SI
Power Miniaturized General Purpose - Snap-In, 85 °C/105 °C
193
BC
L&S
30D
Axial General Purpose, Miniature, 105 °C
476
SP
S.R.A
36D, 36DE, 36DX
Screw Terminals, Powerlytic®, 85 °C
232
SP
L&S
36DY
Screw Terminals, General Purpose, 85 °C
237
SP
L&S
39D
Axial Powerlytic®, 85 °C
435
SP
S.R.A
500 PGP-ST
Power General Purpose Screw Terminals, 85 °C
197
BC
L&S
500D
Axial General Purpose, Miniature, 85 °C
445
SP
S.R.A
510DX
Radial Miniature, 125 °C
427
SP
S.R.A
511D
Radial General Purpose, Miniature, 105 °C
403
SP
S.R.A
515D
Radial, Miniature, 85 °C
395
SP
S.R.A
516D
Axial, Miniature, 85 °C
453
SP
S.R.A
517D
Radial General Purpose, Miniature, 105 °C
408
SP
S.R.A
53D
Axial General Purpose, 85 °C
442
SP
S.R.A
600D
Axial Miniature, High Reliability, 125 °C
482
SP
S.R.A
601D
Axial Miniature, 105 °C
463
SP
S.R.A
604D
Axial 4-Terminal, 105 °C
471
SP
S.R.A
610D
Axial Miniature, Non-Polar, 125 °C
488
SP
S.R.A
630D
Axial Miniature, 125 °C
480
SP
S.R.A
672D
Radial Miniature, Low Impedance, 105 °C
420
SP
S.R.A
678D
Radial Miniature, 105 °C
415
SP
S.R.A
80D
Snap-In, 85 °C
243
SP
L&S
94SVP
SMD Organic Electrolyte, 105 °C
379
SP
S.R.A
94SVPD
SMD Organic Electrolyte, 125 °C
382
SP
S.R.A
ECA
SMD Standard, 85 °C
325
RO
S.R.A
ECL
SMD Low Impedance, 105 °C
334
RO
S.R.A
ECV
SMD Standard, 105 °C
330
RO
S.R.A
EKA
Radial Miniature, 85 °C
338
RO
S.R.A
EKB
Radial Miniature, 105 °C
345
RO
S.R.A
EKE
Radial Low Impedance, 105 °C
352
RO
S.R.A
EKV
Radial Lighting Ballast, 105 °C
358
RO
S.R.A
EYH
Snap-In, 105 °C
215
RO
L&S
EYN
Snap-In, 85 °C
223
RO
L&S
Little-Lytic®,
TE
Axial
TVA ATOM®
Axial Standard Miniature, 85 °C
Revision: 20-May-15
105 °C
459
SP
S.R.A
431
SP
S.R.A
4
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
Replacement Table
www.vishay.com
Vishay
SMD · RADIAL · AXIAL
Aluminum Capacitors
Vishay BCcomponents
REPLACEMENT SERIES TABLE
MATURED SERIES
DESIGN
REMARK
REPLACEMENT SERIES
048 CLB
SMD
General purpose, 105 °C
153 CRV
085 CS
SMD
Horizontal SMD, 85 °C
153 CRV
136 CLB
SMD
Low impedance, 105 °C
150 CRZ
139 CLL
SMD
Horizontal SMD, 105 °C
153 CRV
140 CLH
SMD
High temperature, 125 °C
140 CRH
150 CLZ
SMD
Low impedance, 105 °C
150 CRZ
153 CLV
SMD
General purpose, 105 °C
153 CRV
165 CLB
SMD
High temperature, 125 °C
140 CRH
172 CLP
SMD
Horizontal SMD, 85 °C
153 CRV
175 TMP
SMD
Solid aluminum, 175 °C
No direct replacement
176 SAL
SMD
Solid aluminum
No direct replacement
034 RS
Radial
General purpose, 85 °C
038 RSU
035 RS
Radial
General purpose, 85 °C
038 RSU
037 RSM
Radial
General purpose, 85 °C
038 RSU
044 RSH
Radial
General purpose, HV, 85 °C
152 RMH
045 RSS
Radial
General purpose, 105 °C
048 RML
046 RSL
Radial
Low impedance, 105 °C
048 RML
047 RMS
Radial
General purpose, 105 °C
148 RUS
135 RLI
Radial
Low impedance, 105 °C
150 RMI, 136 RVI
151 RLH
Radial
General purpose, HV, 105 °C
152 RMH
164 RSX
Radial
Long life, 105 °C
150 RMI, 136 RVI
165 RHT
Radial
High temperature, 125 °C
140 RTM
122 SAL-RP
Radial
Solid aluminum
128 SAL-RPM
124 SAL-RQ
Radial
Solid aluminum, boxed
128 SAL-RPM
129 SAL-RDC
Radial
Solid aluminum, low leakage
128 SAL-RPM
014 ALZ
Axial
Low impedance
021 ASM
015 AS
Axial
General purpose, 85 °C
021 ASM
016 AS
Axial
General purpose, 85 °C
021 ASM
017 AS
Axial
General purpose, 85 °C
021 ASM
022 ASR
Axial
General purpose, 105 °C
138 AML
023 ASR
Axial
General purpose, 85 °C
021 ASM
024 AMR
Axial
Miniaturized, 105 °C
138 AML
025 AMR
Axial
Miniaturized, 85 °C
021 ASM
026 ACR
Axial
General purpose
138 AML, 041-043 ASH
027 ACR
Axial
General purpose
138 AML, 041-043 ASH
032/033 AS
Axial
General purpose, 85 °C
021 ASM
039 ABP
Axial
Bipolar
137 ABA, 137 92 AB
042/043 ASH-ELB
Axial
Lighting ballast standard
042-043 AHH-ELB, 042-043 AMH-ELB
049 ASC
Axial
General purpose, 85 °C
021 ASM
065 ALC
Axial
Low leakage, 85 °C
021 ASM
108 ALL-IEC
Axial
Long life, 85 °C
132 ALL-DIN, 138 AML
133 ALL-DIN
Axial
Ø 10 x 30 to 21 x 40 mm only
041-043 ASH
117 ASD
Axial
Miniaturized, 85 °C
No replacement
121 SAL-A
Axial
Solid aluminum
123 SAL-A
Revision: 28-Nov-12
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Replacement Table
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Vishay
Vishay Roederstein
REPLACEMENT SERIES TABLE
MATURED SERIES
DESIGN
REMARK
ECB
SMD
Miniaturized, 105 °C
REPLACEMENT SERIES
153 CRV
EKM
Radial
General purpose, 105 °C
EKE, 116 RLL, 048 RML
EKO
Radial
General purpose, 85 °C
142 RHS
EKR
Radial
General purpose, 105 °C
150 RMI
EKS
Radial
General purpose, 105 °C
142 RHS
EKF
Radial
Miniaturized, 85 °C
134 RLP
EKH
Radial
Miniaturized, 105 °C
142 RHS, 148 RUS
No replacement
EKI
Radial
General purpose, 105 °C
EKL
Radial
High temperature, low impedance, 125 °C
146 RTI
EKSU
Radial
Bipolar, 105 °C
No replacement
EKX
Radial
Low impedance, 105 °C
No replacement
EBV/EGV (-D)
Axial
Lighting ballast
042-043 AHH-ELB
EGU
Axial
Bipolar
No replacement
EGT
Axial
Bipolar
No replacement
EGW
Axial
Bipolar
No replacement
ELM/EBM/EGM
Axial
Miniaturized, 85 °C
021 ASM
EL/EB/EG
Axial
General purpose
030/031 AS, 041 ASH
EBU
Axial
Bipolar
137 ABA, 137 92 AB
EBT
Axial
Bipolar
137 ABA, 137 92 AB
EBC/EGC
Axial
General purpose
132/133 ALL-DIN
EBR
Axial
General purpose
030/031 AS
EBL/EGL
Axial
Higher temperature
118 AHT
Vishay Sprague
REPLACEMENT SERIES TABLE
MATURED SERIES
DESIGN
REMARK
REPLACEMENT SERIES
673D
Radial
General purpose, 105 °C
U673D
674D
Radial
General purpose, 105 °C
U674D
757D
Radial
Low impedance, 105 °C
150 RMI, EKE
94SA/94SC/94SF/94SH/94SL/94SP/94SS
Radial
General purpose, 105 °C
No replacement
M39018
Radial
Military
No replacement
U676D/676D/U677D/677D
Radial
Low impedance, 105 °C
No replacement
U678D
Radial
Miniaturized, 105 °C
No replacement
U787D/787D
Radial
General purpose, 105 °C
No replacement
Revision: 28-Nov-12
Document Number: 28398
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Selection Chart
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Vishay
Radial and SMD Series
RADIAL SERIES
All-insulated
lead pitch 2.5 mm or 5.0 mm
105 °C
85 °C
116 RLL
013 RLC
036 RSP
Standard ranges
85 °C
105 °C
038 RSU
048 RML
EKA
142 RHS
515D
148 RUS
152 RMH
EKB
511D
517D
Low leakage
85 °C
013 RLC
Low profile
85 °C
134 RLP-5
097 RLP-7
High temperature,
solid electrolyte
125 °C
128 SAL-RPM
High temperature
125 °C
140 RTM
146 RTI
510DX
Long life, low Z,
high ripple current
105 °C
136 RVI
150 RMI
EKE
EKV
672D
Double layer
Hybrid storage
196 DLC
196 HVC
SMD SERIES
Standard ranges
85 °C
105 °C
ECA
153 CRV
ECV
Low impedance
105 °C
150 CRZ
ECL
High temperature
Advanced temperature,
low impedance
125 °C
150 °C
140 CRH
146 CTI
160 CLA
Low impedance,
organic electrolyte
Low impedance,
organic electrolyte
105 °C
125 °C
94SVP
94SVPD
Low impedance,
conductive polymer
Low impedance, extended life,
conductive polymer
105 °C
105 °C
180 CPS
181 CPL
Note
• Aluminum Capacitor Selection Tool: Find the best aluminum capacitor based on your needs. 
Try now by following this link: http://www.vishay.com/capacitors/selection-tool/
Revision: 19-Mar-15
Document Number: 28378
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Selection Chart
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Vishay
Axial Series
High temperature,
solid electrolyte
125 °C
123 SAL-A
Standard ranges
Non polar
125 °C
85 °C
High temperature
105 °C
125 °C
610D
021 ASM
030/031 AS
041 - 043 ASH
132/133 ALL-DIN
TVA ATOM®
39D
53D
500D
138 AML
TE
601D
30D
118 AHT
119 AHT-DIN
600D
High temperature,
low impedance
125 °C
For lighting ballast
85 °C
042-043 AMH-ELB
120 ATC
105 °C
042-043 AHH-ELB
4 terminal
105 °C
604D
Note
• Aluminum Capacitor Selection Tool: Find the best aluminum capacitor based on your needs. 
Try now by following this link: http://www.vishay.com/capacitors/selection-tool/
Revision: 03-Dec-12
Document Number: 28377
8
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Contents
Vishay
BCcomponents
Introduction............................ 10
Product Safety ....................... 23
Tests and Requirements ........ 25
Quality Flowchart ................... 32
General Specification
Conductive Polymer .............. 33
Packaging SMD ..................... 38
Packaging Radial ................... 41
Packaging Axial ..................... 49
196 HVC ENYCAPTM ............. 52
196 DLC ................................. 64
153 CRV................................. 70
150 CRZ................................. 78
140 CRH ................................ 90
146 CTI .................................. 102
160 CLA ................................. 113
180 CPS................................. 122
181 CPL ................................. 129
134 RLP 5 .............................. 135
097 RLP 7 .............................. 139
038 RSU................................. 144
013 RLC ................................. 150
036 RSP ................................. 156
148 RUS................................. 161
116 RLL.................................. 168
142 RHS................................. 173
048 RML ................................ 181
152 RMH ................................ 188
136 RVI .................................. 193
150 RMI.................................. 203
140 RTM ................................ 210
146 RTI................................... 216
128 SAL-RPM ........................ 224
021 ASM ................................ 233
030/031 AS ............................ 240
041 ASH, 042 ASH, 043 ASH .. 248
042 AMH-ELB, 043 AMH-ELB. 256
042 AHH-ELB, 043 AHH-ELB.. 260
138 AML................................. 264
118 AHT ................................. 275
119 AHT-DIN.......................... 285
120 ATC ................................. 295
123 SAL-A.............................. 301
Introduction
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Vishay BCcomponents
Aluminum Capacitors
TRANSLATION OF TECHNICAL TERMS
SOME IMPORTANT TERMS
Ambient temperature (Tamb)
DES TERMES IMPORTANTES
EINIGE WICHTIGE BEGRIFFE
température ambiante
Umgebungstemperatur
Assessment level
niveau d'assurance
Gütebestätigungsstufe
Axial terminations
sorties axiales
axiale Anschlussdrähte
capacité
Kapazität
Capacitance
Charge
Climatic category
Dimensions
Discharge
Dissipation factor (tan )
Endurance
charge
laden
catégorie climatique
Klimakategorie
dimensions
Maße
décharge
entladen
tangente de l`angle de pertes
Verlustfaktor
endurance
Dauerspannungsprüfung
Equivalent series resistance (ESR)
résistance série équivalente
äquivalenter Serienwiderstand
Equivalent series inductance (ESL)
inductance série équivalente
äquivalente Serieninduktivität
taux de fiabilité
Ausfallrate
fréquence
Frequenz
usage général
allgemeine Anforderungen
impédance
Scheinwiderstand, Impedanz
sans fils
unbedrahtet
Failure rate
Frequency (f)
General purpose grade
Impedance (Z)
Leadless
Leakage current (IL)
Long life grade
Method
Mounting
courant de fuite
Reststrom
longue durée de vie
erhöhte Anforderungen
méthode
Verfahren
montage
Montage
aucun dommage
keine sichtbaren Schäden
circuit ouvert
Unterbrechung
Mounting hole diagram
dessin de montage
Bohrungsraster
Rated capacitance (CR)
capacité nominale
Nennkapazität
Rated voltage (UR)
tension nominale
Nennspannung
reprise
Nachbehandlung
tension de formation
Formierspannung
No visible damage
Open circuit
Recovery
Forming voltage (UF)
Requirements
exigences
Anforderungen
Reverse voltage (Urev)
tension inverse
Umpolspannung
Ripple current (IR)
courant ondulé
überlagerter Wechselstrom
Short circuit
Surface mounting device (SMD)
Surge voltage (US)
court-circuit
Kurzschluß
composant pour montage en surface
oberflächenmontierbares Bauelement
surtension
Spitzenspannung
Terminal pitch
distance entre les connections
Rastermaß
Terminations
sorties
Anschlüsse
durée de vie
Brauchbarkeitsdauer
examen visuel
Sichtkontrolle
Useful life
Visual examination
Revision: 19-Mar-15
Document Number: 28356
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Introduction
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Vishay BCcomponents
CAPACITOR PRINCIPLES
ENERGY CONTENT OF A CAPACITOR
The essential property of a capacitor is to store electrical
charge. The amount of electrical charge (Q) in the capacitor
(C) is proportional to the applied voltage (U). 
The relationship of these parameters is:
The energy content of a capacitor is given by:
2
1
W E = --- x C x U
2
Q=CxU
Dielectric
where:
Q = Charge in coulombs (C)
C = Capacitance in farads (F)
U = Voltage in volts (V)
Anode
Cathode
The value of capacitance is directly proportional to the
(anode) surface area and inversely proportional to the
thickness of the dielectric layer, thus:
A
A
C =  0 x  r x --d
d
εr
where:
0 = Absolute permittivity (8.85 x 10-12 F/m)
C
r = Relative dielectric constant (dimensionless)
A = Surface area
NON-POLAR
(m2)
d = Thickness of the dielectric 
(oxide layer in aluminum capacitors) (m).
Fig. 1 - Equivalent circuit of an ideal capacitor
Dielectric layer
Cathode
Anode
Electrolyte
Rins
C
Current supply
Aluminum foil
(highly etched)
RESR
LESL
Aluminum foil
POLAR
Anode electrode:
Valve effect metal: Aluminum
Al2O3
Al2O3
Electrolyte absorbing paper
(spacer)
Dielectric: Al2O3
Cathode electrode, solid or non-solid electrolyte depending on technology:
Non-solid: Wet electrolyte, spacer and aluminum foil
Solid: Solid electrolyte (e.g. manganese dioxide), graphite and silver epoxy
Fig. 2 - Equivalent circuit of an aluminum capacitor
Revision: 19-Mar-15
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Introduction
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Vishay BCcomponents
ELECTRICAL BEHAVIOR
Characteristics of aluminum capacitors vary with temperature, time and applied voltage.
Ripple
current
capability
C
Frequency
Frequency
Leakage
current
tan δ
Frequency
Z
Temperature
Leakage
current
Z
ESR
ESR
Load time
Frequency
C/C0
Z/Z0
Leakage
current
ESR
ESR
ESR0
25 °C
C
tan δ
ESR
Z
Voltage
Temperature
C
failure
rate
tan δ
ESR/Z
Life time
ripple
current
capability
Temperature
failure
rate
Temperature
% rated voltage
Fig. 3 - Typical variation of electrical parameters as a function of frequency, ambient temperature, voltage and time
Revision: 19-Mar-15
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Introduction
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Vishay BCcomponents
CONSTRUCTION
Examples
Wound cell, consisting of:
Solvent-resistant
shrink sleeves
gives high insulation
resistance
- Paper spacer
impregnated with
electrolyte
- Aluminum foil cathode
Flattened cathode lead
Flattened anode lead
Base plate
Aluminum can
Aluminum can,
fully covered with
insulating foil
- Aluminum foil anode
with aluminum oxide
dielectric
Aluminum
connection part
Rubber sealing
High-quality
low-resistance
laser weld between
connections and
anode/cathode.
This means low
ESR and ESL
Special design so that
insertion forces on the connections
do not stress the windings mechanically
Wound cell,
consisting of:
- Aluminum foil anode
with aluminum oxide
dielectric
- Paper spacer
impregnated with
electrolyte
- Aluminum foil cathode
Non-porous, teflon
coated hard paper
disc and rubber insert
for optimum seal
Snap-in connections
for fast assembly
Fig. 7 - Large aluminum, snap-in
Fig. 4 - Surface mount device (vertical style)
Aluminum can
Epoxy resin
Cone-shaped flange
Wound cell, consisting of:
Insulating sleeve
Cathode lead
- Aluminum foil anode
with aluminum oxide
dielectric
- Paper spacer impregnated
with electrolyte
- Aluminum foil cathode
Cathode connection:
Rubber sealing
Etched Aluminum
Silver epoxy on graphite covered with Al2O3 Anode lead
and manganese dioxide (dielectric)
Aluminum
connection part
Fig. 8 - Solid aluminum (SAL), radial
Anode and cathode lead,
tin plated
Terminals
Fig. 5 - Radial aluminum
Aluminum can
Cathode lead
Synthetic disc sealed
by rubber gasket
Pressure relief
Paper spacer
impregnated
with electrolyte
Multi-welded low
ESR connections
Sealing disc
Winding of high purity
etched aluminum and
electrolyte impregnated
paper spacer
Blue insulating
sleeve
Cathode tab foil
welded to the bottom
of the can
Aluminum foil anode
with aluminum oxide
dielectric
Solvent resistant
insulating sleeve
Anode lead
Aluminum
foil cathode
Fig. 6 - Axial aluminum
Revision: 19-Mar-15
Bolt for mounting
(optional)
Fig. 9 - Large aluminum, screw terminal
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Introduction
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Vishay BCcomponents
DEFINITIONS OF ELECTRICAL PARAMETERS
VOLTAGE
Sequence of measurement for tests are in accordance with
“IEC 60384-4”:
RATED VOLTAGE (UR)
The maximum DC voltage, or peak value of pulse voltage
which may be applied continuously to a capacitor at any
temperature between the lower category temperature and
the rated temperature.
1. Leakage current (IL)
2. Capacitance (CR)
3. Dissipation factor (tan or ESR)
CATEGORY VOLTAGE (UC)
The maximum voltage which may be applied continuously to
a capacitor at its upper category temperature.
4. Impedance (Z)
CAPACITANCE
AC CAPACITANCE OF AN ALUMINUM CAPACITOR
The capacitance of an equivalent circuit, having
capacitance, resistance and inductance in series, measured
with alternating current of approximately sinusoidal
waveform at a specified frequency; refer to Fig. 10.
Standard measuring frequencies for aluminum capacitors
are 100 Hz or 120 Hz.
C
ESR
ESL
VAC
Fig. 10 - AC equivalent circuit of an aluminum capacitor
DC CAPACITANCE OF AN ALUMINUM CAPACITOR 
(FOR TIMING CIRCUITS)
TEMPERATURE DERATED VOLTAGE
The temperature derated voltage is the maximum voltage
that may be applied continuously to a capacitor, for any
temperature between the rated temperature and the upper
category temperature.
RIPPLE VOLTAGE (URPL)
An alternating voltage may be applied, provided that the
peak voltage resulting from the alternating voltage, when
superimposed on the DC voltage, does not exceed the value
of rated DC voltage or fall under 0 V and that the ripple
current is not exceeded.
REVERSE VOLTAGE (UREV)
The maximum voltage applied in the reverse polarity
direction to the capacitor terminations.
DC capacitance is given by the amount of charge which is
stored in the capacitor at the rated voltage (UR). 
DC capacitance is measured by a single discharge of the
capacitor under defined conditions. Measuring procedures
are described in “DIN 41328, sheet 4” (withdrawn).
SURGE VOLTAGE (US)
The maximum instantaneous voltage which may be applied
to the terminations of the capacitor for a specified time at
any temperature within the category temperature range.
At any given time, the DC capacitance is higher than the AC
capacitance.
TEMPERATURE
CDC
ESR
Rleak
Fig. 11 - DC equivalent circuit of an aluminum capacitor
RATED CAPACITANCE (CR)
The capacitance value for which the capacitor has been
designed and which is usually indicated upon it.
Preferred values of rated capacitance and their decimal
multiples are preferably chosen from the E3 series of
“IEC Publication 60063“.
TOLERANCE ON RATED CAPACITANCE
Preferred values of tolerances on rated capacitance:
-20 %/+20 %
-10 %/+50 %
-10 %/+30 %
-10 %/+10 %
M
T
Q
K
These values depend on the relevant series.
Revision: 19-Mar-15
CATEGORY TEMPERATURE RANGE
The range of ambient temperatures for which the capacitor
has been designed to operate continuously: This is defined
by the temperature limits of the appropriate category.
RATED TEMPERATURE
The maximum ambient temperature at which the rated
voltage may be continuously applied.
MINIMUM STORAGE TEMPERATURE
The minimum permissible ambient temperature which the
capacitor shall withstand in the non-operating condition,
without damage.
RESISTANCE/REACTANCE
EQUIVALENT SERIES RESISTANCE (ESR)
The ESR of an equivalent circuit having capacitance,
inductance and resistance in series measured with
alternating current of approximately sinusoidal waveform at
a specified frequency; refer to Fig. 10.
EQUIVALENT SERIES INDUCTANCE (ESL)
The ESL of an equivalent circuit having capacitance,
resistance and inductance in series measured with
alternating current of approximately sinusoidal waveform at
a specified frequency; refer to Fig. 10.
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Introduction
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Vishay BCcomponents
DISSIPATION FACTOR (TANGENT OF LOSS ANGLE; tan )
The leakage current requirements for the majority of Vishay
BCcomponents aluminum capacitors, are lower than
specified in “IEC 60384-4” or “EN130300”.
The power loss of the capacitor divided by the reactive
power of the capacitor at a sinusoidal voltage of specified
frequency. The dissipation factor can be approximated by
following formula:
If, for example, after prolonged storage and/or storage at
excessive temperature (> 40 °C), the leakage current at the
first measurement does not meet the requirements,
pre-conditioning shall be carried out in accordance with
“EN130300 subclause 4.1”.
tan  = ESR x 2fC
IMPEDANCE (Z)
LEAKAGE CURRENT AT DELIVERY (IL1 or IL2)
The impedance (Z) of an aluminum capacitor is given by
capacitance, ESR and ESL in accordance with the following
equation (see Fig. 12):
Z=
2
1
ESR +  2fESL - -------------

2fC
In addition to IL5, the leakage current after 1 min application
of rated voltage (IL1) is specified in most of the detail
specifications.
2
For some series this value is specified after 2 min (IL2).
OPERATIONAL LEAKAGE CURRENT (IOP)
CURRENT
After continuous operation (1 h or longer) the leakage
current will normally decrease to less than 20 % of the 5 min
value (IL5).
LEAKAGE CURRENT (IL)
The DC current flowing through a capacitor when a DC
voltage is applied in correct polarity. It is dependent on
voltage, temperature and time.
The operational leakage current depends on applied voltage
and ambient temperature; see Tables 1 and 2.
LEAKAGE CURRENT FOR ACCEPTANCE TEST (IL5)
LEAKAGE CURRENT AFTER STORAGE WITH NO
VOLTAGE APPLIED (SHELF LIFE)
In accordance with international standards (“IEC 60384-4”
and “EN130300”) the leakage current (IL5) after 5 min
application of rated voltage at 20 °C is considered as an
acceptance requirement.
If non-solid aluminum capacitors are stored above room
temperature for long periods of time, the oxide layer may
react with the electrolyte, causing increased leakage current
when switched on for the first time after storage.
Table 1
TYPCIAL MULTIPLIER OF OPERATIONAL LEAKAGE CURRENT AS A FUNCTION OF AMBIENT TEMPERATURE
MULTIPLIER (1)
SYMBOL
Tamb (°C)
-55
-40
-25
0
20
45
65
85
105
125
150
IOP/IL
< 0.5
0.5
0.6
0.8
1
1.5
2.5
4
7
10
15
Note
(1) As far as allowed for the corresponding series
Table 2
TYPCIAL MULTIPLIER OF OPERATIONAL LEAKAGE CURRENT AS A FUNCTION OF APPLIED VOLTAGE
SYMBOL
MULTIPLIER
U/UR
< 0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1.0
IOP/IL
0.1
0.15
0.2
0.3
0.4
0.5
0.65
0.8
1.0
2πfESL
ESR
1
2πfC
δ
Z
Fig. 12 - Vector diagram showing the AC parameters of a capacitor
Revision: 19-Mar-15
Document Number: 28356
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Introduction
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RATED RIPPLE CURRENT (IR)
Any pulsating voltage (or ripple voltage superimposed on
DC bias) across a capacitor results in an alternating current
through the capacitor.
Because of ohmic and dielectric losses in the capacitor, this
alternating current produces an increase of temperature in
the capacitor cell.
The heat generation depends on frequency and waveform of
the alternating current.
The maximum RMS value of this alternating current, which
is permitted to pass through the capacitor during its entire
specified useful life (at defined frequency and defined
ambient temperature), is called rated ripple current (IR).
The rated ripple current is specified in the relevant detail
specifications at 100 Hz or 120 Hz (in special cases at
100 kHz and at upper category temperature.
Usually the rated ripple current will cause a temperature
increase of the capacitor's surface of approximately 3 K or
5 K (dependent on series) compared with ambient
temperature. A further temperature increase of 3 K or 5 K
will be found in the core of the capacitor.
This temperature rise is the result of the balance between
heat generated by electric losses:
Vishay BCcomponents
vectorial sum of the currents thus found may not exceed the
applicable ripple current.
For some frequently occurring waveforms, approximation
formulae are stated in Fig. 13 for calculating the
corresponding RMS value.
RMS VALUE
WAVE FORM
A
t0
t0
A
t
T
A
t2
t1
T
t1 + t2
A
t
3T
T
A
t2
t2
t1
2 t1 + 3 t2
t
3T
A
T
2
P = I R ESR
A
and the heat carried off by radiation, convection and
conduction:
t0
t0
t
A
2T
T
P = T x A x 
IR can be determined by the equation:
IR =
T x A x 
---------------------------ESR
where:
T = Difference of temperature between ambient and case
surface (3 K to 5 K, dependent on series)
A = Geometric surface area of the capacitor
 = Specific heat conductivity, dependent on the size of the
capacitor
The heat, generated by ripple current, is an important factor
of influence for non-solid aluminum capacitors for
calculating the useful life under certain circumstances.
In the detail specifications this factor is considered in the
so-called “life-time nomograms” (“Multiplier of useful life”
graph) as a ratio between actual ripple current (IA) and rated
ripple current (IR), drawn on the vertical axis.
Care should be taken to ensure that the actual ripple current
remains inside the graph at any time of the entire useful life.
If this cannot be realized, it is more appropriate to choose a
capacitor with a higher rated voltage or higher capacitance,
than originally required by the application.
The internal losses and the resultant ripple current capability
of aluminum capacitors are frequency dependent.
Therefore, a relevant frequency conversion table (“Multiplier
of ripple current as a function of frequency”) is stated in the
detail specifications. See also “CALCULATION OF USEFUL
LIFE BY MEANS OF ‘LIFE-TIME NOMOGRAMS’.”
CALCULATION OF THE APPLICABLE RMS RIPPLE
CURRENT
Non-sinusoidal ripple currents (if not accessible by direct
measurement) have to be analyzed into a number of
sinusoidal ripple currents by means of Fourier-analysis; the
Revision: 19-Mar-15
Fig. 13 - Approximation formulae for RMS values of
non-sinusoidal ripple currents
STORAGE
No pre-condition will be necessary for Vishay
BCcomponents aluminum capacitors, when stored under
standard atmospheric conditions (15 °C to 25 °C; 25 % to
75 % RH; 860 mbar to 1060 mbar) for the following periods
of time:
• 1 year for DLC and polymer types
• 2 years for ENYCAPTM
• 3 years for non-solid 85 °C types
• 4 years for non-solid 105 °C types
• 10 years for non-solid 125 °C types and 150 °C types
• 20 years for solid types
After these periods, the leakage current for acceptance test
shall not exceed twice the specified IL5 requirement.
A limited current can be applied to reduce the leakage
current of long stored capacitors to normal values. The
maximum allowed current when doing this at room
temperature is given by the following formula:
x
D 2
I max. = ------------- x   ---- +  D x L 
 2
Ur
In this equation, Ur is the rated voltage, D the diameter of the
capacitor can and L the length of the capacitor can. When
Imax. is in mA, D in mm and L in mm, the value for  is
1 mW/mm2. During this reforming process, the rated voltage
shall not be exceeded.The process has ended when the
current drops below the specified leakage current.
To ensure good solderability and quality of taping, for all
types and prior to mounting, the storage time shall not
exceed 3 years. This means for example: 2 years storage
time between manufacture and arrival at the customer, plus
1 year in customer storage.
Document Number: 28356
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Vishay BCcomponents
OPERATIONAL CONDITIONS
CHARGE-DISCHARGE PROOF
This term means the capability of capacitors to withstand
frequent switching operations without significant change of
capacitance.
Vishay
BCcomponents
aluminum
capacitors
are
charge-discharge proof in accordance with “IEC 60384-4”
and “EN130300 subclause 4.20”: Unless otherwise
specified, 106 switching operations (RC = 0.1 s) shall not
cause a capacitance change of more than 10 %.
Non-frequent charging and discharging, without a series
resistor, will not damage the capacitor.
If a capacitor is charged and discharged continuously
several times per minute, the charge and discharge currents
have to be considered as ripple currents flowing through the
capacitor. The RMS value of these currents should be
determined and the resultant value must not exceed the
applicable limit.
ENDURANCE TEST
In “IEC 60384-4” or “EN130300” the criteria for the
acceptable drift of electrical parameters after the endurance
test at UR and upper category temperature are defined.
Test duration and conditions per series are stated in the
relevant detail specification.
The endurance test does not provide information about the
useful life of a capacitor, as no failure percentage is defined
for this test.
USEFUL LIFE
Useful life (other names: load life, life time or typical life time)
is that period of time, during which a given failure
percentage may occur, under well defined conditions and
requirements. Useful life data are usually calculated with a
confidence level of 60 %.
High quality of materials and controlled manufacturing
processes provided, the useful life of non-solid aluminum
capacitors is, in most cases, determined by evaporation of
electrolyte through the sealing.
Fig. 14 shows the principal electrical consequences of this
electrolyte loss: Increasing impedance and decreasing
capacitance at the end of useful life, for different non-solid
types.
Due to the fact that no liquid electrolyte is used in solid
aluminum capacitors, the associated failure mechanism
does not occur.
For non-solid aluminum capacitors the influence of
temperature on useful life is approximated by the so-called
“10 K-rule”. The “10 K-rule” states that double the life time
can be expected per 10 K temperature decrease; this
principle is derived from the well known law of Arrhenius
about acceleration of reaction processes.
The exact temperature dependence of useful life for a
particular range is given in the corresponding detail
specification in the “life-time nomogram” (“Multiplier of
useful life” graph in the detail specifications). Detailed
performance requirements, on which the definition “useful
life” is based, are also stated in the relevant detail
specifications.
Exceeding those requirements shall not necessarily induce
a malfunction of the equipment involved. The performance
requirements offer advice on the choice of components and
design of the circuitry.
Typ. useful life
Typ. useful life
of standard types of long life types
Typ. useful life
of extra long life types
SAL-capacitors
100
ΔC0 90
C
80
%
70
60
Z/ZD
50
%
40
400
300
200
100
C0 = Initial value of capacitance
ZD = Specified limit of impedance
Standard
Long life
Extra long life
SAL-capacitors
10K-rule
2000 h/85 °C
4000 h/75 °C
8000 h/65 °C
> 5 years/40 °C
8000 h/85 °C
16 000 h/75 °C
32 000 h/65 °C
> 20 years/40 °C
30 000 h/85 °C
60 000 h/75 °C
120 000 h/65 °C
> 50 years/40 °C
Life time at specified ambient temperature
Fig. 14 - Principal trend of electrical parameters during useful life of different aluminum capacitors
Revision: 19-Mar-15
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Introduction
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CALCULATION OF USEFUL LIFE BY MEANS OF “LIFE-TIME NOMOGRAMS”
Based on the Arrhenius law and on experience for some
decades, a nomogram is specified in the detail specification
for each range, where the influence of ambient temperature
and ripple current on the expected useful life is shown.
Ripple currents at other frequencies than specified must be
corrected using the frequency conversion tables in the
relevant detail specification.
The ratio of actual ripple current to rated ripple current (IA/IR)
is plotted on the vertical axis and the ambient temperature
(Tamb) on the horizontal.
3.6
3.5
3.4
3.3
3.2
3.1
3.0
2.8
Lifetime multiplier
2.6
2.4
5
1. 0
2.
2.2
0
3. 0
4.
2.0
0
6.
0
8.
12
The useful life determined by this procedure is valid for
applications without forced cooling. If IA/IR > 1 and
additional cooling is applied, the useful life may be
considerably extended.
IA = Actual ripple current at specified conditions
IR = Rated ripple current, multiplied with the
frequency correction factor (see relevant tables
in the detail specifications)
0
1.
At the intersection of these two operational conditions the
appropriate multiplier (correction factor) for useful life can be
read. The useful life under these operational conditions shall
be calculated by multiplying the specified useful life with the
correction factor read.
IA 3.8
IR 3.7
1.8
1.6
3.1
3.0
2.8
2
IA = Actual ripple current at specified conditions
IR = Rated ripple current, multiplied with the frequency
correction factor (see relevant tables in the
detail specifications)
1.4
1.2
1.0
0.8
0.5
0.0
60 0
10 0
15 00
IA
IR 3.2
20
30
3.3
40
50
60
70
80
90
110
100
Tamb (°C)
Fig. 16 - Typical example of a life-time nomogram as used for axial
and radial 105 °C types: Useful life as a function of ambient
temperature and ripple current load
2.6
EXAMPLES FOR THE USE OF “LIFE-TIME NOMOGRAMS”
2.4
Example 1
Lifetime multiplier
2.2
0
1.
0
2.
Which useful life can be expected (without pause and
storage times):
0
3.
1.8
0
4.
1. For a capacitor with a specified useful life of 2000 h at
85 °C
0
6.
1.6
10
1.4
15
20
30
2. For a capacitor with a specified useful life of 2000 h at
105 °C
50
70
1.2
1.0
0.8
0.5
0.0
Ripple current load is exactly the rated value (thus: IA/IR = 1).
5
1.
2.0
40
Temperature in (operating) equipment is 45 °C.
Solution:
50
60
70
80
90
100
Tamb (°C)
Fig. 15 - Typical example of a life-time nomogram as used for axial
and radial 85 °C types: Useful life as a function of ambient
temperature and ripple current load
The corresponding life-time multiplier may be found at the
intersection between the vertical “45 °C”-line and the
horizontal “1”-line. For the 85 °C type this is “30” (see
Fig. 15) and for the 105 °C type it is “90” (see Fig. 16).
Resulting useful life is thus:
1. For 85 °C type: 30 x 2000 h = 60 000 h or about 7 years
2. For 105 °C type: 90 x 2000 h = 180 000 h or about
20 years.
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Vishay BCcomponents
Example 2
Example 3
Which life time requirement has to be fulfilled by the
capacitors, if the equipment life shall be 10 years (approx.
100 000 h), consisting of 1000 h at 75 °C + 9000 h at
65 °C + 90 000 h at 40 °C.
No ripple current applied (thus: IA/IR = 0).
Which internal temperature may occur in the equipment, if
the actual ripple current at 10 kHz is 3 times higher than
specified for a 16 V-type and the load limit may not be
exceeded?
Solution:
The ripple current must first be converted from 10 kHz to
100 Hz by using the conversion table (see typical example,
Table 3). This shows that the conversion factor for a
16 V-type is 1.2.
Solution:
The mentioned life-times shall be converted to specified
85 °C or 105 °C life-times, i.e. they have to be divided
through the correction factors found at the intersection of
the respective operational conditions (see Table 4).
IA/IR = 3 at 10 kHz and must be divided by 1.2, resulting in
IA/IR = 2.5 at 100 Hz.
The required life-time can be fulfilled by types with a
specified useful life of:
The load limit is defined by the diagonal line “multiplier 1” in
the relevant nomogram.
1. > 2970 h at 85 °C i.e. a 3000 h/85 °C type, or
2. > 935 h at 105 °C i.e. a 1000 h/105 °C type.
This means here: The vertical line on the intersection of
IA/IR = 2.5 and the multiplier 1-line shows the maximum
permitted internal temperature:
1. For 85 °C types this is max. 59 °C
2. For 105 °C types this is max. 79 °C
The corresponding life-time in this case is equal to the
specified useful life.
Table 3
TYPICAL EXAMPLE OF A FREQUENCY CONVERSION TABLE
FREQUENCY
(Hz)
(1)
IR MULTIPLIER
UR = 6.3 V TO 25 V
UR = 35 V AND 40 V
UR = 50 V AND 63 V
50
0.95
0.85
0.80
100
1.00
1.00
1.00
300
1.07
1.20
1.25
1000
1.12
1.30
1.40
3000
1.15
1.35
1.50
 10 000
1.20
1.40
1.60
Note
(1) (I /I ) as a function of frequency; I = Rated ripple current at 100 Hz
R,f R
R
Table 4
LIFE-TIME CALCULATION in “Example 2”
LIFE CONDITIONS
85 °C TYPES (see Fig. 15)
105 °C TYPES (see Fig. 16)
1000 h at 75 °C
1000/2.9 = 345 h
1000/8 = 125 h
9000 h at 65 °C
9000/6 = 1500 h
9000/20 = 450 h
90 000 h at 40 °C
90 000/80 = 1125 h
90 000/250 = 360 h
Sum for 85 °C = 2970 h
Sum for 105 °C = 935 h
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Document Number: 28356
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FAILURE RATE () TOTAL FAILURE PERCENTAGE
Aluminum capacitors, like many other electronic
components and devices, exhibit a failure rate which varies
with time as depicted in the familiar “bathtub” curve (see
Fig. 17). Three distinct regions can be discerned:
a. Burn-in period, showing a rapidly decreasing failure rate.
During production of Vishay BCcomponents’ aluminum
capacitors all capacitors undergo a re-forming process
which is a short burn-in. All capacitors shipped have
passed burn-in.
b. Constant failure period, showing a low failure rate for a
long period. This is the “useful life” period of the
aluminum capacitor. The detail specifications of the
relevant series specify the upper limit for the total failure
percentage (TFP) during this period. For non-solid
aluminum capacitors this limit is usually not reached
before the wear-out period begins.
c. Wear-out period, showing an increasing failure rate due
to gradual deterioration. For aluminum capacitors with
non-solid electrolyte, the onset of this period can be
calculated with the nomogram (see Fig. 18).
The failure rate is the number of components failing within a
unit of time. For region (b), where the failure rate has a
constant value , the total failure percentage as a function of
time, TFP(t), can be expressed as:

N(t) 
- x t
TFP(t) =  1 - ----------  x 100 % =  1 - e
 x 100 %
N(0)



with
 =  40 °C, 0.5 U x mult  T U /U R 
103
Failure rate
multiplying
factor
U/UR =
102
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
10
1
10-1
0
20
40
60
80
100
120
N(t) is the number of components that have not failed after
time t. As  mainly depends on two stress factors,
temperature and the ratio of applied voltage to rated
voltage, it is common to normalize it to reference
conditions, Tamb = 40 °C and U = 0.5 x UR. The value for
 40 °C, 0.5 U is calculated from results of periodical tests in
R
the quality laboratories or derived from field observations.
Fig. 18 - Conversion factors for failure rate () as a function of
ambient temperature (Tamb) and voltage ratio (U/UR) for non-solid
aluminum capacitors
Failure rate
multiplying
factor
U/UR =
1.0
0.9
10
In order to calculate  for other operating conditions, the
value for the failure rate multiplying factor, mult (T, U/UR) in
the formula above, must be taken from Fig. 18 (non-solid
aluminum capacitors) or Fig. 19 (solid aluminum capacitors).
Factory
(a)
Customer
(b)
a) Initial failure period (“infant mortality”)
b) Random failure period (= Useful life period)
c) Wear-out failure period
0.8
0.7
0.6
0.5
0.4
0.3
0.2/0.1
1
(c)
Time (t)
Fig. 17 - Failure rate () as a function of time
(“bathtub” curve)
Revision: 19-Mar-15
160 180
Tamb (°C)
102
R
Failure
rate
(λ)
140
10-1
0
50
100
150
Tamb (°C)
Fig. 19 - Conversion factors for failure rate () as a function of
ambient temperature (Tamb) and voltage ratio (U/UR) for solid
aluminum capacitors
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CLIMATIC CATEGORY
For each capacitor range the climatic category in accordance with “IEC 60068-1” is stated in the relevant detail specification.
The climatic category consists of three digit groups; example given in Table 5.
Table 5
EXAMPLE OF CLIMATIC CATEGORIES
Example:
40
085
56
40
Lower category temperature (here: -40 °C)
085
Upper category temperature (here: +85 °C)
56
Duration of test “damp heat, steady state” (here: 56 days)
Table 6
MAXIMUM HUMIDITY CONDITION INDICATION FOR THE APPLICATION CLASS
RELATIVE AIR HUMIDITY
CODE
LETTER
YEARLY
AVERAGE
30 DAYS
PER YEAR
OCCASIONALLY
C
 95 %
100 %
100 %
Permitted
D
 80 %
100 %
90 %
Permitted
E
 75 %
95 %
85 %
Slightly/rarely
F
 75 %
95 %
85 %
Not permitted
DEWING
APPLICATION CLASS
DESIGN RULES FOR “CAPACITOR BATTERIES”
Although the German standard “DIN 40040” has been
withdrawn, it is still widely used in industrial specifications
for the definition of climatic working conditions. The
application class consists of 3 code letters which have the
following meanings.
MECHANICAL
CODE LETTER MEANINGS
1st letter:
Lower category temperature
F: -55 °C; G: -40 °C; H: -25 °C
2nd letter:
Upper category temperature
P: +85 °C; M: +100 (+105) °C;
K: +125 °C; H: +155 (+150) °C
3rd letter:
Maximum humidity conditions (see Table 6)
Vishay BCcomponents large aluminum capacitors are
mainly used in power supply applications under high ripple
current load. In these circumstances, the capacitors must
be mounted with a distance of  15 mm from each other, in
order to allow sufficient air circulation and to prevent mutual
radiation.
Likewise, if axial or radial types are subject to high ripple
load, they shall be mounted with sufficient distance
(e.g.  10 mm) from each other for good convection.
ELECTRICAL
Parallel connection
MOUNTING
MOUNTING POSITION OF NON-SOLID ALUMINUM
CAPACITORS
Snap-in and printed wiring (PW) as well as solder lug (SL)
aluminum capacitors, in addition to the larger case sizes of
axial and radial types, are normally equipped with pressure
relief in the aluminum case. These and all smaller case size
types, may be mounted in any position.
Screw-terminal aluminum capacitors have a pressure relief
in the sealing disc. These types shall be mounted so that no
emissions of electrolyte or vapor may reach either the
conductors under voltage, or other parts of the printed
circuit board. Vertical (pressure relief up) or horizontal
(pressure relief on the upper side) mounting position is
recommended.
Revision: 19-Mar-15
Aluminum capacitors may be connected in parallel, but for
safety reasons, large sizes should be individually guarded
against sudden energy discharge of the whole battery due
to a defective specimen.
Series connection
If two aluminum capacitors are connected in series,
balancing resistors are required; see Fig. 20. Without these
resistors, leakage current through both capacitors is the
same. Because the leakage current for two capacitors can
be quite different when the same voltage is applied, forcing
the same current through both capacitors will mean that the
voltage will not divide evenly. One capacitor might be
subjected to a voltage exceeding its rated voltage. Parallel
balancing resistors limit the difference in voltage across the
capacitors under DC conditions.
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For practical purposes the following equation can be used
to calculate the maximum possible resistor values in ohms:
2 x  U m - U total 
R = --------------------------------------------I L5
C1
R
C2
R
Utotal
Here, Um is the maximum (rated) voltage that may be
present on one of the capacitors and IL5 is the specified
leakage current in amperes after 5 min (used as an
approximation of the difference in leakage current between
C1 and C2).
Um
Fig. 20 - Balancing resistors for two aluminum capacitors in series
Combined series/parallel connection
The above mentioned rules for both series and parallel
connection are accordingly valid for any combination of
these two cases.
MARKING
Vishay BCcomponents aluminum capacitors are identified in accordance with “IEC” rules. When sufficient space is available,
capacitors are marked with the following details:
Rated capacitance
Rated voltage
in μF (the “μ” sign represents the position of the decimal point)
in V
Tolerance on rated capacitance
If necessary, as a letter code in accordance with “IEC 60062”, e.g.
T for -10 %/+50 %
M for ± 20 %
K for ± 10 %
Q for -10 %/+30 %
A for tolerance according to detail specification
Group number
Catalog number
Name of manufacturer
3-digit part of the catalog number, e.g. 036 for RSP series
or last 8-digits of the catalog number
BCcomponents or BCC or BC
Date code
Abbreviation in 2 digits (“IEC 60062”), e.g.
1st digit
X = 2009
F = 2015
A = 2010
H = 2016
B = 2011
J = 2017
C = 2012
K = 2018
D = 2013
L = 2019
E = 2014
M = 2020
2nd digit
1
= January
2
= February
...
9
= September
O = October
N = November
D = December
Example:
B5 = Produced in 2011, May
Production date may also be stated as year/week code.
Date code may also be stamped in the case.
Factory code
Indicating the factory of origin
Polarity identification
Strip, band or negative symbol (“-” sign) to indicate the negative terminal and/or a “+” sign
to identify the positive terminal.
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Aluminum Capacitors
WARNING
Correct application and strict adherence to the important information listed below will ensure optimum performance of the capacitors over
their entire specified useful life.
Please note that ignoring these rules may reduce the equipment lifetime or even destroy the capacitor, together with parts of the equipment
or property involved. The consequences may be a short or open circuit of the component, leakage of electrolyte or heat generation. Opening
of the case or vent (danger of injury) may be regarded as hazardous and cause liquids, vapors or dust to be released. Similar precautions
should be taken when testing aluminum capacitors.
Please consult your local Vishay sales organization, if one or more of these limits cannot be adhered to.
GUIDELINES
PARAMETER
IMPORTANT INFORMATION - PRODUCT SAFETY
MORE DETAILS
Do not apply a voltage exceeding the capacitor's voltage rating.
Check the maximum voltage across the capacitor that may occur over the whole equipment life. In
normal operation the rated voltage of the capacitor shall not be exceeded; if so, early failures may
occur. However, for short periods the voltage may be raised up to surge voltage value (see Detail
Specification); for conditions and maximum parameter changes, see section “Tests and
Requirements”.
Do not allow excessive ripple current to pass.
The rated ripple current as calculated for the application conditions (see section “Introduction”),
shall not be exceeded. If so, early failure may result.
Keep ripple voltage within ratings.
The sum of DC-bias and maximum amplitude of ripple voltage shall be within rated voltage and
0 V. Aluminum capacitors are not normally designed for AC application.
Use capacitors within specified temperature range.
Applicable temperature range is given in the relevant detail specification.
A general principle is that lower ambient temperature means longer life; therefore, wherever
possible, aluminum capacitors should be placed at the coolest positions on the board (please
ensure that aluminum capacitors are placed away from “heating” components such as power
resistors, switching diodes/transistors or transformers). Exceeding the permitted temperature
range may cause early failures.
Observe charge-discharge limitations.
Frequent charge-discharge load via low resistance may cause capacitance drop or destroy the
capacitor. Under well defined conditions (see section “Tests and Requirements”) frequent
charge-discharge operation is allowed. The resulting current through the capacitor must not
exceed the ripple current limit. Standard aluminum capacitors are not suitable for flash
applications.
When connecting in series/parallel, apply corresponding design rules.
Connecting aluminum capacitors in series/parallel is possible, provided that balancing resistors are
applied to each capacitor, in order to stabilize the voltage over each individual capacitor. Rules for
correct design are given in section “Introduction”.
Conducting tracks or lands should not be located under upright mounted aluminum capacitors;
short circuits under the capacitor with danger of fire could be the result.
The capacitor case is not insulated from the cathode terminal.
Axial capacitors have a direct contact between case and cathode terminal; radial and power
capacitors exhibit an indeterminate resistance between the cathode terminal and the metal case.
Metal parts other than terminals should never make contact with conducting tracks or metal parts
of other components.
Dummy pins should be connected to the cathode.
Detail
Specification

TESTS AND
REQUIREMENTS
Aluminum capacitors for DC applications require polarization.
Check the polarity of each capacitor: both in circuit design and in mounting (polarity is clearly
indicated on the capacitor). For short periods a limited reverse voltage is allowed (see Detail
Specification); for conditions and maximum parameter changes, see section “Tests and
Requirements”. Exceeding reverse voltage may result in early failures.
Avoid excessive stress to the lead wires or terminals.
Excessive stress can be caused by component processing machines if lead wires are not
sufficiently fixed during bending, cutting, cropping or inserting operations. Other possible reasons
are incorrect hole distance on the printed circuit or bending of the component after soldering. Care
should be taken when the manual bending of terminals or mounted capacitors is required. For
maximum allowed mechanical load and time of application, see section “Tests and Requirements”.
Mechanically damaged capacitors may not be used.
Pressure relief should have enough space to function correctly.
Detail
Specification

TESTS AND
REQUIREMENTS
DESIGN
VOLTAGE
RIPPLE LOAD
TEMPERATURE
CHANGE
CHARGE-
DISCHARGE
SERIES/
PARALLEL
CONNECTIONS
PC BOARD
DESIGN
INSULATION
Detail
Specification

INTRODUCTION
Detail
Specification
TESTS AND
REQUIREMENTS
INTRODUCTION
MOUNTING
POLARITY,
REVERSE
VOLTAGE
PLACEMENT
Revision: 31-Aug-09
TESTS AND
REQUIREMENTS
Document Number: 28357
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Product Safety
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GUIDELINES
PARAMETER
IMPORTANT INFORMATION - PRODUCT SAFETY
MORE DETAILS
SOLDERING
Keep soldering temperature and time under control.
For maximum soldering conditions, see section “Tests and Requirements”. Additional temperature
load e.g. for curing the glue of Surface Mount Devices (SMDs) are allowed to a certain limit, which
depends on series and exact details. Please apply to your sales engineer for your specific
conditions. Molten solder or the soldering iron should not make contact with the capacitor's
insulation. Reflow soldering is only suitable for SMD components.
TESTS AND
REQUIREMENTS
BOARD
CLEANING
No guarantees can be given with regard to solvents based on halogenated hydrocarbons or
ozone depleting chemicals (ODCs).
Warning: Such solvents are hazardous to the environment.
Component cleaning using solvents such as demineralized or distilled water, isopropanol,
methanol, ethanol and propanol would not normally have any detrimental effects and therefore do
not require any special precautions. Aqueous cleaning methods may be used in conjunction with
saponification using a neutral detergent like calgonite at 20 g/l. It is recommended that immediate
drying of the component in hot air is carried out at approximately 85 °C (or 70 °C for products with
an upper category temperature of 70 °C) for at least 5 minutes. For further information regarding
the application of solvent temperatures exceeding the temperature mentioned in
“IEC 60068-2-45”, consult your local Vishay sales organization.
ADHESIVES,
COATING
MATERIALS
Some adhesives and coating materials affect capacitors adversely.
For varnishing, coating, lacquering, embedding or gluing at the capacitor's sealing, ensure that the
materials used are halogen-free in all their constituent parts (base material, thinners, binders,
reacting agents, propellants, additives). For reasons see “BOARD CLEANING” above.
When applying such materials, ensure that non-aluminum parts, e.g. the rubber area, are not
completely sealed off.
MOUNTING
STORAGE AND TRANSPORT
STORAGE
CONDITIONS,
HANDLING
Excessive storage time or conditions may have adverse effects on capacitors.
Capacitors should be stored at room temperature, low humidity and out of direct sunlight. Storage
at elevated temperature and/or high relative humidity may have a negative influence on taping
accuracy, solderability, leakage current and life expectancy.
Packages with aluminum capacitors should be handled with care, otherwise bent leads and/or
incorrect taping dimensions could be the result.
HIGH AIR
PRESSURE
Do not expose capacitors to overpressure.
Maximum operating pressure is 150 kPa. Higher pressure may cause a short circuit.
LOW AIR
PRESSURE
The capacitors may be used up to an altitude of  12 000 m.
Minimum air pressure: 8.5 kPa for short periods (in accordance with “IEC 60384-4, sub
clause 4.11.4”).
DISINFECTING
E.G. FOR SARS
No guarantees can be given when disinfectants are/have been used.
Disinfectants may contain halogens like chlorine, fluorine, bromine etc. and alkaline solutions.
Disinfectants should not be used near or on the capacitor. Over time they can cause corrosive
reactions to capacitors resulting in reduced capacitance, open circuits etc.
For further information please consult your local Vishay sales organization.
INTRODUCTION

TESTS AND
REQUIREMENTS
TESTS AND
REQUIREMENTS
EMERGENCY
PERSONNEL
SAFETY
WARNING NOTE.
Non-solid aluminum capacitors may contain chemicals which can be regarded as hazardous if
handled incorrectly. Caution is necessary if the outer case is fractured; vapors or dust particles
should not be inhaled (good ventilation is essential); skin, eye or clothing contact with liquids
should be avoided. In case of such contact, flush thoroughly with running water as soon as
possible, then wash skin or clothing with soap and water or a mild detergent. Any possible
discoloration of the wetted skin will disappear after a few days.
In the event of fire, the organic parts of aluminum capacitors may release such constituents as
carbon monoxide, nitric oxides or dust particles; take caution when breathing-in.
END OF LIFE
DISPOSAL
Revision: 31-Aug-09
Aluminum capacitors are subject to special waste regulations.
Aluminum capacitors are free from PCB- or PBDE-containing substances. Dioxines or furanes are
not constituent parts of aluminum capacitors. However, because of other polluting ingredients,
larger quantities (in weight) of aluminum capacitors are subject to special waste regulations in
accordance with the relevant national laws; please consult your local Vishay sales organization.
In general, disposal of aluminum capacitors must take place under controlled circumstances in a
high temperature incinerator at minimum 900 °C.
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Tests and Requirements
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Aluminum Capacitors
TESTS AND REQUIREMENTS
This datasheet contains an abridged version of tests and requirements given in “IEC 60384-4” or “EN130300” respectively.
Correct sequence of measurement for electrical parameters in accordance with “IEC 60384-4” :
1. Leakage current
2. Capacitance
3. tan  or ESR
4. Impedance
Table 1
NON-SOLID ALUMINUM TYPES
NAME OF TEST
IEC 60384-4/
EN130300
SUBCLAUSE
Robustness of
terminations:
IEC 60068-2
TEST
METHOD
PROCEDURE
(quick reference)
REQUIREMENTS
4.4
Tensile strength
Ua
leaded types:
loading force 10 N for 10 s
power types:
loading force 20 N for 10 s
no visible damage
Bending
Ub
leaded types: loading force 5 N
two consecutive bends
no visible damage
Torsion
Uc
leaded types, axial: two successive rotations 
of 180° in opposite direction; 5 s per rotation
no visible damage
Torque on nut
(stud)
Ud
power types/screw terminal: torque of 
1.76 Nm gradually applied
no visible damage
Resistance to
soldering heat
4.5
Tb
(method 1A)
solder bath: 260 °C; 10 s
no visible damage; 
marking legible
C/C: ± 5 %
Solderability
4.6
Ta
solder bath: 235 °C; 2 s; immersed up to 2 mm
from the body; non activated flux
no visible damage; 
marking legible
95 % tinning
Rapid change of
temperature
4.7
Na
for Snap-In, DIN-PW and Screw Terminal
capacitors: 5 cycles of 3 h at lower and upper
category temperature

for axial, radial and SMD capacitors: 5 cycles of
30 min at lower and upper category temperature
no visible damage;
no leakage of electrolyte
Vibration (1)
4.8
Fc
10 Hz to 500 Hz; 0.75 mm or 10 g (whichever
is less); 3 directions; 2 h per direction
form MR or ST types: 10 Hz to 55 Hz;
no visible damage;
no leakage of electrolyte;
marking legible
0.75 mm or 10 g (whichever is less);
3 directions; 2 h per direction
C/C: ± 5 % with respect to initial
measurements
40 g; 2 directions; 4000 bumps total

form MR: 
40 g; 2 directions; 1000 bumps total
no visible damage;
no leakage of electrolyte
no visible damage;
no leakage of electrolyte
Bump (1)
4.9
Eb
Climatic
sequence:
4.11
Dry heat
4.11.1
Ba
16 h at upper category temperature;
no voltage applied
Damp heat,
cyclic
4.11.2
Db
1 cycle (55 °C  25 °C) of 24 h; 
RH 95 % to 100 %; no voltage applied
Cold
4.11.3
Aa
2 h at lower category temperature; 
no voltage applied
Revision: 01-Dec-14
C/C: ± 5 % with respect to initial
measurement
no visible damage;
no leakage of electrolyte
Document Number: 28358
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NON-SOLID ALUMINUM TYPES
NAME OF TEST
IEC 60384-4/
EN130300
SUBCLAUSE
IEC 60068-2
TEST
METHOD
PROCEDURE
(quick reference)
REQUIREMENTS
Low air pressure
4.11.4
M
5 min at 25 °C ± 10 °C; at atmospheric pressure
of 8.5 kPa; UR applied during last min
Damp heat,
cyclic
4.11.5
Db
5 cycles (55 °C  25 °C) of 24 h each;
RH 95 % to 100 %; no voltage applied
Sealing
4.11.6
Qc
1 min in water at 90 °C
no continuous chain of bubbles
final measurement after climatic sequence
no visible damage;
no leakage of electrolyte;
marking legible
4.11.7
no visible damage;
no evidence of breakdown or
flashover
leakage current  stated limit
tan   1.2 x stated limit
C/C: ± 10 %
Insulation
resistance
4.3.5
insulation sleeve:
foil method
insulation resistance100 M
Voltage proof
4.3.6
insulation sleeve:
foil method; 1000 V for 1 min
no breakdown or flashover
Damp heat,
steady state
4.12
56 d at 40 °C; RH 90 % to 95 %; 
no voltage applied
no visible damage;
no leakage of electrolyte;
marking legible
Ca
leakage current stated limit
tan   1.2 x stated limit
insulation resistance > 100 M; 
no breakdown or flashover below
1000 V
C/C: ± 10 %
Endurance
4.13
for test duration, refer to the relevant datasheet
in this data book; at upper category
temperature; UR applied
no visible damage;
no leakage of electrolyte;
marking legible
leakage current  stated limit
insulation resistance > 100 M;
no breakdown or flashover below
1000 V
UR  6.3 V; C/C: + 15 %/- 30 %; 
6.3 V < UR < 200 V; C/C: ± 15 %;
UR  200 V; C/C: ± 10 %
tan   1.3 x stated limit
impedance 2 x stated limit
Surge
Reverse voltage
Pressure relief
(only for types
with vent)
Revision: 01-Dec-14
4.14
4.15
4.16
from source of 
1.15 x UR for UR  315 V or 
1.1 x UR for UR > 315 V 
RC = 0.1 s ± 0.05 s
1000 cycles of 30 s on, 330 s off, at upper
category temperature
no visible damage;
no leakage of electrolyte
1 V in reverse polarity followed by UR in forward
polarity, both for 125 h at upper category
temperature
leakage current  stated limit
DC voltage applied in reverse direction
producing a current of 1 A to 10 A
pressure relief opens prior to
danger of explosion or fire
leakage current  stated limit
tan   stated limit
C/C: ± 15 %
tan   stated limit
C/C: ± 10 %
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NON-SOLID ALUMINUM TYPES
NAME OF TEST
IEC 60384-4/
EN130300
SUBCLAUSE
Storage at
upper category
temperature
4.17
IEC 60068-2
TEST
METHOD
Ba
PROCEDURE
(quick reference)
test duration 500 h at upper category
temperature; for longer test duration (shelf life),
refer to the relevant datasheet in this data book
REQUIREMENTS
no visible damage;
no leakage of electrolyte
leakage current  2 x stated limit
tan   1.2 x stated limit
C/C: ± 10 %
Storage at low
temperature
4.18
Ab
72 h at the lower category temperature
no visible damage;
no leakage of electrolyte
leakage current stated limit
tan   stated limit
C/C: ± 10 %
Characteristics
at high and low
temperatures
Charge and
discharge
4.19
step 1: reference measurement of impedance at
20 °C and 100 Hz
Aa
step 2: measurement at lower category
temperature
impedance at 100 Hz:
 7 x value of step 1 for UR  6.3 V
or UR > 160 V;
 5 x value of step 1 for
6.3 V < UR  16 V; 
 4 x value of step 1 for 
16 V < UR  160 V
Ba
step 3: measurement at upper category
temperature
leakage current:
 15 x stated limit at 150 °C;
 10 x stated limit at 125 °C;
 8 x stated limit at 105 °C;
 5 x stated limit at 85 °C; 
 3 x stated limit at 70 °C
for UR  160 V: 106 cycles of 0.5 s charge to UR
(RC = 0.1 s) and 0.5 s discharge (RC = 0.1 s);
no visible damage;
no leakage of electrolyte
for UR > 160 V: under consideration
C/C: ± 10 %
4.20
Additional tests in accordance with IEC 60384-1 and EN130000
Solvent
resistance
4.31
Xa
immersion: 5 min ± 0.5 min with or without
ultrasonic at 55 °C ± 0.5 °C
visual appearance not affected
solvents: demineralized water and/or calgonite
solution (20 g/l)
Passive
flammability
4.38
IEC 60695-2-2
needle flame test
category of flammability: B
Note
For vibration and bump testing, the components shall be mounted by their terminations (with mounting accessories where applicable). 
The following capacitors shall also be clamped by their body:
(a) Radial types: Ø Dnom  12.5 mm; Lnom  15 mm
(b) Axial types: ØDnom  12.5 mm; Lnom  30 mm
Revision: 01-Dec-14
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Table 2
SOLID ALUMINUM TYPES, SAL
NAME OF TEST
Robustness of
terminations:
IEC 60384-4/
EN130300
SUBCLAUSE
IEC 60068-2
TEST METHOD
PROCEDURE
(quick reference)
REQUIREMENTS
4.4
Tensile 
strength (1)
Ua
loading force;
10 N for 10 s
no visible damage
Bending (1)
Ub
loading force;
5 N; two consecutive bends
no visible damage
Torsion
(axial types)
Uc
two successive rotations of 180° in opposite
direction; 5 s duration per rotation
no visible damage
Tb
(method 1A)
radial types:
solder bath: 260 °C; 10 s
no visible damage;
markings legible
Tb
(method 1B)
axial types:
solder bath 350 °C for 3.5 s
C/C: ± 5 % with respect to initial
measurement
Resistance to
soldering heat
4.5
Solderability
4.6
Ta
(method 1)
solder bath: 235 °C; 2 s
immersed up to 2 mm from the body; 
non activated flux
no visible damage;
marking legible
Rapid change of
temperature
4.7
Na
5 cycles of 30 min at lower and upper
category temperature
no visible damage
Vibration (2)
4.8
10 Hz to 500 Hz; 0.75 mm or 10 g (whichever
is less severe); in 3 directions; 2 h per
direction
no visible damage;
markings legible
128 SAL-RPM:
10 Hz to 2000 Hz; 1.5 mm or 20 g (whichever
is less severe); in 3 directions; 2 h per
direction
no visible damage;
markings legible
40 g; 2 directions; 4000 bumps total
no visible damage
Bump (2)
4.9
Fc
Eb
 95 % tinning
leakage current tan  and
Z  stated limit
C/C: ± 5 % with respect to initial
measurement
C/C: ± 5 % with respect to initial
measurement
C/C: ± 5 % with respect to initial
measurement
Shock (2)
Revision: 01-Dec-14
4.10
Ea
123 SAL-AG:
acceleration:
29 400 m/s2 or 3000 g;
duration of pulse: 0.2 ms;
total number of shocks: 18
no visible damage
C/C: ± 5 % with respect to initial
measurement
Document Number: 28358
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SOLID ALUMINUM TYPES, SAL
NAME OF TEST
IEC 60384-4/
EN130300
SUBCLAUSE
IEC 60068-2
TEST METHOD
PROCEDURE
(quick reference)
Climatic
sequence:
4.11
Dry heat
4.11.1
Ba
16 h at upper category temperature; no
voltage applied
Damp heat,
cyclic
4.11.2
Db
1 cycle (55 °C  25 °C) of 24 h;
RH 95 % to 100 %;
no voltage applied
Cold
4.11.3
Aa
2 h at lower category temperature; no voltage
applied
Low air pressure
4.11.4
M
5 min at 25 °C ± 10 °C;
atmospheric pressure: 8.5 kPa; UR applied
during last min of test
Damp heat,
cyclic
4.11.5
Db
5 cycles (55 °C  25 °C) of 24 h each; 
25 °C; RH 95 % to 100 %; no voltage applied
4.11.7
final measurements after climatic sequence
REQUIREMENTS
no breakdown, flashover, or
harmful deformation of case
no visible damage;
markings legible
leakage current  stated limit
tan  and Z  1.2 x stated limit
axial types:
C/C: ± 5 % with respect to initial
measurement
radial types:
C/C: ± 10 % with respect to initial
measurement
Damp heat,
steady state
4.12
Ca
56 d at 40 °C: RH 90 % to 95 %;
no voltage applied
no visible damage;
markings legible
leakage current stated limit
tan and Z  1.2 x stated limit
C/C: ± 10 % of initial
measurement
Insulation
resistance
4.3.5
insulation sleeve: 
foil method
insulation resistance 100 M
Voltage proof
4.3.6
insulation sleeve:
foil method; 1000 V for 1 min
no breakdown or flashover
Endurance
4.13
for test duration, refer to the relevant
datasheet in this data book;
at upper category temperature;
UR applied (3)
no visible damage;
markings legible
leakage current stated limit
C/C: ± 10 % with respect to initial
measurement
tan  and Z  1.2 x stated limit
axial types:
insulation resistance  100 M; no
breakdown or flashover at 1000 V
Endurance
(additional)
2000 h at 175 °C;
maximum 0.63 x UR applied
leakage current stated limit
C/C: ± 20 % with respect to initial
measurement
tan   1.5 x stated limit
Z  2.5 x stated limit
Revision: 01-Dec-14
Document Number: 28358
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SOLID ALUMINUM TYPES, SAL
NAME OF TEST
IEC 60384-4/
EN130300
SUBCLAUSE
Surge
4.14
IEC 60068-2
TEST METHOD
PROCEDURE
(quick reference)
applied voltage source of
1.15 x UR (3) at 125 °C;
1000 cycles; 30 s on, 330 s off
REQUIREMENTS
no visible damage
leakage current stated limit
tan   stated limit
axial types:
C/C: ± 5 % with respect to initial
measurement
radial types:
C/C: ± 10 % with respect to initial
measurement
0.15 x UR (3) in reverse polarity at 
125 °C for 125 h, followed by 
UR (3) in forward polarity at 125 °C for
125 h
leakage current  stated limit
Reverse voltage
(additional):
Radial types
0.30 x UR (3) in reverse polarity at 
125 °C for 125 h, followed by 
UR (3) in forward polarity at 125 °C for 125 h
leakage current  stated limit
Reverse voltage
(additional):
Axial types
0.30 x UR in reverse polarity at 125 °C for
2000 h
leakage current  stated limit
500 h at upper category temperature
no visible damage
leakage current stated
limitC/C: ± 10 % with respect to
initial measurement
at ambient temperature
leakage current stated limit
Reverse voltage
4.15
C/C: ± 10 % with respect to initial
measurement
tan  and Z  stated limit
C/C: ± 10 % with respect to initial
measurement
tan  and Z  stated limit
C/C: ± 10 % with respect to initial
measurement
tan  and Z  stated limit
Storage at
upper category
temperature
4.17
Long storage
1 year
(additional)
Characteristics
at high and low
temperature
4.19
Ba
step 1: reference measurement at 20 °C
of capacitance, tan  and impedance at 
100 Hz
step 2: measurement at -55 °C;
tan  and impedance at 100 Hz
C/C: ± 20 % with respect to value
in step 1
impedance ratio (100 Hz) 
2 x the value of step 1
tan   2 x the stated limit
step 3: measurement at 125 °C capacitance,
leakage current and tan 
leakage current
15 x the stated limit; (4)(5)
C/C: ± 20 % of the value
measured in step 1
tan   stated limit
Charge and
discharge
Revision: 01-Dec-14
4.20
106 cycles charging to UR for 0.5 s, and then
discharging for 0.5 s
no visible damage
C/C: ± 5 % with respect to initial
measurement
Document Number: 28358
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SOLID ALUMINUM TYPES, SAL
NAME OF TEST
IEC 60384-4/
EN130300
SUBCLAUSE
IEC 60068-2
TEST METHOD
PROCEDURE
(quick reference)
REQUIREMENTS
Additional tests in accordance with IEC 60384-1 and EN130000
Solvent
resistance
4.31
Xa
immersion:
5 min ± 0.5 min with or without ultrasonic at 
55 °C ± 0.5 °C
visual appearance not affected
solvents:
demineralized water and/or calgonite solution
(20 g/l)
Passive
flammability
4.38
IEC 60695-2-2
needle flame test
category of flammability: B
Notes
(1) SPECIAL PLIERS MUST BE USED TO PROTECT THE CELL BODY AND CONSEQUENTLY KEEP THE BENDING LOCATION UNDER
CONTROL.
(2)
Axial capacitors shall be mounted by clamping both the body and the leads.
(3)
UR at 125 °C is 25 V for 35 V and 40 V versions.
(4)
For radial types, 40 V version: < 8 x the stated limit
(5)
for axial types:  1.5 x UR x CR
Revision: 01-Dec-14
Document Number: 28358
31
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Quality Flowchart
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Vishay BCcomponents
Generic Quality Flowchart for
Non-Solid Electrolytic Capacitors
FOIL
PIECE PARTS,
MATERIALS
CONDUCTIVITY,
OTHER PARAMETERS
ETCHING
WASHING
(IF REQUIRED)
FORMING VOLTAGE,
CAPACITANCE
ANODIZATION
CLEANNESS
DIMENSIONS,
VISUAL
SLITTING
METAL/METAL
CONNECTIONS,
DIMENSIONS, VISUAL
TABBING
VISUAL AND
DIMENSIONS
WINDING
VISUAL, VACUUM
IMPREGNATION
METAL/METAL
CONNECTIONS,
DIMENSIONS, VISUAL
TAB/TERMINATION
CONNECTION
VISUAL AND
DIMENSIONS
ENCAPSULATION
VISUAL
INSULATION
LEAKAGE CURRENT
AGEING
PERCENTAGE
DEFECTIVE ANALYSIS
100 % ELECTRICAL
TESTS
LEGIBILITY AND
CORRECTNESS
MARKING
CORRECTNESS
PACKAGING
QUALITY
CONFORMANCE
AS PER DETAIL
SPECIFICATION
DELIVERABLES
CHEMICALS
PREPARE
ELECTROLYTE
Input/Output
Process steps
Lay-out and wording are based
on CECC 210 011
(Technology Approval Schedule
Electrolytic Capacitors).
Main process control activities
Revision: 22-Aug-12
Document Number: 28376
32
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Conductive Polymer Capacitors
CONDUCTIVE POLYMER CHARACTERISTICS
ITEM
CONDITIONS
SPECIFICATION
Capacitors are placed in an oven with a specific
temperature regulation. 
The specific regulation is:
+25 °C (3 min), -55 °C (30 min), +25 °C (3 min),
+105 °C (30 min), +25 °C (3 min), and it is called a
cycle. The test totals 50 cycles. The capacitor is
then subjected to standard atmospheric conditions
for four hours, after which measurements are made.
1. Capacitors are placed in an oven with rated
voltage applied for 2000 h (+72 h / -0 h) at 105 °C.
2. The capacitors are subjected to standard
atmospheric conditions for four hours, after
which measurements are made.
Capacitance change
tan 
Leakage current
Physical
Within ± 20 % of initial value
Within specified value
Within specified value
Unbroken and undamaged
Capacitance change
tan 
ESR
Leakage current
Physical
Within ± 20 % of initial value
Less than 150 % of specified value
Less than 150 % of specified value
Within specified value
Unbroken and undamaged
Moisture resistance
Capacitors are exposed for 1000 h (+48 h / -0 h) in
an atmosphere of 90 % RH to 95 % RH at
60 °C, ± 3 °C.
The capacitors are then subjected to standard
atmospheric conditions for four hours, after which
measurements are made.
Capacitance change
tan 
ESR
Leakage current
Physical
Within ± 20 % of initial value
Less than 150 % of specified value
Less than 150 % of specified value
Within specified value
Unbroken and undamaged
Vibration test
1. Fix capacitors at a point 4 mm or less from
the body. For capacitors of 12.5 mm or more
in diameter or 25 mm or more in length, use a
separate fixture
2. Direction and during of vibration:
Three orthogonal directions for two hours each
(total of six hours)
3. Frequency:
10 Hz to 55 Hz reciprocation for 1 minute
4. Total amplitude: 1.5 mm
Approved to reflow soldering profile according to
JEDEC® J-STD-020D standard

Peak temperature (Tpeak) = 260 °C
Maximum time above Tpeak minus 5 °C = 40 s

For further details, please see specific datasheet.
Capacitors are subjected to 1000 cycles at 15 °C to
35 °C. 1 k protective series resistors each consist
of charge periods of 30 s, ± 5 s, followed by
discharge periods of approximately 5.5 minutes.
Capacitance change
tan 
ESR
Leakage current
Physical
Within ± 10 % of initial value
Within specified value
Within specified value
Within specified value
Unbroken and undamaged
Capacitance change
tan 
ESR
Leakage current
Physical
Within ± 10 % of initial value
Less than 130 % of specified value
Less than 150 % of specified value
Within specified value
Unbroken and undamaged
Capacitance change
tan 
ESR
Leakage current
Physical
Within ± 20 % of initial value
Less than 150 % of specified value
Less than 150 % of specified value
Within specified value
Unbroken and undamaged
Rotational
temperature test
High-temperature
endurance life test
Resistance to
soldering heat test
Surge voltage test
APPLYING VOLTAGE
RATED VOLTAGE SURGE VOLTAGE
(V)
(V)
2.5
2.9
4.0
4.6
6.3
7.2
10
12
16
18
20
23
25
29
35
40
Revision: 17-Feb-15
Document Number: 28418
33
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CONDUCTIVE POLYMER CHARACTERISTICS
ITEM
Mechanical
characteristics
test
CONDITIONS
SPECIFICATION
Bending test:
Apply pressure in the direction of the arrow at a rate
of about 0.5 mm/s until the bent width reaches
2 mm; hold for 60 s. Test board “B,” as specified in
JIS C 0051: 2002, is used.
If the land area differs, it is specified clearly in the
next item.
Without mechanical damage such as breaks.
Electrical characteristics shall be satisfied. If there are
electrodes on both surfaces, the above requirements will be
satisfied on whichever surface it may be fixed on.
Pressure rod
R230
Board
R5
54 ± 2
54 ± 2
Solderability test
After the lead wire is fully immersed in the solder for 2 s, ± 0.5 s, at a temperature of 245 °C, ± 5 °C, the solder coating
must be more than 95 %.
Thermal shock test
Capacitors are placed in an oven with a specific temperature regulation.
The specific regulation is -55 °C, ± 3 °C, (30 min) to +105 °C, ± 3 °C, (30 min), and it is called a cycle.
The test totals 100 cycles.
Failure rate level
Examination of resistance to solder heat.
Test temperature: 105 °C, ± 3 °C
Applied voltage: apply DC voltage equal to rated voltage
Confidence level: 60 %
Coating case
The color of the case coating will turn light khaki from colorless with long durations in high temperatures.
Should there be any concern with the changing color of the case coating, please consult with us.
Soldering pad
Recommended pad pattern and size
CASE SIZE
a
b
c
0506
1.4
3.0
1.6
0606
1.9
3.5
1.6
0608
1.9
3.5
1.6
0807
3.0
3.5
2.5
0812
3.0
3.5
2.5
1008
4.0
4.0
2.5
1013
4.0
4.0
2.5
b
a
Weight
(reference value)
Standards
Revision: 17-Feb-15
c
a
CASE SIZE
WEIGHT (g)
CASE SIZE
WEIGHT (g)
Ø 5 x 5.7
0.153
Ø 8 x 12
0.809
Ø 6.3 x 5.9
0.263
Ø 10 x 7.7
0.86
Ø 6.3 x 7.7
0.358
Ø 10 x 12.6
1.28
Ø 8 x 6.7
0.517
Satisfies characteristic JIS C 5101-25
Document Number: 28418
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PRECAUTIONS AND GUIDELINES FOR CONDUCTIVE POLYMER ALUMINUM CAPACITORS
Conductive polymer capacitors are specially structured solid aluminum electrolytic capacitors that use highly conductive
polymer electrolytic material. Please read the following content in order to get most performance and stable quality by using
conductive polymer capacitor series products.
(1) Guidelines for Circuit Design
1. Polarity
A conductive polymer capacitor is a solid aluminum
electrolytic capacitor with positive and negative
electrodes. Make sure of the polarity. If it is used in
reverse polarity, leakage current will increase and life
span may decrease.
2. Operating Voltage
Do not apply DC voltage exceeding the rated voltage of
the capacitor or reverse voltage. If a voltage exceeding
the capacitor’s voltage rating is applied, the capacitor
may be damaged as leakage current increases. Using
capacitors at the recommended working voltage
prolongs capacitor life. The surge voltage rating is the
maximum DC over-voltage to which the capacitors may
be subjected for short periods.
3. Ripple Current
The combined value of DC voltage and the peak AC
voltage should not exceed the rated voltage. The
superimposition of a large ripple current increases the
rate of heating within the capacitor. This may reduce the
service life of the capacitor or damage the capacitor.
4. Operating Temperature
Use the electrolytic capacitors according to the
specified operating temperature range. Usage at
ambient room temperature will ensure longer life.
5. Leakage Current
The initial leakage current should be within specified
levels. Note that the leakage current may increase due to
thermal stresses that occur during soldering, etc. Note
that increased currents gradually decrease when voltage
is applied.
6. Charge and Discharge
Do not use conductive polymer capacitors in circuits
where the capacitor is repetitively charged and
discharged rapidly. Repetitively charging and
discharging rapidly may reduce the capacitance or
cause damage due to internal heating. Therefore,
protection circuits are recommended for designs where
rush currents exceed 10 A.
7. Condition of Use
Conductive polymer capacitors should not be used /
exposed to the following conditions.
a. Water, saltwater spray, oil or fumes, high humidity, or
humidity condensation.
b. Ambient conditions that include hazardous gases
such as hydrogen sulfide, sulfurous acid, nitrous acid,
chlorine or bromine gas, ammonia, etc.
c. Ozone, ultraviolet rays, and radiation.
d. Severe vibration or physical shock that exceeds the
conditions in specification sheets.
Revision: 17-Feb-15
8. Consideration to Circuit Design
a. Please make sure the application and mounting
conditions that the capacitor will be used in meet the
conditions specified in the catalog. If the conditions
are beyond the conditions specified in the catalog,
please contact us.
b. Do not design a circuit board so that heat-generating
components are placed near conductive polymer
capacitors or the reverse side of the PCB. A cooling
system is recommended.
c. Operating temperature, applied voltage, and ripple
current should be within specification. The ambient
temperature should not exceed the operating
temperature and applied ripple current should not
exceed the allowable ripple current specified in the
specification.
d. Performances of electrical characteristics of
conductive polymer capacitors are affected by
variations in operating temperature and frequency.
Consider these variations when designing the circuit.
e. When two or more capacitors are connected in
parallel, consider the current balance that flows
through the capacitors.
f. If more than two capacitors are connected in series,
make sure the applied voltage will be lower than the
rated voltage and that voltage will be applied to each
equally using a balancing resistor in parallel with each
capacitor.
g. For the appropriate capacitor for circuits that repeat
rapid charge and discharge, please consult us.
h. The outer sleeve of the capacitor is not guaranteed as
an electrical insulator. Do not use a standard sleeve
on a capacitor that requires the electrical insulation.
When the application requires special electrical
insulation, please contact us.
i. Do not lie down or twist the capacitor’s body after the
capacitor is soldered to the PCB.
(2) Caution for Assembling Capacitors
1. Mounting
a. Conductive polymer capacitors cannot be re-used
once the capacitor has been assembled in the set and
power applied.
b. Conductive polymer capacitors may have electrical
potential between positive and negative terminals,
please discharge through a 1 k resistor before use.
Leakage current of conductive polymer capacitors
may be increased after storage for a long period of
time. In this case, we recommend that the conductive
polymer capacitor be applied with DC rated voltage
through a resistor of 1 k in series for one hour at
60 °C to 70 °C, and then discharged through a
resistor of 1 k. When the capacitors have been
assembled in the board, use a volt regulator to input
voltage gradually to the rated volt of the board.
Document Number: 28418
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c. Please confirm the rated voltage before mounting.
d. Please confirm the polarity before mounting.
e. Do not use the conductive polymer capacitor if
dropped on the hard floor.
f. Do not damage the conductive polymer capacitor
while mounting.
g. Conductive polymer capacitors should be mounted
so that the hold spacing on the PCB matches the lead
pitch of the capacitors.
h. During the auto-insertion process and parts
inspection, excessive force and shock should be
avoided.
i. Do not apply excessive external force to the lead
terminal or the conductive polymer capacitors itself.
2. Soldering
a. Be careful of temperature and time when soldering.
Dip or flow soldering of the capacitors should be
limited to less than 260 °C and 10 s. Do not dip the
conductive polymer capacitor’s body into melted
solder.
b. High humidity will affect the solder ability of lead wire
and terminals. High temperatures will reduce
long-term operating life.
c. Except for SMD types, reflow soldering cannot be
used for any type of organic conductive polymer
aluminum electrolytic capacitor. When using the SMD
type of conductive polymer capacitor, please check
the reflow profile. The temperature and duration
should not exceed the specified temperature and
duration in the specification. If the temperature or
duration is higher than the value specified, please
consult us before usage.
d. Defective mounting on the PCB and improper
external strength applied on the lead wires or case
body after soldering (see below drawings) may
damage the inside structure of the capacitor and may
cause short circuit, high leakage current, or leakage
problems.
- Good soldering.
- Hole-to-hole spacing on the board differs from the
lead spacing of lead wires.
- Lead wires are bent after soldering.
- Case body doesn’t stand vertical on the board after
soldering. Do not bend or twist the capacitor’s body
after soldering.
Vishay BCcomponents
3. Cleaning Circuit Boards After Soldering
Halogenated solvent cleaning is not available for
conductive polymer capacitors. IPA (isopropyl alcohol) is
one of the most acceptable cleaning agents; it is
necessary to maintain a flux content in the cleaning
liquid at a maximum limit of 2 Wt. %. If you use other
cleaning agents, please consult us.
(3) Maintenance Inspection
Periodic inspection is necessary for using conductive
polymer capacitors with industrial equipment. The following
items should be checked:
1. Appearance: bulge, damage, etc.
2. Electrical characteristics: capacitance, dissipation
factor, leakage current, and other specified items listed
in the specifications.
We recommend replacing the capacitors if the parts are out
of specification.
(4) Storage
1. Conductive polymer capacitors should not be stored in
high-temperature or high-humidity conditions. The
suitable condition is 5 °C to 35 °C and less than 75 % in
relative humidity indoors.
2. Do not store conductive polymer capacitors in damp
conditions such as water, brine, or oil.
3. Do not store conductive polymer capacitors where
exposed to hazardous gas such as hydrogen sulfide,
sulfurous acid, nitrous acid, chlorine, ammonium, etc.
4. Do not store conductive polymer capacitors where
exposed to ozone, ultraviolet rays, or radiation.
5. Do not expose conductive polymer capacitors to acidic
or alkaline solutions.
6. Open the bags just before mounting and use up all
products once opened. For keeping a good solderability,
store the conductive polymer capacitors as follows.
SERIES NAME
180 CPS, 181 CPL
BEFORE UNSEAL
Within 1 year after
delivery (unopened
condition)
AFTER UNSEAL
Within 30 days
from opening
Note
• It is not applied to a regulation of JEDEC J-STD-020 (Rev. C).
(5) Estimation of Life Time
T0 - Tr
L r = L 0 x 10 ----------------20
Lr = estimated lifetime (hours)
L0 = base lifetime specified at maximum operating temperature
with applied DC voltage (hours)
T0 = rated maximum operating temperature (°C)
Tr = actual ambient temperature (°C)
Please note that:
1. Maximum life is 15 years
2. Ripple current in the application should be less than or
equal to ripple current specified in the catalog
Revision: 17-Feb-15
Document Number: 28418
36
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(6) Disposal
(7) Environmental Consideration
Please consult with a local industrial waste disposal
specialist when disposing of aluminum electrolytic
capacitors.
Vishay has already received ISO 14000 certification.
Cadmium (Cd), lead (Pb), mercury (Hg), hexavalent
chromium (Cr+6), PBB, and PBDE have never been used in
the capacitors. If you need “halogen-free” products, please
consult with us.
For further details, please refer to:
IEC 60384-4- Fixed Capacitors for Use in Electronic Equipment – Part 4: Sectional Specification –
Aluminium Electrolytic Capacitors with Solid (MnO2) and Non-Solid Electrolyte
(established in January 1995, revised in March 2007)
and
EIAJ RCR-2367B- Guideline of Notabilia for Fixed Aluminium Electrolytic Capacitors for Use in Electronic Equipment
[Technical Standardization Committee on Passive Components (established in March 1995, revised in March 2002)].
Revision: 17-Feb-15
Document Number: 28418
37
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Packaging: SMD Aluminum Capacitors
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Aluminum Capacitors
TAPE AND REEL DATA
The information contained within this part is valid for the following series:
• 139 CLL
For catalog numbers, refer to the relevant detail specification in this data book.
Vishay BCcomponents SMD aluminum capacitors are available in taped version based on IEC 60 286-3. 
They are most suitable for use on automatic placement machines and are supplied in blister tape on reel.
4 + 0.1 (1)
1.5 + 0.10
2 ± 0.1
0.4 typ.
1.75 ± 0.1
F
W
B0
B1
0.75 min.
A0
1.5 min.
T2
P1
feed direction
Note
(1)
Tolerance over any pitches: ± 0.2 mm
Fig. 1 - Blister tape
Table 1
BLISTER TAPE: DIMENSIONS in millimeters AND PACKAGING QUANTITIES
PARAMETER
CASE CODE
139 CLL
TOLERANCE
2
3
-
Lnom.
14.3
14.3
-
Wnom.
6.2
7.6
-
Hnom.
6.9
8.2
-
W
24
24
± 0.3
max.
CASE SIZE
T2
7.7
9.1
F
11.5
11.5
± 0.1
P1
12
12
± 0.1
A0
6.5
7.9
± 0.2
B0
14.8
14.8
± 0.2
B1
15.5
15.5
max.
Quantity per reel
700
700
-
Revision: 29-Apr-15
Document Number: 28359
38
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The information contained within this part is valid for the following series:
• 153 CRV
• 140 CRH
• 150 CRZ
• 146 CTI
• 160 CLA
• 180 CPS
• 181 CPL
For catalog numbers, refer to the relevant detail specification in this data book.
4 ± 0.1
1.75 ± 0.1
1.5 + 00.1
2 ± 0.1
0.4 typ.
F
W
B0
A0
P1
T2
feed direction
Fig. 2 - Blister tape (0405 to 1216)
4 + 0.10
1.75 ± 0.1 (2 x)
0.5 typ.
0.2 ± 0.05
F
B0
W
A0
T2
2 ± 0.1
P1
4 ± 0.1
Fig. 3 - Blister tape (1616 to 1821)
Table 2
BLISTER TAPE: DIMENSIONS in millimeters AND PACKAGING QUANTITIES
PARAMETER
CASE CODE
CASE SIZE
Lnom.
Wnom.
Hnom.
W
T2
F
P1
A0
B0
Quantity per reel
Revision: 29-Apr-15
0405
0505
0605
153 CRV; 140 CRH; 150 CRZ; 146 CTI; 160 CLA
0807 0810 1010 1012 1014 1213 1216 1616
1621
1816
1821
TOLERANCE
-
4.0
4.0
5.3
12
6.0
5.5
8
5.0
5.0
2000
5.0
5.0
5.3
12
6.0
5.5
12
6.0
6.0
1000
6.3
6.3
5.3
16
6.0
7.5
12
7.0
7.0
1000
8.0
8.0
6.5
16
7.0
7.5
12
8.7
8.7
1000
16.0
16.0
21.0
44
23.4
20.2
28
17.4
17.4
100
18.0
18.0
16.0
44
18.9
20.2
32
19.4
19.4
125
18.0
18.0
21.0
44
23.4
20.2
32
19.4
19.4
100
± 0.3
max.
± 0.1
± 0.1
± 0.3
± 0.3
-
8.0
8.0
10.0
24
11.6
11.5
16
8.7
8.7
500
10.0
10.0
10.0
24
11.6
11.5
16
10.5
10.5
500
10.0
10.0
12.0
24
13.0
11.5
16
10.5
10.5
250
10.0
10.0
14.0
24
15.4
11.5
16
10.5
10.5
250
12.5
12.5
13.0
24
16.2
11.5
20
13.5
13.5
250
12.5
12.5
16.0
32
18.5
14.2
24
13.5
13.5
200
16.0
16.0
16.0
44
18.9
20.2
28
17.4
17.4
150
Document Number: 28359
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Table 3
BLISTER TAPE: DIMENSIONS in millimeters AND PACKAGING QUANTITIES
PARAMETER
CASE CODE
CASE SIZE
0506
0604
0606
180 CPS; 181 CPL
0608
0807
0812
1008
1013
TOLERANCE
-
Lnom.
5.3
6.6
6.6
6.6
8.4
8.4
10.4
10.4
-
Wnom.
5.3
6.6
6.6
6.6
8.4
8.4
10.4
10.4
-
Hnom.
5.7
4.4
5.9
7.7
6.7
12.0
7.7
12.6
-
W
12
16
16
16
16
16
24
24
± 0.3
T2
6.2
5.8
6.2
8.3
6.8
13.0
10.0
14.0
± 0.2
F
5.5
7.5
7.5
7.5
7.5
11.5
11.5
11.5
± 0.1
P1
12
12
12
12
12
16
16
16
± 0.1
A0
5.7
7.0
7.0
7.0
8.7
8.7
10.7
10.7
± 0.2
B0
5.7
7.0
7.0
7.0
8.7
8.7
10.7
10.7
± 0.2
Quantity per reel
1000
1000
1000
1000
1000
400
500
400
-
13
±
5
0.
Nmin. Amax.
W1
Fig. 4 - Reel for blister tape
Table 4
REEL DIMENSIONS in millimeters
Amax.
TAPE WIDTH
085 CS
139 CLL
153 CRV; 140 CRH; 150 CRZ; 146 CTI; 160 CLA; 180 CPS; 181 CPL
CASE SIZE
1012, 1014
CASE SIZE
1010, 1213
Nmin.
W1
12
-
-
380
50
14
16
330
-
380
50
18
24
330
330
330 or 380 (1)
50
26
32
-
-
380
50
34
44
-
-
380
50
46
Note
(1) Depending on production location
Revision: 29-Apr-15
Document Number: 28359
40
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
Packaging: Radial Aluminum Capacitors
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Vishay BCcomponents
Aluminum Capacitors
TAPING
BCcomponents radial, aluminum and solid aluminum capacitors in sizes up to Ø D = 16 mm, are available in taped versions
corresponding to “IEC 60286-2” or “JIS C 0805” respectively. They are most suitable for use on automatic insertion machines,
mounting robots or cutting and forming equipment and are supplied in boxes (ammopacks).
CAUTION
Packages must be handled with care to avoid bent leads
The information contained within this part is valid for the following series:
• 013 RLC
• 036 RSP
• 116 RLL
For catalog numbers, refer to the relevant detail specification in this data book.
P
P2
ØD
Δp
Δh
Δp
Δh
A
H1
F
P1
Ød
2.5 max.
P1
1.5 max.
H
11
max.9
± 0.5
H0
6 min.
18 ± 0.5
1 max.
(1)
12.7 ± 0.3 (1)
4 ± 0.2
Tolerance over any 20 pitches: ± 1.0 mm
A
0.9 max.
detail A
Fig. 1 - Form TNA and TFA, straight leads
Fig. 2 - Form TFA, formed leads
Table 1
DIMENSIONS in millimeters
PARAMETER
ØD
A
Ød
P
P1
P2
F
h
p
H
H0
H1
Revision: 29-Aug-11
FORM TNA: F = 2.5
5 x 11
(straight leads)
5.5
12
0.5
12.7
5.1
6.35
2.5
0
0
18
32
NOMINAL CASE SIZE (Ø D x L)
FORM TFA: F = 5
5 x 11
8.2 x 11
(formed leads)
(straight leads)
5.5
8.7
12
12
0.5
0.6
12.7
12.7
3.85
3.85
6.35
6.35
5.0
5.0
0
0
0
0
18
18
16
32
32
TOLERANCE
max.
max.
± 0.05
± 1.0
± 0.7
± 0.7
+ 0.6/- 0.1
± 2.0
± 1.3
+ 1.5/- 0
± 0.5
max.
Document Number: 28360
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Vishay BCcomponents
Table 2
QUANTITIES PER PACKAGING UNIT
NOMINAL
CASE SIZE
(Ø D x L)
(mm)
CASE
CODE
5 x 11
8.2 x 11
BULK
PER BOX
TAPED
AMMOPACK (1)
FORM
CA
FORM
CB
FORM
TFA
FORM
TNA
11
1000
1000
2000
2000
13
1000
1000
1000
1000
Note
(1) Ammopack taping (Form TFA) case Ø D x L = 8.2 mm x 11 mm. To ensure optimum straightness of the leads and correct position of the
capacitors in the folding area of the zig-zag shaped tape, every 25th capacitor is omitted.
340 max.
54
max.
305
max.
Fig. 3 - Ammopack; Forms TFA and TNA
Revision: 29-Aug-11
Document Number: 28360
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The information contained within this part is valid for the following series with a case Ø D = 4 mm to 8 mm:
• 134 RLP 5
• 097 RLP 7
• 038 RSU
• 142 RHS
• 150 RMI
P
P2
Δp
ØD
Δh
Δh
Δp
A
H1
P1
F
2.5
max.
Ød
P1
1.5
max.
H
H0
11 9.0
max. ± 0.5
12.5 18
± 0.5
A
1.0
max.
4
± 0.2
D x L = 5 x 11 to 8 x 12
(1)
Tolerance over any 20 pitches: ± 1.0 mm
0.9
max.
12.7 ± 0.3 (1)
D x L = 5 x 11 to 8 x 12
detail A
Fig. 4 - Form TNA, straight leads
Fig. 5 - Form TFA, formed leads
Table 3
DIMENSIONS in millimeters
NOMINAL CASE SIZE (Ø D x L) in mm
PARAMETER
FORM TNA
FORM TFA
TOLERANCE
5 x 11
6.3 x 11
8 x 12
8 x 15
5 x 11
6.3 x 11
8 x 12
8 x 15
ØD
5.5
6.8
8.5
8.5
5.5
6.8
8.5
8.5
max.
A
12.5
12.5
13.0
16.0
12.5
12.5
13.0
16.0
max.
Ød
0.5
0.5
0.6
0.6
0.5
0.5
0.6
0.6
± 0.05
P
12.7
12.7
12.7
12.7
12.7
12.7
12.7
12.7
± 1.0
P1
5.1
5.1
4.6
4.6
3.85
3.85
3.85
3.85
± 0.7
P2
6.35
6.35
6.35
6.35
6.35
6.35
6.35
6.35
± 1.0
F
2.5
2.5
3.5
3.5
5.0
5.0
5.0
5.0
+ 0.8/- 0.2
h
0
0
0
0
0
0
0
0
± 2.0
p
0
0
0
0
0
0
0
0
± 1.3
H
18.5
18.5
18.5
18.5
18.5
18.5
20.0
20.0
± 0.75
H0
-
-
-
-
16.0
16.0
16.0
16.0
± 0.5
H1
32.2
32.2
32.2
35.2
32.2
32.2
33.7
36.7
max.
Revision: 29-Aug-11
Document Number: 28360
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P
P2
ØD
Δp
Δp
F
P1
Δh
A
H1
Ød
1.5
max.
1.5
max.
H
H0
11
9.0 ± 0.5 max.
6.0 18 ± 0.5
min.
A
1.0
12.7 ± 0.3 (1)
4
± 0.2
0.9
max.
D x L = 4 x 5 to 6.3 x 7
(1)
Tolerance over any 20 pitches: ± 1.0 mm
detail A
Fig. 6 - Form TFA and TNA
Table 4
DIMENSIONS in millimeters
NOMINAL CASE SIZE (Ø D x L)
PARAMETER
FORM TFA
TOLERANCE
4x5
5x5
6.3 x 5
4x7
5x7
6.3 x 7
ØD
4.5
5.5
6.8
4.5
5.5
6.8
max.
A
6.0
6.0
6.0
8.0
8.0
8.0
max.
Ød
0.45
0.45
0.45
0.45
0.45
0.45
± 0.05
P
12.7
12.7
12.7
12.7
12.7
12.7
± 1.0
P1
3.85
3.85
3.85
3.85
3.85
3.85
± 0.7
P2
6.35
6.35
6.35
6.35
6.35
6.35
± 1.0
F
5.0
5.0
5.0
5.0
5.0
5.0
+ 0.8/- 0.2
h
0
0
0
0
0
0
± 2.0
p
0
0
0
0
0
0
± 1.3
H
17.5
17.5
17.5
17.5
17.5
17.5
± 0.75
H0
16
16
16
16
16
16
± 0.5
H1
32.2
32.2
32.2
32.2
32.2
32.2
max.
Revision: 29-Aug-11
Document Number: 28360
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Table 5
DIMENSIONS in millimeters
NOMINAL CASE SIZE (Ø D x L)
PARAMETER
FORM TNA
TOLERANCE
4x5
5x5
6.3 x 5
4x7
5x7
6.3 x 7
ØD
4.5
5.5
6.8
4.5
5.5
6.8
max.
A
6.0
6.0
6.0
8.0
8.0
8.0
max.
Ød
0.45
0.45
0.45
0.45
0.45
0.45
± 0.05
P
12.7
12.7
12.7
12.7
12.7
12.7
± 1.0
P1
5.1
5.1
5.1
5.1
5.1
5.1
± 0.7
P2
6.35
6.35
6.35
6.35
6.35
6.35
± 1.0
F
2.5
2.5
2.5
2.5
2.5
2.5
+ 0.8/- 0.2
h
0
0
0
0
0
0
± 2.0
p
0
0
0
0
0
0
± 1.3
H
17.5
18.5
18.5
17.5
18.5
18.5
± 0.75
H0
16
-
-
-
-
-
± 0.5
H1
32.2
32.2
32.2
32.2
32.2
32.2
max.
340 max.
54
max.
305
max.
Fig. 7 - Ammopack; Form TFA and TNA
Revision: 29-Aug-11
Document Number: 28360
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The information contained in this part is valid for the following series with a case Ø D = 10 mm to 16 mm:
• 146 RTI
• 038 RSU
• 148 RUS
• 048 RML
• 150 RMI
• 136 RVI
• 152 RMH
• 140 RTM
• 142 RHS
P
P2
ØD
Δh
Δh
P2
P2
A
P
P
H1
P1
F
Ød
1.5
max
H
P1
P1
9
± 0.5
12 min 18
± 0.5
4
1.5
± 0.2 max. 12.7 ± 0.3 (1)
A
0.9
max.
Ø D = 12.5 mm
Ø D = 16 mm
detail A
Ø D = 10 mm
Tolerance over any 20 pitches: ± 1.0 mm
(1)
Fig. 8 - Form TFA
Table 6
DIMENSIONS in millimeters
PARAMETER
ØD
A
Ød
P
P1
P2
F
h
H
H1
B
10 x 12
10.5
13.5
0.6
12.7
3.85
6.35
5.0
0
18.5
10 x 16
10.5
17.5
0.6
12.7
3.85
6.35
5.0
0
18.5
10 x 20
10.5
22
0.6
12.7
3.85
6.35
5.0
0
18.5
54
62
62
NOMINAL CASE SIZE (Ø D x L)
12.5 x 20
12.5 x 25
16 x 20
13.0
13.0
16.5
22
27
22
0.6
0.6
0.8
25.4
25.4
25.4
3.85
3.85
8.95
6.35
6.35
12.7
5.0
5.0
7.5
0
0
0
18.5
18.5
18.5
H1 = H + A
62
68
68
340 max.
16 x 25
16.5
27
0.8
25.4
8.95
12.7
7.5
0
18.5
16 x 31
16.5
33.5
0.8
25.4
8.95
12.7
7.5
0
18.5
68
75
TOLERANCE
max.
max.
± 0.05
± 1.0
± 0.7
± 1.3
+ 0.8/- 0.2
± 3.0
± 0.75
max.
B
max.
310
max.
Fig. 9 - Ammopack; Form TFA
Note
(1) Ammopack taping (Form TFA). To ensure optimum straightness of the leads and correct position of the components in the folding area of
the zig-zag shaped tape, where necessary, one capacitor is omitted at each folding edge.
Revision: 29-Aug-11
Document Number: 28360
46
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The information contained within this part is valid for the following series:
• 128 SAL-RPM
T
P2
P
Δh
Wb
0.2 max.
P1
H1
Ød
0.5 max.
11 max.
6 ± 0.5
H
9 ± 0.5
- 0.2
A
18
± 0.5
F
12.7 ± 0.2 (1)
4 ± 0.2
0.9 max.
→ direction of tape transport for Form TR + (positive leading)
(1)
Tolerance over any 20 pitches: ± 1.0 mm
detail A
Fig. 10 - Capacitors on tape
Table 7
TAPING DIMENSIONS in millimeters
128 SAL-RPM
MAX. HEIGHT 9.5 mm
PARAMETER
TOLERANCE
CASE CODE
10
20
30
40
50
60
T
3.0
3.5
4.0
5.0
5.0
6.0
max.
Wb
7.0
7.0
7.0
7.0
8.0
8.0
max.
Ød
0.6
0.6
0.6
0.6
0.6
0.6
+ 0.02/- 0
P
12.7
12.7
12.7
12.7
12.7
12.7
± 1.0
P1
3.85
3.85
3.85
3.85
3.85
3.85
± 0.7
P2
6.35
6.35
6.35
6.35
6.35
6.35
± 1.0
F
5.2
5.2
5.2
5.2
5.2
5.2
± 0.2
h
0
0
0
0
0
0
± 1.0
H
18.5
18.5
18.5
18.5
18.5
18.5
± 0.75
H1
28
28
28
28
28
28
max.
Revision: 29-Aug-11
Document Number: 28360
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52
max.
340 max.
4
30 77 85.6 355
178
max.
5
22
3
3
1
1 = capacitor
2 = tape
3 = paper
4 = flange
5 = cylinder
preferred packaging
Fig. 11 - Ammopack; Form TFA
2
42
52
Fig. 12 - Reel; Form TR+
Table 8
QUANTITIES PER PACKAGING UNIT
TAPED
PER REEL
TAPED
PER BOX
FORM CB
FORM TR+
FORM TFA
1000
1000
1000
1000
1000
1000
1000
30
1000
1000
1000
1000
9.5 x 7.0 x 5.0
40
1000
1000
1000
1000
9.5 x 8.0 x 5.0
50
1000
1000
1000
1000
9.5 x 8.0 x 6.0
60
1000
1000
1000
1000
CASE SIZE
Hmax. x Wmax. x Tmax.
(mm)
CASE
CODE
FORM CA
9.5 x 7.0 x 3.0
10
1000
9.5 x 7.0 x 3.5
20
9.5 x 7.0 x 4.0
Revision: 29-Aug-11
BULK PER BOX
Document Number: 28360
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Vishay BCcomponents
Aluminum Capacitors
TAPING
Vishay BCcomponents axial, aluminum and solid aluminum capacitors in sizes up to Ø D = 16 mm, are available in taped version
corresponding to “IEC 60286-1”.
They are most suitable for use on automatic insertion machines, cutting and forming equipment and are supplied in box
(ammopack preferred), or on reel.
CAUTION
Packages must be handled with care to avoid bent leads
Table 1
TAPING DIMENSIONS in millimeters
NOMINAL
CASE SIZE
(Ø D x L)
T FOR NUMBER (n)
A
S
n < 50
50 < n < 100
Lmax.
C
D
NON-SOLID TYPES
4.5 x 10
63.5 ± 1.5 (1)
5 ± 0.4
5 (n-1) ± 2
5 (n-1) ± 4
10.5
83.5
94.5
(1)
10 ± 0.4
10 (n-1) ± 2
10 (n-1) ± 4
10.5
83.5
94.5
6.3 x 12.7
63.5 ± 1.5 (1)
10 ± 0.4
10 (n-1) ± 2
10 (n-1) ± 4
12.9
83.5
94.5
7.7 x 12.7
63.5 ± 1.5 (1)
10 ± 0.4
10 (n-1) ± 2
10 (n-1) ± 4
12.9
83.5
94.5
8 x 11
63.5 ± 1.5 (1)
10 ± 0.4
10 (n-1) ± 2
10 (n-1) ± 4
11.5
83.5
94.5
6.5 x 18
73 ± 1.6 (1)
10 ± 0.4
10 (n-1) ± 2
10 (n-1) ± 4
18.5
88.5
99.5
73 ± 1.6
(1)
10 ± 0.4
10 (n-1) ± 2
10 (n-1) ± 4
18.5
88.5
99.5
73 ± 1.6
(1)
15 ± 0.75
15 (n-1) ± 2
15 (n-1) ± 4
18.5
88.5
99.5
6 x 10
8 x 18
10 x 18
63.5 ± 1.5
10 x 25
73 ± 1.6
15 ± 0.75
15 (n-1) ± 2
15 (n-1) ± 4
25.0
88.5
99.5
10 x 30
73 ± 1.6
15 ± 0.75
15 (n-1) ± 2
15 (n-1) ± 4
30.5
90
100
12.5 x 30
73 ± 1.6
15 ± 0.75
15 (n-1) ± 2
15 (n-1) ± 4
30.5
90
100
15 x 30
73 ± 1.6
20 ± 0.75
20 (n-1) ± 2
20 (n-1) ± 4
30.5
90
100
6.5 x 15
73 ± 1.6
10 ± 0.4
10 (n-1) ± 2
10 (n-1) ± 4
15.3
90
100
7.5 x 20
73 ± 1.6
10 ± 0.4
10 (n-1) ± 2
10 (n-1) ± 4
20.4
90
100
9 x 22.5
73 ± 1.6
10 ± 0.4
10 (n-1) ± 2
10 (n-1) ± 4
23.3
90
100
10 x 31.5
73 ± 1.6
15 ± 0.75
15 (n-1) ± 2
15 (n-1) ± 4
32
90
100
12.5 x 31.5
73 ± 1.6
15 ± 0.75
15 (n-1) ± 2
15 (n-1) ± 4
32
90
100
SOLID TYPES
Note
(1) 52 mm ± 1.5 mm on request
Revision: 28-Jun-11
Document Number: 28361
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blue
2.4 FG
(1)
F
G
T
Dimensions in mm
Case Ø D x L = 4.5 mm x 10 mm to
16 mm x 30 mm
B1 - B2 = max. 1.4 mm
The negative capacitor terminals
are connected to the blue tape.
For dimensions A, S, T and L, see Table 1.
Note
(1)
Not for case Ø D x L = 15 mm x 30 mm
+
S
L max.
B1
6
± 0.5
B2
A
Fig. 1 - Axial capacitors on tape
4
356
30 ± 0.577 85.6 92 max.
-0
±1
5
22
3
1 = capacitor
2 = tape
3 = paper
4 = flange
5 = cylinder
Dimensions in mm
Case Ø D x L = 4.5 mm x 10 mm to 16 mm x 30 mm
For dimensions C and D see Table 1.
3
1
C
2
D
minimum 10 empty
positions at
beginning and end
Fig. 2 - Reel dimensions
H
Preferred packaging
Case Ø D x L = 4.5 mm x 10 mm to 16 mm x 30 mm
For dimensions L, W and H see Table 2.
L
W
Fig. 3 - Ammopack
Revision: 28-Jun-11
Document Number: 28361
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Table 2
AMMOPACK: DIMENSIONS in millimeters
NOMINAL
CASE SIZE
(Ø D x L)
L
W
H
4.5 x 10
282
92
90
6 x 10
420
92
107
6.3 x 12.7
420
92
130
7.7 x 12.7
420
92
107
8 x 11
420
92
107
6.5 x 18
420
98
130
8 x 18
420
98
100
10 x 18
420
98
159
10 x 25
420
98
159
12 x 30
386
101
301
15 x 30
386
101
301
NON-SOLID TYPES
Table 3
QUANTITIES PER PACKAGING UNIT
NOMINAL
CASE SIZE
(Ø D x L)
(mm)
AXIAL
TAPED IN
AMMOPACK
FORM BA
TAPED ON
REEL
FORM BR
BULK OR
PAPERSTRIP
FORM AA
MOUNTING RING
(BULK)
FORM MR
NON-SOLID TYPES
4.5 x 10
1000
3000
-
-
6 x 10
1000
1000
-
-
6.3 x 12.7
1000
1000
-
-
7.7 x 12.7
500
500
-
-
8 x 11
500
500
-
-
6.5 x 18
1000
1000
-
-
8 x 18
500
500
-
-
10 x 18
500
500
-
-
10 x 25
500
500
-
-
10 x 30
-
500
340
-
12.5 x 30
-
400
260
-
15 x 30
-
250
200
200
18 x 30
-
-
120
240
18 x 38
-
-
125
100
21 x 38
-
-
100
100
6.5 x 15
-
800
100
-
7.5 x 20
-
800
100
-
SOLID TYPES
9 x 22.5
-
500
100
10 x 31.5
-
500
100
-
12.5 x 31.5
-
400
100
-
Revision: 28-Jun-11
Document Number: 28361
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Hybrid Energy Storage Capacitors
FEATURES
• Polarized energy storage capacitor with high
capacity and energy density
• Voltage flexibility: 1.4 V (single cell) to 2.8 V /
4.2 V / 5.6 V / 7.0 V / 8.4 V (multiple cells)
• Available in stacked through-hole (STH, radial),
surface-mount flat (SMF) and lay flat
configurations (LFC) with wire and connectors
• Useful life: 1000 h at 70 °C / 85 °C
• No cell balancing necessary
• Soft and low transient-voltage-controlled charging
characteristic
• Non-hazardous electrolyte
• Maintenance-free, no service necessary
• Evaluation kits for engineering are available under
ordering code: MAL219699001E3
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
• Power backup for memory controller, flash backup, RAID
systems, SRAM, DRAM
• Power failure and write cache protection for enterprise
SSD and HDD
• Real time clock power source
• Burst power support for flash lights, wireless transmitters
• Backup power for industrial PC’s and industrial controls
• Storage device for energy harvesting
• Emergency light and micro UPS power source
MARKING
The capacitors are marked with the following information:
• Rated capacitance (in F)
• Rated voltage (in V)
• Date code
• Negative / positive terminal identification
Image is not to scale
PACKAGING
Supplied in ESD trays only
QUICK REFERENCE DATA
VALUE
SINGLE CELL
2 CELLS
3 CELLS
4 CELLS
5 CELLS
6 CELLS
7 x 15
7 x 12.5
7 x 10
7 x 7.5
7x5
7 x 2.5
Nominal case size (Ø D x L in mm)
12 x 15
12 x 12.5
12 x 10
12 x 7.5
12 x 5
12 x 2.5
Stacked Through-Hole (STH)
35 x 25 x 15
35 x 25 x 10
35 x 25 x 7.5
7 x 7 x 2.5
7 x 14 x 2.5
13 x 14 x 2.5
14 x 14 x 2.5
Nominal case size (Ø W x L x H in mm)
12 x 12 x 2.5
12 x 24 x 2.5
22 x 24 x 2.5
24 x 24 x 2.5
Surface-Mount Flat (SMF)
Nominal case size (W x L x H in mm)
14.5 x 12 x 2.5 14.5 x 24 x 2.5 14.5 x 36 x 2.5 14.5 x 48 x 2.5 14.5 x 60 x 2.5 14.5 x 72 x 2.5
Lay Flat (LFC)
4.0 F
4.0 F
4.0 F
4.0 F
4.0 F
4.0 F
Rated capacitance range, CR
15.0 F
15.0 F
15.0 F
15.0 F
15.0 F
15.0 F
90.0 F
90.0 F
90.0 F
Tolerance on CR at 20 °C
-20 % to +80 %
1.4 V
2.8 V
4.2 V
5.6 V
7.0 V
8.4 V
Rated voltage, UR
1.6 V
3.2 V
4.8 V
6.4 V
8.0 V
9.6 V
Maximum surge voltage, US (max. 30 s)
22 Ws
27 Ws
18 Ws
13 Ws
4 Ws
9 Ws
87 Ws
105 Ws
70 Ws
52 Ws
Minimum stored energy
17 Ws
35 Ws
460 Ws
345 Ws
230 Ws
Energy density
9 Ws/g to 13 Ws/g
4.0 F: -20 °C to +70 °C
Category temperature range
15.0 F / 90.0 F: -20 °C to +85 °C
Storage temperature range
-40 °C to +85 °C
4.0 F: at 70 °C: 1000 h
15.0 F / 90.0 F: at 85 °C: 1000 h
Useful life at UR
at 55 °C: 2800 h
at 70 °C: 2800 h
at 45 °C: 5600 h
at 60 °C: 5600 h
Shelf life
1000 h at upper category temperature
Climatic category IEC 60068
25/085/21
DESCRIPTION
Revision: 24-Mar-15
Document Number: 28409
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SELECTION CHART FOR CR, UR, AND FORM AT UPPER CATEGORY TEMPERATURE (UCT)
CR
(F)
4
15
90
UR (V)
FORM
A2
B2
B3
C
D
E
A2
B2
B3
C
D
E
F
G
H
1.4
7.0 x 2.5
2.8
7.0 x 5.0
4.2
7.0 x 7.5
5.6
7.0 x 10.0
7.0
7.0 x 12.5
8.4
7.0 x 15.0
7.0 x 2.5
7.0 x 5.0
7.0 x 7.5
7.0 x 10.0
7.0 x 12.5
7.0 x 15.0
7.0 x 7.0 x 2.5
7.0 x 7.0 x 2.5
12.0 x 2.5
7.0 x 14.0 x 2.5
12.0 x 5.0
13.0 x 14.0 x 2.5
12.0 x 7.5
14.0 x 14.0 x 2.5
12.0 x 10.0
12.0 x 12.5
12.0 x 15.0
12.0 x 2.5
12.0 x 5.0
12.0 x 7.5
12.0 x 10.0
12.0 x 12.5
12.0 x 15.0
12.0 x 12.0 x 2.5
12.0 x 12.0 x 2.5
14.5 x 12.0 x 2.5
12.0 x 24.0 x 2.5
14.5 x 24.0 x 2.5
22.0 x 24.0 x 2.5
14.5 x 36.0 x 2.5
24.0 x 24.0 x 2.5
14.5 x 48.0 x 2.5
14.5 x 60.0 x 2.5
14.5 x 72.0 x 2.5
-
35 x 25 x 7.5
35 x 25 x 10
35 x 25 x 15
-
-
DIMENSIONS in millimeters AND AVAILABLE FORMS
STACKED THROUGH HOLE CONFIGURATION (STH): Examples VERTICAL MOUNT
Ø Dmax.
-
-
Lmax.
+
Ø 0.8
+
0.5
6 +- 0.5
(2 x)
-
Ø 0.64
F
Fig. 1 - Form A2: Stacked Through Hole (example 4 cells, 2 pins) (1)
STACKED THROUGH HOLE CONFIGURATION (STH): Examples HORIZONTAL MOUNT
Ø Dmax.
Lmax.
+
3.5 +- 0.5
0.5 (2 x)
F
Ø 0.64
Fig. 2 - Form B2: Stacked Through Hole (example 5 cells, 2 pins) (1)
Ø Dmax.
Lmax.
+
0.5
3.5 +- 0.5
(3 x)
Ø 0.64 (3 x)
F
F1
Fig. 3 - Form B3: Stacked Through Hole (example 4 cells, keyed polarity - 3 pins) (1)
Note
(1) Bottom and top are not isolated.
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Document Number: 28409
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DIMENSIONS in millimeters AND AVAILABLE FORMS
SURFACE MOUNT FLAT CONFIGURATION (SMF): Examples
Lmax.
-
1
3.8 max.
+
0.1 (2 x)
0.5 (2 x)
0.5
4 +- 0.5
(2 x)
Ø Dmax.
3 (2 x)
3.5 +- 0.5
0.5 (2 x)
Fig. 4 - Form C: Surface Mount Flat (single cell, keyed polarity)
0.1 (2 x)
1
-
2
2 +- 0.5
0.5
Ø 7.5 max.
2.8 max.
+
0.2
2 +- 0.2
0.5
Ø Dmax.
Fig. 5 - Form D1: Surface Mount Flat (single cell, keyed polarity)
0.1 (2 x)
-
1
2
2.8 max.
0.5
3 +- 0.5
Ø 12.5 max.
+
0.2
3.5 +- 0.2
1.0 (2 x)
Ø Dmax.
Fig. 6 - Form D2: Surface Mount Flat (single cell, keyed polarity)
0.5 (2 x)
1 (2 x)
+
0.1 (2 x)
-
3 (2 x)
Ø Dmax.
3.8 max.
0.5
4 +- 0.5
(2 x)
Fig. 7 - Form E2: Surface Mount Flat
+
-
3 (2 x)
0.1 (2 x)
3.8 max.
Hmax.
0.5 (2 x)
1 (2 x)
4 ± 1 (2 x)
Lmax.
Fig. 8 - Form E3: Surface Mount Flat
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3 (2 x)
1 (2 x)
+
3.8 max.
0.5 (2 x)
4 +- 11 (2 x)
Hmax.
0.1 (2 x)
Lmax.
Fig. 9 - Form E4: Surface Mount Flat
LAY FLAT CONFIGURATION (LFC) WITH CONNECTOR: Example 5 cells in series
Red (AWG 28, UL 1061)
+
Pin 1: red
Ø Dmax.
Black (AWG 28, UL 1061)
-
Pin 2: black
Molex connector;
Housing: 51146-0200
Terminal: 50641-8041
3.5 max.
50 +- 55
Lmax.
Fig. 10 - Form F: Lay Flat (example for 5 cells)
35 max.
25 max.
Lmax.
+
0.5
1 +- 0.5
(2 x)
-
+
3 (3 x)
0.25 (2 x)
F1
F
Fig. 11 - Form G: Stacked Through Hole Oval (PCBD)
35 max.
4 +- 0.5
0.5 (2 x)
0.5
Lmax.
+
0.5
5 +- 0.5
1 (3 x)
F1
-
0.2 (2 x)
F
Fig. 12 - Form H: Stacked Through Hole Oval Horizontal
Revision: 24-Mar-15
Document Number: 28409
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Table 1
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL CASE SIZE
D x L x H (mm)
FORM
Ø Dmax.
Lmax.
L1max.
Hmax.
MASS
(g)
7.0 x 7.0 x 2.5
7.0 x 7.0 x 2.5
A2, B2, B3
7.5
2.3 + 0.3
7.0 + 0.5
-
0.5
C
7.5
7.0
7.0 + 8.0
-
0.5
7.0 x 7.0 x 2.5
D1
7.5
7.0
7.0 + 4.0
-
0.5
7.0 x 7.0 x 5.0
A2, B2, B3
7.5
4.2
4.2 + 0.5
-
0.8
7.0 x 7.0 x 7.5
A2, B2, B3
7.5
7.5
7.8 + 0.5
-
1.5
7.0 x 7.0 x 10.0
A2, B2, B3
7.5
10.5
10.2 + 0.5
-
1.8
7.0 x 7.0 x 12.5
A2, B2, B3
7.5
12.5
12.4 + 0.5
-
2.5
7.0 x 7.0 x 15.0
A2, B2, B3
7.5
14.8
14.8 + 0.5
-
3.0
12.0 x 12.0 x 2.5
A2, B2, B3
12.5
2.3
2.3 + 0.5
-
1.2
12.0 x 12.0 x 2.5
C
12.5
12.5
12.5 + 8.0
-
1.0
12.0 x 12.0 x 2.5
D2
12.5
12.5
12.5 + 4.0
-
1.0
12.0 x 12.0 x 5.0
A2, B2, B3
12.5
4.2
4.2 + 0.5
-
2.2
12.0 x 12.0 x 7.5
A2, B2, B3
12.5
8.0
7.8 + 0.5
-
3.3
12.0 x 12.0 x 10.0
A2, B2, B3
12.5
10.5
10.5 + 0.5
-
4.0
12.0 x 12.0 x 12.5
A2, B2, B3
12.5
12.5
12.5 + 0.5
-
5.4
12.0 x 12.0 x 15.0
A2, B2, B3
12.5
14.8
14.8 + 0.5
-
6.5
7.0 x 14.0 x 2.5
E2
7.5
14.8
14.8 + 8.0
-
1.0
12.0 x 24.0 x 2.5
E2
12.5
24.0
24.0 + 8.0
-
2.0
13.0 x 14.0 x 2.5
E3
14.0
15.0
14.8 + 8.0
14.0
1.2
22.0 x 24.0 x 2.5
E3
24.0
24.0
24.8 + 8.0
15.0
3.3
14.0 x 14.0 x 2.5
E4
15.0
15.0
14.8 + 8.0
22.5
1.5
24.0 x 24.0 x 2.5
E4
24.0
24.0
24.8 + 8.0
24.0
4.4
14.5 x 12.0 x 2.5
F
14.5
12.0
12.0 + 50.0
-
1.0
14.5 x 24.0 x 2.5
F
14.5
24.0
24.0 + 50.0
-
3.0
14.5 x 36.0 x 2.5
F
14.5
36.0
36.0 + 50.0
-
4.0
14.5 x 48.0 x 2.5
F
14.5
48.0
48.0 + 50.0
-
6.0
14.5 x 60.0 x 2.5
F
14.5
60.0
60.0 + 50.0
-
7.5
14.5 x 72.0 x 2.5
F
14.5
72.0
72.0 + 50.0
-
9.0
35 x 25 x 7.5
G, H
35 x 25
7.5
7.5 + 0.5
-
15.0
35 x 25 x 10.0
G, H
35 x 25
10.5
10.5 + 0.5
-
22.5
35 x 25 x 15.0
G, H
35 x 25
15.5
15.0 + 0.5
-
30.0
ORDERING EXAMPLE
ELECTRICAL DATA
Hybrid Storage Capacitor
SYMBOL
DESCRIPTION
Rated capacitance, tolerance -20 %/+80 %, 
measured by constant current discharge method
15 F/1.4 V
CR
Upper category temperature
Ordering code: MAL219691211E3
UCT
IL
Max. leakage current after 24 h at UR
RI
Max. internal resistance at 1 kHz
Nominal case size: Ø 12.0 mm x 2.5 mm; Form B3
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa and RH = 45 % to 75 %.
Revision: 24-Mar-15
Document Number: 28409
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Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
CR
(μF)
NOMINAL
CASE SIZE
ØDxL
DxLxH
(mm)
ESR
MIN.
I
ESR
CASE
F
F1 UCT L AC (1)
STORAGE PACKAGING
24 h
FORM
DC (2)
CODE
(mm) (mm) (°C)
1 kHz
ENERGY QUANTITIES
(mA)
()
()
(Ws)
ORDERING CODE
STACKED THROUGH HOLE CONFIGURATION (STH) - VERTICAL MOUNT
1.4
4 000 000
7.0 x 2.5
2 pin
A2
7.5
-
70 0.03
2.5
7.5
4.6
80
MAL219691101E3
2.8
4 000 000
7.0 x 5.0
2 pin
A2
7.5
-
70 0.03
5.0
4.2
4 000 000
7.0 x 7.5
2 pin
A2
7.5
-
70 0.03
7.5
15.0
9.2
80
MAL219691102E3
22.5
13.8
80
MAL219691103E3
5.6
4 000 000
7.0 x 10.0
2 pin
A2
7.5
-
70 0.03 10.0
30.0
18.4
80
MAL219691104E3
7.0
4 000 000
7.0 x 12.5
2 pin
A2
7.5
8.4
4 000 000
7.0 x 15.0
2 pin
A2
7.5
-
70 0.03 12.5
37.5
23.0
84
MAL219691105E3
-
70 0.03 15.0
45.0
27.6
84
MAL219691106E3
1.4
15 000 000
12.0 x 2.5
2 pin
A2
12.5
-
85 0.12
0.6
2.5
17.5
80
MAL219691201E3
2.8
15 000 000
12.0 x 5.0
2 pin
4.2
15 000 000
12.0 x 7.5
2 pin
A2
12.5
-
85 0.12
1.2
5.0
35.0
80
MAL219691202E3
A2
12.5
-
85 0.12
1.8
7.5
52.5
80
MAL219691203E3
5.6
15 000 000
12.0 x 10.0
2 pin
A2
12.5
-
85 0.12
2.4
10.0
70.0
80
MAL219691204E3
7.0
15 000 000
8.4
15 000 000
12.0 x 12.5
2 pin
A2
12.5
-
85 0.12
3.0
12.5
87.5
90
MAL219691205E3
12.0 x 15.0
2 pin
A2
12.5
-
85 0.12
3.6
15.0
105.0
90
MAL219691206E3
STACKED THROUGH HOLE CONFIGURATION (STH) - HORIZONTAL MOUNT
1.4
4 000 000
7.0 x 2.5
2 pin
B2
3.2
-
70 0.03
2.5
7.5
4.6
100
MAL219691121E3
2.8
4 000 000
7.0 x 5.0
2 pin
B2
5.4
-
70 0.03
5.0
15.0
9.2
100
MAL219691122E3
4.2
4 000 000
7.0 x 7.5
2 pin
B2
7.5
-
70 0.03
7.5
22.5
13.8
96
MAL219691123E3
5.6
4 000 000
7.0 x 10.0
2 pin
B2
8.8
-
70 0.03 10.0
30.0
18.4
96
MAL219691124E3
7.0
4 000 000
7.0 x 12.5
2 pin
B2
12
-
70 0.03 12.5
37.5
23.0
60
MAL219691125E3
8.4
4 000 000
7.0 x 15.0
2 pin
B2
14.5
-
70 0.03 15.0
45.0
27.6
60
MAL219691126E3
1.4
15 000 000
12.0 x 2.5
2 pin
B2
3.2
-
85 0.12
0.6
2.5
17.5
100
MAL219691221E3
2.8
15 000 000
12.0 x 5.0
2 pin
B2
5.8
-
85 0.12
1.2
5.0
35.0
100
MAL219691222E3
4.2
15 000 000
12.0 x 7.5
2 pin
B2
8.3
-
85 0.12
1.8
7.5
52.5
80
MAL219691223E3
5.6
15 000 000
12.0 x 10.0
2 pin
B2
11.0
-
85 0.12
2.4
10.0
70.0
90
MAL219691224E3
7.0
15 000 000
12.0 x 12.5
2 pin
B2
13.4
-
85 0.12
3.0
12.5
87.5
40
MAL219691225E3
8.4
15 000 000
12.0 x 15.0
2 pin
B2
15.7
-
85 0.12
3.6
15.0
105.0
40
MAL219691226E3
1.4
4 000 000
7.0 x 2.5
3 pin
B3
2.8
2.5
70 0.03
2.5
7.5
4.6
100
MAL219691111E3
2.8
4 000 000
7.0 x 5.0
3 pin
B3
5.1
2.5
70 0.03
5.0
15.0
9.2
100
MAL219691112E3
4.2
4 000 000
7.0 x 7.5
3 pin
B3
7.5
2.5
70 0.03
7.5
22.5
13.8
96
MAL219691113E3
5.6
4 000 000
7.0 x 10.0
3 pin
B3
10.0
2.5
70 0.03 10.0
30.0
18.4
96
MAL219691114E3
7.0
4 000 000
7.0 x 12.5
3 pin
B3
12.0
2.5
70 0.03 12.5
37.5
23.0
60
MAL219691115E3
8.4
4 000 000
7.0 x 15.0
3 pin
B3
14.5
2.5
70 0.03 15.0
45.0
27.6
60
MAL219691116E3
1.4
15 000 000
12.0 x 2.5
3 pin
B3
3.2
5.0
85 0.12
0.6
2.5
17.5
100
MAL219691211E3
2.8
15 000 000
12.0 x 5.0
3 pin
B3
5.8
5.0
85 0.12
1.2
5.0
35.0
100
MAL219691212E3
4.2
15 000 000
12.0 x 7.5
3 pin
B3
8.0
5.0
85 0.12
1.8
7.5
52.5
80
MAL219691213E3
5.6
15 000 000
12.0 x 10.0
3 pin
B3
11.0
5.0
85 0.12
2.4
10.0
70.0
90
MAL219691214E3
7.0
15 000 000
12.0 x 12.5
3 pin
B3
13.0
5.0
85 0.12
3.0
12.5
87.5
40
MAL219691215E3
8.4
15 000 000
12.0 x 15.0
3 pin
B3
16.0
5.0
85 0.12
3.6
15.0
105.0
40
MAL219691216E3
Revision: 24-Mar-15
Document Number: 28409
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ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
CR
(μF)
NOMINAL
CASE SIZE
ØDxL
DxLxH
(mm)
ESR
MIN.
I
ESR
CASE
F
F1 UCT L AC (1)
STORAGE PACKAGING
(2)
24 h
FORM
DC
CODE
(mm) (mm) (°C)
1 kHz
ENERGY QUANTITIES
(mA)
()
()
(Ws)
ORDERING CODE
SURFACE MOUNT FLAT CONFIGURATION (SMF)
1.4
4 000 000
2 pin
C
-
-
70 0.03
2.5
7.5
4.6
50
MAL219691131E3
1.4
15 000 000 12.0 x 12.0 x 2.5
7.0 x 7.0 x 2.5
2 pin
C
-
-
85 0.12
0.6
2.5
17.5
100
MAL219691231E3
1.4
4 000 000
2 pin
D1
-
-
70 0.03
2.5
7.5
4.6
50
MAL219691141E3
1.4
15 000 000 12.0 x 12.0 x 2.5
2 pin
D2
-
-
85 0.12
0.6
2.5
17.5
100
MAL219691241E3
2.8
4 000 000
7.0 x 14.0 x 2.5
2 pin
E2
-
-
70 0.03
5.0
15.0
9.2
50
MAL219691152E3
2.8
15 000 000 12.0 x 24.0 x 2.5
2 pin
E2
-
-
85 0.12
1.2
5.0
35.0
50
MAL219691252E3
4.2
4 000 000
13.0 x 14.0 x 2.5
3 pin
E3
-
-
70 0.03
7.5
22.5
13.8
70
MAL219691153E3
4.2
15 000 000 22.0 x 24.0 x 2.5
3 pin
E3
-
-
85 0.12
1.8
7.5
52.5
35
MAL219691253E3
5.6
4 000 000
14.0 x 14.0 x 2.5
4 pin
E4
-
-
70 0.03 10.0
30.0
18.4
70
MAL219691154E3
5.6
15 000 000 24.0 x 24.0 x 2.5
4 pin
E4
-
-
85 0.12
2.4
10.0
70.0
35
MAL219691254E3
7.0 x 7.0 x 2.5
LAY FLAT CONFIGURATION (LFC)
1.4
15 000 000 14.5 x 12.0 x 2.5
2 pin
F
-
-
85 0.12
0.6
2.5
17.5
40
MAL219691261E3
2.8
15 000 000 14.5 x 24.0 x 2.5
2 pin
F
-
-
85 0.12
1.2
5.0
35.0
40
MAL219691262E3
4.2
15 000 000 14.5 x 36.0 x 2.5
2 pin
F
-
-
85 0.12
1.8
7.5
52.5
40
MAL219691263E3
5.6
15 000 000 14.5 x 48.0 x 2.5
2 pin
F
-
-
85 0.12
2.4
10.0
70.0
20
MAL219691264E3
7.0
15 000 000 14.5 x 60.0 x 2.5
2 pin
F
-
-
85 0.12
3.6
12.5
87.5
20
MAL219691265E3
8.4
15 000 000 14.5 x 72.0 x 2.5
2 pin
F
-
-
85 0.12
4.8
15.0
105.0
20
MAL219691266E3
STACKED THROUGH HOLE OVAL
2.8
90 000 000
35 x 25 x 7.5
3 pin
G
7
10
85
0.5
0.03 0.090
230.0
25
MAL219690103E3
4.2
90 000 000
35 x 25 x 10
3 pin
G
10
10
85
0.5
0.04 0.135
345.0
25
MAL219690101E3
5.6
90 000 000
35 x 25 x 15
3 pin
G
15
10
85
0.5
0.06 0.180
460.0
25
MAL219690102E3
STACKED THROUGH HOLE OVAL HORIZONTAL
2.8
90 000 000
35 x 25 x 7.5
3 pin
H
25
10
85
0.5
0.03 0.090
230.0
25
MAL219690113E3
4.2
90 000 000
35 x 25 x 10
3 pin
H
25
10
85
0.5
0.04 0.135
345.0
25
MAL219690111E3
5.6
90 000 000
35 x 25 x 15
3 pin
H
25
10
85
0.5
0.06 0.180
460.0
25
MAL219690112E3
Notes
(1) ESR AC 1 kHz are typical values.
(2) ESR DC are typical values.
Table 3
LOAD CURRENTS AND VOLTAGES
CR (μF)
RECOMMENDED
CHARGE CURRENT
MAX. CHARGE
CURRENT
MAX. DISCHARGE
CURRENT
LOWEST DISCHARGE
VOLTAGE (1)
4 000 000
2 mA to 8 mA
14 mA
25 mA
n x 0.8 V
15 000 000
5 mA to 20 mA
50 mA
70 mA
n x 0.8 V
90 000 000
0.3 A to 1 A
1.5 A
3A
n x 0.8 V
Note
(1) n... number of cells, permanent operation below lowest discharge voltage is not permitted.
Revision: 24-Mar-15
Document Number: 28409
58
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MEASURING OF CHARACTERISTICS
CAPACITANCE (C)
A
Capacitance shall be measured by constant current
discharge method.
PARAMETER
Rated capacitance, CR
Discharge current, ID
VALUE
15
15
4
4
UR
V
UNIT
F
mA
90
90
Constant
current
discharger
+
DISCHARGE CURRENT AS A FUNCTION OF
RATED CAPACITANCE
C
Fig. 14 - Test Circuit for Capacitance Measurement
INTERNAL RESISTANCE (RI) AT 1 kHz
ΔU3
UC  V 
R I    = ----------------3
10
U1
U2
1 mA
A
+
t1
30 min
t2
C
(s)
V
1 kHz
Fig. 13 - Voltage Diagram for Capacitance Measurement
Capacitance value CR is given by discharge current ID, time
t and rated voltage UR, according to the following equation:
CR
UR
U1
U2
U3
t1
t2
ID
Rated capacitance, in F
Rated voltage, in V
Starting voltage, in V
Ending voltage, in V
Voltage drop at internal resistance, in V
Time from start of discharge until voltage U1 is
reached, in s
Time from start of discharge until voltage U2 is
reached, in s
Discharge current, in A
Fig. 15 - Test Circuit for RI Measurement
LEAKAGE CURRENT (IL)
Leakage current shall be measured after 30 min application
of rated voltage UR:
US  V 
I L  A  = ---------------4
10
V
RS
ID  A  x  t2  s  - t1  s  
C R  F  = ---------------------------------------------------------U1  V  - U2  V 
100 Ω
+
+
C
For ID, U1, and U2 the following definitions have to be used:
Table 4
Fig. 16 - Test Circuit for Leakage Current
CAPACITANCE
C (F)
4
4
4
4
4
4
15
15
15
15
15
15
90
90
90
ID (A)
0.004
0.004
0.004
0.004
0.004
0.004
0.015
0.015
0.015
0.015
0.015
0.015
0.090
0.090
0.090
UR (V)
1.4
2.8
4.2
5.6
7.0
8.4
1.4
2.8
4.2
5.6
7.0
8.4
2.8
4.2
5.6
Note
• For U2 see also Table 5.
Revision: 24-Mar-15
U1 (V)
1.3
2.7
4.0
5.4
6.7
8.1
1.3
2.7
4.0
5.4
6.7
8.1
2.7
4.0
5.4
U2 (V)
0.7
1.9
3.1
4.4
5.6
6.9
0.7
1.9
3.1
4.4
5.6
6.9
1.9
3.1
4.4
t1 (s)
5
5
5
5
5
5
5
5
5
5
5
5
5
5
5
t2 (s)
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
> 600
100 000
IL
(μA)
10 000
Curve 1: 90 F (2.8 V to 5.6 V)
Curve 2: 15 F (1.4 V to 8.4 V)
Curve 3: 4 F (1.4 V to 8.4 V)
1000
1
100
2
10
1
3
0
5
10
15
20
25
30
35
40
45
50
Time (h)
Fig. 17 - Typical Leakage Current at RT as a Function of Time
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Table 5
VOLTAGE TO BE USED FOR SERIES CONNECTION
N CELLS IN SERIES
UR (V)
U1 (V)
U2 (V)
1
1.4
1.3
0.7
2
2.8
2.7
1.9
3
4.2
4.0
3.1
4
5.6
5.4
4.4
5
7.0
6.7
5.6
6
8.4
8.1
6.9
DISCHARGE CHARACTERISTICS
Backup time of 196 HVC series capacitors depends on minimum memory holding voltage and discharge current (corresponding
with the current consumption of the load).
For minimum backup times of standard and vertical miniaturized series see figure 18 to figure 20 (charging time 24 h and
CC-CV charging according to table 3).
100 000
Backup
time
(s)
10 000
106
Backup
time
(s) 5
10
104
1000
103
100
102
10
10
C = 4 F (1.4 V to 8.4 V)
1
0.1
C = 15 F (1.4 V to 8.4 V)
1
1
0.1
10
100
Discharge current (mA)
Fig. 18 - Typical Backup Time as a Function of Discharge Current
1
10
100
Discharge current (mA)
Fig. 19 - Typical Backup Time as a Function of Discharge Current
106
Backup
time
(s) 5
10
104
103
102
10
C = 90 F (2.8 V to 5.6 V)
1
1
10
100
1000
10 000
Discharge current (mA)
Fig. 20 - Typical Backup Time as a Function of Discharge Current
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CHARGE CHARACTERISTICS
Charge cc 4 mA/5.6 V and discharge 4 mA/3.2 V
10
Charge cccv 4 mA/5.6 V + 30 min and discharge 4 mA/3.2 V
10
6
7.5
5
7.5
4
5
4
5
3
2.5
3
2.5
2
0
2
0
6
15
-5
25
20
0
0
t (min)
Fig. 21 - Constant Current (CC) with V-Limit Charging Method at RT
Typical Charge/Discharge Characteristics at RT: 4 F/5.6 V
10
20
35
40
50
60
70
t (min)
40
Charge cccv 10 mA/5.6 V + 30 min and discharge 15 mA/3.2 V
40
6
5
30
5
30
4
20
4
20
3
10
3
10
2
0
2
0
Voltage
1
0
5
10
15
20
25
30
35
40
45
Voltage (V)
Current (mA)
Voltage
Current
0
-10
1
-20
50
0
-10
Current
0
10
20
35
40
50
60
70
80
-20
90
t (min)
t (min)
Fig. 23 - Constant Current (CC) with V-Limit Charging Method at RT
Typical Charge/Discharge Characteristics at RT: 15 F/5.6 V
Fig. 24 - Constant Current (CC)-Constant Voltage (CV)
Charging Method at RT
Typical Charge/Discharge Characteristics at RT: 15 F/5.6 V
Charge cc 300 mA/5.6 V and discharge 1 A/3.2 V
1500
Charge cccv 300 mA/5.6 V + 30 min and discharge 1 A/3.2 V
1500
6
5
1000
5
4
500
4
500
3
0
3
0
2
-500
6
Voltage (V)
Current (mA)
Voltage (V)
Voltage
Voltage
2
0
2
4
6
8
10
12
14
16
18
1000
-500
Current
Current
1
0
Current (mA)
-5
80
Fig. 22 - Constant Current (CC)-Constant Voltage (CV)
Charging Method at RT
Typical Charge/Discharge Characteristics at RT: 4 F/5.6 V
Charge cc 10 mA/5.6 V and discharge 15 mA/3.2 V
6
Voltage (V)
-2.5
Current
Current (mA)
10
1
Current (mA)
5
Voltage (V)
-2.5
Current
0
Current (mA)
Voltage (V)
1
0
Voltage
Voltage
5
-1000
1
-1500
20
0
-1000
0
10
20
35
40
50
-1500
60
t (min)
t (min)
Fig. 25 - Constant Current (CC) with V-Limit Charging Method at RT
Typical Charge/Discharge Characteristics at RT: 90 F/5.6 V
Fig. 26 - Constant Current (CC)-Constant Voltage (CV)
Charging Method at RT
Typical Charge/Discharge Characteristics at RT: 90 F/5.6 V
Note
• Charge and discharge cycles at room temperature - maximal 50 000 cycles at room temperature allowed!
Revision: 24-Mar-15
Document Number: 28409
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CHARGING VOLTAGE AT DIFFERENT TEMPERATURES
OPERATING TEMPERATURE RANGE
Charge voltage
0 °C UP TO +45 °C
1 cell
UR + 0.03 V
2 cells
UR + 0.06 V
3 cells
UR + 0.09 V
> 4 cells
UR + 0.10 V
+45 °C UP TO +60 °C
+60 °C UP TO +70 °C/+85 °C
UR
UR - n (1) x 0.0015 x (T[°C] - 45)
Notes
• Capacitor is polarized, product will be damaged if reverse charged.
• Voltages higher than specified need to be avoided; otherwise reduction of life time, internal gas generation or damage of HVC hybrid
capacitor will occur.
• For other operating temperatures, a temperature derating factor has to be considered for correct charging voltage.
• Surge voltage is only allowed a few seconds per day, but not as a charging process.
(1) n... number of cells
DERATING
Working voltage at temperatures above 60 °C should be below rated voltage UR. A derating-factor of -1.5 mV/°C per cell is
recommended.
PRODUCT AND MOUNTING CHARACTERISTICS
Attention: parts are pre-charged at delivery - handle appropriate.
At delivery products are pre-charged and voltage over terminals is near nominal voltage. Short circuiting of product terminals
is permitted. Do not short circuit permanently. Short circuiting of charged cells may heat up the cells. Cells will fulfill UL 2054 Tcell < 150 °C due to self heating in case of short circuiting.
For printed circuit board mounting it has to be taken into account, that for certain form factors top and bottom of products may
not be insulated.
Capacitor disposal methods should be in accordance with local and state regulations.
Table 6.1
TEST PROCEDURES AND REQUIREMENTS
IEC 60384-4/
EN 130300
SUBCLAUSE
PROCEDURE
(quick reference)
Damp heat, steady state
4.12
500 h at 55 °C; RH 90 % to 95 %; no voltage applied
C/C: ± 30 %
RI  4 x spec. limit
IL  2 x spec. limit
Endurance
4.13
Tamb = 70 °C / 85 °C; rated voltage UR applied;
1000 h
C/C: ± 30 %
RI  4 x spec. limit
IL  2 x spec. limit
Shelf at upper category
temperature
4.17
Tamb = 70 °C / 85 °C; no voltage applied;
1000 h
C/C: ± 30 %
RI  4 x spec. limit
IL  2 x spec. limit
24 h storage at room temperature after application
of n x UR
Remaining voltage:  n x (UR x 0.1)
Step 1: reference measurement at 20 °C of C, RI, and IL
Step 2: measurement at -20 °C
Step 3: measurement at +20 °C
Step 2: measurement at +70 °C
Step 4: measurement at +20 °C
C/C: ± 30 % of +20 °C value
RI  5 x the +20 °C value
IL  4 x the +20 °C value
Max. 30 s at room temperature
US = n (1) x 1.6 V
No change of parameter!
After surge voltage, discharge
product below rated voltage
NAME OF TEST
Shelf discharge
Characteristics at high and
low temperature
Surge voltage
-
4.19
-
REQUIREMENTS
Note
(1) n... number of cells
Revision: 24-Mar-15
Document Number: 28409
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Table 6.2: Stacked Through Hole configuration (STH), Surface Mount Flat configuration (SMF), and Lay Flat
configuration with Connector
TEST PROCEDURES AND REQUIREMENTS
NAME OF TEST
IEC 60384-4/
EN 130300
SUBCLAUSE
PROCEDURE
(quick reference)
REQUIREMENTS
Robustness of terminations
4.4
Tensile strength; application of load force for 10 s:
20 N (standard series)
5 N (vertical miniaturized series)
No breaks
Resistance to soldering heat
4.5
Solder bath; 260 °C; 5 s
C/C: ± 10 %
RI and IL  spec. limit
Solderability
4.6
Solder bath; 236 °C; 2 s
 75 % tinning
4.8
10 Hz to 55 Hz; 1.5 mm; 3 directions; 
2 h per direction
C/C: ± 10 %
RI and IL  spec. limit
Vibration
Notes
• Robustness - bending limited to ± 15°, force in direction of tab.
• Solder bath test: max. allowed case temperature during test is e.g. 85 °C or immersion of one (1) pad only.
• Wave soldering allowed.
SOLDERING
As a general principle, temperature and duration shall be the minimum necessary required to ensure good soldering
connections. However, the maximum specified soldering time and case temperature should never be exceeded.
EVALUATION KIT
Evaluation kits are available under ordering code: MAL219699001E3. The engineering kit includes a charge and discharge demo
board with different 196 HVC capacitor samples.
For further details, please contact [email protected]
Revision: 24-Mar-15
Document Number: 28409
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196 DLC
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Vishay BCcomponents
Energy Storage Double Layer Capacitors
FEATURES
• Polarized capacitor with high charge density,
alternative product to rechargeable backup
batteries
• Dielectric: electric double layer
• Radial leads, cylindrical case, insulated with a
blue sleeve
• Available in both vertical and low-profile versions
• Unlimited charge and discharge cycle numbers
• No charge-discharge control circuitry and no series
resistor necessary
• Maintenance-free, no periodic replacement or service
necessary
• Ecologically beneficial (no Cd, no Li)
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
• Energy storage, for backup of semiconductor memories
(CMOS) in all fields of electronics
• Telecommunication, audio-video, EDP
• General industrial, clock and timer systems
MARKING
The capacitors are marked with the following information:
• Rated capacitance (in F)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Name of manufacturer
• Negative terminal identification
• Upper category temperature (at 85 °C types only)
QUICK REFERENCE DATA
VALUE
DESCRIPTION
Nominal case sizes (Ø D x L in mm)
Rated capacitance range, CR
STANDARD
FORM A
HIGH VOLTAGE
FORM A
HIGH
TEMPERATURE
FORM A
VERTICAL,
MINIATURIZED
FORM B
13 x 7 and 21 x 7.5
13 x 9 and 21 x 9
13 x 9 and 21 x 9
11.5 x 13 (vertical)
0.047 F to 1.0 F
0.047 F to 0.68 F
0.047 F to 0.68 F
0.047 F to 0.33 F
Tolerance on CR at 20 °C
-20 % to +80 %
Rated voltage, UR
5.5 V
6.3 V
5.5 V
5.5 V
Maximum surge voltage, US
6.3 V
7.0 V
6.3 V
6.3 V
Category temperature range
-25 °C to +70 °C
-25 °C to +70 °C
-25 °C to +85 °C
-25 °C to +70 °C
at 85 °C
-
-
1000 h
-
at 70 °C
1000 h
1000 h
2800 h
1000 h
at 40 °C
8000 h
8000 h
23 000 h
8000 h
at 25 °C
23 000 h
23 000 h
64 000 h
23 000 h
Useful life at UR:
Shelf life at 0 V
Climatic category IEC 60068
Revision: 15-Dec-14
1000 h at upper category temperature
25/070/21
25/070/21
25/085/21
25/070/21
Document Number: 28362
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SELECTION CHART FOR CR, UR, AND FORM AT UPPER CATEGORY TEMPERATURE (UCT)
CR
(F)
UR = 5.5 V
FORM
0.047
0.1
0.22
0.33
0.47
0.68
1.0
UCT = 85 °C
13 x 9
13 x 9 x 9
21 x 9
21 x 9
-
A
B
A
B
A
B
A
B
A
B
A
B
A
UR = 6.3 V
UCT = 70 °C
13 x 9
13 x 9
21 x 9
21 x 9
-
UCT = 70 °C
13 x 7
11.5 x 13
13 x 7
11.5 x 13
13 x 7
11.5 x 13
13 x 7
11.5 x 13
21 x 7.5
21 x 7.5
DIMENSIONS in millimeters AND AVAILABLE FORMS
Sleeve
0.8 ± 0.1
1.2 ± 0.1
0.5 ± 0.1
5 ± 0.3
6±1
L
ØD
6±1
Fig. 1 - Form A: low profile
(4.5)
ØD
L
Laser weld
+
Sleeve
4.0 ± 0.3
5.0 ± 0.3
Solder plating
(0.8)
5.0 ± 0.5
Fig. 2 - Form B: vertical
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL CASE SIZE
Ø D x L (mm)
11.5 x 13
13 x 7
13 x 9
21 x 7.5
21 x 9
CASE
CODE
1
2
3
4
5
FORM
Ø Dmax.
Lmax.
B
A
A
A
A
11.8
13.5
13.5
21.5
21.5
13.5
7.5
9.5
8.0
9.5
MASS
(g)
 1.5
 2.8
 3.4
 7.1
 8.8
PACKAGING
QUANTITIES
2000
1000
1000
500
500
Note
• Packaging: bulk in box.
Revision: 15-Dec-14
Document Number: 28362
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ORDERING EXAMPLE
ELECTRICAL DATA
Double layer capacitor 196 series
SYMBOL
DESCRIPTION
CR
Rated capacitance, tolerance -20 %/+80 %, 
measured by constant current discharge method
UCT
Max. leakage current after 30 min at UR
RI
Max. internal resistance at 1 kHz
Nominal case size: Ø 21 mm x 7.5 mm; Form A
Ordering code: MAL2 19612105E3
Former 12 NC: 2222 19612105
Upper category temperature
IL
1.0 F / 5.5 V
Note
• Unless otherwise specified, all electrical values in Table 1 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa and RH = 45 % to 75 %.
Table 1
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
CR
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
CASE
CODE
FORM
UCT
(°C)
IL
30 min
(μA)
RI
1 kHz
()
ORDERING CODE
STANDARD SERIES
5.5
47 000
13 x 7
2
A
70
69
120
MAL219612473E3
100 000
13 x 7
2
A
70
100
75
MAL219612104E3
220 000
13 x 7
2
A
70
135
75
MAL219612224E3
330 000
13 x 7
2
A
70
182
75
MAL219612334E3
470 000
21 x 7.5
4
A
70
216
30
MAL219612474E3
1 000 000
21 x 7.5
4
A
70
315
30
MAL219612105E3
3
A
85
69
300
MAL219622473E3
HIGH TEMPERATURE SERIES
47 000
5.5
13 x 9
100 000
13 x 9
3
A
85
100
200
MAL219622104E3
470 000
21 x 9
5
A
85
216
50
MAL219622474E3
680 000
21 x 9
5
A
85
260
50
MAL219622684E3
VERTICAL, MINIATURIZED SERIES
5.5
47 000
11.5 x 13
1
B
70
69
120
MAL219632473E3
100 000
11.5 x 13
1
B
70
100
75
MAL219632104E3
220 000
11.5 x 13
1
B
70
135
75
MAL219632224E3
330 000
11.5 x 13
1
B
70
182
75
MAL219632334E3
47 000
13 x 9
3
A
70
69
300
MAL219613473E3
100 000
13 x 9
3
A
70
100
200
MAL219613104E3
470 000
21 x 9
5
A
70
216
50
MAL219613474E3
680 000
21 x 9
5
A
70
260
50
MAL219613684E3
HIGH VOLTAGE SERIES
6.3
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MEASURING OF CHARACTERISTICS
CAPACITANCE (C)
INTERNAL RESISTANCE (RI) AT 1 kHz
Capacitance shall be measured by constant current
discharge method.
VC  V 
R I    = ---------------3
10
DISCHARGE CURRENT AS A FUNCTION OF
RATED CAPACITANCE
PARAMETER
Rated
capacitance, CR
VALUE
UNIT
0.047 0.1 0.22 0.33 0.47 0.68 1.0
F
1 mA
A
+
C
Discharge
current, ID
0.1
1.0
V
1 kHz
mA
Fig. 5 - Test circuit for RI measurement
LEAKAGE CURRENT (IL)
Leakage current shall be measured after 30 min application
of rated voltage UR:
U
(V)
UR
V V
I L  A  = -----------4
10
2.0
V
0
Time
30 min
T (s)
RS
100 Ω
+
Fig. 3 - Voltage diagram for capacitance measurement
+
C
Capacitance value CR is given by discharge current ID, time
T and rated voltage UR, according to the following equation:
Fig. 6 - Test circuit for leakage current
I D  mA  x 10 -3 x T  s 
C  F  = --------------------------------------------------------UR  V  - 2
Curve 1: 1.0 F, 5.5 V
Curve 2: 0.47 F, 5.5 V
Curve 3: 0.22 F, 5.5 V
Curve 4: 0.1 F, 5.5 V
Curve 5: 0.047 F, 5.5 V
RS = 100 Ω
102
IL
(µA)
A
+
V
C
Constant
current
discharger
10
1
2
3
Fig. 4 - Test circuit for capacitance measurement
4
5
1
1
10
20
30
40
50
Time (h)
Fig. 7 - Typical leakage current as a function of time
Revision: 15-Dec-14
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DISCHARGE CHARACTERISTICS
Backup time of 196 DLC series capacitors depends on
minimum memory holding voltage and discharge current
(corresponding with the current consumption of the load).
For minimum backup times of standard and vertical
miniaturized series see Figures 8 and 9 (charging time
 24 h).
MGA695
10 5
Backup
time
(s)
Figure 10 shows the backup time when a 196 DLC capacitor
is discharged by a constant resistance
(charging time 24 h).
The horizontal axis shows the initial value of discharge
current if 5 V is connected to the capacitor via a fixed series
resistor.
Example: 1 μA corresponds to 5 M and 0.1 μA
corresponds to 50 M
The vertical axis shows that period of time during which the
voltage drops from 5 V to 2 V.
10 4
MLB203
10 3
10
3
10
2
1
2
Curve 1: 1.0 F, 5.5 V
Curve 2: 0.47 F, 5.5 V
Curve 3: 0.22 F, 5.5 V
Curve 4: 0.1 F, 5.5 V
Curve 5: 0.047 F, 5.5 V
Voltage drop from 5.0 V to 3.5 V
Backup
time
(s)
3
4
5
2
10
10-3
10-2
10-1
1
Discharge current (mA)
10
10
Fig. 8 - Typical backup time as a function of discharge current
MGA696
10 6
1
102
Curve 1: 1.0 F, 5.5 V
Curve 2: 0.47 F, 5.5 V
Curve 3: 0.22 F, 5.5 V
Curve 4: 0.1 F, 5.5 V
Curve 5: 0.047 F, 5.5 V
Voltage drop from 5.0 V to 2.0 V
by means of a fixed resistor
10 5
4
5
1
10-2
Backup
time
(s)
3
10-1
1
10
102
103
Initial value discharge current (μA)
Fig. 10 - Typical backup time as a function
of initial discharge current
10 4
10
3
104
Curve 1: 1.0 F, 5.5 V
Curve 2: 0.47 F, 5.5 V
Curve 3: 0.22 F, 5.5 V
Curve 4: 0.1 F, 5.5 V
Curve 5: 0.047 F, 5.5 V
Voltage drop:
from 5.0 V to 2.0 V
10-3
10-2
1
2
3
4
5
10-1
1
10
Discharge current (mA)
Fig. 9 - Typical backup time as a function of discharge current
Revision: 15-Dec-14
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Table 2
TEST PROCEDURES AND REQUIREMENTS for standard and vertical miniaturized series (5.5 V; 70 °C)
NAME OF TEST
IEC 60384-4 /
EN130300
SUBCLAUSE
PROCEDURE
(quick reference)
REQUIREMENTS
Tensile strength; application of loading force for 10 s:
Robustness of
terminations
4.4
20 N (standard series)
No breaks
5 N (vertical miniaturized series)
C/C: ± 10 %
Resistance to
soldering heat
4.5
Solder bath; 260 °C; 5 s
Solderability
4.6
Solder bath; 235 °C; 2 s
 75 % tinning
Vibration
4.8
10 Hz to 55 Hz; 1.5 mm; 3 directions;
2 h per direction
C/C: ± 10 %
Damp heat,
steady state
4.12
500 h at 55 °C; RH 90 % to 95 %;
no voltage applied
Endurance
4.13
RI and IL  spec. limit
RI and IL  spec. limit
C/C: ± 30 %
RI  4 x spec. limit
IL  2 x spec. limit
C/C: ± 30 %
Storage at upper
category temperature
Self discharge
Characteristics at high
and low temperature
Revision: 15-Dec-14
4.17
-
4.19
Tamb = 70 °C; 5.5 V applied;
1000 h
Tamb = 70 °C;
no voltage applied; 
1000 h
24 h storage at room temperature after application
of 5 V for 1 h
Step 1: reference measurement
at +20 °C of C, RI and IL
Step 2: measurement at -25 °C
Step 3: measurement at +20 °C
Step 4: measurement at +70 °C
Step 5: measurement at +20 °C
RI  4 x spec. limit
IL  2 x spec. limit
C/C: ± 30 %
RI  4 x spec. limit
IL  2 x spec. limit
Remaining voltage:  4 V
C/C: ± 30 % of +20 °C value
RI  5 x the +20 °C value
IL  4 x the +20 °C value
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153 CRV
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Vishay BCcomponents
Aluminum Capacitors
SMD (Chip) Long Life Vertical
FEATURES
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte, self healing
• SMD-version with base plate, vertical
construction requiring minimum board space,
lead (Pb)-free reflow solderable
• High CV per unit volume
• Long useful life: 2000 h to 3000 h at 105 °C
• Charge and discharge proof, no peak current limitation
175 TMP
175 °C
solid SMD
140 CRH
125 °C
• Supplied in blister tape on reel
• ATTENTION: For maximum safe soldering conditions refer
to Fig. 4
High temp.
153 CRV
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
Low Z
• SMD technology, in compliance with RoHS
150 CRZ
• Telecommunications, general industrial, EDP, automotive,
portable and lightweight equipment
Fig. 1
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes
(L x W x H in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
Endurance test at 105 °C:
Case sizes
4.0 x 4.0 x 5.3 to 6.3 x 6.3 x 5.3
Case sizes
8.0 x 8.0 x 6.5 to 10 x 10 x 14
Useful life at 105 °C:
Case sizes
4.0 x 4.0 x 5.3 to 6.3 x 6.3 x 5.3
Case sizes
8.0 x 8.0 x 6.5 to 10 x 10 x 14
Useful life at 40 °C; 1.3 x lR applied:
Case sizes
4.0 x 4.0 x 5.3 to 6.3 x 6.3 x 5.3
Case sizes
8.0 x 8.0 x 6.5 to 10 x 10 x 14
Shelf life at 0 V, 105 °C
Based on sectional specification
Climatic category IEC 60068
Revision: 18-Jun-13
• Coupling, decoupling, smoothing, filtering, buffering,
timing
MARKING
VALUE
4.0 x 4.0 x 5.3
to 10 x 10 x 14
0.47 μF to 1000 μF
± 20 %
6.3 V to 100 V
- 55 °C to + 105 °C
1000 h
2000 h
• Rated capacitance (in μF)
• Rated voltage (in V)
• Date code
• Black mark or “-” sign indicating the cathode (the anode is
identified by bevelled edges)
PACKAGING
Supplied in blister tape on reel
2000 h
3000 h
200 000 h
300 000 h
1000 h
IEC 60384-18/
CECC 32300
55/105/56
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SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (L x W x H in mm)
UR (V)
CR
(μF)
6.3
10
16
25
35
50
63
100
0.47
-
-
-
-
-
4.0 x 4.0 x 5.3
-
-
1.0
-
-
-
-
-
4.0 x 4.0 x 5.3
-
-
2.2
-
-
-
-
-
4.0 x 4.0 x 5.3
-
-
3.3
-
-
-
-
-
4.0 x 4.0 x 5.3
-
-
4.7
-
-
-
-
4.0 x 4.0 x 5.3
5.0 x 5.0 x 5.3
-
-
10
-
-
4.0 x 4.0 x 5.3
-
5.0 x 5.0 x 5.3
6.3 x 6.3 x 5.3
-
-
22
4.0 x 4.0 x 5.3
-
5.0 x 5.0 x 5.3
-
6.3 x 6.3 x 5.3
8.0 x 8.0 x 6.5
-
-
33
-
5.0 x 5.0 x 5.3
-
6.3 x 6.3 x 5.3
8.0 x 8.0 x 6.5
8.0 x 8.0 x 10
-
10 x 10 x 14
47
5.0 x 5.0 x 5.3
-
6.3 x 6.3 x 5.3
8.0 x 8.0 x 6.5
-
8.0 x 8.0 x 10
-
-
6.3 x 6.3 x 5.3
-
8.0 x 8.0 x 6.5
8.0 x 8.0 x 10
-
10 x 10 x 10
10 x 10 x 14
-
-
-
-
-
-
-
-
-
220
-
8.0 x 8.0 x 10
10 x 10 x 10
-
-
-
-
-
330
8.0 x 8.0 x 10
10 x 10 x 10
-
10 x 10 x 14
-
-
-
-
470
10 x 10 x 10
-
10 x 10 x 14
-
-
-
-
-
680
-
10 x 10 x 14
-
-
-
-
-
-
1000
10 x 10 x 14
-
-
-
-
-
-
-
100
Table 1
TAPE AND REEL DIMENSIONS in millimeters AND PACKAGING QUANTITIES
CASE CODE
PITCH
P1
TAPE WIDTH
W
TAPE THICKNESS
T2
REEL
DIAMETER
PACKAGING
QUANTITY
PER REEL
0405
8
12
5.8
380
2000
0505
12
12
5.8
380
1000
0605
12
16
5.8
380
1000
0807
12
16
6.8
380
1000
0810
16
24
11.3
380
500
1010
16
24
11.3
380
500
1014
16
24
14.8
330
250
Note
• Detailed tape dimensions see section “PACKAGING”.
Revision: 18-Jun-13
Document Number: 28388
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0.4 ± 0.2
L
D
W B
H
S
0.3
max.
Fig. 2 - Dimensional outline
Table 2
DIMENSIONS in millimeters AND MASS
NOMINAL CASE SIZE
LxWxH
4.0 x 4.0 x 5.3
5.0 x 5.0 x 5.3
6.3 x 6.3 x 5.3
8.0 x 8.0 x 6.5
8.0 x 8.0 x 10
10 x 10 x 10
10 x 10 x 14
CASE CODE
Lmax.
Wmax.
Hmax.
ØD
Bmax.
S
0405
0505
0605
0807
0810
1010
1014
4.5
5.5
6.8
8.6
8.6
10.6
10.6
4.5
5.5
6.8
8.6
8.6
10.6
10.6
5.5
5.5
5.5
6.8
10.5
10.5
14.3
4.0
5.0
6.3
8.0
8.0
10.0
10.0
0.8
0.8
0.8
0.8
1.1
1.1
1.2
1.0
1.4
2.0
2.3
3.1
4.7
4.5
MASS
(g)
 0.13
 0.20
 0.30
 0.50
 1.00
 1.30
 1.50
MOUNTING
SOLDERING
The capacitors are designed for automatic placement on to
printed-circuit boards.
Optimum dimensions of soldering pads depend amongst
others on soldering method, mounting accuracy, print
layout and/or adjacent components.
For recommended soldering pad dimensions, refer to Fig. 3
and Table 3.
Soldering conditions are defined by the curve, temperature
versus time, where the temperature is that measured on the
soldering pad and on top of the case during processing.
For maximum conditions refer to Fig. 4. 
Maximum 2 runs with pause of minimum 30 min between.
Any temperature versus time curve which does not exceed
the specified maximum curves may be applied.
AS A GENERAL PRINCIPLE, TEMPERATURE AND
DURATION SHALL BE THE MINIMUM NECESSARY
REQUIRED
TO
ENSURE
GOOD
SOLDERING
CONNECTIONS. HOWEVER, THE SPECIFIED MAXIMUM
CURVES SHOULD NEVER BE EXCEEDED.
b
a
c
a
Fig. 3 - Recommended soldering pad dimensions
Table 3
RECOMMENDED SOLDERING PAD DIMENSIONS in millimeters
CASE CODE
0405
0505
0605
0807
0810
1010
1014
Revision: 18-Jun-13
a
2.6
3.0
3.5
4.0
3.5
4.0
4.3
b
1.6
1.6
1.6
1.6
2.5
2.5
2.5
c
1.0
1.4
1.9
2.1
3.0
4.0
4.0
Document Number: 28388
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T (°C)
TPeak
t4
230
217
200
t3
t2
t1
150
time (s)
Fig. 4 - Maximum temperature load during reflow soldering measured on capacitors soldering pad and top of the case
REFLOW SOLDERING CONDITIONS
CASE CODE
0405 TO 0605
CASE CODE
0807 TO 1010
CASE CODE 1014
 63 V
CASE CODE 1014
100 V
Max. time from 25 °C to Tpeak
240 s
240 s
300 s
270 s
Max. ramp-up rate to 150 °C
3 K/s
3 K/s
3 K/s
3 K/s
Max. time from 150 °C to 200 °C (t1)
120 s
120 s
150 s
120 s
0.5 K/s to 3 K/s
0.5 K/s to 3 K/s
0.5 K/s to 3 K/s
0.5 K/s to 3 K/s
Max. time from 200 °C to 217 °C, (t2)
20 s
20 s
60 s
60 s
Max. time above TLiquidus (217 °C), (t3)
60 s
60 s
90 s
60 s
Max. time above 230 °C (t4)
30 s
20 s
40 s
30 s
250 °C
240 °C
250 °C
240 °C
Max. time above Tpeak minus 5 °C
5s
5s
5s
10 s
Max. ramp-down rate from TLiquidus
6 K/s
6 K/s
6 K/s
6 K/s
PROFILE FEATURES
Ramp up rate from 200 °C to Tpeak
Peak temperature Tpeak
Note
• Temperature measuring point on top of the case and terminals max. 2 runs with pause of 30 min in between
Revision: 18-Jun-13
Document Number: 28388
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ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Electrolytic capacitor 153 CRV series
DESCRIPTION
100 μF/25 V; ± 20 %
CR
Rated capacitance at 100 Hz or 120 Hz,
tolerance ± 20 %
IR
Rated RMS ripple current at 100 Hz or 120 Hz, 105 °C
IL2
Max. leakage current after 2 min at UR
Ordering code: MAL215376101E3
tan 
Max. dissipation factor at 100 Hz or 120 Hz
Former 12NC: 2222 153 76101
ESR
Equivalent series resistance at 100 kHz
Nominal case size: 8 mm x 8 mm x 10 mm; taped on reel
Note
• Unless otherwise specified, all electrical values in Table 4 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 4
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
35
50
63
100
CR
(μF)
NOMINAL
CASE SIZE
L x W x H (mm)
IR
105 °C
(mA)
IL2
2 min
(μA)
tan 
100 Hz
ESR
100 kHz
()
ORDERING CODE
MAL2153.......
22
47
100
330
470
1000
33
220
330
680
10
22
47
100
220
470
33
47
100
330
4.7
10
22
33
0.47
1.0
2.2
3.3
4.7
10
22
33
47
100
100
33
4.0 x 4.0 x 5.3
5.0 x 5.0 x 5.3
6.3 x 6.3 x 5.3
8.0 x 8.0 x 10
10 x 10 x 10
10 x 10 x 14
5.0 x 5.0 x 5.3
8.0 x 8.0 x 10
10 x 10 x 10
10 x 10 x 14
4.0 x 4.0 x 5.3
5.0 x 5.0 x 5.3
6.3 x 6.3 x 5.3
8.0 x 8.0 x 6.5
10 x 10 x 10
10 x 10 x 14
6.3 x 6.3 x 5.3
8.0 x 8.0 x 6.5
8.0 x 8.0 x 10
10 x 10 x 14
4.0 x 4.0 x 5.3
5.0 x 5.0 x 5.3
6.3 x 6.3 x 5.3
8.0 x 8.0 x 6.5
4.0 x 4.0 x 5.3
4.0 x 4.0 x 5.3
4.0 x 4.0 x 5.3
4.0 x 4.0 x 5.3
5.0 x 5.0 x 5.3
6.3 x 6.3 x 5.3
8.0 x 8.0 x 6.5
8.0 x 8.0 x 10
8.0 x 8.0 x 10
10 x 10 x 10
10 x 10 x 14
10 x 10 x 14
21
36
61
180
320
400
31
180
320
380
16
28
47
110
320
370
44
110
180
300
14
23
50
110
5
7
10
12
17
26
110
180
180
320
240
170
3.0
3.0
6.3
21
30
63
3.3
22
33
68
3.0
3.5
7.5
16
35
75
8.3
12
22
83
3.0
3.5
7.7
12
3.0
3.0
3.0
3.0
3.0
5.0
11
17
24
50
63
33
0.30
0.30
0.30
0.30
0.30
0.24
0.26
0.26
0.26
0.19
0.22
0.22
0.22
0.22
0.22
0.16
0.16
0.16
0.16
0.14
0.13
0.13
0.13
0.13
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.09
0.07
8
4
2
0.5
0.3
0.24
4
0.5
0.3
0.24
8
4
2.2
1.2
0.3
0.25
2.2
1.2
0.5
0.27
8
4
2.2
1.2
12
12
12
12
6
3
1.2
0.5
0.5
0.3
0.34
1.3
73229E3
73479E3
73101E3
73331E3
73471E3
73102E3
74339E3
74221E3
74331E3
74681E3
75109E3
75229E3
75479E3
75101E3
75221E3
75471E3
76339E3
76479E3
76101E3
76331E3
70478E3
70109E3
70229E3
70339E3
71477E3
71108E3
71228E3
71338E3
71478E3
71109E3
71229E3
71339E3
71479E3
71101E3
78101E3
79339E3
Revision: 18-Jun-13
Document Number: 28388
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Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Surge voltage
IEC 60384-18, subclause 4.14
Us  1.15 x UR
Reverse voltage
IEC 60384-18, subclause 4.16
Urev  1 V
After 2 min at UR
IL2  0.01 x CR x UR or 3 μA, whichever is greater
Case codes 0405 to 0605
Typ. 10 nH
Case codes 0807 to 1014
Typ. 15 nH
Voltage
Current
Leakage current
Inductance
Equivalent series inductance (ESL)
CAPACITANCE (C)
EQUIVALENT SERIES RESISTANCE (ESR)
1.1
102
2
C
C0
1
ESR
(Ω)
1.0
10
1
0.9
2
1
0.8
2
3
1
Curve 1: 1 µF, 50 V
Curve 2: 100 µF, 6.3 V
Curve 1: 22 μF, 6.3 V
Curve 2: 22 μF, 16 V
Curve 3: 22 μF, 25 V
0.7
0.1
- 40
- 20
0
20
40
60
80
100
120
0.1
1
10
102
Tamb (°C)
C0 = Capacitance at 20 °C
103
f (kHz)
Fig. 5 - Typical multiplier of capacitance at 100 Hz or 120 Hz
as a function of ambient temperature
Fig. 6 - Typical ESR as a function of frequency at 20 °C
DISSIPATION FACTOR (tan )
IMPEDANCE (Z)
10
102
tan δ
Curve 1: 1 µF, 50 V
Curve 2: 100 µF, 6.3 V
2
Z
(Ω)
1
10
1
1
0.1
2
3
1
0.01
Curve 1: 22 µF, 6.3 V
Curve 2: 22 µF, 16 V
Curve 3: 22 µF, 25 V
0.001
0.1
- 60
- 40
- 20
0
20
40
60
80
100
Tamb (°C)
Fig. 7 - Typical dissipation factor (tan ) at 100 Hz or 120 Hz
as a function of ambient temperature
Revision: 18-Jun-13
120
0.1
1
10
102
103
f (kHz)
Fig. 8 - Typical impedance as a function of frequency at 20 °C
Document Number: 28388
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Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
CCC206
3.8
IA
IR
3.7
3.6
3.5
3.4
3.3
3.2
3.1
3.0
2.8
lifetime multiplier
2.6
0
1.
2.4
5
1.
0
2.
2.2
0
3.
0
4.
2.0
0
6.
1.6
0
10
Case codes 0807 to 1014: 3000 h
(1)
0
15 0
20
Case codes 0405 to 0605: 2000 h
1.2
1.0
0.8
0.5
0.0
60
Useful life at 105 °C and IR applied:
30
1.4
For case codes 0405 to 1010 max. IA/IR = 2.4
(1)
12
at 105 °C
20
IR = Rated ripple current at 100 Hz or 120 Hz
0
8.
1.8
IA = Actual ripple current at 100 Hz or 120 Hz
40
50
60
70
80
90
100
110
Tamb (°C)
Fig. 9 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 5
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
IR MULTIPLIER
UR = 6.3 V TO 16 V
UR = 25 V OR 35 V
UR = 50 V TO 100 V
50 or 60
0.80
0.80
0.80
100 or 120
1.00
1.00
1.00
300
1.10
1.15
1.20
1000
1.15
1.25
1.35
3000
1.20
1.35
1.45
 10 000
1.25
1.40
1.50
Revision: 18-Jun-13
Document Number: 28388
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Table 6
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Mounting
Endurance
REFERENCE
PROCEDURE
(quick reference)
IEC 60384-18,
subclause 4.3
Shall be performed prior to tests mentioned below;
reflow soldering;
for maximum temperature load 
refer to chapter “Mounting”
IEC 60384-18/
CECC 32300,
subclause 4.15
Tamb = 105 °C; UR applied;
1000 h, case codes 0405 to 0605
2000 h, case codes 0807 to 1014
REQUIREMENTS
C/C: ± 10 %
tan   spec. limit
IL2  spec. limit
C/C: ± 20 %
tan   2 x spec. limit
IL2  spec. limit
C/C: ± 50 %
Useful life
CECC 30301,
subclause 1.8.1
Tamb = 105 °C; UR and IR applied;
2000 h, case codes 0405 to 0605
3000 h, case codes 0807 to 1014
tan   3 x spec. limit
IL2  spec. limit
no short or open circuit
total failure percentage:  1 %
Shelf life
(storage at high
temperature)
Revision: 18-Jun-13
IEC 60 384-18/
CECC 32 300,
subclause 4.17
Tamb = 105 °C; no voltage applied;
1000 h
After test: UR to be applied for 30 min, 
24 h to 48 h before measurement
For requirements 
see “Endurance test” above
Document Number: 28388
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Vishay BCcomponents
Aluminum Capacitors
SMD (Chip), Very Low Z
FEATURES
• Extended useful life: Up to 10 000 h at 105 °C
for MAL215099...E3 parts
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte, self healing
• SMD-version with base plate, lead (Pb)-free
reflow solderable
• Very low impedance, very high ripple current
• Charge and discharge proof, no peak current limitation
140 CRH
125 °C
146 CTI
Lower Z
• Parts for advanced high temperature reflow soldering
according to JEDEC® J-STD-020
• Vibration proof, 4-pin version and 6-pin version
High temp.
• AEC-Q200 qualified
150 CRZ
153 CRV
• High reliability
Lower Z
• Low ESR
Fig. 1
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes
(L x W x H in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
6.3 V to 63 V:
80 V to 100 V:
Endurance test at 105 °C
Useful life at 105 °C
Useful life at 40 °C;
1.8 x lR applied
Shelf life at 0 V, 105 °C
Based on sectional
specification
Climatic category IEC 60068
6.3 V to 63 V:
80 V to 100 V:
Revision: 19-Jan-15
VALUE
8 x 8 x 10
to 18 x 18 x 21
4.7 μF to 10 000 μF
± 20 %
6.3 V to 100 V
-55 °C to +105 °C
-40 °C to +105 °C
2000 h to 8000 h
2500 h to 10 000 h
125 000 h to 500 000 h
1000 h
IEC 60384-18/CECC 32300
55/105/56
40/105/56
APPLICATIONS
• SMD technology, for high temperature reflow soldering
• Industrial and professional applications
• Automotive, general industrial, telecom
• Smoothing, filtering, buffering
MARKING
• Rated capacitance (in μF)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Black mark or “-” sign indicating the cathode (the anode is
identified by bevelled edges)
• Code indicating group number (Z)
PACKAGING
Supplied in blister tape on reel
Document Number: 28395
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SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (L x W x H in mm)
CR
(μF)
6.3
10
16
25
UR (V)
35
50
63
80
100
4.7








10 x 10 x 10
10








10 x 10 x 10
22








10 x 10 x 10























8 x 8 x 10
HMAX.
MAX 0.3
D
WMAX.
B
B
L1MAX.S
HMAX.
MAX 0.3
35V
1000u
3R-H
WMAX.
25V
1000u
A4-H
25V
220 u
A4-H
D
6-pin:
≥ Ø 16 mm
LMAX.
L1MAX. S
min. 0.4/max. 1.0 (2 x)
4-pin:
Ø 12.5 mm
min. 0.4/max. 1.0 (2 x)
2-pin:
≤ Ø 10 mm
min. 0.4/max. 1.0 (2 x)
8 x 8 x 10

10 x 10 x 10
8 x 8 x 10
10 x 10 x 12
47
10 x 10 x 10
10 x 10 x 10
10 x 10 x 10

12.5 x 12.5 x 13
68
10 x 10 x 12
12.5 x 12.5 x 13
100




8 x 8 x 10
10 x 10 x 10
10 x 10 x 12
10 x 10 x 14



8 x 8 x 10


12.5 x 12.5 x 1312.5 x 12.5 x 1312.5 x 12.5 x 16
150
10 x 10 x 12
16 x 16 x 16
220


8 x 8 x 10
8 x 8 x 10
10 x 10 x 10
12.5 x 12.5 x 1612.5 x 12.5 x 16
10 x 10 x 14
10 x 10 x 12
16 x 16 x 21

8 x 8 x 10
8 x 8 x 10
10 x 10 x 10
12.5 x 12.5 x 13 16 x 16 x 16
16 x 16 x 16
330
10 x 10 x 14
18 x 18 x 16
10 x 10 x 12
16 x 16 x 21
16 x 16 x 21
18 x 18 x 21

470
8 x 8 x 10
8 x 8 x 10
10 x 10 x 10
12.5 x 12.5 x 13
10 x 10 x 14
18 x 18 x 16
18 x 18 x 16
10 x 10 x 12
680

10 x 10 x 10
12.5 x 12.5 x 1312.5 x 12.5 x 16 16 x 16 x 16 18 x 18 x 21
18 x 18 x 21
10 x 10 x 14
10 x 10 x 12
16 x 16 x 21
1000 10 x 10 x 10
12.5 x 12.5 x 1312.5 x 12.5 x 16 16 x 16 x 16
10 x 10 x 14
18 x 18 x 16
16 x 16 x 21 18 x 18 x 21

12.5 x 12.5 x 1312.5 x 12.5 x 16 16 x 16 x 16
1500
18 x 18 x 16
16 x 16 x 21 18 x 18 x 21
2200 12.5 x 12.5 x 1312.5 x 12.5 x 16 16 x 16 x 16
18 x 18 x 16
16 x 16 x 21 18 x 18 x 21

16 x 16 x 16
3300
18 x 18 x 16
16 x 16 x 21 18 x 18 x 21
4700 16 x 16 x 16
18 x 18 x 16
16 x 16 x 21 18 x 18 x 21
6800
18 x 18 x 16
10 000 18 x 18 x 21
33
HMAX.
MAX. 0.3
D
WMAX.
B
LMAX.
L1MAX. S
LMAX.
Fig. 2 - Dimensional outline
Revision: 19-Jan-15
Document Number: 28395
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Table 1
DIMENSIONS in millimeters AND MASS
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
LMAX.
WMAX.
HMAX.
ØD
BMAX.
S
L1MAX.
MASS
(g)
8 x 8 x 10
0810
8.5
8.5
10.5
8.0
1.0
2.2
10.2
 1.0
10 x 10 x 10
1010
10.5
10.5
10.5
10.0
1.0
3.5
12.1
1.3
10 x 10 x 12
1012
10.5
10.5
12.5
10.0
1.0
3.5
12.1
1.5
10 x 10 x 14
1014
10.5
10.5
14.3
10.0
1.0
3.5
12.1
1.5
12.5 x 12.5 x 13
1213
12.9
12.9
14.0
12.5
1.3
3.6
14.9
2.6
12.5 x 12.5 x 16
1216
12.9
12.9
16.5
12.5
1.3
3.6
14.9
2.8
16 x 16 x 16
1616
16.6
16.6
17.5
16.0
1.3
6.5
18.6
5.5
16 x 16 x 21
1621
16.6
16.6
22.0
16.0
1.3
6.5
18.6
6.0
18 x 18 x 16
1816
19.0
19.0
17.5
18.0
1.3
6.5
21.0
8.0
18 x 18 x 21
1821
19.0
19.0
22.0
18.0
1.3
6.5
21.0
8.3
Table 2
TAPE AND REEL DIMENSIONS in millimeters, PACKAGING QUANTITIES
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
PITCH
P1
TAPE WIDTH
W
TAPE
THICKNESS
T2
REEL DIAMETER
PACKAGING
QUANTITY
PER REEL
8 x 8 x 10
0810
16
24
11.6
380
500
10 x 10 x 10
1010
16
24
11.6
380
500
10 x 10 x 12
1012
16
24
12.8
330
250
10 x 10 x 14
1014
16
24
15.4
330
250
12.5 x 12.5 x 13
1213
20
24
16.2
380
250
12.5 x 12.5 x 16
1216
24
32
18.5
380
200
16 x 16 x 16
1616
28
44
18.9
380
150
16 x 16 x 21
1621
28
44
23.4
380
100
18 x 18 x 16
1816
32
44
18.9
380
125
18 x 18 x 21
1821
32
44
23.4
380
100
Note
• Detailed tape dimensions see section “PACKAGING”.
Revision: 19-Jan-15
Document Number: 28395
80
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MOUNTING
SOLDERING
The capacitors are designed for automatic placement on to
printed-circuit boards.
Soldering conditions are defined by the curve, temperature
versus time, where the temperature is that measured on the
component during processing.
Optimum dimensions of soldering pads depend amongst
others on soldering method, mounting accuracy, print
layout and/or adjacent components. For recommended
soldering pad dimensions, refer to Fig. 3 and Table 3.
For maximum conditions refer to Fig. 4 or Fig. 5.
Any temperature versus time curve which does not exceed
the specified maximum curves may be applied.
As a general principle, temperature and duration shall be the
minimum necessary required to ensure good soldering
connections. However, the specified maximum curves
should never be exceeded.
e
a
c
a
d
b
f
b
b
d
a
c
a
a
Case size Ø D ≤ 10 mm
c
a
Case size Ø D ≥ 16 mm
Case size Ø D = 12.5 mm
Fig. 3 - Recommended soldering pad dimensions
Table 3
RECOMMENDED SOLDERING PAD DIMENSIONS in millimeters
CASE CODE
a
b
c
d
e
f
0810
4.4
2.5
3.0
-
-
-
1010
4.4
2.5
4.0
-
-
-
1012
4.4
2.5
4.0
-
-
-
1014
4.4
2.5
4.0
-
-
-
1213
6.3
2.5
4.0
4.2
5.0
5.6
1216
6.3
2.5
4.0
4.2
5.0
5.6
1616
7.8
9.6
4.7
-
-
-
1621
7.8
9.6
4.7
-
-
-
1816
8.8
9.6
4.7
-
-
-
1821
8.8
9.6
4.7
-
-
-
Revision: 19-Jan-15
Document Number: 28395
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STANDARD SOLDERING PROFILE FOR LEAD (Pb)-FREE REFLOW PROCESS
T (°C)
TPeak
230
217
t4
t3
200
150
t2
t1
time (s)
Fig. 4 - Maximum temperature load during reflow soldering
Table 4
REFLOW SOLDERING CONDITIONS for MAL215097xxxE3
CASE CODE
0810 TO 1014
CASE CODE
1213 TO 1216
Max. time from 25 °C to Tpeak
240 s
200 s
Max. ramp-up rate to 150 °C
3 K/s
3 K/s
Max. time from 150 °C to 200 °C (t1)
150 s
120 s
0.5 K/s to 3 K/s
0.5 K/s to 3 K/s
Max. time from 200 °C to 217 °C (t2)
60 s
60 s
Max. time above TLiquidus (217 °C) (t3)
90 s
60 s
Max. time above 230 °C (t4)
40 s
30 s
250 °C
240 °C
Max. time above Tpeak minus 5 °C
5s
10 s
Max. ramp-down rate from TLiquidus
3 K/s to 6 K/s
3 K/s to 6 K/s
PROFILE FEATURES
Ramp up rate from 200 °C to Tpeak
Peak temperature Tpeak
Notes
• Temperature measuring point on top of the case and on terminals.
• Max. 2 runs with pause of min. 30 min in between.
Revision: 19-Jan-15
Document Number: 28395
82
For technical questions, contact: [email protected]
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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Vishay BCcomponents
ADVANCED SOLDERING PROFILE FOR LEAD (Pb)-FREE REFLOW PROCESS
ACCORDING TO JEDEC J-STD-020
T (°C)
TPeak
230
217
t4
t3
200
190
t2
150
t1
25
time (s)
Fig. 5 - Maximum temperature load during reflow soldering
Table 5
REFLOW SOLDERING CONDITIONS for MAL215099xxxE3
CASE CODE
1010 TO 1012
CASE CODE
1213 TO 1216
CASE CODE
1616 TO 1821
Max. time from 25 °C to TPeak
300 s
300 s
300 s
Max. ramp-up rate to 150 °C
3 K/s
3 K/s
3 K/s
Max. time from 150 °C to 200 °C (t1)
150 s
150 s
150 s
Max. time from 190 °C to 200 °C (t2)
110 s
110 s
110 s
0.5 K/s to 3 K/s
0.5 K/s to 3 K/s
0.5 K/s to 3 K/s
Max. time above TLiquidus (217 °C) (t3)
90 s
90 s
90 s
Max. time above 230 °C (t4)
70 s
65 s
60 s
260 °C
250 °C
245 °C
40 s
30 s
30 s
3 K/s to 6 K/s
3 K/s to 6 K/s
3 K/s to 6 K/s
PROFILE FEATURES
Ramp up rate from 200 °C to TPeak
Peak temperature TPeak
Max. time above TPeak minus 5 °C
Ramp-down rate from TLiquidus
Notes
• Temperature measuring point on top of the case and on terminals.
• Max. 2 runs with pause of min. 30 min in between.
Revision: 19-Jan-15
Document Number: 28395
83
For technical questions, contact: [email protected]
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
150 CRZ
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Vishay BCcomponents
ORDERING EXAMPLE
ELECTRICAL DATA
Electrolytic capacitor 150 CRZ series
SYMBOL
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
IR
Rated RMS ripple current at 100 kHz, 105 °C
IL2
Max. leakage current after 2 min at UR
tan 
Z
470 μF/35 V; ± 20 %
Nominal case size: 12.5 mm x 12.5 mm x 13 mm; taped on
reel
Ordering code: MAL215099012E3
Max. dissipation factor at 100 Hz
Max. impedance at 100 kHz
Note
• Unless otherwise specified, all electrical values in Table 6 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
Table 6
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
CR
(μF)
NOMINAL CASE SIZE
LxWxH
(mm)
IR 105 °C
100 kHz
(mA)
IL
2 min
(μA)
tan 
100 Hz
470
1000
2200
4700
6800
6800
10 000
330
470
680
1000
1000
1500
2200
3300
4700
4700
6800
220
330
470
680
680
1000
1500
2200
3300
3300
4700
150
220
330
470
470
680
1000
1500
2200
2200
3300
8 x 8 x 10
10 x 10 x 10
12.5 x 12.5 x 13
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
8 x 8 x 10
8 x 8 x 10
10 x 10 x 10
10 x 10 x 12
10 x 10 x 14
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
8 x 8 x 10
8 x 8 x 10
10 x 10 x 10
10 x 10 x 12
10 x 10 x 14
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
8 x 8 x 10
8 x 8 x 10
10 x 10 x 10
10 x 10 x 12
10 x 10 x 14
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
435
670
905
1350
1666
1400
1756
435
435
670
850
850
905
1007
1350
1666
1400
1756
435
435
670
850
850
905
1007
1350
1666
1400
1756
420
420
640
820
820
905
1007
1350
1666
1400
1756
30
63
139
296
428
428
630
33
47
68
100
100
150
220
330
470
470
680
35
53
75
109
109
160
240
352
528
528
752
38
55
83
118
118
170
250
375
550
550
825
0.24
0.24
0.26
0.28
0.30
0.32
0.34
0.20
0.20
0.20
0.20
0.20
0.22
0.22
0.24
0.26
0.26
0.28
0.16
0.16
0.16
0.16
0.16
0.18
0.18
0.20
0.22
0.22
0.26
0.14
0.14
0.14
0.14
0.14
0.16
0.16
0.16
0.18
0.18
0.20
Z
100 kHz
20 °C
()
0.250
0.130
0.077
0.050
0.035
0.050
0.035
0.250
0.250
0.130
0.100
0.100
0.077
0.060
0.050
0.035
0.050
0.035
0.250
0.250
0.130
0.100
0.100
0.077
0.060
0.050
0.035
0.050
0.035
0.280
0.280
0.140
0.110
0.110
0.077
0.060
0.050
0.035
0.050
0.035
Z
100 kHz
-40 °C
()
2.00
1.10
0.60
0.40
0.28
0.40
0.28
2.00
2.00
1.10
0.80
0.80
0.60
0.48
0.40
0.28
0.40
0.28
2.00
2.00
1.10
0.80
0.80
0.60
0.48
0.40
0.28
0.40
0.28
2.24
2.24
1.12
0.88
0.88
0.60
0.48
0.40
0.28
0.40
0.28
ORDERING
CODE (1)
MAL2150...
ORDERING
CODE (2)
MAL2150...
97311E3
97301E3
97312E3
97411E3
97412E3
97401E3
97402E3
97413E3
97414E3
97511E3
97512E3
97501E3
97502E3
97513E3
97514E3
97611E3
97612E3
97601E3
97602E3
97613E3
97614E3
-
99301E3
99312E3
99313E3
99314E3
99315E3
99316E3
99401E3
99403E3
99413E3
99414E3
99415E3
99416E3
99417E3
99418E3
99501E3
99503E3
99513E3
99514E3
99515E3
99516E3
99517E3
99518E3
99601E3
99603E3
99613E3
99614E3
99615E3
99616E3
99617E3
99618E3
Notes
(1) Standard reflow soldering profile, see Fig. 4 and Table 4
(2) Advanced reflow soldering profile, according to JEDEC J-STD-020, see Fig. 5 and Table 5
Revision: 19-Jan-15
Document Number: 28395
84
For technical questions, contact: [email protected]
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
150 CRZ
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Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
35
50
63
80
100
CR
(μF)
NOMINAL CASE SIZE
LxWxH
(mm)
IR 105 °C
100 kHz
(mA)
IL
2 min
(μA)
tan 
100 Hz
100
220
330
330
470
680
1000
1500
1500
2200
68
100
220
220
330
680
1000
1000
1500
33
47
47
68
100
100
150
220
330
470
470
680
47
100
150
220
330
470
470
680
4.7
10
22
33
47
68
100
150
220
330
330
470
8 x 8 x 10
10 x 10 x 10
10 x 10 x 12
10 x 10 x 14
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
8 x 8 x 10
10 x 10 x 10
10 x 10 x 12
10 x 10 x 14
12.5 x 12.5 x 13
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
8 x 8 x 10
8 x 8 x 10
10 x 10 x 10
10 x 10 x 10
10 x 10 x 12
10 x 10 x 14
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
10 x 10 x 10
10 x 10 x 12
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
10 x 10 x 10
10 x 10 x 10
10 x 10 x 10
10 x 10 x 10
10 x 10 x 12
12.5 x 12.5 x 13
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
405
630
790
790
905
1007
1350
1666
1400
1756
333
490
620
620
690
1035
1100
1074
1470
270
270
390
390
507
507
507
637
910
987
944
1160
240
300
670
750
1000
1400
1050
1450
210
240
240
250
270
660
660
750
1000
1400
1050
1450
35
77
116
116
165
238
350
525
525
770
34
50
110
110
165
340
500
500
750
21
30
30
43
63
63
97
141
208
296
296
428
38
80
120
176
264
376
376
544
5
10
22
33
47
68
100
150
220
330
330
470
0.12
0.12
0.12
0.12
0.14
0.14
0.14
0.14
0.14
0.16
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
Z
100 kHz
20 °C
()
0.300
0.150
0.120
0.120
0.077
0.060
0.050
0.035
0.050
0.035
0.480
0.240
0.190
0.190
0.130
0.085
0.080
0.085
0.080
0.650
0.650
0.380
0.380
0.290
0.290
0.250
0.200
0.150
0.120
0.150
0.120
0.800
0.620
0.350
0.250
0.180
0.120
0.160
0.110
0.800
0.800
0.800
0.800
0.620
0.350
0.350
0.250
0.180
0.120
0.160
0.110
Z
100 kHz
-40 °C
()
2.40
1.20
0.96
0.96
0.60
0.48
0.40
0.28
0.40
0.28
3.84
1.92
1.52
1.52
1.04
0.68
0.64
0.68
0.64
5.20
5.20
3.00
3.00
2.32
2.32
2.00
1.60
1.20
0.96
1.20
0.96
6.40
4.96
2.80
2.00
1.44
0.96
1.28
0.88
6.40
6.40
6.40
6.40
4.96
2.80
2.80
2.00
1.44
0.96
1.28
0.80
ORDERING
CODE (1)
MAL2150...
ORDERING
CODE (2)
MAL2150...
97011E3
97001E3
97002E3
97012E3
97013E3
97111E3
97101E3
97102E3
97112E3
97812E3
97811E3
97801E3
97802E3
97803E3
97821E3
97815E3
97701E3
97901E3
97902E3
97903E3
97904E3
-
99001E3
99003E3
99012E3
99013E3
99014E3
99015E3
99016E3
99017E3
99101E3
99103E3
99112E3
99114E3
99115E3
99116E3
99117E3
99801E3
99802E3
99804E3
99821E3
99815E3
99816E3
99817E3
99818E3
99819E3
99701E3
99702E3
99703E3
99704E3
99705E3
99706E3
99707E3
99708E3
99902E3
99903E3
99904E3
99905E3
99906E3
99907E3
99908E3
99909E3
99911E3
99912E3
99913E3
Notes
(1) Standard reflow soldering profile, see Fig. 4 and Table 4
(2) Advanced reflow soldering profile, according to JEDEC J-STD-020, see Fig. 5 and Table 5
Revision: 19-Jan-15
Document Number: 28395
85
For technical questions, contact: [email protected]
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
150 CRZ
www.vishay.com
Vishay BCcomponents
Table 7
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Surge voltage for short periods
IEC 60384-18, subclause 4.14
Us  1.1 x UR
Reverse voltage for short periods
IEC 60384-18, subclause 4.16
Urev  1 V
After 2 min at UR
IL2  0.01 x CR x UR
Ø D = 8 mm
Typ. 6 nH
Voltage
Current
Leakage current
Inductance
Equivalent series inductance (ESL)
Ø D = 10 mm
Typ. 8 nH
Ø D  12.5 mm
Typ. 11 nH
Calculated from tan max. and CR (see Table 6)
ESR = tan /2fCR
Resistance
Equivalent series resistance (ESR) at 100 Hz
CAPACITANCE
1.2
C/C0
1.2
C/C0
1
1.0
1.1
0.8
2
2, 3
1.0
0.6
Curve 1: 10 V
Curve 2: 63 V
Curve 3: 100 V
2
0.9
3
1
0.8
1
0.4
0.2
Curve 1: 10 V
Curve 2: 63 V, 100 V
0.0
-60
-40
-20
0
20
40
60
80
101
100
T (°C)
102
103
104
f (Hz)
105
C0 = Typical capacitance at 20 °C, 100 Hz
C0 = Capacitance at 20 °C, 100 Hz
Fig. 6 - Typical multiplier of capacitance as a function
of temperature at 100 Hz
Fig. 7 - Typical multiplier of capacitance as a function
of frequency at 20 °C
EQUIVALENT SERIES RESISTANCE (ESR)
100
10
ESR/
ESR0
ESR/
ESR0
2
10
1
1
1
Curve 1: 6.3 V to 63 V
Curve 2: 100 V
0.1
-60
-40
-20
0
20
40
60
80
100
T (°C)
ESR0 = Typical ESR at 20 °C, 100 Hz
Fig. 8 - Typical multiplier of ESR as a function
of temperature at 100 Hz
Revision: 19-Jan-15
0.1
10 1
10 2
10 3
10 4
f (Hz)
10 5
ESR0 = Typical ESR at 20 °C, 100 Hz
Fig. 9 - Typical multiplier ESR as a function
of frequency at 20 °C
Document Number: 28395
86
For technical questions, contact: [email protected]
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
150 CRZ
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Vishay BCcomponents
DISSIPATION FACTOR (tan )
IMPEDANCE (Z)
100
100
Z/Z0
tan/
tan0
2
2
10
10
1
1
1
1
Curve 1: 6.3 V to 63 V
Curve 2: 100 V
Curve 1: 6.3 V to 63 V
Curve 2: 100 V
0.1
0.1
-60
-40
-20
0
20
40
60
-60
80
100
T (°C)
tan δ0 = Typical tan δ at 20 °C, 100 Hz
-40
0
-20
20
40
60
80
100
T (°C)
Z0 = Typical impedance Z at 20 °C, 100 kHz
Fig. 10 - Typical multiplier of dissipation factor tan  as a
function of temperature at 20 °C at 100 Hz
Fig. 11 - Typical multiplier of impedance Z as a function of
temperature at 100 kHz
IMPEDANCE (Z)
1000
Z
(Ω)
100
Curve 1: 220-25-0810
Curve 2: 330-25-1010
Curve 3: 470-25-1014
Curve 4: 680-25-1213
Curve 5: 1000-25-1216
Curve 6: 1500-25-1616
Curve 7: 3300-25-1821
Z
(Ω)
10
Curve 1: 47-63-0810
Curve 2: 68-63-1010
Curve 3: 100-63-1014
Curve 4: 150-63-1213
Curve 5: 220-63-1216
Curve 6: 330-63-1616
Curve 7: 680-63-1821
100
10
1
1
2
3
4
5
6
7
0.1
1
2
3
4
5
6
7
1
0.1
0.01
0.01
101
102
103
104
f (Hz)
101
105
Fig. 12 - Typical impedance Z as a function
of frequency at 20 °C
10 2
10 3
10 4
f (Hz)
10 5
Fig. 13 - Typical impedance Z as a function
of frequency at 20 °C
10 000
Z
(Ω)
1000
100
1
2
3
4
10
Curve 1: 4,7-100-1010
Curve 2: 10-100-1010
Curve 3: 22-100-1010
Curve 4: 33-100-1010
1
0.1
101
102
103
104
f (Hz)
105
Fig. 14 - Typical impedance Z as a function
of frequency at 20 °C
Revision: 19-Jan-15
Document Number: 28395
87
For technical questions, contact: [email protected]
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
150 CRZ
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Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
Table 8
ENDURANCE TEST DURATION AND USEFUL LIFE
MAL215097...
NOMINAL
CASE SIZE
DxL
(mm)
CASE ENDURANCE USEFUL
LIFE
CODE AT 105 °C
AT 105 °C
(h)
(h)
MAL215099... UR = 16 V TO 63 V
MAL215099... UR = 80 V TO 100 V
USEFUL
LIFE
USEFUL
ENDURANCE
AT 40 °C
LIFE
AT 105 °C
1.8 x IR
AT 105 °C
(h)
(h)
APPLIED
(h)
USEFUL
USEFUL
LIFE
ENDURANCE
LIFE
AT 40 °C
AT 105 °C
AT 105 °C
1.8 x IR
(h)
(h)
APPLIED
(h)
USEFUL
LIFE
AT 40 °C
1.8 x IR
APPLIED
(h)
8 x 8 x 10
0810
2000
2500
125 000
-
-
-
-
-
-
10 x 10 x 10
1010
2000
3000
150 000
2000
3000
150 000
2000
3000
150 000
10 x 10 x 12
1012
-
-
-
2000
3000
150 000
2000
3000
150 000
10 x 10 x 14
1014
2000
3000
150 000
-
-
-
-
-
-
12.5 x 12.5 x 13 1213
3000
5000
250 000
5000
6000
300 000
3000
5000
250 000
12.5 x 12.5 x 16 1216
3000
5000
250 000
6500
7500
375 000
3000
5000
250 000
16 x 16 x 16
1616
-
-
-
8000
10 000
500 000
3000
5000
250 000
16 x 16 x 21
1621
-
-
-
8000
10 000
500 000
3000
5000
250 000
18 x 18 x 16
1816
-
-
-
8000
10 000
500 000
3000
5000
250 000
18 x 18 x 21
1821
-
-
-
8000
10 000
500 000
3000
5000
250 000
RIPPLE CURRENT AND USEFUL LIFE
CCC206
3.8
IA 3.7
IR 3.6
3.5
3.4
3.3
3.2
3.1
3.0
2.8
Lifetime multiplier
2.6
1.0
2.4
1.5
2.0
2.2
3.0
4.0
2.0
6.0
8.0 2
1
1.8
1.6
20
30
60
0
10 0
15 0
20
IA = actual ripple current at 100 kHz
IR = rated ripple current at 100 kHz, 105 °C
(1)
Useful life at 105 °C and IR applied: see Table 8
1.4
1.2
1.0
0.8
0.5
0.0
40
50
(1)
60
70
80
90
100
110
Tamb (°C)
Fig. 15 - Multiplier of useful life as a function of ambient temperature and ripple current load
Revision: 19-Jan-15
Document Number: 28395
88
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Vishay BCcomponents
Table 9
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 6.3 V TO 25 V
UR = 35 V
UR = 50 V TO 100 V
100
0.70
0.65
0.60
300
0.80
0.80
0.75
1000
0.85
0.85
0.85
3000
0.93
0.93
0.93
10 000
0.95
0.95
0.95
30 000
0.97
0.97
0.97
100 000
1.00
1.00
1.00
Table 10
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Mounting
Endurance
REFERENCE
PROCEDURE
(quick reference)
IEC 60 384-18,
subclause 4.3
Shall be performed prior to tests mentioned below;
reflow soldering;
for maximum temperature load 
refer to chapter “Mounting”
IEC 60 384-18/CECC32 300,
subclause 4.15
Tamb = 105 °C; UR applied;
for test duration see Table 8
REQUIREMENTS
C/C: ± 5 %
tan   spec. limit
IL2  spec. limit
UR = 6.3 V; C/C: ± 25 %
UR  10 V; C/C: ± 20 %
tan   2 x spec. limit
IL2  spec. limit
C/C: ± 30 %
tan   3 x spec. limit
Useful life
CECC 30 301,
subclause 1.8.1
Tamb = 105 °C; UR and IR applied;
for test duration see Table 8
IL2  spec. limit
no short or open circuit
total failure percentage:  1 %
Shelf life
(storage at high
temperature)
Revision: 19-Jan-15
IEC 60 384-18/
CECC32 300,
subclause 4.17
Tamb = 105 °C; no voltage applied;
1000 h
after test: UR to be applied for 30 min,
24 h to 48 h before measurement
For requirements 
see “Endurance test” above
Document Number: 28395
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Vishay BCcomponents
Aluminum Capacitors
SMD (Chip), High Temperature
FEATURES
• Extended useful life: Up to 6000 h at 125 °C
for MAL214099...E3 parts
• Parts for advanced high temperature reflow
soldering according to JEDEC® J-STD-020
available
• Vibration proof, 4-pin version and 6-pin version
• AEC-Q200 qualified
140 CRH
125 °C
• Polarized aluminum electrolytic capacitors, non-solid
electrolyte, self healing
146 CTI
Lower Z
• SMD-version with base plate, lead (Pb)-free reflow
solderable
Lower temp.
150 CRZ
• Charge and discharge proof, no peak current limitation
• High reliability
Fig. 1
• Material categorization: For definitions of compliance
please see www.vishay.com/doc?99912
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes
(L x W x H in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
VALUE
APPLICATIONS
• SMD technology, for high temperature reflow soldering
8 x 8 x 10
to 18 x 18 x 21
• Industrial and professional applications
10 μF to 4700 μF
• Automotive, general industrial, telecom
± 20 %
6.3 V to 63 V
• Smoothing, filtering, buffering
MARKING
Category temperature range
-55 °C to +125 °C
• Rated capacitance (in μF)
Endurance test at 125 °C
1000 h to 5000 h
• Rated voltage (in V)
Useful life at 125 °C
1500 h to 6000 h
• Date code, in accordance with IEC 60062
Useful life at 40 °C
1.8 x lR applied
150 000 h to 500 000 h
Shelf life at 0 V, 125 °C
Based on sectional specification
Climatic category IEC 60068
Revision: 01-Oct-13
1000 h
IEC 60384-18/CECC 32300
55/125/56
• Black mark or “-” sign indicating the cathode (the anode is
identified by bevelled edges)
• Code indicating group number (H)
PACKAGING
Supplied in blister tape on reel
Document Number: 28396
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SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (L x W x H in mm)
UR (V)
CR
(μF)
6.3
10
16
25
35
50
63
10






8 x 8 x 10
22






8 x 8 x 10
33






8 x 8 x 10
47





8 x 8 x 10
10 x 10 x 10
68




8 x 8 x 10
10 x 10 x 10
10 x 10 x 14
100



8 x 8 x 10
10 x 10 x 10
10 x 10 x 14
12.5 x 12.5 x 13
150


8 x 8 x 10

10 x 10 x 14
-
-
220

8 x 8 x 10

10 x 10 x 10
12.5 x 12.5 x 13
12.5 x 12.5 x 13
12.5 x 12.5 x 16
330
8 x 8 x 10
10 x 10 x 10
10 x 10 x 14
12.5 x 12.5 x 13
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
16 x 16 x 21
470
10 x 10 x 10
10 x 10 x 14
12.5 x 12.5 x 13
12.5 x 12.5 x 16
12.5 x 12.5 x 16
16 x 16 x 16
18 x 18 x 16
18 x 18 x 21
680
10 x 10 x 14
12.5 x 12.5 x 13
12.5 x 12.5 x 16

16 x 16 x 16
820




16 x 16 x 21
1000

12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 16
16 x 16 x 21
16 x 16 x 21
1200



1500

16 x 16 x 21
18 x 18 x 21
18 x 18 x 16
18 x 18 x 16
18 x 18 x 16
-
18 x 18 x 21
-
18 x 18 x 21
-


18 x 18 x 21
-
-
16 x 16 x 16
16 x 16 x 21
18 x 18 x 21
-
-
18 x 18 x 16
18 x 18 x 16
-
-
-
16 x 16 x 21
18 x 18 x 21
-
-
-

16 x 16 x 16
3300

16 x 16 x 21
18 x 18 x 16
-
-
-
-
-
4700

18 x 18 x 21
-
-
-
-
-
18 x 18 x 21
-
-
-
-
18 x 18 x 21
-
-
-
-
HMAX.
MAX. 0.3
HMAX.
MAX. 0.3
B
LMAX.
L1MAX.S
35V
1000u
3R-H
D
WMAX.
B
WMAX.
L1MAX. S
25V
2200u
L4-H
25V
220 u
A4-H
D
6-pin:
≥ Ø 16 mm
min. 0.4/max. 1.0 (2 x)
4-pin:
Ø 12.5 mm
min. 0.4/max. 1.0 (2 x)
2-pin:
≤ Ø 10 mm
min. 0.4/max. 1.0 (2 x)
2200
HMAX.
MAX. 0.3
D
WMAX.
B
LMAX.
L1MAX. S
LMAX.
Fig. 2 - Dimensional outline
Revision: 01-Oct-13
Document Number: 28396
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Table 1
DIMENSIONS in millimeters AND MASS
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
LMAX.
WMAX.
HMAX.
ØD
BMAX.
S
L1MAX.
MASS
(g)
8 x 8 x 10
0810
8.5
8.5
10.5
8.0
1.0
2.2
10.2
 1.0
10 x 10 x 10
1010
10.5
10.5
10.5
10.0
1.0
3.5
12.1
 1.3
10 x 10 x 14
1014
10.5
10.5
14.3
10.0
1.0
3.5
12.1
 1.5
12.5 x 12.5 x 13
1213
12.9
12.9
14.0
12.5
1.3
3.6
14.9
 2.6
12.5 x 12.5 x 16
1216
12.9
12.9
16.5
12.5
1.3
3.6
14.9
 2.8
16 x 16 x 16
1616
16.6
16.6
17.5
16.0
1.3
6.5
18.6
 5.5
16 x 16 x 21
1621
16.6
16.6
22.0
16.0
1.3
6.5
18.6
 6.0
18 x 18 x 16
1816
19.0
19.0
17.5
18.0
1.3
6.5
21.0
 8.0
18 x 18 x 21
1821
19.0
19.0
22.0
18.0
1.3
6.5
21.0
 8.3
Table 2
TAPE AND REEL DIMENSIONS in millimeters, PACKAGING QUANTITIES
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
PITCH
P1
TAPE WIDTH
W
TAPE
THICKNESS
T2
REEL DIAMETER
PACKAGING
QUANTITY
PER REEL
8 x8 x10
0810
16
24
11.6
380
500
10 x 10 x10
1010
16
24
11.6
380
500
10 x10 x 14
1014
16
24
15.4
330
250
12.5 x12.5 x 13
1213
20
24
16.2
380
250
12.5 x12.5 x 16
1216
24
32
18.5
380
200
16 x 16 x 16
1616
28
44
18.9
380
150
16 x 16 x 21
1621
28
44
23.4
380
100
18 x 18 x 16
1816
32
44
18.9
380
125
18 x 18 x 21
1821
32
44
23.4
380
100
Note
• For detailed tape dimensions please refer to packaging information: www.vishay.com/doc?28359
Revision: 01-Oct-13
Document Number: 28396
92
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MOUNTING
SOLDERING
The capacitors are designed for automatic placement on to
printed-circuit boards.
Soldering conditions are defined by the curve, temperature
versus time, where the temperature is that measured on the
component during processing.
Optimum dimensions of soldering pads depend amongst
others on soldering method, mounting accuracy, print
layout and/or adjacent components.
For maximum conditions refer to Fig. 4 or Fig. 5.
Any temperature versus time curve which does not exceed
the specified maximum curves may be applied.
For recommended soldering pad dimensions, refer to Fig. 3
and Table 3.
As a general principle, temperature and duration shall be the
minimum necessary required to ensure good soldering
connections. However, the specified maximum curves
should never be exceeded.
e
a
c
a
d
b
f
b
b
d
a
c
a
a
Case size Ø D ≤ 10 mm
c
a
Case size Ø D ≥ 16 mm
Case size Ø D = 12.5 mm
Fig. 3 - Recommended soldering pad dimensions
Table 3
RECOMMENDED SOLDERING PAD DIMENSIONS in millimeters
CASE CODE
a
b
c
d
e
f
0810
4.4
2.5
3.0
-
-
-
1010
4.4
2.5
4.0
-
-
-
1014
4.4
2.5
4.0
-
-
-
1213
6.3
2.5
4.0
4.2
5.0
5.6
1216
6.3
2.5
4.0
4.2
5.0
5.6
1616
7.8
9.6
4.7
-
-
-
1621
7.8
9.6
4.7
-
-
-
1816
8.8
9.6
4.7
-
-
-
1821
8.8
9.6
4.7
-
-
-
Revision: 01-Oct-13
Document Number: 28396
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STANDARD SOLDERING PROFILE FOR LEAD (Pb)-FREE REFLOW PROCESS
T (°C)
TPeak
230
217
t4
t3
200
150
t2
t1
time (s)
Fig. 4 - Maximum temperature load during reflow soldering
Table 4
REFLOW SOLDERING CONDITIONS for MAL214097xxxE3
CASE CODE
0810 TO 1014
CASE CODE
1213 TO 1216
Max. time from 25 °C to TPeak
240 s
200 s
Max. ramp-up rate to 150 °C
3 K/s
3 K/s
Max. time from 150 °C to 200 °C (t1)
150 s
120 s
0.5 K/s to 3 K/s
0.5 K/s to 3 K/s
Max. time from 200 °C to 217 °C (t2)
60 s
60 s
Max. time above TLiquidus (217 °C) (t3)
90 s
60 s
Max. time above 230 °C (t4)
40 s
30 s
250 °C
240 °C
Max. time above TPeak minus 5 °C
5s
10 s
Max. ramp-down rate from TLiquidus
3 K/s to 6 K/s
3 K/s to 6 K/s
PROFILE FEATURES
Ramp up rate from 200 °C to TPeak
Peak temperature TPeak
Notes
• Temperature measuring point on top of the case and on terminals
• Max. 2 runs with pause of min. 30 min in between
Revision: 01-Oct-13
Document Number: 28396
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ADVANCED SOLDERING PROFILE FOR LEAD (Pb)-FREE REFLOW PROCESS 
ACCORDING TO JEDEC J-STD-020
T (°C)
TPeak
230
217
t4
t3
200
190
t2
150
t1
25
time (s)
Fig. 5 - Maximum temperature load during reflow soldering
Table 5
REFLOW SOLDERING CONDITIONS for MAL214099xxxE3
CASE CODE
1010
CASE CODE
1213 TO 1216
CASE CODE
1616 TO 1821
Max. time from 25 °C to TPeak
300 s
300 s
300 s
Max. ramp-up rate to 150 °C
3 K/s
3 K/s
3 K/s
Max. time from 150 °C to 200 °C (t1)
150 s
150 s
150 s
Max. time from 190 °C to 200 °C (t2)
110 s
110 s
110 s
0.5 K/s to 3 K/s
0.5 K/s to 3 K/s
0.5 K/s to 3 K/s
Max. time above TLiquidus (217 °C) (t3)
90 s
90 s
90 s
Max. time above 230 °C (t4)
70 s
65 s
60 s
260 °C
250 °C
245 °C
40 s
30 s
30 s
3 K/s to 6 K/s
3 K/s to 6 K/s
3 K/s to 6 K/s
PROFILE FEATURES
Ramp up rate from 200 °C to TPeak
Peak temperature TPeak
Max. time above TPeak minus 5 °C
Ramp-down rate from TLiquidus
Notes
• Temperature measuring point on top of the case and on terminals
• Max. 2 runs with pause of min. 30 min in between
Revision: 01-Oct-13
Document Number: 28396
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ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Electrolytic capacitor 140 CRH series
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
IR
Rated RMS ripple current at 100 kHz, 125 °C
IL2
Max. leakage current after 2 min at UR
tan 
Max. dissipation factor at 100 Hz
Z
Max. impedance at 100 kHz
220 μF/50 V; ± 20 %
Nominal case size: 12.5 mm x 12.5 mm x 13 mm; taped on
reel
Ordering code: MAL214099111E3
Note
• Unless otherwise specified, all electrical values in Table 6 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
Table 6
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
CR
(μF)
NOMINAL
CASE SIZE
LxWxH
(mm)
IR
100 kHz
125 °C
(mA)
IL2
2 min
(μA)
tan 
100 Hz
Z
100 kHz
20 °C
()
ORDERING
CODE (1)
MAL2140...
ORDERING
CODE (2)
MAL2140...
330
470
680
220
330
470
680
1000
2200
3300
3300
4700
150
330
470
680
1000
1000
1500
1500
2200
2200
3300
100
220
330
470
1000
1000
1500
1500
2200
8 x 8 x 10
10 x 10 x 10
10 x 10 x 14
8 x 8 x 10
10 x 10 x 10
10 x 10 x 14
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
8 x 8 x 10
10 x 10 x 14
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
16 x 16 x 16
18 x 18 x 16
16 x 16 x 21
18 x 18 x 21
18 x 18 x 21
8 x 8 x 10
10 x 10 x 10
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
180
300
430
180
300
430
750
900
1000
1200
1200
1550
180
430
750
900
1100
1200
1100
1200
1200
1550
1550
180
300
750
900
1100
1200
1200
1200
1550
21
30
43
22
33
47
68
100
220
330
330
470
24
53
75
108
160
160
240
240
352
352
528
25
55
82
117
250
250
375
375
550
0.30
0.30
0.30
0.26
0.26
0.26
0.22
0.22
0.24
0.24
0.26
0.28
0.22
0.22
0.18
0.18
0.18
0.18
0.18
0.18
0.20
0.20
0.22
0.18
0.18
0.16
0.16
0.16
0.16
0.16
0.16
0.18
0.40
0.25
0.20
0.40
0.25
0.20
0.12
0.09
0.08
0.06
0.08
0.06
0.40
0.20
0.12
0.09
0.08
0.06
0.08
0.08
0.06
0.06
0.06
0.40
0.25
0.12
0.09
0.08
0.06
0.06
0.08
0.06
97303E3
97301E3
97302E3
97403E3
97401E3
97402E3
97411E3
97412E3
97502E3
97501E3
97511E3
97512E3
97602E3
97601E3
97611E3
97612E3
-
99301E3
99401E3
99411E3
99412E3
99413E3
99414E3
99415E3
99416E3
99511E3
99512E3
99513E3
99514E3
99515E3
99516E3
99517E3
99518E3
99519E3
99601E3
99611E3
99612E3
99613E3
99614E3
99615E3
99616E3
99617E3
Notes
(1) Standard reflow soldering profile, see Fig. 4 and Table 4
(2) Advanced reflow soldering profile, according to JEDEC J-STD-020, see Fig. 5 and Table 5
Revision: 01-Oct-13
Document Number: 28396
96
For technical questions, contact: [email protected]
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ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
35
50
63
CR
(μF)
NOMINAL
CASE SIZE
LxWxH
(mm)
IR
100 kHz
125 °C
(mA)
IL2
2 min
(μA)
tan 
100 Hz
Z
100 kHz
20 °C
()
ORDERING
CODE (1)
MAL2140...
ORDERING
CODE (2)
MAL2140...
68
8 x 8 x 10
180
24
0.14
0.40
97003E3
-
100
10 x 10 x 10
255
35
0.14
0.25
97001E3
99001E3
150
10 x 10 x 14
317
53
0.14
0.20
97002E3
-
220
12.5 x 12.5 x 13
750
77
0.14
0.12
97011E3
99011E3
330
12.5 x 12.5 x 13
750
115
0.14
0.12
97012E3
99012E3
470
12.5 x 12.5 x 16
900
164
0.14
0.09
97013E3
99013E3
680
16 x 16 x 16
1100
238
0.14
0.08
-
99014E3
820
16 x 16 x 21
1200
287
0.14
0.06
-
99015E3
1000
18 x 18 x 16
1200
350
0.14
0.08
-
99016E3
1200
18 x 18 x 21
1550
420
0.14
0.06
-
99017E3
1500
18 x 18 x 21
1550
525
0.14
0.06
-
99018E3
47
8 x 8 x 10
145
24
0.14
0.70
97103E3
-
68
10 x 10 x 10
205
34
0.14
0.50
97101E3
99101E3
100
10 x 10 x 14
255
50
0.14
0.40
97102E3
-
220
12.5 x 12.5 x 13
750
110
0.12
0.23
97111E3
99111E3
330
12.5 x 12.5 x 16
900
165
0.12
0.18
97112E3
99112E3
470
16 x 16 x 16
900
235
0.12
0.15
-
99113E3
680
16 x 16 x 21
1000
340
0.12
0.13
-
99114E3
680
18 x 18 x 16
1000
340
0.12
0.15
-
99115E3
820
18 x 18 x 16
1000
410
0.12
0.15
-
99116E3
820
18 x 18 x 21
1050
410
0.12
0.13
-
99117E3
1000
18 x 18 x 21
1050
500
0.12
0.13
-
99118E3
10
8 x 8 x 10
145
6.3
0.12
0.70
97805E3
-
22
8 x 8 x 10
145
14
0.12
0.70
97803E3
-
33
8 x 8 x 10
145
21
0.12
0.70
97804E3
-
47
10 x 10 x 10
205
30
0.12
0.50
97801E3
99801E3
68
10 x 10 x 14
255
43
0.12
0.40
97802E3
-
100
12.5 x 12.5 x 13
500
63
0.10
0.25
97811E3
99811E3
220
12.5 x 12.5 x 16
600
138
0.10
0.20
97812E3
99812E3
330
16 x 16 x 16
700
208
0.10
0.18
-
99813E3
330
16 x 16 x 21
750
208
0.10
0.15
-
99814E3
330
18 x 18 x 16
750
208
0.10
0.18
-
99815E3
470
16 x 16 x 21
750
296
0.10
0.15
-
99816E3
470
18 x 18 x 16
750
296
0.10
0.18
-
99817E3
470
18 x 18 x 21
900
296
0.10
0.15
-
99818E3
680
18 x 18 x 21
900
428
0.10
0.15
-
99819E3
Notes
(1) Standard reflow soldering profile, see Fig. 4 and Table 4
(2) Advanced reflow soldering profile, according to JEDEC J-STD-020, see Fig. 5 and Table 5
Revision: 01-Oct-13
Document Number: 28396
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Table 7
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Surge voltage for short periods
IEC 60384-18, subclause 4.14
Us  1.15 x UR
Reverse voltage for short periods
IEC 60384-18, subclause 4.16
Urev  1 V
After 2 min at UR
IL2  0.01 x CR x UR
Ø D = 8 mm
Typ. 6 nH
Ø D = 10 mm
Typ. 8 nH
Ø D  12.5 mm
Typ. 11 nH
Voltage
Current
Leakage current
Inductance
Equivalent series inductance (ESL)
Resistance
ESR = tan /2fCR
Equivalent series resistance (ESR) at 100 Hz Calculated from tan max. and CR (see Table 6)
DISSIPATION FACTOR (tan )
CAPACITANCE (C)
1.2
10
C
C0
1
1.1
tan
tan0
2
1
1.0
0.9
2
1
Curve 1: 10 V
Curve 2: 63 V
0.1
0.8
- 60
- 40
- 20
0
20
C0 = Capacitance at 20 °C, 100 Hz
40
60
80
100 120
Tamb (°C)
Fig. 6 - Typical multiplier of capacitance as a function
of ambient temperature
Revision: 01-Oct-13
- 60
- 40
- 20
0
20
40
tan δ0 = Typical tan δ at 20 °C, 100 Hz
60
80
100
120 140
Tamb (°C)
Fig. 7 - Typical multiplier of dissipation factor (tan )
as a function of ambient temperature
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EQUIVALENT SERIES RESISTANCE (ESR)
10
ESR
ESR0
1
0.1
10
10
2
10
3
10
ESR0 = Typical ESR at 20 °C, 100 Hz
4
5
f (Hz) 10
Tamb = 20 °C
Fig. 8 - Typical multiplier of ESR as a function of frequency
IMPEDANCE (Z)
10 2
10 2
Curve 1: 100-25-0810
Curve 2: 220-25-1010
Curve 3: 330-25-1213
Curve 4: 470-25-1216
Curve 5: 1000-25-1616
Curve 6: 2200-25-1821
Z
(Ω)
100
Curve
Curve
Curve
Curve
Curve
Curve
Curve
Z
(Ω)
100
1:
2:
3:
4:
5:
6:
7:
22-63-0810
47-63-1010
68-63-1014
100-63-1213
220-63-1216
330-63-1616
680-63-1821
10
10
1
2
3
4
5
6
1
0.1
1
2
3
4
5
6
7
1
0.1
0.01
0.01
10
10
2
10
3
10
4
f (Hz)
10
5
10
10
2
Tamb = 20 °C
Fig. 9 - Typical impedance as a function of frequency
10
3
10
4
5
f (Hz) 10
Tamb = 20 °C
Fig. 10 - Typical impedance as a function of frequency
RIPPLE CURRENT AND USEFUL LIFE
Table 8
ENDURANCE TEST DURATION AND USEFUL LIFE
NOMINAL
CASE SIZE
DxL
(mm)
CASE
CODE
ENDURANCE
AT 125 °C
(h)
8 x 8 x 10
10 x 10 x 10
10 x 10 x 14
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
0810
1010
1014
1213
1216
1616
1621
1816
1821
1000
1000
1000
2000
2000
-
Revision: 01-Oct-13
MAL214097...
USEFUL LIFE
USEFUL LIFE
ENDURANCE
AT 40 °C
AT 125 °C
AT 125 °C
1.8 x IR APPLIED
(h)
(h)
(h)
1500
150 000
1500
150 000
1000
1500
150 000
3000
300 000
3000
3000
300 000
4000
5000
5000
5000
5000
MAL214099...
USEFUL LIFE
USEFUL LIFE
AT 40 °C
AT 125 °C
1.8 x IR APPLIED
(h)
(h)
1500
150 000
3500
350 000
5000
400 000
6000
500 000
6000
500 000
6000
500 000
6000
500 000
Document Number: 28396
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RIPPLE CURRENT AND USEFUL LIFE
MBC242
IA 4.3
IR
4.2
4.1
4.0
3.9
3.8
3.7
3.6
3.5
3.4
3.3
3.2
3.1
3.0
Lifetime multiplier
2.8
0
1.
5
1.
2.6
0
2.
0
3.
2.4
0
4.
0
6.
0
8.
2.2
2.0
12
20
1.8
30
1.6
60
1.4
1.2
1.0
0.8
0.5
0.0
0
10
IA = Actual ripple current at 100 kHz
IR = Rated ripple current at 100 kHz, 125 °C
(1)
Useful life at 125 °C and IR applied;
see Table 8
0
20
(1)
0
40
40
50
60
70
80
90
100
110
120
130 Tamb (°C)
Fig. 11 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 9
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 6.3 V TO 25 V
UR = 35 V AND 50 V
UR = 63 V
50
0.60
0.45
0.40
100
0.70
0.60
0.55
300
0.80
0.75
0.70
1000
0.85
0.85
0.85
3000
0.90
0.90
0.90
10 000
0.95
0.95
0.95
30 000
0.97
0.97
0.97
100 000
1.00
1.00
1.00
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Table 10
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
REQUIREMENTS
Mounting
IEC 60384-18,
subclause 4.3
Shall be performed prior to tests mentioned below;
reflow soldering;
for maximum temperature load refer to chapter “Mounting”
C/C: ± 5 %
tan   spec. limit
IL2  spec. limit
Endurance
IEC 60384-18/
CECC 32300,
subclause 4.15
Tamb = 125 °C; UR applied;
for test duration see Table 8
UR = 6.3 V; C/C: ± 25 %
UR  10 V; C/C: ± 20 %
tan   2 x spec. limit
IL2  spec. limit
Useful life
CECC 30301,
subclause 1.8.1
Tamb = 125 °C; UR and IR applied;
for test duration see Table 8
C/C: ± 30 %
tan   3 x spec. limit
IL2  spec. limit
no short or open circuit
total failure percentage: 1 %
Shelf life
(storage at high
temperature)
IEC 60384-18/
CECC 32300,
subclause 4.17
Tamb = 125 °C; no voltage applied;
1000 h
after test: UR to be applied for 30 min,
24 h to 48 h before measurement
For requirements
see “Endurance test” above
Reverse voltage
IEC 60384-18/
CECC 32300,
subclause 4.16
Tamb = 125 °C:
125 h at U = -0.5 V,
followed by 125 h at UR
C/C: ± 15 %
tan   1.5 x spec. limit
IL2  spec. limit
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Aluminum Capacitors
SMD (Chip), High Temperature, Low Impedance
FEATURES
• Extended useful life: up to 6000 h at 125 °C
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte, self healing
• SMD-version with base plate, lead (Pb)-free
reflow solderable
• Charge and discharge proof, no peak current limitation
140 CRH
125 °C
lower Z
higher IR
146 CTI
125 °C
• Advanced temperature reflow soldering according to
JEDEC® J-STD-020
• Vibration proof, 4-pin version and 6-pin version
lower Z
• AEC-Q200 qualified
• High reliability
150 CRZ
105 °C
• Low ESR
Fig. 1
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes 
(L x W x H in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
VALUE
APPLICATIONS
• SMD technology, for high temperature reflow soldering
8 x 8 x 10
to 18 x 18 x 21
• Industrial and professional applications
10 μF to 4700 μF
• Automotive, general industrial, telecom
± 20 %
• Smoothing, filtering, buffering
16 V to 100 V
Category temperature range
-55 °C to +125 °C
Endurance test at 125 °C
1000 h to 5000 h
Useful life at 125 °C
1500 h to 6000 h
Useful life at 40 °C
1.8 x lR applied
150 000 h to 400 000 h
MARKING
• Rated capacitance (in μF)
Shelf life at 0 V, 125 °C
Based on sectional
specification
Climatic category IEC 60068
Revision: 11-Nov-14
1000 h
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Black mark or “-” sign indicating the cathode (the anode is
identified by bevelled edges)
• Code indicating group number (T)
IEC 60384-18 / CECC 32300
PACKAGING
55/125/56
Supplied in blister tape on reel
Document Number: 28403
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SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (L x W x H in mm)
UR (V)
CR
(μF)
16
25
35
50
63
80
100
10





10 x 10 x 10
10 x 10 x 10
22




10 x 10 x 10
10 x 10 x 10
10 x 10 x 10
33


8 x 8 x 10

10 x 10 x 10
10 x 10 x 10
10 x 10 x 12
47


10 x 10 x 10
10 x 10 x 10
10 x 10 x 10
10 x 10 x 12
10 x 10 x 12
68



10 x 10 x 10
10 x 10 x 10
10 x 10 x 12
12.5 x 12.5 x 13
10 x 10 x 10
10 x 10 x 12
10 x 10 x 12
12.5 x 12.5 x 13
10 x 10 x 12
12.5 x 12.5 x 13 12.5 x 12.5 x 16
100

8 x 8 x 10
10 x 10 x 10
150


10 x 10 x 10
220
8 x 8 x 10
10 x 10 x 10
330
10 x 10 x 10
10 x 10 x 12
470
10 x 10 x 12
680
10 x 10 x 12
12.5 x 12.5 x 13 12.5 x 12.5 x 16
12.5 x 12.5 x 13 12.5 x 12.5 x 16
12.5 x 12.5 x 13 12.5 x 12.5 x 16
12.5 x 12.5 x 13 12.5 x 12.5 x 16
16 x 16 x 16
12.5 x 12.5 x 13 12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
16 x 16 x 16
18 x 18 x 16
16 x 16 x 21
18 x 18 x 21
18 x 18 x 16
16 x 16 x 16
16 x 16 x 16
18 x 18 x 21
16 x 16 x 16
16 x 16 x 16
18 x 18 x 16
-
-

16 x 16 x 21
-
-
-
-
820



1000
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 16
1200


18 x 18 x 16
1500
16 x 16 x 16
16 x 16 x 16
16 x 16 x 21
-
-
-
-
1800


18 x 18 x 21
-
-
-
-
2200
16 x 16 x 16
16 x 16 x 21
-
-
-
-
-
18 x 18 x 16
-
-
-
-
-
2700

18 x 18 x 21
-
-
-
-
-
16 x 16 x 21
-
-
-
-
-
-
18 x 18 x 16
-
-
-
-
-
-
3900
18 x 18 x 21
-
-
-
-
-
-
4700
18 x 18 x 21
-
-
-
-
-
-
HMAX.
MAX. 0.3
WMAX.
-
LMAX.
L1MAX.
S
-
-
-
-
6-pin:
≥ Ø 16 mm
HMAX.
MAX. 0.3
D
WMAX.
B
B
L1MAX. S
18 x 18 x 21
35V
1000u
3R-H
25V
2200u
L4-H
25V
220 u
A4-H
D
18 x 18 x 21
min. 0.4/max. 1.0 (2 x)
4-pin:
Ø 12.5 mm
18 x 18 x 16
min. 0.4/max. 1.0 (2 x)
2-pin:
≤ Ø 10 mm
min. 0.4/max. 1.0 (2 x)
3300
16 x 16 x 21
HMAX.
MAX. 0.3
D
WMAX.
B
LMAX.
L1MAX.
S
LMAX.
Fig. 2 - Dimensional outline
Revision: 11-Nov-14
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Table 1
DIMENSIONS in millimeters AND MASS
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
LMAX.
WMAX.
HMAX.
ØD
BMAX.
S
L1MAX.
MASS
(g)
8 x 8 x 10
0810
8.5
8.5
10.5
8.0
1.0
2.2
10.2
 1.0
10 x 10 x 10
1010
10.5
10.5
10.5
10.0
1.0
3.5
12.1
 1.3
10 x 10 x 12
1012
10.5
10.5
12.5
10.0
1.0
3.5
12.1
 1.5
12.5 x 12.5 x 13
1213
12.9
12.9
14.0
12.5
1.3
3.6
14.9
 2.6
12.5 x 12.5 x 16
1216
12.9
12.9
16.5
12.5
1.3
3.6
14.9
 2.8
16 x 16 x 16
1616
16.6
16.6
17.5
16.0
1.3
6.5
18.6
 5.5
16 x 16 x 21
1621
16.6
16.6
22.0
16.0
1.3
6.5
18.6
 6.0
18 x 18 x 16
1816
19.0
19.0
17.5
18.0
1.3
6.5
21.0
 8.0
18 x 18 x 21
1821
19.0
19.0
22.0
18.0
1.3
6.5
21.0
 8.3
Table 2
TAPE AND REEL DIMENSIONS in millimeters, PACKAGING QUANTITIES
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
PITCH
P1
TAPE WIDTH
W
TAPE
THICKNESS
T2
REEL DIAMETER
PACKAGING
QUANTITY
PER REEL
8 x 8 x 10
0810
16
24
11.6
380
500
10 x 10 x 10
1010
16
24
11.6
380
500
10 x 10 x 12
1012
16
24
12.8
330
250
12.5 x 12.5 x 13
1213
20
24
16.2
380
250
12.5 x 12.5 x 16
1216
24
32
18.5
380
200
16 x 16 x 16
1616
28
44
18.9
380
150
16 x 16 x 21
1621
28
44
23.4
380
100
18 x 18 x 16
1816
32
44
18.9
380
125
18 x 18 x 21
1821
32
44
23.4
380
100
Note
• Detailed tape dimensions see section “PACKAGING”
Revision: 11-Nov-14
Document Number: 28403
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MOUNTING
SOLDERING
The capacitors are designed for automatic placement on to
printed-circuit boards.
Soldering conditions are defined by the curve, temperature
versus time, where the temperature is that measured on the
component during processing.
Optimum dimensions of soldering pads depend amongst
others on soldering method, mounting accuracy, print
layout and / or adjacent components.
For maximum conditions refer to Fig. 4.
Any temperature versus time curve which does not exceed
the specified maximum curves may be applied.
For recommended soldering pad dimensions, refer to Fig. 3
and Table 3.
As a general principle, temperature and duration shall be the
minimum necessary required to ensure good soldering
connections. However, the specified maximum curves
should never be exceeded.
e
a
c
a
d
b
f
b
b
d
a
c
a
a
Case size Ø D ≤ 10 mm
c
a
Case size Ø D ≥ 16 mm
Case size Ø D = 12.5 mm
Fig. 3 - Recommended soldering pad dimensions
Table 3
RECOMMENDED SOLDERING PAD DIMENSIONS in millimeters
CASE CODE
a
b
c
d
e
f
0810
4.4
2.5
3.0
-
-
-
1010
4.4
2.5
4.0
-
-
-
1012
4.4
2.5
4.0
-
-
-
1213
6.3
2.5
4.0
4.2
5.0
5.6
1216
6.3
2.5
4.0
4.2
5.0
5.6
1616
7.8
9.6
4.7
-
-
-
1621
7.8
9.6
4.7
-
-
-
1816
8.8
9.6
4.7
-
-
-
1821
8.8
9.6
4.7
-
-
-
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ADVANCED SOLDERING PROFILE FOR LEAD (Pb)-FREE REFLOW PROCESS 
ACCORDING TO JEDEC J-STD-020
T (°C)
TPeak
230
217
t4
t3
200
190
t2
150
t1
25
time (s)
Fig. 4 - Maximum temperature load during reflow soldering
Table 4
REFLOW SOLDERING CONDITIONS for MAL214699xxxE3
CASE CODE
0810 TO 1012
CASE CODE
1213 TO 1216
CASE CODE
1616 TO 1821
Max. time from 25 °C to TPeak
300 s
300 s
300 s
Max. ramp-up rate to 150 °C
3 K/s
3 K/s
3 K/s
Max. time from 150 °C to 200 °C (t1)
150 s
150 s
150 s
Max. time from 190 °C to 200 °C (t2)
110 s
110 s
110 s
0.5 K/s to 3 K/s
0.5 K/s to 3 K/s
0.5 K/s to 3 K/s
Max. time above TLiquidus (217 °C) (t3)
90 s
90 s
90 s
Max. time above 230 °C (t4)
70 s
65 s
60 s
260 °C
250 °C
245 °C
40 s
30 s
30 s
3 K/s to 6 K/s
3 K/s to 6 K/s
3 K/s to 6 K/s
PROFILE FEATURES
Ramp up rate from 200 °C to TPeak
Peak temperature TPeak
Max. time above TPeak minus 5 °C
Ramp-down rate from TLiquidus
Notes
• Temperature measuring point on top of the case and on terminals.
• Max. 2 runs with pause of min. 30 min in between.
Revision: 11-Nov-14
Document Number: 28403
106
For technical questions, contact: [email protected]
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
146 CTI
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Vishay BCcomponents
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Electrolytic capacitor 146 CTI series
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
IR
Rated RMS ripple current at 100 kHz, 125 °C
IL2
Max. leakage current after 2 min at UR
tan 
Max. dissipation factor at 100 Hz
Z
Max. impedance at 100 kHz
220 μF / 50 V; ± 20 %
Nominal case size: 12.5 mm x 12.5 mm x 13 mm; taped on
reel
Ordering code: MAL214699106E3
Note
• Unless otherwise specified, all electrical values in Table 5 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
Table 5
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
16
25
35
50
CR
(μF)
220
330
470
680
1000
1500
2200
3300
3300
3900
4700
100
220
330
470
680
1000
1500
2200
2200
2700
33
47
100
150
220
330
470
680
1000
1200
1500
1800
47
68
100
100
150
220
330
470
680
1000
1000
1200
Revision: 11-Nov-14
NOMINAL
CASE SIZE
LxWxH
(mm)
8 x 8 x 10
10 x 10 x 10
10 x 10 x 12
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
18 x 18 x 21
8 x 8 x 10
10 x 10 x 10
10 x 10 x 12
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
8 x 8 x 10
10 x 10 x 10
10 x 10 x 10
10 x 10 x 10
10 x 10 x 12
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 16
18 x 18 x 16
16 x 16 x 21
18 x 18 x 21
10 x 10 x 10
10 x 10 x 10
10 x 10 x 10
10 x 10 x 12
10 x 10 x 12
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
IR
125 °C
100 kHz
(mA)
650
750
900
1100
1300
1400
1400
1660
1500
1750
1750
650
750
900
1100
1300
1400
1400
1660
1500
1750
650
750
750
750
900
1100
1300
1400
1400
1500
1660
1750
600
600
600
700
700
900
1100
1300
1300
1500
1300
1600
IL2
2 min
(μA)
tan 
100 Hz
35
53
75
109
160
240
352
528
528
624
752
25
55
83
118
170
250
375
550
550
675
12
17
35
53
77
116
165
238
350
420
525
630
24
34
50
50
75
110
165
235
340
500
500
600
0.16
0.16
0.16
0.16
0.16
0.16
0.18
0.20
0.20
0.20
0.22
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.16
0.16
0.16
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
Z
100 kHz
20 °C
()
0.300
0.150
0.097
0.075
0.058
0.050
0.050
0.035
0.050
0.035
0.035
0.300
0.150
0.097
0.075
0.058
0.050
0.050
0.035
0.050
0.035
0.300
0.150
0.150
0.150
0.097
0.075
0.058
0.050
0.050
0.050
0.035
0.035
0.240
0.240
0.240
0.170
0.170
0.120
0.085
0.072
0.072
0.052
0.070
0.049
Z
100 kHz
-40 °C
()
2.40
1.35
0.87
0.68
0.52
0.45
0.45
0.32
0.45
0.32
0.32
2.40
1.35
0.87
0.68
0.52
0.45
0.45
0.32
0.45
0.32
2.40
1.35
1.35
1.35
0.87
0.68
0.52
0.45
0.45
0.45
0.32
0.32
2.16
2.16
2.16
1.53
1.53
1.08
0.76
0.65
0.65
0.47
0.63
0.44
ORDERING
CODE
MAL2146...
99512E3
99501E3
99502E3
99503E3
99504E3
99505E3
99506E3
99507E3
99508E3
99509E3
99511E3
99611E3
99601E3
99602E3
99603E3
99604E3
99605E3
99606E3
99607E3
99608E3
99609E3
99013E3
99001E3
99002E3
99003E3
99004E3
99005E3
99006E3
99007E3
99008E3
99009E3
99011E3
99012E3
99101E3
99102E3
99103E3
99104E3
99105E3
99106E3
99107E3
99108E3
99109E3
99111E3
99112E3
99113E3
Document Number: 28403
107
For technical questions, contact: [email protected]
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146 CTI
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Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
63
80
100
CR
(μF)
NOMINAL
CASE SIZE
LxWxH
(mm)
IR
125 °C
100 kHz
(mA)
IL2
2 min
(μA)
tan 
100 Hz
Z
100 kHz
20 °C
()
Z
100 kHz
-40 °C
()
ORDERING
CODE
MAL2146...
22
33
47
68
100
100
150
220
330
470
680
820
1000
10
22
33
47
68
100
150
220
330
330
470
10
22
33
47
68
100
150
220
220
330
10 x 10 x 10
10 x 10 x 10
10 x 10 x 10
10 x 10 x 10
10 x 10 x 12
12.5 x 12.5 x 13
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 16
18 x 18 x 16
16 x 16 x 21
18 x 18 x 21
10 x 10 x 10
10 x 10 x 10
10 x 10 x 10
10 x 10 x 12
10 x 10 x 12
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
10 x 10 x 10
10 x 10 x 10
10 x 10 x 12
10 x 10 x 12
12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
16 x 16 x 21
18 x 18 x 16
18 x 18 x 21
400
470
470
470
550
650
650
800
1050
1050
1150
1300
1400
240
240
240
270
270
580
630
900
1100
900
1100
200
200
230
230
390
420
650
810
650
810
14
21
30
43
63
63
95
139
208
296
428
517
630
8
18
26
38
54
80
120
176
264
264
376
10
22
33
47
68
100
150
220
220
330
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.430
0.380
0.380
0.380
0.290
0.210
0.210
0.160
0.100
0.100
0.095
0.075
0.072
0.800
0.800
0.800
0.620
0.620
0.350
0.250
0.180
0.120
0.160
0.110
1.200
1.200
0.930
0.930
0.650
0.500
0.300
0.230
0.300
0.230
3.90
3.40
3.40
3.40
2.61
1.89
1.89
1.44
0.90
0.90
0.86
0.68
0.65
6.40
6.40
6.40
4.96
4.96
2.80
2.00
1.44
0.96
1.28
0.88
9.50
9.50
7.40
7.40
5.20
4.00
2.40
1.80
2.40
1.80
99801E3
99802E3
99803E3
99804E3
99805E3
99806E3
99807E3
99808E3
99809E3
99811E3
99812E3
99813E3
99814E3
99701E3
99702E3
99703E3
99704E3
99705E3
99706E3
99707E3
99708E3
99709E3
99711E3
99712E3
99901E3
99902E3
99903E3
99904E3
99905E3
99906E3
99907E3
99908E3
99909E3
99911E3
Table 6
ADDITIONAL ELECTRICAL DATA
PARAMETER
Voltage
Surge voltage for short periods
Reverse voltage for short periods
Current
Leakage current
Inductance
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR) at 100 Hz
Revision: 11-Nov-14
CONDITIONS
VALUE
IEC 60384-18, subclause 4.14
IEC 60384-18, subclause 4.16; TA  105 °C
Us  1.15 x UR
Urev  1 V
After 2 min at UR
IL2  0.01 x CR x UR
Ø D = 8 mm
Ø D = 10 mm
Ø D  12.5 mm
Typ. 6 nH
Typ. 8 nH
Typ. 11 nH
Calculated from tan max. and CR (see Table 5)
ESR = tan /2fCR
Document Number: 28403
108
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Vishay BCcomponents
DISSIPATION FACTOR (tan )
CAPACITANCE (C)
10
1.2
C
C0
1
1.1
tan
tan0
2
1
1.0
0.9
2
1
0.8
- 60
Curve 1: 16 V
Curve 2: 63 V
- 40
- 20
0
20
40
60
80
C0 = Capacitance at 20 °C, 100 Hz
100 120
Tamb (°C)
0.1
- 60
- 40
- 20
20
0
40
60
tan δ0 = Typical tan δ at 20 °C, 100 Hz
80
100
120 140
Tamb (°C)
Fig. 6 - Typical multiplier of dissipation factor (tan )
as a function of ambient temperature
Fig. 5 - Typical multiplier of capacitance as a function
of ambient temperature
EQUIVALENT SERIES RESISTANCE (ESR)
10
ESR
ESR0
1
0.1
2
3
10
10
10
ESR0 = typical ESR at 20 °C, 100 Hz
10
4
5
f (Hz) 10
Tamb = 20 °C
Fig. 7 - Typical multiplier of ESR as a function of frequency
IMPEDANCE (Z)
100
1000
Curve 1: 220-25-1010
Curve 2: 330-25-1012
Curve 3: 470-25-1213
Curve 4: 680-25-1216
Curve 5: 1500-25-1616
Curve 6: 2700-25-1821
Z
(Ω)
10
Z
(Ω)
100
Curve 1: 68-63-1010
Curve 2: 100-63-1012
Curve 3: 150-63-1213
Curve 4: 220-63-1216
Curve 5: 470-63-1616
Curve 6: 1000-63-1821
10
1
1
2
3
4
5
6
0.1
1
2
3
4
5
6
1
0.1
0.01
0.01
10
100
1000
10 000
100 000
f (Hz)
Fig. 8 - Typical impedance as a function of frequency
Revision: 11-Nov-14
10
100
1000
10 000
100 000
f (Hz)
Fig. 9 - Typical impedance as a function of frequency
Document Number: 28403
109
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IMPEDANCE (Z)
10 000
Z
(Ω)
Curve 1: 10-100-1010
Curve 2: 47-100-1012
Curve 3: 68-100-1213
Curve 4 : 100-100-1216
Curve 5 : 150-100-1616
Curve 6 : 220-100-1621
Curve 7 : 330-100-1821
1000
100
1
10
2
3
4
5
6
7
1
0.1
10
100
1000
10 000
100 000
f (Hz)
Fig. 10 - Typical impedance as a function of frequency
RIPPLE CURRENT AND USEFUL LIFE
Table 7
ENDURANCE TEST DURATION AND USEFUL LIFE AS A FUNCTION OF CASE SIZE
NOMINAL
CASE SIZE
ØDxL
(mm)
CASE
CODE
UR = 16 V TO 63 V
8 x 8 x 10
UR = 80 V TO 100 V
UR = 16 V TO 63 V
ENDURANCE
AT 125 °C (h)
USEFUL LIFE
AT 125 °C (h)
ENDURANCE
AT 125 °C (h)
USEFUL LIFE
AT 125 °C (h)
USEFUL LIFE AT 40 °C
1.8 x IR APPLIED (h)
0810
1000
1500
-
-
150 000
10 x 10 x 10
1010
1000
1500
1500
2000
150 000
10 x 10 x 12
1012
1500
2000
1500
2000
200 000
12.5 x 12.5 x 13
1213
2500
3000
2000
2500
300 000
12.5 x 12.5 x 16
1216
3000
4000
2000
2500
325 000
16 x 16 x 16
1616
4000
5000
2000
2500
350 000
16 x 16 x 21
1621
5000
6000
2000
2500
400 000
18 x 18 x 16
1816
4000
5000
2000
2500
350 000
18 x 18 x 21
1821
5000
6000
2000
2500
400 000
Revision: 11-Nov-14
Document Number: 28403
110
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
146 CTI
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Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
MBC242
I A 4.3
IR
4.2
4.1
4.0
3.9
3.8
3.7
3.6
3.5
3.4
3.3
3.2
3.1
3.0
Lifetime multiplier
2.8
0
1.
5
1.
2.6
0
2.
0
3.
2.4
0
4.
0
8.
2.0
12
20
1.8
30
1.6
60
IA = Actual ripple current at 100 kHz
IR = Rated ripple current at 100 kHz, 125 °C
(1)
Useful life at 125 °C and IR applied;
see Table 7
0
6.
2.2
0
10
1.4
1.2
1.0
0.8
0.5
0.0
0
20
(1)
0
40
40
50
60
70
80
90
100
110
120
130 Tamb (°C)
Fig. 11 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 8
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
IR MULTIPLIER
UR = 16 V to 25 V
UR = 35 V
UR = 50 V TO 100 V
50
0.60
0.45
0.40
100
0.70
0.65
0.60
300
0.80
0.80
0.75
1000
0.85
0.85
0.82
3000
0.90
0.90
0.90
10 000
0.95
0.95
0.95
30 000
0.97
0.97
0.97
100 000
1.00
1.00
1.00


Revision: 11-Nov-14
Document Number: 28403
111
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Table 9
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
REQUIREMENTS
Mounting
IEC 60384-18,
subclause 4.3
Shall be performed prior to tests mentioned below;
reflow soldering;
for maximum temperature load
refer to chapter “Mounting”
C/C: ± 5 %
tan   spec. limit
IL2  spec. limit
Endurance
IEC 60384-18 /
CECC 32300,
subclause 4.15
Tamb = 125 °C; UR applied;
for test duration see Table 7
UR  16 V; C/C: ± 20 %
tan   2 x spec. limit
IL2  spec. limit
Useful life
CECC 30301,
subclause 1.8.1
Tamb = 125 °C; UR and IR applied;
for test duration see Table 7
C/C: ± 30 %
tan   3 x spec. limit
IL2  spec. limit
no short or open circuit
total failure percentage: 1 %
Shelf life
(storage at high
temperature)
IEC 60384-18 /
CECC 32300,
subclause 4.17
Tamb = 125 °C; no voltage applied;
1000 h
after test: UR to be applied for 30 min,
24 h to 48 h before measurement
For requirements
see “Endurance test” above
Reverse voltage
IEC 60384-18 /
CECC 32300,
subclause 4.16
Tamb = 125 °C:
125 h at U = -0.5 V,
followed by 125 h at UR
C/C: ± 15 %
tan   1.5 x spec. limit
IL2  spec. limit
Revision: 11-Nov-14
Document Number: 28403
112
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160 CLA
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Vishay BCcomponents
Aluminum Capacitors
SMD (Chip), High Temperature, Low Impedance
FEATURES
• Useful life: Up to 2000 h at 150 °C
• High reliability
• Low ESR
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte, self healing
• SMD-version with base plate, lead (Pb)-free reflow
solderable
160 CLA
150 °C
Higher temperature
140 CRH
125 °C
Lower Z
Higher IR
146 CTI
125 °C
Lower Z
• Charge and discharge proof, no peak current limitation
• High temperature reflow soldering according to JEDEC®
J-STD-020
• High temperature proof
• Vibration proof, 4-pin version and 6-pin version
• AEC-Q200 qualified
• Material categorization: For definitions of compliance
please see www.vishay.com/doc?99912
150 CRZ
105 °C
Fig. 1
APPLICATIONS
• SMD technology, for high temperature reflow soldering
QUICK REFERENCE DATA
DESCRIPTION
VALUE
Nominal case sizes 
(L x W x H in mm)
12.5 x 12.5 x 13
to 18 x 18 x 21
Rated capacitance range, CR
47 μF to 3300 μF
Tolerance on CR
Rated voltage range, UR
± 20 %
16 V to 63 V
Category temperature range
-55 °C to +150 °C
Endurance test at 150 °C
1000 h to 1500 h
Useful life at 150 °C
1000 h to 2000 h
Useful life at 40 °C
1.8 x lR applied
300 000 h to 400 000 h
Shelf life at 0 V, 150 °C
Based on sectional
specification
Climatic category IEC 60068
Revision: 24-Feb-14
1000 h
IEC 60384-18/CECC 32300
55/150/56
• High temperature environment, high peak load
• Automotive, industrial
• Smoothing, filtering, buffering
MARKING
• Rated capacitance (in μF)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Black mark or “-” sign indicating the cathode (the anode is
identified by bevelled edges)
• Code indicating group number (A)
PACKAGING
Supplied in blister tape on reel
Document Number: 28405
113
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Vishay BCcomponents
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (L x W x H in mm)
UR (V)
CR
(μF)
16
25
35
50
63
47
-
-
-
-
12.5 x 12.5 x 13
68
-
-
-
-
12.5 x 12.5 x 13
100



12.5 x 12.5 x 13
12.5 x 12.5 x 13
150



12.5 x 12.5 x 13
12.5 x 12.5 x 16
220


12.5 x 12.5 x 13
12.5 x 12.5 x 16
16 x 16 x 16
330

12.5 x 12.5 x 13
12.5 x 12.5 x 13
16 x 16 x 16
18 x 18 x 16
470
12.5 x 12.5 x 13
12.5 x 12.5 x 13
16 x 16 x 16
18 x 18 x 16
16 x 16 x 21
18 x 18 x 21
680
12.5 x 12.5 x 13
16 x 16 x 16
18 x 18 x 16
16 x 16 x 21
1000
16 x 16 x 16
18 x 18 x 16
16 x 16 x 21
18 x 18 x 21
-
1500
18 x 18 x 16
16 x 16 x 21
18 x 18 x 21
-
-
2200
16 x 16 x 21
18 x 18 x 21
-
-
-
2700
18 x 18 x 21
-
-
-
-
3300
18 x 18 x 21
-
-
-
-
6-pin:
≥ Ø 16 mm
D
WMAX.
B
L1MAX.
D
WMAX.
B
LMAX.
S
HMAX.
MAX. 0.3
min. 0.4/max. 1.0 (2 x)
HMAX.
MAX. 0.3
35V
1000u
3R-H
25V
2200u
L4-H
min. 0.4/max. 1.0 (2 x)
4-pin:
Ø 12.5 mm
L1MAX. S
LMAX.
Fig. 2 - Dimensional outline
Table 1
DIMENSIONS in millimeters AND MASS
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
LMAX.
WMAX.
HMAX.
ØD
BMAX.
S
L1MAX.
MASS
(g)
 2.9
12.5 x 12.5 x 13
1213
12.9
12.9
14.0
12.5
1.3
3.6
14.9
12.5 x 12.5 x 16
1216
12.9
12.9
16.5
12.5
1.3
3.6
14.9
 3.2
16 x 16 x 16
1616
16.6
16.6
17.5
16.0
1.3
6.5
18.6
 5.8
16 x 16 x 21
1621
16.6
16.6
22.0
16.0
1.3
6.5
18.6
 7.1
18 x 18 x 16
1816
19.0
19.0
17.5
18.0
1.3
6.5
21.0
 8.0
18 x 18 x 21
1821
19.0
19.0
22.0
18.0
1.3
6.5
21.0
 9.3
Revision: 24-Feb-14
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Table 2
TAPE AND REEL DIMENSIONS in millimeters, PACKAGING QUANTITIES
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
PITCH
P1
TAPE WIDTH
W
TAPE
THICKNESS
T2
REEL DIAMETER
PACKAGING
QUANTITY
PER REEL
12.5 x 12.5 x 13
1213
20
24
16.2
380
250
12.5 x 12.5 x 16
1216
24
32
18.5
380
200
16 x 16 x 16
1616
28
44
18.9
380
150
16 x 16 x 21
1621
28
44
23.4
380
100
18 x 18 x 16
1816
32
44
18.9
380
125
18 x 18 x 21
1821
32
44
23.4
380
100
Note
• Detailed tape dimensions see section “PACKAGING”
MOUNTING
SOLDERING
The capacitors are designed for automatic placement on to
printed-circuit boards.
Soldering conditions are defined by the curve, temperature
versus time, where the temperature is that measured on the
component during processing.
Optimum dimensions of soldering pads depend amongst
others on soldering method, mounting accuracy, print
layout and/or adjacent components.
For maximum conditions refer to Fig. 4.
Any temperature versus time curve which does not exceed
the specified maximum curves may be applied.
For recommended soldering pad dimensions, refer to Fig. 3
and Table 3.
As a general principle, temperature and duration shall be the
minimum necessary required to ensure good soldering
connections. However, the specified maximum curves
should never be exceeded.
e
a
c
a
d
f
b
b
d
a
c
a
Case size Ø D ≥ 16 mm
Case size Ø D = 12.5 mm
Fig. 3 - Recommended soldering pad dimensions
Table 3
RECOMMENDED SOLDERING PAD DIMENSIONS in millimeters
CASE CODE
a
b
c
d
e
f
1213
6.3
2.5
4.0
4.2
5.0
5.6
1216
6.3
2.5
4.0
4.2
5.0
5.6
1616
7.8
9.6
4.7
-
-
-
1621
7.8
9.6
4.7
-
-
-
1816
8.8
9.6
4.7
-
-
-
1821
8.8
9.6
4.7
-
-
-
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ADVANCED SOLDERING PROFILE FOR LEAD (Pb)-FREE REFLOW PROCESS 
ACCORDING TO JEDEC J-STD-020
T (°C)
TPeak
230
217
t4
t3
200
190
t2
150
t1
25
time (s)
Fig. 4 - Maximum temperature load during reflow soldering
Table 4
REFLOW SOLDERING CONDITIONS for MAL216099xxxE3
CASE CODE
1213 TO 1216
CASE CODE
1616 TO 1821
Max. time from 25 °C to TPeak
300 s
300 s
Max. ramp-up rate to 150 °C
3 K/s
3 K/s
Max. time from 150 °C to 200 °C (t1)
150 s
150 s
Max. time from 190 °C to 200 °C (t2)
110 s
110 s
0.5 K/s to 3 K/s
0.5 K/s to 3 K/s
Max. time above TLiquidus (217 °C) (t3)
90 s
90 s
Max. time above 230 °C (t4)
65 s
60 s
250 °C
245 °C
30 s
30 s
3 K/s to 6 K/s
3 K/s to 6 K/s
PROFILE FEATURES
Ramp up rate from 200 °C to TPeak
Peak temperature TPeak
Max. time above TPeak minus 5 °C
Ramp-down rate from TLiquidus
Notes
• Temperature measuring point on top of the case and on terminals.
• Max. 2 runs with pause of min. 30 min in between.
Revision: 24-Feb-14
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ORDERING EXAMPLE
ELECTRICAL DATA
Electrolytic capacitor 160 CLA series
SYMBOL
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
IR
Rated RMS ripple current at 100 kHz, 150 °C
IL2
Max. leakage current after 2 min at UR
tan 
Z
220 μF/50 V; ± 20 %
Nominal case size: 12.5 mm x 12.5 mm x 16 mm;
taped on reel
Ordering code: MAL216099103E3
Max. dissipation factor at 100 Hz
Max. impedance at 100 kHz
Note
• Unless otherwise specified, all electrical values in Table 5 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
Table 5
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
16
25
35
50
63
CR
(μF)
NOMINAL
CASE SIZE
LxWxH
(mm)
IR
150 °C
100 kHz
(mA)
IL2
2 min
(μA)
tan 
100 Hz
Z
100 kHz
20 °C
()
Z
100 kHz
-40 °C
()
ORDERING
CODE
MAL2160...
470
12.5 x 12.5 x 13
750
75
0.16
0.080
0.70
99501E3
680
12.5 x 12.5 x 13
800
109
0.16
0.080
0.70
99502E3
1000
16 x 16 x 16
850
160
0.16
0.050
0.45
99503E3
1500
18 x 18 x 16
900
240
0.16
0.050
0.45
99504E3
2200
16 x 16 x 21
1100
352
0.18
0.035
0.32
99505E3
2700
18 x 18 x 21
1350
432
0.18
0.035
0.32
99506E3
3300
18 x 18 x 21
1400
528
0.20
0.035
0.32
99507E3
330
12.5 x 12.5 x 13
650
83
0.14
0.080
0.70
99601E3
470
12.5 x 12.5 x 13
700
118
0.14
0.080
0.70
99602E3
99603E3
680
16 x 16 x 16
800
170
0.14
0.050
0.45
1000
18 x 18 x 16
830
250
0.14
0.050
0.45
99604E3
1500
16 x 16 x 21
1050
375
0.14
0.035
0.32
99605E3
2200
18 x 18 x 21
1350
550
0.16
0.035
0.32
99606E3
220
12.5 x 12.5 x 13
550
77
0.12
0.080
0.70
99001E3
330
12.5 x 12.5 x 13
650
116
0.12
0.080
0.70
99002E3
470
16 x 16 x 16
800
165
0.12
0.050
0.45
99003E3
680
18 x 18 x 16
830
238
0.12
0.050
0.45
99004E3
1000
16 x 16 x 21
1000
350
0.12
0.035
0.32
99005E3
1500
18 x 18 x 21
1350
525
0.12
0.035
0.32
99006E3
100
12.5 x 12.5 x 13
420
50
0.10
0.130
1.20
99101E3
150
12.5 x 12.5 x 13
450
75
0.10
0.120
1.10
99102E3
220
12.5 x 12.5 x 16
550
110
0.10
0.085
0.76
99103E3
330
16 x 16 x 16
700
165
0.10
0.072
0.65
99104E3
470
18 x 18 x 16
720
235
0.10
0.070
0.63
99105E3
680
16 x 16 x 21
800
340
0.10
0.052
0.47
99106E3
1000
18 x 18 x 21
1100
500
0.10
0.049
0.44
99107E3
47
12.5 x 12.5 x 13
300
30
0.10
0.240
2.16
99801E3
68
12.5 x 12.5 x 13
320
43
0.10
0.240
2.16
99802E3
100
12.5 x 12.5 x 13
320
63
0.10
0.240
2.16
99803E3
150
12.5 x 12.5 x 16
400
95
0.10
0.160
1.44
99804E3
220
16 x 16 x 16
500
139
0.10
0.100
0.90
99805E3
330
18 x 18 x 16
520
208
0.10
0.095
0.86
99806E3
470
16 x 16 x 21
600
296
0.10
0.075
0.68
99807E3
680
18 x 18 x 21
700
428
0.10
0.072
0.65
99808E3
Revision: 24-Feb-14
Document Number: 28405
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Table 6
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
IEC 60384-18, subclause 4.14
Us  1.15 x UR
IEC 60384-18, subclause 4.16; TA  150 °C
Urev  1 V
After 2 min at UR
IL2  0.01 x CR x UR
Ø D  12.5 mm
Typ. 11 nH
Calculated from tan max. and CR (see Table 5)
ESR = tan /2fCR
Voltage
Surge voltage for short periods
Reverse voltage for short periods
Current
Leakage current
Inductance
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR) at 100 Hz
CAPACITANCE (C)
1.20
1.10
C/C0
C/C0
1.00
1.10
0.90
1.00
0.80
0.70
1
0.90
0.60
0.80
2
3
Curve 1: 2700 μF
Curve 2: 1000 μF
Curve 3: 100 μF
2
0.50
- 60 - 40 - 20
0
20
40
60
80
100 120 140 160
Tamb (°C)
C0 = Capacitance at 20 °C, 100 Hz
10
102
103
104
f (Hz)
C0 = Typical capacitance C at 20 °C, 100 Hz
Fig. 5 - Typical multiplier of capacitance
as a function of ambient temperature
105
Fig. 6 - Typical multiplier of capacitance
as a function of frequency
DISSIPATION FACTOR (tan )
103
8
tan/tan0
tan/tan0
6
102
4
10
2
1
0
0.1
- 60 - 40 - 20
0
20
40
tan δ = Typical tan δ at 20 °C, 100 Hz
60
80
100 120 140 160
Tamb (°C)
Fig. 7 - Typical multiplier of dissipation factor (tan )
as a function of ambient temperature
Revision: 24-Feb-14
10
102
tan δ = Typical tan δ at 20 °C, 100 Hz
103
104
105
f (Hz)
Fig. 8 - Typical multiplier of dissipation factor (tan )
as a function of frequency
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EQUIVALENT SERIES RESISTANCE (ESR)
10
ESR/ESR0
1
0.1
10
10
2
10
3
10
ESR0 = Typical ESR at 20 °C, 100 Hz
4
f (Hz) 10
Tamb = 20 °C
5
Fig. 9 - Typical multiplier of ESR as a function of frequency
IMPEDANCE (Z)
102
Z/Z0
10
1
0.1
- 60 - 40 - 20
0
20
40
60
80
100 120 140 160
T (°C)
Z0 = Typical impedance Z at 20 °C, 100 kHz
Fig. 10 - Typical multiplier of impedance
as a function of temperature
102
103
Curve 1: 330-25-1213
Curve 2: 470-25-1213
Curve 3: 680-25-1616
Curve 4: 1000-25-1816
Curve 5. 1500-25-1621
Curve 6: 2200-25-1821
Z (Ω)
1
2
3
4
5
6
10
1
Curve 1: 100-50-1213
Curve 2: 150-50-1213
Curve 3: 220-50-1216
Curve 4: 330-50-1616
Curve 5. 470-50-1816
Curve 6: 680-50-1621
Curve 7: 1000-50-1821
Z (Ω)
102
1
2
3
4
5
6
7
10
1
0.1
0.1
0.01
0.01
10
102
103
104
Tamb = 20 °C
105
f (Hz)
Fig. 11 - Typical impedance as a function of frequency
Revision: 24-Feb-14
10
102
103
104
Tamb = 20 °C
105
f (Hz)
Fig. 12 - Typical impedance as a function of frequency
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RIPPLE CURRENT AND USEFUL LIFE
Table 7
ENDURANCE TEST DURATION AND USEFUL LIFE AS A FUNCTION OF CASE SIZE
NOMINAL CASE SIZE
ØDxL
(mm)
CASE CODE
ENDURANCE
AT 150 °C
(h)
USEFUL LIFE
AT 150 °C
(h)
USEFUL LIFE AT 40 °C
1.8 x IR APPLIED
(h)
12.5 x 12.5 x 13
1213
1000
1250 (1)
300 000
12.5 x 12.5 x 16
1216
1000
1250
325 000
16 x 16 x 16
1616
1000
1500
350 000
16 x 16 x 21
1621
1500
2000
400 000
18 x 18 x 16
1816
1000
1500
350 000
18 x 18 x 21
1821
1500
2000
400 000
Note
(1) 12.5 x 12.5 x 13 at 63 V only useful life of 1000 h.
RIPPLE CURRENT AND USEFUL LIFE
MBC245
IA 4.8
IR
4.5
4.3
4.2
4.1
4.0
3.9
3.8
3.7
3.6
3.5
3.4
3.3
Lifetime multiplier
0
1.
3.2
3.1
3.0
5
1.
0
2.
2.
5
2.8
0
4.
0
6.
0
8.
2.6
12
2.4
20
2.2
30
2.0
50
0
20
40
0
(1)
0
60
1.6
1.4
1.2
1.0
0.8
0.5
0.0
0
10
1.8
IA = Actual ripple current at 100 kHz
IR = Rated ripple current at 100 kHz, 150 °C
(1)
Useful life at 150 °C and IR applied;
see Table 7
40
50
60
70
80
90
100
110
120
130
140
150
160
Tamb (°C)
Fig. 13 - Multiplier of useful life as a function of ambient temperature and ripple current load
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Table 8
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 16 V TO 63 V
50
0.40
100
0.60
300
0.75
1000
0.80
3000
0.90
10 000
0.95
30 000
0.97
100 000
1.00
Table 9
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
REQUIREMENTS
Mounting
IEC 60384-18,
subclause 4.3
Shall be performed prior to tests mentioned below;
reflow soldering;
for maximum temperature load
refer to chapter “Mounting”
C/C: ± 5 %
tan   spec. limit
IL2  spec. limit
Endurance
IEC 60384-18/
CECC 32300,
subclause 4.15
Tamb = 150 °C; UR applied;
for test duration see Table 7
C/C: ± 20 %
tan   2 x spec. limit
IL2  spec. limit
Useful life
CECC 30301,
subclause 1.8.1
Tamb = 150 °C; UR and IR applied;
for test duration see Table 7
C/C: ± 30 %
tan   3 x spec. limit
IL2  spec. limit
no short or open circuit
total failure percentage: 1 %
Shelf life
(storage at high
temperature)
IEC 60384-18/
CECC 32300,
subclause 4.17
Tamb = 150 °C; no voltage applied;
1000 h
After test: UR to be applied for 30 min,
24 h to 48 h before measurement
For requirements
see “Endurance test” above
Reverse voltage
IEC 60384-18/
CECC 32300,
subclause 4.16
Tamb = 150 °C:
125 h at U = -0.5 V,
followed by 125 h at UR
C/C: ± 15 %
tan   1.5 x spec. limit
IL2  spec. limit
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Vishay BCcomponents
Conductive Polymer Aluminum Capacitors
SMD (Chip), Low Impedance
FEATURES
• Useful life: up to 2500 h at 105 °C
• Very low ESR and highest ripple current
• SMD-version with base plate, lead (Pb)-free
reflow solderable
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
180 CPS
105 °C
longer
lifetime
181 CPL
105 °C
APPLICATIONS
• SMD technology, for high temperature reflow soldering
Fig. 1
• Industrial and professional applications
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes 
(L x W x H in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
• Telecommunications and IT
VALUE
22 μF to 2700 μF
± 20 %
2.5 V to 35 V
-55 °C to +105 °C
Endurance test at 105 °C
2000 h
Useful life at 105 °C
2500 h
Shelf life at 0 V, 105 °C
1000 h
Based on sectional
specification
Climatic category IEC 60068
Revision: 29-Apr-15
• Portable and mobile equipment
5.3 x 5.3 x 5.7
to 10.4 x 10.4 x 12.6
IEC 60384-18 / CECC 32300
55/105/56
MARKING
• Rated capacitance (in μF)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Blue mark or “-” sign indicating the cathode (the anode is
identified by bevelled edges)
• Code indicating group number (S)
PACKAGING
Supplied in blister tape on reel
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SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (L x W x H in mm)
UR (V)
CR
(μF)
22
2.5

4.0

6.3

39



56
68
82
100












120
150
180
220
270
330
390
20

25

35
6.6 x 6.6 x 5.9
-
-
-


-

10.4 x 10.4 x
7.7

10.4 x 10.4 x
12.6
8.4 x 8.4 x 12
-
-

-
-
-



10.4 x 10.4 x
12.6
-
-
8.4 x 8.4 x 12
10.4 x 10.4 x
7.7
-
-
-
-
-

10.4 x 10.4 x
12.6
-
-
-
-
-
-
-
-
-
6.6 x 6.6 x 5.9 6.6 x 6.6 x 7.7 8.4 x 8.4 x 6.7


680
6.6 x 6.6 x 5.9 8.4 x 8.4 x 6.7
6.6 x 6.6 x 7.7 8.4 x 8.4 x 12
8.4 x 8.4 x 6.7
-
820
8.4 x 8.4 x 12

1000

10.4 x 10.4 x
7.7
1200
10.4 x 10.4 x
7.7
8.4 x 8.4 x 12
1500
16

5.3 x 5.3 x 5.7

6.6 x 6.6 x 5.9


5.3 x 5.3 x 5.7 6.6 x 6.6 x 5.9



6.6 x 6.6 x 5.9
6.6 x 6.6 x 5.9

8.4 x 8.4 x 12
10.4 x 10.4 x


5.3 x 5.3 x 5.7 6.6 x 6.6 x 5.9

6.6 x 6.6 x 5.9

12.6

5.3 x 5.3 x 5.7

6.6 x 6.6 x 7.7 8.4 x 8.4 x 6.7
5.3 x 5.3 x 5.7





8.4 x 8.4 x 12
10.4 x 10.4 x


6.6 x 6.6 x 5.9

7.7

6.6 x 6.6 x 5.9


8.4 x 8.4 x 12
6.6 x 6.6 x 5.9
10.4 x 10.4 x
10.4 x 10.4 x


6.6 x 6.6 x 5.9

12.6
12.6
6.6 x 6.6 x 7.7
470
560
10

8.4 x 8.4 x 12 8.4 x 8.4 x 12
-
-
-
-
-
-
10.4 x 10.4 x
12.6
-
-
-
-
-

10.4 x 10.4 x
12.6
-
-
-
-
-
-
2700
10.4 x 10.4 x
12.6
-
-
-
-
-
-
-
HMAX.
MAX. 0.3
Negative
polarity
A2
S
470
6.3V
A2
10
16S
Negative
polarity
2-pin:
Ø 8 mm to 10 mm
min. 0.4 / max. 1.0 (2 x)
2-pin:
≤ Ø 6.3 mm
D
WMAX.
S
HMAX.
MAX. 0.3
D
WMAX.
B
L1MAX.
min. 0.4 / max. 1.0 (2 x)
2200
B
LMAX.
L1MAX.
S
LMAX.
Fig. 2 - Dimensional outline
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Table 1
DIMENSIONS in millimeters AND MASS
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
LMAX.
WMAX.
HMAX.
ØD
BMAX.
S
L1MAX.
MASS
(g)
5.3 x 5.3 x 5.7
0506
5.5
5.5
6.0
5.0
0.8
1.5
6.1
~ 0.15
6.6 x 6.6 x 5.9
0606
6.8
6.8
6.0
6.3
0.8
2.0
7.4
~ 0.25
6.6 x 6.6 x 7.7
0608
6.8
6.8
8.0
6.3
0.8
2.0
7.4
~ 0.4
8.4 x 8.4 x 6.7
0807
8.6
8.6
7.0
8.0
1.1
3.1
9.2
~ 0.5
8.4 x 8.4 x 12
0812
8.6
8.6
12.5
8.0
1.1
3.1
9.2
~ 0.8
10.4 x 10.4 x 7.7
1008
10.6
10.6
8.0
10
1.3
4.7
11.2
~ 0.9
10.4 x 10.4 x 12.6
1013
10.6
10.6
12.7
10
1.3
4.7
11.2
~ 1.3
Table 2
TAPE AND REEL DIMENSIONS in millimeters, PACKAGING QUANTITIES
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
PITCH
P1
TAPE WIDTH
W
TAPE
THICKNESS
T2
REEL DIAMETER
PACKAGING
QUANTITY
PER REEL
5.3 x 5.3 x 5.7
0506
12
12
6.2
380
1000
6.6 x 6.6 x 5.9
0606
12
16
6.2
380
1000
6.6 x 6.6 x 7.7
0608
12
16
8.3
380
1000
8.4 x 8.4 x 6.7
0807
12
16
6.8
380
1000
8.4 x 8.4 x 12
0812
16
16
13.0
380
400
10.4 x 10.4 x 7.7
1008
16
24
10.0
380
500
10.4 x 10.4 x 12.6
1013
16
24
14.0
380
400
MOUNTING
SOLDERING
The capacitors are designed for automatic placement on to
printed-circuit boards.
Soldering conditions are defined by the curve, temperature
versus time, where the temperature is that measured on the
component during processing.
Optimum dimensions of soldering pads depend amongst
others on soldering method, mounting accuracy, print
layout and / or adjacent components.
For maximum conditions refer to Fig. 4.
Any temperature versus time curve which does not exceed
the specified maximum curves may be applied.
For recommended soldering pad dimensions, refer to Fig. 3
and Table 3.
As a general principle, temperature and duration shall be the
minimum necessary required to ensure good soldering
connections. However, the specified maximum curves
should never be exceeded.
b
a
c
a
Fig. 3 - Recommended soldering pad dimensions
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Table 3
RECOMMENDED SOLDERING PAD DIMENSIONS in millimeters
CASE CODE
a
b
c
0506
1.4
3.0
1.6
0606
1.9
3.5
1.6
0608
1.9
3.5
1.6
0807
3.0
3.5
2.5
0812
3.0
3.5
2.5
1008
4.0
4.0
2.5
1013
4.0
4.0
2.5
ADVANCED SOLDERING PROFILE FOR LEAD (Pb)-FREE REFLOW PROCESS
T (°C)
TPeak
230
217
t4
t3
200
190
t2
150
t1
25
time (s)
Fig. 4 - Maximum temperature load during reflow soldering
Table 4
REFLOW SOLDERING CONDITIONS for MAL2180xxxE3
PROFILE FEATURES
Max. time from 25 °C to TPeak
CASE CODE
0506 TO 1013
300 s
Max. ramp-up rate to 150 °C
3 K/s
Max. time from 150 °C to 200 °C (t1)
150 s
Max. time from 190 °C to 200 °C (t2)
Ramp up rate from 200 °C to TPeak
Max. time above TLiquidus (217 °C) (t3)
Max. time above 230 °C (t4)
Peak temperature TPeak
Max. time above TPeak minus 5 °C
Ramp-down rate from TLiquidus
110 s
0.5 K/s to 3 K/s
90 s
70 s
260 °C
40 s
3 K/s to 6 K/s
Note
• Temperature measuring point on top of the case and on terminals.
Revision: 29-Apr-15
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ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Conductive polymer 180 CPS series
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
IR
Rated RMS ripple current at 100 kHz, 105 °C
IL2
Max. leakage current after 2 min at UR
tan 
Max. dissipation factor at 100 Hz
Z
Max. impedance at 100 kHz
100 μF / 16 V; ± 20 %
Nominal case size: 6.6 mm x 6.6 mm x 5.9 mm; taped on
reel
Ordering code: MAL218097504E3
Note
• Unless otherwise specified, all electrical values in Table 5 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
Table 5
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
2.5
4
6.3
10
CR
(μF)
NOMINAL
CASE SIZE
LxWxH
(mm)
IR
105 °C
100 kHz
(mA)
IL2
2 min
(μA)
tan 
100 Hz
Z
100 kHz
20 °C
()
ORDERING CODE
MAL2180...
180
5.3 x 5.3 x 5.7
2800
300
0.12
0.019
97251E3
390
6.6 x 6.6 x 5.9
3160
300
0.12
0.014
97253E3
560
6.6 x 6.6 x 5.9
3500
300
0.12
0.016
97254E3
560
6.6 x 6.6 x 7.7
4200
420
0.12
0.009
97255E3
680
8.4 x 8.4 x 6.7
3370
500
0.12
0.020
97256E3
820
8.4 x 8.4 x 12
5380
500
0.12
0.009
97257E3
1200
10.4 x 10.4 x 7.7
4450
600
0.15
0.013
97258E3
1500
8.4 x 8.4 x 12
5150
750
0.12
0.012
97259E3
2700
10.4 x 10.4 x 12.6
5600
1350
0.15
0.009
97261E3
150
5.3 x 5.3 x 5.7
2730
300
0.12
0.020
97701E3
270
6.6 x 6.6 x 5.9
3160
300
0.12
0.015
97702E3
330
6.6 x 6.6 x 5.9
3160
300
0.12
0.015
97703E3
390
6.6 x 6.6 x 7.7
4200
468
0.12
0.009
97704E3
560
8.4 x 8.4 x 6.7
3220
500
0.12
0.022
97705E3
560
8.4 x 8.4 x 12
5380
500
0.15
0.009
97706E3
1000
10.4 x 10.4 x 7.7
4300
800
0.12
0.014
97707E3
1200
8.4 x 8.4 x 12
4700
960
0.15
0.012
97708E3
1500
8.4 x 8.4 x 12
4700
1200
0.15
0.012
97709E3
2200
10.4 x 10.4 x 12.6
5700
1760
0.15
0.009
97711E3
120
5.3 x 5.3 x 5.7
2660
300
0.12
0.021
97301E3
220
6.6 x 6.6 x 5.9
3160
300
0.12
0.015
97303E3
330
6.6 x 6.6 x 5.9
3390
415
0.12
0.017
97304E3
330
6.6 x 6.6 x 7.7
4200
623
0.12
0.009
97305E3
390
8.4 x 8.4 x 6.7
3220
491
0.12
0.022
97306E3
820
8.4 x 8.4 x 12
4700
1033
0.15
0.013
97307E3
820
10.4 x 10.4 x 7.7
4300
1033
0.12
0.014
97308E3
1500
10.4 x 10.4 x 12.6
5560
1890
0.15
0.010
97309E3
68
5.3 x 5.3 x 5.7
2540
300
0.12
0.023
97401E3
120
6.6 x 6.6 x 5.9
2600
300
0.12
0.022
97402E3
150
6.6 x 6.6 x 7.7
2800
450
0.12
0.015
97403E3
270
8.4 x 8.4 x 6.7
3220
500
0.12
0.022
97404E3
470
10.4 x 10.4 x 7.7
3800
940
0.12
0.019
97405E3
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Document Number: 28415
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ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
16
20
25
CR
(μF)
NOMINAL
CASE SIZE
LxWxH
(mm)
IR
105 °C
100 kHz
(mA)
IL2
2 min
(μA)
tan 
100 Hz
Z
100 kHz
20 °C
()
ORDERING CODE
MAL2180...
39
5.3 x 5.3 x 5.7
2350
300
0.12
0.020
97501E3
39
6.6 x 6.6 x 5.9
2460
300
0.12
0.024
97502E3
68
6.6 x 6.6 x 5.9
2440
300
0.12
0.025
97503E3
100
6.6 x 6.6 x 5.9
2490
320
0.12
0.024
97504E3
150
8.4 x 8.4 x 6.7
3220
500
0.12
0.022
97505E3
220
10.4 x 10.4 x 7.7
3450
704
0.12
0.022
97506E3
270
8.4 x 8.4 x 12
4850
864
0.15
0.012
97507E3
330
10.4 x 10.4 x 12.6
5300
1056
0.15
0.012
97508E3
470
10.4 x 10.4 x 12.6
6100
1504
0.15
0.010
97509E3
820
10.4 x 10.4 x 12.6
5400
2624
0.12
0.012
97511E3
120
6.6 x 6.6 x 5.9
3200
480
0.12
0.025
97201E3
390
8.4 x 8.4 x 12
4950
1560
0.12
0.014
97202E3
560
10.4 x 10.4 x 12.6
5600
2240
0.12
0.012
97203E3
56
6.6 x 6.6 x 5.9
2800
280
0.12
0.030
97601E3
180
8.4 x 8.4 x 12
4650
900
0.12
0.016
97602E3
330
10.4 x 10.4 x 12.6
5000
1650
0.12
0.014
97603E3
22
6.6 x 6.6 x 5.9
2600
154
0.12
0.035
97001E3
82
8.4 x 8.4 x 12
4000
574
0.12
0.020
97002E3
120
10.4 x 10.4 x 12.6
4400
840
0.12
0.018
97003E3
35
Table 6
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
IEC 60384-18, subclause 4.14
Us  1.15 x UR
IEC 60384-18, subclause 4.16; TA  105 °C
Urev  1 V
Voltage
Surge voltage for short periods
Reverse voltage for short periods
USEFUL LIFE AND ENDURANCE
Table 7
ENDURANCE TEST AND USEFUL LIFE
SERIES
CASE CODE
USEFUL LIFE
AT 105 °C (h)
ENDURANCE
AT 105 °C (h)
ENDURANCE
AT 95 °C (h)
ENDURANCE
AT 85 °C (h)
ENDURANCE
AT 75 °C (h)
180 CPS
0506 - 1013
2500
2000
6000
20 000
63 000
Endurance can be calculated by formula below:
T0 - Tr
L r = L 0 x 10 ----------------20
Lr: estimated lifetime (h)
L0: base lifetime specified at maximum operating temperature with applied the DC voltage (h)
T0: rated maximum operating temperature (°C)
Tr: actual ambient temperature (°C)
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Table 8
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
REQUIREMENTS
Mounting
IEC 60384-18,
subclause 4.3
Shall be performed prior to tests mentioned below;
reflow soldering;
for maximum temperature load
refer to chapter “Mounting”
C/C: ± 5 %
tan   spec. limit
IL2  spec. limit
Endurance
IEC 60384-18 /
CECC 32300,
subclause 4.15
Tamb = 105 °C; UR applied;
for test duration see Table 7
C/C: ± 20 %
tan   2 x spec. limit
IL2  spec. limit
Useful life
CECC 30301,
subclause 1.8.1
Tamb = 105 °C; UR and IR applied;
for test duration see Table 7
C/C: ± 30 %
tan   3 x spec. limit
IL2  spec. limit
Shelf life
(storage at high
temperature)
IEC 60384-18 /
CECC 32300,
subclause 4.17
Tamb = 105 °C; no voltage applied;
1000 h
after test: UR to be applied for 30 min,
24 h to 48 h before measurement
For requirements
see “Endurance test” above
Revision: 29-Apr-15
Document Number: 28415
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181 CPL
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Vishay BCcomponents
Conductive Polymer Aluminum Capacitors
SMD (Chip), Low Impedance
FEATURES
• Long useful life: up to 5000 h at 105 °C
• Very low ESR and highest ripple current
• SMD-version with base plate, lead (Pb)-free
reflow solderable
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
180 CPS
105 °C
longer
lifetime
181 CPL
105 °C
APPLICATIONS
• SMD technology, for high temperature reflow soldering
Fig. 1
• Industrial and professional applications
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes 
(L x W x H in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
• Telecommunications and IT
VALUE
18 μF to 820 μF
± 20 %
4.0 V to 35 V
-55 °C to +105 °C
Endurance test at 105 °C
5000 h
Useful life at 105 °C
5000 h
Shelf life at 0 V, 105 °C
1000 h
Based on sectional
specification
Climatic category IEC 60068
Revision: 29-Apr-15
• Portable and mobile equipment
6.6 x 6.6 x 5.9
to 10.4 x 10.4 x 12.6
IEC 60384-18 / CECC 32300
55/105/56
MARKING
• Rated capacitance (in μF)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Blue mark or “-” sign indicating the cathode (the anode is
identified by bevelled edges)
• Code indicating group number (L)
PACKAGING
Supplied in blister tape on reel
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SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (L x W x H in mm)
CR
(μF)
4.0

18
6.3

10

UR (V)
16

20

25

35
6.6 x 6.6 x 5.9
39



6.6 x 6.6 x 5.9
-
-
-
47





6.6 x 6.6 x 5.9
-
56


6.6 x 6.6 x 5.9

6.6 x 6.6 x 5.9
-
68


6.6 x 6.6 x 5.9
6.6 x 6.6 x 5.9
-
-
-
82



8.4 x 8.4 x 6.7


8.4 x 8.4 x 12
100

6.6 x 6.6 x 5.9

10.4 x 10.4 x
7.7
-
-
-
120

6.6 x 6.6 x 5.9
6.6 x 6.6 x 5.9
8.4 x 8.4 x 6.7
-
-
-
10.4 x 10.4 x
7.7
8.4 x 8.4 x 6.7

8.4 x 8.4 x 12
10.4 x 10.4 x
12.6

10.4 x 10.4 x
7.7
-
-
-
-
-
-
-
-
8.4 x 8.4 x 6.7
6.6 x 6.6 x 5.9

180


220

6.6 x 6.6 x 5.9
270
8.4 x 8.4 x 6.7

8.4 x 8.4 x 6.7

8.4 x 8.4 x 12
10.4 x 10.4 x
12.6
-
6.6 x 6.6 x 5.9

10.4 x 10.4 x
7.7
-
-
-
-

8.4 x 8.4 x 6.7


8.4 x 8.4 x 12
-
-
470

10.4 x 10.4 x
7.7


10.4 x 10.4 x
12.6
-
-
560
8.4 x 8.4 x 6.7
-
-
-
-
-
-
680
10.4 x 10.4 x
7.7
-
-
-
-
-
-
820



10.4 x 10.4 x
12.6
-
-
-
8.4 x 8.4 x 6.7
390
2-pin:
≤ Ø 6.3 mm
HMAX.
MAX. 0.3
Negative
polarity
A2
L
470
6.3V
A2
10
16L
Negative
polarity
2-pin:
Ø 8 mm to 10 mm
min. 0.4 / max. 1.0 (2 x)
330
8.4 x 8.4 x 6.7
D
WMAX.
S
HMAX.
MAX. 0.3
D
WMAX.
B
L1MAX.
min. 0.4 / max. 1.0 (2 x)
150
B
LMAX.
L1MAX.
S
LMAX.
Fig. 2 - Dimensional outline
Revision: 29-Apr-15
Document Number: 28417
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Vishay BCcomponents
Table 1
DIMENSIONS in millimeters AND MASS
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
LMAX.
WMAX.
HMAX.
ØD
BMAX.
S
L1MAX.
MASS
(g)
6.6 x 6.6 x 5.9
0606
6.8
6.8
6
6.3
0.8
2.0
7.4
~ 0.25
8.4 x 8.4 x 6.7
0807
8.6
8.6
7
8
1.1
3.1
9.2
~ 0.5
8.4 x 8.4 x 12
0812
8.6
8.6
12.5
8
1.1
3.1
9.2
~ 0.8
10.4 x 10.4 x 7.7
1008
10.6
10.6
8
10
1.3
4.7
11.2
~ 0.9
10.4 x 10.4 x 12.6
1013
10.6
10.6
12.7
10
1.3
4.7
11.2
~ 1.3
Table 2
TAPE AND REEL DIMENSIONS in millimeters, PACKAGING QUANTITIES
NOMINAL
CASE SIZE
LxWxH
CASE
CODE
PITCH
P1
TAPE WIDTH
W
TAPE
THICKNESS
T2
REEL DIAMETER
PACKAGING
QUANTITY
PER REEL
6.6 x 6.6 x 5.9
0606
12
16
6.2
380
1000
8.4 x 8.4 x 6.7
0807
12
16
6.8
380
1000
8.4 x 8.4 x 12
0812
16
16
13.0
380
400
10.4 x 10.4 x 7.7
1008
16
24
10.0
380
500
10.4 x 10.4 x 12.6
1013
16
24
14.0
380
400
MOUNTING
SOLDERING
The capacitors are designed for automatic placement on to
printed-circuit boards.
Soldering conditions are defined by the curve, temperature
versus time, where the temperature is that measured on the
component during processing.
Optimum dimensions of soldering pads depend amongst
others on soldering method, mounting accuracy, print
layout and / or adjacent components.
For maximum conditions refer to Fig. 4.
Any temperature versus time curve which does not exceed
the specified maximum curves may be applied.
For recommended soldering pad dimensions, refer to Fig. 3
and Table 3.
As a general principle, temperature and duration shall be the
minimum necessary required to ensure good soldering
connections. However, the specified maximum curves
should never be exceeded.
b
a
c
a
Fig. 3 - Recommended soldering pad dimensions
Revision: 29-Apr-15
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Vishay BCcomponents
Table 3
RECOMMENDED SOLDERING PAD DIMENSIONS in millimeters
CASE CODE
a
b
c
0606
1.9
3.5
1.6
0807
3.0
3.5
2.5
0812
3.0
3.5
2.5
1008
4.0
4.0
2.5
1013
4.0
4.0
2.5
ADVANCED SOLDERING PROFILE FOR LEAD (Pb)-FREE REFLOW PROCESS
T (°C)
TPeak
230
217
t4
t3
200
190
t2
150
t1
25
time (s)
Fig. 4 - Maximum temperature load during reflow soldering
Table 4
REFLOW SOLDERING CONDITIONS for MAL2180xxxE3
PROFILE FEATURES
CASE CODE
0606 TO 1013
Max. time from 25 °C to TPeak
300 s
Max. ramp-up rate to 150 °C
3 K/s
Max. time from 150 °C to 200 °C (t1)
150 s
Max. time from 190 °C to 200 °C (t2)
110 s
Ramp up rate from 200 °C to TPeak
0.5 K/s to 3 K/s
Max. time above TLiquidus (217 °C) (t3)
90 s
Max. time above 230 °C (t4)
70 s
Peak temperature TPeak
Max. time above TPeak minus 5 °C
Ramp-down rate from TLiquidus
260 °C
40 s
3 K/s to 6 K/s
Note
• Temperature measuring point on top of the case and on terminals.
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ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
CR
IR
IL2
tan 
Z
DESCRIPTION
Rated capacitance at 100 Hz, tolerance ± 20 %
Rated RMS ripple current at 100 kHz, 105 °C
Max. leakage current after 2 min at UR
Max. dissipation factor at 100 Hz
Max. impedance at 100 kHz
Conductive polymer 181 CPL series
100 μF / 16 V; ± 20 %
Nominal case size: 10.4 mm x 10.4 mm x 7.7 mm; taped on
reel
Ordering code: MAL218197504E3
Note
• Unless otherwise specified, all electrical values in Table 5 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
Table 5
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
4.0
6.3
10
16
20
25
35
CR
(μF)
NOMINAL
CASE SIZE
LxWxH
(mm)
IR
105 °C
100 kHz
(mA)
IL2
2 min
(μA)
tan 
100 Hz
Z
100 kHz
20 °C
()
ORDERING CODE
MAL2181...
150
270
330
330
560
680
100
120
220
220
390
470
56
68
120
150
150
270
330
39
68
82
100
120
180
820
56
270
390
470
47
150
270
18
82
150
6.6 x 6.6 x 5.9
8.4 x 8.4 x 6.7
6.6 x 6.6 x 5.9
8.4 x 8.4 x 6.7
8.4 x 8.4 x 6.7
10.4 x 10.4 x 7.7
6.6 x 6.6 x 5.9
6.6 x 6.6 x 5.9
6.6 x 6.6 x 5.9
8.4 x 8.4 x 6.7
8.4 x 8.4 x 6.7
10.4 x 10.4 x 7.7
6.6 x 6.6 x 5.9
6.6 x 6.6 x 5.9
6.6 x 6.6 x 5.9
8.4 x 8.4 x 6.7
10.4 x 10.4 x 7.7
8.4 x 8.4 x 6.7
10.4 x 10.4 x 7.7
6.6 x 6.6 x 5.9
6.6 x 6.6 x 5.9
8.4 x 8.4 x 6.7
10.4 x 10.4 x 7.7
8.4 x 8.4 x 6.7
10.4 x 10.4 x 7.7
10.4 x 10.4 x 12.6
6.6 x 6.6 x 5.9
8.4 x 8.4 x 12
8.4 x 8.4 x 12
10.4 x 10.4 x 12.6
6.6 x 6.6 x 5.9
8.4 x 8.4 x 12
10.4 x 10.4 x 12.6
6.6 x 6.6 x 5.9
8.4 x 8.4 x 12
10.4 x 10.4 x 12.6
2570
3220
2800
3220
3600
4130
2800
2800
2800
3220
3220
4130
2300
2300
2300
2760
3020
3200
3770
2200
2200
2800
2670
2800
3430
5400
1300
4000
4950
4300
1300
2200
2700
900
2200
2600
120
216
264
264
448
544
126
151
277
277
491
592
112
136
240
300
300
540
660
125
218
262
320
384
576
2624
224
1080
1560
1880
235
750
1350
126
574
1050
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.022
0.022
0.020
0.022
0.018
0.020
0.022
0.022
0.020
0.022
0.022
0.020
0.027
0.027
0.027
0.030
0.030
0.022
0.024
0.030
0.030
0.028
0.035
0.028
0.029
0.012
0.048
0.021
0.014
0.020
0.049
0.028
0.027
0.064
0.029
0.028
97701E3
97702E3
97703E3
97704E3
97705E3
97706E3
97301E3
97302E3
97303E3
97306E3
97307E3
97308E3
97401E3
97402E3
97403E3
97404E3
97405E3
97406E3
97407E3
97501E3
97502E3
97503E3
97504E3
97505E3
97506E3
97507E3
97201E3
97202E3
97203E3
97204E3
97601E3
97602E3
97603E3
97001E3
97002E3
97003E3
Revision: 29-Apr-15
Document Number: 28417
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Table 6
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
IEC 60384-18, subclause 4.14
Us  1.15 x UR
IEC 60384-18, subclause 4.16; TA  105 °C
Urev  1 V
Voltage
Surge voltage for short periods
Reverse voltage for short periods
USEFUL LIFE AND ENDURANCE
Table 7
ENDURANCE TEST AND USEFUL LIFE
SERIES
CASE CODE
USEFUL LIFE
AT 105 °C (h)
ENDURANCE
AT 105 °C (h)
ENDURANCE
AT 85 °C (h)
181 CPL
0606 to 1013
5000
5000
50 000
Endurance can be calculated by formula below:
T0 - Tr
L r = L 0 x 10 ----------------20
Lr: estimated lifetime (h)
L0: base lifetime specified at maximum operating temperature with applied the DC voltage (h)
T0: rated maximum operating temperature (°C)
Tr: actual ambient temperature (°C)
Table 8
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
REQUIREMENTS
Mounting
IEC 60384-18,
subclause 4.3
Shall be performed prior to tests mentioned below;
reflow soldering;
for maximum temperature load
refer to chapter “Mounting”
C/C: ± 5 %
tan   spec. limit
IL2  spec. limit
Endurance
IEC 60384-18 /
CECC 32300,
subclause 4.15
Tamb = 105 °C; UR applied;
for test duration see Table 7
C/C: ± 20 %
tan   2 x spec. limit
IL2  spec. limit
Useful life
CECC 30301,
subclause 1.8.1
Tamb = 105 °C; UR and IR applied;
for test duration see Table 7
C/C: ± 20 %
tan   2 x spec. limit
IL2  spec. limit
Shelf life
(storage at high
temperature)
IEC 60384-18 /
CECC 32300,
subclause 4.17
Tamb = 105 °C; no voltage applied;
1000 h
after test: UR to be applied for 30 min,
24 h to 48 h before measurement
For requirements
see “Endurance test” above
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Aluminum Capacitors
Radial Low Profile, 5 mm
FEATURES
• Useful life: 1500 h at 85 °C
• Very low profile, 5 mm height
• Extremely miniaturized
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte
• Radial leads, cylindrical aluminum case, insulated with a
blue sleeve
• Charge and discharge proof
038 RSU
097 RLP 7
higher
CV-values
134 RLP 5
5 mm
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
longer life
SMD
153 CRV
APPLICATIONS
Fig. 1
• General purpose, industrial, automotive and audio-video
• Coupling, decoupling, smoothing, filtering and timing
• High mounting density
QUICK REFERENCE DATA
DESCRIPTION
• Portable and mobile equipment (very small size and very
low mass), low profile equipment
VALUE
Nominal case sizes (Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
4 x 5 to 6.3 x 5
1.0 μF to 100 μF
MARKING
± 20 %
Rated voltage range, UR
The capacitors are marked (where possible) with the
following information:
6.3 V to 50 V
Category temperature range
- 40 °C to + 85 °C
Endurance test at 85 °C
1000 h
Useful life at 85 °C
1500 h
Useful life at 40 °C, 1.4 x IR applied
Shelf life at 0 V, 85 °C
• Rated capacitance (in μF)
• Rated voltage (in V)
• Negative terminal identification
40 000 h
• Code indicating factory of origin
500 h
Based on sectional specification
Climatic category IEC 60068
• Name of manufacturer
IEC 60384-4/EN 130300
• Date code, in accordance with IEC 60062
40/085/56
• Series number (134)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
UR (V)
CR
(μF)
6.3
10
16
25
35
50
1.0
-
-
-
-
-
4x5
2.2
-
-
-
-
-
4x5
3.3
-
-
-
-
-
4x5
4.7
-
-
-
-
4x5
5x5
10
-
-
4x5
-
5x5
6.3 x 5
22
4x5
-
5x5
-
6.3 x 5
-
33
-
5x5
-
6.3 x 5
-
-
47
5x5
-
6.3 x 5
-
-
-
100
6.3 x 5
-
-
-
-
-
Revision: 12-Apr-13
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DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
L
+
F
± 0.5
15
min
5
min
Ød
Case Ø D = 4 mm to 6.3 mm; pitch F = 5 mm
Fig. 2 - Form CA: Long leads
Fig. 3 - Form TFA: Taped in box (ammopack)
Pitch F = 2.5 mm
Case Ø D = 4 mm to 6.3 mm
Fig. 4 - Form TNA: Taped in box (ammopack)
Table 1
DIMENSIONS in millimeters AND PACKAGING QUANTITIES
PACKAGING QUANTITIES
NOMINAL CASE SIZE
ØDxL
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
FORM
CA
FORM
TFA
FORM
TNA
4x5
53
0.45
4.5
6.0
1.5 ± 0.5
2000
2000
2000
5x5
54
0.45
5.5
6.0
2.0 ± 0.5
2000
2000
2000
6.3 x 5
55
0.45
6.8
6.0
2.5 ± 0.5
2000
2000
2 000
Note
• For detailed tape dimensions please see www.vishay.com/doc?28360
Revision: 12-Apr-13
Document Number: 28307
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ORDERING EXAMPLE
ELECTRICAL DATA
Electrolytic capacitor 134 series
SYMBOL
DESCRIPTION
CR
Rated capacitance at 120 Hz, tolerance ± 20 %
22 μF/16 V; ± 20 %
IR
Rated RMS ripple current at 120 Hz, 85 °C
Nominal case size: Ø 5 mm x 5 mm; form TFA
Max. leakage current after 2 min at UR
Ordering code: MAL213435229E3
Max. dissipation factor at 120 Hz
Former 12NC: 2222 134 35229
IL2
tan 
Z
Max. impedance at 100 kHz
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
IR
120 Hz
85 °C
(mA)
IL2
2 min
(μA)
22
4x5
23
3
0.24
11
53229E3
1.5
33229E3
5.0
73229E3
2.5
47
5x5
38
3
0.24
5.2
53479E3
2.0
33479E3
5.0
73479E3
2.5
100
6.3 x 5
60
7
0.24
3.4
53101E3
2.5
33101E3
5.0
73101E3
2.5
33
5x5
35
4
0.20
6.0
54339E3
2.0
34339E3
5.0
74339E3
2.5
10
4x5
20
3
0.16
12
95105E3
1.5
95103E3
5.0
95107E3
2.5
CR
120 Hz
(μF)
6.3
10
16
25
35
50
ORDERING CODE
MAL2134.......
NOMINAL
CASE SIZE
ØDxL
(mm)
tan 
120 Hz
Z
100 kHz
()
BULK
LONG LEADS
FORM
CA
F
(mm)
TAPED
AMMOPACK
FORM
TFA
F
(mm)
FORM
TNA
F
(mm)
22
5x5
32
4
0.16
6.4
55229E3
2.0
35229E3
5.0
75229E3
2.5
47
6.3 x 5
50
8
0.16
4.2
55479E3
2.5
35479E3
5.0
75479E3
2.5
33
6.3 x 5
45
9
0.14
4.6
56339E3
2.5
36339E3
5.0
76339E3
2.5
4.7
4x5
15
3
0.12
27
50478E3
1.5
30478E3
5.0
70478E3
2.5
10
5x5
25
4
0.12
17
50109E3
2.0
30109E3
5.0
70109E3
2.5
22
6.3 x 5
40
8
0.12
11
50229E3
2.5
30229E3
5.0
70229E3
2.5
1.0
4x5
7.5
3
0.10
28
91105E3
1.5
91103E3
5.0
91107E3
2.5
2.2
4x5
12
3
0.10
26
91225E3
1.5
91223E3
5.0
91227E3
2.5
3.3
4x5
14
3
0.10
25
51338E3
1.5
31338E3
5.0
71338E3
2.5
4.7
5x5
19
3
0.10
22
51478E3
2.0
31478E3
5.0
71478E3
2.5
10
6.3 x 5
29
5
0.10
14
51109E3
2.5
31109E3
5.0
71109E3
2.5
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Voltage
Us  1.15 x UR
Surge voltage
Urev  1 V
Reverse voltage
Current
Leakage current
After 2 min at UR
IL2  0.01 CR x UR or 3 μA (whichever is greater)
Calculated from tan max. and CR (see Table 3)
ESR = tan /2  f CR
Resistance
Equivalent series resistance (ESR)
Revision: 12-Apr-13
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RIPPLE CURRENT AND USEFUL LIFE
CCC205
3.3
IA
3.2
IR
3.1
3.0
2.8
2.6
2.4
Lifetime multiplier
2.2
0
1.
5
1.
2.0
0
2.
0
3.
1.8
0
4.
6
1.6
.0
10
1.4
15
30
70
40
(1)
(1)
50
IA = Actual ripple current at 120 Hz
IR = Rated ripple current at 120 Hz, 85 °C
20
1.2
1.0
0.8
0.5
0.0
50
60
70
80
90
100
Tamb (°C)
Useful life at 85 °C and IR applied: 1500 h
Fig. 5 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 3
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY (Hz)
IR MULTIPLIER
50
0.60
120
1.00
400
1.20
800
1.30
 2000
1.40
Table 4
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/
EN 130300,
subclause 4.13
PROCEDURE
(quick reference)
REQUIREMENTS
Tamb = 85 °C; UR applied;
1000 h
C/C: ± 20 %
tan  2 x spec. limit
IL2  spec. limit
Useful life
CECC 30301,
subclause 1.8.1
Tamb = 85 °C; UR and IR applied;
1500 h
C/C: ± 50 %
tan  3 x spec. limit
Z  3 x spec. limit
IL2  spec. limit
no short or open circuit
total failure percentage:  3 %
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN 130300,
subclause 4.17
Tamb = 85 °C; no voltage applied;
500 h
After test: UR to be applied for 30 min, 24 h to 48 h
before measurement
C/C, tan , Z:
For requirements 
see “Endurance test” above
IL2  spec. limit
Revision: 12-Apr-13
Document Number: 28307
138
For technical questions, contact: [email protected]
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
097 RLP 7
www.vishay.com
Vishay BCcomponents
Aluminum Capacitors
Radial Low Profile, 7 mm
FEATURES
•
•
•
•
038 RSU
Fig.0 Component
097 RLP 7 outlines.
higher
CV-values
7 mm
lower height
5 mm
134 RLP 5
Fig. 1
APPLICATIONS
•
•
•
•
QUICK REFERENCE DATA
DESCRIPTION
VALUE
Nominal case sizes (Ø D x L in mm)
4 x 7 to 6.3 x 7
Rated capacitance range, CR
MARKING
± 20 %
Rated voltage, UR
6.3 V to 63 V
- 40 °C to + 85 °C
Endurance test at 85 °C
1000 h
Useful life at 85 °C
1500 h
Useful life at 40 °C, 1.4 x IR applied
40 000 h
Shelf life at 0 V, 85 °C
500 h
Based on sectional specification
General purpose; industrial, automotive and audio-video
Low surface demand on printed-circuit board
Coupling, decoupling, smoothing, filtering and timing
Portable and mobile equipment (small size, low mass), 
low profile equipment
0.1 μF to 220 μF
Tolerance on CR
Category temperature range
Useful life: 1500 h at 85 °C
Low profile, 7 mm height
Miniaturized, high CV-product per unit volume
Polarized aluminum electrolytic capacitors,
non-solid electrolyte
• Radial leads, cylindrical aluminum case, insulated with
a blue sleeve
• Charge and discharge proof
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
IEC 60384-4/EN 130300
Climatic category IEC 60068
40/085/56
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Rated voltage (in V)
• Negative terminal identification
• Code indicating factory of origin
• Name of manufacturer
• Date code, in accordance with IEC 60062
• Series number (097)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
UR (V)
CR
(μF)
6.3
10
16
25
35
50
63
0.10
-
-
-
-
-
-
4x7
0.22
-
-
-
-
-
-
4x7
0.47
-
-
-
-
-
-
4x7
1.0
-
-
-
-
-
-
4x7
2.2
-
-
-
-
-
-
4x7
3.3
-
-
-
-
-
4x7
5x7
4.7
-
-
-
-
4x7
5x7
6.3 x 7
10
-
-
4x7
-
5x7
6.3 x 7
6.3 x 7
22
4x7
-
5x7
-
6.3 x 7
6.3 x 7
-
33
-
5x7
-
6.3 x 7
6.3 x 7
-
-
47
5x7
-
6.3 x 7
6.3 x 7
-
-
-
100
-
6.3 x 7
6.3 x 7
-
-
-
-
220
6.3 x 7
-
-
-
-
-
-
Revision: 12-Apr-13
Document Number: 28308
139
For technical questions, contact: [email protected]
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
097 RLP 7
www.vishay.com
Vishay BCcomponents
DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
+
F
± 0.5
15
min.
5
min.
Ød
Fig. 2 - Form CA: Long leads
Fig. 3 - Form TFA: Taped in box (ammopack),
formed leads, pitch F = 5 mm
Fig. 4 - Form TNA: Taped in box (ammopack), pitch F = 2.5 mm
DIMENSIONS in millimeters AND PACKAGING QUANTITIES
PACKAGING QUANTITIES
NOMINAL CASE SIZE
ØDxL
CASE
CODE
Ød
4x7
71
5x7
6.3 x 7
Ø Dmax.
Lmax.
F
0.45
4.5
8
72
0.45
5.5
73
0.45
6.8
FORM CA
FORM TFA
FORM TNA
1.5 ± 0.5
2000
2000
2000
8
2.0 ± 0.5
1000
2000
2000
8
2.5 ± 0.5
1000
2000
2000
Note
• For detailed tape dimensions please see www.vishay.com/doc?28360
Revision: 12-Apr-13
Document Number: 28308
140
For technical questions, contact: [email protected]
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
097 RLP 7
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Vishay BCcomponents
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Electrolytic capacitor 097 series
DESCRIPTION
CR
Rated capacitance at 120 Hz, tolerance ± 20 %
100 μF/16 V; ± 20 %
IR
Rated RMS ripple current at 120 Hz, 85 °C
Nominal case size: Ø 6.3 mm x 7 mm; form TFA
Max. leakage current after 2 min at UR
Ordering code: MAL209735101E6
Former 12NC: 2222 097 35101
IL2
tan 
Max. dissipation factor at 120 Hz
Z
Max. impedance at 100 kHz
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
ELECTRICAL DATA AND ORDERING INFORMATION
ORDERING CODE MAL2097.......
UR
(V)
6.3
10
16
25
35
50
63
CR
120 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
120 Hz
85 °C
(mA)
IL2
2 min
(μA)
tan 
120 Hz
22
4x7
31
3
0.24
Z
100 kHz
()
8.4
BULK
LONG LEADS
TAPED AMMOPACK
FORM
CA
F
(mm)
FORM
TFA
F
(mm)
FORM
TNA
F
(mm)
53229E6
1.5
33229E6
5.0
73229E6
2.5
47
5x7
47
3
0.24
4.6
53479E6
2.0
33479E6
5.0
73479E6
2.5
220
6.3 x 7
90
14
0.24
1.8
53221E6
2.5
33221E6
5.0
73221E6
2.5
33
5x7
43
4
0.20
3.7
54339E6
2.0
34339E6
5.0
74339E6
2.5
100
6.3 x 7
80
10
0.20
2.2
54101E6
2.5
34101E6
5.0
74101E6
2.5
10
4x7
25
3
0.16
10.0
55109E6
1.5
35109E6
5.0
75109E6
2.5
22
5x7
39
4
0.16
5.0
55229E6
2.0
35229E6
5.0
75229E6
2.5
47
6.3 x 7
59
8
0.16
3.5
55479E6
2.5
35479E6
5.0
75479E6
2.5
100
6.3 x 7
90
16
0.16
2.5
55101E6
2.5
35101E6
5.0
75101E6
2.5
33
6.3 x 7
53
9
0.14
2.6
56339E6
2.5
36339E6
5.0
76339E6
2.5
47
6.3 x 7
65
12
0.14
1.9
56479E6
2.5
36479E6
5.0
76479E6
2.5
4.7
4x7
20
3
0.12
10.0
50478E6
1.5
30478E6
5.0
70478E6
2.5
10
5x7
30
4
0.12
5.6
50109E6
2.0
30109E6
5.0
70109E6
2.5
22
6.3 x 7
47
8
0.12
3.0
50229E6
2.5
30229E6
5.0
70229E6
2.5
33
6.3 x 7
60
12
0.12
2.6
50339E6
2.5
30339E6
5.0
70339E6
2.5
3.3
4x7
18
3
0.10
14.0
51338E6
1.5
31338E6
5.0
71338E6
2.5
4.7
5x7
23
3
0.10
10.0
51478E6
2.0
31478E6
5.0
71478E6
2.5
10
6.3 x 7
34
5
0.10
5.5
51109E6
2.5
31109E6
5.0
71109E6
2.5
22
6.3 x 7
53
11
0.10
2.9
51229E6
2.5
31229E6
5.0
71229E6
2.5
0.10
4x7
1.3
3
0.08
170.0
58107E6
1.5
38107E6
5.0
78107E6
2.5
0.22
4x7
2.9
3
0.08
110.0
58227E6
1.5
38227E6
5.0
78227E6
2.5
0.47
4x7
7.9
3
0.08
66.0
58477E6
1.5
38477E6
5.0
78477E6
2.5
1.0
4x7
11
3
0.08
36.0
58108E6
1.5
38108E6
5.0
78108E6
2.5
2.2
4x7
17
3
0.08
19.0
58228E6
1.5
38228E6
5.0
78228E6
2.5
3.3
5x7
21
3
0.08
14.0
58338E6
2.0
38338E6
5.0
78338E6
2.5
4.7
6.3 x 7
26
3
0.08
10.0
58478E6
2.5
38478E6
5.0
78478E6
2.5
10
6.3 x 7
40
7
0.08
5.5
58109E6
2.5
38109E6
5.0
78109E6
2.5
Revision: 12-Apr-13
Document Number: 28308
141
For technical questions, contact: [email protected]
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
097 RLP 7
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Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Voltage
Us  1.15 x UR
Surge voltage
Urev  1 V
Reverse voltage
Current
After 2 min at UR
IL2  0.01 CR x UR or 3 μA (whichever is greater)
Calculated from tan max. and CR (see Table 2)
ESR = tan /2 f CR
Leakage current
Resistance
Equivalent series resistance (ESR)
RIPPLE CURRENT AND USEFUL LIFE
CCC205
3.3
IA
3.2
IR
3.1
3.0
2.8
2.6
2.4
Lifetime multiplier
2.2
0
1.
5
1.
2.0
0
2.
0
3.
1.8
0
4.
6
1.6
.0
15
20
30
70
40
(1)
(1)
50
IA = Actual ripple current at 120 Hz
IR = Rated ripple current at 120 Hz, 85 °C
1.2
1.0
0.8
0.5
0.0
10
1.4
50
60
70
80
90
100
Tamb (°C)
Useful life at 85 °C and IR applied: 1500 h
Fig. 5 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 1
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
Revision: 12-Apr-13
FREQUENCY (Hz)
IR MULTIPLIER
50
0.60
120
1.00
400
1.20
800
1.30
2000
1.40
Document Number: 28308
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097 RLP 7
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Vishay BCcomponents
Table 2
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/
EN 130 300,
subclause 4.13
PROCEDURE
(quick reference)
REQUIREMENTS
Tamb = 85 °C, UR applied;
1000 h
C/C: ± 20 %
tan  2 x spec. limit
IL2  spec. limit
Useful life
CECC 30301,
subclause 1.8.1
Tamb = 85 °C, UR and IR applied;
1500 h
C/C: ± 50 %
tan  3 x spec. limit
Z  3 x spec. limit
IL2  spec. limit
no short or open circuit
total failure percentage: 3 %
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN 130300,
subclause 4.17
Tamb = 85 °C; no voltage applied;
500 h
After test: UR to be applied for 30 min,
24 h to 48 h before measurement
C/C, tan , Z:
For requirements see 
“Endurance test” above
IL2  spec. limit
Revision: 12-Apr-13
Document Number: 28308
143
For technical questions, contact: [email protected]
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
038 RSU
www.vishay.com
Vishay BCcomponents
Aluminum Capacitors
Radial Standard Ultra Miniature
FEATURES
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte
• Radial leads, cylindrical aluminum case,
insulated with a blue sleeve
• Pressure relief for case Ø D  6.3 mm
• Charge and discharge proof
152 RMH
• Miniaturized, high CV-product per unit volume
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
higher
voltage
013 RLC
lower
leakage
current
038 RSU
longer
life
148 RUS
APPLICATIONS
• General purpose, industrial, automotive, consumer, and
audio-video
lower
height
• Coupling, decoupling,
buffering in SMPS
097 RLP 7
timing,
smoothing,
filtering,
134 RLP 5
• Portable and mobile equipment (small size, low mass)
Fig. 1
MARKING
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes (Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
VALUE
The capacitors are marked (where possible) with the
following information:
5 x 11 to 18 x 40
2.2 μF to 22 000 μF
± 20 %
6.3 V to 100 V
- 40 °C to + 85 °C
Endurance test at 85 °C:
Case size Ø D  8 mm
2000 h
Case size Ø D  10 mm
3000 h
Useful life at 85 °C:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Code indicating factory of origin
Case size Ø D  8 mm
2500 h
• Name of manufacturer
Case size Ø D  10 mm
3500 h
• Negative terminal identification
Useful life at 40 °C, 1.4 x IR applied:
Case size Ø D  8 mm
60 000 h
Case size Ø D  10 mm
90 000 h
Shelf life at 0 V, 85 °C
Based on sectional specification
Climatic category IEC 60068
Revision: 24-Apr-13
• Series number (038)
1000 h
IEC 60384-4/EN130300
40/085/56
Document Number: 28309
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038 RSU
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Vishay BCcomponents
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
UR (V)
CR
(μF)
2.2
3.3
4.7
10
22
33
47
100
220
330
470
1000
2200
3300
4700
6800
10 000
22 000
6.3








5 x 11
6.3 x 11
6.3 x 11
8 x 11.5
10 x 16
10 x 20
13 x 20
13 x 25
16 x 25
18 x 40
10







5 x 11
5 x 11
6.3 x 11
6.3 x 11
10 x 12
10 x 20
13 x 20
13 x 25
16 x 25
16 x 35

16







5 x 11
6.3 x 11
8 x 11.5
8 x 11.5
10 x 16
13 x 20
13 x 25
16 x 25
16 x 31
18 x 35

25







6.3 x 11
8 x 11.5
8 x 11.5
10 x 12
10 x 20
13 x 25
16 x 25
16 x 31
18 x 35


35






5 x 11
6.3 x 11
8 x 11.5
10 x 12
10 x 16
13 x 20
6 x 25
16 x 35
18 x 35



50




5 x 11
5 x 11
6.3 x 11
8 x 11.5
10 x 12
10 x 16
10 x 20
13 x 25
16 x 31
18 x 35




63
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
6.3 x 11
6.3 x 11
10 x 12
10 x 16
10 x 20
13 x 20
16 x 25
18 x 35





100
5 x 11
5 x 11
5 x 11
6.3 x 11
6.3 x 11
8 x 11.5
10 x 12
10 x 20
13 x 25
13 x 25
16 x 25
18 x 40






DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
ØD
L
F
Ød
15
min.
4 +1
0
5
min.
Fig. 2 - Form CA
+
Ød
Case Ø D = 5 mm to 8 mm; pitch F is 5 mm
Dimensions of pitch F see Table 1 and Table 2
F
Fig. 3 - Form CB:
Cut leads
Fig. 4 - Form TNA, Form TFA:
Taped in box (ammopack), straight leads
Fig. 5 - Form TFA:
Taped in box (ammopack), formed leads
Table 1
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
5 x 11
6.3 x 11
8 x 11.5
10 x 12
10 x 16
10 x 20
13 x 20
13 x 25
16 x 25
16 x 31
16 x 35
18 x 35
18 x 40
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
MASS
(g)
11
12
13
14
15
16
17
18
19
20
21
22
23
0.5
0.5
0.6
0.6
0.6
0.6
0.6
0.6
0.8
0.8
0.8
0.8
0.8
5.5
6.8
8.5
10.5
10.5
10.5
13.5
13.5
16.5
16.5
16.5
18.5
18.5
12.5
12.5
12.5
13.5
17.5
22.0
22.0
27.0
27.0
33.5
37.5
37.5
42.0
2.0 ± 0.5
2.5 ± 0.5
3.5 ± 0.5
5.0 ± 0.5
5.0 ± 0.5
5.0 ± 0.5
5.0 ± 0.5
5.0 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
 0.4
0.6
1.1
1.6
1.9
2.2
4.0
5.0
8.0
 9.0
11.0
 14.5
 16.0
FORM
CA
5000
5000
5000
3000
2500
2000
1500
1000
750
600
500
400
400
PACKAGING QUANTITIES
FORM
FORM
CB
TFA, TNA

2000

2000

1000
1000
500
1000
500
800
500
400
300
400
300
200
200
200
200
200

150

150

Note
• Detailed tape dimensions see section “Packaging”.
Revision: 24-Apr-13
Document Number: 28309
145
For technical questions, contact: [email protected]
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
038 RSU
www.vishay.com
Vishay BCcomponents
ORDERING EXAMPLE
ELECTRICAL DATA
Electrolytic capacitor 038 series
SYMBOL
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
470 μF/25 V; ± 20 %
IR
Rated RMS ripple current at 100 Hz, 85 ºC
Nominal case size:Ø 10 mm x 12 mm; form TFA
IL2
Max. leakage current after 2 min at UR
Ordering code: MAL2 038 36471 E3 
Former 12NC: 2222 038 36471
tan 
Max. dissipation factor at 100 Hz
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
ORDERING CODE MAL2038 .......
UR
(V)
6.3
10
16
25
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 Hz
85 ºC
(mA)
IL2
2 min
(μA)
tan 
100 Hz
220
330
470
1000
2200
3300
4700
6800
10 000
22 000
100
220
330
470
1000
2200
3300
4700
6800
10 000
100
220
330
470
1000
2200
3300
4700
6800
10 000
100
220
330
470
1000
2200
3300
4700
6800
5 x 11
6.3 x 11
6.3 x 11
8 x 11.5
10 x 16
10 x 20
13 x 20
13 x 25
16 x 25
18 x 40
5 x 11
5 x 11
6.3 x 11
6.3 x 11
10 x 12
10 x 20
13 x 20
13 x 25
16 x 25
16 x 35
5 x 11
6.3 x 11
8 x 11.5
8 x 11.5
10 x 16
13 x 20
13 x 25
16 x 25
16 x 31
18 x 35
6.3 x 11
8 x 11.5
8 x 11.5
10 x 12
10 x 20
13 x 25
16 x 25
16 x 31
18 x 35
200
270
320
540
785
1185
1545
1880
2330
3320
145
160
290
350
650
1070
1420
1780
2220
2760
160
260
370
440
785
1295
1655
2090
2520
2920
190
320
440
545
955
1540
1975
2420
2880
14
21
30
63
139
208
296
428
630
1386
10
22
33
47
100
220
330
470
680
1000
16
35
53
75
160
352
528
752
1088
1600
25
55
83
118
250
550
825
1175
1700
0.23
0.23
0.23
0.23
0.25
0.27
0.29
0.33
0.41
0.65
0.20
0.20
0.20
0.20
0.20
0.22
0.24
0.26
0.30
0.38
0.16
0.16
0.16
0.16
0.16
0.18
0.20
0.22
0.26
0.34
0.14
0.14
0.14
0.14
0.14
0.16
0.18
0.20
0.24
Revision: 24-Apr-13
BULK PACKAGING
LONG LEADS
FORM
CA
53221E3
53331E3
53471E3
53102E3
53222E3
53332E3
53472E3
53682E3
53103E3
53223E3
54101E3
54221E3
54331E3
54471E3
54102E3
54222E3
54332E3
54472E3
54682E3
54103E3
55101E3
55221E3
55331E3
55471E3
55102E3
55222E3
55332E3
55472E3
55682E3
55103E3
56101E3
56221E3
56331E3
56471E3
56102E3
56222E3
56332E3
56472E3
56682E3
F
(mm)
2.0
2.5
2.5
3.5
5.0
5.0
5.0
5.0
7.5
7.5
2.0
2.0
2.5
2.5
5.0
5.0
5.0
5.0
7.5
7.5
2.0
2.5
3.5
3.5
5.0
5.0
5.0
7.5
7.5
7.5
2.5
3.5
3.5
5.0
5.0
5.0
7.5
7.5
7.5
CUT LEADS
FORM
CB
63222E3
63332E3
63472E3
63682E3
63103E3
63223E3
64102E3
64222E3
64332E3
64472E3
64682E3
64103E3
65102E3
65222E3
65332E3
65472E3
65682E3
65103E3
66471E3
66102E3
66222E3
66332E3
66472E3
66682E3
F
(mm)
5.0
5.0
5.0
5.0
7.5
7.5
5.0
5.0
5.0
5.0
7.5
7.5
5.0
5.0
5.0
7.5
7.5
7.5
5.0
5.0
5.0
7.5
7.5
7.5
TAPED AMMOPACK
FORM
TFA
33221E3
33331E3
33471E3
33102E3
33222E3
33332E3
33472E3
33682E3
33103E3
34101E3
34221E3
34331E3
34471E3
34102E3
34222E3
34332E3
34472E3
34682E3
35101E3
35221E3
35331E3
35471E3
35102E3
35222E3
35332E3
35472E3
35682E3
36101E3
36221E3
36331E3
36471E3
36102E3
36222E3
36332E3
36472E3
-
F
(mm)
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
7.5
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
7.5
5.0
5.0
5.0
5.0
5.0
5.0
5.0
7.5
7.5
5.0
5.0
5.0
5.0
5.0
5.0
7.5
7.5
-
FORM
TNA
73221E3
73331E3
73471E3
73102E3
74101E3
74221E3
74331E3
74471E3
75101E3
75221E3
75331E3
75471E3
76101E3
76221E3
76331E3
-
F
(mm)
2.5
2.5
2.5
3.5
2.5
2.5
2.5
2.5
2.5
2.5
3.5
3.5
2.5
3.5
3.5
-
Document Number: 28309
146
For technical questions, contact: [email protected]
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
038 RSU
www.vishay.com
Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
ORDERING CODE MAL2038 .......
UR
(V)
35
50
63
100
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 Hz
85 ºC
(mA)
IL2
2 min
(μA)
tan 
100 Hz
BULK PACKAGING
LONG LEADS
TAPED AMMOPACK
CUT LEADS
FORM
CA
F
(mm)
FORM
CB
F
(mm)
FORM
TFA
F
(mm)
FORM
TNA
F
(mm)
47
5 x 11
130
17
0.12
50479E3
2.0
-
-
30479E3
5.0
70479E3
2.5
100
6.3 x 11
210
35
0.12
50101E3
2.5
-
-
30101E3
5.0
70101E3
2.5
220
8 x 11.5
385
77
0.12
50221E3
3.5
-
-
30221E3
5.0
70221E3
3.5
330
10 x 12
490
116
0.12
50331E3
5.0
60331E3
5.0
30331E3
5.0
-
-
470
10 x 16
740
165
0.12
50471E3
5.0
60471E3
5.0
30471E3
5.0
-
-
1000
13 x 20
1145
350
0.12
50102E3
5.0
60102E3
5.0
30102E3
5.0
-
-
2200
16 x 25
1785
770
0.14
50222E3
7.5
60222E3
7.5
30222E3
7.5
-
-
3300
16 x 35
2275
1155
0.16
50332E3
7.5
60332E3
7.5
-
-
-
-
4700
18 x 35
2700
1645
0.18
50472E3
7.5
60472E3
7.5
-
-
-
-
22
5 x 11
95
11
0.10
51229E3
2.0
-
-
31229E3
5.0
71229E3
2.5
33
5 x 11
125
17
0.10
51339E3
2.0
-
-
31339E3
5.0
71339E3
2.5
47
6.3 x 11
165
24
0.10
51479E3
2.5
-
-
31479E3
5.0
71479E3
2.5
100
8 x 11.5
260
50
0.10
51101E3
3.5
-
-
31101E3
5.0
71101E3
3.5
220
10 x 12
455
110
0.10
51221E3
5.0
61221E3
5.0
31221E3
5.0
-
-
330
10 x 16
585
165
0.10
51331E3
5.0
61331E3
5.0
31331E3
5.0
-
-
470
10 x 20
755
235
0.10
51471E3
5.0
61471E3
5.0
31471E3
5.0
-
-
1000
13 x 25
1340
500
0.10
51102E3
5.0
61102E3
5.0
31102E3
5.0
-
-
2200
16 x 31
1885
1100
0.12
51222E3
7.5
61222E3
7.5
31222E3
7.5
-
-
3300
18 x 35
2500
1650
0.14
51332E3
7.5
61332E3
7.5
-
-
-
-
2.2
5 x 11
28
3.0
0.09
58228E3
2.0
-
-
38228E3
5.0
78228E3
2.5
3.3
5 x 11
34
3.0
0.09
58338E3
2.0
-
-
38338E3
5.0
78338E3
2.5
4.7
5 x 11
45
3.0
0.09
58478E3
2.0
-
-
38478E3
5.0
78478E3
2.5
10
5 x 11
70
6.3
0.09
58109E3
2.0
-
-
38109E3
5.0
78109E3
2.5
22
5 x 11
105
14
0.09
58229E3
2.0
-
-
38229E3
5.0
78229E3
2.5
33
6.3 x 11
140
21
0.09
58339E3
2.5
-
-
38339E3
5.0
78339E3
2.5
47
6.3 x 11
170
30
0.09
58479E3
2.5
-
-
38479E3
5.0
78479E3
2.5
100
10 x 12
320
63
0.09
58101E3
5.0
68101E3
5.0
38101E3
5.0
-
-
220
10 x 16
490
139
0.09
58221E3
5.0
68221E3
5.0
38221E3
5.0
-
-
330
10 x 20
710
208
0.09
58331E3
5.0
68331E3
5.0
38331E3
5.0
-
-
470
13 x 20
900
296
0.09
58471E3
5.0
68471E3
5.0
38471E3
5.0
-
-
1000
16 x 25
1560
630
0.09
58102E3
7.5
68102E3
7.5
38102E3
7.5
-
-
2200
18 x 35
1950
1386
0.11
58222E3
7.5
68222E3
7.5
-
-
-
-
2.2
5 x 11
33
3.0
0.08
59228E3
2.0
-
-
39228E3
5.0
79228E3
2.5
3.3
5 x 11
40
3.3
0.08
59338E3
2.0
-
-
39338E3
5.0
79338E3
2.5
4.7
5 x 11
48
4.7
0.08
59478E3
2.0
-
-
39478E3
5.0
79478E3
2.5
10
6.3 x 11
80
10
0.08
59109E3
2.5
-
-
39109E3
5.0
79109E3
2.5
22
6.3 x 11
115
22
0.08
59229E3
2.5
-
-
39229E3
5.0
79229E3
2.5
33
8 x 11.5
145
33
0.08
59339E3
3.5
-
-
39339E3
5.0
79339E3
3.5
47
10 x 12
235
47
0.08
59479E3
5.0
69479E3
5.0
39479E3
5.0
-
-
100
10 x 20
370
100
0.08
59101E3
5.0
69101E3
5.0
39101E3
5.0
-
-
220
13 x 25
675
220
0.08
59221E3
5.0
69221E3
5.0
39221E3
5.0
-
-
330
13 x 25
825
330
0.08
59331E3
5.0
69331E3
5.0
39331E3
5.0
-
-
470
16 x 25
1070
470
0.08
59471E3
7.5
69471E3
7.5
39471E3
7.5
-
-
1000
18 x 40
2410
1000
0.08
59102E3
7.5
69102E3
7.5
-
-
-
-
Revision: 24-Apr-13
Document Number: 28309
147
For technical questions, contact: [email protected]
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
038 RSU
www.vishay.com
Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Voltage
Us  1.15 x UR
Surge voltage
Urev  1 V
Reverse voltage
Current
Leakage current
After 2 min at UR
IL2  0.01 CR x UR or 3 μA,
whichever is greater
After 5 min at UR
IL5  0.002 CR x UR + 3 μA
Inductance
Case Ø D  8 mm
Typ. 13 nH
Case Ø D = 10 mm
Typ. 16 nH
Case Ø D  12.5 mm
Typ. 18 nH
Calculated from tan max. and CR (see Table 2)
ESR = tan /2 f CR
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR)
CAPACITANCE (C)
1.2
C
C0
1.1
1
2
3
1.1
C
C0
1.0
3
2
1.0
0.9
3
0.9
2
0.8
0.8
1
Curve 1: 10 V
Curve 2: 63 V
Curve 3: 100 V
0.7
1
0.7
Curve 1: 10 V
Curve 2: 63 V
Curve 3: 100 V
0.6
0.6
- 60
- 40
- 20
0
20
40
60
C0 = Capacitance at 20 °C, 100 Hz
Fig. 6 - Typical multiplier of capacitance
as a function of ambient temperature
Revision: 24-Apr-13
80
Tamb (°C)
10
102
103
f (Hz)
C0 = Capacitance at 20 °C, 100 Hz
104
Tamb (20 °C)
Fig. 7 - Typical multiplier of capacitance
as a function of frequency
Document Number: 28309
148
For technical questions, contact: [email protected]
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
038 RSU
www.vishay.com
Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
CCC205
3.3
IA
3.2
IR
3.1
3.0
2.8
2.6
2.4
lifetime multiplier
2.2
0
1.
5
1.
2.0
0
2.
0
3.
1.8
0
4.
1.6
0
6.
15
20
(1)
30
50
70
1.2
1.0
0.8
0.5
0.0
10
1.4
IA = Actual ripple current at 100 Hz
IR = Rated ripple current at 100 Hz, 85 °C
Useful life at 85 °C and IR applied:
Case Ø D ≤ 8 mm: 2500 h
Case Ø D ≥ 10 mm: 3500 h
40
50
60
70
80
90
100
Tamb (°C)
Fig. 8 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 3
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
50
100
500
1000
10 000
IR MULTIPLIER
CR = 100 μF TO 1000 μF
0.75
1.00
1.20
1.30
1.35
CR < 100 μF
0.70
1.00
1.30
1.40
1.50
CR > 1000 μF
0.80
1.00
1.10
1.12
1.15
Table 4
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
REQUIREMENTS
Endurance
IEC 60384-4/
EN130300
subclause 4.13
Tamb = 85 °C; UR applied;
Case Ø  8 mm: 2000 h
Case Ø  10 mm: 3000 h
C/C: ± 20 %
tan   2 x spec. limit
IL5  spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 85 °C; UR and IR applied;
Case Ø  8 mm: 2500 h
Case Ø  10 mm: 3500 h
C/C: ± 50 %
tan   3 x spec. limit
IL5  spec. limit
no short or open circuit
total failure percentage: 1 %
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN130300
subclause 4.17
Tamb = 85 °C; no voltage applied; 1000 h
after test: UR to be applied for 30 min, 24 h to 48 h
before measurement
C/C: ± 20 %
tan   2 x spec. limit
IL5  3 x spec. limit
Surge
IEC 60384-4/
EN130300
subclause 4.14
From source of 1.15 x UR:
RC = 0.1 s ± 0.05 s;
1 000 cycles of 30 s on, 
330 s off, at 85 °C
C/C: ± 25 %
tan   1.5 x spec. limit
IL5  spec. limit
Revision: 24-Apr-13
Document Number: 28309
149
For technical questions, contact: [email protected]
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
013 RLC
www.vishay.com
Vishay BCcomponents
Aluminum Capacitors
Radial Low Leakage Current
FEATURES
•
•
•
•
•
013 RLC
standard
leakage current
Useful life at + 85 °C: 3000 h
Low leakage current, low energy consumption
Miniaturized, high CV-product per unit volume
Natural pitch 2.5 mm and 5 mm
Polarized aluminum electrolytic capacitors, non-solid
electrolyte
• Radial leads, cylindrical aluminum case, all-insulated (light
blue)
• Charge and discharge proof
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
036 RSP
Fig. 1
APPLICATIONS
• Telecommunication, automotive, audio-video, EDP and
industrial
• Coupling, decoupling, buffering, timing, energy storage
• Portable and mobile equipment
• Low surface demand on printed-circuit board
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes
(Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
Leakage current after 2 min:
UR = 6.3 V to 25 V
UR = 35 V and 50 V
Endurance test at 85 °C
Useful life at 105 °C
Useful life at 85 °C
Useful life at 40 °C, 1.4 x IR applied
Shelf life at 0 V, 85 °C
Based on sectional specification
Climatic category IEC 60068
VALUE
5 x 11 and 8.2 x 11
2.2 μF to 470 μF
± 20 %; ± 10 % on request
6.3 V to 50 V
- 40 °C to + 85 °C
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Date code in accordance with IEC 60062
• Code indicating factory of origin
• Name of manufacturer
• “-”-sign on top to identify the negative terminal
• Series number (013)
0.002 CR x UR or 0.7 μA,
whichever is greater
0.002 CR x UR + 1 μA
2000 h
750 h
3000 h
80 000 h
500 h
IEC 60384-4/EN 130300
40/085/56
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
2.2
3.3
4.7
10
22
33
47
68
100
220
330
470
Revision: 26-Apr-13
UR (V)
6.3
8.2 x 11
8.2 x 11
10
5 x 11
5 x 11
5 x 11
8.2 x 11
-
16
5 x 11
5 x 11
-
25
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
8.2 x 11
-
35
5 x 11
8.2 x 11
-
50
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
8.2 x 11
8.2 x 11
8.2 x 11
-
Document Number: 28313
150
For technical questions, contact: [email protected]
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
013 RLC
www.vishay.com
Vishay BCcomponents
DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
ØD
L
15 min.
4 +1
0
F
Ød
Ød
5 min.
5 ± 0.5
Fig. 2 - Form CA: Long leads
Fig. 3 - Form CB: Cut leads
Case Ø D x L = 5 mm x 11 mm and 8.2 mm x 11 mm
Pitch F = 5 mm
Case Ø D x L = 5 mm x 11 mm only
Pitch F = 2.5 mm
Fig. 4 - Form TFA: Taped in box (ammopack)
Fig. 5 - Form TNA: Taped in box (ammopack)
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
MASS
(g)
5 x 11
11
0.5
5.5
12
2.5 ± 0.5
8.2 x 11
13
0.6
8.7
12
5.0 ± 0.5
FORM
CA, CB
FORM
TFA, TNA
 0.4
1000
2000
1.1
1000
1000
Note
• For detailed tape dimensions, please see www.vishay.com/doc?28360.
Revision: 26-Apr-13
Document Number: 28313
151
For technical questions, contact: [email protected]
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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ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Electrolytic capacitor 013 series
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
IR
Rated RMS ripple current at 100 Hz, 85 °C
IL2
Max. leakage current after 2 min at UR
tan 
100 μF/16 V; ± 20 %
Nominal case size: Ø 8.2 mm x 11 mm; Form TFA
Ordering Code: MAL201335101E3
Former 12NC: 2222 013 35101
Max. dissipation factor at 100 Hz
Z
Max. impedance at 10 kHz and + 20 °C
Note
• Unless otherwise specified, all electrical values in Table 1 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 1
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
35
50
ORDERING CODE MAL2013.......
CR
100 Hz
(μF)
NOMINAL
CASE
SIZE
ØDxL
(mm)
IR
100 Hz
85 °C
(mA)
IL2
2 min
(μA)
tan 
100 Hz
330
8.2 x 11
210
4.2
0.2
0.9
53331E3
5.0
63331E3
5.0
33331E3
5.0
-
-
470
8.2 x 11
250
5.9
0.2
0.64
53471E3
5.0
63471E3
5.0
33471E3
5.0
-
-
47
5 x 11
75
1.0
0.16
2.8
54479E3
2.5
-
-
34479E3
5.0
74479E3
2.5
Z
10 kHz
()
BULK PACKAGING
LONG LEADS
FORM
CA
F
(mm)
CUT LEADS
FORM
CB
F
(mm)
TAPED AMMOPACK
FORM
TFA
F
(mm)
FORM
TNA
F
(mm)
68
5 x 11
90
1.4
0.16
2.5
54689E3
2.5
-
-
34689E3
5.0
74689E3
2.5
100
5 x 11
110
2.0
0.16
1.7
54101E3
2.5
-
-
34101E3
5.0
74101E3
2.5
220
8.2 x 11
190
4.4
0.16
0.9
54221E3
5.0
64221E3
5.0
34221E3
5.0
-
-
33
5 x 11
70
1.1
0.13
2.8
55339E3
2.5
-
-
35339E3
5.0
75339E3
2.5
47
5 x 11
85
1.5
0.13
2.1
55479E3
2.5
-
-
35479E3
5.0
75479E3
2.5
100
8.2 x 11
150
3.2
0.13
1.0
55101E3
5.0
65101E3
5.0
35101E3
5.0
-
-
2.2
5 x 11
10
0.7
0.06
18
56228E3
2.5
-
-
36228E3
5.0
76228E3
2.5
3.3
5 x 11
18
0.7
0.06
12
56338E3
2.5
-
-
36338E3
5.0
76338E3
2.5
4.7
5 x 11
25
0.7
0.06
8.5
56478E3
2.5
-
-
36478E3
5.0
76478E3
2.5
10
5 x 11
50
0.7
0.06
4.0
56109E3
2.5
-
-
36109E3
5.0
76109E3
2.5
22
5 x 11
75
1.1
0.08
2.7
56229E3
2.5
-
-
36229E3
5.0
76229E3
2.5
47
8.2 x 11
130
2.4
0.08
1.3
56479E3
5.0
66479E3
5.0
36479E3
5.0
-
-
33
5 x 11
70
3.3
0.13
2.8
50339E3
2.5
-
-
30339E3
5.0
70339E3
2.5
100
8.2 x 11
150
8.0
0.13
1.0
50101E3
5.0
60101E3
5.0
30101E3
5.0
-
-
2.2
5 x 11
20
1.2
0.06
18
51228E3
2.5
-
-
31228E3
5.0
71228E3
2.5
3.3
5 x 11
32
1.3
0.06
12
51338E3
2.5
-
-
31338E3
5.0
71338E3
2.5
4.7
5 x 11
38
1.5
0.06
8.5
51478E3
2.5
-
-
31478E3
5.0
71478E3
2.5
10
5 x 11
55
2.0
0.06
4.0
51109E3
2.5
-
-
31109E3
5.0
71109E3
2.5
22
5 x 11
75
3.2
0.08
2.7
51229E3
2.5
-
-
31229E3
5.0
71229E3
2.5
33
8.2 x 11
110
4.3
0.06
1.4
51339E3
5.0
61339E3
5.0
31339E3
5.0
-
-
47
8.2 x 11
130
5.7
0.08
1.3
51479E3
5.0
61479E3
5.0
31479E3
5.0
-
-
68
8.2 x 11
150
7.8
0.08
1.2
51689E3
5.0
61689E3
5.0
31689E3
5.0
-
-
Revision: 26-Apr-13
Document Number: 28313
152
For technical questions, contact: [email protected]
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
013 RLC
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Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Voltage
Surge voltage
Us  1.3 x UR
Reverse voltage
Urev  1 V
Current
After 2 min at UR:
Leakage current
UR = 6.3 V to 25 V
IL2  0.002 CR x UR or 0.7 μA, whichever is greater
UR = 35 V and 50 V
IL2  0.002 CR x UR + 1 μA
Case Ø D x L = 5 mm x 11 mm
Typ. 13 nH
Case Ø D x L = 8.2 mm x 11 mm
Typ. 16 nH
Calculated from tan max. and CR (see Table 1)
ESR = tan /2 f CR
Inductance
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR)
CAPACITANCE (C)
1.1
1.1
4
C
C
C
C
1
0
0
6
1
1.0
1.0
1
1
2
3
0.9
2
0.9
4
Curve 1: 25 V and 50 V, 2.2 µF
Curve 2: 25 V and 50 V, 3.3 µF to 6.8 µF
Curve 3: 25 V and 50 V, 10 µF to 68 µF
Curve 4: 6.3 V, 10 V, 16 V, 35 V
0.8
3
4
Curve 1: 25 V and 50 V, 2.2 µF
Curve 2: 25 V and 50 V, 3.3 µF to 6.8 µF
Curve 3: 25 V and 50 V, 10 µF and 15 µF
Curve 4: 25 V and 50 V, 22 µF to 68 µF
Curve 5: 16 V and 35 V
Curve 6: 6.3 V and 10 V
0.8
5
6
0.7
0.7
- 40
- 20
0
20
40
60
100
80
C0 = Capacitance at 20 °C, 100 Hz
Tamb (°C)
10
10
2
3
4
10
10
C0 = Capacitance at 20 °C, 100 Hz
Fig. 6 - Typical multiplier of capacitance as a function
of ambient temperature
f (Hz)
105
Tamb (°C)
Fig. 7 - Typical multiplier of capacitance as
a function of frequency
LEAKAGE CURRENT
10
1.0
I
I0
I
I0
0.8
0.6
1
0.4
0.2
10-1
0
0
20
40
60
80
I0 = Leakage current during continuous operation
at 20 °C and UR
Fig. 8 - Typical multiplier of leakage current
as a function of ambient temperature
Revision: 26-Apr-13
100
Tamb (°C)
0
0.2
0.4
0.6
I0 = Leakage current during continuous operation
at 20 °C and UR
0.8
U
UR
1.0
Fig. 9 - Typical multiplier of leakage current as a function of time
Document Number: 28313
153
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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Vishay BCcomponents
LEAKAGE CURRENT
10
I
I
0
1
10 -1
10 -2
103
102
10
1
I0 = Leakage current
t (s)
Fig. 10 - Typical multiplier of leakage current
as a function of time
RIPPLE CURRENT AND USEFUL LIFE
CCC205
3.3
IA
IR
3.2
3.1
3.0
2.8
2.6
2.4
Lifetime multiplier
2.2
0
1.
5
1.
2.0
0
2.
0
3.
0
4.
1.8
10
Useful life at 85 °C and IR ripple current load
30
(1)
(1)
50
70
IR = Ripple current at 85 °C, 100 Hz
1.4
1.2
1.0
0.8
0.5
0.0
15
20
IA = Actual ripple current at 100 Hz
0
6.
1.6
40
50
60
70
80
90
100
Tamb (°C)
Fig. 11 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 2
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 6.3 V
UR = 10 V, 16 V and 35 V
UR = 25 V and 50 V
50
0.90
0.85
0.80
100
1.00
1.00
1.00
300
1.12
1.20
1.25
1000
1.20
1.30
1.40
3000
1.25
1.35
1.50
10 000
1.30
1.40
1.60
Revision: 26-Apr-13
Document Number: 28313
154
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
013 RLC
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Vishay BCcomponents
Table 3
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/
EN130300, subclause
4.13
PROCEDURE
REQUIREMENTS
Tamb = 85 °C; UR applied; 2000 h
UR  6.3 V; C/C: + 15 %/- 30 %
UR > 6.3 V; C/C: ± 15 %
tan  1.3 x spec. limit
Z  2 x spec. limit
IL2  spec. limit
Useful life
CECC 30301,
subclause 1.8.1
Tamb = 85 °C; UR and IR applied; 3000 h
UR  6.3 V; C/C: + 45 %/- 50 %
UR > 6.3 V; C/C: ± 45 %
tan   3 x spec. limit
Z  3 x spec. limit
IL2  spec. limit
no short or open circuit
total failure percentage: 1 %
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN130300,
subclause 4.17
Tamb = 85 °C; no voltage applied; 500 h
After test: UR to be applied for 30 min, 
24 h to 48 h before measurement
C/C, tan , Z: 
For requirements 
see “Endurance test” above
IL2  2 x spec. limit
Revision: 26-Apr-13
Document Number: 28313
155
For technical questions, contact: [email protected]
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
036 RSP
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Vishay BCcomponents
Aluminum Capacitors
Radial Semi-Professional
FEATURES
• Useful life: 3000 h at +85 °C,
750 h at +105 °C
• Reduced leakage current
• Miniaturized, high CV-product per unit volume
• Natural pitch 2.5 mm and 5 mm
• Polarized aluminum electrolytic capacitors, non-solid
electrolyte
• Radial leads, cylindrical aluminum case, all-insulated (light
blue)
• Charge and discharge proof
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
148 RUS
higher
CV- values
031 RLC
low
leakage
current
036 RSP
longer life
116 RLL
APPLICATIONS
miniaturized
• Automotive, telecommunication, industrial, EDP and
audio-video
• Coupling, decoupling, smoothing, filtering, buffering,
timing
• Portable and mobile equipment (small size, low mass)
038 RSU
Fig. 1
QUICK REFERENCE DATA
DESCRIPTION
VALUE
Nominal case sizes (Ø D x L in mm)
5 x 11 and 8.2 x 11
2.2 μF to 470 μF
Rated capacitance range, CR
± 20 %; ± 10 % on request
Tolerance on CR
6.3 V to 100 V
Rated voltage range, UR
Category temperature range
-55 °C to +85 °C
Endurance test at 85 °C
2000 h
Useful life at 105 °C
750 h
Useful life at 85 °C
3000 h
80 000 h
Useful life at 40 °C, 1.4 x IR applied
Shelf life at 0 V, 85 °C
500 h
Based on sectional specification
IEC 60384-4/EN130300
Climatic category IEC 60068
55/085/56
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Date code in accordance with IEC 60062
• Code indicating factory of origin
• Name of manufacturer
• Minus-sign on top to identify the negative terminal
• Series number (036)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
2.2
3.3
4.7
6.8
10
15
22
33
47
68
100
150
220
330
470
6.3
5 x 11
8.2 x 11
-
Revision: 19-Aug-14
10
5 x 11
5 x 11
8.2 x 11
8.2 x 11
16
5 x 11
5 x 11
8.2 x 11
8.2 x 11
8.2 x 11
-
25
5 x 11
8.2 x 11
8.2 x 11
-
UR (V)
35
5 x 11
5 x 11
8.2 x 11
-
40
5 x 11
8.2 x 11
-
50
5 x 11
5 x 11
8.2 x 11
8.2 x 11
-
63
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
8.2 x 11
5 x 11
5 x 11
8.2 x 11
8.2 x 11
8.2 x 11
8.2 x 11
-
100
8.2 x 11
8.2 x 11
-
Document Number: 28312
156
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
036 RSP
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Vishay BCcomponents
DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
ØD
L
L
+
-
+
-
4 +0 1
15 min.
Ød
F
Ød
5 min.
5 ± 0.5
Case Ø D x L = 8.2 mm x 11 mm only
Fig. 2 - Form CA: long leads
Fig. 3 - Form CB: cut leads
Pitch F = 2.5 mm
Case Ø D x L = 5 mm x 11 mm only
Pitch F = 5 mm
Case Ø D x L = 5 mm x 11 mm and 8.2 mm x 11 mm
Fig. 4 - Form TFA: taped in box (ammopack)
Fig. 5 - Form TNA: taped in box (ammopack)
Table 1
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
MASS
(g)
5 x 11
11
0.5
5.5
12
2.5 ± 0.5
8.2 x 11
13
0.6
8.7
12
5.0 ± 0.5
PACKAGING QUANTITIES
FORM
CA, CB
FORM
TFA, TNA
 0.4
1000
2000
1.1
1000
1000
Note
• For tape dimensions, please see www.vishay.com/doc?28360.
Revision: 19-Aug-14
Document Number: 28312
157
For technical questions, contact: [email protected]
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
036 RSP
www.vishay.com
Vishay BCcomponents
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
CR
IR
IL1
tan 
Z
DESCRIPTION
Rated capacitance at 100 Hz, tolerance ± 20 %
Rated RMS ripple current at 100 Hz, 85 °C
Max. leakage current after 1 min at UR
Max. dissipation factor at 100 Hz
Max. impedance at 10 kHz and 20 °C
Electrolytic capacitor 036 series
100 μF/16 V; ± 20 %
Nominal case size: Ø 5 x 11 mm; Form TFA
Ordering code: MAL203635101E3
Former 12NC: 2222 036 35101
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
35
40
50
63
100
CR
100 Hz
(μF)
NOMINAL
CASE
SIZE
ØDxL
(mm)
100
330
47
150
220
470
33
100
150
220
330
68
100
220
22
47
150
15
68
10
33
47
100
2.2
3.3
4.7
6.8
10
10
15
22
22
33
47
68
10
22
5 x 11
8.2 x 11
5 x 11
5 x 11
8.2 x 11
8.2 x 11
5 x 11
5 x 11
8.2 x 11
8.2 x 11
8.2 x 11
5 x 11
8.2 x 11
8.2 x 11
5 x 11
5 x 11
8.2 x 11
5 x 11
8.2 x 11
5 x 11
5 x 11
8.2 x 11
8.2 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
8.2 x 11
5 x 11
5 x 11
8.2 x 11
8.2 x 11
8.2 x 11
8.2 x 11
8.2 x 11
8.2 x 11
Revision: 19-Aug-14
IR
IL2
100 Hz
tan 
2 min
85 °C
100 Hz
(μA)
(mA)
130
300
95
150
260
400
90
160
230
280
390
140
210
310
87
130
270
72
180
60
110
160
250
25
38
45
55
70
120
80
100
150
160
190
210
80
110
7
16
6
12
17
31
7
13
18
24
35
13
18
36
8
13
35
7
20
6
13
18
33
4
5
5
6
7
7
9
11
11
16
21
29
9
16
0.20
0.20
0.16
0.20
0.16
0.20
0.14
0.16
0.14
0.16
0.16
0.14
0.12
0.14
0.10
0.12
0.12
0.10
0.10
0.08
0.10
0.08
0.10
0.06
0.06
0.06
0.06
0.06
0.04
0.07
0.08
0.05
0.06
0.07
0.08
0.06
0.06
Z
10 kHz
()
1.7
0.52
2.8
1.3
0.59
0.43
2.7
1.6
0.6
0.55
0.48
1.8
0.7
0.55
2.7
1.9
0.6
3.7
0.81
4.5
2.1
0.96
0.7
18
12
8.5
5.9
4.0
2.8
3.1
2.7
1.4
1.2
1.0
0.88
3.5
1.8
ORDERING CODE MAL2036.......
BULK PACKAGING
TAPED AMMOPACK
LONG LEADS
CUT LEADS
FORM
F
FORM
F
FORM
F
FORM
F
CA
(mm)
CB
(mm)
TFA
(mm)
TNA
(mm)
53101E3
2.5
33101E3
5.0
73101E3
2.5
53331E3
5.0
63331E3
5.0
33331E3
5.0
54479E3
2.5
34479E3
5.0
74479E3
2.5
54151E3
2.5
34151E3
5.0
74151E3
2.5
54221E3
5.0
64221E3
5.0
34221E3
5.0
54471E3
5.0
64471E3
5.0
34471E3
5.0
55339E3
2.5
35339E3
5.0
75339E3
2.5
55101E3
2.5
35101E3
5.0
75101E3
2.5
55151E3
5.0
65151E3
5.0
35151E3
5.0
55221E3
5.0
65221E3
5.0
35221E3
5.0
55331E3
5.0
65331E3
5.0
35331E3
5.0
56689E3
2.5
36689E3
5.0
76689E3
2.5
56101E3
5.0
66101E3
5.0
36101E3
5.0
56221E3
5.0
66221E3
5.0
36221E3
5.0
90001E3
2.5
90027E3
5.0
90389E3
2.5
90094E3
2.5
90098E3
5.0
90391E3
2.5
90099E3
5.0
90101E3
5.0
90103E3
5.0
57159E3
2.5
37159E3
5.0
77159E3
2.5
57689E3
5.0
67689E3
5.0
37689E3
5.0
90004E3
2.5
90028E3
5.0
90392E3
2.5
90104E3
2.5
90108E3
5.0
90393E3
2.5
90011E3
5.0
90012E3
5.0
90031E3
5.0
90109E3
5.0
90111E3
5.0
90113E3
5.0
58228E3
2.5
38228E3
5.0
78228E3
2.5
58338E3
2.5
38338E3
5.0
78338E3
2.5
58478E3
2.5
38478E3
5.0
78478E3
2.5
58688E3
2.5
38688E3
5.0
78688E3
2.5
58109E3
2.5
38109E3
5.0
78109E3
2.5
90036E3
5.0
90041E3
5.0
90181E3
5.0
58159E3
2.5
38159E3
5.0
78159E3
2.5
58229E3
2.5
38229E3
5.0
78229E3
2.5
90117E3
5.0
90118E3
5.0
90139E3
5.0
58339E3
5.0
68339E3
5.0
38339E3
5.0
58479E3
5.0
68479E3
5.0
38479E3
5.0
58689E3
5.0
68689E3
5.0
38689E3
5.0
59109E3
5.0
69109E3
5.0
39109E3
5.0
59229E3
5.0
69229E3
5.0
39229E3
5.0
-
Document Number: 28312
158
For technical questions, contact: [email protected]
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Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
Voltage
Surge voltage
Reverse voltage
Current
CONDITIONS
VALUE
Us  1.15 UR
Urev  1 V
After 1 min
UR = 6.3 V to 100 V
After 5 min
UR = 6.3 V to 100 V
Leakage current
IL1  0.006 CR x UR + 3 μA
IL5  0.001 CR x UR + 3 μA
Inductance
Case Ø D x L = 5 mm x 11 mm
Case Ø D x L = 8.2 mm x 11 mm
Typ. 13 nH
Typ. 16 nH
Calculated from tan max. and CR (see Table 2)
ESR = tan /2 f CR
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR)
CAPACITANCE (C)
1.1
C
C0
1.0
5
1
C
C0
1.1
1.0
0.9 1
2
3
0.8
1
3
4
5
0.9
0.8
Curve 1: 63 V
Curve 2: 50 V
Curve 3: 35 V; 40 V; 100 V
Curve 4: 16 V; 25 V
Curve 5: 6.3 V; 10 V
5
0.5
-60
-40
-20
0
20
40
60
C0 = Capacitance at 20 °C, 100 Hz
0.7
0.6
0.5
80
Tamb (°C)
6
Curve 1: 63 V (2.2 µF)
Curve 2: 63 V (> 2.2 µF)
Curve 3: 50 V
Curve 4: 35 V; 40 V; 100 V
Curve 5: 25 V
Curve 6: 16 V
Curve 7: 6.3 V; 10 V
4
0.7
0.6
2
102
10
7
103
104
f (Hz)
C0 = Capacitance at 20 °C, 100 Hz
Fig. 6 - Typical multiplier of capacitance
as a function of ambient temperature
105
Tamb = 20 °C
Fig. 7 - Typical multiplier of capacitance
as a function of ambient temperature
IMPEDANCE (Z)
Curve 1: 2.2 µF
Curve 2: 3.3 µF
Curve 3: 4.7 µF
Curve 4: 6.8 µF
Curve 5: 10 µF
Curve 6: 15 µF
Curve 7: 22 µF
Curve 8: 33 µF
Curve 9: 47 µF
Curve 10: 68 µF
Curve 11: 100 µF
Curve 12: 150 µF
103
Z
(Ω)
1
2
3
4
5
6
7
8
9
10
11
12
102
10
103
Z
(Ω)
102
55
66
77
88
99
10
10
11
11
12
12
13
13
10
1
1
2
3
4
Curve 1: 2.2 µF
Curve 2: 4.7 µF
Curve 3: 10 µF, 100 V
Curve 4: 10 µF, 63 V
Curve 5: 22 µF, 63 V
Curve 6: 33 µF
Curve 7: 47 µF
Curve 8: 68 µF
Curve 9: 100 µF
Curve 10: 150 µF
Curve 11: 220 µF
Curve 12: 330 µF
Curve 13: 470 µF
1
102
103
Case Ø D x L = 5 mm x 11 mm
104
105
f (Hz)
Tamb = 20 °C
Fig. 8 - Typical impedance as a function of frequency
Revision: 19-Aug-14
106
102
103
Case Ø D x L = 8.2 mm x 11 mm
104
105
f (Hz)
106
Tamb = 20 °C
Fig. 9 - Typical impedance as a function of frequency
Document Number: 28312
159
For technical questions, contact: [email protected]
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RIPPLE CURRENT AND USEFUL LIFE
CCC205
3.3
IA 3.2
IR 3.1
3.0
2.8
2.6
2.4
Lifetime multiplier
2.2
0
1.
5
1.
2.0
0
2.
0
3.
0
4.
1.8
10
30
Useful life at 85 °C and IR applied: 3000 h
(1)
50 0
7
(1)
1.4
1.2
1.0
0.8
0.5
0.0
15
20
IA = Actual ripple current at 100 Hz
IR = Rated ripple current at 100 Hz, 85 °C
0
6.
1.6
40
50
60
70
80
90
100
Tamb (°C)
Fig. 10 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 3
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
IR MULTIPLIER
UR = 16 V TO 35 V
0.85
1.00
1.20
1.30
1.35
1.40
UR = 6.3 V TO 10 V
0.90
1.00
1.12
1.20
1.25
1.30
50
100
300
1000
3000
10 000
UR = 40 V TO 100 V
0.80
1.00
1.25
1.40
1.50
1.60
Table 4
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
PROCEDURE
(quick reference)
REFERENCE
IEC 60384-4/
EN130300
subclause 4.13
REQUIREMENTS
Tamb = 85 °C; 
UR applied; 
2000 h
UR  6.3 V; C/C: +15 %/-30 %
UR > 6.3 V; C/C: ± 15 %
tan   1.3 x spec. limit
Z  2 x spec. limit 
IL5  spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 85 °C; 
UR and IR applied; 
3000 h
UR  6.3 V; C/C: +45 %/-50 %
UR > 6.3 V; C/C: ± 45 %
tan   3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
No short or open circuit
Total failure percentage:  1 %
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN130300
subclause 4.17
Tamb = 85 °C; no voltage applied; 
500 h 
After test: UR to be applied for 30 min, 
24 h to 48 h before measurement
C/C, tan , Z: 
for requirements see
“Endurance test” above 
IL5  spec. limit
Revision: 19-Aug-14
Document Number: 28312
160
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Vishay BCcomponents
Aluminum Capacitors
Radial, Ultra High CV per Volume, Semi-Professional
FEATURES
• Very long useful life: 3000 h at 105 °C
• Miniaturized, ultra high CV-product per unit
volume
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte
• Radial leads, cylindrical aluminum case with pressure
relief, insulated with a blue sleeve
152 RMH
• Charge and discharge proof
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
high
voltage
APPLICATIONS
048 RML
lower
CV/volume
148 RUS
low Z
longer life
150 RMI
• EDP, telecommunication, industrial, automotive and
audio-video
• Smoothing, filtering, buffering in SMPS, timing
• Portable and mobile equipment (small size, low mass)
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes (Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
Endurance test at 105 °C:
Case Ø D = 10 mm
Case Ø D12.5 mm
Useful life at 105 °C:
Case Ø D = 10 mm
Case Ø D12.5 mm
Useful life at 40 °C, 1.6 x IR applied:
Case Ø D = 10 mm
Case Ø D12.5 mm
Shelf life at 0 V, 105 °C
Based on sectional specification
Climatic category IEC 60068
VALUE
10 x 12 to 18 x 35
47 μF to 22 000 μF
± 20 %
6.3 V to 100 V
-40 °C to +105 °C
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance value (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
1000 h
2000 h
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
2000 h
3000 h
• Code indicating factory of origin
• Name of manufacturer
140 000 h
200 000 h
1000 h
IEC 60384-4/EN 130300
40/105/56
• Upper category temperature (105 °C)
• Negative terminal identification
• Series number (148)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
47
68
100
150
220
330
470
680
1000
Revision: 25-Sep-13
UR (V)
6.3
-
10
10 x 12
-
16
10 x 12
10 x 16
-
25
10 x 12
10 x 16
10 x 20
-
35
10 x 12
10 x 16
10 x 20
12.5 x 20
-
50
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
63
10 x 12
10 x 16
12.5 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 25
-
100
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 25
16 x 31
-
Document Number: 28315
161
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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Vishay BCcomponents
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
UR (V)
CR
(μF)
1500
2200
3300
4700
6800
10 000
15 000
22 000
6.3
10 x 16
12.5 x 20
16 x 20
16 x 25
16 x 31
18 x 35
10
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 25
16 x 31
18 x 35
-
16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 25
16 x 31
18 x 35
-
25
12.5 x 20
12.5 x 25
16 x 20
16 x 25
16 x 31
18 x 35
-
35
12.5 x 25
16 x 20
16 x 25
16 x 31
18 x 35
-
50
16 x 25
16 x 31
18 x 35
-
63
16 x 31
18 x 35
-
100
-
DIMENSIONS in millimeters, AND AVAILABLE FORMS
4+1
0
L
Ød
+
+
ØD
F
F
ØD
-
5
min.
L
15
min.
Ød
Fig. 2 - Form CA: Long leads
Fig. 3 - Form CB: Cut leads
Fig. 4 - Form TFA: Taped in box (ammopack)
Table 1
DIMENSIONS in millimeters, MASS, AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 25
16 x 31
18 x 35
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
MASS
(g)
14
15
16
17
18
19a
19
20
22
0.6
0.6
0.6
0.6
0.6
0.8
0.8
0.8
0.8
10.5
10.5
10.5
13.0
13.0
16.5
16.5
16.5
18.5
13.5
17.5
22.0
22.0
27.0
22.0
27.0
33.5
37.5
5.0 ± 0.5
5.0 ± 0.5
5.0 ± 0.5
5.0 ± 0.5
5.0 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
 1.6
 1.9
 2.2
 4.0
 5.0
 6.0
 8.0
 9.0
 14.5
PACKAGING QUANTITIES
FORM
FORM
FORM
CA
CB
TFA
1000
500
800
500
500
800
500
500
800
500
500
500
250
250
500
250
250
250
250
250
250
100
100
250
100
100
-
Note
• For detailed tape dimensions, please see www.vishay.com/doc?28360
Revision: 25-Sep-13
Document Number: 28315
162
For technical questions, contact: [email protected]
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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ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Electrolytic capacitor 148 series
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
470 μF/25 V; ± 20 %
IR
Rated RMS ripple current at 100 Hz, 105 °C
Nominal case size: Ø 10 mm x 12 mm; form TFA
Max. leakage current after 2 min at UR
Ordering code: MAL214836471E3
Max. dissipation factor at 100 Hz
Former 12NC: 2222 148 36471
IL2
tan 
Z
Max. impedance at 100 kHz
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
ORDERING CODE
MAL2148.......
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 Hz
105 °C
(mA)
IL2
2 min
(μA)
2200
10 x 16
720
139
4700
12.5 x 20
1100
296
0.34
0.085
0.60
53472E3
63472E3
33472E3
6800
16 x 20
1210
428
0.38
0.060
0.30
53682E3
63682E3
33682E3
10 000
16 x 25
1660
630
0.46
0.045
0.25
53103E3
63103E3
33103E3
15 000
16 x 31
2050
945
0.56
0.033
0.15
53153E3
63153E3
33153E3
22 000
18 x 35
2350
1386
0.66
0.032
0.15
53223E3
63223E3
-
1000
10 x 12
460
100
0.24
0.240
3.00
54102E3
64102E3
34102E3
1500
10 x 16
620
150
0.24
0.170
1.90
54152E3
64152E3
34152E3
2200
10 x 20
750
220
0.26
0.130
1.50
54222E3
64222E3
34222E3
3300
12.5 x 20
1010
330
0.28
0.085
0.60
54332E3
64332E3
34332E3
4700
12.5 x 25
1260
470
0.30
0.065
0.50
54472E3
64472E3
34472E3
4700
16 x 20
1260
470
0.30
0.060
0.30
94475E3
94476E3
94473E3
CR
100 Hz
(μF)
tan
100 Hz
0.30
Z
100 kHz
20 °C
()
Z
100 kHz
-40 °C
()
FORM CA
FORM CB
FORM TFA
0.170
1.90
53222E3
63222E3
33222E3
BULK PACKAGING
TAPED
6800
16 x 25
1590
680
0.34
0.045
0.25
54682E3
64682E3
34682E3
10 000
16 x 31
1910
1000
0.42
0.033
0.15
54103E3
64103E3
34103E3
15 000
18 x 35
2200
1500
0.52
0.032
0.15
54153E3
64153E3
-
680
10 x 12
450
109
0.20
0.240
3.00
55681E3
65681E3
35681E3
1000
10 x 16
570
160
0.20
0.180
2.00
55102E3
65102E3
35102E3
1500
10 x 20
720
240
0.20
0.130
1.50
55152E3
65152E3
35152E3
2200
12.5 x 20
930
352
0.22
0.090
0.60
55222E3
65222E3
35222E3
3300
12.5 x 25
1180
528
0.24
0.065
0.50
55332E3
65332E3
35332E3
3300
16 x 20
1120
528
0.24
0.060
0.30
95335E3
95336E3
95333E3
4700
16 x 25
1480
752
0.26
0.045
0.25
55472E3
65472E3
35472E3
6800
16 x 31
1790
1088
0.30
0.035
0.20
55682E3
65682E3
35682E3
10 000
18 x 35
2100
1600
0.36
0.032
0.20
55103E3
65103E3
-
470
10 x 12
410
118
0.16
0.260
3.20
56471E3
66471E3
36471E3
680
10 x 16
550
170
0.16
0.190
2.10
56681E3
66681E3
36681E3
1000
10 x 20
690
250
0.16
0.130
1.50
56102E3
66102E3
36102E3
1500
12.5 x 20
850
375
0.16
0.100
0.70
56152E3
66152E3
36152E3
2200
12.5 x 25
1110
550
0.18
0.070
0.50
56222E3
66222E3
36222E3
2200
16 x 20
1050
550
0.18
0.060
0.30
96225E3
96226E3
96223E3
3300
16 x 25
1420
825
0.20
0.045
0.25
56332E3
66332E3
36332E3
4700
16 x 31
1750
1175
0.22
0.035
0.20
56472E3
66472E3
36472E3
6800
18 x 35
2050
1700
0.26
0.033
0.20
56682E3
66682E3
-
Revision: 25-Sep-13
Document Number: 28315
163
For technical questions, contact: [email protected]
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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Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
CR
100 Hz
(μF)
UR
(V)
35
50
63
100
330
470
680
1000
1500
1500
2200
3300
4700
220
330
470
680
1000
1000
1500
2200
3300
100
220
330
470
680
680
1000
1500
2200
47
68
100
150
220
220
330
470
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 Hz
105 °C
(mA)
IL2
2 min
(μA)
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 25
16 x 31
18 x 35
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 25
16 x 31
18 x 35
10 x 12
10 x 16
12.5 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 25
16 x 31
18 x 35
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 25
16 x 31
350
480
580
810
950
970
1270
1620
1930
330
420
530
720
950
880
1180
1520
1810
230
350
540
540
760
820
980
1390
1670
165
190
260
360
440
590
630
750
116
165
238
350
525
525
770
1155
1645
110
165
235
340
500
500
750
1100
1650
63
139
208
296
428
428
630
945
1386
47
68
100
150
220
220
330
470
tan
100 Hz
0.14
0.14
0.14
0.14
0.14
0.14
0.16
0.18
0.20
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.14
0.16
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.12
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
Z
100 kHz
20 °C
()
Z
100 kHz
-40 °C
()
0.270
0.190
0.140
0.100
0.070
0.063
0.045
0.037
0.033
0.280
0.200
0.140
0.100
0.070
0.068
0.047
0.039
0.035
0.320
0.240
0.130
0.130
0.085
0.070
0.049
0.042
0.038
0.640
0.580
0.380
0.260
0.170
0.140
0.120
0.100
3.30
2.10
1.60
0.70
0.50
0.30
0.25
0.20
0.20
3.40
2.20
1.60
0.70
0.50
0.35
0.30
0.20
0.20
3.90
2.70
0.90
0.90
0.65
0.50
0.25
0.20
0.20
19.20
17.40
11.40
7.80
5.10
4.20
3.60
3.00
ORDERING CODE
MAL2148.......
BULK PACKAGING
FORM CA
50331E3
50471E3
50681E3
50102E3
50152E3
90155E3
50222E3
50332E3
50472E3
51221E3
51331E3
51471E3
51681E3
51102E3
91105E3
51152E3
51222E3
51332E3
58101E3
58221E3
58331E3
58471E3
58681E3
98685E3
58102E3
58152E3
58222E3
59479E3
59689E3
59101E3
59151E3
59221E3
99225E3
59331E3
59471E3
FORM CB
60331E3
60471E3
60681E3
60102E3
60152E3
90156E3
60222E3
60332E3
60472E3
61221E3
61331E3
61471E3
61681E3
61102E3
91106E3
61152E3
61222E3
61332E3
68101E3
68221E3
68331E3
68471E3
68681E3
98686E3
68102E3
68152E3
68222E3
69479E3
69689E3
69101E3
69151E3
69221E3
99226E3
69331E3
69471E3
TAPED
FORM TFA
30331E3
30471E3
30681E3
30102E3
30152E3
90153E3
30222E3
30332E3
31221E3
31331E3
31471E3
31681E3
31102E3
91103E3
31152E3
31222E3
38101E3
38221E3
38331E3
38471E3
38681E3
98683E3
38102E3
38152E3
39479E3
39689E3
39101E3
39151E3
39221E3
99223E3
39331E3
39471E3
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Voltage
Us 1.15 UR
Surge voltage
Urev 1 V
Reverse voltage
Current
Leakage current
After 2 min at UR
IL2  0.01 CR x UR
After 5 min at UR
IL5  0.002 CR x UR
Inductance
Equivalent series inductance (ESL)
Case Ø D = 10 mm
Typ. 16 nH
Case Ø D  12.5 mm
Typ. 18 nH
Calculated from tan max. and CR (see Table 2)
ESR = tan /2 f CR
Resistance
Equivalent series resistance (ESR)
Revision: 25-Sep-13
Document Number: 28315
164
For technical questions, contact: [email protected]
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
148 RUS
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Vishay BCcomponents
CAPACITANCE (C)
1.2
C
C0
1.2
C
C0
1.0
1
2
3
1.1
3
0.0
1.0
2
0.6
1
2
3
0.9
0.4
Curve 1: 10 V
Curve 2: 63 V
Curve 3: 100 V
1
Curve 1: 10 V
Curve 2: 50 V
Curve 3: 100 V
0.2
0.8
0
- 60
- 40
- 20
0
20
40
60
C0 = Typical capacitance at 20 °C, 100 Hz
80
100
Tamb (°C)
120
102
10
103
104
105
Tamb = 20 °C
C0 = Typical capacitance at 20 °C, 100 Hz
Fig. 5 - Typical multiplier of capacitance
as a function of ambient temperature
Fig. 6 - Typical multiplier of capacitance
as a function of frequency
EQUIVALENT SERIES RESISTANCE (ESR)
2.0
C
C0
100
ESR
ESR0
Curve 1: 10 V
Curve 2: 63 V
1
1
1.6
Curve 1: 10 V
Curve 2: 50 V
Curve 3: 100 V
2
2
10
1.2
3
0.8
1
1
2
1
2
3
0.4
0
0.1
- 60
- 40
- 20
0
20
40
60
ESR0 = Typical ESR at 20 °C, 100 Hz
80
100
Tamb (°C)
10
120
102
103
104
ESR0 = Typical ESR at 20 °C, 100 Hz
Fig. 7 - Multiplier of ESR
as a function of ambient temperature
105
Tamb = 20 °C
Fig. 8 - Multiplier of ESR
as a function of frequency
IMPEDANCE (Z)
100
102
Curve 1: Ø 10 mm x 12 mm; 10 V
Curve 2: Ø 10 mm x 16 mm; 10 V
Curve 3: Ø 12.5 mm x 25 mm; 10 V
Curve 4: Ø 16 mm x 25 mm; 10 V
Curve 5: Ø 18 mm x 35 mm; 16 V
Curve 1: 100 V
Curve 2: < 63 V
Z
Z0
1
10
2
10
1
1
10-1
0
- 60
- 40
- 20
0
20
Z0 = Typical impedance at 20 °C, 100 kHz
40
60
80
100
Tamb (°C)
Fig. 9 - Multiplier of impedance
as a function of ambient temperature
Revision: 25-Sep-13
120
10-2
10
102
103
104
105
Tamb = 20 °C
Fig. 10 - Typical impedance as a function of frequency
Document Number: 28315
165
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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Vishay BCcomponents
IMPEDANCE (Z)
102
Z
(Ω)
Curve 1:
Curve 2:
Curve 3:
Curve 4:
Curve 5:
1
10
2
Ø 10 mm x 12 mm; 63 V
Ø 10 mm x 16 mm; 50 V
Ø 12.5 mm x 25 mm; 63 V
Ø 16 mm x 25 mm; 50 V
Ø 18 mm x 35 mm; 63 V
3
4
1
5
10-1
10-2
102
10
103
104
105
Tamb = 20 °C
Fig. 11 - Typical impedance as a function of frequency
RIPPLE CURRENT AND USEFUL LIFE
CCC206
3.8
IA
IR
3.7
3.6
3.5
3.4
3.3
3.2
3.1
3.0
2.8
Lifetime multiplier
2.6
1.
0
2.4
5
1.
2.
2.2
0
0
3.
0
4.
2.0
0
6.
0
8.
1.8
12
1.6
20
60
Useful life at 105 °C and IR applied:
Case Ø D = 10 mm: 2000 h
Case Ø D ≥ 12.5 mm: 3000 h
1.2
1.0
0.8
0.5
0.0
(1)
0
10
0
15 0
20
(1)
1.4
30
IA = Actual ripple current at 100 Hz
IR = Rated ripple current at 100 Hz, 105 °C
40
50
60
70
80
90
100
110
Tamb (°C)
Fig. 12 - Multiplier of useful life as a function of ambient ripple current load
Revision: 25-Sep-13
Document Number: 28315
166
For technical questions, contact: [email protected]
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
148 RUS
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Vishay BCcomponents
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 6.3 V TO 25 V
UR = 35 V
UR = 50 V TO 100 V
50
0.95
0.85
0.80
100
1.00
1.00
1.00
300
1.07
1.20
1.25
1000
1.12
1.30
1.40
3000
1.15
1.35
1.50
 10 000
1.20
1.40
1.60
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/
EN 130300
subclause 4.13
PROCEDURE
(quick reference)
REQUIREMENTS
Tamb = 105 °C; UR applied
Case Ø D = 10 mm: 1000 h
Case Ø D  12.5 mm: 2000 h
UR = 6.3 V; C/C: +15 %/-30 %
UR  10 V; C/C: ± 20 %
tan   2 x spec. limit
Z  2 x spec. limit
IL5  spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 105 °C; UR and IR applied
Case Ø D = 10 mm: 2000 h
Case Ø D  12.5 mm: 3000 h
UR = 6.3 V; C/C: +45 %/-50 %
UR  10 V; C/C: ± 45 %
tan   3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
no short or open circuit
total failure percentage: 1 %
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN 130300
subclause 4.17
Tamb = 105 °C; no voltage applied;
1000 h
After test: UR to be applied for 30 min,
24 h to 48 h before measurement
UR = 6.3 V; C/C: +15 %/-30 %
UR  10 V; C/C: ± 20 %
tan   2 x spec. limit
Z  2 x spec. limit
IL5  2 x spec. limit
Surge
IEC 60384-4/
EN 130300
subclause 4.14
From source of 1.15 x UR:
RC = 0.1 s ± 0.05 s; 1000 cycles of 30 s on, 
330 s off, at 105 °C
C/C: ± 20 %
tan   1.5 x spec. limit
IL5  spec. limit
Reverse voltage
IEC 60384-4/
EN 130300
subclause 4.15
Tamb = 105 °C:
125 h at U = -1 V, followed by 125 h at UR
C/C: ± 15 %
tan   1.5 x spec. limit
IL5  spec. limit
Revision: 25-Sep-13
Document Number: 28315
167
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
116 RLL
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Vishay BCcomponents
Aluminum Capacitors
Radial Long Life
FEATURES
•
•
•
•
048 RML
miniaturized
148 RUS
higher
CV-values
036 RSP
85 °C
APPLICATIONS
• Automotive, telecommunication, industrial and EDP
• Stand-by applications in audio and video equipment
• Coupling, decoupling, timing, smoothing, filtering and
buffering in dc-to-dc converters
• Portable and mobile equipment (small size, low mass)
116 RLL
105 °C
Fig. 1
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes (Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
Endurance test at 105 °C
Endurance test at 85 °C
Useful life at 105 °C
Useful life at 40 °C, 1.3 x IR applied
Shelf life at 0 V, 105 °C
Based on sectional specification
Climatic category IEC 60068
Long useful life: 2000 h at 105 °C
Miniaturized, high CV-product per unit volume
Natural pitch 2.5 mm and 5 mm
Polarized aluminum electrolytic capacitors,
non-solid electrolyte
• Radial leads, cylindrical aluminum case, all-insulated
(light blue)
• Charge and discharge proof
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
VALUE
5 x 11 and 8.2 x 11
1.5 μF to 470 μF
± 20 %
6.3 V to 100 V
-55 °C to +105 °C
1500 h
5000 h
2000 h
200 000 h
1500 h
IEC 60384-4/EN 130300
55/105/56
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Date code in accordance with IEC 60062
• Code indicating factory of origin
• Name of manufacturer
• “-”-sign on top to identify the negative terminal
• Series number (116)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
1.5
3.3
4.7
6.8
10
15
22
33
47
68
100
150
220
330
470
6.3
5 x 11
8.2 x 11
Revision: 25-Sep-13
10
5 x 11
8.2 x 11
-
16
5 x 11
8.2 x 11
-
25
5 x 11
8.2 x 11
-
UR (V)
35
5 x 11
8.2 x 11
-
40
5 x 11
8.2 x 11
-
50
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
8.2 x 11
5 x 11
5 x 11
8.2 x 11
8.2 x 11
8.2 x 11
8.2 x 11
-
63
8.2 x 11
8.2 x 11
-
100
8.2 x 11
8.2 x 11
-
Document Number: 28316
168
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DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
L
-
+
15 min
F
Case Ø D x L = 5 mm x 11 mm and 8.2 mm x 11 mm
Pitch F = 5 mm
5 min
Ød
Fig. 2 - Form CA: Long leads
Fig. 3 - Form TFA: Taped in box (ammopack)
ØD
L
+1
4 0
-
+
Ød
5 ± 0.5
Case Ø D x L = 5 mm x 11 mm only
Pitch F = 2.5 mm
Case Ø D x L = 8.2 mm x 11 mm only
Fig. 4 - Form CB: Cut leads
Fig. 5 - Form TNA: Taped in box (ammopack)
Table 1
DIMENSIONS in millimeters, MASS, AND PACKAGING QUANTITIES
PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
MASS
(g)
5 x 11
11
0.5
5.5
12
2.5 ± 0.5
8.2 x 11
13
0.6
8.7
12
5.0 ± 0.5
FORM
CA, CB
FORM
TFA, TNA
 0.4
1000
2000
 1.1
1000
1000
Note
• For detailed tape dimension please see www.vishay.com/doc?28360
Revision: 25-Sep-13
Document Number: 28316
169
For technical questions, contact: [email protected]
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
116 RLL
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Vishay BCcomponents
ORDERING EXAMPLE
ELECTRICAL DATA
Electrolytic capacitor 116 series
SYMBOL
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
IR
Rated RMS ripple current at 100 kHz, 105 °C
IL1
Max. leakage current after 1 min at UR
tan 
Z
220 μF/16 V; ± 20 %
Nominal case size: Ø 8.2 mm x 11 mm; form TFA
Ordering code: MAL211635221E3
Former 12NC: 2222 116 35221
Max. dissipation factor at 100 Hz
Max. impedance at 100 kHz and 20 °C
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
ORDERING CODE MAL2116 .....
UR
(V)
6.3
10
16
25
35
40
50
63
100
IR
NOMINAL
IL1
Z
CR
CASE SIZE 100 kHz
tan 
100 Hz
1 min
100 kHz
105 °C
ØDxL
100 Hz
(μF)
(μA)
()
(mA)
(mm)
BULK PACKAGING
LONG LEADS
FORM
CA
F
(mm)
CUT LEADS
FORM
CB
F
(mm)
TAPED AMMOPACK
FORM
TFA
F
(mm)
FORM
TNA
F
(mm)
150
5 x 11
130
8.7
0.25
1.3
53151E3
2.5
-
-
33151E3
5.0
73151E3
2.5
470
8.2 x 11
300
21
0.25
0.45
53471E3
5.0
63471E3
5.0
33471E3
5.0
-
-
100
5 x 11
130
9.0
0.20
1.4
54101E3
2.5
-
-
34101E3
5.0
74101E3
2.5
330
8.2 x 11
280
23
0.20
0.45
54331E3
5.0
64331E3
5.0
34331E3
5.0
-
-
68
5 x 11
130
9.5
0.16
1.5
55689E3
2.5
-
-
35689E3
5.0
75689E3
2.5
220
8.2 x 11
280
24
0.16
0.5
55221E3
5.0
65221E3
5.0
35221E3
5.0
-
-
47
5 x 11
120
10
0.14
1.6
56479E3
2.5
-
-
36479E3
5.0
76479E3
2.5
150
8.2 x 11
260
26
0.14
0.5
56151E3
5.0
66151E3
5.0
36151E3
5.0
-
-
33
5 x 11
110
9.9
0.12
1.7
50339E3
2.5
-
-
30339E3
5.0
70339E3
2.5
100
8.2 x 11
240
24
0.12
0.55
50101E3
5.0
60101E3
5.0
30101E3
5.0
-
2.5
33
5 x 11
110
10.9
0.12
1.7
57339E3
2.5
-
-
37339E3
5.0
77339E3
100
8.2 x 11
240
27
0.12
0.55
57101E3
5.0
67101E3
5.0
37101E3
5.0
-
-
1.5
5 x 11
50
3.5
0.09
4.0
51158E3
2.5
-
5.0
31158E3
5.0
71158E3
2.5
2.2
5 x 11
60
3.7
0.09
3.5
51228E3
2.5
-
5.0
31228E3
5.0
71228E3
2.5
3.3
5 x 11
65
4.0
0.09
3.1
51338E3
2.5
-
5.0
31338E3
5.0
71338E3
2.5
4.7
5 x 11
70
4.4
0.09
2.8
51478E3
2.5
-
5.0
31478E3
5.0
71478E3
2.5
6.8
5 x 11
75
5.0
0.09
2.5
51688E3
2.5
-
5.0
31688E3
5.0
71688E3
2.5
10
5 x 11
80
6.0
0.09
2.2
51109E3
2.5
-
5.0
31109E3
5.0
71109E3
2.5
10
8.2 x 11
160
6.0
0.05
1.0
90084E3
5.0
90085E3
5.0
90036E3
5.0
-
-
15
5 x 11
90
7.5
0.09
2.0
51159E3
2.5
-
5.0
31159E3
5.0
71159E3
2.5
22
5 x 11
110
9.6
0.09
1.9
51229E3
2.5
-
5.0
31229E3
5.0
71229E3
2.5
22
8.2 x 11
190
9.6
0.06
0.9
90025E3
5.0
90086E3
5.0
90039E3
5.0
-
-
33
8.2 x 11
190
13
0.09
0.77
51339E3
5.0
61339E3
5.0
31339E3
5.0
-
-
47
8.2 x 11
210
17
0.09
0.65
51479E3
5.0
61479E3
5.0
31479E3
5.0
-
-
68
8.2 x 11
240
23
0.09
0.55
51689E3
5.0
61689E3
5.0
31689E3
5.0
-
-
10
8.2 x 11
160
7.0
0.06
1.3
58109E3
5.0
68109E3
5.0
38109E3
5.0
-
-
22
8.2 x 11
190
11
0.06
0.9
58229E3
5.0
68229E3
5.0
38229E3
5.0
-
4.7
8.2 x 11
75
5.8
0.07
3.5
59478E3
5.0
69478E3
5.0
39478E3
5.0
-
-
10
8.2 x 11
100
9.0
0.08
3.0
59109E3
5.0
69109E3
5.0
39109E3
5.0
-
-
Revision: 25-Sep-13
Document Number: 28316
170
For technical questions, contact: [email protected]
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
116 RLL
www.vishay.com
Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Voltage
Us  1.3 UR
Surge voltage
Urev  1 V
Reverse voltage
Current
Leakage current
After 1 min at UR
IL1  0.006 CR x UR + 3 μA
After 5 min at UR
IL5  0.001 CR x UR + 3 μA
Inductance
Case Ø D x L = 5 mm x 11 mm
Typ. 13 nH
Case Ø D x L = 8.2 mm x 11 mm
Typ. 16 nH
Calculated from tan max. and CR (see Table 2)
ESR = tan /2 f CR
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR)
CAPACITANCE (C)
1
1.1
C
C0
1.0
2
3
4
7
1
1.0
C
C0
1
2
3
0.9
0.9
4
0.8
3
4
5
Curve 1: 50 V (≤ 2.2 µF)
Curve 2: 50 V (> 2.2 µF)
Curve 3: 50 V (≥ 15 µF)
Curve 4: 35 V, 40 V, 63 V, 100 V
Curve 5: 25 V
Curve 6: 16 V
Curve 7: 6.3 V, 10 V
0.8
2
0.7
Curve 1: 6.3 V
Curve 2: 10 V, 16 V
Curve 3: 35 V, 40 V, 63 V, 100 V
Curve 4: 50 V
1
0.6
- 60
- 40
- 20
0
20
40
60
80
100
10 2
10
120
Tamb (°C)
C0 = Capacitance at 20 °C, 100 Hz
0.7
6
7
10 3
10 4
C0 = Capacitance at 20 °C, 100 Hz
Fig. 6 - Typical multiplier of capacitance
as a function of ambient temperature
f (Hz)
10 5
Tamb (°C)
Fig. 7 - Typical multiplier of capacitance
as a function of ambient frequency
IMPEDANCE (Z)
103
Curve 1: 1.5 µF
Curve 2: 2.2 µF
Curve 3: 3.3 µF
Curve 4: 4.7 µF
Curve 5: 6.8 µF
Curve 6: 10 µF
Curve 7: 15 µF
Curve 8: 22 µF
103
1
2
3
4
5
6
7
8
Z
(Ω)
102
Curve 1: 2.2 µF
Curve 2: 4.7 µF
Curve 3: 10 µF, 100 V
Curve 4: 10 µF, 50 V
Curve 5: 22 µF, 50 V
Curve 6: 33 µF
Curve 7: 47 µF
Curve 8: 68 µF
Curve 9: 100 µF
Z
(Ω)
102
5
6
7
8
9
10
11
12
13
10
10
1
1
2
3
4
1
10-1
102
103
Case Ø D x L = 5 mm x 11 mm
104
105
6
f (Hz) 10
Tamb (°C)
Fig. 8 - Typical impedance as a function of frequency
Revision: 25-Sep-13
102
103
Case Ø D x L = 8.2 mm x 11 mm
104
105
106
f (Hz)
Tamb (°C)
Fig. 9 - Typical impedance as a function of frequency
Document Number: 28316
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RIPPLE CURRENT AND USEFUL LIFE
MEA240
3.8
IA 3.7
IR 3.6
3.5
3.4
3.3
3.2
3.1
3.0
2.8
Lifetime multiplier
2.6
0
1.
2.4
5
1.
0
2.
2.2
0
3. 0
4.
2.0
0
6.
0
8.
12
20
30
60
(1)
(1)
0
10 0
15 0
20
IA = Actual ripple current at 100 Hz
IR = Rated ripple current at 100 Hz, 105 °C
1.8
1.6
1.4
1.2
1.0
0.8
0.5
0.0
40
50
60
70
80
90
Useful life at 105 °C and IR applied: 2000 h
100
110
Tamb (°C)
Fig. 10 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 3
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
50
100
300
1000
3000
10K to 100K
UR = 6.3 V TO 10 V
0.70
0.77
0.86
0.92
0.96
1.00
IR MULTIPLIER
UR = 16 V TO 35 V
0.60
0.71
0.85
0.93
0.96
1.00
UR = 40 V TO 100 V (CR  10 μF)
0.50
0.63
0.78
0.88
0.94
1.00
Table 4
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
Endurance
IEC 60384-4/
EN 130300
subclause 4.13
Tamb = 105 °C; UR applied;
1500 h
Useful life
CECC 30301
subclause 1.8.1
Tamb = 105 °C; UR and IR applied;
2000 h
Shelf life
(storage at
high temperature)
IEC 60384-4/
EN 130300
subclause 4.17
Tamb = 105 °C; no voltage applied;
1500 h
After test: UR to be applied for 30 min, 24 h to 48 h
before measurement
Revision: 25-Sep-13
REQUIREMENTS
UR  6.3 V; C/C: +15 %/-30 %
UR > 6.3 V; C/C: ± 15 %
tan   1.3 x spec. limit
Z  2 x spec. limit
IL5  spec. limit
UR  6.3 V; C/C: +45 %/-50 %
UR > 6.3 V; C/C: ± 45 %
tan   3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
no short or open circuit
total failure percentage: 1%
C/C, tan , Z: 
For requirements see
“Endurance test” above
IL5  2 x spec. limit
Document Number: 28316
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Vishay BCcomponents
Aluminum Capacitors
Radial High Temperature Standard
FEATURES
• Useful life: 2500 h at 105 °C
• Miniaturized, high CV-product per unit volume
• Charge and discharge proof
• Polarized aluminum electrolytic capacitors, non-solid
electrolyte
• Radial leads, cylindrical aluminum case, insulated with a
blue sleeve
• Pressure relief for case Ø D  6.3 mm
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
Higher temperature
Longer life
142 RHS
038 RSU
125 °C
105 °C
140 RTM
Lower Z
Lower Z
150 RMI
146 RTI
APPLICATIONS
• Industrial, telecom and domestic appliances
• Decoupling, smoothing, filtering, buffering in SMPS
• Portable and mobile equipment (small size, low mass)
Fig. 1
MARKING
QUICK REFERENCE DATA
DESCRIPTION
VALUE
Nominal case sizes (Ø D x L in mm)
5 x 11 to 18 x 40
Rated capacitance range, CR
1 μF to 22 000 μF
Tolerance on CR
Rated voltage range, UR
Category temperature range
± 20 %
10 V to 450 V
-40 °C to +105 °C
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Code indicating factory of origin
Endurance test at 105 °C
2000 h
• Name or logo of manufacturer
Useful life at 105 °C
2500 h
• Negative terminal identification
Useful life at 40 °C, 1.6 x IR applied
Shelf life at 0 V, 105 °C
Based on sectional specification
Climatic category IEC 60068
Revision: 15-Dec-14
140 000 h
• Series number (142)
1000 h
IEC 60384-4 / EN130300
40/105/56
Document Number: 28402
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SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
UR (V)
CR
(μF)
10
16
25
35
50
63
100
1.0







2.2






5 x 11
4.7





5 x 11
6.3 x 11
10





5 x 11
8 x 12
22




5 x 11
6.3 x 11
8 x 12
33





6.3 x 11
10 x 12
47


5 x 11
5 x 11
6.3 x 11
8 x 12
10 x 16
100

5 x 11
6.3 x 11
6.3 x 11
8 x 12
10 x 12
10 x 20
220

6.3 x 11
8 x 12
8 x 12
10 x 12
10 x 16
12.5 x 25
330
6.3 x 11
8 x 12

10 x 12
10 x 16
10 x 20
16 x 25
470
8 x 12
10 x 12
10 x 12
10 x 16
12.5 x 20
12.5 x 20
16 x 31
1000
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
18 x 40
2200
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 35
18 x 40
-
3300

12.5 x 25
16 x 25
16 x 31
18 x 35
-
-
4700
12.5 x 25
16 x 25
16 x 31
18 x 35
-
-
-
6800
16 x 25
16 x 31
18 x 35
-
-
-
-
10 000
16 x 31
18 x 31
-
-
-
-
-
22 000
18 x 40
-
-
-
-
-
-
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
UR (V)
CR
(μF)
200
250
350
400
450
1.0
5 x 11
5 x 11
6.3 x 11
6.3 x 11
8 x 12
2.2
6.3 x 11
6.3 x 11
8 x 12
8 x 12
10 x 12
4.7
8 x 12
8 x 12
10 x 12
10 x 12
10 x 16
10
10 x 12
10 x 12
10 x 16
10 x 20
12.5 x 20
22
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
33

12.5 x 20


16 x 25
47
12.5 x 20
12.5 x 25
16 x 25
16 x 31
16 x 35
100
16 x 25
16 x 31
18 x 35
18 x 40
-
220
18 x 35
-
-
-
-
Revision: 15-Dec-14
Document Number: 28402
174
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Vishay BCcomponents
DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
ØD
L
F
15
min.
Ød
4 +1
0
5
min.
+
Ød
F
Fig. 2 - Form CA
Long leads
Fig. 3 - Form CB
Cut leads
Case Ø D = 5 mm to 8 mm;
Lead space F is 5 mm
Dimensions of lead space F see Table 2
Fig. 4 - Form TNA, Form TFA
Taped in box (ammopack), straight leads
Fig. 5 - Form TFA
Taped in box (ammopack), formed leads
Table 1
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
MASS
(g)
PACKAGING QUANTITIES
FORM
CA
FORM
CB
FORM
TFA, TNA
5 x 11
11
0.5
5.5
12.5
2.0 ± 0.5
 0.4
5000
-
2000
6.3 x 11
12
0.5
6.8
12.5
2.5 ± 0.5
 0.6
5000
-
2000
8 x 12
13
0.6
8.5
13.0
3.5 ± 0.5
 1.1
5000
-
1000
10 x 12
14
0.6
10.5
13.5
5.0 ± 0.5
 1.6
3000
1000
500
10 x 16
15
0.6
10.5
17.5
5.0 ± 0.5
 1.9
2500
1000
500
10 x 20
16
0.6
10.5
22.0
5.0 ± 0.5
 2.2
2000
800
500
12.5 x 20
17
0.6
13.0
22.0
5.0 ± 0.5
 4.0
1500
400
300
12.5 x 25
18
0.6
13.0
27.0
5.0 ± 0.5
 5.0
1000
400
300
16 x 20
19a
0.8
16.5
22.0
7.5 ± 0.5
 6.0
1000
200
200
16 x 25
19
0.8
16.5
27.0
7.5 ± 0.5
 8.0
750
200
200
16 x 31
20
0.8
16.5
33.5
7.5 ± 0.5
 9.0
600
200
200
16 x 35
21
0.8
16.5
37.5
7.5 ± 0.5
 11.0
500
200
-
18 x 31
1831
0.8
18.5
33.5
7.5 ± 0.5
 12.5
400
150
-
18 x 35
22
0.8
18.5
37.5
7.5 ± 0.5
 14.5
400
150
-
18 x 40
23
0.8
18.5
42.0
7.5 ± 0.5
 16.0
400
150
-
Note
• For detailed tape dimensions please refer to packaging information: www.vishay.com/doc?28360
Revision: 15-Dec-14
Document Number: 28402
175
For technical questions, contact: [email protected]
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ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Electrolytic capacitor 142 series
DESCRIPTION
470 μF / 25 V; ± 20 %
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
IR
Rated RMS ripple current at 100 Hz, 105 ºC
IL2
Max. leakage current after 2 min at UR = 10 V to 100 V
IL5
Max. leakage current after 5 min at UR = 200 V to 450 V
tan 
Nominal case size: Ø 10 mm x 12 mm; Form TFA
Ordering Code: MAL214236471E3
Max. dissipation factor at 100 Hz
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
ORDERING CODE MAL2142...
UR
(V)
10
16
25
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 Hz
105 ºC
(mA)
IL2
2 min
(μA)
tan 
100 Hz
330
6.3 x 11
200
33
BULK PACKAGING
LONG LEADS
TAPED AMMOPACK
CUT LEADS
FORM
CA
F
(mm)
FORM
CB
F
(mm)
FORM
TNA
F
(mm)
FORM
TFA
F
(mm)
0.20
54331E3
2.5
-
-
74331E3
2.5
34331E3
5.0
470
8 x 12
290
47
0.20
54471E3
3.5
-
-
74471E3
3.5
34471E3
5.0
1000
10 x 12
460
100
0.20
54102E3
5.0
64102E3
5.0
-
-
34102E3
5.0
2200
10 x 20
760
220
0.22
54222E3
5.0
64222E3
5.0
-
-
34222E3
5.0
4700
12.5 x 25
1260
470
0.26
54472E3
5.0
64472E3
5.0
-
-
34472E3
5.0
6800
16 x 25
1690
680
0.28
54682E3
7.5
64682E3
7.5
-
-
34682E3
7.5
10 000
16 x 31
2120
1000
0.30
54103E3
7.5
64103E3
7.5
-
-
34103E3
7.5
22 000
18 x 40
3100
2200
0.32
54223E3
7.5
64223E3
7.5
-
-
-
-
100
5 x 11
110
16
0.16
55101E3
2.0
-
-
75101E3
2.5
35101E3
5.0
220
6.3 x 11
190
35
0.16
55221E3
2.5
-
-
75221E3
2.5
35221E3
5.0
330
8 x 12
270
53
0.16
55331E3
3.5
-
-
75331E3
3.5
35331E3
5.0
470
10 x 12
370
75
0.16
55471E3
5.0
65471E3
5.0
-
-
35471E3
5.0
1000
10 x 16
560
160
0.16
55102E3
5.0
65102E3
5.0
-
-
35102E3
5.0
2200
12.5 x 20
920
352
0.18
55222E3
5.0
65222E3
5.0
-
-
35222E3
5.0
3300
12.5 x 25
1170
528
0.20
55332E3
5.0
65332E3
5.0
-
-
35332E3
5.0
4700
16 x 25
1480
752
0.22
55472E3
7.5
65472E3
7.5
-
-
35472E3
7.5
6800
16 x 31
1930
1088
0.24
55682E3
7.5
65682E3
7.5
-
-
35682E3
7.5
10 000
18 x 31
2330
1600
0.26
55103E3
7.5
65103E3
7.5
-
-
-
-
47
5 x 11
97
12
0.14
56479E3
2.0
-
-
76479E3
2.5
36479E3
5.0
100
6.3 x 11
142
25
0.14
56101E3
2.5
-
-
76101E3
2.5
36101E3
5.0
220
8 x 12
236
55
0.14
56221E3
3.5
-
-
76221E3
3.5
36221E3
5.0
470
10 x 12
380
118
0.14
56471E3
5.0
66471E3
5.0
-
-
36471E3
5.0
1000
10 x 20
680
250
0.14
56102E3
5.0
66102E3
5.0
-
-
36102E3
5.0
2200
12.5 x 25
1110
550
0.16
56222E3
5.0
66222E3
5.0
-
-
36222E3
5.0
3300
16 x 25
1440
825
0.18
56332E3
7.5
66332E3
7.5
-
-
36332E3
7.5
4700
16 x 31
1710
1175
0.20
56472E3
7.5
66472E3
7.5
-
-
36472E3
7.5
6800
18 x 35
2160
1700
0.22
56682E3
7.5
66682E3
7.5
-
-
-
-
Revision: 15-Dec-14
Document Number: 28402
176
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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ELECTRICAL DATA AND ORDERING INFORMATION
ORDERING CODE MAL2142...
UR
(V)
35
50
63
100
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 Hz
105 ºC
(mA)
IL2
2 min
(μA)
tan 
100 Hz
BULK PACKAGING
LONG LEADS
TAPED AMMOPACK
CUT LEADS
FORM
CA
F
(mm)
FORM
CB
F
(mm)
FORM
TNA
F
(mm)
FORM
TFA
F
(mm)
5.0
47
5 x 11
90
16
0.12
50479E3
2.0
-
-
70479E3
2.5
30479E3
100
6.3 x 11
150
35
0.12
50101E3
2.5
-
-
70101E3
2.5
30101E3
5.0
220
8 x 12
270
77
0.12
50221E3
3.5
-
-
70221E3
3.5
30221E3
5.0
330
10 x 12
350
116
0.12
50331E3
5.0
60331E3
5.0
-
-
30331E3
5.0
470
10 x 16
460
165
0.12
50471E3
5.0
60471E3
5.0
-
-
30471E3
5.0
1000
12.5 x 20
810
350
0.12
50102E3
5.0
60102E3
5.0
-
-
30102E3
5.0
2200
16 x 25
1260
770
0.14
50222E3
7.5
60222E3
7.5
-
-
30222E3
7.5
3300
16 x 31
1420
1155
0.16
50332E3
7.5
60332E3
7.5
-
-
30332E3
7.5
4700
18 x 35
1900
1645
0.18
50472E3
7.5
60472E3
7.5
-
-
-
-
22
5 x 11
78
11
0.10
51229E3
2.0
-
-
71229E3
2.5
31229E3
5.0
47
6.3 x 11
120
24
0.10
51479E3
2.5
-
-
71479E3
2.5
31479E3
5.0
100
8 x 12
188
50
0.10
51101E3
3.5
-
-
71101E3
3.5
31101E3
5.0
220
10 x 12
240
110
0.10
51221E3
5.0
61221E3
5.0
-
-
31221E3
5.0
330
10 x 16
410
165
0.10
51331E3
5.0
61331E3
5.0
-
-
31331E3
5.0
470
12.5 x 20
530
235
0.10
51471E3
5.0
61471E3
5.0
-
-
31471E3
5.0
1000
12.5 x 25
950
500
0.10
51102E3
5.0
61102E3
5.0
-
-
31102E3
5.0
2200
16 x 35
1470
1100
0.12
51222E3
7.5
61222E3
7.5
-
-
-
-
3300
18 x 35
1770
1650
0.14
51332E3
7.5
61332E3
7.5
-
-
-
-
4.7
5 x 11
36
3
0.09
58478E3
2.0
-
-
78478E3
2.5
38478E3
5.0
10
5 x 11
54
6
0.09
58109E3
2.0
-
-
78109E3
2.5
38109E3
5.0
22
6.3 x 11
86
14
0.09
58229E3
2.5
-
-
78229E3
2.5
38229E3
5.0
33
6.3 x 11
100
21
0.09
58339E3
2.5
-
-
78339E3
2.5
38339E3
5.0
47
8 x 12
141
30
0.09
58479E3
3.5
-
-
78479E3
3.5
38479E3
5.0
100
10 x 12
235
63
0.09
58101E3
5.0
68101E3
5.0
-
-
38101E3
5.0
220
10 x 16
335
139
0.09
58221E3
5.0
68221E3
5.0
-
-
38221E3
5.0
330
10 x 20
510
208
0.09
58331E3
5.0
68331E3
5.0
-
-
38331E3
5.0
470
12.5 x 20
640
296
0.09
58471E3
5.0
68471E3
5.0
-
-
38471E3
5.0
1000
16 x 25
930
630
0.09
58102E3
7.5
68102E3
7.5
-
-
38102E3
7.5
2200
18 x 40
2340
1380
0.09
58222E3
7.5
68222E3
7.5
-
-
-
-
2.2
5 x 11
30
3
0.08
59228E3
2.0
-
-
79228E3
2.5
39228E3
5.0
4.7
6.3 x 11
40
5
0.08
59478E3
2.5
-
-
79478E3
2.5
39478E3
5.0
10
8 x 12
66
10
0.08
59109E3
3.5
-
-
79109E3
3.5
39109E3
5.0
22
8 x 12
99
22
0.08
59229E3
3.5
-
-
79229E3
3.5
39229E3
5.0
33
10 x 12
148
33
0.08
59339E3
5.0
69339E3
5.0
-
-
39339E3
5.0
47
10 x 16
180
47
0.08
59479E3
5.0
69479E3
5.0
-
-
39479E3
5.0
100
10 x 20
265
100
0.08
59101E3
5.0
69101E3
5.0
-
-
39101E3
5.0
220
12.5 x 25
440
220
0.08
59221E3
5.0
69221E3
5.0
-
-
39221E3
5.0
330
16 x 25
540
330
0.08
59331E3
7.5
69331E3
7.5
-
-
39331E3
7.5
470
16 x 31
715
470
0.08
59471E3
7.5
69471E3
7.5
-
-
39471E3
7.5
1000
18 x 40
985
1000
0.08
59102E3
7.5
69102E3
7.5
-
-
-
-
Revision: 15-Dec-14
Document Number: 28402
177
For technical questions, contact: [email protected]
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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Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
ORDERING CODE MAL2142...
UR
(V)
200
250
350
400
450
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 Hz
105 ºC
(mA)
IL2
2 min
(μA)
tan 
100 Hz
1.0
5 x 11
18
21
2.2
6.3 x 11
30
28
4.7
8 x 12
54
43
10
10 x 12
94
65
0.14
52109E3
5.0
22
10 x 16
142
113
0.14
52229E3
5.0
CR
100 Hz
(μF)
BULK PACKAGING
LONG LEADS
TAPED AMMOPACK
CUT LEADS
FORM
CA
F
(mm)
FORM
CB
F
(mm)
FORM
TNA
F
(mm)
FORM
TFA
F
(mm)
0.14
52108E3
2.0
-
-
72108E3
2.5
32108E3
5.0
0.14
52228E3
2.5
-
-
72228E3
2.5
32228E3
5.0
0.14
52478E3
3.5
-
-
72478E3
3.5
32478E3
5.0
62109E3
5.0
-
-
32109E3
5.0
62229E3
5.0
-
-
32229E3
5.0
47
12.5 x 20
250
213
0.14
52479E3
5.0
62479E3
5.0
-
-
32479E3
5.0
100
16 x 25
485
425
0.14
52101E3
7.5
62101E3
7.5
-
-
32101E3
7.5
220
18 x 35
835
905
0.14
52221E3
7.5
62221E3
7.5
-
-
-
-
1.0
5 x 11
16
23
0.17
51083E3
2.0
-
-
71083E3
2.5
31083E3
5.0
2.2
6.3 x 11
35
32
0.17
52283E3
2.5
-
-
72283E3
2.5
32283E3
5.0
4.7
8 x 12
60
50
0.17
54783E3
3.5
-
-
74783E3
3.5
34783E3
5.0
10
10 x 12
92
75
0.17
51093E3
5.0
61093E3
5.0
-
-
31093E3
5.0
22
10 x 20
215
135
0.17
52293E3
5.0
62293E3
5.0
-
-
32293E3
5.0
33
12.5 x 20
315
190
0.17
53393E3
5.0
63393E3
5.0
-
-
33393E3
5.0
47
12.5 x 25
350
260
0.17
54793E3
5.0
64793E3
5.0
-
-
34793E3
5.0
100
16 x 31
530
525
0.17
51013E3
7.5
61013E3
7.5
-
-
31013E3
7.5
1.0
6.3 x 11
23
26
0.20
51085E3
2.5
-
-
71085E3
2.5
31085E3
5.0
2.2
8 x 12
41
38
0.20
52285E3
3.5
-
-
72285E3
3.5
32285E3
5.0
4.7
10 x 12
65
58
0.20
54785E3
5.0
64785E3
5.0
-
-
34785E3
5.0
10
10 x 16
105
95
0.20
51095E3
5.0
61095E3
5.0
-
-
31095E3
5.0
22
12.5 x 20
210
179
0.20
52295E3
5.0
62295E3
5.0
-
-
32295E3
5.0
7.5
47
16 x 25
365
354
0.20
54795E3
7.5
64795E3
7.5
-
-
34795E3
100
18 x 35
505
725
0.20
51015E3
7.5
61015E3
7.5
-
-
-
-
1.0
6.3 x 11
21
27
0.25
51086E3
2.5
-
-
71086E3
2.5
31086E3
5.0
2.2
8 x 12
39
41
0.25
52286E3
3.5
-
-
72286E3
3.5
32286E3
5.0
4.7
10 x 12
70
63
0.25
54786E3
5.0
64786E3
5.0
-
-
34786E3
5.0
10
10 x 20
125
105
0.25
51096E3
5.0
61096E3
5.0
-
-
31096E3
5.0
22
12.5 x 25
235
201
0.25
52296E3
5.0
62296E3
5.0
-
-
32296E3
5.0
47
16 x 31
390
401
0.25
54796E3
7.5
64796E3
7.5
-
-
34796E3
7.5
100
18 x 40
530
825
0.25
51016E3
7.5
61016E3
7.5
-
-
-
-
1.0
8 x 12
27
29
0.25
57108E3
3.5
-
-
77108E3
3.5
37108E3
5.0
2.2
10 x 12
48
45
0.25
57228E3
5.0
67228E3
5.0
-
-
37228E3
5.0
4.7
10 x 16
75
67
0.25
57478E3
5.0
67478E3
5.0
-
-
37478E3
5.0
10
12.5 x 20
145
115
0.25
57109E3
5.0
67109E3
5.0
-
-
37109E3
5.0
22
16 x 20
245
223
0.25
57229E3
7.5
67229E3
7.5
-
-
37229E3
7.5
33
16 x 25
325
322
0.25
57339E3
7.5
67339E3
7.5
-
-
37339E3
7.5
47
16 x 35
420
448
0.25
57479E3
7.5
67479E3
7.5
-
-
-
-
Revision: 15-Dec-14
Document Number: 28402
178
For technical questions, contact: [email protected]
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
142 RHS
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Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Voltage
Us  1.15 x UR
Surge voltage
Urev  1 V
Reverse voltage
Current
Leakage current
After 2 min at UR = 10 V to 100 V
IL2  0.01 CR x UR or 3 μA, whichever is greater
After 5 min at UR = 200 V to 450 V
IL5  0.03 CR x UR + 15 μA (CR x UR  1000)
IL5  0.02 CR x UR + 25 μA (CR x UR > 1000)
Inductance
Case Ø D  8 mm
Typ. 13 nH
Case Ø D = 10 mm
Typ. 16 nH
Case Ø D  12.5 mm
Typ. 18 nH
Calculated from tan max. and CR (see Table 2)
ESR = tan /2 f CR
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR)
CAPACITANCE (C)
1.2
C
C0
1.1
1.1
C
C0
1.0
1
2
3
3
2
1.0
0.9
3
0.9
2
0.8
0.8
1
Curve 1: 10 V
Curve 2: 63 V
Curve 3: 100 V
0.7
1
0.7
0.6
Curve 1: 10 V
Curve 2: 63 V
Curve 3: 100 V
0.6
- 60
- 40
- 20
0
20
40
60
80
C0 = Capacitance at 20 °C, 100 Hz
Fig. 6 - Typical multiplier of capacitance
as a function of ambient temperature
Revision: 15-Dec-14
100
120
Tamb (°C)
10
102
103
f (Hz)
C0 = Capacitance at 20 °C, 100 Hz
104
Tamb (20 °C)
Fig. 7 - Typical multiplier of capacitance
as a function of frequency
Document Number: 28402
179
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Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
CCC206
3.8
IA
3.7
IR
3.6
3.5
3.4
3.3
3.2
3.1
3.0
2.8
Lifetime multiplier
2.6
0
1.
2.4
5
1.
0
2.
2.2
0
3.
0
4.
2.0
0
6.
0
8.
1.8
12
20
60
Useful life at 105 °C and IR applied
30
(1)
(1)
0
10 0
15 00
2
1.6
1.4
1.2
1.0
0.8
0.5
0.0
IA = Actual ripple current at 100 Hz, 105 °C
IR = Rated ripple current at 100 Hz, 105 °C
40
50
60
70
80
90
100
110
Tamb (°C)
Fig. 8 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 3
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
CR < 100 μF
CR = 100 μF TO 1000 μF
CR > 1000 μF
50
0.70
0.75
0.80
100
1.00
1.00
1.00
500
1.30
1.20
1.10
1000
1.40
1.30
1.12
10 000
1.50
1.35
1.15
Table 4
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60 384-4 /
EN130 300
subclause 4.13
PROCEDURE
(quick reference)
REQUIREMENTS
Tamb = 105 °C; UR applied; 2000 h
C/C: ± 20 %
tan   2 x spec. limit
IL5  spec. limit
Useful life
CECC 30 301
subclause 1.8.1
Tamb = 105 °C; UR and IR applied; 2500 h
C/C: ± 30 %
tan   3 x spec. limit
IL5  spec. limit
no short or open circuit
total failure percentage: 1 %
Shelf life
(storage at high
temperature)
IEC 60 384-4 /
EN130 300
subclause 4.17
Tamb = 105 °C; no voltage applied; 1000 h
After test: UR to be applied for 30 min, 24 h to 48 h
before measurement
C/C: ± 20 %
tan   2 x spec. limit
IL5  spec. limit
Surge
IEC 60 384-4 /
EN130 300
subclause 4.14
From source of 1.15 x UR:
RC = 0.1 s ± 0.05 s;
1000 cycles of 30 s on, 330 s off, at 105 °C
C/C: ± 25 %
tan   1.5 x spec. limit
IL5  spec. limit
Revision: 15-Dec-14
Document Number: 28402
180
For technical questions, contact: [email protected]
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
048 RML
www.vishay.com
Vishay BCcomponents
Aluminum Capacitors
Radial Miniature Long Life
FEATURES
• Very long useful life: 3000 h to 4000 h at
105 °C
• High reliability
• Miniaturized, high CV-product per unit volume
• Charge and discharge proof
• Polarized aluminum electrolytic capacitors, non-solid
electrolyte
• Radial leads, cylindrical aluminum case with pressure
relief, insulated with a blue sleeve
116 RLL
lower
CV-values
152 RMH
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
high voltage
APPLICATIONS
048 RML
longer life
lower Z
136 RVI
miniaturized
• EDP, telecommunication, industrial, automotive and
audio-video
150 RMI
miniaturized
• Smoothing, filtering, buffering in SMPS, timing
• Portable and mobile equipment (small size, low mass)
148 RUS
Fig. 1
MARKING
The capacitors are marked (where possible) with the
following information:
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes (Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
Endurance test at 105 °C
Useful life at 105 °C
Case Ø D = 10 mm and 12.5 mm
Case Ø D = 16 mm and 18 mm
Useful life at 40 °C, 1.6 x IR applied
Case Ø D = 10 mm and 12.5 mm
Case Ø D = 16 mm and 18 mm
Shelf life at 0 V, 105 °C
Based on sectional specification
Climatic category IEC 60068
VALUE
10 x 12 to 18 x 35
100 μF to 10 000 μF
± 20 %
6.3 to 63 V
- 40 °C to + 105 °C
2000 h
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Code indicating factory of origin
• Name of manufacturer
3000 h
4000 h
• Upper category temperature (105 °C)
• Negative terminal identification
200 000 h
260 000 h
1000 h
IEC 60384-4/EN130300
40/105/56
• Series number (048)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
100
220
330
470
1000
2200
3300
4700
6800
10 000
UR (V)
6.3
16 x 25
16 x 35
Revision: 05-Oct-12
10
10 x 16
12.5 x 20
12.5 x 25
16 x 25
16 x 31
18 x 35
16
10 x 12
10 x 20
12.5 x 25
16 x 25
16 x 31
16 x 35
18 x 35
25
10 x 16
12.5 x 20
16 x 25
16 x 31
18 x 35
-
35
10 x 12
10 x 20
12.5 x 25
16 x 31
18 x 35
18 x 35
-
40
16 x 35
18 x 35
-
50
10 x 16
12.5 x 20
16 x 25
18 x 35
18 x 35
-
63
10 x 12
10 x 20
12.5 x 20
12.5 x 25
16 x 31
18 x 35
-
Document Number: 28318
181
For technical questions, contact: [email protected]
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
048 RML
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Vishay BCcomponents
DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
ØD
L
L
F
15 min.
+1
4 0
Ød
Ød
5 min.
F
Fig. 2 - Form CA: Longs leads
Fig. 3 - Form CB: Cut leads
Fig. 4 - Form TFA: Taped in box (ammopack)
Table 1
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
PACKAGING QUANTITIES
MASS
(g)
FORM CA
FORM CB
FORM TFA
10 x 12
14
0.6
10.5
13.5
5.0 ± 0.5
1.6
1000
500
800
10 x 16
15
0.6
10.5
17.5
5.0 ± 0.5
1.9
500
500
800
10 x 20
16
0.6
10.5
22.0
5.0 ± 0.5
 2.2
500
500
800
12.5 x 20
17
0.6
13.0
22.0
5.0 ± 0.5
4.0
500
500
500
12.5 x 25
18
0.6
13.0
27.0
5.0 ± 0.5
5.0
250
250
500
16 x 25
19
0.8
16.5
27.0
7.5 ± 0.5
 8.0
250
250
250
16 x 31
20
0.8
16.5
33.5
7.5 ± 0.5
 9.0
100
100
250
16 x 35
21
0.8
16.5
37.5
7.5 ± 0.5
 11.5
100
100
-
18 x 35
22
0.8
18.5
37.5
7.5 ± 0.5
 14.5
100
100
-
Note
• For detailed tape dimensions please refer to packaging information: www.vishay.com/doc?28360
Revision: 05-Oct-12
Document Number: 28318
182
For technical questions, contact: [email protected]
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
048 RML
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Vishay BCcomponents
ORDERING EXAMPLE
ELECTRICAL DATA
Electrolytic capacitor 048 series
SYMBOL
DESCRIPTION
CR
IR
IL1
tan 
Z
Rated capacitance at 100 Hz, tolerance ± 20 %
Rated RMS ripple current at 100 Hz, 105 °C
Max. leakage current after 1 min at UR
Max. dissipation factor at 100 Hz
Max. impedance at 100 kHz
2200 μF/16 V; ± 20 %
Nominal case size: Ø 12.5 mm x 25 mm; Form TFA
Ordering code: MAL204835222E3
Former 12NC: 2222 048 35222
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
35
40
50
63
CR
100 Hz
(μF)
DIMENSIONS
ØDxL
(mm)
IR
100 Hz
105 °C
(mA)
IL1
1 min
(μA)
tan 
100 Hz
6800
10 000
1000
2200
3300
4700
6800
10 000
470
1000
2200
3300
4700
6800
10 000
470
1000
2200
3300
4700
220
470
1000
2200
3300
4700
2200
3300
220
470
1000
2200
3300
100
220
330
470
1000
2200
16 x 25
16 x 35
10 x 16
12.5 x 20
12.5 x 25
16 x 25
16 x 31
18 x 35
10 x 12
10 x 20
12.5 x 25
16 x 25
16 x 31
16 x 35
18 x 35
10 x 16
12.5 x 20
16 x 25
16 x 31
18 x 35
10 x 12
10 x 20
12.5 x 25
16 x 31
18 x 35
18 x 35
16 x 35
18 x 35
10 x 16
12.5 x 20
16 x 25
18 x 35
18 x 35
10 x 12
10 x 20
12.5 x 20
12.5 x 25
16 x 31
18 x 35
1350
1700
470
800
1000
1270
1550
1870
360
600
1000
1220
1500
1690
1980
440
720
1120
1450
1720
310
500
900
1340
1600
1950
1500
1600
340
620
1030
1500
1900
240
400
550
700
1150
1600
430
630
100
220
330
470
680
1000
78
160
360
530
760
1100
1600
120
250
550
830
1200
80
170
350
770
1200
1600
880
1300
110
240
500
1100
1700
66
140
210
300
630
1400
0.32
0.40
0.19
0.21
0.23
0.25
0.29
0.37
0.16
0.16
0.18
0.20
0.22
0.26
0.34
0.14
0.14
0.16
0.18
0.20
0.12
0.12
0.12
0.14
0.16
0.18
0.13
0.15
0.10
0.10
0.10
0.12
0.14
0.09
0.09
0.09
0.09
0.09
0.11
Revision: 05-Oct-12
Z
100 kHz
(m)
56
42
180
90
68
56
45
36
250
140
70
56
45
42
34
180
100
56
45
36
280
150
75
45
36
34
45
36
250
110
60
50
40
310
200
120
80
49
45
ORDERING NUMBER MAL2048.......
BULK PACKAGING
TAPED
FORM CA
FORM CB
FORM TFA
53682E3
53103E3
54102E3
54222E3
54332E3
54472E3
54682E3
54103E3
55471E3
55102E3
55222E3
55332E3
55472E3
55682E3
55103E3
56471E3
56102E3
56222E3
56332E3
56472E3
50221E3
50471E3
50102E3
50222E3
50332E3
50472E3
57222E3
57332E3
51221E3
51471E3
51102E3
51222E3
51332E3
58101E3
58221E3
58331E3
58471E3
58102E3
58222E3
63682E3
63103E3
64102E3
64222E3
64332E3
64472E3
64682E3
64103E3
65471E3
65102E3
65222E3
65332E3
65472E3
65682E3
65103E3
66471E3
66102E3
66222E3
66332E3
66472E3
60221E3
60471E3
60102E3
60222E3
60332E3
60472E3
67222E3
67332E3
61221E3
61471E3
61102E3
61222E3
61332E3
68101E3
68221E3
68331E3
68471E3
68102E3
68222E3
33682E3
34102E3
34222E3
34332E3
34472E3
34682E3
35471E3
35102E3
35222E3
35332E3
35472E3
36471E3
36102E3
36222E3
36332E3
30221E3
30471E3
30102E3
30222E3
31221E3
31471E3
31102E3
38101E3
38221E3
38331E3
38471E3
38102E3
-
Document Number: 28318
183
For technical questions, contact: [email protected]
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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Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
Voltage
Surge voltage
Reverse voltage
Current
CONDITIONS
VALUE
Us 1.15 UR
Urev 1 V
After 1 min at UR
After 5 min at UR
IL1  0.01 CR x UR + 3 μA
IL5  0.002 CR x UR + 3 μA
Case Ø D = 10 mm
Case Ø D  12.5 mm
Typ. 16 nH
Typ. 18 nH
Calculated from tan max. and CR (see Table 2)
ESR = tan /2f CR
Leakage current
Inductance
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR)
CAPACITANCE (C)
1.2
C
C0
1.2
C
C0
1.0
1
1.1
5
4
3
2
1
2
0.8
1.0
0.6
2
0.4
Curve 1: 10 V
Curve 2: 16 V
Curve 3: 25 V
Curve 4: 50 V
Curve 5: 63 V
0.9
1
Curve 1: 6.3 V
Curve 2: 63 V
0.2
0.8
0
- 60
- 40
- 20
0
20
40
60
80
C0 = Capacitance at 20 °C, 100 Hz
100
120
Tamb (20 °C)
10
102
C0 = Capacitance at 20 °C, 100 Hz
Fig. 5 - Typical multiplier of capacitance
as a function of ambient temperature
103
105
104
f (Hz)
Fig. 6 - Typical multiplier of capacitance
as a function of frequency
EQUIVALENT SERIES RESISTANCE (ESR)
1.2
C
C0
1.0
2.0
ESR
1
2
3
Curve 1: 6.3 V
Curve 2: 16 V
Curve 3: 35 V
Curve 4: 50 V
Curve 5: 63 V
ESR0
1.6
0.8
1.2
0.6
3
2
1
0.8
1
2
3
4
5
0.4
0.4
Curve 1: 10 V; case Ø D = 10 mm
Curve 2: 6.3 V; case Ø D = 16 mm
Curve 3: 63 V; case Ø D = 18 mm
0.2
0
0
- 60
- 40
- 20
0
20
40
60
80
C0 = Capacitance at 20 °C, 100 Hz
Fig. 7 - Typical multiplier of ESR
as a function of ambient temperature
Revision: 05-Oct-12
100
120
Tamb (20 °C)
10
102
103
104
ESR0 = Typical at 20 °C, 100 Hz
105
f (Hz)
Fig. 8 - Typical multiplier of ESR
as a function of frequency
Document Number: 28318
184
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IMPEDANCE (Z)
102
102
Curve 1: Case Ø D = 10 mm
Curve 2: Case Ø D = 16 mm
Z
Z0
Curve 1: 470 μF, 16 V; Ø D = 10 x 12 mm
Curve 2: 1000 μF, 10 V; Ø D = 10 x 16 mm
Curve 3: 1000 μF, 16 V; Ø D = 10 x 20 mm
Curve 4: 2200 μF, 16 V; Ø D = 12.5 x 25 mm
Curve 5: 3300 μF, 16 V; Ø D = 16 x 25 mm
Curve 6: 6800 μF, 6.3 V; Ø D = 16 x 25 mm
Z
(Ω)
10
1
10
2
1
1
2
3
4
5
6
1
1
2
10
-1
10
-1
10-2
- 60
- 40
- 20
0
20
40
60
80
Z0 = Typical impedance at 20 °C, 10 kHz
100
120
10
10
104
f (Hz)
105
Tamb (20 °C)
Fig. 10 - Typical impedance as a function of frequency
Curve 1: 220 µF, 35 V; Ø D = 10 x 12 mm
Curve 2: 330 µF, 35 V; Ø D = 10 x 16 mm
Curve 3: 470 µF, 25 V; Ø D = 10 x 16 mm
Curve 4: 470 µF, 35 V; Ø D = 10 x 20 mm
Curve 5: 1000 µF, 25 V; Ø D = 12.5 x 20 mm
Curve 6: 1000 µF, 35 V; Ø D = 12.5 x 25 mm
Curve 7: 3300 µF, 25 V; Ø D = 16 x 31 mm
Z
(Ω)
103
Tamb (20 °C)
Fig. 9 - Typical multiplier of impedance
as a function of ambient temperature
102
102
1
102
Curve 1: 100 µF, 63 V; Ø D = 10 x 12 mm
Curve 2: 220 µF, 50 V; Ø D = 10 x 16 mm
Curve 3: 220 µF, 63 V; Ø D = 10 x 20 mm
Curve 4: 330 µF, 63 V; Ø D = 12.5 x 20 mm
Curve 5: 470 µF, 50 V; Ø D = 12.5 x 20 mm
Curve 6: 470 µF, 63 V; Ø D = 12.5 x 25 mm
Z
(Ω)
10
1
1
2
3
4
5
6
7
-1
10
-1
10
10-2
10-2
10
102
103
104
f (Hz)
105
Tamb (20 °C)
Fig. 11 - Typical impedance as a function of frequency
Revision: 05-Oct-12
Curve 7: 1000 µF, 63 V; Ø D = 16 x 31 mm
Curve 8: 1000 µF, 40 V; Ø D = 16 x 35 mm
10
102
103
3
4
5
6
7
8
104
1
2
f (Hz)
105
Tamb (20 °C)
Fig. 12 - Typical impedance as a function of frequency
Document Number: 28318
185
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
CCC206
3.8
3.7
IA
IR 3.6
3.5
3.4
3.3
3.2
3.1
3.0
2.8
Lifetime multiplier
2.6
0
1.
2.4
5
1.
0
2.
2.2
0
3.
0
4.
2.0
0
6.
0
8.
1.8
20
30
60
(1)
0
10
0
15 0
20
IA = Actual ripple current at 100 Hz
IR = Rated ripple current at 100 Hz, 105 °C
(1)
Useful life at 105 °C and IR applied (see Table 4)
1.4
1.2
1.0
0.8
0.5
0.0
12
1.6
40
50
60
70
80
90
100
110
Tamb (°C)
Fig. 13 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 3
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 6.3 V to 25 V
UR = 35 V and 40 V
UR = 50 V and 63 V
50
0.95
0.85
0.80
100
1.00
1.00
1.00
300
1.07
1.20
1.25
1000
1.12
1.30
1.40
3000
1.15
1.35
1.50
10 000
1.20
1.40
1.60
Revision: 05-Oct-12
Document Number: 28318
186
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Vishay BCcomponents
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/
EN130300
subclause 4.13
PROCEDURE
(quick reference)
REQUIREMENTS
Tamb = 105 °C; UR applied;
2000 h
UR  6.3 V; C/C: + 15 %/- 30 %
UR  6.3 V; C/C: ± 15 %
tan   1.3 x spec. limit
Z  2 x spec. limit
IL5  spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 105 °C; UR and IR applied;
Case Ø D = 10 mm and 12.5 mm: 3000 h
Case Ø D = 16 mm and 18 mm: 4000 h
UR  6.3 V; C/C: + 45 %/- 50 %
UR  6.3 V; C/C: ± 45 %
tan   3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
No short or open circuit
Total failure percentage:  1 %
Shelf life
(storage at
high temperature)
IEC 60384-4/
EN130300
subclause 4.17
Tamb = 105 °C; no voltage applied;
1000 h
After test: UR to be applied for 30 min, 
24 h to 48 h before measurement
UR  6.3 V; C/C: + 15 %/- 30 %
UR  6.3 V; C/C: ± 15 %
tan   1.3 x spec. limit
Z  2 x spec. limit
IL5  2 x spec. limit
Revision: 05-Oct-12
Document Number: 28318
187
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
152 RMH
www.vishay.com
Vishay BCcomponents
Aluminum Capacitors
Radial Miniature, High Voltage
FEATURES
152 RMH
low
voltage
• Long useful life: 3000 h to 4000 h at 105 °C
• AEC-Q200 qualified
• Miniaturized, ultra high CV-product per unit
volume
• High reliability
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte
• Radial leads, cylindrical aluminum case,
insulated with a blue sleeve
• Pressure relief
• Charge and discharge proof
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
148 RUS
Fig. 1
APPLICATIONS
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes (Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
Endurance test at 105 °C
Useful life at 105 °C:
Case Ø D = 10 mm and 12.5 mm
Case Ø D = 16 mm and 18 mm
Useful life at 40 °C, 1.6 x IR applied:
Case Ø D = 10 mm and 12.5 mm
Case Ø D = 16 mm and 18 mm
Shelf life at 0 V, 105 °C
Based on sectional specification
Climatic category IEC 60068
VALUE
10 x 12 to 18 x 35
1.5 μF to 220 μF
± 20 %
200 V to 450 V
- 40 °C to + 105 °C
2000 h
3000 h
4000 h
200 000 h
260 000 h
1000 h
IEC 60384-4/EN 130300
40/105/56
• Automotive
• High-reliability and professional applications
• Lighting, monitors, consumer electronics,
industrial
• Filtering of high voltages in power supplies
general
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance value (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Code indicating factory of origin
• Name of manufacturer
• Upper category temperature (105 °C)
• Negative terminal identification
• Series number (152)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
1.5
2.2
4.7
6.8
10
22
33
47
68
100
220
Revision: 09-Nov-12
UR (V)
200
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 35
250
10 x 16
12.5 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 25
-
400
10 x 12
10 x 16
10 x 12
10 x 16
10 x 20
12.5 x 25
16 x 20
16 x 20
16 x 25
16 x 35
18 x 35
-
450
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 20
16 x 25
18 x 20
16 x 35
18 x 25
18 x 35
-
Document Number: 28320
188
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152 RMH
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Vishay BCcomponents
DIMENSIONS in millimeters AND AVAILABLE FORMS
4+1
-0
L
Ød
+
+
F
ØD
F
ØD
-
5
min
L
Ød
15
min
Fig. 2 - Form CA: Long leads
Fig. 3 - Form CB: Cut leads
Fig. 4 - Form TFA: Taped in box (ammopack)
Table 1
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
MASS
(g)
10 x 12
14
0.6
10.5
13.5
5.0 ± 0.5
10 x 16
15
0.6
10.5
17.5
10 x 20
16
0.6
10.5
12.5 x 20
17
0.6
12.5 x 25
18
16 x 20
FORM
CA
FORM
CB
FORM
TFA
 1.6
1000
500
800
5.0 ± 0.5
 1.9
500
500
800
22.0
5.0 ± 0.5
 2.2
500
500
800
13.0
22.0
5.0 ± 0.5
 4.0
500
500
500
0.6
13.0
27.0
5.0 ± 0.5
 5.0
250
250
500
19a
0.8
16.5
22.0
7.5 ± 0.5
 6.0
250
250
250
16 x 25
19
0.8
16.5
27.0
7.5 ± 0.5
 8.0
250
250
250
16 x 35
21
0.8
16.5
37.5
7.5 ± 0.5
 11.0
100
100
-
18 x 20
1820
0.8
18.5
22.0
7.5 ± 0.5
 8.0
100
100
-
18 x 25
1825
0.8
18.5
27.0
7.5 ± 0.5
 10.0
100
100
-
18 x 35
22
0.8
18.5
37.5
7.5 ± 0.5
 14.5
100
100
-
Note
• For detailed tape dimensions please see www.vishay.com/doc?28360
Revision: 09-Nov-12
Document Number: 28320
189
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Electrolytic capacitor 152 series
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
4.7 μF/400 V; ± 20 %
IR
Rated RMS ripple current at 100 Hz, 105 °C
Nominal case size: Ø 10 mm x 16 mm; form TFA
Max. leakage current after 1 min at UR
Ordering code: MAL215236478E3
Former 12NC: 2222 152 36478
IL1
tan 
Max. dissipation factor at 100 Hz
Z
Max. impedance at 10 kHz
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
200
250
400
450
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 Hz
105 °C
(mA)
IL1
1 min
(μA)
tan 
100 Hz
10
10 x 12
85
130
22
10 x 16
120
33
10 x 20
150
47
12.5 x 20
68
100
ORDERING CODE MAL2152 .......
Z
10 kHz
()
FORM CA
FORM CB
FORM TFA
0.12
6.3
52109E3
62109E3
32109E3
202
0.12
3.2
52229E3
62229E3
32229E3
268
0.12
2.3
52339E3
62339E3
32339E3
240
352
0.12
0.9
52479E3
62479E3
32479E3
12.5 x 25
310
478
0.12
0.6
52689E3
62689E3
32689E3
16 x 20
340
670
0.12
0.4
52101E3
62101E3
32101E3
BULK PACKAGING
TAPED
220
16 x 35
630
1390
0.12
0.2
52221E3
62221E3
-
10
10 x 16
105
145
0.12
6.3
53109E3
63109E3
33109E3
22
12.5 x 20
180
235
0.12
2.3
53229E3
63229E3
33229E3
33
12.5 x 20
180
318
0.12
1.5
53339E3
63339E3
33339E3
47
12.5 x 25
310
423
0.12
0.9
53479E3
63479E3
33479E3
47
16 x 20
310
423
0.12
0.9
93475E3
93476E3
93473E3
100
16 x 25
340
820
0.12
0.4
53101E3
63101E3
33101E3
2.2
10 x 12
44
96
0.15
28.0
56228E3
66228E3
36228E3
4.7
10 x 12
48
127
0.15
24.0
96475E3
96476E3
96473E3
4.7
10 x 16
65
126
0.15
18.0
56478E3
66478E3
36478E3
6.8
10 x 16
65
152
0.15
12.0
56688E3
66688E3
36688E3
36109E3
10
10 x 20
80
190
0.15
9.0
56109E3
66109E3
22
12.5 x 25
150
334
0.15
3.8
56229E3
66229E3
36229E3
22
16 x 20
150
334
0.15
3.8
96225E3
96226E3
96223E3
33
16 x 20
190
466
0.15
2.6
56339E3
66339E3
36339E3
47
16 x 25
240
634
0.15
2.0
56479E3
66479E3
36479E3
68
16 x 35
310
886
0.15
1.7
56689E3
66689E3
-
100
18 x 35
380
1270
0.15
0.9
56101E3
66101E3
-
1.5
10 x 12
30
90
0.20
26.0
57158E3
67158E3
37158E3
2.2
10 x 16
50
99
0.20
26.0
57228E3
67228E3
37228E3
4.7
10 x 20
65
133
0.20
20.0
57478E3
67478E3
37478E3
6.8
12.5 x 20
80
162
0.20
16.0
57688E3
67688E3
37688E3
10
12.5 x 20
90
205
0.20
10.0
57109E3
67109E3
37109E3
22
16 x 25
150
367
0.20
4.6
57229E3
67229E3
37229E3
22
18 x 20
150
367
0.20
4.6
97225E3
97226E3
-
33
16 x 35
200
516
0.20
3.4
57339E3
67339E3
-
33
18 x 25
200
516
0.20
3.4
97335E3
97336E3
-
47
18 x 35
260
705
0.20
2.0
57479E3
67479E3
-
Revision: 09-Nov-12
Document Number: 28320
190
For technical questions, contact: [email protected]
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
152 RMH
www.vishay.com
Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
Voltage
CONDITIONS
VALUE
UR = 200 V to 250 V
UR = 400 V to 450 V
Us 1.15 x UR
Us 1.10 x UR
Urev 1 V
After 1 min at UR
After 5 min at UR
IL1  0.03 CR x UR + 70 μA
IL5  0.015 CR x UR + 30 μA
Case Ø D = 10 mm
Case Ø D  12.5 mm
Typ. 16 nH
Typ. 18 nH
Calculated from tan max. and CR (see Table 2)
ESR = tan /2f CR
Surge voltage
Reverse voltage
Current
Leakage current
Inductance
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR)
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
50
100
300
1000
3000
10 000
 100 000
IR MULTIPLIER
UR  250 V
0.75
1.00
1.50
2.00
2.20
2.50
3.00
UR > 250 V
0.75
1.00
1.30
1.60
1.90
2.20
2.50
RIPPLE CURRENT AND USEFUL LIFE
CCC206
3.8
IA 3.7
IR 3.6
3.5
3.4
3.3
3.2
3.1
3.0
2.8
Lifetime multiplier
2.6
0
1.
2.4
5
1.
0
2.
2.2
0
3.
0
4.
2.0
0
6.
0
8.
1.8
20
60
1.4
1.2
1.0
0.8
0.5
0.0
(1)
0
10 0
15 0
20
Useful life at 105 °C and IR applied
Case Ø D = 10 mm and 12.5 mm: 3000 h
Case Ø D = 16 mm and 18 mm: 4000 h
1.6
30
(1)
12
IA = Actual ripple current at 100 Hz
IR = Rated ripple current at 100 Hz, 105 °C
40
50
60
70
80
90
100
110
Tamb (°C)
Fig. 5 - Multiplier of useful life as a function of ambient temperature and ripple current load
Revision: 09-Nov-12
Document Number: 28320
191
For technical questions, contact: [email protected]
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
152 RMH
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Vishay BCcomponents
Table 4
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/
EN 130300
subclause 4.13
PROCEDURE
(quick reference)
REQUIREMENTS
Tamb = 105 °C; UR applied;
2000 h
C/C: ± 20 %
tan   2 x spec. limit
Z  2 x spec. limit
IL5  spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 105 °C; UR and IR applied;
Case Ø D = 10 mm and 12.5 mm: 3000 h
Case Ø D = 16 mm and 18 mm: 4000 h
C/C: ± 50 %
tan   3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
no short or open circuit
total failure percentage:  1 %
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN 130300
subclause 4.17
Tamb = 105 °C; no voltage applied;
1000 h
After test: UR to be applied for 30 min,
24 h to 48 h before measurement
C/C: ± 20 %
tan   2 x spec. limit
Z  2 x spec. limit
IL5  2 x spec. limit
Reverse voltage
IEC 60384-4/
EN 130300
subclause 4.15
Tamb = 105 °C:
125 h at U = - 1 V,
followed by 125 h at UR
C/C: ± 15 %
IL5  spec. limit
tan   spec. limit
Revision: 09-Nov-12
Document Number: 28320
192
For technical questions, contact: [email protected]
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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Vishay BCcomponents
Aluminum Capacitors
Radial Very Low Impedance
FEATURES
• Very low impedance and low ESR
• Very long useful life:
4000 h to 10 000 h at 105 °C, very high reliability
• Excellent ripple current capability
• Polarized aluminum electrolytic capacitors, non-solid
electrolyte
• Radial leads, cylindrical aluminum case with pressure
relief, insulated with a blue sleeve
• Charge and discharge proof
140 RTM
125 C
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
higher
temperature
136 RVI
APPLICATIONS
150 RMI
miniaturized
higher
CV/volume
048 RML
• Power supplies (SMPS, DC/DC converters) for general
industrial, EDP, audio-video, and telecommunications
• Smoothing, filtering, buffering
148 RUS
miniaturized
MARKING
The capacitors are marked (where possible) with the
following information:
Fig. 1
• Rated capacitance value (in μF)
QUICK REFERENCE DATA
DESCRIPTION
VALUE
Nominal case sizes (Ø D x L in mm)
10 x 12 to 18 x 35
Rated capacitance range, CR
22 μF to 10 000 μF
Tolerance on CR
Rated voltage range, CR
Category temperature range
± 20 %
10 V to 100 V
-55 °C to +105 °C
Endurance test at 105 °C
3000 h to 5000 h
(dependent on case size)
Useful life at 105 °C
4000 h to 10 000 h
(dependent on case size)
Useful life at 40 °C, 
1.8 x IR applied
200 000 h to 500 000 h
(dependent on case size)
Shelf life at 0 V, 105 °C
Based on sectional specification
Climatic category IEC 60 068
Revision: 06-Nov-14
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Code indicating factory of origin
• Name of manufacturer
• Upper category temperature (105 °C)
• Negative terminal identification
• Series number (136)
1000 h
IEC 60384-4/EN130300
55/105/56
Document Number: 28321
193
For technical questions, contact: [email protected]
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Vishay BCcomponents
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
UR (V)
CR
(μF)
10
16
25
35
50
63
100
22
-
-
-
-
-
-
10 x 12
33
-
-
-
-
-
-
10 x 12
47
-
-
-
-
-
10 x 12
10 x 16
56
-
-
-
-
-
10 x 12
-
68
-
-
-
-
-
10 x 16
10 x 20
82
-
-
-
-
10 x 12
-
-
100
-
-
-
-
10 x 12
10 x 16
12.5 x 20
-
-
-
10 x 12
10 x 16
10 x 20
-
-
-
-
-
-
12.5 x 16
-
-
-
-
10 x 12
10 x 20
10 x 25
16 x 20
-
-
10 x 12
-
10 x 20
10 x 30
-
-
-
-
-
12.5 x 16
-
-
-
-
10 x 12
10 x 16
10 x 25
12.5 x 20
16 x 25
120
150
180
220
270
330
390
470
1200
1500
1800
2200
2700
3300
3900
4700
5600
6800
10 000
-
-
-
12.5 x 25
-
10 x 16
10 x 20
10 x 30
16 x 20
16 x 31
-
-
-
12.5 x 16
12.5 x 20
-
-
-
-
10 x 25
-
12.5 x 31
-
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 35
-
-
12.5 x 16
-
-
-
18 x 31
-
-
10 x 25
10 x 30
12.5 x 31
-
-
-
-
-
12.5 x 20
-
-
-
10 x 16
10 x 20
-
12.5 x 25
16 x 20
16 x 31
18 x 35
-
12.5 x 16
-
-
-
18 x 25
-
-
10 x 25
10 x 30
-
16 x 25
16 x 35
-
-
-
12.5 x 20
-
-
-
-
10 x 20
12.5 x 20
12.5 x 25
12.5 x 31
16 x 31
18 x 31
-
820
1000
10 x 12
10 x 12
10 x 12
560
680
-
12.5 x 16
-
-
16 x 20
18 x 20
-
-
10 x 25
10 x 30
-
16 x 25
16 x 35
-
-
-
12.5 x 20
-
-
-
-
-
10 x 30
12.5 x 25
12.5 x 31
16 x 25
18 x 31
18 x 35
-
12.5 x 20
-
16 x 20
-
-
-
-
12.5 x 20
-
16 x 25
16 x 31
-
-
-
12.5 x 25
12.5 x 31
16 x 31
16 x 35
18 x 35
-
-
-
16 x 20
18 x 20
18 x 31
-
-
-
12.5 x 31
16 x 25
16 x 31
-
-
-
-
16 x 20
16 x 25
16 x 35
18 x 35
-
-
-
-
-
18 x 31
-
-
-
16 x 25
16 x 31
-
-
-
-
-
16 x 31
16 x 35
18 x 35
-
-
-
-
-
18 x 31
-
-
-
-
-
16 x 31
-
-
-
-
-
-
18 x 25
-
-
-
-
-
-
16 x 35
18 x 35
-
-
-
-
-
18 x 31
-
-
-
-
-
-
18 x 35
-
-
-
-
-
-
Revision: 06-Nov-14
Document Number: 28321
194
For technical questions, contact: [email protected]
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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Vishay BCcomponents
DIMENSIONS in millimeters AND AVAILABLE FORMS
L
5±1
L
Ød
F
5
min.
ØD
F
ØD
Ød
15
min.
Fig. 2 - Form CA: long leads
Fig. 3 - Form CB: cut leads
Fig. 4 - Form TFA: taped in box (ammopack)
Table 1
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
MASS
(g)
PACKAGING QUANTITIES
FORM
CA
FORM
CB
FORM
TFA
10 x 12
14
0.6
10.5
13.5
5.0 ± 0.5
 1.6
1000
500
800
10 x 16
15
0.6
10.5
17.5
5.0 ± 0.5
 1.9
500
500
800
10 x 20
16
0.6
10.5
22.0
5.0 ± 0.5
 2.2
500
500
800
10 x 25
16L
0.6
10.5
27.0
5.0 ± 0.5
3.0
1000
1500
800
10 x 30
16LL
0.6
10.5
32.0
5.0 ± 0.5
 3.5
1000
750
-
12.5 x 16
17a
0.6
13.0
17.5
5.0 ± 0.5
 2.7
1000
1500
500
12.5 x 20
17
0.6
13.0
22.0
5.0 ± 0.5
 4.0
500
500
500
12.5 x 25
18
0.6
13.0
27.0
5.0 ± 0.5
 5.0
250
250
500
12.5 x 31
18L
0.6
13.0
33.5
5.0 ± 0.5
 5.5
1000
750
-
16 x 20
19a
0.8
16.5
22.0
7.5 ± 0.5
 6.0
250
250
250
16 x 25
19
0.8
16.5
27.0
7.5 ± 0.5
 8.0
250
250
250
16 x 31
20
0.8
16.5
33.5
7.5 ± 0.5
 9.0
100
100
250
16 x 35
21
0.8
16.5
37.5
7.5 ± 0.5
 11.0
100
100
-
18 x 20
1820
0.8
18.5
22.0
7.5 ± 0.5
 8.0
100
100
-
18 x 25
1825
0.8
18.5
27.0
7.5 ± 0.5
 10.0
100
100
-
18 x 31
1831
0.8
18.5
33.5
7.5 ± 0.5
 12.5
100
100
-
18 x 35
22
0.8
18.5
37.5
7.5 ± 0.5
 14.5
100
100
-
Note
• For detailed tape dimensions refer to packaging information: www.vishay.com/doc?28360
Revision: 06-Nov-14
Document Number: 28321
195
For technical questions, contact: [email protected]
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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ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Electrolytic capacitor 136 series
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
1000 μF/25 V; ± 20 %
IR
Rated RMS ripple current at 100 kHz, 105 °C
Nominal case size: Ø 12.5 mm x 25 mm; form TFA
IL2
Max. leakage current after 2 min at UR
tan 
Max. dissipation factor at 100 Hz
Ordering code: MAL2 136 36102 E3
Former 12NC: 2222 136 36102
Z
Max. impedance at 100 kHz
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
10
16
CR
100 Hz
(μF)
390
470
680
1000
1000
1200
1500
1500
1800
2200
2700
3300
3900
4700
5600
5600
6800
6800
10 000
270
330
470
680
680
820
1000
1200
1200
1500
2200
2200
2700
3300
3900
4700
4700
6800
Revision: 06-Nov-14
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 kHz
105 °C
(mA)
IL2
2 min
(μA)
10 x 12
10 x 12
10 x 16
10 x 20
12.5 x 16
10 x 25
10 x 30
12.5 x 20
12.5 x 20
12.5 x 25
12.5 x 31
16 x 20
16 x 25
16 x 31
16 x 31
18 x 25
16 x 35
18 x 31
18 x 35
10 x 12
10 x 12
10 x 16
10 x 20
12.5 x 16
10 x 25
12.5 x 20
10 x 30
12.5 x 20
12.5 x 25
12.5 x 31
16 x 20
16 x 25
16 x 25
16 x 31
16 x 35
18 x 31
18 x 35
630
630
830
1000
940
1300
1400
1300
1340
1700
2000
1600
2100
2400
2400
2270
2600
2760
3180
630
630
830
1000
940
1300
1300
1400
1300
1700
2000
1600
2100
2100
2400
2600
2560
3000
39
47
68
100
100
120
150
150
180
220
270
330
390
470
560
560
680
680
1000
43
53
75
110
110
130
160
190
190
240
350
350
430
530
620
750
750
1090
tan 
100 Hz
0.19
0.19
0.19
0.19
0.19
0.19
0.19
0.19
0.19
0.21
0.21
0.23
0.23
0.25
0.27
0.27
0.29
0.29
0.31
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.18
0.18
0.18
0.20
0.20
0.22
0.22
0.24
Z
100 kHz
+20 °C
(m)
Z
100 kHz
-10 °C
(m)
120
120
84
62
76
52
44
46
46
34
30
38
28
25
25
25
22
23
21
120
120
84
62
76
52
48
44
46
34
30
38
28
28
25
22
23
21
240
240
170
130
160
110
88
92
92
68
60
76
56
50
50
50
44
46
42
240
240
170
130
160
110
96
88
92
68
60
76
56
56
50
44
46
42
ORDERING CODE
MAL2136.......
BULK PACKAGING
FORM CA
54391E3
54471E3
54681E3
54102E3
94105E3
54122E3
94155E3
54152E3
54182E3
54222E3
54272E3
54332E3
54392E3
54472E3
54562E3
94565E3
54682E3
94685E3
54103E3
55271E3
55331E3
55471E3
55681E3
95685E3
55821E3
55102E3
95125E3
55122E3
55152E3
95225E3
55222E3
55272E3
55332E3
55392E3
55472E3
95475E3
55682E3
FORM CB
64391E3
64471E3
64681E3
64102E3
94106E3
64122E3
94156E3
64152E3
64182E3
64222E3
64272E3
64332E3
64392E3
64472E3
64562E3
94566E3
64682E3
94686E3
64103E3
65271E3
65331E3
65471E3
65681E3
95686E3
65821E3
65102E3
95126E3
65122E3
65152E3
95226E3
65222E3
65272E3
65332E3
65392E3
65472E3
95476E3
65682E3
TAPED
FORM TFA
34391E3
34471E3
34681E3
34102E3
94103E3
34122E3
34152E3
34182E3
34222E3
34332E3
34392E3
34472E3
34562E3
35271E3
35331E3
35471E3
35681E3
95683E3
35821E3
35102E3
35122E3
35152E3
35222E3
35272E3
35332E3
35392E3
-
Document Number: 28321
196
For technical questions, contact: [email protected]
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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ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
25
35
50
CR
100 Hz
(μF)
180
220
330
470
470
560
820
820
1000
1500
1500
1800
2200
2200
2700
3300
3300
4700
120
150
220
330
330
390
470
560
560
680
1000
1000
1200
1500
1800
2200
2200
3300
82
100
120
150
180
180
220
330
330
470
560
680
820
1000
1000
1200
1500
2200
Revision: 06-Nov-14
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 kHz
105 °C
(mA)
IL2
2 min
(μA)
10 x 12
10 x 12
10 x 16
10 x 20
12.5 x 16
10 x 25
10 x 30
12.5 x 20
12.5 x 25
12.5 x 31
16 x 20
16 x 25
16 x 31
18 x 20
16 x 31
16 x 35
18 x 31
18 x 35
10 x 12
10 x 12
10 x 16
10 x 20
12.5 x 16
10 x 25
12.5 x 20
10 x 30
12.5 x 20
12.5 x 25
12.5 x 31
16 x 20
16 x 25
16 x 25
16 x 31
16 x 35
18 x 31
18 x 35
10 x 12
10 x 12
10 x 16
10 x 20
10 x 20
12.5 x 16
10 x 25
10 x 30
12.5 x 20
12.5 x 25
12.5 x 31
16 x 20
16 x 25
16 x 31
18 x 20
16 x 35
18 x 31
18 x 35
630
630
830
1000
940
1300
1400
1300
1700
2000
1700
2100
2400
1680
2400
2600
2490
3000
630
630
830
1000
940
1300
1300
1400
1300
1700
2000
1700
2100
2100
2400
2600
2320
2890
480
480
760
850
950
780
1200
1300
1200
1500
1700
1400
1900
2200
1510
2300
2200
2650
45
55
83
120
120
140
210
210
250
380
380
450
550
550
680
830
830
1180
42
53
77
120
120
140
170
200
200
240
350
350
420
530
630
770
770
1160
41
50
60
75
90
90
110
170
170
240
280
340
410
500
500
600
750
1100
tan 
100 Hz
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.16
0.16
0.16
0.18
0.18
0.20
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.14
0.14
0.16
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.12
Z
100 kHz
+20 °C
(m)
Z
100 kHz
-10 °C
(m)
120
120
84
62
76
52
44
46
34
30
38
28
25
28
25
22
27
21
120
120
84
62
76
52
48
44
46
34
30
38
28
28
25
22
27
21
200
200
100
90
75
59
63
54
59
44
39
50
34
30
41
27
31
27
240
240
170
130
160
110
88
92
68
60
76
56
50
56
50
44
54
42
240
240
170
130
160
110
96
88
92
68
60
76
56
56
50
44
54
42
400
400
200
180
150
120
130
110
120
88
78
100
68
60
82
54
62
54
ORDERING CODE
MAL2136.......
BULK PACKAGING
FORM CA
56181E3
56221E3
56331E3
56471E3
96475E3
56561E3
96825E3
56821E3
56102E3
96155E3
56152E3
56182E3
56222E3
96225E3
56272E3
56332E3
96335E3
56472E3
50121E3
50151E3
50221E3
50331E3
90335E3
50391E3
50471E3
90565E3
50561E3
50681E3
90105E3
50102E3
50122E3
50152E3
50182E3
50222E3
90225E3
50332E3
51829E3
51101E3
51121E3
51151E3
51181E3
91185E3
51221E3
91335E3
51331E3
51471E3
51561E3
51681E3
51821E3
51102E3
91105E3
51122E3
51152E3
51222E3
FORM CB
66181E3
66221E3
66331E3
66471E3
96476E3
66561E3
96826E3
66821E3
66102E3
96156E3
66152E3
66182E3
66222E3
96226E3
66272E3
66332E3
96336E3
66472E3
60121E3
60151E3
60221E3
60331E3
90336E3
60391E3
60471E3
90566E3
60561E3
60681E3
90106E3
60102E3
60122E3
60152E3
60182E3
60222E3
90226E3
60332E3
61829E3
61101E3
61121E3
61151E3
61181E3
91186E3
61221E3
91336E3
61331E3
61471E3
61561E3
61681E3
61821E3
61102E3
91106E3
61122E3
61152E3
61222E3
TAPED
FORM TFA
36181E3
36221E3
36331E3
36471E3
96473E3
36561E3
36821E3
36102E3
36152E3
36182E3
36222E3
36272E3
30121E3
30151E3
30221E3
30331E3
90333E3
30391E3
30471E3
30561E3
30681E3
30102E3
30122E3
30152E3
30182E3
31829E3
31101E3
31121E3
31151E3
31181E3
91183E3
31221E3
31331E3
31471E3
31681E3
31821E3
31102E3
-
Document Number: 28321
197
For technical questions, contact: [email protected]
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
136 RVI
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Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 kHz
105 °C
(mA)
IL2
2 min
(μA)
47
10 x 12
380
30
56
10 x 12
420
68
10 x 16
520
100
10 x 16
120
63
100
ORDERING CODE
MAL2136.......
Z
100 kHz
+20 °C
(m)
Z
100 kHz
-10 °C
(m)
FORM CA
FORM CB
FORM TFA
0.10
300
750
58479E3
68479E3
38479E3
35
0.10
270
680
58569E3
68569E3
38569E3
43
0.10
210
530
58689E3
68689E3
38689E3
580
63
0.10
190
480
58101E3
68101E3
38101E3
10 x 20
650
76
0.10
160
400
58121E3
68121E3
38121E3
120
12.5 x 16
610
76
0.10
180
450
98125E3
98126E3
98123E3
150
10 x 25
780
95
0.10
130
330
58151E3
68151E3
38151E3
CR
100 Hz
(μF)
UR
(V)
tan 
100 Hz
BULK PACKAGING
TAPED
180
10 x 30
960
110
0.10
100
250
58181E3
68181E3
-
220
12.5 x 20
870
140
0.10
110
280
58221E3
68221E3
38221E3
270
12.5 x 25
1200
170
0.10
74
190
58271E3
68271E3
38271E3
330
16 x 20
1100
210
0.10
85
220
58331E3
68331E3
38331E3
390
12.5 x 31
1300
250
0.10
68
170
58391E3
68391E3
-
470
16 x 25
1500
300
0.10
55
140
58471E3
68471E3
38471E3
680
16 x 31
1700
430
0.10
46
120
58681E3
68681E3
38681E3
680
18 x 25
1470
430
0.10
54
108
98685E3
98686E3
-
820
16 x 35
1900
520
0.10
40
100
58821E3
68821E3
-
1000
18 x 31
1950
630
0.10
39
78
58102E3
68102E3
-
1500
18 x 35
2350
950
0.10
33
66
58152E3
68152E3
-
22
10 x 12
300
22
0.07
450
2300
59229E3
69229E3
39229E3
33
10 x 12
320
33
0.07
390
2000
59339E3
69339E3
39339E3
47
10 x 16
450
47
0.07
320
1600
59479E3
69479E3
39479E3
68
10 x 20
520
68
0.07
240
1200
59689E3
69689E3
39689E3
100
12.5 x 20
800
100
0.07
150
750
59101E3
69101E3
39101E3
150
16 x 20
1000
150
0.07
110
550
59151E3
69151E3
39151E3
220
16 x 25
1300
220
0.07
81
400
59221E3
69221E3
39221E3
330
16 x 31
1600
330
0.07
58
290
59331E3
69331E3
39331E3
470
16 x 35
1800
470
0.07
45
230
59471E3
69471E3
-
470
18 x 31
1800
470
0.07
45
230
99475E3
99476E3
-
680
18 x 35
2000
680
0.07
39
200
59681E3
69681E3
-
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Voltage
Us  1.15 x UR
Surge voltage
Urev  1 V
Reverse voltage
Current
Leakage current
After 2 min at UR
IL2  0.01 CR x UR
Case Ø D = 10 mm
Typ. 16 nH
Case Ø D  12.5 mm
Typ. 18 nH
Calculated from tan max. and CR (see Table 2)
ESR = tan /2 f CR
Inductance
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR)
Revision: 06-Nov-14
Document Number: 28321
198
For technical questions, contact: [email protected]
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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Vishay BCcomponents
CAPACITANCE (C)
1.2
C
C0
2
1.2
C
C0
1.0
1
2
1.1
1
0.8
4
3
5
0.6
1.0
1
0.4
Curve 1: 63 V
Curve 2: 50 V
Curve 3: 35 V
Curve 4: 25 V
Curve 5: 10 V
0.9
Curve 1: 63 V
Curve 2: 10 V
2
0.8
- 60
- 40
- 20
0
20
40
60
80
100
120
Tamb (°C)
C0 = Typical capacitance at 20 °C, 100 Hz
0.2
0
102
10
103
104
105
f (Hz)
C0 = Typical capacitance at 20 °C, 100 Hz
Fig. 5 - Typical multiplier of capacitance as a function
of ambient temperature
Tamb = 20 °C
Fig. 6 - Typical multiplier of capacitance as a function
of frequency
EQUIVALENT SERIES RESISTANCE (ESR)
20
ESR
ESR0
2.0
ESR
ESR0
10
1.6
1
Curve 1: 63 V
Curve 2: 10 V
2
1.2
0.8
2
1
0.4
1
0
- 60
- 40
- 20
0
20
40
60
80
100
120
Tamb (°C)
ESR0 = Typical ESR at 20 °C, 100 Hz
Fig. 7 - Typical multiplier of ESR as a function
of ambient temperature
Revision: 06-Nov-14
10
102
103
104
105
f (Hz)
ESR0 = Typical ESR at 20 °C, 100 Hz
Tamb = 20 °C
Fig. 8 - Typical multiplier of ESR as a function of frequency
Document Number: 28321
199
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Vishay BCcomponents
IMPEDANCE (Z)
Curve 1: 10 V
Curve 2: 50 V
Curve 3: 63 V
Z0 = Typical impedance at 20 °C, 100 kHz
Tamb = 20 °C
Fig. 9 - Typical multiplier of impedance as a function
of ambient temperature
UR = 25 V and 35 V
Curve 1: 220 µF, 25 V; Ø 10 x 12 mm
Curve 2: 220 µF, 35 V; Ø 10 x 16 mm
Curve 3: 330 µF, 35 V; Ø 10 x 20 mm
Curve 4: 470 µF, 25 V; Ø 10 x 20 mm
Curve 5: 470 µF, 35 V; Ø 12.5 x 20 mm
Curve 6: 1000 µF, 25 V; Ø 12.5 x 25 mm
Curve 7: 1200 µF, 35 V; Ø 16 x 25 mm
Curve 8: 2200 µF, 35 V; Ø 16 x 35 mm
Curve 9: 3300 µF, 25 V; Ø 16 x 35 mm
Tamb = 20 °C
Fig. 11 - Typical impedance as a function of frequency
Revision: 06-Nov-14
UR = 10 V and 16 V
Curve 1: 470 µF, 16 V; Ø 10 x 16 mm
Curve 2: 680 µF, 10 V; Ø 10 x 16 mm
Curve 3: 1000 µF, 10 V; Ø 10 x 20 mm
Curve 4: 2200 µF, 10 V; Ø 12.5 x 25 mm
Curve 5: 4700 µF, 16 V; Ø 16 x 35 mm
Curve 6: 10 000 µF, 10 V; Ø 18 x 35 mm
Fig. 10 - Typical impedance as a function of frequency
UR = 50 V
Curve 1: 100 µF, 50 V; Ø 10 x 12 mm
Curve 2: 470 µF, 50 V; Ø 12.5 x 25 mm
Curve 3: 680 µF, 50 V; Ø 16 x 20 mm
Curve 4: 1000 µF, 50 V; Ø 16 x 31 mm
Curve 5: 2200 µF, 50 V; Ø 18 x 35 mm
Tamb = 20 °C
Fig. 12 - Typical impedance as a function of frequency
Document Number: 28321
200
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Vishay BCcomponents
UR = 63 V
Curve 1: 47 µF, 63 V; Ø 10 x 12 mm
Curve 2: 68 µF, 63 V; Ø 10 x 16 mm
Curve 3: 100 µF, 63 V; Ø 10 x 20 mm
Curve 4: 220 µF, 63 V; Ø 12.5 x 20 mm
Curve 5: 270 µF, 63 V; Ø 12.5 x 25 mm
Curve 6: 470 µF, 63 V; Ø 16 x 25 mm
Curve 7: 680 µF, 63 V; Ø 16 x 31 mm
Tamb = 20 °C
Fig. 13 - Typical impedance as a function of frequency
RIPPLE CURRENT AND USEFUL LIFE
Table 3
ENDURANCE TEST AND USEFUL LIFE AS A FUNCTION OF CASE SIZE
NOMINAL CASE SIZE
ØDxL
(mm)
CASE CODE
ENDURANCE TEST
AT 105 °C
(h)
USEFUL LIFE
AT 105 °C
(h)
10 x 12
14
3000
4 000
10 x 16
15
3000
6 000
10 x 20
16
3000
6 000
10 x 25
16L
5000
7000
10 x 30
16LL
5000
7000
12.5 x 16
17a
3000
5000
12.5 x 20
17
3000
7000
12.5 x 25
18
5000
8000
12.5 x 31
18L
5000
8000
16 x 20
19a
3000
7000
16 x 25
19
5000
10 000
16 x 31
20
5000
10 000
16 x 35
21
5000
10 000
18 x 20
1820
3000
7000
18 x 25
1825
5000
10 000
18 x 31
1831
5000
10 000
18 x 35
22
5000
10 000
Revision: 06-Nov-14
Document Number: 28321
201
For technical questions, contact: [email protected]
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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Vishay BCcomponents
CCC206
3.8
IA 3.7
IR 3.6
3.5
3.4
3.3
3.2
3.1
3.0
2.8
Lifetime multiplier
2.6
0
1.
2.4
5
1.
0
2.
2.2
0
3. 0
4.
2.0
0
6. .0
8
1.8
IA = Actual ripple current at 100 Hz
IR = Rated ripple current at 100 Hz, 105 °C
(1)
Useful life at 105 °C and IR applied;
see Table 3
12
1.6
20
30
60
(1)
0
10 0
15 0
20
1.4
1.2
1.0
0.8
0.5
0.0
40
50
60
70
80
90
100
110
Tamb (°C)
Fig. 14 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 4
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
100
300
1000
3000
10 000
30 000
100 000
UR = 10 V
Ø  12.5
Ø16
0.70
0.83
0.80
0.90
0.88
0.95
0.92
0.98
0.96
0.99
0.99
1.00
1.00
1.00
IR MULTIPLIER
UR = 16 V AND 25 V
UR = 35 V AND 50 V
Ø  12.5
Ø 16
Ø  12.5
Ø 16
0.63
0.69
0.50
0.60
0.72
0.79
0.61
0.71
0.80
0.87
0.72
0.80
0.88
0.92
0.81
0.88
0.92
0.96
0.88
0.93
0.98
0.99
0.94
0.96
1.00
1.00
1.00
1.00
UR = 63 V AND 100 V
Ø  12.5
Ø 16
0.35
0.50
0.51
0.64
0.66
0.74
0.76
0.83
0.85
0.90
0.92
0.95
1.00
1.00
Table 5
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/EN130300
subclause 4.13
PROCEDURE
(quick reference)
REQUIREMENTS
Tamb = 105 °C; UR applied;
for test duration see Table 3
C/C: ± 20 %
tan   2 x spec. limit
IL2  spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 105 °C; UR and IR applied;
for test duration see Table 3
C/C: ± 30 %
tan  3 x spec. limit
IL2  spec. limit
no short or open circuit
total failure percentage:  1 %
Shelf life
(storage at high
temperature)
IEC 60384-4/EN130300
subclause 4.17
Tamb = 105 °C; no voltage applied;
1000 h 
after test: UR to be applied for 30 min,
24 h to 48 h before measurement
C/C: ± 20 %
tan  2 x spec. limit
IL2  spec. limit
Revision: 06-Nov-14
Document Number: 28321
202
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Vishay BCcomponents
Aluminum Capacitors
Radial Miniature, Low Impedance
FEATURES
• Very long useful life: 4000 h to 10 000 h at
105 °C, high stability, high reliability
• Very low impedance and low ESR in smaller
case sizes than the 136 RVI series
• Excellent ripple current capability
• AEC-Q200 qualified
• Polarized aluminum electrolytic capacitors, non-solid
electrolyte
• Radial leads, cylindrical aluminum case with pressure
relief, insulated with a blue sleeve
• Charge and discharge proof
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
136 RVI
miniaturize
048 RML
148 RUS
lower Z
longer life
APPLICATIONS
150 RMI
• Power supplies (SMPS, DC/DC converters) for general
industrial,
EDP,
audio-video,
automotive
and
telecommunications
• Smoothing, filtering, buffering
Fig. 1
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes (Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
Endurance test at 105 °C
Useful life at 105 °C
Useful life at 40 °C, 1.8 x IR applied
Shelf life at 0 V, 105 °C
Based on sectional specification
Climatic category IEC 60068
MARKING
VALUE
8 x 12 to 18 x 40
100 μF to 8200 μF
± 20 %
10 V to 100 V
-55 °C to +105 °C
3000 h to 6000 h
4000 h to 10 000 h
200 000 h to 500 000 h
1000 h
IEC 60384-4/EN130300
55/105/56
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Code indicating factory of origin
• Name of manufacturer
• Upper category temperature (105 °C)
• Negative terminal identification
• Series number (150)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
22
47
100
150
220
330
470
680
1000
1200
1500
2200
3300
4700
6800
8200
Revision: 13-Aug-14
10
8 x 12
10 x 12
10 x 16
12.5 x 20
12.5 x 25
16 x 25
16 x 31
-
16
8 x 12
8 x 12
8 x 15
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 31
16 x 35
18 x 40
25
8 x 12
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
12.5 x 35
16 x 31
16 x 35
18 x 40
-
UR (V)
35
8 x 12
8 x 15
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 20
12.5 x 35
16 x 31
18 x 31
18 x 40
-
50
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31
16 x 31
18 x 40
-
63
8 x 12
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 20
16 x 25
16 x 31
18 x 40
-
100
8 x 12
18 x 20
-
Document Number: 28323
203
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Vishay BCcomponents
DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
ØD
L
L
-
+
F
15
min.
Ød
4
1
0
5
min.
Ød
F
Fig. 2 - Form CA: long leads
Fig. 3 - Form CB: cut leads
Formed leads for Ø D = 8 mm with pitch F = 5 mm
Fig. 4 - Form TFA: taped in box (ammopack)
Table 1
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
MASS
(g)
PACKAGING QUANTITIES
FORM
CA
FORM
CB
FORM
TFA
8 x 12
13
0.6
8.5
13.0
3.5 ± 0.5
 1.1
5000
5000
1000
8 x 15
13L
0.6
8.5
16.0
3.5 ± 0.5
 1.3
5000
5000
1000
10 x 12
14
0.6
10.5
13.5
5.0 ± 0.5
 1.6
1000
500
800
10 x 16
15
0.6
10.5
17.5
5.0 ± 0.5
 1.9
500
500
800
10 x 20
16
0.6
10.5
22.0
5.0 ± 0.5
 2.2
500
500
800
12.5 x 20
17
0.6
13.0
22.0
5.0 ± 0.5
 4.0
500
500
500
12.5 x 25
18
0.6
13.0
27.0
5.0 ± 0.5
5.0
250
250
500
12.5 x 35
18LL
0.6
13.0
37.5
5.0 ± 0.5
6.0
250
250
-
16 x 20
19a
0.8
16.5
22.0
7.5 ± 0.5
6.0
250
250
250
16 x 25
19
0.8
16.5
27.0
7.5 ± 0.5
8.0
250
250
250
16 x 31
20
0.8
16.5
33.5
7.5 ± 0.5
9.0
100
100
250
16 x 35
21
0.8
16.5
37.5
7.5 ± 0.5
 11.0
100
100
-
18 x 20
1820
0.8
18.5
22.0
7.5 ± 0.5
 8.0
100
100
-
18 x 31
1831
0.8
18.5
33.5
7.5 ± 0.5
 12.5
100
100
-
18 x 40
1840
0.8
18.5
42.5
7.5 ± 0.5
 16.5
100
100
-
Revision: 13-Aug-14
Document Number: 28323
204
For technical questions, contact: [email protected]
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150 RMI
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Vishay BCcomponents
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
CR
IR
IL2
tan 
Z
DESCRIPTION
Rated capacitance at 100 Hz, tolerance ± 20 %
Rated RMS ripple current at 100 kHz, 105 °C
Max. leakage current after 2 min at UR
Max. dissipation factor at 100 Hz
Max. impedance at 100 kHz
Electrolytic capacitor 150 series
470 μF/16 V; ± 20 %
Nominal case size: Ø 10 mm x 12 mm; Form TFA
Ordering Code: MAL215035471E3
Former 12NC: 2222 150 35471
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
10
16
25
35
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 kHz
105 °C
(mA)
IL2
2 min
(μA)
tan 
100 Hz
Z
100 kHz
+20 °C
()
Z
100 kHz
-40 °C
()
470
680
1000
2200
3300
4700
6800
220
330
470
470
680
1000
1500
2200
3300
4700
6800
8200
220
330
470
680
1000
1500
2200
2200
3300
4700
6800
100
220
220
330
470
680
1000
1000
1500
1500
2200
3300
4700
8 x 12
10 x 12
10 x 16
12.5 x 20
12.5 x 25
16 x 25
16 x 31
8 x 12
8 x 12
8 x 15
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 31
16 x 35
18 x 40
8 x 12
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
12.5 x 35
16 x 20
16 x 31
16 x 35
18 x 40
8 x 12
8 x 15
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
12.5 x 35
16 x 20
16 x 31
18 x 31
18 x 40
555
730
950
1460
1950
2390
2890
555
555
730
730
950
1180
1460
1950
1840
2890
3100
3500
555
730
950
1180
1460
1950
2510
1840
2890
3100
3500
555
730
730
950
1180
1460
1950
1840
2510
1840
2890
3000
3300
47
71
103
223
333
473
683
35
53
78
78
112
163
243
355
531
755
1091
1315
55
86
121
173
253
378
553
553
828
1178
1703
35
77
80
118
167
241
353
353
528
528
773
1155
1648
0.19
0.19
0.19
0.21
0.21
0.23
0.25
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.18
0.20
0.22
0.24
0.28
0.14
0.14
0.14
0.14
0.14
0.14
0.16
0.16
0.16
0.18
0.22
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.14
0.16
0.18
0.117
0.097
0.066
0.037
0.029
0.022
0.019
0.117
0.117
0.085
0.097
0.066
0.049
0.037
0.029
0.028
0.019
0.018
0.018
0.117
0.097
0.066
0.049
0.037
0.029
0.028
0.028
0.019
0.018
0.018
0.117
0.085
0.097
0.066
0.049
0.037
0.029
0.028
0.028
0.028
0.019
0.019
0.018
0.870
0.680
0.460
0.260
0.200
0.150
0.130
0.870
0.870
0.750
0.680
0.460
0.340
0.260
0.200
0.200
0.130
0.130
0.130
0.870
0.680
0.460
0.340
0.260
0.200
0.200
0.200
0.130
0.130
0.130
0.870
0.750
0.680
0.460
0.340
0.260
0.200
0.200
0.200
0.200
0.130
0.130
0.130
Revision: 13-Aug-14
ORDERING CODE
MAL2150.......
BULK PACKAGING
TAPED
FORM CA
FORM CB
FORM TFA
54471E3
84471E3
34471E3
54681E3
64681E3
34681E3
54102E3
64102E3
34102E3
54222E3
64222E3
34222E3
54332E3
64332E3
34332E3
54472E3
64472E3
34472E3
54682E3
64682E3
34682E3
55221E3
85221E3
35221E3
55331E3
85331E3
35331E3
95475E3
95478E3
95473E3
55471E3
65471E3
35471E3
55681E3
65681E3
35681E3
55102E3
65102E3
35102E3
55152E3
65152E3
35152E3
55222E3
65222E3
35222E3
55332E3
65332E3
35332E3
55472E3
65472E3
35472E3
55682E3
65682E3
55822E3
65822E3
56221E3
86221E3
36221E3
56331E3
66331E3
36331E3
56471E3
66471E3
36471E3
56681E3
66681E3
36681E3
56102E3
66102E3
36102E3
56152E3
66152E3
36152E3
96225E3
96226E3
56222E3
66222E3
36222E3
56332E3
66332E3
36332E3
56472E3
66472E3
56682E3
66682E3
50101E3
80101E3
30101E3
90225E3
90228E3
90223E3
50221E3
60221E3
30221E3
50331E3
60331E3
30331E3
50471E3
60471E3
30471E3
50681E3
60681E3
30681E3
50102E3
60102E3
30102E3
90105E3
90106E3
90103E3
90186E3
90187E3
50152E3
60152E3
30152E3
50222E3
60222E3
30222E3
50332E3
60332E3
50472E3
60472E3
-
Document Number: 28323
205
For technical questions, contact: [email protected]
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
150 RMI
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Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
50
63
100
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 kHz
105 °C
(mA)
IL2
2 min
(μA)
tan 
100 Hz
Z
100 kHz
+20 °C
()
Z
100 kHz
-40 °C
()
150
220
330
470
680
1000
1200
1500
3300
47
100
150
220
330
470
470
680
680
1000
2200
22
330
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31
16 x 31
18 x 40
8 x 12
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 20
16 x 25
16 x 31
18 x 40
8 x 12
18 x 20
500
700
900
1100
1400
1800
2200
2200
3200
405
420
560
700
930
1200
1100
1100
1500
1900
3100
230
1700
78
113
168
238
343
503
603
753
1653
30
66
97
141
211
299
299
431
431
633
1389
22
330
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.14
0.09
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.12
0.08
0.07
0.200
0.120
0.090
0.062
0.048
0.034
0.027
0.027
0.024
0.342
0.270
0.190
0.150
0.095
0.067
0.074
0.074
0.054
0.042
0.033
0.68
0.074
1.400
0.840
0.630
0.430
0.340
0.240
0.190
0.190
0.168
2.350
1.890
1.330
1.050
0.670
0.470
0.520
0.520
0.380
0.295
0.231
27.0
2.0
ORDERING CODE
MAL2150.......
BULK PACKAGING
TAPED
FORM CA
FORM CB
FORM TFA
51151E3
61151E3
31151E3
51221E3
61221E3
31221E3
51331E3
61331E3
31331E3
51471E3
61471E3
31471E3
51681E3
61681E3
31681E3
51102E3
61102E3
31102E3
51122E3
61122E3
31122E3
51152E3
61152E3
31152E3
51332E3
61332E3
58479E3
88479E3
38479E3
58101E3
68101E3
38101E3
58151E3
68151E3
38151E3
58221E3
68221E3
38221E3
58331E3
68331E3
38331E3
58471E3
68471E3
38471E3
98475E3
98476E3
98473E3
58681E3
68681E3
38681E3
98685E3
98686E3
98683E3
58102E3
68102E3
38102E3
58222E3
68222E3
59229E3
89229E3
39229E3
90183E3
90185E3
-
ADDITIONAL ELECTRICAL DATA
PARAMETER
Voltage
Surge voltage
Reverse voltage
Current
Leakage current
Inductance
CONDITIONS
VALUE
Us  1.15 x UR
Urev  1 V
After 2 min at UR
IL2  0.01 CR x UR + 3 μA
Case Ø D  10 mm
Case Ø D  12.5 mm
Typ. 16 nH
Typ. 18 nH
Calculated from tan max. and CR (see Table 2)
ESR = tan /2f CR
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR)
CAPACITANCE (C)
1.2
1.2
C
C0
1.0
C
C0
1.1
1
0.8
1.0
2
0.6
0.4
0.9
Curve 1: UR ≤ 35 V
Curve 2: UR ≥ 50 V
0.2
0.8
- 60
0
- 40
- 20
0
20
40
60
C0 = Typical capacitance at 20 °C, 100 Hz
80
100
120
Tamb (°C)
Fig. 5 - Typical multiplier of capacitance as a function
of ambient temperature
Revision: 13-Aug-14
140
10
10 2
10 3
C0 = Typical capacitance at 20 °C, 100 Hz
10 4
f (Hz)
10 5
Tamb 20 °C
Fig. 6 - Typical multiplier of capacitance as
a function of frequency
Document Number: 28323
206
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Vishay BCcomponents
EQUIVALENT SERIES RESISTANCE (ESR)
6
ESR
ESR 0
5
ESR
ESR 0
10
Curve 1: Ø D ≤ 12.5 mm
Curve 2: Ø D ≥ 16 mm
1
4
3
2
2
1
1
0
- 60
- 40
- 20
0
20
40
60
80
100
120
140
10 2
10
Tamb (°C)
ESR0 = Typical ESR at 20 °C, 100 Hz
10 3
10 4
ESR0 = Typical ESR at 20 °C, 100 Hz
Fig. 7 - Typical multiplier of ESR as a function
of ambient temperature
f (Hz)
10 5
Tamb = 20 °C
Fig. 8 - Typical multiplier of ESR as a function of frequency
IMPEDANCE (Z)
102
103
Z
(Ω)
Z
Z0
Curve 1: 100 µF, 63 V
Curve 2: 220 µF, 50 V
Curve 3: 680 µF, 63 V
102
10
1
2
1
3
10
1
10-1
10-1
- 60
- 40
- 20
0
20
40
60
80
Z0 = Typical impedance at 20 °C, 100 kHz
100
120
10-2
10
140
10 2
10 3
10 4
f (Hz)
10 5
Tamb = 20 °C
Tamb (°C)
Fig. 9 - Typical multiplier of impedance as a function
of ambient temperature
Fig. 10 - Typical impedance as a function of frequency
102
Curve 1: 330 µF, 35 V
Curve 2: 470 µF, 16 V
Curve 3: 680 µF, 16 V
Curve 4: 1000 µF, 16 V
Curve 5: 6800 µF, 16 V
Z
(Ω)
10
1
1
2
3
4
5
10-1
10-2
10
10 2
10 3
10 4
f (Hz)
10 5
Tamb = 20 °C
Fig. 11 - Typical impedance as a function of frequency
Revision: 13-Aug-14
Document Number: 28323
207
For technical questions, contact: [email protected]
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
150 RMI
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Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
Table 3
ENDURANCE TEST DURATION AND USEFUL LIFE AS A FUNCTION OF CASE SIZE
NOMINAL CASE SIZE
ØDxL
(mm)
CASE CODE
ENDURANCE
AT 105 °C
(h)
USEFUL LIFE
AT 105 °C
(h)
8 x 12
13
3000
4000
8 x 15
13L
3000
4000
10 x 12
14
3000
4000
10 x 16
15
3000
6000
10 x 20
16
3000
6000
12.5 x 20
17
3000
7000
12.5 x 25
18
5000
8000
12.5 x 35
18LL
5000
8000
16 x 20
19a
3000
7000
16 x 25
19
5000
10 000
16 x 31
20
5000
10 000
16 x 35
21
5000
10 000
18 x 20
1820
3000
7000
18 x 31
1831
6000
10 000
18 x 40
1840
8000
10 000
CCC206
3.8
3.7
IA
IR 3.6
3.5
3.4
3.3
3.2
3.1
3.0
2.8
Lifetime multiplier
2.6
1.0
2.4
1.5
2.0
2.2
3.0
4.0
2.0
6.0
8.0 2
1
1.8
1.6
20
30
1.4
1.2
1.0
0.8
0.5
0.0
60
0
10 0
15 0
20
IA = Actual ripple current at 100 kHz
IR = Rated ripple current at 100 kHz, 105 °C
(1) Useful life at 105 °C and I applied; see Table 4
R
40
50
(1)
60
70
80
90
100
110
Tamb (°C)
Fig. 12 - Multiplier of useful life as a function of ambient temperature and ripple current load
Revision: 13-Aug-14
Document Number: 28323
208
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150 RMI
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Vishay BCcomponents
Table 4
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
Ø = 8 mm TO 12.5 mm
Ø = 16 mm AND 18 mm
100
0.65
0.76
300
0.76
0.85
1000
0.85
0.91
3000
0.89
0.94
10 000
0.90
0.96
30 000
0.97
0.98
100 000
1.00
1.00
Table 5
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/
EN130300
subclause 4.13
PROCEDURE
(quick reference)
REQUIREMENTS
Tamb = 105 °C; UR applied;
for test duration see Table 3
C/C: ± 20 %
tan  2 x spec. limit
IL2  spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 105 °C; UR and IR applied;
for test duration see Table 3
C/C: ± 30 %
tan  3 x spec. limit
IL2  spec. limit
no short or open circuit
total failure percentage:  1 %
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN130300
subclause 4.17
Tamb = 105 °C; no voltage applied; 1000 h
after test: UR to be applied for 30 min., 24 h to 48 h
before measurement
C/C: ± 20 %
tan  2 x spec. limit
IL2  spec. limit
Revision: 13-Aug-14
Document Number: 28323
209
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
140 RTM
www.vishay.com
Vishay BCcomponents
Aluminum Capacitors
Radial, High Temperature Miniature
FEATURES
•
•
•
•
•
•
Very long useful life: 2500 h to 4000 h at 125 °C
High stability, high reliability
AEC-Q200 qualified
Extended temperature range up to 125 °C
High ripple current capability
Polarized aluminum electrolytic capacitors, non-solid
electrolyte
• Radial leads, cylindrical aluminum case with pressure
relief, insulated with a blue sleeve
• Charge and discharge proof
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
140 RTM
125 °C
105 °C
148 RUS
longer life
lower Z
APPLICATIONS
150 RMI
• EDP, telecommunication, industrial, automotive and
military
• Smoothing, filtering, buffering in SMPS
• High ambient temperature environments
Fig. 1
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes (Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
Endurance test at 125 °C
Useful life at 125 °C
Useful life at 40 °C, 1.6 x IR applied
Shelf life at 0 V, 125 °C
Based on sectional specification
Climatic category IEC 60068
VALUE
10 x 12 to 18 x 31
22 μF to 4700 μF
± 20 %
6.3 V to 63 V
- 55 °C to + 125 °C
2000 h
2500 h to 4000 h
300 000 h
500 h
IEC 60384-4/EN 130300
55/125/56
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance value (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Code indicating factory of origin
• Name of manufacturer
• Upper category temperature (125 °C)
• Negative terminal identification
• Series number (140)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
22
47
100
220
330
470
1000
1200
2200
3300
4700
Revision: 15-Nov-12
6.3
10 x 16
10 x 20
-
10
10 x 12
10 x 16
10 x 20
12.5 x 25
16 x 20
16 x 25
16 x 31
16
10 x 12
10 x 16
10 x 16
12.5 x 20
16 x 25
16 x 31
18 x 31
UR (V)
25
10 x 16
10 x 20
10 x 20
12.5 x 25
16 x 20
16 x 31
18 x 31
-
35
10 x 12
10 x 16
12.5 x 20
16 x 25
18 x 31
-
50
10 x 12
10 x 16
12.5 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 31
-
63
10 x 12
10 x 12
10 x 20
16 x 20
16 x 20
16 x 25
18 x 31
-
Document Number: 28322
210
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Vishay BCcomponents
DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
ØD
L
-
+
F
15
min
4
Ød
5
min
Od
-
+
+1
0
F
Fig. 2 - Form CA: Long leads
Fig. 3 - Form CB: Cut leads
Fig. 4 - Form TFA: Taped in box (ammopack)
Table 1
DIMENSIONS in millimeters, MASS, AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
MASS
(g)
PACKAGING QUANTITIES
FORM
CA
FORM
CB
FORM
TFA
10 x 12
14
0.6
10.5
13.5
5.0 ± 0.5
 1.6
1000
500
800
10 x 16
15
0.6
10.5
17.5
5.0 ± 0.5
 1.9
500
500
800
10 x 20
16
0.6
10.5
22.0
5.0 ± 0.5
 2.2
500
500
800
12.5 x 20
17
0.6
13.0
22.0
5.0 ± 0.5
 4.0
500
500
500
12.5 x 25
18
0.6
13.0
27.0
5.0 ± 0.5
 5.0
250
250
500
16 x 20
19a
0.8
16.5
22.0
7.5 ± 0.5
 6.0
250
250
250
16 x 25
19
0.8
16.5
27.0
7.5 ± 0.5
 8.0
250
250
250
16 x 31
20
0.8
16.5
33.5
7.5 ± 0.5
 9.0
100
100
250
18 x 31
1831
0.8
18.5
33.5
7.5 ± 0.5
 12.5
100
100
-
Note
• For detailed tape dimensions please see www.vishay.com/doc?28360
Revision: 15-Nov-12
Document Number: 28322
211
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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
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Vishay BCcomponents
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
CR
IR
IL1
tan 
Z
DESCRIPTION
Rated capacitance at 100 Hz, tolerance ± 20 %
Rated RMS ripple current at 100 kHz, 125 °C
Max. leakage current after 1 min at UR
Max. dissipation factor at 100 Hz
Max. impedance at 100 kHz
Electrolytic capacitor 140 series
220 μF/25 V; ± 20 %
Nominal case size: Ø 10 mm x 16 mm; form TFA
Ordering code: MAL214036221E3
Former 12NC: 2222 140 36221
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
35
50
63
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 kHz
125 °C
(mA)
IL1
1 min
(μA)
tan 
100 Hz
Z
100 kHz
+ 20 °C
()
Z
100 kHz
- 40 °C
()
1200
2200
330
470
1000
2200
2200
3300
4700
220
330
470
1000
2200
3300
4700
220
330
470
1000
1000
2200
3300
100
220
470
1000
2200
47
100
220
330
470
470
1000
22
47
100
220
330
470
1000
10 x 16
10 x 20
10 x 12
10 x 16
10 x 20
12.5 x 25
16 x 20
16 x 25
16 x 31
10 x 12
10 x 16
10 x 16
12.5 x 20
16 x 25
16 x 31
18 x 31
10 x 16
10 x 20
10 x 20
12.5 x 25
16 x 20
16 x 31
18 x 31
10 x 12
10 x 16
12.5 x 20
16 x 25
18 x 31
10 x 12
10 x 16
12.5 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 31
10 x 12
10 x 12
10 x 20
16 x 20
16 x 20
16 x 25
18 x 31
760
850
480
760
850
1400
1400
1900
2200
480
760
760
1200
1900
2200
2200
750
850
850
1400
1400
2200
2200
480
760
1200
1500
2200
300
380
580
870
1100
1100
1700
380
380
650
1100
1100
1500
1800
79
142
36
50
103
223
223
333
473
38
56
78
163
355
531
755
58
86
121
253
253
553
828
38
80
168
353
773
27
53
113
168
238
238
503
17
33
66
142
211
299
633
0.28
0.28
0.20
0.20
0.20
0.24
0.24
0.24
0.24
0.16
0.16
0.16
0.16
0.18
0.18
0.18
0.14
0.14
0.14
0.14
0.14
0.16
0.16
0.12
0.12
0.12
0.12
0.14
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.150
0.120
0.200
0.150
0.120
0.050
0.050
0.034
0.030
0.200
0.150
0.150
0.073
0.034
0.030
0.030
0.150
0.120
0.120
0.050
0.050
0.030
0.030
0.200
0.150
0.073
0.034
0.030
0.300
0.200
0.120
0.120
0.085
0.085
0.045
0.300
0.300
0.160
0.085
0.085
0.055
0.040
1.10
0.85
1.40
1.10
0.85
0.40
0.40
0.25
0.20
1.40
1.10
1.10
0.50
0.25
0.20
0.20
1.10
0.85
0.85
0.40
0.40
0.20
0.20
1.40
1.10
0.50
0.25
0.20
2.00
1.40
0.85
0.85
0.60
0.60
0.30
2.00
2.00
1.10
0.60
0.60
0.40
0.28
Revision: 15-Nov-12
ORDERING CODE
MAL2140 .....
BULK PACKAGING
TAPED
FORM CA
FORM CB
FORM TFA
53122E3
63122E3
33122E3
53222E3
63222E3
33222E3
54331E3
64331E3
34331E3
54471E3
64471E3
34471E3
54102E3
64102E3
34102E3
94225E3
94226E3
94223E3
54222E3
64222E3
34222E3
54332E3
64332E3
34332E3
54472E3
64472E3
34472E3
55221E3
65221E3
35221E3
55331E3
65331E3
35331E3
55471E3
65471E3
35471E3
55102E3
65102E3
35102E3
55222E3
65222E3
35222E3
55332E3
65332E3
35332E3
55472E3
65472E3
56221E3
66221E3
36221E3
56331E3
66331E3
36331E3
56471E3
66471E3
36471E3
96105E3
96106E3
96103E3
56102E3
66102E3
36102E3
56222E3
66222E3
36222E3
56332E3
66332E3
50101E3
60101E3
30101E3
50221E3
60221E3
30221E3
50471E3
60471E3
30471E3
50102E3
60102E3
30102E3
50222E3
60222E3
51479E3
61479E3
31479E3
51101E3
61101E3
31101E3
51221E3
61221E3
31221E3
51331E3
61331E3
31331E3
91475E3
91476E3
91473E3
51471E3
61471E3
31471E3
51102E3
61102E3
31102E3
58229E3
68229E3
38229E3
58479E3
68479E3
38479E3
58101E3
68101E3
38101E3
58221E3
68221E3
38221E3
58331E3
68331E3
38331E3
58471E3
68471E3
38471E3
58102E3
68102E3
-
Document Number: 28322
212
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140 RTM
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Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Voltage
Us 1.15 x UR
Surge voltage
Urev 1 V
Reverse voltage
Current
Leakage current
After 1 min at UR
IL1  0.01 CR x UR + 3 μA
After 5 min at UR
IL5  0.002 CR x UR + 3 μA
Inductance
Case Ø D = 10 mm
Typ. 16 nH
Case Ø D  12.5 mm
Typ. 18 nH
Calculated from tan max. and CR (see Table 2)
ESR = tan /2 f CR
Equivalent series inductance (ESL)
Resistance
Equivalent series resistance (ESR)
CAPACITANCE (C)
1.2
1.2
C
C0
1.0
C
C0
1
1.1
1
2
2
0.8
2
1.0
0.6
2
0.9
0.4
Curve 1: UR < 50 V
Curve 2: UR ≥ 50 V
1
Curve 1: UR < 50 V
Curve 2: UR ≥ 50 V
1
0.2
0.8
- 60
- 40
- 20
0
20
40
60
80
100
120
140
Tamb (°C)
C0 = Typical capacitance at 20 °C, 100 Hz
102
10
103
104
105
Tamb (°C)
C0 = Typical capacitance at 20 °C, 100 Hz
Fig. 5 - Typical multiplier of capacitance
as a function of ambient temperature
f (Hz)
Fig. 6 - Typical multiplier of capacitance
as a function of frequency
EQUIVALENT SERIES RESISTANCE (ESR)
ESR
ESR0
2.0
ESR
ESR0
1.6
1
Curve 1: UR < 50 V
Curve 2: UR ≥ 50 V
2
10
Curve 1: UR < 50 V
Curve 2: UR ≥ 50 V
2
1
1.2
0.8
2
1
1
0.4
1
2
0
- 60
- 40
- 20
0
20
40
60
80
100
ESR0 = Typical capacitance at 20 °C, 100 Hz
Fig. 7 - Typical multiplier of ESR
as a function of ambient temperature
Revision: 15-Nov-12
120
Tamb (°C)
140
10
102
103
ESR0 = Typical ESR at 20 °C, 100 Hz
104
f (Hz)
105
Tamb (°C)
Fig. 8 - Typical multiplier of ESR as a function of frequency
Document Number: 28322
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Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
Table 2
ENDURANCE AND USEFUL LIFE AS A FUNCTION OF CASE SIZE
NOMINAL CASE SIZE
ØDxL
(mm)
CASE CODE
ENDURANCE TEST
AT 125 ºC
(h)
USEFUL LIFE AT 125 ºC
(h)
10 x 12
14
2000
2500
10 x 16
15
2000
3000
10 x 20
16
2000
3000
12.5 x 20
17
2000
3000
12.5 x 25
18
2000
3000
16 x 20
19a
2000
3000
16 x 25
19
2000
4000
16 x 31
20
2000
4000
18 x 31
1831
2000
4000
MBC242
IA 4.3
IR 4.2
4.1
4.0
3.9
3.8
3.7
3.6
3.5
3.4
3.3
3.2
3.1
3.0
Lifetime multiplier
2.8
0
1.
5
1.
2.6
0
2.
0
3.
2.4
0
4.
0
6.
2.2
0
8.
12
2.0
20
1.8
60
0
10
Useful life at 125 ºC and IR applied: see Table 3
(1)
0
40
(1)
1.4
1.2
1.0
0.8
0.5
0.0
0
20
IA = Actual ripple current at 100 kHz
IR = Rated ripple current at 100 kHz, 125 °C
30
1.6
40
50
60
70
80
90
100
110
120
130
Tamb (°C)
Fig. 9 - Multiplier of useful life as a function of ambient temperature
and ripple current load
Revision: 15-Nov-12
Document Number: 28322
214
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Vishay BCcomponents
Table 3
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 6.3 V TO 25 V
UR = 35 V
UR = 50 V AND 63 V
50
0.60
0.50
0.35
100
0.70
0.65
0.50
300
0.85
0.80
0.65
1000
0.90
0.85
0.80
3000
0.95
0.90
0.90
10 000
1.00
0.95
0.90
100 000
1.00
1.00
1.00
Table 4
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/
EN 130300
subclause 4.13
PROCEDURE
(quick reference)
REQUIREMENTS
Tamb = 125 °C; UR applied;
2000 h
C/C: ± 15 %
tan   1.3 x spec. limit
Z  2 x spec. limit
IL5  spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 125 °C; UR and IR applied;
for test duration see Table 3
C/C: ± 30 %
tan   3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
no short or open circuit
total failure percentage:  1 %
Shelf life
IEC 60384-4/
EN 130300
subclause 4.17
Tamb = 125 °C; no voltage applied;
500 h
After test: UR to be applied for 30 min,
24 h to 48 h before measurement
C/C: ± 15 %
tan   1.3 x spec. limit
Z  2 x spec. limit
IL5  2 x spec. limit
Revision: 15-Nov-12
Document Number: 28322
215
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Vishay BCcomponents
Aluminum Capacitors
Radial, High Temperature, Low Impedance
FEATURES
• Very long useful life:
2500 h to 6000 h at 125 °C
• High stability, high reliability
• Very low ESR
• AEC-Q200 qualified
• Excellent ripple current capability
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte
• Radial leads, cylindrical aluminum case with pressure
relief, insulated with a blue PET sleeve
• Charge and discharge proof
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
140 RTM
lower Z
longer life
APPLICATIONS
150 RMI
125 °C
• Power supplies (SMPS, DC/DC converters) for industrial,
automotive, telecommunications and military
• Smoothing, filtering and buffering
146 RTI
MARKING
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes (Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
Endurance test at 125 °C
Useful life at 125 °C
Useful life at 40 °C, 1.8 x IR applied
Shelf life at 0 V, 125 °C
Based on sectional specification
Climatic category IEC 60068
VALUE
10 x 12 to 18 x 40
68 μF to 8200 μF
± 20 %
16 V to 63 V
- 55 °C to + 125 °C
2000 h to 5000 h
2500 h to 6000 h
400 000 h
1000 h
IEC 60384-4/EN130300
55/125/56
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Date code, in accordance with IEC 60062
• Code indicating factory of origin
• Logo of manufacturer
• Upper category temperature (125 °C)
• Negative terminal identification
• Series number (146)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
68
100
150
220
330
390
470
560
680
820
1000
Revision: 12-Apr-13
16
10 x 12
10 x 16
10 x 20
-
25
10 x 12
10 x 16
10 x 20
12.5 x 20
-
UR (V)
35
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
-
50
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
18 x 20
16 x 25
63
10 x 20
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
18 x 20
10 x 20
18 x 25
16 x 31
16 x 35
18 x 31
-
Document Number: 28401
216
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SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
16
12.5 x 20
12.5 x 25
16 x 20
18 x 20
16 x 25
18 x 25
16 x 31
16 x 35
18 x 31
18 x 40
1200
1500
1800
2200
2700
3300
3900
4700
5600
6800
8200
UR (V)
35
16 x 20
18 x 20
16 x 25
18 x 25
16 x 31
16 x 35
18 x 31
18 x 35
18 x 40
-
25
12.5 x 25
16 x 20
18 x 20
16 x 25
16 x 31
18 x 25
16 x 35
18 x 31
18 x 35
18 x 40
-
50
18 x 25
16 x 31
16 x 35
18 x 31
18 x 35
18 x 40
-
63
18 x 35
18 x 40
-
DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
15
min.
Ød
5
min.
ØD
Ød
F
F
+
L
L
Fig. 2 - Form CA: Long leads
4
+1
0
Fig. 3 - Form CB: Cut leads
Fig. 4 - Form TFA: Taped in box (ammopack)
Table 1
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
Ød
Ø Dmax.
Lmax.
F
MASS
(g)
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 25
16 x 31
16 x 35
18 x 20
18 x 25
18 x 31
18 x 35
18 x 40
14
15
16
17
18
19a
19
20
21
1820
1825
1831
22
1840
0.6
0.6
0.6
0.6
0.6
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
10.5
10.5
10.5
13.0
13.0
16.5
16.5
16.5
16.5
18.5
18.5
18.5
18.5
18.5
13.5
17.5
22.0
22.0
27.0
22.0
27.0
33.5
37.5
22.0
27.0
33.5
37.5
42.5
5.0 ± 0.5
5.0 ± 0.5
5.0 ± 0.5
5.0 ± 0.5
5.0 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
7.5 ± 0.5
 1.6
 1.9
 2.2
 4.0
5.0
6.0
8.0
9.0
 11.0
 8.0
 10.0
 12.5
 14.5
 16.5
Revision: 12-Apr-13
PACKAGING QUANTITIES
FORM
FORM
FORM
CA
CB
TFA
1000
500
800
500
500
800
500
500
800
500
500
500
250
250
500
250
250
250
250
250
250
100
100
250
100
100
100
100
250
100
100
250
100
100
250
100
100
100
100
-
Document Number: 28401
217
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ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
IR
Rated RMS ripple current at 100 kHz, 125 °C
Max. leakage current after 2 min at UR
IL2
tan 
Max. dissipation factor at 100 Hz
Z
Max. impedance at 100 kHz
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %
Electrolytic capacitor 146 series
470 μF/25 V; ± 20 %
Nominal case size: Ø 10 mm x 16 mm; Form TFA
Ordering Code: MAL214636471E3
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
16
25
35
CR
100 Hz
(μF)
470
680
1000
1500
2200
2700
3300
3900
4700
4700
5600
6800
8200
330
470
680
1000
1500
1800
2700
2700
3300
3900
4700
4700
5600
6800
220
330
470
680
1000
1200
1500
1800
2200
2200
2700
2700
3300
4700
Revision: 12-Apr-13
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 kHz
125 °C
(mA)
IL2
2 min
(μA)
Z
100 kHz
+ 20 °C
()
Z
100 kHz
- 40 °C
()
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
18 x 20
16 x 25
18 x 25
16 x 31
16 x 35
18 x 31
18 x 40
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
18 x 20
16 x 25
16 x 31
18 x 25
16 x 35
18 x 31
18 x 35
18 x 40
10 x 12
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 20
18 x 20
16 x 25
18 x 25
16 x 31
16 x 35
18 x 31
18 x 35
18 x 40
620
1100
1250
1600
2000
1900
2000
2500
2800
3000
3200
3100
3300
620
1100
1250
1600
2000
1900
2000
2500
3000
2800
3200
3100
3100
3300
620
1100
1250
1600
2000
1900
2000
2500
2800
3000
3200
3100
3100
3300
78
112
163
243
355
435
531
627
755
755
899
1091
0.16
0.16
0.16
0.16
0.18
0.18
0.20
0.20
0.22
0.22
0.24
0.24
0.120
0.075
0.060
0.043
0.033
0.034
0.033
0.024
0.025
0.021
0.018
0.022
85
121
173
253
378
453
678
678
828
978
1178
1178
1403
0.14
0.14
0.14
0.14
0.14
0.14
0.16
0.16
0.18
0.18
0.20
0.20
0.22
80
119
168
241
353
423
528
633
773
773
948
948
1158
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.14
0.14
0.14
0.14
0.16
tan 
100 Hz
ORDERING CODE
MAL2146.......
BULK PACKAGING
TAPED
0.750
0.450
0.360
0.258
0.198
0.204
0.198
0.144
0.150
0.126
0.108
0.132
FORM CA
55471E3
55681E3
55102E3
55152E3
55222E3
55272E3
55332E3
55392E3
55472E3
95475E3
55562E3
55682E3
FORM CB
65471E3
65681E3
65102E3
65152E3
65222E3
65272E3
65332E3
65392E3
65472E3
95476E3
65562E3
65682E3
FORM TFA
35471E3
35681E3
35102E3
35152E3
35222E3
35272E3
35332E3
35392E3
35472E3
95473E3
35682E3
0.120
0.075
0.060
0.043
0.033
0.034
0.033
0.024
0.021
0.025
0.018
0.022
0.019
0.750
0.450
0.360
0.258
0.198
0.204
0.198
0.144
0.126
0.150
0.108
0.132
0.114
56331E3
56471E3
56681E3
56102E3
56152E3
56182E3
56272E3
96275E3
56332E3
56392E3
56472E3
96475E3
56562E3
66331E3
66471E3
66681E3
66102E3
66152E3
66182E3
66272E3
96276E3
66332E3
66392E3
66472E3
96476E3
66562E3
36331E3
36471E3
36681E3
36102E3
36152E3
36182E3
36272E3
96273E3
36332E3
36392E3
96473E3
-
0.120
0.075
0.060
0.043
0.033
0.034
0.033
0.024
0.025
0.021
0.018
0.022
0.019
0.017
0.750
0.450
0.360
0.258
0.198
0.204
0.198
0.144
0.150
0.126
0.108
0.132
0.114
50221E3
50331E3
50471E3
50681E3
50102E3
50122E3
50152E3
50182E3
50222E3
90225E3
50272E3
90275E3
50332E3
60221E3
60331E3
60471E3
60681E3
60102E3
60122E3
60152E3
60182E3
60222E3
90226E3
60272E3
90276E3
60332E3
30221E3
30331E3
30471E3
30681E3
30102E3
30122E3
30152E3
30182E3
30222E3
90223E3
90273E3
-
Document Number: 28401
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ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
50
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 kHz
125 °C
(mA)
Z
100 kHz
+ 20 °C
()
Z
100 kHz
- 40 °C
()
100
10 x 12
420
53
220
10 x 16
900
113
0.10
0.190
0.10
0.120
330
10 x 20
1000
168
0.10
470
12.5 x 20
680
12.5 x 25
1250
238
1700
343
820
16 x 20
1650
1000
18 x 20
1000
16 x 25
1200
CR
100 Hz
(μF)
IL2
2 min
(μA)
tan 
100 Hz
ORDERING CODE
MAL2146.......
BULK PACKAGING
TAPED
FORM CA
FORM CB
FORM TFA
1.330
51101E3
61101E3
31101E3
0.720
51221E3
61221E3
31221E3
0.090
0.540
51331E3
61331E3
31331E3
0.10
0.065
0.390
51471E3
61471E3
31471E3
0.10
0.050
0.300
51681E3
61681E3
31681E3
413
0.10
0.047
0.282
51821E3
61821E3
31821E3
1800
503
0.10
0.039
0.234
51102E3
61102E3
31102E3
2100
503
0.10
0.031
0.186
91105E3
91106E3
91103E3
18 x 25
2400
603
0.10
0.030
0.180
51122E3
61122E3
31122E3
1200
16 x 31
2550
603
0.10
0.027
0.162
91125E3
91126E3
91123E3
1500
16 x 35
2800
753
0.10
0.022
0.132
51152E3
61152E3
-
1800
18 x 31
2700
903
0.10
0.026
0.156
51182E3
61182E3
31182E3
2200
18 x 35
3000
1103
0.12
0.022
0.132
51222E3
61222E3
-
2700
18 x 40
3200
68
10 x 12
400
46
0.10
0.360
2.160
58689E3
68689E3
38689E3
100
10 x 16
600
66
0.10
0.220
1.320
58101E3
68101E3
38101E3
150
10 x 20
750
98
0.10
0.150
0.900
58151E3
68151E3
38151E3
220
12.5 x 20
1000
142
0.10
0.098
0.950
58221E3
68221E3
38221E3
330
12.5 x 25
1300
211
0.10
0.076
0.456
58331E3
68331E3
38331E3
390
16 x 20
1250
249
0.10
0.075
0.450
58391E3
68391E3
38391E3
470
18 x 20
1500
299
0.10
0.055
0.330
58471E3
68471E3
38471E3
560
16 x 25
1800
356
0.10
0.048
0.288
58561E3
68561E3
38561E3
680
18 x 25
2100
431
0.10
0.041
0.246
58681E3
68681E3
38681E3
680
16 x 31
2200
431
0.10
0.036
0.216
98685E3
98686E3
98683E3
820
16 x 35
2500
520
0.10
0.029
0.174
58821E3
68821E3
-
1000
18 x 31
2400
633
0.10
0.032
0.192
58102E3
68102E3
38102E3
1200
18 x 35
2600
759
0.10
0.029
0.174
58122E3
68122E3
-
1500
18 x 40
2800
63
0.026
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Voltage
Us  1.15 x UR
Surge voltage
Urev  0.5 V
Reverse voltage
Current
Leakage current
After 2 min at UR
IL2  0.01 CR x UR + 3 μA
Inductance
Equivalent series inductance (ESL)
Case Ø D = 10 mm
Typ. 16 nH
Case Ø D  12.5 mm
Typ. 18 nH
Calculated from tan max. and CR (see Table 2)
ESR = tan /2 f CR
Resistance
Equivalent series resistance (ESR)
Revision: 12-Apr-13
Document Number: 28401
219
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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CAPACITANCE (C)
1.2
C
C0
C
C0
1.2
1.0
1.1
0.8
0.6
1.0
0.4
0.9
0.2
0.8
- 60 - 40 - 20
0.0
0
20
40
60
80
100
120
140
10
100
10 000
1000
T (°C)
100 000
f (Hz)
Fig. 5 - Typical multiplier of capacitance at 100 Hz
as a function of temperature (C0 = C at 20 °C)
Fig. 6 - Typical multiplier of capacitance as a function
of frequency at 20 °C (C0 = C at 100 Hz)
EQUIVALENT SERIES RESISTANCE (ESR)
100
5
ESR
ESR0
ESR
ESR0
4
10
3
2
1
1
0.1
- 60 - 40 - 20
0
0
20
40
60
80
100
120
140
10
100
1000
100 000
10 000
T (°C)
f (Hz)
Fig. 7 - Typical multiplier of ESR at 100 Hz as a function
of temperature (ESR0 = ESR at 20 °C)
Fig. 8 - Typical multiplier of ESR at 20 °C as a function
of frequency (ESR0 = ESR at 100 Hz)
IMPEDANCE (Z)
100
100
Z
Z0
Curve 1:
Curve 2:
Curve 3:
Curve 4:
Curve 5:
Curve 6:
Curve 7:
Z (Ω)
10
1
10
1
220 µF, 35V, 10 x 12
330 µF, 35 V, 10 x 16
470 µF, 35 V, 10 x 20
680 µF, 35 V, 12.5 x 20
1000 µF, 35 V, 12.5 x 25
1800 µF, 35 V, 16 x 25
3300 µF, 35 V, 18 x 35
2
3
4
5
6
7
1
0.1
0.1
- 60 - 40 - 20
0
20
40
60
80
100
120
140
T (°C)
Fig. 9 - Typical multiplier of impedance at 100 kHz as a function
of temperature (Z0 = Z at 20 °C)
Revision: 12-Apr-13
0.01
10
100
1000
10 000
100 000
f (Hz)
Fig. 10 - Typical impedance Z at 20 °C as a function of frequency
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1000
Curve 1:
Curve 2:
Curve 3:
Curve 4:
Curve 5:
Curve 6:
Curve 7:
Curve 8:
Z (Ω)
100
1
2
3
4
5
6
7
8
10
1
68 µF, 63 V, 10 x 12
100 µF, 63 V, 10 x 16
150 µF, 63 V, 10 x 20
220 µF, 63 V, 12.5 x 20
330 µF, 63 V, 12.5 x 25
560 µF, 63 V, 16 x 25
680 µF, 63 V, 16 x 31
1000 µF, 63 V, 18 x 31
0.1
0.01
10
100
1000
10 000
100 000
f (Hz)
Fig. 11 - Typical impedance Z at 20 °C as a function of frequency
Table 3
ENDURANCE TEST DURATION AND USEFUL LIFE AS A FUNCTION OF CASE SIZE
NOMINAL CASE SIZE
ØDxL
(mm)
CASE CODE
ENDURANCE
AT 125 °C
(h)
USEFUL LIFE
AT 125 °C
(h)
10 x 12
14
2000
2500
10 x 16
15
2000
2500
10 x 20
16
2000
3000
12.5 x 20
17
2000
3000
12.5 x 25
18
3000
5000
16 x 20
19a
3000
4000
16 x 25
19
3000
5000
16 x 31
20
4000
6000
16 x 35
21
5000
6000
18 x 20
1820
3000
4000
18 x 25
1825
3000
5000
18 x 31
1831
4000
6000
18 x 35
22
5000
6000
18 x 40
1840
5000
6000
Revision: 12-Apr-13
Document Number: 28401
221
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
MBC242
IA 4.3
IR 4.2
4.1
4.0
3.9
3.8
3.7
3.6
3.5
3.4
3.3
3.2
3.1
3.0
Lifetime multiplier
2.8
0
1.
5
1.
2.6
0
2.
0
3.
0
4.
2.4
0
6.
0
8.
2.2
2.0
12
60
0
10
Useful life at 125 °C and IR applied; see Table 4
(1)
0
40
1.4
1.2
1.0
0.8
0.5
0.0
40
30
1.6
0
20
(1)
20
1.8
IA = Actual ripple current at 100 kHz
IR = Rated ripple current at 100 kHz, 125 °C
50
60
70
80
90
100
110
120
130
Tamb (°C)
Fig. 12 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 4
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
IR MULTIPLIER
UR = 16 V to 25 V
UR = 35 V
UR = 50 V to 63 V
50
0.60
0.50
0.35
100
0.70
0.65
0.50
300
0.85
0.80
0.65
1000
0.90
0.85
0.80
3000
0.95
0.90
0.90
10 000
1.00
0.95
0.90
100 000
1.00
1.00
1.00
Revision: 12-Apr-13
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Table 5
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/
EN130300
subclause 4.13
PROCEDURE
(quick reference)
REQUIREMENTS
Tamb = 125 °C; UR applied;
for test duration see Table 3
C/C: ± 15 %
tan  1.3 x spec. limit
Z 2 x spec. limit
IL2  spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 125 °C; UR and IR applied;
for test duration see Table 3
C/C: ± 30 %
tan  3 x spec. limit
Z 3 x spec. limit
IL2  spec. limit
no short or open circuit
total failure percentage:  1 %
Shelf life
IEC 60384-4/
EN130300
subclause 4.17
Tamb = 125 °C; no voltage applied;
1000 h
after test: UR to be applied for 30 min,
24 h o 48 h before measurement
C/C: ± 15 %
tan  1.3 x spec. limit
Z 3 x spec. limit
IL2  spec. limit
Revision: 12-Apr-13
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128 SAL-RPM
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Aluminum Capacitors Solid AI,
Radial Pearl Miniature
FEATURES
123
SAL-A
• Polarized aluminum electrolytic capacitors,
solid electrolyte MnO2
• Radial leads, max. height 10 mm, resin
dipped, orange colored
• Extremely long useful life: 20 000 h at 125 °C
• Extended high temperature range up to 175 °C
• Excellent low temperature, impedance and ESR behaviour
• Charge and discharge proof, application with 0 
resistance allowed
• Reverse DC voltage up to 0.3 x UR allowed
• AC voltage up to 0.8 x UR allowed
• Material categorization: For definitions of compliance
please see www.vishay.com/doc?99912
128
SAL-RPM
axial
version
APPLICATIONS
• Audio-video, automotive, industrial high temperature and
telecommunication
• Smoothing, filtering and buffering
• For small power supplies, DC/DC converters
Fig. 1
QUICK REFERENCE DATA
DESCRIPTION
VALUE
Maximum case sizes
(H x W x T in mm)
MARKING
10 x 7 x 3.5
to 10 x 8 x 6
Rated capacitance range
(E6 series), CR
0.22 μF to 68 μF
Tolerance on CR
± 20 %
Rated voltage range, UR
6.3 V to 40 V
Category temperature range:
UR = 6.3 V to 40 V
-55 °C to +85 °C
UC = 6.3 V to 25 V
-55 °C to +125 °C
Endurance test at 125 °C
10 000 h
Useful life at 125 °C
20 000 h
Useful life at 175 °C
2000 h
Useful life at 40 °C, IR applied
MOUNTING
> 300 000 h
Shelf life at 0 V, 125 °C
500 h
Based on sectional
specification
IEC 60384-4/EN 130300
Climatic category IEC 60068
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V) and category voltage if applicable
• Date code in accordance with IEC 60062
• Name of manufacturer
• “ I” sign to indicate the negative terminal
• “+” sign to identify the positive terminal
• Series number
55/125/56
When bending, cutting or straightening the leads, ensure
that the capacitor body is relieved of stress.
Bending after soldering must be avoided.
Completely sealing the component’s body or use in an
oxygen-free environment has a negative impact on useful
life.
SELECTION CHART FOR CR, UR, UC, AND RELEVANT MAXIMUM CASE SIZES (H x W x T in mm)
CR
(μF)
0.22
0.33
0.47
0.68
1.0
1.5
2.2
Revision: 25-Oct-13
6.3
10
6.3
-
10
-
UR (V) AT Tamb = 85 °C
16
UC (V) AT Tamb = 125 °C
16
10 x 7 x 3.5
25
40
25
10 x 7 x 3.5
10 x 7 x 3.5
10 x 7 x 3.5
10 x 7 x 4
25
10 x 7 x 3.5
10 x 7 x 4
10 x 7 x 5
10 x 7 x 5
10 x 7 x 5
10 x 8 x 6
10 x 8 x 6
Document Number: 28354
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SELECTION CHART FOR CR, UR, UC, AND RELEVANT MAXIMUM CASE SIZES (H x W x T in mm)
CR
(μF)
3.3
4.7
6.8
10
15
22
33
47
68
6.3
10
6.3
10 x 7 x 3.5
10 x 7 x 4
10 x 7 x 5
10 x 8 x 5
10 x 8 x 6
10
10 x 7 x 3.5
10 x 7 x 3.5
10 x 7 x 4
10 x 7 x 4
10 x 7 x 5
10 x 8 x 5
10 x 8 x 6
-
UR (V) AT Tamb = 85 °C
16
UC (V) AT Tamb = 125 °C
16
10 x 7 x 3.5
10 x 7 x 4
10 x 7 x 4
10 x 7 x 5
10 x 8 x 5
10 x 8 x 6
-
25
40
25
10 x 7 x 5
10 x 8 x 5
10 x 8 x 5
10 x 8 x 6
-
25
-
DIMENSIONS in millimeters AND AVAILABLE FORMS
W
9.5 ± 0.5
W
T
9.5 ± 0.5
T
Bottom view
Bottom view
+ 0.3
4.5 - 0.7
Printed-circuit
board
5.2 ± 0.2
2 ± 0.5
5.2 ± 0.2
+ 0.06
Ø 0.6 - 0.05
9±1
12.5 ± 0.5
Printed-circuit
board
+ 0.06
Ø 0.6 - 0.05
0.25
± 0.05
1.0 ± 0.1
The diameter of the mounting holes in the printed-circuit board
is 0.8 ± 0.1 mm.
Flanges are provided with degassing grooves.
The diameter of the mounting holes in the printed-circuit board is
0.8 ± 0.1 mm, except for the hole of the anode lead of Form
CA capacitors: 1.3 - 0.2 mm.
Flanges are provided with degassing grooves.
Fig. 2 - Form CB: Short leads, in boxes
Fig. 3 - Form CA: Long leads with keyed polarity, in boxes
Table 1
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
MAXIMUM
CASE SIZE
HxWxT
(mm)
10 x 7 x 3.5
10 x 7 x 4
10 x 7 x 5
10 x 8 x 5
10 x 8 x 6
PACKAGING QUANTITIES
CASE
CODE
MASS
(g)
20
30
40
50
60
 0.25
 0.30
 0.35
 0.50
0.60
FORM
CA (1)
FORM
CB (1)
FORM
TR+
FORM
TFA
1000
1000
1000
1000
1000
1000
1000
1000
1000
1000
2000
2000
1000
1000
1000
1000
1000
1000
1000
1000
Notes
(1) In plastic bags of 200 units each
• Detailed tape dimensions see www.vishay.com/doc?28360
CARDBOARD BOX DIMENSIONS, L x W x H (mm)
SOLID TYPES FORM CA AND CB
all
120 x 120 x 75
SOLID TYPES FORM TFA
all
340 x 175 x 52
SOLID TYPES FORM TR+
all
Revision: 25-Oct-13
370 x 370 x 70
Document Number: 28354
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TAPED PRODUCTS
ELECTRICAL DATA
SYMBOL
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
IR
Max. RMS ripple current no necessary DC applied
IL5
Max. leakage current after 5 min at UR
tan 
Max. dissipation factor at 100 Hz
ESR
Max./typ. equivalent series resistance at 100 Hz
Z
Max. impedance at 100 kHz
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C to 25 °C, P = 86 kPa to 106 kPa, RH = 45 % to
75 %.
ORDERING EXAMPLE
Maximum case size: 10 mm x 7 mm x 5 mm; Form CB
Electrolytic capacitors 128 series 10 μF/16 V; ± 20 %
Ordering code: MAL2 128 55109 E3 
Former 12NC: 2281 128 55109
Form TR+: Taped on reel, positive leading
Form TFA: Taped in ammopack
Fig. 4 - Taped versions
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
IR
IR
IR
TYP.
MAXIMUM
MAX.
IL5
CR
Z
ESR
UC UR
CASE SIZE 100 Hz 10 kHz 100 kHz
ESR
100 Hz
5 min
100 kHz
40 °C
H x W x T 125 °C 85 °C
100 Hz 100 Hz
(V) (V)
(μF)
(μA)
()
()
(mA)
(mA)
(mA)
(mm)
()
6.3 6.3
10
10
16
16
25
25
25
40
10
22
33
47
68
4.7
6.8
10
15
22
33
47
2.2
3.3
4.7
6.8
10
15
22
0.68
1.0
1.5
2.2
3.3
4.7
6.8
10
0.22
0.33
0.47
0.68
1.0
1.5
2.2
10 x 7 x 3.5
10 x 7 x 4
10 x 7 x 5
10 x 8 x 5
10 x 8 x 6
10 x 7 x 3.5
10 x 7 x 3.5
10 x 7 x 4
10 x 7 x 4
10 x 7 x 5
10 x 8 x 5
10 x 8 x 6
10 x 7 x 3.5
10 x 7 x 3.5
10 x 7 x 4
10 x 7 x 4
10 x 7 x 5
10 x 8 x 5
10 x 8 x 6
10 x 7 x 3.5
10 x 7 x 3.5
10 x 7 x 3.5
10 x 7 x 4
10 x 7 x 5
10 x 8 x 5
10 x 8 x 6
10 x 8 x 6
10 x 7 x 3.5
10 x 7 x 4
10 x 7 x 5
10 x 7 x 5
10 x 8 x 5
10 x 8 x 6
10 x 8 x 6
22.4
32.9
65.4
118.4
153.0
16.1
18.9
21.7
27.3
51.7
81.6
105.4
14.0
16.1
18.9
22.4
42.9
71.2
86.7
7.7
9.1
10.8
13.6
16.1
25.3
52.7
64.8
4.2
5.3
10.4
12.1
20.0
25.5
33.1
320
470
595
740
800
230
270
310
390
470
510
620
200
230
270
320
390
445
510
110
130
155
195
230
270
310
360
60
75
95
110
125
150
195
595
870
1100
1360
1650
425
500
573
720
870
940
1140
370
425
500
590
720
820
940
200
240
285
360
425
500
570
660
115
140
175
205
230
280
360
2
4
5
7
11
2
2
3
4
6
8
12
2
2
2
3
4
6
9
2
2
2
2
2
3
4
6
2
2
2
2
2
2
2
20
9
6.1
4.3
3.0
43
30
20
14
9
6.1
4.3
91
61
43
30
20
14
9
295
200
135
91
61
43
30
20
910
610
430
295
200
135
91
8
3.5
2
2
1.5
16
12
9
7
3.5
2
1.5
25
26
14
11
6
5
3.5
85
71
48
34
19
14
11
9
275
172
114
89
45
35
28
2.0
1.0
0.70
0.50
0.40
3.00
2.20
1.70
1.20
0.90
0.60
0.40
4.50
3.30
2.30
1.65
1.10
0.85
0.65
17.00
12.50
10.00
7.00
5.20
3.50
2.70
2.00
27.00
20.00
15.00
10.00
7.00
5.50
4.20
ORDERING CODE
MAL2128.......
FORM
CB
53109E3
53229E3
53339E3
53479E3
53689E3
54478E3
54688E3
54109E3
54159E3
54229E3
54339E3
54479E3
55228E3
55338E3
55478E3
55688E3
55109E3
55159E3
55229E3
56687E3
56108E3
56158E3
56228E3
56338E3
56478E3
56688E3
56109E3
57227E3
57337E3
57477E3
57687E3
57108E3
57158E3
57228E3
FORM
FORM
FORM
CA
TR+ REEL TFA AMMO
73109E3 23109E3
33109E3
73229E3 23229E3
33229E3
73339E3 23339E3
33339E3
73479E3 23479E3
33479E3
73689E3 23689E3
33689E3
74478E3 24478E3
34478E3
74688E3 24688E3
34688E3
74109E3 24109E3
34109E3
74159E3 24159E3
34159E3
74229E3 24229E3
34229E3
74339E3 24339E3
34339E3
74479E3 24479E3
34479E3
75228E3 25228E3
35228E3
75338E3 25338E3
35338E3
75478E3 25478E3
35478E3
75688E3 25688E3
35688E3
75109E3 25109E3
35109E3
75159E3 25159E3
35159E3
75229E3 25229E3
35229E3
76687E3 26687E3
36687E3
76108E3 26108E3
36108E3
76158E3 26158E3
36158E3
76228E3 26228E3
36228E3
76338E3 26338E3
36338E3
76478E3 26478E3
36478E3
76688E3 26688E3
36688E3
76109E3 26109E3
36109E3
77227E3 27227E3
37227E3
77337E3 27337E3
37337E3
77477E3 27477E3
37477E3
77687E3 27687E3
37687E3
77108E3 27108E3
37108E3
77158E3 27158E3
37158E3
77228E3 27228E3
37228E3
Note
• tan  at 100 Hz for all types < 0.10
Revision: 25-Oct-13
Document Number: 28354
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ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Voltage
Us  1.15 x UR
Surge voltage
Urev  0.3 x UR
Reverse voltage
Maximum peak AC voltage
2 V
Reverse voltage applied
Tamb  85 °C:
Maximum peak AC voltage,
without reverse voltage applied
at f  0.1 Hz
0.30 x UR
at 0.1 Hz < f  1 Hz
0.45 x UR
at 1 Hz < f  10 Hz
0.60 x UR
at 10 Hz < f  50 Hz
0.65 x UR
at f > 50 Hz
0.80 x UR
85 °C < Tamb  125 °C:
at f  0.1 Hz
0.15 x UR
at 0.1 Hz < f  1 Hz
0.22 x UR
at 1 Hz < f  10 Hz
0.30 x UR
at 10 Hz < f  50 Hz
0.32 x UR
at f > 50 Hz
0.40 x UR
Case sizes 10 mm x 7 mm x 3.5 mm to 
10 mm x 7 mm x 5 mm
typ. 9 nH to 14 nH
Case sizes 10 mm x 8 mm x 5 mm and 
10 mm x 8 mm x 6 mm
typ. 11 nH to 16 nH
All case sizes
max. 20 nH
Case sizes 10 mm x 7 mm x 3.5 mm to 
10 mm x 7 mm x 5 mm
P125 = 88 mW
Case sizes 10 mm x 8 mm x 5 mm and 
10 mm x 8 mm x 6 mm
P125 = 104 mW
After 5 min at UR and Tamb = 25 °C
IL5  0.025 CR x UR or 2 μA
whichever is greater; see Table 2
Inductance
Equivalent series inductance (ESL)
Dissipation
Maximum power dissipation
Current
Maximum leakage current
15 s at UR and Tamb = 25 °C:
Typical leakage current
UR = 6.3 V to 16 V
 0.2 x value stated in Table 2
UR = 25 V to 40 V
0.1 x value stated in Table 2
VOLTAGE
RIPPLE CURRENT (IR)
40
(1)
35
(2)
UC = 125 °C
UC = 175 °C
(1)
(2)
IR multiplier
25
16
10
6.3
4
0
- 50
0
PARAMETER
50
100
85
150
175
125
Tamb (°C)
Tamb
25 °C 40 °C 65 °C 85 °C 105 °C 125 °C
1.1
1.0
0.88
0.75
0.59
0.37
Notes
(1) Applying the maximum RMS ripple current given in Table 2 will
cause a device temperature of 138 °C
(2) The 100 kHz values in Table 2 for other temperatures are to be
calculated with the above IR multipliers









Fig. 5 - Maximum permissible voltage up to Tamb = 175 °C
Revision: 25-Oct-13
Document Number: 28354
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CAPACITANCE (C)
C
C0
TYPICAL CAPACITANCE CHANGE AFTER
ENDURANCE TEST AT Tamb = 125 °C
4
1.2
DC
(%)
2000 h
2
standard deviation σ
1.1
1.0
0.9
0.8
5000 h
10 000 h
0
-2
-4
-6
0.05
σ
0.7
0
-8
- 10
0.6
- 80
- 40
0
40
80
120
0.01 0.1 0.5 1 2
160
Cumulative frequency (%)
Tamb (°C)
Fig. 7 - Change of capacitance as a function of cumulative
frequency after endurance test
Fig. 6 - Typical multiplier of capacitance and standard deviation
as functions of ambient temperature
LEAKAGE CURRENT
TYPICAL LEAKAGE CURRENT CHANGE AFTER
ENDURCANCE TEST AT Tamb = 125 °C
leakage current (% of initial requirements)
102
I
I0
10
1
10
5 10 20 30 40 50 60 70 80 90 95 98 99 99.5 99.9 99.99
100
80
60
50
40
30
20
init.
2000 h
5000 h
10 000 h
10
8
6
5
4
3
2
-1
1
- 40
0
40
80
I0 = leakage current during continuous operation
at UR and Tamb = 25 °C
120
160
0.01 0.1 0.5 1 2
5 10 20 30 40 50 60 70 80 90 95 98 99 99.5 99.9 99.99
Tamb (°C)
Cumulative frequency (%)
Fig. 8 - Typical multiplier of leakage current as a function
of ambient temperature
Fig. 9 - Change of capacitance as a function of cumulative
frequency after endurance test
Revision: 25-Oct-13
Document Number: 28354
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DISSIPATION FACTOR (tan )
TYPICAL tan  CHANGE AFTER ENDURANCE
TEST AT Tamb = 125 °C
120
standard deviation σ
1.5
1.0
0.5
0.05
σ
0
tan δ (% of initial requirements)
2.0
tan δ
tan δ0
init.
100
2000 h
5000 h
80
10 000 h
60
40
20
0
0
- 80
- 40
0
40
80
120
tan δ0 = dissipation factor at Tamb = 25 °C and 100 Hz
160
0.01 0.1 0.5 1 2
5 10 20 30 40 50 60 70 80 90 95 98 99 99.5 99.9 99.99
Tamb (°C)
Cumulative frequency (%)
Fig. 11 - tan  change of capacitance as a function of
cumulative frequency after endurance test
Fig. 10 - Typical multiplier of dissipation factor and standard
deviation as functions of ambient temperature
EQUIVALENT SERIES RESISTANCE (ESR)
104
ESR
ESR0
103
Curve 1: 0.22 µF, 40 V
Curve 2: 1.5 µF, 40 V
Curve 3: 3.3 µF, 25 V
Curve 4: 10 µF, 6.3 V
Curve 5: 22 µF, 10 V
1
103
Curve 1: 0.22 µF, 40 V
Curve 2: 1.5 µF, 40 V
Curve 3: 2.2 µF, 16 V
Curve 4: 10 µF, 6.3 V
ESR
()
102
1
102
10
2
2
3
10
3
1
4
5
4
1
10-1
10-1
10-2
- 100
- 50
0
50
100
150
Tamb (°C)
Fig. 12 - Typical multiplier of ESR at 100 Hz as a function
of ambient temperature
Revision: 25-Oct-13
Case H x W x T = 10 x 7 x 3.5 mm
10 2
103
10 4
10 5
10 6 f (Hz) 10 7
Fig. 13 - Typical ESR at 25 °C as a function of frequency
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EQUIVALENT SERIES RESISTANCE (ESR)
103
103
Curve 1: 2.2 µF, 25 V
Curve 1: 4.7 µF, 16 V
Curve 1: 22 µF, 6.3 V
ESR
()
102
ESR
(Ω)
102
Curve 1: 0.47 µF, 40 V
Curve 2: 3.3 µF, 40 V
Curve 3: 10 µF, 16 V
Curve 4: 33 µF, 6.3 V
1
101
10
1
2
2
3
1
3
4
1
10-1
10-1
Case H x W x T = 10 x 7 x 4 mm
10-2
10 2
10 4
103
Case size H x W x T = 10 x 7 x 5 mm
10-2
10 6 f (Hz) 10 7
10 5
10 2
Fig. 14 - Typical ESR at 25 °C as a function of frequency
103
10 4
10 5
10 6 f (Hz) 10 7
Fig. 15 - Typical ESR at 25 °C as a function of frequency
103
103
Curve 1: 1 µF, 40 V
Curve 2: 4.7 µF, 25 V
Curve 3: 47 µF, 6.3 V
ESR
(Ω)
102
101
ESR
(Ω)
102
101
1
2
1
Curve 1: 10 µF, 25 V
Curve 2: 22 µF, 16 V
Curve 3: 68 µF, 6.3 V
1
2
1
3
3
-1
10
10
Case size H x W x T = 10 x 8 x 5 mm
10-2
10 2
10 4
103
-1
Case size H x W x T = 10 x 8 x 5 mm
10-2
10 6 f (Hz) 10 7
10 5
10 2
Fig. 16 - Typical ESR as a function of frequency
103
10 4
10 5
10 6 f (Hz) 10 7
Fig. 17 - Typical ESR at 25 °C as a function of frequency
IMPEDANCE (Z)
2.0
103
Tamb = - 55 °C
Z
Z0
1.5
Z
()
102
- 20 °C
1
2
101
+ 25 °C
1.0
Curve 1: 0.22 µF, 40 V
Curve 2: 1.5 µF, 25 V
Curve 3: 3.3 µF, 16 V
Curve 4: 10 µF, 6.3 V
3
+ 50 °C
4
1
- 125 °C
0.5
10-1
0
Z0 = initial impedance value at T amb 25 °C
10 2
103
10
4
10 5
10 6
10-2
7
10 f (Hz) 10
8
Fig. 18 - Typical multiplier of impedance as a function of frequency
at different ambient temperatures
Revision: 25-Oct-13
10 2
Case H x W x T = 10 x 7 x 3.5 mm
103
10 4
10 5
10 6 f (Hz) 10 7
Fig. 19 - Typical impedance at 25 °C as a function of frequency
Document Number: 28354
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IMPEDANCE (Z)
103
103
Curve 1: 2.2 µF, 25 V
Curve 2: 4.7 µF, 16 V
Curve 3: 22 µF, 6.3 V
Z
()
2
10
1
Z
(Ω)
102
Curve 1: 0.47 µF, 40 V
Curve 2: 3.3 µF, 25 V
Curve 3: 10 µF, 16 V
Curve 4: 33 µF, 6.3 V
2
101
3
101
1
4
2
3
1
1
10-1
10-2
10-1
Case size H x W x T = 10 x 7 x 4 mm
10 2
10 4
103
10 5
10-2
10 6
7
f (Hz) 10
Fig. 20 - Typical impedance at 25 °C as a function of frequency
10 2
10 4
103
10 5
10 6
7
f (Hz) 10
Fig. 21 - Typical impedance at 25 °C as a function of frequency
103
103
Z
(Ω)
Curve 1: 1 µF, 40 V
Curve 2: 4.7 µF, 25 V
Curve 3: 47 µF, 6.3 V
1
10
Case size H x W x T = 10 x 7 x 5 mm
2
Curve 1: 10 µF, 25 V
Curve 2: 22 µF, 16 V
Curve 3: 68 µF, 6.3 V
Z
(Ω)
102
2
1
101
101
2
3
3
1
1
10-1
10-1
10-2
Case size H x W x T = 10 x 8 x 5 mm
10 2
103
10 4
10 5
10-2
10 6
7
f (Hz) 10
Fig. 22 - Typical impedance at 25 °C as a function of frequency
Revision: 25-Oct-13
Case size H x W x T = 10 x 8 x 6 mm
10 2
103
10 4
10 5
10 6
7
f (Hz) 10
Fig. 23 - Typical impedance at 25 °C as a function of frequency
Document Number: 28354
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Table 3
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
Endurance
IEC 60384-4/
EN130300
subclause 4.13
Tamb = 125 °C; 
UR = 6.3 V to 25 V with UR applied; 
UR = 40 V with UC applied;
10 000 h
Useful life
CECC 30302
subclause 1.8.1
Tamb = 125 °C;
IR applied and:
UR = 6.3 V to 25 V with UR applied;
UR = 40 V with UC applied;
20 000 h
Shelf life (storage at
high temperature)
IEC 60 384-4/
EN130 300
subclause 4.17
Tamb = 125 °C; no voltage applied;
500 h
Charge and discharge
IEC 60384-4-2
subclause 9.21
Solvent resistance
IEC 60068-2-45,
test XA
IEC 60653
106 cycles without series resistance:
0.5 s to UR; 
0.5 s to ground
Immersion: 5 min ± 0.5 min with or without
ultrasonic at 55 °C ± 5 °C
Solvents: demineralized water and/or calgonite
solution (20 g/l)
Extended vibration
IEC 60068-2-6
test Fc
10 Hz to 2000 Hz; 1.5 mm or 20 g;
1 octave/min; 3 directions;
1 sweep per direction; no voltage applied
Shock
IEC 60068-2-27
test Ea
Half-sine or sawtooth pulse shape; 50 g; 11 ms; 
3 successive shocks in each direction of
3 mutually perpendicular axes; 
no voltage applied
Passive flammability
IEC 60695-2-2
Capacitor mounted to a vertical printed-circuit
board, one flame on capacitor body; 
Tamb = 20 °C to 25 °C;
test duration = 20 s
Revision: 25-Oct-13
REQUIREMENTS
C/C: ± 10 %
tan   1.2 x spec. limit
Z  1.2 x spec. limit
IL5  spec. limit
C/C: ± 15 %
tan   1.5 x spec. limit
Z  1.5 x spec. limit
IL5  spec. limit
no short or open circuit,
no visible damage
total failure percentage: < 1 %
C/C: ± 10 %
tan   1.2 x spec. limit
IL5  spec. limit
C/C: ± 5 %
no short or open circuit,
no visible damage
Visual appearance not affected
no intermittent contacts
no breakdown
no open circuiting
no mechanical damage
C/C: ± 5 %
tan   1.2 x spec. limit
Z  1.2 x spec. limit
IL5  1.5 x spec. limit
no intermittent contacts
no breakdown
no open circuiting
no mechanical damage
C/C: ± 5 %
tan   1.2 x spec. limit
Z  1.2 x spec. limit
IL5  1.5 x spec. limit
After removing the test flame from
the capacitor, the capacitor must
not continue to burn for more than
15 s; no burning particles must drop
from the sample
Document Number: 28354
232
For technical questions, contact: [email protected]
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
021 ASM
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Vishay BCcomponents
Aluminum Capacitors
Axial Standard Miniature
FEATURES
•
•
•
•
•
041/043 ASH
•
•
•
high voltage
117 ASD
lower
CV-values
longer life
105 °C
021 ASM
138 AML
Fig. 1
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes
(Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
Endurance test at 85 °C:
UR = 6.3 V to 25 V
UR = 40 V to 100 V
Endurance test at 105 °C
Useful life at 85 °C
Useful life at 40 °C, 
1.4 x IR applied
Shelf life at 0 V, 85 °C
Based on sectional specification
Climatic category IEC 60068
VALUE
4.5 x 10
10 x 30
to 10 x 25
to 21 x 38
1 μF to 15 000 μF
± 20 %
6.3 V to 100 V
- 40 °C to + 85 °C
1000 h
2000 h
2500 h
5000 h
5000 h
2000 h
8000 h
70 000 h
200 000 h
500 h
IEC 60384-4/EN 130300
40/085/56
Long useful life: 2500 h to 8000 h at 85 °C
Miniaturized, high CV-product per unit volume
Charge and discharge proof
Taped versions up to case Ø 15 mm x 30 mm
available for automatic insertion
Polarized aluminum electrolytic capacitors, non-solid
electrolyte
Axial leads, cylindrical aluminum case, insulated with a
blue sleeve
Mounting ring version not available in insulated form
Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
•
•
•
•
General purpose, industrial, automotive, audio-video
Coupling, decoupling, smoothing, filtering, buffering
Portable and mobile equipment (small size, low mass)
Low mounting height boards, vibration and shock
resistant
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Upper category temperature (85 °C)
• Date code in accordance with IEC 60062
• Code for factory of origin
• Name of manufacturer
• Negative terminal identification
• Series number (021)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
1.0
2.2
3.3
4.7
10
15
22
33
47
Revision: 24-Apr-13
6.3
-
10
-
16
-
UR (V)
25
4.5 x 10
-
40
4.5 x 10
6 x 10
-
63
4.5 x 10
4.5 x 10
4.5 x 10
4.5 x 10
4.5 x 10
4.5 x 10
6 x 10
6 x 10
8 x 11
6.5 x 18
100
4.5 x 10
4.5 x 10
4.5 x 10
6 x 10
8 x 11
6.5 x 18
8 x 11
6.5 x 18
6.5 x 18
8 x 18
-
Document Number: 28325
233
For technical questions, contact: [email protected]
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
021 ASM
www.vishay.com
Vishay BCcomponents
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
68
100
150
220
330
470
680
1000
1500
2200
3300
4700
6800
10 000
15 000
6.3
8 x 11
8 x 18
10 x 25
-
10
4.5 x 10
6 x 10
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
UR (V)
25
6 x 10
8 x 11
6.5 x 18
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
16
4.5 x 10
6 x 10
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
40
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
63
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
100
10 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
DIMENSIONS in millimeters AND AVAILABLE FORMS
63.5 ± 1.5
ØD
73 ± 1.6
L
ØD
L
Ød
Ød
+
F
F
Form BR: Taped on reel
Case Ø D x L = 6.5 mm x 18 mm to 15 mm x 30 mm
Form BR: Taped on reel
Form BA: Taped in box (ammopack)
Case Ø D x L = 4.5 mm x 10 mm to 8 mm x 11 mm
Form BA: Taped in box (ammopack)
Case Ø D x L = 6.5 mm x 18 mm to 10 mm x 25 mm
Fig. 2 - Forms BA and BR
Fig. 3 - Forms BA and BR
I
L
33 ± 1
Ød
ØD
F
Form AA: Axial in box
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
Fig. 4 - Form AA
Revision: 24-Apr-13
Document Number: 28325
234
For technical questions, contact: [email protected]
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
021 ASM
www.vishay.com
Vishay BCcomponents
Table 1
AXIAL; DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
AXIAL: FORM AA, BA, AND BR
Ød
I
Ø Dmax.
Lmax.
PACKAGING QUANTITIES
MASS
(g)
Fmin.
FORM
AA
FORM
BA
FORM
BR
4.5 x 10
2
0.6
-
5.0
10.5
15
 0.5
-
1000
3000
6 x 10
3
0.6
-
6.3
10.5
15
 0.7
-
1000
1000
8 x 11
5a
0.6
-
8.5
11.5
15
 1.1
-
500
500
6.5 x 18
4
0.8
-
6.9
18.5
25
 1.3
-
1000
1000
8 x 18
5
0.8
-
8.5
18.5
25
 1.7
-
500
500
10 x 18
6
0.8
-
10.5
18.5
25
 2.5
-
500
500
10 x 25
7
0.8
-
10.5
25.5
30
 3.3
-
500
500
10 x 30
00
0.8
55 ± 1
10.5
30.5
35
 4.8
340
-
500
12.5 x 30
01
0.8
55 ± 1
13.0
30.5
35
 7.4
260
-
400
15 x 30
02
0.8
55 ± 1
15.5
30.5
35
 11.7
200
-
250
18 x 30
03
0.8
55 ± 1
18.5
30.5
35
 12.9
120
-
-
18 x 38
04
0.8
34 ± 1
18.5
39.5
44
 19.0
125
-
-
21 x 38
05
0.8
34 ± 1
21.5
39.5
44
 24.0
100
-
-
Note
• For detailed tape dimensions, please see www.vishay.com/doc?28361.
D
120°
(3 x)
3.6
D3
90° ± 2°
(3 x)
1.3
+ 0.2
- 0.4
L
+ 0.03
1.05 - 0.1 (3 x)
0
(3 x)
1.3
- 0.05
+ 0.1(3 x)
0
Mounting holes
+ 1.0
1 - 0.5
Form MR:
Case Ø D x L = 15 mm x 30 mm to 21 mm x 38 mm
Especially for applications with severe shocks and vibrations
Ø d1
Ø D2
Fig. 5 - Mounting hole diagram and outline. Form MR: With mounting ring and pins
Table 2
MOUNTING RING; DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
Ø d1
Ø d2
Ø D2max.
D3
Lmax.
MASS
(g)
PACKAGING
QUANTITIES
15 x 30
02
0.8
1.0 + 0.4
17.5
16.5 ± 0.2
33
 11.7
200
18 x 30
03
0.8
1.0 + 0.4
19.5
18.5 ± 0.2
33
 12.9
240
18 x 38
04
0.8
1.0 + 0.4
19.5
18.5 ± 0.2
42
 19.0
100
21 x 38
05
0.8
1.0 + 0.4
22.5
21.5 ± 0.2
42
 24.0
100
Revision: 24-Apr-13
MOUNTING RING: FORM MR
Document Number: 28325
235
For technical questions, contact: [email protected]
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
021 ASM
www.vishay.com
Vishay BCcomponents
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
CR
IR
IL5
tan 
ESR
Electrolytic capacitor 021 series
DESCRIPTION
Rated capacitance at 100 Hz, tolerance ± 20 %
Rated RMS ripple current at 100 Hz, 85 °C
Max. leakage current after 5 min at UR
Max. dissipation factor at 100 Hz
Equivalent series resistance at 100 Hz
(calculated from tan max. and CR)
Max. impedance at 10 kHz
1000 μF/16 V; ± 20 %
Nominal case size: Ø 10 mm x 25 mm; Form BA
Ordering code: MAL202190518E3
Former 12 NC: 2222 021 90518
Z
Note
• Unless otherwise specified, all electrical values in Table 3 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 3
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 Hz
85 °C
(mA)
IL5
5 min
(μA)
tan 
100 Hz
ESR
100 Hz
()
Z
10 kHz
()
470
1000
2200
100
220
330
470
680
1000
1500
1500
2200
3300
4700
6800
10 000
15 000
68
150
220
330
470
680
1000
1000
1500
2200
3300
4700
6800
10 000
47
100
150
150
220
330
470
680
680
1000
1500
2200
3300
4700
6800
8 x 11
8 x 18
10 x 25
4.5 x 10
6 x 10
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
4.5 x 10
6 x 10
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
4.5 x 10
6 x 10
8 x 11
6.5 x 18
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
260
440
710
100
160
230
310
400
550
690
740
980
1090
1320
1590
2090
2250
90
140
210
290
380
500
660
700
950
1040
1290
1560
2040
2170
80
150
190
210
250
340
450
560
640
840
950
1180
1470
1920
2070
10
17
32
6
8.4
11
13
18
24
34
34
48
70
98
140
204
304
6.2
8.8
11
15
19
26
36
36
52
74
110
154
222
324
6.4
9
12
12
15
21
28
38
38
54
79
114
169
239
344
0.25
0.25
0.29
0.20
0.20
0.20
0.20
0.20
0.20
0.23
0.23
0.25
0.27
0.29
0.34
0.40
0.50
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.16
0.19
0.21
0.23
0.25
0.30
0.36
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.17
0.19
0.21
0.23
0.28
0.850
0.400
0.210
3.200
1.500
1.000
0.680
0.470
0.320
0.250
0.245
0.177
0.128
0.100
0.079
0.064
0.054
3.800
1.700
1.200
0.770
0.550
0.380
0.260
0.260
0.205
0.150
0.111
0.087
0.070
0.058
4.800
2.300
1.500
1.500
1.000
0.680
0.480
0.330
0.323
0.220
0.179
0.132
0.099
0.079
0.064
0.640
0.500
0.160
2.000
0.910
0.610
0.430
0.290
0.200
0.180
0.180
0.095
0.095
0.070
0.065
0.040
0.035
2.400
1.100
0.730
0.480
0.340
0.240
0.180
0.175
0.095
0.095
0.070
0.065
0.040
0.035
2.600
1.200
0.800
0.800
0.550
0.360
0.260
0.180
0.175
0.095
0.095
0.070
0.065
0.040
0.035
Revision: 24-Apr-13
ORDERING CODE MAL2021.......
TAPED
TAPED
MOUNTING
ON REEL
IN BOX
RING
FORM
FORM
FORM
BR
BA
MR
23471E3
33471E3
23102E3
33102E3
90588E3
90589E3
24101E3
34101E3
24221E3
34221E3
24331E3
34331E3
24471E3
34471E3
24681E3
34681E3
24102E3
34102E3
90524E3
90525E3
14152E3
24152E3
14222E3
24222E3
14332E3
24332E3
14472E3
24472E3
44472E3
14682E3
44682E3
14103E3
44103E3
14153E3
44153E3
25689E3
35689E3
25151E3
35151E3
25221E3
35221E3
25331E3
35331E3
25471E3
35471E3
25681E3
35681E3
90517E3
90518E3
15102E3
25102E3
15152E3
25152E3
15222E3
25222E3
15332E3
25332E3
45332E3
15472E3
45472E3
15682E3
45682E3
15103E3
45103E3
26479E3
36479E3
26101E3
36101E3
90534E3
90535E3
26151E3
36151E3
26221E3
36221E3
26331E3
36331E3
26471E3
36471E3
90527E3
90528E3
16681E3
26681E3
16102E3
26102E3
16152E3
26152E3
16222E3
26222E3
46222E3
16332E3
46332E3
16472E3
46472E3
16682E3
46682E3
IN BOX
FORM
AA
Document Number: 28325
236
For technical questions, contact: [email protected]
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
021 ASM
www.vishay.com
Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
40
63
100
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 Hz
85 °C
(mA)
IL5
5 min
(μA)
22
47
100
100
150
220
330
470
470
680
1000
1500
2200
3300
4700
1.0
2.2
3.3
4.7
10
15
22
33
47
47
68
68
100
150
220
220
330
470
680
1000
1500
2200
1.0
2.2
4.7
10
15
15
22
22
33
47
68
100
100
150
220
330
470
680
1000
4.5 x 10
6 x 10
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
4.5 x 10
4.5 x 10
4.5 x 10
4.5 x 10
4.5 x 10
4.5 x 10
6 x 10
6 x 10
8 x 11
6.5 x 18
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
4.5 x 10
4.5 x 10
4.5 x 10
6 x 10
8 x 11
6.5 x 18
8 x 11
6.5 x 18
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
60
110
170
190
250
330
430
520
590
800
900
1120
1390
1810
1940
12
21
25
31
50
55
90
100
140
150
160
170
250
320
430
480
610
700
890
1170
1530
1780
14
20
30
65
77
85
95
100
120
160
220
300
340
490
560
740
980
1260
1470
5.8
7.8
12
12
16
22
30
42
42
58
84
124
180
268
380
4.1
4.3
4.4
4.6
5.3
5.9
6.8
8.2
10
10
13
13
17
23
32
32
46
63
90
130
193
281
4.2
4.4
4.9
6
7
7
8.4
8.4
10.6
13.4
17.6
24
24
34
48
70
98
140
204
Revision: 24-Apr-13
tan 
100 Hz
ESR
100 Hz
()
Z
10 kHz
()
0.11
0.11
0.11
0.11
0.11
0.11
0.11
0.11
0.12
0.12
0.12
0.15
0.17
0.19
0.21
0.09
0.09
0.09
0.09
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.11
0.13
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.07
0.07
0.08
0.09
0.09
0.09
0.10
8.000
3.800
1.800
1.800
1.100
0.800
0.530
0.370
0.404
0.297
0.190
0.159
0.118
0.090
0.072
150.0
65.00
44.00
31.00
13.00
8.500
5.800
3.900
2.700
2.700
1.900
1.900
1.300
0.850
0.600
0.614
0.409
0.287
0.199
0.135
0.122
0.099
130.0
58.00
27.00
13.00
8.500
8.500
5.800
5.800
3.900
2.700
1.900
1.300
1.150
0.645
0.610
0.420
0.310
0.195
0.160
3.200
1.500
0.700
0.700
0.470
0.320
0.210
0.180
0.175
0.110
0.110
0.070
0.065
0.040
0.035
55.00
25.00
17.00
12.00
5.500
3.700
2.500
1.700
1.200
1.200
0.810
0.810
0.550
0.370
0.250
0.260
0.190
0.130
0.095
0.075
0.045
0.040
90.00
41.00
19.00
9.000
6.000
6.000
4.100
4.100
2.700
1.900
1.300
0.900
1.000
0.610
0.560
0.400
0.290
0.180
0.150
ORDERING CODE MAL2021.......
TAPED
TAPED
MOUNTING
IN BOX
ON REEL
IN BOX
RING
FORM
FORM
FORM
FORM
AA
BR
BA
MR
27229E3
37229E3
27479E3
37479E3
90537E3
90538E3
27101E3
37101E3
27151E3
37151E3
27221E3
37221E3
27331E3
37331E3
90514E3
90515E3
17471E3
27471E3
17681E3
27681E3
17102E3
27102E3
17152E3
27152E3
47152E3
17222E3
47222E3
17332E3
47332E3
17472E3
47472E3
28108E3
38108E3
28228E3
38228E3
28338E3
38338E3
28478E3
38478E3
28109E3
38109E3
28159E3
38159E3
28229E3
38229E3
28339E3
38339E3
90541E3
90542E3
28479E3
38479E3
90544E3
90545E3
28689E3
38689E3
28101E3
38101E3
28151E3
38151E3
90511E3
90512E3
18221E3
28221E3
18331E3
28331E3
18471E3
28471E3
18681E3
28681E3
48681E3
18102E3
48102E3
18152E3
48152E3
18222E3
48222E3
29108E3
39108E3
29228E3
39228E3
29478E3
39478E3
29109E3
39109E3
90547E3
90548E3
29159E3
39159E3
90551E3
90552E3
29229E3
39229E3
29339E3
39339E3
29479E3
39479E3
29689E3
39689E3
90531E3
90532E3
19101E3
29101E3
19151E3
29151E3
19221E3
29221E3
19331E3
29331E3
49331E3
19471E3
49471E3
19681E3
49681E3
19102E3
49102E3
Document Number: 28325
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
021 ASM
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Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
VALUE
CONDITIONS
AXIAL
MOUNTING RING
Voltage
Surge voltage
Reverse voltage
Current
Us  1.15 x UR
Urev  1 V
IL1  0.006 CR x UR + 4 μA
IL5  0.002 CR x UR + 4 μA
After 1 min at UR
After 5 min at UR
Leakage current
Inductance
Equivalent series inductance (ESL)
Case Ø D x L mm:
4.5 x 10
6 x 10
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
Typ. 10 nH
Typ. 22 nH
Typ. 85 nH
Typ. 25 nH
Typ. 40 nH
Typ. 61 nH
Typ. 38 nH
Typ. 38 nH
Typ. 46 nH
Typ. 48 nH
Typ. 50 nH
Typ. 54 nH
Typ. 59 nH
Typ. 39 nH
Typ. 39 nH
Typ. 39 nH
Typ. 39 nH
RIPPLE CURRENT AND USEFUL LIFE
CCC205
3.3
IA
3.2
IR
3.1
3.0
2.8
2.6
2.4
Lifetime multiplier
2.2
0
1.
5
1.
2.0
0
2.
1.8
0
3.
0
4.
1.6
0
6.
15
70
0.5
0.0
(1)
30
1.0
0.8
50
Useful life at 85 °C and IR applied:
Case Ø D x L = 4.5 mm x 10 mm to 10 mm x 25 mm: 2500 h
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm: 8000 h
1.2
20
(1)
10
1.4
IA = Actual ripple current at 100 Hz
IR = Rated ripple current at 100 Hz, 85 °C
40
50
60
70
80
90
100
Tamb (°C)
Fig. 6 - Multiplier of useful life as a function of ambient temperature and ripple current load
Revision: 24-Apr-13
Document Number: 28325
238
For technical questions, contact: [email protected]
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
021 ASM
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Vishay BCcomponents
Table 4
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 6.3 V TO 16 V
UR = 25 V TO 40 V
UR = 63 V TO 100 V
50
0.95
0.90
0.85
100
1.00
1.00
1.00
300
1.07
1.12
1.20
1000
1.12
1.20
1.30
3000
1.15
1.25
1.35
 10 000
1.20
1.30
1.40
Table 5
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/
EN130300
subclause 4.13
PROCEDURE
(quick reference)
Tamb = 85 °C; UR applied;
case Ø D x L = 4.5 mm x 10 mm to 
10 mm x 25 mm: 
UR = 6.3 V to 25 V: 1000 h;
UR = 40 V to 100 V: 2000 h;
case Ø D x L = 10 mm x 30 m to 
21 mm x 38 mm:
UR = 6.3 V to 100 V: 5000 h
UR 6.3 V; C/C: + 15 %/- 30 %
UR > 6.3 V; C/C: ± 15 %
tan  1.3 x spec. limit
Z 2 x spec. limit
IL5  spec. limit
Tamb = 105 °C; UR applied;
case Ø D x L = 10 mm x 30 mm to
21 mm x 38 mm: 2000 h
C/C:  ± 20 %
tan  1.6 x spec. limit
Z  2x spec. limit
IL5  spec. limit
UR  6.3 V; C/C: + 45 %/- 50 %
UR > 6.3 V;C/C: ± 45 %
tan   3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
no short or open circuit
total failure percentage:  1 %
C/C, tan , Z: 
for requirements 
see “Endurance test” above
IL5  2 x spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 85 °C; UR and IR applied;
case Ø D x L = 4.5 mm x 10 mm to 
10 mm x 25 mm: 2500 h;
case Ø D x L = 10 mm x 30 mm to 
21 mm x 38 mm: 8000 h
Shelf life
(storage at
high temperature)
IEC 60384-4/
EN130300
subclause 4.17
Tamb = 85 °C; no voltage applied;
500 h
after test: UR to be applied for 30 min,
24 h to 48 h before measurement
Revision: 24-Apr-13
REQUIREMENTS
Document Number: 28325
239
For technical questions, contact: [email protected]
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
030/031 AS
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Vishay BCcomponents
Aluminum Capacitors
Axial Standard
FEATURES
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte
• Axial leads, cylindrical aluminum
insulated with a blue sleeve
case,
• Taped version available for automatic insertion
• Charge and discharge proof
• Useful life: 3000 h at 85 °C
• Standard dimensions
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
041/043 ASH
APPLICATIONS
high
voltage
• General
purpose
and
industrial,
telecommunication, audio-video
• Coupling, decoupling,
buffering in SMPS
030/031 AS
timing,
automotive,
smoothing,
filtering,
• Boards with restricted mounting height, vibration and
shock resistant
smaller
dimensions
MARKING
The capacitors are marked (where possible) with the
following information:
021 ASM
• Rated capacitance (in μF)
Fig. 1
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (T for - 10 % to + 50 %)
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes (Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage, UR
Category temperature range
Endurance test at 85 °C
Useful life at 85 °C
Useful life at 40 °C, 1.4 x IR applied
Shelf life at 0 V, 85 °C
Based on sectional specification
Climatic category IEC 60068
Revision: 24-Apr-12
• Rated voltage (in V)
VALUE
4.5 x 10 to 10 x 25
1 μF to 1000 μF
- 10 % to + 50 %
6.3 V to 100 V
- 40 °C to + 85 °C
• Date code in accordance with IEC 60062
• Code factory of origin
• Name of manufacturer
• Negative terminal identification
• Series number (030 or 031)
2000 h
3000 h
80 000 h
500 h
IEC 60384-4/EN130300
40/085/56
Document Number: 28327
240
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Vishay BCcomponents
SELECTION CHART FOR CR, UR AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
1.0
2.2
3.3
4.7
6.8
10
15
22
33
47
68
100
150
220
330
470
680
1000
6.3
4.5 x 10
6 x 10
8 x 18
10 x 18
10 x 25
10
4.5 x 10
6 x 10
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
-
16
4.5 x 10
6 x 10
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
-
UR (V)
25
4.5 x 10
4.5 x 10
6 x 10
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
-
40
4.5 x 10
4.5 x 10
6 x 10
6 x 10
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
-
63
4.5 x 10
4.5 x 10
4.5 x 10
4.5 x 10
4.5 x 10
6 x 10
6 x 10
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
-
100
4.5 x 10
4.5 x 10
4.5 x 10
6 x 10
6 x 10
8 x 11
6.5 x 18
8 x 18
10 x 18
10 x 25
-
DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
63.5 ± 1.5
L
ØD
73 ± 1.6
L
Ød
Ød
+
F
F
Form BR: Taped on reel
Form BA: Taped in box (ammopack)
Case Ø D x L = 4.5 mm x 10 mm to 8 mm x 11 mm
Form BR: Taped on reel
Case Ø D x L = 6.5 mm x 18 mm to 15 mm x 30 mm
Form BA: Taped in box (ammopack)
Case Ø D x L = 6.5 mm x 18 mm to 10 mm x 25 mm
Fig. 2 - Forms BA and BR
Fig. 3 - Forms BA and BR
Table 1
AXIAL; DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
AXIAL FORM BA AND BR
NOMINAL CASE SIZE CASE
ØDxL
CODE
Ød
Ø Dmax.
Lmax.
4.5 x 10
2
0.6
5.0
10.5
6 x 10
3
0.6
6.3
10.5
8 x 11
5a
0.6
8.5
11.5
6.5 x 18
4
0.8
6.9
18.5
8 x 18
5
0.8
8.5
18.5
10 x 18
6
0.8
10.5
18.5
10 x 25
7
0.8
10.5
25.0
Note
• Detailed tape dimensions see section “PACKAGING”
Revision: 24-Apr-12
Fmin.
15
15
15
25
25
25
30
MASS
(g)
 0.5
 0.7
 1.1
 1.3
 1.7
 2.5
 3.3
PACKAGING QUANTITIES
FORM BA
FORM BR
1000
3000
1000
1000
500
500
1000
1000
500
500
500
500
500
500
Document Number: 28327
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ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Electrolytic capacitor 031 series
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance - 10 % to
+ 50 %
IR
Rated RMS ripple current at 100 Hz, 85 °C
IL1
Max. leakage current after 1 min at UR
IL5
Max. leakage current after 5 min at UR
tan 
Max. dissipation factor at 100 Hz
ESR
Equivalent series resistance at 100 Hz 
(calculated from tan max. and CR)
Z
Max. impedance at 10 kHz
330 μF/10 V; - 10 %/+ 50 %
Nominal case size: Ø 8 mm x 18 mm; form BA
Ordering code: MAL203134331E3
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
NOMINAL
CASE SIZE
ØDxL
(mm)
68
4.5 x 10
2
75
22
5.9
0.25
5.86
2.90
03023689E3
03033689E3
150
6 x 10
3
120
10
6.9
0.25
2.66
1.30
03023151E3
03033151E3
CASE
CODE
IR
100 Hz
85 °C
(mA)
ORDERING CODE
MAL2..........
CR
100 Hz
(μF)
IL1
1 min
(μA)
IL5
5 min
(μA)
tan 
100 Hz
ESR
100 Hz
()
Z
10 kHz
()
TAPED ON
REEL
FORM BR
TAPED IN BOX
FORM BA
470
8 x 18
5
330
22
11
0.25
0.85
0.43
03123471E3
03133471E3
680
10 x 18
6
430
30
14
0.25
0.59
0.29
03123681E3
03133681E3
1000
10 x 25
7
560
42
18
0.25
0.40
0.20
03123102E3
03133102E3
47
4.5 x 10
2
70
24
5.9
0.20
6.78
3.40
03024479E3
03034479E3
100
6 x 10
3
110
10
7.0
0.20
3.19
1.60
03024101E3
03034101E3
220
8 x 11
5a
210
18
9.4
0.20
1.45
0.73
03024221E3
03034221E3
220
6.5 x 18
4
210
18
9.4
0.20
1.45
0.73
03124221E3
03134221E3
330
8 x 18
5
310
24
12
0.20
0.97
0.48
03124331E3
03134331E3
470
10 x 18
6
410
33
14
0.20
0.68
0.34
03124471E3
03134471E3
680
10 x 25
7
510
45
19
0.20
0.47
0.24
03124681E3
03134681E3
33
4.5 x 10
2
65
27
6.1
0.16
7.72
3.60
03025339E3
03035339E3
68
6 x 10
3
110
11
7.2
0.16
3.75
1.80
03025689E3
03035689E3
150
8 x 11
5a
200
19
9.8
0.16
1.70
0.80
03025151E3
03035151E3
150
6.5 x 18
4
200
19
9.8
0.16
1.70
0.80
03125151E3
03135151E3
220
8 x 18
5
270
26
12
0.16
1.16
0.55
03125221E3
03135221E3
330
10 x 18
6
410
36
16
0.16
0.78
0.36
03125331E3
03135331E3
470
10 x 25
7
480
49
20
0.16
0.55
0.26
03125471E3
03135471E3
10
4.5 x 10
2
50
13
5.5
0.14
22.3
9.00
03026109E3
03036109E3
22
4.5 x 10
2
60
28
6.1
0.14
10.2
4.10
03026229E3
03036229E3
47
6 x 10
3
100
12
7.4
0.14
4.80
1.90
03026479E3
03036479E3
100
8 x 11
5a
160
19
10
0.14
2.23
0.90
03026101E3
03036101E3
100
6.5 x 18
4
160
19
10
0.14
2.23
0.90
03126101E3
03136101E3
150
8 x 18
5
240
27
13
0.14
1.49
0.60
03126151E3
03136151E3
220
10 x 18
6
350
37
16
0.14
1.02
0.41
03126221E3
03136221E3
330
10 x 25
7
460
54
22
0.14
0.68
0.27
03126331E3
03136331E3
Revision: 24-Apr-12
Document Number: 28327
242
For technical questions, contact: [email protected]
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
030/031 AS
www.vishay.com
Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
40
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
CASE
CODE
IR
100 Hz
85 °C
(mA)
IL1
1 min
(μA)
IL5
5 min
(μA)
10
4.5 x 10
2
50
20
15
4.5 x 10
2
55
22
6 x 10
3
33
6 x 10
47
8 x 11
tan 
100 Hz
ESR
100 Hz
()
Z
10 kHz
()
5.8
0.11
17.6
30
6.2
0.11
75
9
6.8
3
95
12
5a
150
ORDERING CODE
MAL2..........
TAPED ON
REEL
FORM BR
TAPED IN BOX
FORM BA
7.00
03027109E3
03037109E3
11.7
4.70
03027159E3
03037159E3
0.11
8.00
3.20
03027229E3
03037229E3
7.7
0.11
5.31
2.10
03027339E3
03037339E3
16
8.8
0.11
3.73
1.50
03027479E3
03037479E3
47
6.5 x 18
4
150
16
8.8
0.11
3.73
1.50
03127479E3
03137479E3
100
8 x 18
5
220
28
13
0.11
1.75
0.70
03127101E3
03137101E3
150
10 x 18
6
300
40
17
0.11
1.17
0.47
03127151E3
03137151E3
220
10 x 25
7
430
57
23
0.11
0.80
0.32
03127221E3
03137221E3
1.0
4.5 x 10
2
13
5
5.1
0.09
143
55.0
03028108E3
03038108E3
2.2
4.5 x 10
2
25
7
5.3
0.09
65.2
25.0
03028228E3
03038228E3
3.3
4.5 x 10
2
35
11
5.4
0.09
46.5
17.0
03028338E3
03038338E3
4.7
4.5 x 10
2
40
15
5.6
0.09
30.5
12.0
03028478E3
03038478E3
6.8
4.5 x 10
2
46
22
5.9
0.09
21.1
8.10
03028688E3
03038688E3
10
6 x 10
3
70
7
6.3
0.08
12.8
5.50
03028109E3
03038109E3
15
6 x 10
3
79
10
6.9
0.08
8.50
3.70
03028159E3
03038159E3
22
8 x 11
5a
110
13
7.8
0.08
5.79
2.50
03028229E3
03038229E3
22
6.5 x 18
4
110
13
7.8
0.08
5.79
2.50
03128229E3
03138229E3
47
8 x 18
5
190
22
11
0.08
2.71
1.20
03128479E3
03138479E3
68
10 x 18
6
250
30
14
0.08
1.88
0.81
03128689E3
03138689E3
100
10 x 25
7
300
42
18
0.08
1.28
0.55
03128101E3
03138101E3
1.0
4.5 x 10
2
20
5
4.6
0.08
128
45.0
03029108E3
03039108E3
2.2
4.5 x 10
2
30
11
5.3
0.08
57.9
21.0
03029228E3
03039228E3
3.3
4.5 x 10
2
40
17
6.0
0.08
38.6
14.0
03029338E3
03039338E3
4.7
6 x 10
3
50
13
6.8
0.07
23.7
9.60
03029478E3
03039478E3
6.8
6 x 10
3
70
18
8.0
0.07
16.4
6.60
03029688E3
03039688E3
10
8 x 11
5a
90
24
10
0.07
11.2
4.50
03029109E3
03039109E3
10
6.5 x 18
4
90
24
10
0.07
11.2
4.50
03129109E3
03139109E3
22
8 x 18
5
120
48
18
0.07
5.07
2.10
03129229E3
03139229E3
33
10 x 18
6
200
70
24
0.07
3.38
1.40
03129339E3
03139339E3
47
10 x 25
7
260
98
33
0.07
2.37
0.96
03129479E3
03139479E3
63
100
Revision: 24-Apr-12
Document Number: 28327
243
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ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Voltage
Us  1.15 x UR
Surge voltage
Urev  1 V
Reverse voltage
Current
After 1 min at UR:
IL1  0.05 CR x UR or 5 μA, whichever is greater
Case Ø D x L = 4.5 mm x 10 mm
Case Ø D x L = 6 mm x 10 mm to 10 mm x 25 mm
Leakage current
IL1 for CV  1000:  0.01 CR x UR or 1 μA, whichever is greater
IL1 for CV > 1000:  0.006 CR x UR + 4 μA
UR = 100 V
IL1 = 0.02 CR x UR + 4 μA
After 5 min:
UR = 6.3 V to 63 V
IL5  0.002 CR x UR + 5 μA
UR = 100 V
IL5  0.006 CR x UR + 4 μA
Inductance
Case Ø D x L mm:
Equivalent series
inductance (ESL)
4.5 x 10
typ. 10 nH
6 x 10
typ. 22 nH
8 x 11
typ. 85 nH
6.5 x 18
typ. 25 nH
8 x 18
typ. 40 nH
10 x 18
typ. 61 nH
10 x 25
typ. 38 nH
Resistance
Equivalent series
resistance (ESR)
Calculated from tan max. and CR (see table 2)
ESR = tan /2fCR
CAPACITANCE (C)
1.2
C
C0
1.1
1
1.05
C
C0
2
1.00
1
7
1.0
0.95
7
6
5
4
3
2
0.9
0.8
0.7
Curve 1: 6.3 V
Curve 2: 10 V
Curve 3: 16 V
Curve 4: 25 V
Curve 5: 40 V
Curve 6: 63 V
Curve 7: 100 V
7
6
5
4
3
2
1
0.6
0.90
0.85
Curve 1: 6.3 V
Curve 2: 10 V
Curve 3: 16 V
Curve 4: 25 V
Curve 5: 40 V
Curve 6: 63 V
Curve 7: 100 V
1
0.75
- 60
- 40
- 20
0
C0 = capacitance at 20 °C, 100 Hz
20
40
60
80
Tamb (°C)
Fig. 4 - Typical multiplier of capacitance
as a function of ambient temperature
Revision: 24-Apr-12
10
102
C0 = capacitance at 20 °C, 100 Hz
103
104
Tamb (°C)
Fig. 5 - Typical multiplier of capacitance
as a function of frequency
Document Number: 28327
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EQUIVALENT SERIES RESISTANCE (ESR)
30
ESR
ESR0
Curve 1: 6.3 V
Curve 2: 63 V
Curve 3: 100 V
2
1
20
2
ESR
ESR0
2
1
3
3
1
1
3
2
2
1
3
10
0.3
0
- 60
- 40
- 20
0
20
40
60
80
ESR0 = capacitance at 20 °C, 100 Hz
104
103
102
10
100 120
Tamb (°C)
Tamb (°C)
ESR0 = capacitance at 20 °C, 100 Hz
Fig. 6 - Typical multiplier of ESR
as a function of ambient temperature
Fig. 7 - Typical multiplier of ESR as a function of frequency
IMPEDANCE (Z)
Table 3
IMPEDANCE VS. CAPACITANCE VALUES AT 10 kHz
Z x CR ( x μF)
Tamb
6.3 V
10 V
16 V
25 V
40 V
63 V
+ 20 °C
200
 160
120
90
70
 55
 45
- 25 °C
1200
 750
560
 400
300
 180
 130
- 40 °C
 3200
 2000
1500
1100
900
 500
 350
104
Z
(Ω)
100 V
102
Curve 1: 10 µF, 25 V, 4.5 mm x 11 mm
Curve 2: 22 µF, 25 V, 4.5 mm x 11 mm
Curve 3: 47 µF, 25 V, 6 mm x 11 mm
Curve 4: 100 µF, 25 V, 6.5 mm x 11 mm
Curve 5: 220 µF, 10 V, 6.5 mm x 11 mm
103
Z
(Ω)
Curve 1: 22 µF, 63 V, 8 mm x 11 mm
Curve 2: 47 µF, 40 V, 8 mm x 11 mm
Curve 3: 150 µF, 25 V, 8 mm x 18 mm
Curve 4: 330 µF, 16 V, 10 mm x 18 mm
Curve 5: 470 µF, 16 V, 10 mm x 25 mm
Curve 6: 1000 µF, 6.3 V, 10 mm x 25 mm
1
2
101
3
102
1
2
3
10
4
5
6
1
4
5
10-1
1
10-1
10-2
102
103
104
105
106
Tamb = 20 °C
Fig. 8 - Typical impedance as a function of frequency
Revision: 24-Apr-12
102
103
104
105
106
Tamb = 20 °C
Fig. 9 - Typical impedance as a function of frequency
Document Number: 28327
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RIPPLE CURRENT AND USEFUL LIFE
CCC205
CCC205
3.3
IA
3.2
IR
3.1
3.0
2.8
2.6
2.4
lifetime multiplier
2.2
0
1.
5
1.
2.0
0
2.
0
3.
1.8
0
4.
6
1.6
.0
10
1.4
15
IA = actual ripple current at 100 Hz
IR = rated ripple current at 100 Hz, 85 °C
(1)
Useful life at 85 °C and IR applied:
case Ø D x L = 4.5 mm x 10 mm to
10 mm x 25 mm: 3000 h
20
1.2
50
0.8
70
0.5
0.0
(1)
30
1.0
40
50
60
70
80
90
100
T amb (°C)
Fig. 10 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 4
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 6.3 V TO 10 V
UR = 16 V TO 25 V
UR = 40 V TO 100 V
50
0.95
0.90
0.85
100
1.00
1.00
1.00
300
1.07
1.12
1.20
1000
1.12
1.20
1.30
3000
1.15
1.25
1.35
 10 000
1.20
1.30
1.40
Revision: 24-Apr-12
Document Number: 28327
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Table 5
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
PROCEDURE
(quick reference)
REFERENCE
REQUIREMENTS
Case Ø D x L = 4.5 mm x 10 mm to 10 mm x 25 mm
UR  6.3 V; C/C: + 15 %/- 30 %
Endurance
IEC 384-4/
EN130 300
subclause 4.13
UR > 6.3 V; C/C: ± 15 %
Tamb = 85 °C; UR applied;
2000 h
tan   1.3 x spec. limit
Z  2 x spec. limit
IL  spec. limit
UR  6.3 V; C/C: + 45 %/- 50 %
UR > 6.3 V; C/C: ± 45 %
tan   3 x spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 85 °C; UR and IR applied;
3000 h
Z  3 x spec. limit
IL  spec. limit
no short or open circuit
total failure percentage:  1 %
Shelf life
(storage at
high temperature)
Revision: 24-Apr-12
IEC 384-4/
EN130300
subclause 4.17
Tamb = 85 °C; no voltage applied;
500 h
After test: UR to be applied for 30 min,
24 h to 48 h before measurement
C/C, tan , Z: 
for requirements
see “Endurance test” above
IL  2 x spec. limit
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Aluminum Capacitors
Axial Standard, High Voltage
FEATURES
• Useful life: 5000 h to 15 000 h at 85 °C
• High rated voltage: up to 450 V
• Taped versions up to case Ø 15 mm x 30 mm
available for automatic insertion
041/043 ASH
042/043
AMH-ELB 85 °C
AHH-ELB 105 °C
lighting
applications
low voltage
• Polarized aluminum electrolytic capacitors, non-solid
electrolyte
• Axial leads, cylindrical aluminum case, insulated with a
blue sleeve
• Mounting ring version not available in insulated form
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
021 ASM
138 AML
Fig. 1
APPLICATIONS
• General purpose, industrial, power supply, audio-video
QUICK REFERENCE DATA
• Smoothing, filtering, buffering at high voltages
DESCRIPTION
Nominal case sizes
(Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
• Boards with restricted mounting height, vibration and
shock resistant
Category temperature range
Endurance test at 85 °C
Useful life at 85 °C
Useful life at 40 °C
Shelf life at 0 V, 85 °C
Based on sectional
specification
Climatic category IEC 60068
VALUE
8 x 18
10 x 30
to 10 x 25
to 21 x 38
6.8 μF to 220 μF
-10 % to +50 %
160 V to 450 V
-40 °C to +85 °C
(450 V: -25 °C to +85 °C)
8000 h
2000 h
(450 V: 5000 h)
15 000 h
5000 h
(450 V: 10 000 h)
1.4 x IR
1.8 x IR applied:
240 000 h
applied:
120 000 h (450 V: 160 000 h)
500 h
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (T for -10 % to +50 %)
• Rated voltage (in V)
• Upper category temperature (85 °C)
• Date code, in accordance with IEC 60062
• Code indicating factory of origin
• Name of manufacturer
IEC 60384-4/EN130300
• Negative terminal identification
40/085/56 (450 V: 25/085/56)
• Series number (041, 042 or 043)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
6.8
10
15
22
33
47
68
100
150
220
Revision: 20-Aug-14
UR (V)
160
8 x 18
10 x 25
10 x 30
12.5 x 30
15 x 30
15 x 30
18 x 30
18 x 38
21 x 38
250
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
350
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
385
10 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
18 x 38
21 x 38
-
400
10 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
18 x 38
21 x 38
-
450
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
Document Number: 28329
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DIMENSIONS in millimeters AND AVAILABLE FORMS
73 ± 1.6
L
ØD
I
Ød
L
33 ± 1
Ød
ØD
F
F
Form BR: Taped on reel
Case Ø D x L = 8 mm x 18 mm to 15 mm x 30 mm
Form BA: Taped in box (ammopack)
Case Ø D x L = 8 mm x 18 mm to 10 mm x 25 mm
Form AA: Axial in box
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
Fig. 2 - Forms BA and BR
Fig. 3 - Form AA
Table 1
AXIAL; DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
AXIAL: FORM AA, BA, AND BR
CASE
CODE
Ød
l
Ø Dmax.
Lmax.
Fmin.
MASS
(g)
5
6
7
00
01
02
03
04
05
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
55 ± 1
55 ± 1
55 ± 1
55 ± 1
34 ± 1
34 ± 1
8.5
10.5
10.5
10.5
13.0
15.5
18.5
18.5
21.5
18.5
18.5
25.5
30.5
30.5
30.5
30.5
39.5
39.5
25
25
30
35
35
35
35
44
44
1.7
 2.5
 3.3
4.8
 7.4
 11.7
12.9
19.0
 24.0
PACKAGING QUANTITIES
FORM
FORM
FORM
AA
BA
BR
500
500
500
500
500
500
340
500
260
400
200
250
120
125
100
-
Note
• For detailed tape dimensions please refer to packaging information: www.vishay.com/doc?28361
D
120°
(3 x)
3.6
D3
90° ± 2°
(3 x)
1.3
+ 0.2
- 0.4
L
+ 0.03
1.05 - 0.1 (3 x)
0
(3 x)
1.3
- 0.05
+ 0.1(3 x)
0
Mounting holes
+ 1.0
1 - 0.5
Form MR:
Case Ø D x L = 15 mm x 30 mm to 21 mm x 38 mm
Especially for applications with severe shocks and vibrations
Ø d1
Ø D2
Fig. 4 - Mounting hole diagramm and outline. Form MR: with mounting ring and pins
Table 2
MOUNTING RING; DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
15 x 30
18 x 30
18 x 38
21 x 38
Revision: 20-Aug-14
MOUNTING RING: FORM MR
CASE
CODE
Ø d1
Ø d2
Ø Dmax.
Ø D2max.
D3
Lmax.
MASS
(g)
PACKAGING
QUANTITIES
02
03
04
05
0.8
0.8
0.8
0.8
1.0 + 0.4
1.0 + 0.4
1.0 + 0.4
1.0 + 0.4
15.5
18.5
18.5
21.5
17.5
19.5
19.5
22.5
16.5 ± 0.2
18.5 ± 0.2
18.5 ± 0.2
21.5 ± 0.2
33
33
42
42
 11.7
12.9
 19.0
 24.0
200
240
100
100
Document Number: 28329
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ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Electrolytic capacitor 041 series
DESCRIPTION
10 μF/250 V; -10 %/+50 %
CR
Rated capacitance at 100 Hz,
tolerance -10 % to +50 %
IR
Rated RMS ripple current at 100 Hz, 85 °C
IL1
Max. leakage current after 1 min at UR
IL5
Nominal case size: Ø 10 mm x 25 mm; Form BA
Max. leakage current after 5 min at UR
tan 
Max. dissipation factor at 100 Hz
ESR
Equivalent series resistance at 100 Hz
(calculated from tan max. and CR)
Z
Ordering code: MAL204133109E3
Former 12NC: 2222 041 33109
Max. impedance at 10 kHz
Note
• Unless otherwise specified, all electrical values in Table 3 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
ELECTRICAL DATA AND ORDERING INFORMATION
CR
UR
100 Hz
(V)
(μF)
160
250
350
385
NOMINAL
IR
IL1
CASE
IL5
ESR
Z
CASE 100 Hz
tan 
SIZE
1 min 5 min
100 Hz 10 kHz
CODE 85 °C
100 Hz
ØDxL
(μA) (μA)
()
()
(mA)
(mm)
ORDERING CODE MAL2..........
IN BOX
FORM AA
TAPED
ON REEL
FORM BR
TAPED
IN BOX
FORM BA
MOUNTING
RING
FORM MR
10
8 x 18
5
70
68
14
0.15
24
12
-
04121109E3
04131109E3
-
22
10 x 25
7
150
130
25
0.15
11
5.5
-
04121229E3
04131229E3
-
22
10 x 30
00
190
42
25
0.10
6.8
5.5
04211229E3
04221229E3
-
33
12.5 x 30
01
270
58
36
0.10
4.5
3.1
04211339E3
04221339E3
-
-
47
15 x 30
02
350
78
49
0.10
3.2
2.1
04211479E3
04221479E3
-
04241479E3
68
15 x 30
02
420
110
69
0.10
2.2
1.4
04211689E3
04221689E3
-
04241689E3
100
18 x 30
03
580
150
100
0.10
1.5
1.0
04211101E3
-
-
04241101E3
150
18 x 38
04
760
230
150
0.10
1.0
0.7
04311151E3
-
-
04341151E3
220
21 x 38
05
940
330
220
0.10
0.7
0.5
04311221E3
-
-
04341221E3
10
10 x 30
00
130
33
19
0.10
15
11
04213109E3
04223109E3
-
-
15
12.5 x 30
01
180
44
27
0.10
10
7.4
04213159E3
04223159E3
-
-
22
12.5 x 30
01
220
60
37
0.10
6.8
5.0
04213229E3
04223229E3
-
-
33
15 x 30
02
290
84
54
0.10
4.5
3.4
04213339E3
04223339E3
-
04243339E3
47
18 x 30
03
400
120
75
0.10
3.2
2.3
04213479E3
-
-
04243479E3
68
18 x 38
04
520
160
110
0.10
2.2
1.7
04313689E3
-
-
04343689E3
100
21 x 38
05
650
240
150
0.10
1.5
1.1
04313101E3
-
-
04343101E3
6.8
10 x 30
00
110
32
18
0.10
22
14
04215688E3
04225688E3
-
-
10
12.5 x 30
01
150
42
25
0.10
15
10
04215109E3
04225109E3
-
-
15
12.5 x 30
01
180
57
36
0.10
10
6.7
04215159E3
04225159E3
-
-
22
15 x 30
02
250
79
50
0.10
6.8
4.5
04215229E3
04225229E3
-
04245229E3
33
18 x 30
03
350
110
73
0.10
4.5
3.1
04215339E3
-
-
04245339E3
47
18 x 38
04
450
160
100
0.10
3.2
2.1
04315479E3
-
-
04345479E3
68
21 x 38
05
560
220
150
0.10
2.2
1.4
04315689E3
-
-
04345689E3
6.8
10 x 30
00
110
34
20
0.10
22
14
04218688E3
04228688E3
-
-
10
12.5 x 30
01
150
45
27
0.10
15
10
04218109E3
04228109E3
-
-
15
15 x 30
02
210
62
39
0.10
10
6.0
04218159E3
04228159E3
-
04248159E3
22
18 x 30
03
290
86
55
0.10
6.8
4.1
04218229E3
-
-
04248229E3
33
18 x 38
04
380
120
80
0.10
4.5
2.7
04318339E3
-
-
04348339E3
47
18 x 38
04
450
170
110
0.10
3.2
2.1
04318479E3
-
-
04348479E3
68
21 x 38
05
570
250
160
0.10
2.2
1.4
04318689E3
-
-
04348689E3
Revision: 20-Aug-14
Document Number: 28329
250
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ELECTRICAL DATA AND ORDERING INFORMATION
CR
UR
100 Hz
(V)
(μF)
400
450
6.8
10
15
22
33
47
68
6.8
10
15
22
33
47
68
NOMINAL
IR
CASE
IL1
IL5
ESR
Z
CASE 100 Hz
tan 
SIZE
1 min 5 min
100 Hz 10 kHz
CODE 85 °C
100 Hz
ØDxL
(μA) (μA)
()
()
(mA)
(mm)
10 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
18 x 38
21 x 38
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
00
01
02
03
04
04
05
00
01
01
02
03
04
05
110
150
210
290
380
450
560
110
150
180
240
350
440
550
220
240
250
280
320
370
440
230
240
260
290
330
390
460
110
110
110
120
130
140
150
110
110
110
120
130
140
160
0.055
0.055
0.055
0.055
0.055
0.055
0.055
0.10
0.10
0.10
0.10
0.10
0.10
0.10
11.5
7.5
5.0
3.5
2.3
1.7
1.2
22
15
10
6.8
4.5
3.2
2.2
7.3
4.6
3.1
2.1
1.4
1.1
0.7
14
10
6.0
4.1
2.7
2.1
1.4
ORDERING CODE MAL2..........
IN BOX
FORM AA
TAPED
ON REEL
FORM BR
TAPED
IN BOX
FORM BA
MOUNTING
RING
FORM MR
04216688E3
04216109E3
04216159E3
04216229E3
04316339E3
04316479E3
04316689E3
04217688E3
04217109E3
04217159E3
04217229E3
04217339E3
04317479E3
04317689E3
04226688E3
04226109E3
04226159E3
04227688E3
04227109E3
04227159E3
04227229E3
-
-
04246159E3
04246229E3
04346339E3
04346479E3
04346689E3
04247229E3
04247339E3
04347479E3
04347689E3
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
AXIAL
MOUNTING RING
Voltage
Surge voltage
Us  1.15 x UR
Us  1.1 x UR
Urev  1 V
UR = 160 V to 250 V
UR = 350 V to 450 V
Reverse voltage
Current
Leakage current
After 1 min:
case Ø D x L = 8 mm x 18 mm to 10 mm x 25 mm:
CV  1000 μC
CV  1000 μC
case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm:
UR = 160 V to 385 V
UR = 400 V and 450 V
After 5 min:
UR = 160 V to 385 V:
CV  1000 μC
CV  1000 μC
UR = 400 V and 450 V
IL1  0.05 CR x UR or 5 μA, whichever is greater
IL1  0.03 CR x UR + 20 μA
IL1  0.009 CR x UR + 10 μA
IL1  0.009 CR x UR + 200 μA
IL5  0.01 CR x UR or 1 μA, whichever is greater
IL5  0.006 CR x UR + 4 μA
IL5  0.002 CR x UR + 100 μA
Inductance
Equivalent series
inductance (ESL)
Revision: 20-Aug-14
Case Ø D x L mm:
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
Typ. 35 nH
Typ. 69 nH
Typ. 38 nH
Typ. 38 nH
Typ. 46 nH
Typ. 48 nH
Typ. 50 nH
Typ. 54 nH
Typ. 59 nH
Typ. 39 nH
Typ. 39 nH
Typ. 39 nH
Typ. 39 nH
Document Number: 28329
251
For technical questions, contact: [email protected]
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
041 ASH, 042 ASH, 043 ASH
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Vishay BCcomponents
CAPACITANCE (C)
1.2
C
C0
1.1
1.0
0.9
0.8
- 40
- 20
0
20
40
60
C0 = Capacitance at 20 °C, 100 Hz
80
100
Tamb (°C)
Fig. 5 - Typical multiplier of capacitance as a function of ambient temperature
EQUIVALENT SERIES RESISTANCE (ESR)
102
1.6
ESR
ESR 0
2
1.4
1
1.2
3
1
2
10
1.0
0.8
1
0.6
2
1
0.4
Curve 1: Case Ø D x L = 10 mm x 30 mm to 21 mm to 38 mm
Curve 2: Case Ø D x L = 8 mm x 18 mm to 10 mm to 25 mm
0.2
10 -1
3
Curve 1: Case Ø D x L = 10 mm x 30 mm
Curve 2: Case Ø D x L = 21 mm x 38 mm
Curve 3: Case Ø D x L = 8 mm x 18 mm to 10 mm x 25 mm
0
0
- 50
50
ESR0 = Typical at 20 °C, 100 Hz
Fig. 6 - Typical multiplier of ESR
as a function of ambient temperature
Revision: 20-Aug-14
100
Tamb (°C)
10 2
103
10 4
10 5
f (Hz)
10 6
ESR0 = Typical at 20 °C, 100 Hz
Fig. 7 - Typical multiplier of ESR as a function of frequency
Document Number: 28329
252
For technical questions, contact: [email protected]
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
041 ASH, 042 ASH, 043 ASH
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Vishay BCcomponents
IMPEDANCE (Z)
103
102
Z
(Ω)
2
Z
(Ω)
1
102
10
10 µF
10
1
Curve 1: Case Ø D x L = 10 mm x 30 mm to 21 mm to 38 mm
Curve 2: Case Ø D x L = 8 mm x 18 mm to 10 mm to 25 mm
10
-1
1
- 50
0
50
10 2
100
Z0 = Impedance at 20 °C, 100 Hz
Tamb (°C)
103
10 4
10 5
10 6
Tamb (°C)
Case Ø D x L = 8 mm x 18 mm
Fig. 8 - Typical impedance of capacitance
as a function of ambient temperature
f (Hz)
Fig. 9 - Typical impedance as a function of frequency
103
103
Curve 1: 10 µF
Curve 2: 22 µF
Z
(Ω)
102
102
1
2
3
1
10
2
4
5
6
7
8
9
10
1
10-1
1
10 2
103
10 4
Case Ø D x L = 10 mm x 18 mm to 10 mm x 25 mm
10 5
f (Hz)
10 6
Tamb (20 °C)
Fig. 10 - Typical impedance as a function of frequency
10 2
103
10 4
10 5
f (Hz)
10 6
Case Ø D x L = 12.5 mm x 30 mm
Fig. 11 - Typical impedance as a function of frequency
at different ambient tempertures
Curve 1: 10 µF, 350 V and 385 V; - 40 °C
Curve 2: 15 µF, 250 V; - 40 °C
Curve 3: 33 µF, 160 V; - 40 °C
Curve 4: 10 µF, 350 V and 385 V; 20 °C
Curve 5: 15 µF, 250 V; 20 °C
Curve 6: 33 µF, 160 V; 20 °C
Curve 7: 10 µF, 350 V and 385 V; 85 °C
Curve 8: 15 µF, 250 V; 85 °C
Curve 9: 33 µF, 160 V; 85 °C
Revision: 20-Aug-14
Document Number: 28329
253
For technical questions, contact: [email protected]
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
041 ASH, 042 ASH, 043 ASH
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Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
CCC205
3.3
IA
3.2
IR
3.1
3.0
2.8
2.6
2.4
Lifetime multiplier
2.2
1.
0
1.
2.0
5
2.
0
3.
1.8
0
4.
6
.0
10
15
1.2
20
1.4
(1)
70
0.5
0.0
(1)
30
1.0
0.8
50
Useful life at 85 °C and IR applied;
Case Ø D x L = 8 mm x 18 mm to
10 mm x 25 mm: 5000 h
Case Ø D x L = 8 mm x 18 mm to
10 mm x 25 mm: 5000 h
(450 V: 10 000 h)
0
1.6
IA = Actual ripple current at 100 Hz
IR = Rated ripple at 100 Hz, 85 °C
40
50
60
70
80
90
100
Tamb (°C)
Fig. 12 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 3
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
Revision: 20-Aug-14
IR MULTIPLIER
50
0.75
100
1.00
300
1.15
1000
1.30
3000
1.40
 10 000
1.50
Document Number: 28329
254
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
041 ASH, 042 ASH, 043 ASH
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Vishay BCcomponents
Table 4
TEST PROCEDURE REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
REQUIREMENTS
IEC 60384-4/
EN130300
subclause 4.13
Tamb = 85 °C; UR applied;
Case Ø D x L:
8 mm x 18 mm to 10 mm x 25 mm: 
2000 h;
10 mm x 30 mm to 21 mm x 38 mm:
8000 h (450 V: 5000 h)
UR = 160 V; C/C: ± 15 %
UR = 250 V to 450 V; C/C: ± 10 %
tan  1.3 x spec. limit
Z  2 x spec. limit
IL5  spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 85 °C; UR and IR applied;
Case Ø D x L:
8 mm x 18 mm to 10 mm x 25 mm: 
5000 h;
10 mm x 30 mm to 21 mm x 38 mm:
15 000 h (450 V: 10 000 h)
UR = 160 V; C/C: ± 45 %
UR = 250 V to 450 V; C/C: ± 30 %
tan  3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
No short or open circuit
Total failure percentage: 3 %
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN130300
subclause 4.17
Tamb = 85 °C; no voltage applied;
500 h
After test: UR to be applied for 30 min,
24 h to 48 h before measurement
C/C, tan , Z: 
for requirements 
see “Endurance test” above
IL5  2 x spec. limit
Endurance
Revision: 20-Aug-14
Document Number: 28329
255
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
042 AMH-ELB, 043 AMH-ELB
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Vishay BCcomponents
Aluminum Capacitors
Axial Miniature High Voltage for E.L.B.
FEATURES
041-043 ASH
042/043
AMH-ELB
standard
HV
042/043
AHH-ELB
105 °C
Fig. 1
• Useful life: 20 000 h at + 85 °C
• Stable under overvoltage conditions:
550 V for 24 h at 85 °C
• High ripple current capability
• Smallest dimensions
• Taped versions up to case Ø 15 mm x 30 mm available for
automatic insertion
• Polarized aluminum electrolytic capacitors, non-solid
electrolyte
• Axial leads, cylindrical aluminum case, insulated with a
blue sleeve
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
QUICK REFERENCE DATA
DESCRIPTION
VALUE
Nominal case sizes (Ø D x L in mm)
12.5 x 30 to 18 x 38
Rated capacitance range, CR
6.8 μF to 33 μF
Tolerance on CR
- 10 % to + 50 %
Rated voltage, UR
450 V
Category temperature range
- 25 °C to + 85 °C
Endurance test at 85 °C
8000 h
Useful life at 85 °C
20 000 h
Useful life at 70 °C, IR applied
100 000 h
Shelf life at 0 V, 85 °C
500 h
Based on sectional specification
IEC 60384-4/EN130300
Climatic category IEC 60068
25/085/56
• Electronic lighting ballast, power supply
• Smoothing, filtering, buffering at high voltages
• Boards with restricted mounting height, vibration and
shock resistant
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (T for - 10 % to + 50 %)
• Rated voltage (in V)
• Upper category temperature (85 °C)
• Date code in accordance with IEC 60062
• Code for factory of origin
• Name of manufacturer
• Negative terminal identification
• Series number (042 or 043)
DIMENSIONS in millimeters AND AVAILABLE FORMS
I
73 ± 1.6
ØD
L
33 ± 1
L
Ød
Ød
ØD
F
F
Form BR: Taped on reel
Case Ø D x L = 6.5 mm x 18 mm to 15 mm x 30 mm
Fig. 2 - Form BR
Revision: 01-Aug-12
Form AA: Axial in box
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
Fig. 3 - Form AA
Document Number: 28330
256
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042 AMH-ELB, 043 AMH-ELB
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Vishay BCcomponents
Table 1
AXIAL; DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
(mm)
CASE
CODE
AXIAL: FORM AA AND BR
Ød
l
Ø Dmax.
Lmax.
Fmin.
MASS
(g)
PACKAGING QUANTITIES
12.5 x 30
01
0.8
55 ± 1
13.0
30.5
35
 6.1
260
400
15 x 30
02
0.8
55 ± 1
15.5
30.5
35
8.3
200
250
FORM
AA
FORM
BR
18 x 30
03
0.8
55 ± 1
18.5
30.5
35
 11.6
120
-
18 x 38
04
0.8
34 ± 1
18.5
39.5
44
16.0
125
-
Note
• For detailed tape dimensions please refer to packaging information: www.vishay.com/doc?28361
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
CR
IR
IL5
ESR
Z
Electrolytic capacitor 042 series
DESCRIPTION
Rated capacitance at 100 Hz, 
tolerance - 10 %/+ 50 %
Rated RMS ripple current at 10 kHz, 85 °C
Max. leakage current after 5 min at UR
Typ./max. equivalent series resistance at 100 Hz
Typ./max. impedance at 10 kHz
10 μF/450 V; - 10 %/+ 50 %
Nominal case size: Ø 12.5 mm x 30 mm; Form BR
Ordering code: MAL204282109E3
Former 12NC: 2222 042 82109
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
10 kHz
85 °C
(mA)
IL5
5 min
(μA)
ESR
TYP.
100 Hz
()
ESR
MAX.
100 Hz
()
Z
TYP.
10 kHz
()
Z
MAX.
10 kHz
()
450
6.8
10
15
22
33
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
540
710
910
1 190
1 610
106
110
115
120
130
3.8
2.6
1.7
1.1
0.8
8.3
5.6
3.7
2.4
1.7
2.8
1.8
1.2
0.9
0.6
4.8
3.1
2.1
1.4
1.0
ORDERING CODE MAL2..........
AXIAL
IN BOX
TAPED ON REEL
FORM AA
FORM BR
04281688E3
04282688E3
04281109E3
04282109E3
04281159E3
04282159E3
04281229E3
04381339E3
-
ADDITIONAL ELECTRICAL DATA
PARAMETER
Voltage
Surge voltage
Overvoltage test
Reverse voltage
Current
Leakage current
CONDITIONS
VALUE
UR = 450 V
24 h at 85 °C
Us  550 V
550 V (1)
Urev  1 V
After 1 min
After 5 min
IL1  0.009 x CR x UR + 200 μA
IL5  0.002 x CR x UR + 100 μA
Case Ø D x L in mm:
12.5 x 30
15 x 30
18 x 30
18 x 38
Typ. 46 nH
Typ. 48 nH
Typ. 50 nH
Typ. 54 nH
Inductance
Equivalent series inductance
Note
(1) Test conditions on request.
Revision: 01-Aug-12
Document Number: 28330
257
For technical questions, contact: [email protected]
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042 AMH-ELB, 043 AMH-ELB
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Vishay BCcomponents
CAPACITANCE (C)
1.1
C
C0
1.0
0.9
0.8
0.7
- 40
- 20
0
20
40
60
80
100
Tamb = 20 °C
C0 = Capacitance at 20 °C, 100 Hz
Fig. 4 - Typical multiplier of capacitance as a function
of ambient temperature
EQUIVALENT SERIES RESISTANCE (ESR)
10 2
10
Curve 1: Tamb = 20 °C
Curve 2: Tamb = 40 °C
Curve 3: Tamb = 60 °C
Curve 4: Tamb = 85 °C
ESR
ESR0
Curve 1: f = 100 kHz
Curve 2: f = 1 kHz
Curve 3: f = 10 kHz
ESR
ESR 0
1
10
1
2
3
10
4
-1
1
1
2
10
-2
10
102
10
103
104
f (Hz)
105
ESR0 = Typical at 20 °C, 100 Hz
3
-1
- 40
- 20
0
20
40
80
60
Fig. 5 - Typical multiplier of ESR as a function of frequency
at different ambient temperatures
100
Tamb (°C)
ESR0 = Typical at 20 °C, 100 Hz
Fig. 6 - Typical multiplier of ESR as a function of
ambient temperature at different frequencies
IMPEDANCE (Z)
10 3
102
Curve 1: 10 μF,
case Ø D x L = 12.5 mm x 30 mm
Curve 2: 15 μF,
case Ø D x L = 15 mm x 30 mm
Curve 3: 22 μF,
case Ø D x L = 18 mm x 30 mm
Curve 4: 33 μF,
case Ø D x L = 18 mm x 38 mm
1
2
3
4
Z
(Ω)
10 2
10
10
1
1
10
-1
10 −1
- 40
- 20
0
20
Z0 = Impedance at 20 °C, 10 Hz
40
60
80
100
Tamb (°C)
Fig. 7 - Typical multiplier of impedance as a function
of ambient temperature
Revision: 01-Aug-12
120
10
10 2
10 3
10 4
105
6
f (Hz) 10
Tamb = 20 °C
Fig. 8 - Typical impedance as a function of frequency
Document Number: 28330
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RIPPLE CURRENT AND USEFUL LIFE
CCB886
3.0
IA
IR
Lifetime multiplier
2.0
1.0
2.0
5.0
10
(1)
1.0
0.0
40
50
60
70
80
IA = Actual ripple current at 10 kHz
IR =
(1)
90
100
Tamb = 20 °C
Rated ripple current at 10 kHz, 85 °C
Useful life at 85 °C and IR applied: 20 000 h
Fig. 9 - Multiplier of useful life as a function of ambient temperature
and ripple current load
Table 3
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
IR MULTIPLIER
50
0.22
100
0.30
300
0.49
1000
0.72
3000
0.89
10 000
1.00
Note
• Formula (1) should be used to calculate the actual ripple current at 10 kHz (see Fig. 9) when multiple frequencies are present. For an example
of the values 100 Hz and 50 kHz: 

I  100 Hz  2
I  50 kHz  2
(1)
I A =  --------------------------- +  ---------------------------
 0.30 


1.0
Table 4
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/
EN130300
subclause 4.13
Useful life
CECC 30301
subclause 1.8.1
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN130300
subclause 4.17
Revision: 01-Aug-12
PROCEDURE
(quick reference)
Tamb = 85 °C; UR applied; 
8000 h
Tamb = 85 °C; UR and IR applied; 
20 000 h
Tamb = 85 °C; no voltage applied;
500 h after test: UR to be applied for 30 min,
24 h to 48 h before measurement
REQUIREMENTS
C/C: ± 10 %
tan  1.3 x spec. limit
Z  2 x spec. limit
IL5  spec. limit
C/C: ± 30 %
tan  3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
No short or open circuit
Total failure percentage: 3 %
C/C, tan , Z: 
For requirements
see “Endurance test” above 
IL5  2 x spec. limit
Document Number: 28330
259
For technical questions, contact: [email protected]
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
042 AHH-ELB, 043 AHH-ELB
www.vishay.com
Vishay BCcomponents
Aluminum Capacitors
Axial High Temperature High Voltage for E.L.B.
FEATURES
041-043
ASH
042/043 AHH-ELB
550 V/24 h
standard
042/043 AMH-ELB
550 V/24 h
85 °C
Fig. 1
• Useful life: 10 000 h at 105 °C
• Stable under overvoltage conditions:
550 V for 24 h at 85 °C
• High ripple current capability
• Smallest dimensions
• Taped versions up to case Ø 15 mm x 30 mm available for
automatic insertion
• Polarized aluminum electrolytic capacitors, non-solid
electrolyte
• Axial leads, cylindrical aluminum case, insulated with a
blue sleeve
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
QUICK REFERENCE DATA
DESCRIPTION
VALUE
Nominal case sizes (Ø D x L in mm)
12.5 x 30 to 18 x 38
Rated capacitance range, CR
6.8 μF to 33 μF
Tolerance on CR
- 10 % to + 50 %
Rated voltage, UR
450 V
Category temperature range
- 25 °C to + 105 °C
Endurance test at 105 °C
5000 h
Useful life at 105 °C
10 000 h
Useful life at 85 °C IR applied
100 000 h
Shelf life at 0 V, 105 °C
500 h
Based on sectional specification
IEC 60384-4/EN130300
Climatic category IEC 60068
25/105/56
• Electronic lighting ballast, power supply
• Smoothing, filtering, buffering at high voltages
• Boards with restricted mounting height, vibration and
shock resistant
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (T for - 10 % to + 50 %)
• Rated voltage (in V)
• Upper category temperature (105 °C)
• Date code, in accordance with IEC 60062
• Code for factory of origin
• Name of manufacturer
• Negative terminal identification
• Series number (042 or 043)
DIMENSIONS in millimeters AND AVAILABLE FORMS
I
73 ± 1.6
ØD
L
33 ± 1
L
Ød
Ød
ØD
F
F
Form BR: Taped on reel
Case Ø D x L = 6.5 mm x 18 mm to 15 mm x 30 mm
Fig. 2 - Form BR
Revision: 12-Apr-13
Form AA: Axial in box
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
Fig. 3 - Form AA
Document Number: 28331
260
For technical questions, contact: [email protected]
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
042 AHH-ELB, 043 AHH-ELB
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Vishay BCcomponents
Table 1
AXIAL; DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
AXIAL: FORM AA AND BR
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
ØD
L
Ø Dmax.
Lmax.
Fmin.
MASS
(g)
12.5 x 30
15 x 30
18 x 30
18 x 38
01
02
03
04
0.8
0.8
0.8
0.8
55 ± 1
55 ± 1
55 ± 1
34 ± 1
13.0
15.5
18.5
18.5
30.5
30.5
30.5
39.5
35
35
35
44
6.1
8.3
11.6
 16.0
PACKAGING QUANTITIES
FORM
FORM
AA
BR
260
400
200
250
120
125
-
Note
• For detailed tape dimensions please refer to packaging information: www.vishay.com/doc?28361
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
CR
IR
IL5
ESR
Z
Electrolytic capacitor 042 series
DESCRIPTION
Rated capacitance at 100 Hz, 
tolerance - 10 %/+ 50 %
Rated RMS ripple current at 10 kHz, 105 °C
Max. leakage current after 5 min at UR
Typ./max. equivalent series resistance at 100 Hz
Typ./max. impedance at 10 kHz
10 μF/450 V; - 10 %/+ 50 %
Nominal case size: Ø 12.5 mm x 30 mm; Form BR
Ordering code: MAL204272109E3
Former 12NC: 2222 042 72109
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
10 kHz
105 °C
(mA)
IL5
5 min
(μA)
ESR
TYP.
100 Hz
()
ESR
MAX.
100 Hz
()
Z
TYP.
10 kHz
()
Z
MAX.
10 kHz
()
450
6.8
10
15
22
33
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
390
470
600
750
1020
106
110
115
120
130
4.2
2.9
1.9
1.2
0.9
8.7
5.9
3.9
2.5
1.8
3.1
2.0
1.3
1.0
0.7
5.1
3.3
2.3
1.5
1.1
ORDERING CODE MAL2..........
AXIAL
IN BOX
TAPED ON REEL
FORM AA
FORM BR
04271688E3
04272688E3
04271109E3
04272109E3
04271159E3
04272159E3
04271229E3
04371339E3
-
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
UR = 450 V
24 h at 85 °C
Us  550 V
550 V (1)
Urev  1 V
After 1 min
After 5 min
IL1  0.009 x CR x UR + 200 μA
IL5  0.002 x CR x UR + 100 μA
Case Ø D x L in mm:
12.5 x 30
15 x 30
18 x 30
18 x 38
Typ. 46 nH
Typ. 48 nH
Typ. 50 nH
Typ. 54 nH
Voltage
Surge voltage
Overvoltage test
Reverse voltage
Current
Leakage current
Inductance
Equivalent series inductance
Note
(1) Test conditions on request.
Revision: 12-Apr-13
Document Number: 28331
261
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Vishay BCcomponents
CAPACITANCE (C)
1.1
C
C0
1.0
0.9
0.8
0.7
- 40
- 20
0
20
40
60
80
100
120
Tamb (°C)
C0 = Capacitance at 20 °C, 100 Hz
Fig. 4 - Typical multiplier of capacitance as a function
of ambient temperature
EQUIVALENT SERIES RESISTANCE (ESR)
10 2
102
Curve 1: 100 Hz
Curve 2: 1 kHz
Curve 3: 10 kHz
ESR
ESR0
Curve 1: Tamb = 20 °C
Curve 2: Tamb = 40 °C
Curve 3: Tamb = 60 °C
Curve 4: Tamb = 85 °C
Curve 5: Tamb = 105 °C
ESR
ESR0
10
10
1
2
1
3
4
1
1
5
2
10
3
-1
- 40
- 20
0
20
40
60
80
100
-1
10
Tamb (°C)
ESR0 = Typical at 20 °C, 100 Hz
102
10
120
103
104
f (Hz)
105
ESR0 = Typical at 20 °C, 100 Hz
Fig. 5 - Typical multiplier of ESR as a function of
ambient temperature at different frequencies
Fig. 6 - Typical multiplier of ESR as a function of frequency
at different ambient temperatures
10 3
102
Curve 1: 10 µF,
Case Ø D x L = 12.5 mm x 30 mm
Curve 2: 15 µF,
Case Ø D x L = 15 mm x 30 mm
Curve 3: 22 µF,
Case Ø D x L = 18 mm x 30 mm
Curve 4: 33 µF,
Case Ø D x L = 18 mm x 38 mm
1
2
3
4
Z
(Ω)
10 2
10
10
1
1
10
10 −1
-1
- 40
- 20
0
20
Z0 = Impedance at 20 °C, 100 Hz
40
60
80
100
Tamb (°C)
Fig. 7 - Typical multiplier of impedance as a function
of ambient temperature
Revision: 12-Apr-13
120
10
10 2
10 3
10 4
105
6
f (Hz) 10
Tamb = 20 °C
Fig. 8 - Typical impedance as a function of frequency
Document Number: 28331
262
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Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
CCC122
6
IA
IR
5
4
Lifetime multiplier
1.0
2.0
5.0
10
3
2
(1)
1
0
40
50
60
70
80
90
100
IA = Actual ripple current at 10 kHz
110
120
Tamb = 20 °C
IR = Rated ripple current at 10 kHz, 105 °C
(1)
Useful life at 105 °C and IR applied: 10 000 h
Fig. 9 - Multiplier of useful life as a function of ambient temperature
and ripple current load
Table 3
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
50
100
300
1000
3000
10 000
IR MULTIPLIER
0.20
0.27
0.45
0.68
0.82
1.00
Note
• Formula (1) should be used to calculate the actual ripple current at 10 kHz (see Fig. 9) when multiple frequencies are present. For an example
of the values 100 Hz and 50 kHz:

I  100 Hz  2
I  50 kHz  2
(1)
I A =  --------------------------- +  ---------------------------
 0.27 


1.0
Table 4
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
Endurance
IEC 60384-4/
EN130300
subclause 4.13
Tamb = 105 °C; UR applied;
5000 h
Useful life
CECC 30301
subclause 1.8.1
Tamb = 105 °C; UR and IR applied;
10 000 h
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN130300
subclause 4.17
Tamb = 105 °C; no voltage applied;
500 h
After test: UR to be applied for 30 min, 
24 h to 48 h before measurement
Revision: 12-Apr-13
REQUIREMENTS
C/C: ± 10 %
tan  1.3 x spec. limit
Z  2 x spec. limit
IL5  spec. limit
C/C: ± 30 %
tan  3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
No short or open circuit
Total failure percentage:  3 %
C/C, tan , Z: 
For requirements
see ‘Endurance test’ above
IL5  2 x spec. limit
Document Number: 28331
263
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
138 AML
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Vishay BCcomponents
Aluminum Capacitors
Axial Miniature, Long-Life
FEATURES
• Polarized aluminum
non-solid electrolyte
electrolytic
capacitors,
• Axial leads, cylindrical aluminum case, insulated
with a blue sleeve 
(case Ø 6.3 mm x 12.7 mm and 7.7 mm x 12.7 mm are
molded with flame retardant plastic material)
• Mounting ring version not available in insulated form
• Taped versions up to case Ø 15 mm x 30 mm available for
automatic insertion
• Charge and discharge proof
021 ASM
smaller
dimensions
118 AHT
120 AT C
longer
life
138 AML
• Long useful life: 2000 h to 10 000 h at 105 °C, high
reliability
• High ripple current capability
• Miniaturized, high CV-product per unit volume
Fig. 1
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes 
(Ø D x L in mm)
Rated capacitance range, CR
6.3 x 12.7
to 10 x 25
Category temperature range
10 x 30
to 21 x 38
2.2 μF to 15 000 μF
± 20 %
Tolerance on CR
Rated voltage range, UR
APPLICATIONS
VALUE
6.3 V to 100 V
-40 °C to +105 °C
Endurance test at 105 °C
1000 h
5000 h
Useful life at 105 °C
2000 h
10 000 h
Useful life at 40 °C, 
IR applied
Shelf life at 0 V, 105 °C
Based on sectional
specification
Climatic category IEC 60068
Revision: 13-Oct-14
1.3 x IR applied: 1.8 x IR applied:
200 000 h
500 000 h
500 h
IEC 60384-4/EN130 300
40/105/56
• Industrial, automotive, EDP and telecommunication
• Smoothing, filtering, buffering in SMPS; coupling,
decoupling, timing
• Portable and mobile equipment (small size, low mass)
• Stand-by applications
• Low mounting height boards, vibration and shock
resistant
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Upper category temperature (105 °C)
• Date code, in accordance with IEC 60062
• Code for factory of origin
• Name of manufacturer
• Negative terminal identification
• Series number (138)
Document Number: 28332
264
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
138 AML
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Vishay BCcomponents
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
2.2
4.7
10
22
33
47
68
100
150
220
330
470
680
1000
1500
2200
3300
4700
6800
10 000
15 000
6.3
6.3 x 12.7
7.7 x 12.7
6.5 x 18
10 x 18
10 x 25
-
10
7.7 x 12.7
6.5 x 18
8 x 18
10 x 25
10 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
18 x 38
21 x 38
16
6.3 x 12.7
6.3 x 12.7
7.7 x 12.7
8 x 18
10 x 18
10 x 30
12.5 x 30
15 x 30
18 x 30
18 x 30
18 x 38
21 x 38
-
UR (V)
25
40
6.3 x 12.7
6.3 x 12.7
6.3 x 12.7
7.7 x 12.7
7.7 x 12.7
6.5 x 18
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
10 x 25
12.5 x 30
10 x 30
12.5 x 30
12.5 x 30
15 x 30
15 x 30
18 x 30
18 x 30
18 x 38
18 x 38
21 x 38
18 x 38
21 x 38
-
50
6.3 x 12.7
7.7 x 12.7
10 x 18
-
63
6.3 x 12.7
7.7 x 12.7
6.5 x 18
8 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
100
6.3 x 12.7
7.7 x 12.7
6.5 x 18
8 x 18
10 x 25
10 x 30
12.5 x 30
15 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
DIMENSIONS in millimeters AND AVAILABLE FORMS
63.5 ± 1.5
ØD
73 ± 1.6
ØD
L
Ød
L
Ød
+
F
F
Form BR: Taped on reel
Case Ø D x L = 6.5 mm x 18 mm to 15 mm x 30 mm
Form BR: Taped on reel
Form BA: Taped in box (ammopack)
Case Ø D x L = 6.3 mm x 12.7 mm to 7.7 mm x 12.7 mm
Form BA: Taped in box (ammopack)
Case Ø D x L = 6.5 mm x 18 mm to 10 mm x 25 mm
Fig. 2 - Forms BA and BR
Fig. 3 - Forms BA and BR
I
L
33 ± 1
Ød
ØD
F
Form AA: Axial in box
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
Fig. 4 - Form AA
Revision: 13-Oct-14
Document Number: 28332
265
For technical questions, contact: [email protected]
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
138 AML
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Vishay BCcomponents
Table 1
AXIAL; DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
(mm)
CASE
CODE
AXIAL: FORM AA, BA, AND BR
Ød
I
Ø Dmax.
Lmax.
Fmin.
MASS
(g)
PACKAGING QUANTITIES
6.3 x 12.7
(2)
0.6
-
6.5
12.9
17.5
7.7 x 12.7
(3)
0.6
-
7.9
12.9
17.5
6.5 x 18
4
0.8
-
6.9
18.5
25
FORM
AA
FORM
BA
FORM
BR
 1.1
-
1000
1000
1.3
-
500
500
1.3
-
1000
1000
8 x 18
5
0.8
-
8.5
18.5
25
1.7
-
500
500
10 x 18
6
0.8
-
10.5
18.5
25
2.5
-
500
500
10 x 25
7
0.8
-
10.5
25.5
30
 3.3
-
500
500
10 x 30
00
0.8
55 ± 1
10.5
30.5
35
4.8
340
-
500
12.5 x 30
01
0.8
55 ± 1
13.0
30.5
35
 7.4
260
-
400
15 x 30
02
0.8
55 ± 1
15.5
30.5
35
 11.7
200
-
250
18 x 30
03
0.8
55 ± 1
18.5
30.5
35
12.9
120
-
-
18 x 38
04
0.8
34 ± 1
18.5
39.5
44
 19.0
125
-
-
21 x 38
05
0.8
34 ± 1
21.5
39.5
44
 24.0
100
-
-
Note
• For detailed tape dimensions refer to packaging information: www.vishay.com/doc?28361
D
120 °C
(3 x)
3.6 + 0.2
- 0.2
D3
90° ± 2°
(3 x)
-
L
1.05 + 0.03 (3 x)
- 0.1
1.3 + 0
(3 x)
- 0.05
d2
1.3 + 0.1 (3 x)
0
+ 1.0
1 - 0.5
Mounting holes
Ø d1
Case Ø D x L = 15 mm x 30 mm to 21 mm x 38 mm
Especially for applications with severe shocks and vibrations
Ø D2
Fig. 5 - Mounting hole diagram and outline; Form MR: with mounting ring and pins
Table 2
MOUNTING RING; DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
MOUNTING RING: FORM MR
Ø d1
Ø d2
Dmax.
Ø D2max.
D3
Lmax.
MASS
(g)
PACKAGING
QUANTITIES
15 x 30
02
0.8
1.0 + 0.4
15.5
17.5
16.5 ± 0.2
33
11.7
200
18 x 30
03
0.8
1.0 + 0.4
18.5
19.5
18.5 ± 0.2
33
 12.9
240
18 x 38
04
0.8
1.0 + 0.4
18.5
19.5
18.5 ± 0.2
42
 19.0
100
21 x 38
05
0.8
1.0 + 0.4
21.5
22.5
21.5 ± 0.2
42
24.0
100
Revision: 13-Oct-14
Document Number: 28332
266
For technical questions, contact: [email protected]
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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Vishay BCcomponents
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
Electrolytic capacitor 138 series
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
470 μF/10 V; ± 20 %
IR
Rated RMS ripple current at 100 Hz, 105 C
Nominal case size: Ø 8 mm x 18 mm; Form BA
IL5
Max. leakage current after 5 min at UR
Ordering code: MAL213834471E3
Former 12 NC: 2222 138 34471
tan 
Max. dissipation factor at 100 Hz
ESR
Equivalent series resistance at 100 Hz 
(calculated from tan max. and CR)
Z
Max. impedance at 10 kHz or 100 kHz
Note
• Unless otherwise specified, all electrical values in Table 3 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 3
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
ORDERING CODE MAL2138.......
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 Hz
105 °C
(mA)
IL5
5 min
(μA)
tan 
100 Hz
ESR
100 Hz
()
Z
10 kHz
()
Z
100 kHz
()
IN BOX
FORM AA
TAPED
ON REEL
FORM BR
TAPED
IN BOX
FORM BA
MOUNTING
RING
FORM MR
100
6.3 x 12.7
99
5.3
0.24
3.800
3.000
1.800
-
23101E3
33101E3
-
220
7.7 x 12.7
160
6.8
0.24
1.700
1.400
0.950
-
23221E3
33221E3
-
470
6.5 x 18
250
9.9
0.24
0.810
0.640
0.500
-
23471E3
33471E3
-
1000
10 x 18
430
17
0.24
0.380
0.300
0.240
-
23102E3
33102E3
-
2200
10 x 25
640
32
0.29
0.210
0.180
0.150
-
23222E3
33222E3
-
150
7.7 x 12.7
140
7.0
0.2
2.100
1.300
0.950
-
24151E3
34151E3
-
220
6.5 x 18
190
8.4
0.2
1.400
0.910
0.500
-
24221E3
34221E3
-
470
8 x 18
300
13
0.2
0.680
0.430
0.350
-
24471E3
34471E3
-
1000
10 x 25
520
24
0.2
0.320
0.200
0.160
-
24102E3
34102E3
-
1500
10 x 30
670
34
0.28
0.320
0.260
0.260
14152E3
24152E3
-
-
2200
12.5 x 30
890
48
0.29
0.220
0.190
0.190
14222E3
24222E3
-
-
3300
15 x 30
1140
70
0.30
0.160
0.130
0.150
14332E3
24332E3
-
44332E3
4700
18 x 30
1450
98
0.33
0.120
0.110
0.130
14472E3
-
-
44472E3
6800
18 x 38
1880
140
0.34
0.085
0.074
0.110
14682E3
-
-
44682E3
10 000
18 x 38
1980
200
0.41
0.070
0.062
0.100
14103E3
-
-
44103E3
15 000
21 x 38
2200
300
0.55
0.063
0.058
0.099
14153E3
-
-
44153E3
22
6.3 x 12.7
58
4.7
0.12
8.700
7.300
2.700
-
25229E3
35229E3
-
47
6.3 x 12.7
83
5.5
0.16
5.400
3.400
1.900
-
25479E3
35479E3
-
100
7.7 x 12.7
130
7.2
0.16
2.500
1.600
1.000
-
25101E3
35101E3
-
220
8 x 18
230
11
0.16
1.200
0.730
0.350
-
25221E3
35221E3
-
470
10 x 18
360
19
0.16
0.540
0.340
0.250
-
25471E3
35471E3
-
1000
10 x 30
630
36
0.20
0.340
0.270
0.260
15102E3
25102E3
-
-
1500
12.5 x 30
860
52
0.20
0.230
0.190
0.190
15152E3
25152E3
-
-
2200
15 x 30
1090
74
0.21
0.170
0.140
0.150
15222E3
25222E3
-
45222E3
3300
18 x 30
1420
110
0.24
0.120
0.100
0.130
15332E3
-
-
45332E3
4700
18 x 30
1480
150
0.28
0.100
0.090
0.120
15472E3
-
-
45472E3
6800
18 x 38
1930
220
0.28
0.072
0.062
0.100
15682E3
-
-
45682E3
10 000
21 x 38
2100
320
0.38
0.065
0.057
0.098
15103E3
-
-
45103E3
10
6.3 x 12.7
46
4.5
0.09
14.000
12.000
2.800
-
26109E3
36109E3
-
22
6.3 x 12.7
61
5.1
0.14
10.000
5.500
2.500
-
26229E3
36229E3
-
33
6.3 x 12.7
74
5.7
0.14
6.800
3.600
1.900
-
26339E3
36339E3
-
47
7.7 x 12.7
96
6.4
0.14
4.700
2.600
1.000
-
26479E3
36479E3
-
Revision: 13-Oct-14
Document Number: 28332
267
For technical questions, contact: [email protected]
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Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
25
40
50
63
100
ORDERING CODE MAL2138.......
CR
100 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
IR
100 Hz
105 °C
(mA)
IL5
5 min
(μA)
tan 
100 Hz
ESR
100 Hz
()
Z
10 kHz
()
Z
100 kHz
()
IN BOX
FORM AA
TAPED
ON REEL
FORM BR
TAPED
IN BOX
FORM BA
MOUNTING
RING
FORM MR
100
220
470
680
1000
1500
2200
3300
4700
6800
33
47
100
220
330
470
680
1000
1500
2200
3300
10
22
100
4.7
10
22
47
100
150
220
330
470
680
1000
1500
2.2
4.7
10
22
47
68
100
150
220
330
470
680
6.5 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
18 x 38
21 x 38
7.7 x 12.7
6.5 x 18
8 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
6.3 x 12.7
7.7 x 12.7
10 x 18
6.3 x 12.7
7.7 x 12.7
6.5 x 18
8 x 18
10 x 25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
6.3 x 12.7
7.7 x 12.7
6.5 x 18
8 x 18
10 x 25
10 x 30
12.5 x 30
15 x 30
15 x 30
18 x 30
18 x 38
21 x 38
160
270
440
580
790
1020
1320
1720
1840
2100
91
120
180
350
490
650
750
970
1250
1640
1810
51
82
230
35
59
100
150
280
410
560
660
860
1130
1460
1680
24
40
67
100
190
300
410
550
650
880
1130
1330
9.0
15
28
38
54
79
110
170
240
340
6.6
7.8
12
22
30
42
58
84
120
180
270
5.0
6.2
14
4.6
5.3
6.8
9.9
17
23
32
46
63
90
130
190
4.4
4.9
6.0
8.4
13
18
24
34
48
70
98
140
0.13
0.13
0.13
0.14
0.15
0.15
0.17
0.17
0.21
0.27
0.11
0.10
0.10
0.10
0.09
0.09
0.10
0.10
0.12
0.12
0.15
0.09
0.09
0.08
0.09
0.08
0.07
0.07
0.07
0.11
0.11
0.12
0.12
0.12
0.12
0.13
0.09
0.08
0.07
0.07
0.07
0.07
0.07
0.07
0.07
0.08
0.08
0.09
2.100
0.940
0.440
0.360
0.250
0.170
0.130
0.090
0.076
0.068
5.300
3.400
1.600
0.720
0.470
0.340
0.250
0.170
0.130
0.093
0.079
14.00
6.500
1.300
30.00
13.00
5.100
2.400
1.100
0.730
0.500
0.370
0.260
0.190
0.130
0.100
65.00
27.00
11.00
5.100
2.400
1.700
1.100
0.780
0.540
0.380
0.270
0.210
1.200
0.550
0.260
0.260
0.180
0.130
0.100
0.071
0.063
0.058
2.700
1.900
0.900
0.410
0.320
0.230
0.180
0.120
0.098
0.069
0.061
7.000
3.200
0.700
17.000
8.000
3.600
1.700
0.800
0.440
0.310
0.230
0.160
0.120
0.086
0.072
25.000
17.000
8.000
3.600
1.700
1.100
0.770
0.520
0.370
0.270
0.190
0.140
0.550
0.270
0.170
0.250
0.190
0.150
0.130
0.110
0.100
0.099
1.000
0.650
0.400
0.200
0.300
0.220
0.180
0.140
0.120
0.100
0.100
2.700
1.100
0.300
5.000
1.800
0.850
0.500
0.270
0.400
0.290
0.220
0.160
0.140
0.110
0.110
8.000
5.000
2.400
1.400
0.670
0.970
0.670
0.460
0.330
0.240
0.170
0.140
16681E3
16102E3
16152E3
16222E3
16332E3
16472E3
16682E3
17331E3
17471E3
17681E3
17102E3
17152E3
17222E3
17332E3
18151E3
18221E3
18331E3
18471E3
18681E3
18102E3
18152E3
19689E3
19101E3
19151E3
19221E3
19331E3
19471E3
19681E3
26101E3
26221E3
26471E3
26681E3
26102E3
26152E3
27339E3
27479E3
27101E3
27221E3
27331E3
27471E3
27681E3
27102E3
21109E3
21229E3
21101E3
28478E3
28109E3
28229E3
28479E3
28101E3
28151E3
28221E3
28331E3
28471E3
29228E3
29478E3
29109E3
29229E3
29479E3
29689E3
29101E3
29151E3
29221E3
-
36101E3
36221E3
36471E3
37339E3
37479E3
37101E3
37221E3
31109E3
31229E3
31101E3
38478E3
38109E3
38229E3
38479E3
38101E3
39228E3
39478E3
39109E3
39229E3
39479E3
-
46152E3
46222E3
46332E3
46472E3
46682E3
47102E3
47152E3
47222E3
47332E3
48471E3
48681E3
48102E3
48152E3
49151E3
49221E3
49331E3
49471E3
49681E3
Revision: 13-Oct-14
Document Number: 28332
268
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ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
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Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
VALUE
CONDITIONS
AXIAL
MOUNTING RING
Voltage
Us  1.15 x UR
Surge voltage
Urev  1 V
Reverse voltage
Current
After 1 min at UR:
Leakage current
case Ø D x L = 6.3 mm x 12.7 mm and
7.7 mm x 12.7 mm
IL1  0.02 CR x UR + 3 μA
case Ø D x L = 6.5 mm x 18 mm to
21 mm x 38 mm
IL1  0.006 CR x UR + 4 μA
After 5 min at UR
IL5  0.002 CR x UR + 4 μA
Inductance
Case Ø D x L mm:
Equivalent series inductance (ESL)
6.3 x 12.7
Typ. 20 nH
-
7.7 x 12.7
Typ. 30 nH
-
6.5 x 18
Typ. 15 nH
-
8 x 18
Typ. 35 nH
-
10 x 18
Typ. 69 nH
-
10 x 25
Typ. 38 nH
-
10 x 30
Typ. 38 nH
-
12.5 x 30
Typ. 46 nH
-
15 x 30
Typ. 48 nH
Typ. 39 nH
18 x 30
Typ. 50 nH
Typ. 39 nH
18 x 38
Typ. 54 nH
Typ. 39 nH
21 x 38
Typ. 59 nH
Typ. 39 nH
CAPACITANCE (C)
1
1.1
C
C0
1.0
0.9
0.8
1.2
C
C0
2
3
4
1
1.1
2
1.0
4
3
2
0.9
2
0.6
1
Curve 1: 6.3 V and 10 V
Curve 2: 16 V and 40 V
Curve 3: 50 V and 63 V
Curve 4: 100 V
0.7
1
Curve 1: 10 V
Curve 2: 100 V
0.8
0.7
- 60
- 40
- 20
0
20
40
60
Case Ø D x L = 6.3 mm x 12.7 mm to 10 mm x 25 mm
C0 = Typical at 20 °C, 100 Hz
80
100
Tamb (°C)
Fig. 6 - Typical multiplier of capacitance as a function of
ambient temperature
Revision: 13-Oct-14
120
- 60
- 40
- 20
0
20
40
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
C0 = Typical at 20 °C, 100 Hz
60
80
100
120
Tamb (°C)
Fig. 7 - Typical multiplier of capacitance as a function of
ambient temperature
Document Number: 28332
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Vishay BCcomponents
EQUIVALENT SERIES RESISTANCE (ESR)
102
1.2
C
C0
1.0
2
ESR
ESR 0
Curve 1: 50 V
Curve 2: 6.3 V; 63 V; 100 V
1
10
2
0.8
1
1
0.6
1
2
0.4
Curve 1: 10 V
Curve 2: 100 V
10 -1
0.2
10 2
10
10 4
103
10 5
f (Hz)
C0 = Typical at 20 °C, 100 Hz
- 50
0
50
Case Ø D x L = 6.3 mm x 12.7 mm to 10 mm x 25 mm
ESR0 = Typical ESR at 20 °C, 100 Hz
Fig. 8 - Typical multiplier of capacitance as a function of frequency
100
Tamb (°C)
Fig. 9 - Typical multiplier of ESR as a function of
ambient temperature
2
10
Curve 1: 6.3 V
Curve 2: 100 V
ESR
ESR0
ESR
ESR0
2
1
1
1
1
2
10- 1
- 60
0
- 40
- 20
0
20
40
60
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
ESR0 = Typical ESR at 20 °C, 100 Hz
80
100
Tamb (°C)
Fig. 10 - Typical multiplier of ESR as a function of
ambient temperature
Revision: 13-Oct-14
120
10
10 2
103
Case Ø D x L = 6.3 mm x 12.7 mm to 10 mm x 25 mm
ESR0 = Typical at 20 °C, 100 Hz
10 4
f (Hz)
10 5
Fig. 11 - Typical multiplier ESR as a function of frequency
Document Number: 28332
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Vishay BCcomponents
EQUIVALENT SERIES RESISTANCE (ESR)
2
Curve 1: 10 V
Curve 2: 100 V
2
ESR
ESR0
1
1
1
2
0
10 2
10
10 4
103
Case Ø D x L = 10 x 30 to 21 x 38 mm
ESR0 = typical ESR at 20 °C, 100 Hz
10 5
f (Hz)
Fig. 12 - Typical multiplier ESR as a function of frequency
IMPEDANCE (Z)
Table 4
IMPEDANCE VS. CAPACITANCE VALUES (Case Ø D x L = 6.3 mm x 12.7 mm to 10 mm x 25 mm)
Z x CR ( x μF) AT 10 kHz
Tamb
6.3 V
10 V
16 V
25 V
40 V
50 V
63 V
100 V
300
 200
 160
120
90
70
 80
 80
-25 °C
2000
 1200
750
560
 450
 300
 550
 550
-40 °C
 5500
 3200
 2000
 1500
 1200
 900
 1500
 1500
+20 °C
10
Z
Z0
103
Curve 1: 10 µF, 63 V
Curve 2: 10 µF, 50 V
Curve 3: 22 µF, 63 V
Curve 4: 47 µF, 25 V
Curve 5: 100 µF, 16 V
Curve 6: 100 µF, 25 V
Curve 7: 220 µF, 10 V
Curve 8: 470 µF, 6.3 V
Z
(Ω)
102
1
10
3
4
5
6
7
8
-1
10
1
10-2
1
2
10-1
- 60
- 40
- 20
0
20
40
60
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
80
100
Tamb (°C)
Fig. 13 - Typical multiplier of ESR as a function of
ambient temperature at 10 kHz
Revision: 13-Oct-14
120
10 2
103
10 4
Case Ø D x L = 6.3 mm x 12.7 mm to 6.5 mm x 18 mm
10 5
f (Hz)
10 6
Tamb (°C)
Fig. 14 - Typical impedance as a function of frequency
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Vishay BCcomponents
102
103
Curve 1: 47 µF, 63 V
Curve 2: 100 µF, 50 V
Curve 3: 100 µF, 63 V
Curve 4: 220 µF, 25 V
Curve 5: 470 µF, 16 V
Curve 6: 1000 µF, 25 V
Curve 7: 1000 µF, 10 V
Curve 8: 2200 µF, 6.3 V
Z
(Ω)
102
10
10
1
1
-1
1
10
Curve 1: 680 µF; 25 V
Curve 2: 4700 µF; 25 V
Curve 3: 6800 µF; 25 V
Z
(Ω)
10
1
2
3
4
5
6
7
8
-1
10
102
2
3
10-2
10 3
10 4
Case Ø D x L = 8 mm x 18 mm to 10 mm x 25 mm
f (Hz)
10 5
Tamb (°C)
10 2
103
10 4
10 5
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
Fig. 15 - Typical impedance as a function of frequency
f (Hz)
10 6
Tamb (°C)
Fig. 16 - Typical impedance as a function of frequency
102
102
Curve 1: 680 µF; 25 V
Curve 2: 4700 µF; 25 V
Curve 3: 6800 µF; 25 V
Z
(Ω)
10
Curve 1: 680 µF; 25 V
Curve 2: 4700 µF; 25 V
Curve 3: 6800 µF; 25 V
Z
(Ω)
10
1
1
1
1
2
3
-1
10
2
3
-1
10
10-2
10-2
10 2
3
10
10
4
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
10 5
f (Hz)
Tamb (°C)
Fig. 17 - Typical impedance as a function of frequency
Revision: 13-Oct-14
10 6
10 2
103
10 4
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
10 5
f (Hz)
10 6
Tamb (40 °C)
Fig. 18 - Typical impedance as a function of frequency
Document Number: 28332
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Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
CCC206
3.8
IA
IR
3.7
3.6
3.5
3.4
3.3
3.2
3.1
3.0
2.8
Lifetime multiplier
2.6
0
1.
2.4
5
1.
0
2.
2.2
0
3.
0
4.
2.0
0
6.
0
8.
1.8
12
1.6
20
60
Useful life at 105 °C and IR applied:
Case Ø D x L = 6.3 mm x 12.7 mm to 10 mm x 25 mm: 2000 h
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm: 10 000 h
(1)
0
10
0
15 0
20
(1)
1.2
1.0
0.8
0.5
0.0
30
1.4
IA = Actual ripple current at 100 Hz
IR = Rated ripple current at 100 Hz, 105 °C
40
50
60
70
80
90
100
110
Tamb (°C)
Fig. 19 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 5
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
IR MULTIPLIER
UR = 6.3 V TO 10 V
UR = 16 V TO 25 V
UR = 40 V TO 100 V
50
0.95
0.90
0.85
100
1.00
1.00
1.00
300
1.07
1.12
1.20
1000
1.12
1.20
1.30
3000
1.15
1.25
1.35
 10 000
1.20
1.30
1.40
Revision: 13-Oct-14
Document Number: 28332
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Vishay BCcomponents
Table 6
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
IEC 60384-4/
Endurance
PROCEDURE
(quick reference)
REFERENCE
EN130 300
subclause 4.13
Tamb = 105 °C; UR applied;
Case Ø D x L:
6.3 mm x 12.7 mm to 10 mm x 25 mm: 1000 h;
10 mm x 30 mm to 21 mm x 38 mm: 5000 h
REQUIREMENTS
UR  6.3 V; C/C: + 15 % / - 30 %
UR  6.3 V; C/C: ± 15 %
tan   1.3 x spec. limit
Z  2 x spec. limit
IL5  spec. limit
UR  6.3 V; C/C: + 45 % / - 50 %
Tamb = 105 °C; UR and IR applied;
Useful life
CECC 30 301
Case Ø D x L:
subclause 1.8.1
6.3 mm x 12.7 mm to 10 mm x 25 mm: 2000 h;
10 mm x 30 mm to 21 mm x 38 mm: 10 000 h
UR  6.3 V; C/C: ± 45 %
tan   3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
no short open circuit
total failure percentage:  1 %
Shelf life
IEC 60384-4/
(storage at
EN130 300,
high temperature)
subclause 4.17
Revision: 13-Oct-14
Tamb = 105 °C; no voltage applied;
C/C, tan , Z: 
500 h
for requirements
After test: UR to be applied for 30 min, 
see “Endurance test” above
24 h to 48 h before measurement
IL5  2 x spec. limit
Document Number: 28332
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118 AHT
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Vishay BCcomponents
Aluminum Capacitors
Axial High Temperature
FEATURES
• Polarized aluminum
non-solid electrolyte
high ripple,
low impedance
105 °C
very high
ripple
118 AHT
125 °C
120 ATC
125 °C
Fig. 1
DESCRIPTION
Rated capacitance range, CR
VALUE
6.5 x 18
to 10 x 25
10 x 30
to 21 x 38
4.7 μF to 10 000 μF
Tolerance on CR
Rated voltage range, UR
± 20 %
6.3 V to 200 V
-40 °C to
+125 °C
-55 °C to
+125 °C
Endurance test at 150 °C
(6.3 V to 100 V)
500 h
500 h
Endurance test at 125 °C
2000 h
3000 h
Useful life at 125 °C
4000 h
8000 h
Useful life at 40 °C, 
1.8 x IR applied
500 000 h
1 000 000 h
Category temperature range
Shelf life at 0 V, 125 °C:
UR = 6.3 V to 63 V
500 h
UR = 100 V and 200 V
100 h
Based on sectional
specification
Climatic category IEC 60068
Revision: 14-Jan-15
• Miniaturized, high CV-product per unit volume
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
QUICK REFERENCE DATA
Nominal case sizes
(Ø D x L in mm)
capacitors,
• Axial leads, cylindrical aluminum case, insulated
with a blue sleeve
• Mounting ring version not available in insulated form
• Taped versions up to case Ø 15 mm x 30 mm available for
automatic insertion
• Charge and discharge proof
• Extra long useful life: up to 8000 h at 125 °C, high
reliability
• Extended temperature range: 125 °C (usable up to
150 °C)
119 AHT-DIN
138 AML
electrolytic
IEC 60 384-4/EN130 300
40/125/56
55/125/56
• Automotive, industrial and telecommunication
• Smoothing, filtering, coupling, decoupling, timing
• For use after very long storage (10 years) without voltage
applied
• Portable and mobile equipment (small size, low mass)
• Low mounting height boards, vibration and shock
resistant
• Outdoor applications, e.g. aerial amplifiers
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V) at 125 °C and 85 °C
• Date code, in accordance with IEC 60062
• Code indicating factory of origin
• Name of manufacturer
• Negative terminal identification
• Series number (118)
Document Number: 28334
275
For technical questions, contact: [email protected]
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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SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
UR (V)
CR
(μF)
6.3
10
16
25
40
63
100
200
4.7
-
-
-
-
-
6.5 x 18
6.5 x 18
-
10
-
-
-
-
-
6.5 x 18
6.5 x 18
-
15
-
-
-
-
-
-
-
10 x 30
22
-
-
-
-
-
6.5 x 18
8 x 18
12.5 x 30
33
47
68
100
150
220
330
470
680
1000
-
-
-
-
-
-
10 x 25
15 x 30
-
-
-
-
6.5 x 18
8 x 18
10 x 25
18 x 30
-
-
-
-
-
-
10 x 30
-
-
-
-
-
-
-
12.5 x 30
18 x 38
-
-
-
6.5 x 18
8 x 18
10 x 25
12.5 x 30
21 x 38
-
-
-
-
-
10 x 30
-
-
-
-
-
-
10 x 18
12.5 x 30
15 x 30
-
-
6.5 x 18
8 x 18
10 x 18
10 x 25
12.5 x 30
18 x 30
-
-
-
-
-
10 x 30
-
-
-
-
8 x 18
10 x 18
10 x 25
12.5 x 30
15 x 30
18 x 38
-
-
8 x 18
10 x 18
10 x 25
12.5 x 30
18 x 30
21 x 38
-
-
-
-
10 x 30
-
-
-
-
-
-
10 x 30
12.5 x 30
15 x 30
18 x 38
-
-
10 x 18
10 x 25
12.5 x 30
12.5 x 30
18 x 30
21 x 38
-
-
-
10 x 30
-
-
-
-
-
1500
10 x 25
12.5 x 30
12.5 x 30
15 x 30
18 x 38
-
-
-
2200
-
12.5 x 30
15 x 30
18 x 30
21 x 38
-
-
-
3300
-
15 x 30
18 x 30
18 x 38
-
-
-
-
4700
-
18 x 30
18 x 38
21 x 38
-
-
-
-
6800
-
18 x 38
21 x 38
-
-
-
-
-
10 000
-
21 x 38
-
-
-
-
-
-
DIMENSIONS in millimeters AND AVAILABLE FORMS
73 ± 1.6
ØD
L
I
L
33 ± 1
Ød
Ød
ØD
F
Form BR: Taped on reel
Case Ø D x L = 6.5 mm x 18 mm to 15 mm x 30 mm
F
Form AA: Axial in box
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
Form BA: Taped in box (ammopack)
Case Ø D x L = 6.5 mm x 18 mm to 10 mm x 25 mm
Fig. 2 - Forms BA and BR
Revision: 14-Jan-15
Fig. 3 - Form AA
Document Number: 28334
276
For technical questions, contact: [email protected]
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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Vishay BCcomponents
Table 1
AXIAL; DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
AXIAL: FORM AA, BA AND BR
CASE
CODE
Ød
I
Ø Dmax.
Lmax.
Fmin.
MASS
(g)
4
5
6
7
00
01
02
03
04
05
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
0.8
55 ± 1
55 ± 1
55 ± 1
55 ± 1
34 ± 1
34 ± 1
6.9
8.5
10.5
10.5
10.5
13.0
15.5
18.5
18.5
21.5
18.5
18.5
18.5
25.5
30.5
30.5
30.5
30.5
39.5
39.5
25
25
25
30
35
35
35
35
44
44
1.3
1.7
2.5
3.3
4.8
7.4
11.7
12.9
19
24
PACKAGING QUANTITIES
FORM
FORM
FORM
AA
BA
BR
1000
1000
500
500
500
500
500
500
340
500
260
400
200
250
120
125
100
-
Note
• Detailed tape dimensions see section “Packaging”.
D
120 °C
(3 x)
3.6 + 0.2
- 0.2
D3
90° ± 2°
(3 x)
-
L
1.05 + 0.03 (3 x)
- 0.1
1.3 + 0
(3 x)
- 0.05
d2
1.3 + 0.1 (3 x)
0
+ 1.0
1 - 0.5
Mounting holes
Ø d1
Case Ø D x L = 15 mm x 30 mm to 21 mm x 38 mm
Especially for applications with severe shocks and vibrations
Ø D2
Fig. 4 - Mounting hole diagram and outline; Form MR: with mounting ring and pins
MOUNTING RING; DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
15 x 30
18 x 30
18 x 38
21 x 38
MOUNTING RING: FORM MR
CASE
CODE
Ø d1
Ø d2
Ø Dmax.
Ø D2max.
D3
Lmax.
MASS
(g)
PACKAGING
QUANTITIES
02
03
04
05
0.8
0.8
0.8
0.8
1.0 + 0.4
1.0 + 0.4
1.0 + 0.4
1.0 + 0.4
15.5
18.5
18.5
21.5
17.5
19.5
19.5
22.5
16.5 ± 0.2
18.5 ± 0.2
18.5 ± 0.2
21.5 ± 0.2
33
33
42
42
 8.6
 11.5
 14.0
 19.0
200
240
100
100
ELECTRICAL DATA
SYMBOL
CR
IR
IL1
IL5
tan 
ESR
DESCRIPTION
Rated capacitance at 100 Hz, tolerance ± 20 %
Rated RMS ripple current at 100 Hz, 125 °C
Max. leakage current after 1 min at UR
Max. leakage current after 5 min at UR
Max. dissipation factor at 100 Hz
Equivalent series resistance at 100 Hz
(calculated from tan max. and CR)
Max. impedance at 10 kHz
ORDERING EXAMPLE
Electrolytic capacitor 118 series
1000 μF/10 V; ± 20 %
Nominal case size: Ø 10 mm x 30 mm; Form BR
Ordering code: MAL211824102E3
Former 12NC: 2222 118 24102
Z
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Revision: 14-Jan-15
Document Number: 28334
277
For technical questions, contact: [email protected]
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
118 AHT
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Vishay BCcomponents
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
40
NOMINAL
IR
IL1
IL5
ESR
CR
CASE SIZE CASE 100 Hz
tan 
100 Hz
1 min 5 min
100 Hz
ØDxL
CODE 125 °C
100 Hz
(μF)
(μA)
(μA)
()
(mA)
(mm)
ORDERING CODE MAL2118.......
Z
10 kHz
()
IN BOX
FORM AA
TAPED
TAPED
MOUNTING
ON REEL
IN BOX
RING
FORM BR FORM BA FORM MR
1000
10 x 18
6
251
42
17
0.50
0.790
0.80
-
23102E3
33102E3
1500
10 x 25
7
352
61
23
0.50
0.530
0.53
-
90502E3
90503E3
-
220
6.5 x 18
4
109
20
8.4
0.35
2.530
2.10
-
24221E3
34221E3
-
330
8 x 18
5
150
24
11
0.35
1.690
1.40
-
24331E3
34331E3
-
470
8 x 18
5
179
32
13
0.35
1.190
1.00
-
24471E3
34471E3
-
1000
10 x 25
7
343
64
24
0.35
0.560
0.55
-
90504E3
90505E3
-
1000
10 x 30
00
550
64
24
0.32
0.505
0.45
14102E3
24102E3
-
-
1500
12.5 x 30
01
740
94
34
0.32
0.340
0.28
14152E3
24152E3
-
-
2200
12.5 x 30
01
830
136
48
0.40
0.290
0.27
14222E3
24222E3
-
-
3300
15 x 30
02
1070
202
70
0.40
0.190
0.18
14332E3
24332E3
-
44332E3
4700
18 x 30
03
1350
286
98
0.46
0.155
0.15
14472E3
-
-
44472E3
6800
18 x 38
04
1730
412
140
0.53
0.100
0.10
14682E3
-
-
44682E3
10 000
21 x 38
05
1860
604
200
0.53
0.084
0.10
14103E3
-
-
44103E3
220
8 x 18
5
145
25
11
0.25
1.810
1.50
-
25221E3
35221E3
-
330
10 x 18
6
204
36
15
0.25
1.210
1.20
-
25331E3
35331E3
-
470
10 x 18
6
243
49
19
0.25
0.850
0.83
-
25471E3
35471E3
-
680
10 x 30
00
510
69
30
0.22
0.525
0.45
15681E3
25681E3
-
-
1000
12.5 x 30
01
720
100
36
0.22
0.345
0.28
15102E3
25102E3
-
-
1500
12.5 x 30
01
790
148
52
0.29
0.305
0.27
15152E3
25152E3
-
-
2200
15 x 30
02
1010
215
74
0.29
0.205
0.18
15222E3
25222E3
-
45222E3
3300
18 x 30
03
1300
321
110
0.34
0.165
0.15
15332E3
-
-
45332E3
4700
18 x 38
04
1670
455
150
0.34
0.105
0.10
15472E3
-
-
45472E3
6800
21 x 38
05
1790
657
220
0.38
0.088
0.10
15682E3
-
-
45682E3
100
6.5 x 18
4
102
20
9
0.18
2.860
2.30
-
26101E3
36101E3
-
220
10 x 18
6
196
37
15
0.18
1.300
1.25
-
26221E3
36221E3
-
330
10 x 25
7
274
54
21
0.18
0.870
0.82
-
26331E3
36331E3
-
470
10 x 25
7
327
75
28
0.18
0.610
0.57
-
90508E3
90509E3
-
470
10 x 30
00
490
75
28
0.18
0.610
0.50
16471E3
26471E3
-
-
680
12.5 x 30
01
680
106
38
0.18
0.420
0.30
16681E3
26681E3
-
-
1000
12.5 x 30
01
760
154
54
0.24
0.375
0.28
16102E3
26102E3
-
-
1500
15 x 30
02
980
229
79
0.25
0.263
0.22
16152E3
26152E3
-
46152E3
2200
18 x 30
03
1240
334
110
0.26
0.185
0.17
16222E3
-
-
46222E3
3300
18 x 38
04
1610
499
170
0.26
0.120
0.11
16332E3
-
-
46332E3
4700
21 x 38
05
1710
709
240
0.28
0.095
0.10
16472E3
-
-
46472E3
47
6.5 x 18
4
89.8
20
7.8
0.11
3.720
2.80
-
27479E3
37479E3
-
100
8 x 18
5
147
28
12
0.11
1.750
1.30
-
27101E3
37101E3
-
150
10 x 18
6
207
40
16
0.11
1.170
1.00
-
27151E3
37151E3
-
220
10 x 25
7
287
57
22
0.11
0.800
0.68
-
90511E3
90512E3
-
220
10 x 30
00
390
57
22
0.10
0.700
0.55
17221E3
27221E3
-
-
330
12.5 x 30
01
570
83
30
0.10
0.430
0.33
17331E3
27331E3
-
-
470
12.5 x 30
01
620
117
42
0.11
0.380
0.30
17471E3
27471E3
-
-
680
15 x 30
02
810
167
58
0.11
0.255
0.23
17681E3
27681E3
-
47681E3
1000
18 x 30
03
1070
244
84
0.13
0.205
0.18
17102E3
-
-
47102E3
1500
18 x 38
04
1390
364
120
0.13
0.130
0.11
17152E3
-
-
47152E3
2200
21 x 38
05
1540
532
180
0.15
0.105
0.10
17222E3
-
-
47222E3
Revision: 14-Jan-15
Document Number: 28334
278
For technical questions, contact: [email protected]
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
118 AHT
www.vishay.com
Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
NOMINAL
IR
IL1
IL5
ESR
CR
CASE SIZE CASE 100 Hz
tan 
100 Hz
1 min 5 min
100 Hz
ØDxL
CODE 125 °C
100 Hz
(μF)
(μA)
(μA)
()
(mA)
(mm)
ORDERING CODE MAL2118.......
Z
10 kHz
()
IN BOX
FORM AA
TAPED
TAPED
MOUNTING
ON REEL
IN BOX
RING
FORM BR FORM BA FORM MR
4.7
6.5 x 18
4
35.6
20
4.6
0.07
24.0
8.90
-
28478E3
38478E3
-
10
6.5 x 18
4
51.9
20
5.3
0.07
11.0
5.60
-
28109E3
38109E3
-
22
6.5 x 18
4
77.0
20
6.8
0.07
5.10
3.20
-
28229E3
38229E3
-
47
8 x 18
5
126
22
9.9
0.07
2.40
1.50
-
28479E3
38479E3
-
100
10 x 25
7
243
42
17
0.07
1.10
0.70
-
90513E3
90514E3
-
100
10 x 30
00
340
42
17
0.07
1.91
1.62
18101E3
28101E3
-
-
150
12.5 x 30
01
490
61
23
0.07
1.00
0.79
18151E3
28151E3
-
-
220
12.5 x 30
01
550
87
32
0.08
0.94
0.82
18221E3
28221E3
-
-
330
15 x 30
02
730
129
46
0.09
0.63
0.56
18331E3
28331E3
-
48331E3
470
18 x 30
03
970
182
63
0.09
0.44
0.39
18471E3
-
-
48471E3
680
18 x 38
04
1230
261
90
0.09
0.30
0.26
18681E3
-
-
48681E3
1000
21 x 38
05
1400
383
130
0.10
0.16
0.20
18102E3
-
-
48102E3
4.7
6.5 x 18
4
36
20
4.9
0.07
24.0
19.0
-
29478E3
39478E3
-
10
6.5 x 18
4
52
20
6.0
0.07
11.0
9.00
-
29109E3
39109E3
-
22
8 x 18
5
91
20
8.4
0.07
5.10
4.00
-
29229E3
39229E3
-
33
10 x 25
7
140
24
11
0.07
3.40
2.70
-
29339E3
39339E3
-
47
10 x 25
7
170
33
13
0.07
2.60
2.00
-
90535E3
90536E3
-
47
10 x 30
00
240
33
13
0.08
2.60
2.00
19479E3
29479E3
-
-
68
12.5 x 30
01
320
45
18
0.08
1.80
1.20
19689E3
29689E3
-
-
100
12.5 x 30
01
380
64
24
0.09
1.40
1.15
19101E3
29101E3
-
-
150
15 x 30
02
500
94
34
0.10
0.94
0.78
19151E3
29151E3
-
49151E3
220
18 x 30
03
690
136
48
0.10
0.66
0.55
19221E3
-
-
49221E3
330
18 x 38
04
890
202
70
0.10
0.45
0.37
19331E3
-
-
49331E3
470
21 x 38
05
1050
286
98
0.10
0.33
0.28
19471E3
-
-
49471E3
15
10 x 30
00
150
22
10
0.046
4.76
3.75
92159E3
90012E3
-
-
22
12.5 x 30
01
210
31
13
0.046
3.17
2.22
92229E3
90013E3
-
-
33
15 x 30
02
290
44
17
0.046
2.11
1.11
92339E3
90014E3
-
90002E3
47
18 x 30
03
390
61
23
0.046
1.48
0.60
92479E3
-
-
90003E3
68
18 x 38
04
500
86
31
0.046
1.02
0.42
92689E3
-
-
90004E3
100
21 x 38
05
610
124
44
0.046
0.96
0.39
92101E3
-
-
90005E3
63
100
200
Revision: 14-Jan-15
Document Number: 28334
279
For technical questions, contact: [email protected]
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
118 AHT
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Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
VALUE
CONDITIONS
AXIAL
MOUNTING RING
Voltage
Us  1.15 x UR
Surge voltage
Urev  1 V
Reverse voltage
Current
Leakage current
After 1 min at UR
IL1  0.006 CR x UR + 4 μA or 20 μA
(whichever is greater)
After 5 min at UR
IL5  0.002 CR x UR + 4 μA
Inductance
Case Ø D x L mm:
Equivalent series inductance (ESL)
6.5 x 18
Typ. 15 nH
8 x 18
Typ. 35 nH
-
10 x 18
Typ. 69 nH
-
10 x 25
Typ. 38 nH
-
10 x 30
Typ. 38 nH
-
12.5 x 30
Typ. 46 nH
-
15 x 30
Typ. 48 nH
Typ. 39 nH
18 x 30
Typ. 50 nH
Typ. 39 nH
18 x 38
Typ. 54 nH
Typ. 39 nH
21 x 38
Typ. 59 nH
Typ. 39 nH
Table 3
UPRATING VALUES AT REDUCED AMBIENT TEMPERATURE
SYMBOL
CONDITIONS
UR
Tamb > 85 °C to 125 °C
6.3
10
16
25
VALUES
40
63
100
200
UNIT
V
UR2
Tamb  85 °C
10
16
25
40
63
100
125
250
V
Note
• For applications at ambient temperatures of  85 °C, the rated voltage (UR) may be raised to UR2.
CAPACITANCE
10 2
ESR
ESR0
Curve 1: 63 V
Curve 2: 6.3 V
2
1.2
C
C0
1.1
4
1
1
10
1.0
0.9
1
2
1
0.8
3
Curve 1: 100 V; 200 V
Curve 2: 40 V; 63 V
Curve 3: 16 V; 25 V
Curve 4: 6.3 V; 10 V
0.7
10-1
- 50
0
50
Case Ø D x L = 6.5 mm x 18 mm to 10 mm x 25 mm
C0 = Capacitance at 20 °C, 100 Hz
100
Tamb (°C)
Fig. 5 - Typical multiplier of capacitance
as a function of ambient temperature
Revision: 14-Jan-15
4
0.6
- 60 - 40 - 20
0
20
40
60
80
100 120 140 160
Tamb (°C)
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
C0 = Capacitance at 20 °C, 100 Hz
Fig. 6 - Typical multiplier of capacitance
as a function of ambient temperature
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1.1
1.2
C
C0
1.0
C
C0
8
1
1.0
1
0.8
3
0.6
Curve 1: 63 V to 200 V (< 15 µF)
Curve 2: 63 V; 100 V (< 15 µF)
Curve 3: 40 V
Curve 4: 25 V
Curve 5: 16 V
Curve 6: 10 V
Curve 7: 6.3 V
0.4
0.2
1
2
3
4
0.9
2
0.8
5
0.7
6
7
0.6
0
5
Curve 1: 200 V
Curve 2: 100 V
Curve 3: 63 V
Curve 4: 40 V
Curve 5: 25 V
Curve 6: 16 V
Curve 7: 10 V
Curve 8: 6.3 V
4
6
7
8
0.5
102
10
103
104
105
f (Hz)
Case Ø D x L = 6.5 mm x 18 mm to 10 mm x 25 mm
C0 = Capacitance at 20 °C, 100 Hz
102
10
103
f (Hz)
104
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
C0 = Capacitance at 20 °C, 100 Hz
Fig. 7 - Typical multiplier of capacitance
as a function of frequency
Fig. 8 - Typical multiplier of capacitance
as a function of frequency
EQUIVALENT SERIES RESISTANCE (ESR)
102
102
Curve 1: 100 V; 200 V
Curve 2: 25 V; 40 V; 63 V
Curve 3: 6.3 V; 10 V; 16 V
ESR
ESR0
ESR
ESR0
3
1
2
Curve 1: 6.3 V to 10 V; 16 V
Curve 2: 25 V; 40 V; 63 V
Curve 3: 100 V; 200 V
10
10
1
1
3
2
1
1
2
3
10-1
- 100
- 50
0
50
100
150
Case Ø D x L = 6.5 mm x 18 mm to 10 mm x 25 mm Tamb (°C)
ESR0 = Typical at 20 °C, 100 Hz
10-1
- 100
Fig. 9 - Typical multiplier of ESR
as a function of ambient temperature
2.0
ESR
ESR0
1.6
1.2
- 50
0
50
Case Ø D x L = 6.5 mm x 18 mm to 10 mm x 25 mm
ESR0 = Typical at 20 °C, 100 Hz
100
150
Tamb (°C)
Fig. 10 - Typical multiplier of ESR
as a function of ambient temperature
1.6
1
Curve 1: 63 V to 100 V (< 15 µF)
Curve 2: 40 V
Curve 3: 25 V
Curve 4: 6.3 V; 10 V; 16 V
2
3
4
ESR
ESR0
1.2
1
2
3
4
5
Curve 1: 200 V
Curve 2: 100 V
Curve 3: 40 V; 63 V
Curve 4: 16 V; 25 V
Curve 5: 6.3 V; 10 V
0.8
0.8
4
3
2
1
0.4
5
4
3
2
0.4
1
0
0
10
102
103
104
Case Ø D x L = 6.5 mm x 18 mm to 10 mm x 25 mm
ESR0 = Typical at 20 °C, 100 Hz
Fig. 11 - Typical multiplier of ESR
as a function of frequency
Revision: 14-Jan-15
f (Hz)
105
10
102
103
104
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
ESR0 = Typical at 20 °C, 100 Hz
f (Hz)
105
Fig. 12 - Typical multiplier of ESR
as a function of frequency
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IMPEDANCE (Z)
103
103
Curve 1: 47 V
Curve 2: 100 V
Curve 3: 220 V
Curve 4: 470 V
Z
(Ω)
102
Curve 1: 100 V
Curve 2: 220 V
Curve 3: 470 V
Curve 4: 1000 V
Z
(Ω)
102
1
2
3
4
10
1
10
1
2
3
4
1
10-1
102
10
104
3
105
f (Hz)
106
10-1
102
Tamb (°C)
Case Ø D x L = 8 mm x 18 mm
103
102
Curve 1: 22 µF, 200 V
Curve 2: 68 µF, 100 V
Curve 3: 150 µF, 63 V
Curve 4: 220 µF, 63 V
Curve 5: 330 µF, 40 V
Curve 6: 470 µF, 40 V
Curve 7: 680 µF, 25 V
Curve 8: 1000 µF, 25 V
and 1000 µF, 16 V
2
3
4
5
6
7
8
9
10
11
10
f (Hz)
106
Tamb (°C)
Fig. 14 - Typical impedance as a function of frequency
103
1
105
Case Ø D x L = 10 mm x 25 mm
Fig. 13 - Typical impedance as a function of frequency
Z
(Ω)
104
103
Z
(Ω)
1
102
2
3
4
5
6
7
8
9
10
11
10
1
Curve 1: 22 µF, 200 V Curve 7: 680 µF, 25 V
Curve 2: 68 µF, 100 V Curve 8: 1000 µF, 25 V
Curve 3: 150 µF, 63 V Curve 9: 1500 µF, 16 V
Curve 4: 220 µF, 63 V Curve 10: 1500 µF, 10 V
Curve 5: 330 µF, 40 V and 2200 µF, 6.3 V
Curve 6: 470 µF, 40 V Curve 11: 3300 µF, 6.3 V
1
Curve 9: 1500 µF, 16 V and 1500 µF, 10 V
Curve 10: 1500 µF, 10 V and 2200 µF, 6.3 V
Curve 11: 3300 µF, 6.3 V
10-1
2
10
10
3
10
4
10
10
5
f (Hz) 7
10
10
Tamb (40 °C)
Case Ø D x L = 18 mm x 30 mm
10-1
6
1
102
2
3
10
102
105
106
f (Hz)
107
Tamb (20 °C)
Curve 1: 47 µF, 200 V
Curve 2: 220 µF, 100 V
Curve 3: 470 µF, 63 V
Curve 4: 1000 µF, 40 V
Curve 5: 2200 µF, 25 V
Curve 6: 3300 µF, 18 V
Curve 7: 4700 µF, 10 V
Curve 8: 6800 µF, 6.3 V
2
3
10
4
5
6
7
8
1
10-1
10-1
10
1
Z
(Ω)
4
5
6
7
8
1
104
Fig. 16 - Typical impedance as a function of frequency
Curve 1: 47 µF, 200 V
Curve 2: 220 µF, 100 V
Curve 3: 470 µF, 63 V
Curve 4: 1000 µF, 40 V
Curve 5: 2200 µF, 25 V
Curve 6: 3300 µF, 18 V
Curve 7: 4700 µF, 10 V
Curve 8: 6800 µF, 6.3 V
Z
(Ω)
103
Case Ø D x L = 12.5 mm x 30 mm
Fig. 15 - Typical impedance as a function of frequency
103
102
10
2
10
3
10
Case Ø D x L = 18 mm x 30 mm
4
10
10
5
6
10
f (Hz)
10-2
10
Tamb (40 °C)
Fig. 17 - Typical impedance as a function of frequency
Revision: 14-Jan-15
7
10
102
103
Case Ø D x L = 18 mm x 30 mm
104
105
106
f (Hz)
107
Tamb (20 °C)
Fig. 18 - Typical impedance as a function of frequency
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RIPPLE CURRENT AND USEFUL LIFE
MBC242
IA
IR
4.3
4.2
4.1
4.0
3.9
3.8
3.7
3.6
3.5
3.4
3.3
3.2
3.1
3.0
Lifetime multiplier
2.8
0
1.
5
1.
2.6
0
2.
0
3.
0
4.
2.4
0
6.
0
8.
2.2
2.0
12
20
1.8
30
1.6
1.4
1.2
1.0
0.8
0.5
0.0
60
0
10
0
40
40
(1)
0
20
IA = Actual ripple current at 100 Hz
IR = Rated ripple current at 100 Hz, 125 °C
(1) Useful life at 125 °C and IR applied:
Case Ø D x L = 6.5 mm x 18 mm to
10 mm x 25 mm: 4000 h
Case Ø D x L = 10 mm x 30 mm to
21 mm x 38 mm: 8000 h
50
60
70
80
90
100
110
120
130
Tamb (°C)
Fig. 19 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 4
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 6.3 V TO 25 V
UR = 40 V TO 63 V
UR = 100 V TO 200 V
50
0.95
0.90
0.85
100
1.00
1.00
1.00
300
1.07
1.12
1.20
1000
1.12
1.20
1.30
3000
1.15
1.25
1.35
10 000
1.20
1.30
1.40
Revision: 14-Jan-15
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Table 5
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
REFERENCE
IEC 60384-4/
EN130300
subclause 4.13
PROCEDURE
(quick reference)
REQUIREMENTS
Tamb = 125 °C; UR applied;
Case sizes:
6.5 mm x 18 mm to 10 mm x 25 mm: 2000 h;
10 mm x 30 mm to 21 mm x 38 mm: 3000 h
UR  6.3 V; C/C: +15 %/-30 %
UR > 6.3 V; C/C: ± 15 %
tan   1.3 x spec. limit
Z  2 x spec. limit
IL5  spec. limit
UR  6.3 V; C/C: +45 %/-50 %
UR > 6.3 V; C/C: ± 45 %
tan   3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
no short or open circuit
total failure percentage: 1 %
(200 V  3 %)
Useful life
CECC 30301
subclause 1.8.1
Tamb = 125 °C; UR and IR applied;
Case Ø D x L = 6.5 mm x 18 mm to 10 mm x 25 mm:
4000 h
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm:
8000 h
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN130300
subclause 4.17
Tamb = 125 °C; no voltage applied;
UR = 6.3 V to 63 V: 500 h;
UR = 100 V and 200 V: 100 h
After test: UR to be applied for 30 min,
24 h to 48 h before measurement
C/C, tan , Z: 
for requirements
see “Endurance test” above
IL5  2 x spec. limit
Reverse voltage
IEC 60384-4/
EN130300
subclause 4.15
Tamb = 125 °C:
125 h at U = -1 V 
followed by 125 h at UR
C/C: ± 20 %
tan   spec. limit
IL5  spec. limit
Revision: 14-Jan-15
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Aluminum Capacitors
Axial High Temperature, DIN-Based
FEATURES
119 AHT-DIN
125 °C
smaller dimensions
higher ripple
• Extra long useful life: up to 8000 h at 125 °C
• High stability, high reliability
• Extended temperature range: 125 °C (usable up
to 150 °C)
• High ripple current capability
• Taped versions up to case Ø 15 mm x 30 mm available for
automatic insertion
• Polarized aluminum electrolytic capacitors, non-solid
electrolyte
• Axial leads, cylindrical aluminum case, insulated with a
blue sleeve
• Mounting ring version not available in insulated form
• Charge and discharge proof
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
120 ATC
125 °C
smaller
dimensions
118 AHT
Fig. 1
APPLICATIONS
QUICK REFERENCE DATA
DESCRIPTION
• Military, industrial control, EDP and telecommunication
• Smoothing, filtering, buffering in SMPS; coupling,
decoupling
• For use where low mounting height is important; vibration
and shock resistant
VALUE
Nominal case sizes
(Ø D x L in mm)
6.5 x 18
to 10 x 25
Rated capacitance range, CR
10 x 30
to 21 x 38
4.7 μF to 4700 μF
Tolerance on CR
-10 %/+50 %
Rated voltage range, UR
10 V to 100 V
Category temperature range
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (T for -10 % to +50 %)
• Rated voltage (in V) at 125 °C and 85 °C
• Date code, in accordance with IEC 60062
• Code for factory of origin
• Name of manufacturer
• Negative terminal identification
• Series number (119)
-55 °C to +125 °C
Endurance test at 150 °C
500 h
500 h
Endurance test at 125 °C
2000 h
4000 h
Useful life at 125 °C
4000 h
8000 h
Useful life at 40 °C,
1.8 x IR applied
500 000 h
1 000 000 h
Shelf life at 0 V, 125 °C:
UR = 10 V to 63 V
500 h
UR = 100 V
100 h
Based on sectional
specification
IEC 60384-4/EN 130300
Climatic category IEC 60068
55/125/56
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
UR (V)
CR
(μF)
10
16
25
40
63
100
4.7
-
-
-
-
-
6.5 x 18
10
-
-
-
-
6.5 x 18
8 x 18
22
-
-
6.5 x 18
-
8 x 18
10 x 18
-
6.5 x 18
-
8 x 18
10 x 18
10 x 25
-
-
-
-
-
10 x 30
12.5 x 30
47
68
-
-
-
-
10 x 30
100
6.5 x 18
8 x 18
10 x 18
10 x 25
10 x 30
15 x 30
150
-
-
-
12.5 x 30
15 x 30
15 x 30
Revision: 19-Aug-14
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SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
UR (V)
CR
(μF)
220
10
16
25
40
63
100
10 x 18
10 x 25
10 x 25
12.5 x 30
15 x 30
18 x 30
-
-
12.5 x 30
-
-
-
-
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
10 x 25
12.5 x 30
12.5 x 30
15 x 30
18 x 38
21 x 38
-
330
470
12.5 x 30
-
-
-
-
680
12.5 x 30
15 x 30
18 x 30
18 x 30
21 x 38
-
1000
15 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
1500
18 x 30
18 x 30
18 x 38
21 x 38
-
-
2200
18 x 30
18 x 38
21 x 38
21 x 38
-
-
3300
18 x 38
21 x 38
-
-
-
-
4700
21 x 38
21 x 38
-
-
-
-
DIMENSIONS in millimeters AND AVAILABLE FORMS
I
73 ± 1.6
ØD
L
33 ± 1
L
Ød
Ød
ØD
F
F
Form BR: Taped on reel
Case Ø D x L = 6.5 mm x 18 mm to 15 mm x 30 mm
Form AA: Axial in box
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
Form BA: Taped in box (ammopack)
Case Ø D x L = 6.5 mm x 18 mm to 10 mm x 25 mm
Fig. 2 - Forms BA and BR
Fig. 3 - Form AA
Table 1
AXIAL; DIMENSIONS in millimeters, MASS, AND PACKAGING QUANTITIES
AXIAL FORM AA, BA, AND BR
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
Ød
I
Ø Dmax.
Lmax.
Fmin.
MASS
(g)
6.5 x 18
4
0.8
-
6.9
18.5
25
8 x 18
5
0.8
-
8.5
18.5
25
10 x 18
6
0.8
-
10.5
18.5
25
10 x 25
7
0.8
-
10.5
25.5
30
10 x 30
00
0.8
55 ± 1
10.5
30.5
35
PACKAGING QUANTITIES
FORM
AA
FORM
BA
FORM
BR
 1.3
-
1000
1000
 1.7
-
500
500
 2.5
-
500
500
 3.3
-
500
500
 4.8
340
-
500
12.5 x 30
01
0.8
55 ± 1
13.0
30.5
35
 7.4
260
-
400
15 x 30
02
0.8
55 ± 1
15.5
30.5
35
 11.7
200
-
250
18 x 30
03
0.8
55 ± 1
18.5
30.5
35
 12.9
120
-
-
18 x 38
04
0.8
34 ± 1
18.5
39.5
44
 19.0
125
-
-
21 x 38
05
0.8
34 ± 1
21.5
39.5
44
 24.0
100
-
-
Note
• For detailed tape dimensions please see www.vishay.com/doc?28361
Revision: 19-Aug-14
Document Number: 28335
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D
120 °C
(3 x)
3.6 + 0.2
- 0.2
D3
90° ± 2°
(3 x)
-
L
1.05 + 0.03 (3 x)
- 0.1
1.3 + 0
(3 x)
- 0.05
d2
1.3 + 0.1 (3 x)
0
+ 1.0
1 - 0.5
Mounting holes
Ø d1
Case Ø D x L = 15 mm x 30 mm to 21 mm x 38 mm
Especially for applications with severe shocks and vibrations
Ø D2
Fig. 4 - Mounting hole diagram and outline; form MR: with mounting ring and pins
Table 2
MOUNTING RING; DIMENSIONS in millimeters, MASS, AND PACKAGING QUANTITIES
NOMINAL
CASE SIZE
ØDxL
CASE
CODE
MOUNTING RING: FORM MR
Ø d1
Ø d2
Ø Dmax.
Ø D2max.
D3
Lmax.
15 x 30
02
0.8
1.0 + 0.4
15.5
17.5
16.5 ± 0.2
18 x 30
03
0.8
1.0 + 0.4
18.5
19.5
18 x 38
04
0.8
1.0 + 0.4
18.5
21 x 38
05
0.8
1.0 + 0.4
21.5
MASS
(g)
PACKAGING
QUANTITIES
33
 8.6
200
18.5 ± 0.2
33
 11.5
240
19.5
18.5 ± 0.2
42
 14.0
100
22.5
21.5 ± 0.2
42
 19.2
100
ORDERING EXAMPLE
ELECTRICAL DATA
Electrolytic capacitor 119 series
SYMBOL
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance -10 %/+50 %
Nominal case size: Ø 12.5 mm x 30 mm; form BR
IR
Rated RMS ripple current at 100 Hz, 125 °C
IL1
Max. leakage current after 1 min at UR
Ordering code: MAL211925471E3
Former 12NC: 2222 119 25471
IL5
Max. leakage current after 5 min at UR
tan 
Max. dissipation factor at 100 Hz
ESR
Equivalent series resistance at 100 Hz
(calculated from tan max. and CR)
Z
470 μF/16 V; -10 %/+50 %
Max. impedance at 10 kHz
Note
• Unless otherwise specified, all electrical values in Table 3 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Revision: 19-Aug-14
Document Number: 28335
287
For technical questions, contact: [email protected]
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Table 3
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
10
16
25
40
NOMINAL
IR
IL1
IL5
ESR
CR
CASE SIZE CASE 100 Hz
tan 
100 Hz
1 min 5 min
100 Hz
ØDxL
CODE 125 °C
100 Hz
(μF)
(μA)
(μa)
()
(mA)
(mm)
Z
10 kHz
()
ORDERING CODE MAL2119.......
IN BOX
FORM AA
TAPED
TAPED
MOUNTING
ON REEL
IN BOX
RING
FORM BR FORM BA FORM MR
100
6.5 x 18
4
130
10
6
0.20
3.50
2.20
-
24101E3
34101E3
-
220
10 x 18
6
240
17
8.4
0.18
1.30
1.00
-
24221E3
34221E3
-
470
10 x 25
7
380
32
13
0.18
0.61
0.49
-
90501E3
90502E3
-
470
12.5 x 30
01
550
32
13
0.16
0.54
0.38
14471E3
24471E3
-
-
680
12.5 x 30
01
640
45
18
0.20
0.47
0.38
14681E3
24681E3
-
-
1000
15 x 30
02
830
64
24
0.20
0.32
0.24
14102E3
24102E3
-
44102E3
1500
18 x 30
03
1100
94
34
0.22
0.23
0.17
14152E3
-
-
44152E3
2200
18 x 30
03
1190
136
48
0.26
0.19
0.17
14222E3
-
-
44222E3
3300
18 x 38
04
1550
202
70
0.27
0.13
0.10
14332E3
-
-
44332E3
4700
21 x 38
05
1700
286
90
0.30
0.10
0.09
14472E3
-
-
44472E3
47
6.5 x 18
4
110
10
5.5
0.13
4.40
2.20
-
25479E3
35479E3
-
100
8 x 18
5
170
14
7.2
0.13
2.10
1.30
-
25101E3
35101E3
-
220
10 x 25
7
300
25
11
0.13
0.94
0.55
-
25221E3
35221E3
-
330
12.5 x 30
01
560
36
15
0.13
0.63
0.38
15331E3
25331E3
-
-
470
12.5 x 30
01
570
50
19
0.15
0.51
0.38
15471E3
25471E3
-
-
680
15 x 30
02
750
69
26
0.15
0.35
0.24
15681E3
25681E3
-
45681E3
1000
15 x 30
02
850
100
36
0.19
0.30
0.24
15102E3
25102E3
-
45102E3
1500
18 x 30
03
1120
148
52
0.20
0.21
0.17
15152E3
-
-
45152E3
2200
18 x 38
04
1440
215
74
0.20
0.14
0.10
15222E3
-
-
45222E3
3300
21 x 38
05
1650
321
110
0.22
0.11
0.09
15332E3
-
-
45332E3
4700
21 x 38
05
1710
455
154
0.28
0.09
0.09
15472E3
-
-
45472E3
22
6.5 x 18
4
85
10
5.1
0.10
7.20
3.20
-
26229E3
36229E3
-
100
10 x 18
6
210
19
9
0.10
1.60
1.00
-
26101E3
36101E3
-
220
10 x 25
7
350
37
15
0.10
0.72
0.58
-
90503E3
90504E3
-
220
12.5 x 30
01
500
37
15
0.09
0.65
0.38
16221E3
26221E3
-
-
330
12.5 x 30
01
580
54
21
0.11
0.53
0.38
16331E3
26331E3
-
-
470
12.5 x 30
01
630
75
28
0.13
0.44
0.38
16471E3
26471E3
-
-
680
18 x 30
03
990
106
38
0.13
0.30
0.17
16681E3
-
-
46681E3
1000
18 x 30
03
1090
154
54
0.13
0.21
0.17
16102E3
-
-
46102E3
1500
18 x 38
04
1420
229
79
0.13
0.14
0.10
16152E3
-
-
46152E3
2200
21 x 38
05
1550
334
114
0.13
0.11
0.09
16222E3
-
-
46222E3
47
8 x 18
5
150
15
7.8
0.08
2.70
1.50
-
27479E3
37479E3
-
100
10 x 25
7
260
28
12
0.08
1.30
0.70
-
27101E3
37101E3
-
150
12.5 x 30
01
440
40
16
0.08
0.85
0.51
17151E3
27151E3
-
-
220
12.5 x 30
01
500
57
22
0.09
0.65
0.48
17221E3
27221E3
-
-
330
15 x 30
02
630
83
30
0.09
0.43
0.37
17331E3
27331E3
-
47331E3
470
15 x 30
02
720
117
42
0.12
0.41
0.37
17471E3
27471E3
-
47471E3
680
18 x 30
03
970
167
58
0.12
0.28
0.22
17681E3
-
-
47681E3
1000
18 x 38
04
1250
244
84
0.12
0.19
0.14
17102E3
-
-
47102E3
1500
21 x 38
05
1410
364
124
0.14
0.15
0.12
17152E3
-
-
47152E3
2200
21 x 38
05
1550
532
180
0.18
0.13
0.11
17222E3
-
-
47222E3
Revision: 19-Aug-14
Document Number: 28335
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ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
NOMINAL
IR
IL1
IL5
ESR
CR
CASE SIZE CASE 100 Hz
tan 
100 Hz
1 min 5 min
100 Hz
ØDxL
CODE 125 °C
100 Hz
(μF)
(μA)
(μa)
()
(mA)
(mm)
10
63
100
6.5 x 18
4
68
20
5.3
0.07
11.0
ORDERING CODE MAL2119.......
Z
10 kHz
()
IN BOX
FORM AA
5.60
-
TAPED
TAPED
MOUNTING
ON REEL
IN BOX
RING
FORM BR FORM BA FORM MR
28109E3
38109E3
-
22
8 x 18
5
110
20
6.7
0.07
5.10
2.80
-
28229E3
38229E3
-
47
10 x 18
6
180
22
9.9
0.07
2.40
1.30
-
28479E3
38479E3
-
68
10 x 25
7
230
30
13
0.07
1.60
1.00
-
90505E3
90506E3
-
68
10 x 30
00
300
30
13
0.07
1.60
0.92
18689E3
28689E3
-
-
100
10 x 30
00
360
42
17
0.08
1.30
0.75
18101E3
28101E3
-
-
150
15 x 30
02
560
61
23
0.08
0.85
0.37
18151E3
28151E3
-
48151E3
220
15 x 30
02
640
87
32
0.08
0.58
0.37
18221E3
28221E3
-
48221E3
330
18 x 30
03
880
129
46
0.09
0.43
0.23
18331E3
-
-
48331E3
470
18 x 38
04
1130
182
63
0.09
0.30
0.15
18471E3
-
-
48471E3
680
21 x 38
05
1290
261
90
0.09
0.21
0.12
18681E3
-
-
48681E3
1000
21 x 38
05
1430
382
130
0.10
0.16
0.11
18102E3
-
-
48102E3
4.7
6.5 x 18
4
44
20
10
0.08
27.00
10.0
-
29478E3
39478E3
-
10
8 x 18
5
70
20
10
0.08
13.00
6.00
-
29109E3
39109E3
-
22
10 x 18
6
112
20
10
0.08
5.80
3.50
-
29229E3
39229E3
-
47
10 x 25
7
178
32
13
0.08
2.70
2.00
-
90518E3
90519E3
-
47
10 x 30
00
240
32
13
0.08
2.70
2.00
19479E3
29479E3
-
-
68
12.5 x 30
01
330
45
18
0.08
1.90
1.20
19689E3
29689E3
-
-
100
15 x 30
02
440
64
24
0.09
1.40
0.96
19101E3
29101E3
-
49101E3
150
15 x 30
02
520
94
34
0.10
1.10
0.78
19151E3
29151E3
-
49151E3
220
18 x 30
03
710
136
48
0.10
0.72
0.55
19221E3
-
-
49221E3
330
18 x 38
04
920
202
70
0.10
0.48
0.37
19331E3
-
-
49331E3
470
21 x 38
05
1070
286
98
0.10
0.34
0.28
19471E3
-
-
49471E3
ADDITIONAL ELECTRICAL DATA
VALUE
PARAMETER
CONDITIONS
AXIAL
MOUNTING RING
Voltage
Us  1.15 x UR
Surge voltage
Urev  1 V
Reverse voltage
Current
After 1 min:
UR = 10 V to 40 V
IL1  0. 006 CR x UR + 4 μA, or 10 μA
(whichever is greater)
UR = 63 V to 100 V
IL1  0. 006 CR x UR + 4 μA, or 20 μA
(whichever is greater)
Leakage current
After 5 min:
Revision: 19-Aug-14
UR = 10 V to 63 V
IL5  0. 002 CR x UR + 4 μA
UR = 100 V
IL5  0. 002 CR x UR + 4 μA, or 10 μA
(whichever is greater)
Document Number: 28335
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ADDITIONAL ELECTRICAL DATA
VALUE
PARAMETER
CONDITIONS
AXIAL
MOUNTING RING
6.5 x 18
Typ. 15 nH
-
8 x 18
Typ. 35 nH
-
10 x 18
Typ. 69 nH
-
10 x 25
Typ. 38 nH
-
10 x 30
Typ. 38 nH
-
Inductance
Case Ø D x L mm:
Equivalent series inductance (ESL)
12.5 x 30
Typ. 46 nH
-
15 x 30
Typ. 48 nH
Typ. 39 nH
18 x 30
Typ. 50 nH
Typ. 39 nH
18 x 38
Typ. 54 nH
Typ. 39 nH
21 x 38
Typ. 59 nH
Typ. 39 nH
Table 4
UPRATING VALUES AT REDUCED AMBIENT TEMPERATURE
SYMBOL
CONDITIONS
UR
Tamb > 85 °C to 125 °C
10
16
25
VALUES
40
63
100
UNIT
UR2
Tamb  85 °C
16
25
40
63
100
125
V
Note
• For applications at ambient temperatures of  85 °C, the rated voltage (UR) may be raised to UR2.
CAPACITANCE (C)
1.1
1.2
C
C0
1.1
3
2
1
1.0
0.9
C
C0
1.0
5
1
0.9
1
2
3
0.8
4
5
1
0.7
0.8
2
Curve 1: 63 V to 100 V
Curve 2: 25 V; 40 V
Curve 3: 10 V; 16 V
0.7
0.6
3
- 60 - 40
0.6
0.5
- 20
0
20
C0 = Capacitance at 20 °C, 100 Hz
40
60
80
100
120 140 160
Tamb (°C)
Fig. 5 - Typical multiplier of capacitance
as a function of ambient temperature
Revision: 19-Aug-14
10
Curve 1: 63 V to 100 V
Curve 2: 40 V
Curve 3: 25 V
Curve 4: 16 V
Curve 5: 10 V
10 2
10 3
f (Hz)
10 4
C0 = Capacitance at 20 °C, 100 Hz
Fig. 6 - Typical multiplier of capacitance
as a function of ambient temperature
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EQUIVALENT SERIES RESISTANCE (ESR)
102
102
ESR
ESR 0
Curve 1: 25 V to 100 V
Curve 2: 10 V; 16 V
2
1
ESR
ESR 0
Curve 1: 25 V to 100 V
Curve 2: 10 V; 16 V
2
1
10
10
1
1
1
1
2
2
10 -1
10 -1
- 100
- 50
0
50
100
- 100
150
Case Ø D x L = 6.5 mm x 18 mm to 15 mm x 30 mm
ESR0 = Typical at 20 °C, 100 Hz
- 50
Fig. 7 - Typical multiplier of ESR
as a function of ambient temperature
2.0
ESR
ESR 0
1.6
50
100
150
Fig. 8 - Typical multiplier of ESR
as a function of ambient temperature
1.4
ESR
ESR0
1.2
Curve 1: 63 V and 100 V
Curve 2: 25 V; 40 V
Curve 3: 10 V; 16 V
1
0
Case Ø D x L = 18 mm x 30 mm to 21 mm x 38 mm
ESR0 = Typical at 20 °C, 100 Hz
2
Curve 1: 10 V
Curve 2: 16 V; 25 V
Curve 3: 40 V to 100 V
3
2
1
1.0
3
1.2
0.8
1
2
3
0.6
0.8
3
2
1
0.4
0.4
0.2
0
0
10 2
10
10 3
10 4
f (Hz)
10 5
10 2
10
10 3
10 4
f (Hz)
10 5
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
ESR0 = Typical at 20 °C, 100 Hz
Case Ø D x L = 6.5 mm x 18 mm to 10 mm x 25 mm
ESR0 = Typical at 20 °C, 100 Hz
Fig. 9 - Typical multiplier of ESR as a function of frequency
Fig. 10 - Typical multiplier of ESR as a function of frequency
IMPEDANCE (Z)
103
103
Curve 1: 22 µF
Curve 2: 47 µF
Curve 3: 100 µF
Z
(Ω)
102
Curve 1: 100 µF
Curve 2: 220 µF
Curve 3: 470 µF
Z
(Ω)
1
102
2
1
3
2
10
10
3
1
1
10-1
10-1
10
102
103
104
105
106 f (Hz) 107
Case Ø D x L = 8 mm x 18 mm
Fig. 11 - Typical impedance as a function of frequency
Revision: 19-Aug-14
10
102
103
Case Ø D x L = 8 mm x 18 mm
104
105
106 f (Hz) 107
Tamb (°C)
Fig. 12 - Typical impedance as a function of frequency
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IMPEDANCE (Z)
103
103
Curve 1: 150 µF; 40 V
Curve 2: 220 µF; 40 V; 25 V
Curve 3: 330 µF; 25 V; 16 V
Curve 4: 470 µF; 25 V; 16 V; 10 V
Curve 5: 680 µF; 10 V
Z
(Ω)
102
102
1
2
3
4
5
10
Curve 1: 150 µF; 40 V
Curve 2: 220 µF; 40 V; 25 V
Curve 3: 330 µF; 25 V; 16 V
Curve 4: 470 µF; 25 V; 16 V; 10 V
Curve 5: 680 µF; 10 V
Z
(Ω)
1
2
3
4
5
10
1
1
10-1
10-1
102
10
103
104
105
Case Ø D x L = 12.5 mm x 30 mm
106 f (Hz) 107
102
10
103
104
105
Case Ø D x L = 18 mm x 30 mm
Tamb 40 °C
Fig. 13 - Typical impedance as a function of frequency
106 f (Hz) 107
Tamb 20 °C
Fig. 14 - Typical impedance as a function of frequency
103
102
Curve 1: 150 µF; 40 V
Curve 2: 220 µF; 40 V; 25 V
Curve 3: 330 µF; 25 V; 16 V
Curve 4: 470 µF; 25 V; 16 V; 10 V
Curve 5: 680 µF; 10 V
Z
(Ω)
102
1
10
2
3
4
5
1
10
Curve 1: 330 µF; 63 V
Curve 2: 680 µF; 40 V; 25 V
Curve 3: 1000 µF; 25 V
Curve 4: 1500 µF; 16 V; 10 V
Curve 5: 2200 µF; 10 V
Z
(Ω)
1
2
3
4
5
10-1
1
10-1
10-2
10
10
2
10
3
Case Ø D x L = 12.5 mm x 30 mm
4
10
5
10
6
10 f (Hz) 10
Tamb 20 °C
Fig. 15 - Typical impedance as a function of frequency
Revision: 19-Aug-14
7
10
102
103
Case Ø D x L = 18 mm x 30 mm
104
105
7
106 f (Hz) 10
Tamb 20 °C
Fig. 16 - Typical impedance as a function of frequency
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RIPPLE CURRENT AND USEFUL LIFE
MBC242
IA 4.3
IR
4.2
4.1
4.0
3.9
3.8
3.7
3.6
3.5
3.4
3.3
3.2
3.1
3.0
Lifetime multiplier
2.8
0
1.
5
1.
2.6
0
2.
0
3.
2.4
0
4.
0
6.
2.2
0
8.
2.0
12
30
60
1.4
1.2
1.0
0.8
0.5
0.0
0
20
(1)
0
40
Useful life at 125 °C and IR applied:
Case Ø D x L = 6.5 mm x 18 mm to
10 mm x 25 mm: 4000 h
Case Ø D x L = 10 mm x 30 mm to
21 mm x 38 mm: 8000 h
1.6
0
10
(1)
20
1.8
IA = Actual ripple current at 100 Hz
IR = Rated ripple current at 100 Hz, 125 °C
40
50
60
70
80
90
100
110
120
130
Tamb (°C)
Fig. 17 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 5
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 10 V AND 16 V
UR = 25 V AND 40 V
UR = 63 V TO 100 V
50
0.95
0.90
0.85
100
1.00
1.00
1.00
300
1.07
1.12
1.20
1000
1.12
1.20
1.30
3000
1.15
1.25
1.35
 10 000
1.20
1.30
1.40
Revision: 19-Aug-14
Document Number: 28335
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Table 6
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
REQUIREMENTS
IEC 60384-4/
EN 130300
subclause 4.13
Tamb = 125 °C; UR applied;
Case Ø D x L = 6.5 mm x 18 mm to
10 mm x 25 mm: 2000 h;
Case Ø D x L = 1 0 mm x 30 mm to 
2 1 mm x 38 mm: 4000 h
C/C: ± 15 %
tan   1.3 x spec. limit
Z  2 x spec. limit
IL5  spec. limit
Useful life
CECC 30301
subclause 1.8.1
Tamb = 125 °C; UR and IR applied;
Case Ø D x L = 6.5 mm x 18 mm to 
10 mm x 25 mm: 4000 h;
Case Ø D x L = 10 mm x 30 mm to 
21 mm x 38 mm: 8000 h
C/C: ± 45 %
tan   3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
no short or open circuit
total failure percentage:  1 %
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN 130300
subclause 4.17
Tamb = 125 °C; no voltage applied;
UR = 10 V to 63 V: 500 h;
UR = 100 V: 100 h

After test: UR to be applied for 30 min,
24 h to 48 h before measurement
C/C, tan , Z: 
for requirements 
see “Endurance test” above
IL5  2 x spec. limit
Reverse voltage
IEC 60384-4/
EN 130300
subclause 4.15
Tamb = 125 °C:
125 h at U = -1 V 
followed by 125 h at UR
C/C: ± 20 %
tan   spec. limit
IL5  spec. limit
Endurance
Revision: 19-Aug-14
Document Number: 28335
294
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Aluminum Capacitors
Axial High Temperature, High Ripple Current
FEATURES
119 AHT-DIN
smaller
dimensions
118 AHT
lower ESR
higher ripple
120 ATC
125 °C
138 AML
Fig. 1
QUICK REFERENCE DATA
DESCRIPTION
Nominal case sizes (Ø D x L in mm)
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Category temperature range
Endurance test at 150 °C
Endurance test at 125 °C
Useful life at 125 °C
Useful life at 85 °C, 1.4 x IR applied
Shelf life at 0 V, 125 °C
Shelf life at 0 V, 150 °C
Based on sectional specification
Climatic category IEC 60068
VALUE
10 x 30 to 21 x 38
47 μF to 6800 μF
± 20 %
16 V to 100 V
-40 °C to +125 °C
1000 h
4000 h
8000 h
40 000 h
1000 h
(100 V: 500 h)
 63 V: 500 h
IEC 60384-4/EN 130300
40/125/56
• Extra long useful life: Up to 8000 h at 125 °C
• Extended temperature range: Usable up to 150 °C
• Low ESR levels provide very high ripple current
capability
• Miniaturized, high CV-product per unit volume
• Polarized aluminum electrolytic capacitors, non-solid
electrolyte
• Axial leads, cylindrical aluminum case, insulated with a blue
sleeve
• Taped versions up to case Ø 15 mm x 30 mm available for
automatic insertion
• Lead diameter Ø d = 1.0 mm, available on request
• Material categorization: For definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
• Automotive, industrial and telecommunication
• Smoothing, filtering, buffering
• Low mounting height applications, vibration and shock
resistant
• SMPS and standard power supplies
MARKING
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance on rated capacitance, code letter in accordance
with IEC 60062 (M for ± 20 %)
• Rated voltage (in V)
• Upper category temperature (125 °C)
• Date code in accordance with IEC 60062
• Code for factory of origin
• Name of manufacturer
• Negative terminal identification
• Series number (120)
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZE (Ø D x L in mm)
CR
(μF)
47
68
100
150
220
330
470
680
1000
1500
2200
3300
4700
6800
Revision: 15-Oct-13
16
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
25
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
UR (V)
40
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
63
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
100
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
-
Document Number: 28336
295
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120 ATC
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Vishay BCcomponents
DIMENSIONS in millimeters AND AVAILABLE FORMS
73 ± 1.6
L
I
L
ØD
33 ± 1
Ød
Ød
ØD
F
F
Form AA: Axial in box
Case Ø D x L = 10 mm x 30 mm to 21 mm x 38 mm
Form BR: Taped on reel
Case Ø D x L = 6.5 mm x 18 mm to 15 mm x 30 mm
Fig. 2 - Form BR
Fig. 3 - Form AA
Table 1
AXIAL; DIMENSIONS in millimeters, MASS, AND PACKAGING QUANTITIES
AXIAL: FORM AA AND BR
NOMINAL CASE SIZE
ØDxL
(mm)
Ø d (1)
I
Ø Dmax.
Lmax.
Fmin.
MASS
(g)
10 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
0.8
0.8
0.8
0.8
0.8
0.8
55 ± 1
55 ± 1
55 ± 1
55 ± 1
34 ± 1
34 ± 1
10.5
13.0
15.5
18.5
18.5
21.5
30.5
30.5
30.5
30.5
39.5
39.5
35
35
35
35
44
44
4.8
7.4
11.7
 12.9
 19.0
24.0
PACKAGING QUANTITIES
FORM
FORM
AA
BR
340
500
260
400
200
250
120
125
100
-
Notes
(1) Lead diameter Ø d = 1.0 mm, available on request.
• For detailed tape dimensions, please see www.vishay.com/doc?28361.
D
120 °C
(3 x)
3.6 + 0.2
- 0.2
D3
90° ± 2°
(3 x)
-
L
1.05 + 0.03 (3 x)
- 0.1
1.3 + 0
(3 x)
- 0.05
d2
1.3 + 0.1 (3 x)
0
+ 1.0
1 - 0.5
Mounting holes
Ø d1
Case Ø D x L = 15 mm x 30 mm to 21 mm x 38 mm
Especially for applications with severe shocks and vibrations
Ø D2
Fig. 4 - Mounting hole diagram and outline; form MR: With mounting ring and pins
Table 2
MOUNTING RING; DIMENSIONS in millimeters, MASS, AND PACKAGING QUANTITIES
NOMINAL CASE SIZE
ØDxL
CASE
CODE
15 x 30
18 x 30
18 x 38
21 x 38
02
03
04
05
Revision: 15-Oct-13
Ø d1
0.8
0.8
0.8
0.8
Ø d2
1.0 + 0.4
1.0 + 0.4
1.0 + 0.4
1.0 + 0.4
MOUNTING RING: FORM MR
Ø Dmax.
Ø D2max.
D3
15.5
17.5
16.5 ± 0.2
18.5
19.5
18.5 ± 0.2
18.5
19.5
18.5 ± 0.2
21.5
22.5
21.5 ± 0.2
Lmax.
33
33
42
42
MASS
(g)
PACKAGING
QUANTITIES
 8.6
 11.5
 14.0
 19.2
200
240
100
100
Document Number: 28336
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ORDERING EXAMPLE
ELECTRICAL DATA
Electrolytic capacitor 120 series
SYMBOL
DESCRIPTION
CR
Rated capacitance at 100 Hz, tolerance ± 20 %
1000 μF/16 V; ± 20 %
IR
Rated RMS ripple current at 10 kHz, 125 °C
Nominal case size: Ø 12.5 mm x 30 mm; form BR
IL1
Max. leakage current after 1 min at UR
IL5
Max. leakage current after 5 min at UR
Ordering code: MAL212025102E3
Former 12NC: 2222 120 25102
ESR
Equivalent series resistance at 100 Hz
(calculated from tan max. and CR)
Z
Max. impedance at 10 kHz
Note
• Unless otherwise specified, all electrical values in Table 3 apply
at Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
Table 3
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
16
25
40
63
100
Z
MAX.
TYP.
IR
MAX.
NOMINAL
TYP.
IL1
IL5
CR
MAX.
ESR
ESR
ESR
CASE SIZE 10 kHz
ESR
100 Hz
1 min 5 min
125 °C
ØDxL
100 Hz 100 Hz 10 kHz 10 kHz 10 kHz
(μF)
(μA)
(μA)
(m)
(m)
(m)
(m)
(mA)
(mm)
(m)
680
1000
1500
2200
3300
4700
6800
470
680
1000
1500
2200
3300
4700
220
330
470
680
1000
1500
2200
100
150
220
330
470
680
1000
47
68
100
150
220
330
470
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
10 x 30
12.5 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
Revision: 15-Oct-13
2100
2550
2650
2940
3430
4350
4590
2100
2550
2600
2890
3310
4350
4470
1990
2430
2550
2840
3150
4130
4170
1560
2050
2150
2510
2860
3720
3780
760
1030
1140
1480
1960
2550
2800
171
232
328
462
674
942
1346
181
244
340
490
700
1030
1450
146
198
266
366
520
760
1096
116
153
206
289
395
554
796
96
122
160
220
304
436
604
84
104
136
181
251
341
475
87
108
140
190
260
370
510
75
93
115
149
200
280
392
65
78
95
123
158
211
292
59
67
80
100
128
172
228
106
77
60
48
41
27
26
112
81
64
49
43
28
27
192
130
101
75
59
39
34
297
195
149
105
81
55
44
760
531
389
266
181
120
92
177
128
100
79
68
45
43
187
136
107
82
71
47
44
320
216
169
125
99
65
56
495
325
249
175
135
92
74
1269
885
648
443
302
200
154
44
35
32
28
26
18
18
45
35
32
28
27
18
18
52
37
35
30
28
19
19
92
61
55
44
38
26
25
349
246
196
137
95
62
52
74
58
53
46
43
29
29
74
59
53
46
44
29
29
87
62
58
50
47
31
31
154
102
92
73
64
43
41
581
410
327
229
158
104
86
78
61
53
46
43
29
29
84
64
55
46
44
29
29
124
83
70
55
49
32
31
249
162
126
91
74
49
43
720
503
381
262
179
117
94
ORDERING CODE MAL2120.......
IN BOX
FORM AA
TAPED
ON REEL
FORM BR
MOUNTING
RING
FORM MR
15681E3
15102E3
15152E3
15222E3
15332E3
15472E3
15682E3
16471E3
16681E3
16102E3
16152E3
16222E3
16332E3
16472E3
17221E3
17331E3
17471E3
17681E3
17102E3
17152E3
17222E3
18101E3
18151E3
18221E3
18331E3
18471E3
18681E3
18102E3
19479E3
19689E3
19101E3
19151E3
19221E3
19331E3
19471E3
25681E3
25102E3
25152E3
25222E3
26471E3
26681E3
26102E3
26152E3
27221E3
27331E3
27471E3
27681E3
28101E3
28151E3
28221E3
28331E3
29479E3
29689E3
29101E3
29151E3
-
45222E3
45332E3
45472E3
45682E3
46152E3
46222E3
46332E3
46472E3
47681E3
47102E3
47152E3
47222E3
48331E3
48471E3
48681E3
48102E3
49151E3
49221E3
49331E3
49471E3
Document Number: 28336
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Vishay BCcomponents
ADDITIONAL ELECTRICAL DATA
PARAMETER
VALUE
CONDITIONS
AXIAL
Voltage
Surge voltage
Reverse voltage
Current
MOUNTING RING
Us  1.15 x UR
Urev  1 V
IL1  0.012 CR x UR + 40 μA
IL5  0.004 CR x UR + 40 μA
After 1 min at UR
After 5 min at UR
Leakage current
Inductance
Case Ø D x L mm:
10 x 30
12.5 x 30
15 x 30
18 x 30
18 x 38
21 x 38
Equivalent series inductance (ESL)
CAPACITANCE (C)
Typ. 38 nH
Typ. 46 nH
Typ. 48 nH
Typ. 50 nH
Typ. 54 nH
Typ. 59 nH
Typ. 39 nH
Typ. 39 nH
Typ. 39 nH
Typ. 39 nH
EQUIVALENT SERIES RESISTANCE (ESR)
10
1.2
C
C0
ESR
ESR 0
1.1
1.0
1
2
3
1
4
Curve 1: All case sizes; 100 Hz
Curve 2: Case Ø D x L = 18 x 38 and 21 x 38 mm; 10 to 100 kHz
Curve 3: Case Ø D x L = 15 x 30 and 18 x 30 mm; 10 to 100 kHz
Curve 4: Case Ø D x L = 10 x 30 and 12.5 x 30 mm; 10 to 100 kHz
0.9
0.8
10-1
- 40
- 20
0
- 20
- 40
- 60
- 80 - 100 - 120 - 140 - 160
All voltages; all case sizes
C0 = Capacitance at 20 °C, 100 Hz
- 40
- 20
0
- 20
- 40
- 60
- 80 - 100
≤ 40 V types
ESR0 = Typical at 20 °C
Tamb (°C)
Fig. 5 - Typical multiplier of capacitance as a function
of ambient temperature
- 120
- 140 - 160
Tamb (°C)
Fig. 6 - Typical multiplier of ESR as a function of ambient
temperature at different frequencies
10
102
ESR
ESR0
ESR
ESR0
10
1
1
2
3
1
1
2
Curve 1: All case sizes; 100 Hz
4
Curve 2: Case Ø D x L = 18 x 38 and 21 x 38 mm; 10 to 100 kHz
Curve 3: Case Ø D x L = 15 x 30 and 18 x 30 mm; 10 to 100 kHz
Curve 4: Case Ø D x L = 10 x 30 and 12.5 x 30 mm; 10 to 100 kHz
10-1
10-1
- 40
- 20
0
- 20
63 V types
ESR0 = Typical at 20 °C
- 40
- 60
- 80 - 100
- 120
- 140
- 160
Tamb (°C)
Fig. 7 - Typical multiplier of ESR as a function of ambient
temperature at different frequencies
Revision: 15-Oct-13
- 40
Curve 1: All case sizes; 100 Hz
3
Curve 2: Case Ø D x L = 18 x 38 and 21 x 38 mm; 10 to 100 kHz
Curve 3: Case Ø D x L = 10 x 30 and 18 x 30 mm; 10 to 100 kHz
- 20
0
- 20
100 V types
ESR0 = Typical at 20 °C
- 40
- 60
- 80 - 100
- 120
- 140
- 160
Tamb (°C)
Fig. 8 - Typical multiplier of ESR as a function of ambient
temperature at different frequencies
Document Number: 28336
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Vishay BCcomponents
RIPPLE CURRENT AND USEFUL LIFE
JW64
3.6
IA
3.5
IR
3.4
3.3
3.2
3.1
3.0
2.8
2.6
2.4
Lifetime multiplier
5
12
0. 5
2
0.
5
0.
1.0
5
1.
2.2
2.0
0
2.
0
3.
1.8
0
4.
0
6.
12
20
1.4
30
10
0
0
40
Useful life at 125 °C and IR applied: 8000 h
(1)
0
(1)
1.0
0.8
0.5
0.0
20
IR = Rated ripple current at 10 kHz, 125 °C
60
1.2
IA = Actual ripple current at 10 kHz
0
8.
1.6
40
50
60
70
80
90
100
110
120
130
140
150
Tamb (°C)
Fig. 9 - Multiplier of useful life as a function of ambient temperature and ripple current load
Table 4
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
UR = 16 V TO 40 V
CASE SIZES
(10 x 30 to 15 x 30) mm
UR = 16 V TO 40 V
CASE SIZES
(18 x 30 to 21 x 38) mm
UR = 63 V AND 100 V
CASE SIZES
(10 x 30 to 15 x 30) mm
UR = 63 V AND 100 V
CASE SIZES
(18 x 30 to 21 x 38) mm
50
0.37
0.54
0.23
0.44
100
0.48
0.63
0.32
0.56
300
0.69
0.75
0.53
0.76
1000
0.86
0.81
0.77
0.88
3000
0.96
0.87
0.93
0.94
 10 000
1.00
1.00
1.00
1.00
Revision: 15-Oct-13
Document Number: 28336
299
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Table 5
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
Endurance
Useful life
REFERENCE
IEC 60384-4/
EN 130300
subclause 4.13
CECC 30301
subclause 1.8.1
PROCEDURE
(quick reference)
REQUIREMENTS
Tamb = 125 °C; UR applied; 
4000 h

Tamb = 150 °C; UR applied;
1000 h
C/C: ± 15 %
tan   1.3 x spec. limit
Z  2 x spec. limit
IL5  spec. limit
Tamb = 125 °C; UR and IR applied; 
8000 h
C/C: ± 45 %
tan   3 x spec. limit
Z  3 x spec. limit
IL5  spec. limit
no short or open circuit
total failure percentage: 1 %
Tamb = 125 °C; no voltage applied; 
1000 h (100 V: 500 h)
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN 130300
subclause 4.17
Tamb = 150 °C; no voltage applied; 
500 h for voltages: 63 V

After test: UR to be applied for 30 min,
24 h to 48 h before measurement
Reverse voltage
IEC 60384-4/
EN 130300
subclause 4.15
Tamb = 125 °C:
125 h at U = -1 V 
Followed by 125 h at UR
Revision: 15-Oct-13
C/C, tan , Z: 
For requirements 
see “Endurance test” above
IL5  2 x spec. limit
C/C: ± 20 %
tan   spec. limit
IL5  spec. limit
Document Number: 28336
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123 SAL-A
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Vishay BCcomponents
Aluminum Capacitors
Solid Axial
FEATURES
123
SAL-A
128
SAL-RPM
Radial higher
CV/volume
Fig. 1
QUICK REFERENCE DATA
DESCRIPTION
VALUE
Maximum case size 
(Ø D x L in mm)
6.7 x 15.3 to 12.9 x 32.0
Rated capacitance range
(E6 series), CR
Tolerance on CR
6.3 V to 40 V
Category temperature range
- 55 °C to + 125 °C
Useable temperature range
- 80 °C to + 200 °C
Endurance test at 155 °C
and 125 °C
5000 h and 8000 h
Useful life at 125 °C
20 000 h
Useful life at 40 °C, IR applied
450 000 h
Shelf life at 0 V, 125 °C
Based on sectional specification
Climatic category IEC 60068
• EDP, telecommunication, industrial high temperature,
automotive, military and space
• Smoothing, filtering, buffering, timing
• For power supplies, DC/DC converters
MARKING
500 h
IEC 60384-4/EN130300
55/125/56
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.
APPLICATIONS
1.0 μF to 1000 μF
± 20 %; ± 10 % on request
Rated voltage range, UR
• Polarized aluminum electrolytic capacitors,
solid electrolyte MnO2
Available
• Axial leads, aluminum case, ceramic seal, blue
insulation sleeve
Available
• SAL-A: standard version
• SAL-AG: epoxy filled shock-proof version up to 10 000 g
• Extremely long useful life: 20 000 h at 125 °C
• Extended high temperature range up to 200 °C
• Excellent low temperature impedance and ESR behaviour
• Charge and discharge proof, application with
0  resistance allowed
• Reverse DC voltage up to 0.3 x UR allowed
• AC voltage up to 0.8 x UR allowed
• Advanced technology to achieve high reliability and high
stability
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
The capacitors are marked (where possible) with the
following information:
• Rated capacitance (in μF)
• Tolerance code on rated capacitance, code letter in
accordance with IEC 60062 (M = ± 20 %, K = ± 10 %)
• Rated voltage (in V) at corresponding maximum
temperature
• Date code in accordance with IEC 60062
• Name of manufacturer
• Code for factory of origin
• Band to indicate the negative terminal
• “+” sign to identify the positive terminal
• Series number
SELECTION CHART FOR CR, UR, AND RELEVANT MAXIMUM CASE SIZES (Ø D x L in mm)
CR
(μF)
1.0
1.5
2.2
3.3
4.7
6.8
10
15
Revision: 05-May-13
6.3
10
6.3
-
10
-
UR (V) AT Tamb = 85 °C
16
25
UC (V) AT Tamb = 125 °C
16
25
6.7 x 15.3
6.7 x 15.3
6.7 x 15.3
6.7 x 15.3
35
40
25
6.7 x 15.3
6.7 x 15.3
6.7 x 15.3
6.7 x 15.3
6.7 x 15.3
6.7 x 15.3
7.6 x 20.4
7.6 x 20.4
25
6.7 x 15.3
6.7 x 15.3
6.7 x 15.3
6.7 x 15.3
7.6 x 20.4
7.6 x 20.4
Document Number: 28355
301
For technical questions, contact: [email protected]
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
123 SAL-A
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Vishay BCcomponents
SELECTION CHART FOR CR, UR, AND RELEVANT MAXIMUM CASE SIZES (Ø D x L in mm)
6.3
10
6.3
6.7 x 15.3
6.7 x 15.3
7.6 x 20.4
9.4 x 23.3
10.3 x 32.0
12.9 x 32.0
10
6.7 x 15.3
6.7 x 15.3
7.6 x 20.4
7.6 x 20.4
9.4 x 23.3
9.4 x 23.3
10.3 x 32.0
10.3 x 32.0
12.9 x 32.0
12.9 x 32.0
CR
(μF)
22
33
47
68
100
150
220
330
470
680
1000
UR (V) AT Tamb = 85 °C
16
25
UC (V) AT Tamb = 125 °C
16
25
6.7 x 15.3
7.6 x 20.4
7.6 x 20.4
7.6 x 20.4
7.6 x 20.4
7.6 x 20.4
7.6 x 20.4
9.4 x 23.3
9.4 x 23.3
9.4 x 23.3
9.4 x 23.3
10.3 x 32.0
10.3 x 32.0
12.9 x 32.0
10.3 x 32.0
12.9 x 32.0
-
35
40
25
7.6 x 20.4
9.4 x 23.3
9.4 x 23.3
10.3 x 32.0
12.9 x 32.0
12.9 x 32.0
-
25
9.4 x 23.3
9.4 x 23.3
10.3 x 32.0
10.3 x 32.0
12.9 x 32.0
-
DIMENSIONS in millimeters AND AVAILABLE FORMS
ØD
Ød
Lmax.
F
BA: taped in box (ammopack)
BR: taped on reel
73
Fig. 2 - Forms: BA and BR
Table 1
DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES
CASE
MAXIMUM SIZE Ø D x L (1)
6.7 x 15.3
7.6 x 20.4
9.4 x 23.3
10.3 x 32.0
12.9 x 32.0
CODE
1
2A
4
5
6
Fmax.
Ød
MASS (2)
(g)
20.0
22.5
25.0
35.0
35.0
0.6
0.6
0.6
0.8
0.8
 1.05
 1.55
 2.60
 4.20
 7.00
PACKAGING QUANTITIES
FORM BA
FORM BR
100
800
100
800
100
500
100
500
100
400
Notes
(1) For epoxy-filled versions add 1 mm to stated L
max..
(2) Add 10 % for SAL-AG epoxy-filled versions.
• Detailed tape dimensions see www.vishay.com/doc?28361.
CARDBOARD BOX DIMENSIONS, L x W x H (mm)
SOLID TYPES FORM BA
6.7 x 15.3
7.6 x 20.4
9.4 x 23.3
10.3 x 32.0
12.9 x 32.0
110 x 95 x 70
110 x 95 x 70
110 x 95 x 85
160 x 95 x 85
160 x 95 x 120
SOLID TYPES FORM BR
all
Revision: 05-May-13
370 x 370 x 115
Document Number: 28355
302
For technical questions, contact: [email protected]
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
123 SAL-A
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ELECTRICAL DATA
SYMBOL
CR
IR
IL5
tan 
ESR
Z
DESCRIPTION
Rated capacitance at 100 Hz
Max. RMS ripple current,
no necessary DC voltage applied
Max. leakage current after 5 min at UR
Max. dissipation factor at 100 Hz
Max./typ. equivalent series resistance at 100 Hz
Max. impedance at 100 kHz
Note
• Unless otherwise specified, all electrical values in Table 2 apply
at Tamb = 20 to 25 °C, P = 86 to 106 kPa, RH = 45 to 75 %.
Vishay BCcomponents
ORDERING EXAMPLE
Electrolytic capacitors 123 series
10 μF/16 V; ± 20 %
Maximum case size: Ø 6.7 x 15.3 mm; form BR
for lead (Pb)-free:
Ordering code: MAL2 123 25109 E3 
Former 12NC: 2281 123 25109
for non lead (Pb)-free:
Ordering code: MAL2 123 25109
Former 12NC: 2222 123 25109
Table 2
ELECTRICAL DATA AND ORDERING INFORMATION for 123 series
UC UR
(V) (V)
6.3 6.3
10
10
16
16
25
25
ORDERING CODE
MAL2123.....E3 LEAD (Pb)-FREE
MAL2123 ..... NON LEAD (Pb)-FREE
MAX.
IR
IR
IR
MAX.
TYP.
IL5
CR
Z
CASE
SAL-AG (1)
tan 
100 Hz 10 kHz 100 kHz
ESR
ESR
SAL-AG (1)
SAL-A
SAL-A
100 Hz
SIZE
FORM
125 °C 85 °C
40 °C 5 min 100 Hz 100 Hz 100 Hz 100 kHz FORM FORM
FORM
()
(μF)
ØDxL
(μA)
BA
(mA)
(mA)
(mA)
()
()
BA
BR
BA
(mm)
TOL.
TOL.
TOL.
TOL.
±
10
%
± 20 % ± 20 %
± 20 %
LEVEL S
47
6.7 x 15.3
58
440
640
15
0.18
7.6
3.0
1.2
13479 23479
83479
63479
68
6.7 x 15.3
83
520
760
21
0.18
5.3
2.6
1.2
13689 23689
83689
63689
150
7.6 x 20.4
160
870
1270
47
0.18
2.4
1.5
1.0
13151 23151
83151
63151
330
9.4 x 23.3
330
1470
2140
104
0.18
1.1
0.55
0.4
13331 23331
83331
63331
680
10.3 x 32.0
680
2340
3410
214
0.18
0.55
0.28
0.3
13681 23681
83681
63681
1000 12.9 x 32.0
940
3180
4640
315
0.18
0.36
0.19
0.2
13102 23102
83102
63102
33
6.7 x 15.3
63
360
530
17
0.18
11
3.8
1.2
14339 24339
84339
64339
47
6.7 x 15.3
83
440
640
24
0.18
7.6
4.0
1.2
14479 24479
84479
64479
68
7.6 x 20.4
110
590
850
34
0.18
5.3
2.5
1.0
14689 24689
84689
64689
100
7.6 x 20.4
160
710
1040
50
0.18
3.6
1.8
1.0
14101 24101
84101
64101
150
9.4 x 23.3
240
990
1450
75
0.18
2.4
0.9
0.4
14151 24151
84151
64151
220
9.4 x 23.3
350
1180
1720
110
0.18
1.7
0.6
0.4
14221 24221
84221
64221
330
10.3 x 32.0
490
1650
2410
165
0.18
1.1
0.45
0.3
14331 24331
84331
64331
470
10.3 x 32.0
570
1940
2830
235
0.18
0.8
0.35
0.3
14471 24471
84471
64471
680
12.9 x 32.0
760
2580
3750
340
0.18
0.55
0.25
0.2
14681 24681
84681
64681
1000 12.9 x 32.0 1000
3380
4920
500
0.18
0.36
0.18
0.2
14102 24102
84102
64102
10
6.7 x 15.3
31
230
330
16
0.14
28
8.0
2.5
15109 25109
85109
65109
15
6.7 x 15.3
47
280
400
24
0.14
19
5.5
2.5
15159 25159
85159
65159
22
6.7 x 15.3
63
340
490
35
0.14
13
5.5
2.5
15229 25229
85229
65229
33
7.6 x 20.4
89
470
680
55
0.14
8.4
3.0
2.0
15339 25339
85339
65339
47
7.6 x 20.4
120
560
810
75
0.14
5.9
2.6
2.0
15479 25479
85479
65479
68
7.6 x 20.4
180
670
970
110
0.14
4.1
2.5
2.0
15689 25689
85689
65689
100
9.4 x 23.3
260
920
1340
160
0.14
2.8
1.5
0.8
15101 25101
85101
65101
150
9.4 x 23.3
310
1060
1550
240
0.16
2.1
0.7
0.8
15151 25151
85151
65151
220
10.3 x 32.0
420
1420
2060
350
0.16
1.5
0.55
0.6
15221 25221
85221
65221
330
10.3 x 32.0
510
1740
2530
500
0.16
1.0
0.35
0.6
15331 25331
85331
65331
470
12.9 x 32.0
680
2280
3330
750
0.16
0.7
0.25
0.4
15471 25471
85471
65471
10
6.7 x 15.3
43
230
330
25
0.14
28
13.0
5
16109 26109
86109
66109
15
6.7 x 15.3
60
280
400
35
0.14
19
10.0
5.0
16159 26159
86159
66159
22
7.6 x 20.4
88
370
550
55
0.14
13
7
2.5
16229 26229
86229
66229
33
7.6 x 20.4
130
470
680
85
0.14
8.4
5
2.5
16339 26339
86339
66339
47
7.6 x 20.4
160
560
810
100
0.14
5.9
3.5
2.5
16479 26479
86479
66479
68
9.4 x 23.3
230
760
1110
170
0.14
4.1
1.8
1.0
16689 26689
86689
66689
100
9.4 x 23.3
250
860
1250
250
0.16
3.2
1.0
1.0
16101 26101
86101
66101
150
10.3 x 32.0
350
1200
1740
400
0.16
2.1
1.2
0.8
16151 26151
86151
66151
220
12.9 x 32.0
460
1560
2270
550
0.16
1.5
0.85
0.6
16221 26221
86221
66221
Revision: 05-May-13
Document Number: 28355
303
For technical questions, contact: [email protected]
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
123 SAL-A
www.vishay.com
Vishay BCcomponents
ELECTRICAL DATA AND ORDERING INFORMATION for 123 series
ORDERING CODE
MAL2123.....E3 LEAD (Pb)-FREE
MAL2123 ..... NON LEAD (Pb)-FREE
MAX.
IR
IR
IR
MAX.
TYP.
CR
IL5
Z
CASE
SAL-AG (1)
tan 
UC UR
100 Hz 10 kHz 100 kHz
ESR
ESR
SAL-A
SAL-A
SAL-AG (1)
SIZE
FORM
(V) (V) 100 Hz
125 °C 85 °C
40 °C 5 min 100 Hz 100 Hz 100 Hz 100 kHz FORM FORM
FORM
()
(μF)
ØDxL
(μA)
BA
(mA)
(mA)
(mA)
()
()
BA
BR
BA
(mm)
TOL.
TOL.
TOL.
TOL.
±
10
%
± 20 % ± 20 %
± 20 %
LEVEL S
1.0
6.7 x 15.3
4
55
80
5
0.12
240
105
16.5
10108 20108
80108
60108
1.5
6.7 x 15.3
7
68
98
5
0.12
160
40.60
11.0
10158 20158
80158
60158
2.2
6.7 x 15.3
10
82
120
5
0.12
109
30
7.5
10228 20228
80228
60228
3.3
6.7 x 15.3
14
100
150
7
0.12
73
28
7.5
10338 20338
80338
60338
4.7
6.7 x 15.3
20
120
170
10
0.12
51
20
7.5
10478 20478
80478
60478
6.8
6.7 x 15.3
27
140
210
15
0.12
35
16
7.5
10688 20688
80688
60688
10
7.6 x 20.4
37
200
280
20
0.12
24
10
2.5
10109 20109
80109
60109
25 35
15
7.6 x 20.4
53
240
350
30
0.12
16
8
2.5
10159 20159
80159
60159
22
7.6 x 20.4
78
290
420
45
0.12
11
7
2.5
10229 20229
80229
60229
33
9.4 x 23.3
120
410
590
65
0.12
7.2
3
1.0
10339 20339
80339
60339
47
9.4 x 23.3
140
480
700
95
0.12
5.1
2.9
1.0
10479 20479
80479
60479
68
10.3 x 32.0
170
570
820
135
0.16
4.7
2.1
0.8
10689 20689
80689
60689
100
12.9 x 32.0
220
760
1100
200
0.16
3.2
1.7
0.6
10101 20101
80101
60101
150
12.9 x 32.0
290
990
1440
300
0.16
2.1
1.0
0.6
10151 20151
80151
60151
2.2
6.7 x 15.3
11
82
120
9
0.12
109
38
7.5
17228 27228
87228
67228
3.3
6.7 x 15.3
16
100
150
13
0.12
73
25
7.5
17338 27338
87338
67338
4.7
6.7 x 15.3
22
120
170
19
0.12
51
20
7.5
17478 27478
87478
67478
6.8
6.7 x 15.3
28
140
210
27
0.12
35
15
7.5
17688 27688
87688
67688
10
7.6 x 20.4
41
200
280
40
0.12
24
11
2.5
17109 27109
87109
67109
15
7.6 x 20.4
61
240
350
60
0.12
16
7
2.5
17159 27159
87159
67159
25 40
22
9.4 x 23.3
89
330
480
90
0.12
11
4
1.5
17229 27229
87229
67229
33
9.4 x 23.3
120
410
590
130
0.12
7.2
2.9
1.0
17339 27339
87339
67339
47
10.3 x 32.0
160
540
790
190
0.12
5.1
2.7
1.0
17479 27479
87479
67479
68
10.3 x 32.0
170
570
820
270
0.16
4.7
2.3
0.8
17689 27689
87689
67689
100
12.9 x 32.0
220
760
1100
400
0.16
3.2
1.6
0.6
17101 27101
87101
67101
Note
(1) SAL-AG types are epoxy-filled.
ADDITIONAL ELECTRICAL DATA
PARAMETER
Voltage
Surge voltage
Reverse voltage
Maximum peak AC voltage,
reverse voltage applied
Maximum peak AC voltage,
without reverse voltage applied
CONDITIONS
VALUE
Us  1.15 x UR
Urev < 0.3 x UR
2V
Tamb  85 °C at:
f  0.1 Hz
0.1 Hz < f  1 Hz
1 Hz < f  10 Hz
10 Hz < f  50 Hz
f > 50 Hz
85 °C < Tamb  125 °C at:
f  0.1 Hz
0.1 Hz < f  1 Hz
1 Hz < f  10 Hz
10 Hz < f  50 Hz
f > 50 Hz
0.30 x UR
0.45 x UR
0.60 x UR
0.65 x UR
0.80 x UR
0.15 x UR
0.22 x UR
0.30 x UR
0.32 x UR
0.40 x UR
Current
Maximum leakage current
After 5 min at UR and Tamb = 25 °C
IL5  0.05 CR x UR or 2 μA, whichever is greater;
see Table 2
Typical leakage current
After 15 s at UR and Tamb = 25 °C:
UR = 6.3 V to 16 V
UR = 25 V to 40 V
0.2 x value stated in Table 2
0.1 x value stated in Table 2
Revision: 05-May-13
Document Number: 28355
304
For technical questions, contact: [email protected]
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
123 SAL-A
www.vishay.com
Vishay BCcomponents
VOLTAGE
RIPPLE CURRENT (IR)
40
(1)
35
(2)
(1)
UC = 125 °C
UC = 175 °C
(2)
Tamb
PARAMETER
25 °C 40 °C 65 °C 85 °C 105 °C 125 °C
UR
(V)
IR multiplier
25
1.1
1.0
0.88
0.75
0.59
0.37
Notes
(1) Applying the maximum RMS ripple current given in Table 2
will cause a device temperature of 138 °C.
(2) The 100 kHz values in Table 2 for other temperatures are to
be calculated with the above IR multipliers.
16
10
6.3
4
0
- 50
0
50
85
100
125
150 175
Tamb (°C)
Fig. 3 - Maximum permissible voltage up to 175 °C
LEAKAGE CURRENT
10 2
10
reverse voltage
I
I01
I
I 02
10
1
1
10
-1
I01 = leakage current during continuous operation
at UR and Tamb = 25 °C
- 50
0
50
150
100
10-1
I02 = leakage current at UR at a
discrete constant temperature
- 0.4
0
0.4
Tamb (°C)
Fig. 5 - Typical multiplier of leakage current as a function of U/UR
DISSIPATION FACTOR (tan )
1.1
standard deviation σ
C
C0
1.0
0.9
2.4
tan δ
tan δ0
2.0
Typical tan δ at 100 Hz and Tamb = 25 °C:
0.6 x value stated in Table 2
standard deviation σ
CAPACITANCE (C)
1.6
1.2
0.8
0.05
σ
0.4
0.8
C0 = capacitance at 25 °C and 100 Hz
0
40
80
0
120
160
200
Tamb (°C)
Fig. 6 - Typical multiplier of capacitance as a function of
ambient temperature
Revision: 05-May-13
0.25
0
σ
0
- 40
0.8
UR
Fig. 4 - Typical multiplier of leakage current as a function of
ambient temperature
- 80
U
- 80
- 40
0
40
80
120
160
200
Tamb (°C)
Fig. 7 - Typical multiplier of dissipation factor as a function of
ambient temperature
Document Number: 28355
305
For technical questions, contact: [email protected]
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
123 SAL-A
www.vishay.com
Vishay BCcomponents
MAXIMUM POWER DISSIPATION
MAXIMUM CASE SIZE
ØDxL
(mm)
Pmax. = P125
(W)
6.7 x 15.3
0.13
7.6 x 20.4
0.16
9.4 x 23.3
0.21
10.3 x 32.0
0.26
12.9 x 32.0
0.32
EQUIVALENT SERIES INDUCTANCE (ESL), f = 10 MHz
MAXIMUM CASE SIZE
ØDxL
(mm)
PITCH
(mm)
MAX. ESL
(nH)
TYP. ESL
(nH)
6.7 x 15.3
20.3
30
15 to 23
7.6 x 20.4
25.4
30
16 to 24
9.4 x 23.3
27.9
35
20 to 27
10.3 x 32.0
35.6
40
26 to 33
12.9 x 32.0
35.6
55
32 to 49
IMPEDANCE (Z)
Typical impedance at 100 kHz and Tamb = 25 °C: 0.5 x value stated in Table 2.
3.5
Z
1
Z0
3.0
2
3
2.5
1
2.0
2
3
- 55 °C
1.5
- 25 °C
+ 25 °C
1.0
3
+ 85 °C
0.5
2
1
3
+ 175 °C
2
1
0
10
10 2
10 3
10 4
10 5
1
1
4
7
10
10 6
f (Hz)
10 7
10
3
standard deviation σ (%)
Curve 1: Case Ø D x L = 6.7 mm x 15.3 mm and 7.6 mm x 20.4 mm; 16 V to 40 V
Curve 2: Case Ø D x L = 6.7 mm x 15.3 mm and 7.6 mm x 20.4 mm; 6.3 V to 10 V
Curve 3: Case Ø D x L = 9.4 mm x 32.0 mm, 10.3 mm x 32.0 mm and 12.9 mm x 32.0 mm
Z0 = Initial impedance value at any frequency and Tamb = 25 °C
Fig. 8 - Typical multiplier of impedance as a function of frequency at different ambient temperatures
Revision: 05-May-13
Document Number: 28355
306
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IMPEDANCE (Z)
103
104
Z
(Ω)
Curve 1: 10 µF, 16 V
Curve 2: 15 µF, 16 V
Curve 3: 22 µF, 16 V
Curve 4: 33 µF, 10 V
Curve 5: 47 µF, 6.3 and 10 V
Curve 6: 68 µF, 6.3 V
1
2
3
4
5
6
102
Z
(Ω)
102
1
10
Case Ø D x L = 6.7 x 15.3 mm;
UR = 25 to 40 V
Case Ø D x L = 6.7 x 15.3 mm; UR = 6.3 to 16 V
10-1
1
2
3
4
5
6
103
10
Curve 1: 2.2 µF, 35 and 40 V
Curve 2: 3.3 µF, 40 V
Curve 3: 4.7 µF, 35 and 40 V
Curve 4: 6.8 µF, 35 and 40 V
Curve 5: 10 µF, 25 V
Curve 6: 15 µF, 25 V
1
102
10
103
104
105
106 f (Hz) 107
10
102
103
104
105
Tamb = 25 °C
Tamb = 25 °C
Fig. 9 - Typical impedance as a function of frequency
Fig. 10 - Typical impedance as a function of frequency
103
103
Curve 1: 33 µF, 16 V
Curve 2: 47 µF, 16 V
Curve 3: 68 µF, 10 V
Curve 4: 100 µF, 6.3 and 10 V
Curve 5: 150 µF, 6.3 V
Z
(Ω)
102
1
2
3
4
5
10
Z
(Ω)
Curve 1: 10 µF, 35 and 40 V
Curve 2: 15 µF, 35 and 40 V
Curve 3: 22 µF, 25 and 40 V
Curve 4: 33 µF, 25 V
Curve 5: 47 µF, 25 V
Curve 6: 68 µF, 16 V
1
2
3
4
5
6
102
10
1
1
10-1
Case Ø D x L = 6.7 x 20.4 mm
UR = 6.3 to 16 V
10
10
2
3
10
10-1
10
4
10
5
6
7
10 f (Hz) 10
Case Ø D x L = 6.7 x 20.4 mm; UR = 16 to 40 V
10
102
103
104
105
Tamb = 25 °C
Fig. 12 - Typical impedance as a function of frequency
103
102
Curve 1: 150V, 10 V
Curve 2: 220 V, 10V
Curve 3: 330 V, 6.3 V
Z
(Ω)
10
1
2
3
4
5
6
10
1
-1
Curve 1: 22 µF, 40 V
Curve 2: 33 µF, 35 and 40 V
Curve 3: 47 µF, 35 V
Curve 4: 68 µF, 25 V
Curve 5: 100 µF, 16 and 25 V
Curve 6: 150 µF, 16 V
Z
(Ω)
102
1
2
3
1
10
-2
106 f (Hz) 107
Tamb = 25 °C
Fig. 11 - Typical impedance as a function of frequency
10
106 f (Hz) 107
Case Ø D x L = 9.4 x 23.3 mm; UR = 6.3 to 10 V
10
102
103
104
105
10-1
106 f (Hz) 107
Tamb = 25 °C
Fig. 13 - Typical impedance as a function of frequency
Revision: 05-May-13
Case Ø D x L = 9.4 x 23.3 mm;
UR = 16 to 40 V
10
102
103
104
105
106 f (Hz) 107
Tamb = 25 °C
Fig. 14 - Typical impedance as a function of frequency
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IMPEDANCE (Z)
102
103
Curve 1: 220 µF, 16 V
Curve 2: 330 µF, 16 V
Curve 3: 330 µF, 10 V
Curve 4: 470 µF, 10 V
Curve 5: 680 µF, 6.3 V
Z
(Ω)
1
2
3
4
5
10
1
Curve 1: 47 V, 40 V
Curve 2: 68 V, 35 and 40 V
Curve 3: 150 V, 25 V
Z
(Ω)
102
1
2
3
10
-1
1
10
10-2
Case Ø D x L = 10.3 x 32.0 mm; UR = 6.3 to 16 V
102
10
103
104
105
10-1
106 f (Hz) 107
Case Ø D x L = 10.3 x 32.0 mm;
UR = 25 to 40 V
102
10
103
104
105
106 f (Hz) 107
Tamb = 25 °C
Tamb = 25 °C
Fig. 15 - Typical impedance as a function of frequency
Fig. 16 - Typical impedance as a function of frequency
102
102
Curve 1: 680 µF, 10 V
Curve 2: 1000 µF, 6.3 V
Curve 3: 1500 µF, 6.3 V
Z
(Ω)
10
Z
(Ω)
1
1
10-1
10-1
10-2
Case Ø D x L = 12.9 x 32.0 mm; UR = 6.3 to 10 V
10 2
1
2
3
4
5
6
10
1
2
3
10 4
103
10-2
Case Ø D x L = 12.9 x 32.0 mm; UR = 10 to 40V
10 2
10 6 f (Hz) 10 7
Tamb = 25 °C
10 5
Curve 1: 100 µF, 35 and 40 V
Curve 2: 150 µF, 35 V
Curve 3: 220 µF, 25 V
Curve 4: 470 µF, 16 V
Curve 5: 680 µF, 16 V
Curve 6: 1000 µF, 10 V
10 4
103
10 6 f (Hz) 10 7
10 5
Tamb = 25 °C
Fig. 17 - Typical impedance as a function of frequency
Fig. 18 - Typical impedance as a function of frequency
EQUIVALENT SERIES RESISTANCE (ESR)
Typical ESR: see Figures 20 to 28; the standard deviation is 20 % of each value.
102
102
Case Ø D x L = 6.7 x 15.3 mm
ESR at 100 Hz
ESR
(Ω)
10
1
Case Ø D x L = 7.6 x 20.4 mm
ESR at 100 Hz
ESR
(Ω)
10
1
3
2
1
10-1
4
5
Curve 1: 10 mF, 25 V; 6.8 mF, 35 and 40 V
Curve 2: 10 mF, 16 V
Curve 3: 22 mF, 16 V
Curve 4: 33 mF, 10 V
Curve 5: 47 mF, 6.3 and 10 V; 68 mF, 6.3 V
- 80
- 40
0
40
80
1
10-1
120
160
200
Tamb (°C)
Fig. 19 - Typical ESR as a function of ambient temperature
Revision: 05-May-13
2
3
4
5
Curve 1: 10 µF, 35 and 40 V
Curve 2: 33 µF, 25 V
Curve 3: 47 µF, 25 V
Curve 4: 68 µF, 10 V; 150 µF, 6.3 V
- 80
- 40
0
40
80
120
160
200
Tamb (°C)
Fig. 20 - Typical ESR as a function of ambient temperature
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EQUIVALENT SERIES RESISTANCE (ESR)
102
102
Curve 1: 33 µF, 35 and 40 V
Curve 2: 220 µF, 10 V; 330 µF, 6.3 V
ESR
(Ω)
Case Ø D x L = 10.3 x 32.0 mm
ESR at 100 Hz
ESR
(Ω)
Curve 1: 68 µF, 35 and 40 V
Curve 2: 150 µF, 25 V
Curve 3: 330 µF, 10 V
Curve 4: 470 µF, 10 V
10
10
1
1
1
1
2
2
Case Ø D x L = 9.4 x 23.3 mm
10-1
- 40
- 80
0
40
ESR at 100 Hz
80
120
160
102
ESR
(Ω)
10
Curve 1: 100 µF, 35 and 40 V
Curve 2: 150 µF, 35 V
Curve 3: 220 µF, 25 V
Curve 4: 470 µF, 16 V
Curve 5: 680 µF, 10 V;
1000 µF, 6.3 V
- 40
- 80
200
Tamb (°C)
Fig. 21 - Typical ESR as a function of ambient temperature
Case Ø D x L = 12.9 x 32.0 mm
ESR at 100 Hz
3
4
10-1
0
40
80
120
160
200
Tamb (°C)
Fig. 22 - Typical ESR as a function of ambient temperature
103
ESR
(Ω)
Curve 1: 10 µF, 25 V; 6.8 µF, 35 and 40 V
Curve 2: 10 µF, 16 V
Curve 3: 22 µF, 16 V
Curve 4: 33 µF, 10 V
Curve 5: 47 µF, 6.3 and 10 V; 68 µF, 6.3 V
1
2
3
102
4
5
10
1
10-1
- 40
- 80
0
40
80
120
160
1
2
3
4
1
5
10-1
Case Ø D x L = 6.7 x 15.3 mm
1
200
Tamb (°C)
Fig. 23 - Typical ESR as a function of ambient temperature
10
10 2
10 3
10 4
10 5
10 6
f (Hz)
Tamb = 25 °C
Fig. 25 - Typical ESR as a function of frequency
102
103
ESR
(Ω)
Curve 1: 10 µF, 35 and 40 V
Curve 2: 33 µF, 25 V
Curve 3: 47 µF, 25 V
Curve 4: 68 µF, 10 V; 150 µF, 6.3 V
Curve 5: 100 µF, 10 V
1
102
2
3
4
5
10
Curve 1: 33 µF, 35 and 40 V
Curve 2: 220 µF, 10 V; 330 µF, 6.3 V
ESR
(Ω)
10
1
1
1
2
10-1
Case Ø D x L = 6.7 x 20.4 mm
10-1
1
10
10 2
10 3
10 4
10 5
10 6
f (Hz)
Tamb = 25 °C
Fig. 24 - Typical ESR as a function of frequency
Revision: 05-May-13
Case Ø D x L = 9.4 x 23.3 mm
10-2
1
10
10 2
10 3
10 4
10 5
10 6
f (Hz)
Tamb = 25 °C
Fig. 26 - Typical ESR as a function of frequency
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EQUIVALENT SERIES RESISTANCE (ESR)
102
102
ESR
(Ω)
Curve 1: 68 µF, 35 and 40 V
Curve 2: 150 µF, 25 V
Curve 3: 330 µF, 10 V
Curve 4: 470 µF, 10 V
1
10
2
ESR
(Ω)
10
1
2
3
4
1
5
Curve 1: 100 µF, 35 and 40 V
Curve 2: 150 µF, 35 V
Curve 3: 220 µF, 25 V
Curve 4: 470 µF, 16 V
Curve 5: 680 µF, 10 V; 1000 µF, 6.3 V
3
4
1
10-1
10-1
Case Ø D x L = 9.4 x 23.3 mm
10-2
1
10 2
10
10 3
ESR at 100 Hz
10 4
10 5
10 6
f (Hz)
Fig. 27 - Typical ESR as a function of ambient temperature
ESR at 100 Hz
Case Ø D x L = 9.4 x 23.3 mm
10-2
1
10
10 2
10 3
10 4
10 5
10 6
f (Hz)
Fig. 28 - Typical ESR as a function of ambient temperature
Table 3
TEST PROCEDURES AND REQUIREMENTS
TEST
NAME OF TEST
REFERENCE
PROCEDURE
(quick reference)
Endurance
IEC 60384-4/
EN130300
subclause 4.13
Tamb = 125 °C;
UR = 6.3 V to 25 V with UR applied;
UR = 35 V and 40 V with UC applied;
10 000 h
Useful life
CECC 30302
subclause 1.8.1
Tamb = 125 °C; IR applied and
UR = 6.3 V to 25 V with UR applied;
UR = 35 V and 40 V with UC applied;
20 000 h
Shelf life
(storage at high
temperature)
IEC 60384-4/
EN130300
subclause 4.17
Tamb = 125 °C; no voltage applied;
500 h
Charge and
discharge
IEC 60384-4-2
subclause 9.21
106 cycles without series resistance:
0.5 s to UR;
0.5 s to ground
Shock
IEC 60068-2-27
test Ea
Half-sine or saw tooth pulse shape; 50 g; 11 ms; 
3 successive shocks in each direction of
3 mutually perpendicular axes;
no voltage applied
Severe rapid change
of temperature
Solvent resistance
Passive flammability
Revision: 05-May-13
100 cycles of 1 h duration, each with
30 min at - 40 °C and + 125 °C
REQUIREMENTS
C/C: ± 10 %
tan   1.2 x spec. limit
Z  1.2 x spec. limit
IL5  spec. limit
C/C: ± 15 %
tan   1.5 x spec. limit
Z  1.5 x spec. limit
IL5  spec. limit
no short or open circuit, 
no visible damage
total failure percentage: < 1 %
C/C: ± 10 %
tan   1.2 x spec. limit
IL5  1 x spec. limit
C/C: ± 5 %
no short or open circuit, 
no visible damage
no intermittent contacts
no breakdown
no open circuiting
no mechanical damage
C/C: ± 5 %
tan   1.2 x spec. limit
Z  1.2 x spec. limit
IL5  1.5 x spec. limit
C/C: ± 25 %
tan   1.5 x spec. limit
Z  2.0 x spec. limit
IL5  1 x spec.limit
IEC 60068-2-45,
test XA
IEC 60653
Immersion:
5 min ± 0.5 min with or without ultrasonic 
at 55 °C ± 5 °C
Solvents: demineralized water and/or calgonite
solution (20 g/l)
Visual appearance not affected
IEC 60695-2-2
Capacitor mounted to a vertical printed-circuit
board, one flame on capacitor body; 
Tamb = 20 °C to 25 °C;
test duration = 20 s
After removing the test flame from the
capacitor, the capacitor must not
continue to burn for more than 15 s; 
no burning particles must drop from
the sample
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ADDITIONAL TESTS AND REQUIREMENTS FOR EPOXY-FILLED VERSIONS SAL-AG
2281 123 8.... Form BA ± 10 %, level S, lead (Pb)-free
2222 123 8.... Form BA ± 10 %, level S, non lead (Pb)-free
Table 4
TEST PROCEDURES AND REQUIREMENTS
TEST
PROCEDURE
REQUIREMENTS
Severe vibration tests in accordance with “IEC 60068-2-6” and “MIL STD-202”, method 204, letter E, with the following details and
additions
Method of mounting:
Clamping both body and leads
Severity 1
Frequency range temperature 10 Hz to 3000 Hz;
20 °C to 25 °C
Severity 2
Frequency range temperature 50 Hz to 2000 Hz; 125 °C
Severity 1 and 2
vibration amplitude: 50 g or 3.5 mm, whichever is less
Direction and duration of motion:
Severity 1
1 octave/min; 3 directions (mutually perpendicular);
20 sweeps per direction (total 60 sweeps or 18 h)
Severity 2
1 octave/min; 2 directions (longitudinal and transversal);
3 sweeps per direction (total 6 sweeps or 1 h)
Functioning:
Severity 1
C/C: ± 10 %
tan  1.2 x stated limit
Z  1.4 x stated limit
DC leakage current:  stated limit
no intermittent contacts
no indication of breakdown
no open circuiting
no evidence of mechanical damage
Rated voltage applied
Severity 2
No voltage applied
Typical capability
> 80 g at 10 Hz to 3000 Hz (also at 125 °C)
Severe shock tests in accordance with “IEC 60068-2-27” and “MIL STD-202”, method 213, letter F, with the following details and
additions
Method of mounting
Clamping both body and leads
Pulse shape:
Half-sine or sawtooth
Severity 1
1500 g; 0.5 ms (“MIL STD-202”, method 213, letter F)
Severity 2
3000 g; 0.2 ms
Severity 3
10 000 g; 0.1 ms
Direction and number of shocks:
Severity 1 and 2
3 successive shocks in each direction of 3 mutually
perpendicular axes (total 18 shocks)
Severity 3
1 shock in any direction
Functioning
Rated voltage applied
Revision: 05-May-13
C/C: ± 10 %
tan  1.2 x stated limit
Z  1.4 x stated limit
DC leakage current:  stated limit
no intermittent contacts
no indication of breakdown
no open circuiting
no evidence of mechanical damage
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Contents
Vishay
Roederstein
Introduction............................ 313
ECA ........................................ 325
ECV ........................................ 330
ECL ........................................ 334
EKA ........................................ 338
EKB ........................................ 345
EKE ........................................ 352
EKV ........................................ 358
Introduction
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Aluminum Capacitors
SYMBOLS AND TECHNICAL TERMS
Revision: 30-Jan-14
SYMBOLS
DESCRIPTION
C
Capacitance
CR
Rated capacitance
U
Voltage
UR
Rated voltage
US
Surge voltage
UB
Working voltage, operating voltage
Urev
Reverse voltage
I, I~, IAC
Alternating current
IR
Rated alternating current, ripple current
IL
Leakage current
ILt
Leakage current for acceptance test
ILB, IOP
Operational leakage current
R
Resistance
RESR; ESR
Equivalent series resistance
Ris
Insulation resistance
L
Inductance
LESL, ESL
Equivalent series inductance
tan 
Dissipation factor (tangent of loss angle)
Z
Impedance
X
Reactance
XC, ZC
Capacitive reactance
XL, ZL
Inductive reactance
T
Temperature
Tamb
Ambient temperature
Ts
Surface temperature
T
Difference of temperature, temperature rise
TUC
Upper category temperature
TLC
Lower category temperature
f
Frequency
fr
Resonance frequency
=2f
Angular frequency
Fs
Case surface area

Failure rate
L
Lifetime multiplier
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Introduction
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DESIGN AND POLARITY
CLASSIFICATION
The dielectric of an electrolytic capacitor with aluminum
electrodes is made of aluminum oxide. One end of the
dielectric sits firmly on an aluminum foil - the anode - while
the other end sits on a liquid or solid electrolyte - the
cathode. Power to the cathode is supplied via a second
aluminum foil having a natural oxide layer as a dielectric with
a blocking effect of just 1 V to 2 V. (Many years of use have
resulted in wrongly describing this power supply foil as
“cathode”). In its basic design the electrolytic capacitor is
thus a direct current polarity-dependent capacitor (polarized
style) with the positive pole being applied to the anode.
Depending on applications and requirements, electrolytic
capacitors are classified as:
Apart from these so-called polarized electrolytic capacitors
there are non-polarized capacitors available where the
power supply foil is replaced by a second anode foil of the
same type (non-polarized, bipolar style). This specific
design allows operation with direct current of any polarity,
as well as with pure alternating current.
STORAGE LIFE
Ris
C
+
RESR
LESL
-
C = Capacitance of the oxide layer
Ris = Oxide layer insulation resistance
RESR = Equivalent series resistance
LESL = Equivalent series inductance
Dielectric layer
Cathode
Anode
Electrolyte
Power supply
foil
Aluminum foil
(highly etched)
a) Long-life grade (LL)
Electrolytic
capacitors
requirements.
designed
b) General-purpose grade (GP)
Electrolytic
capacitors
designed
requirements.
for
for
increased
general
Furthermore, all capacitor types have been subdivided by
their application classes according to DIN 40040.
During transport or storage, the temperature of electrolytic
capacitors is allowed to fall below their lower category
temperature and reach a minimum of -65 °C, while their
upper category temperature may not be exceeded.
Depending on the design and the purity of the materials
used, electrolytic capacitors offer very good storage
properties. They can be stored in dry rooms at temperature
ranging from -40 °C to +40 °C (preferably between 0 °C and
+25 °C) for up to three years without any restriction. Within
that period it is possible to apply the fully-rated voltage to
the capacitors without any further preparation. This
procedure neither impairs the capacitor’s operational
reliability nor its life expectancy.
All electrolytic capacitors have a leakage current when a
direct current is applied. This leakage current depends on
time, voltage, and temperature. After long dead storage this
leakage current will increase and, for a short time, can be
10 times greater at the time of reuse. The capacitor will not
be damaged and its life expectancy will not be impaired if
the rated voltage is applied directly after long storage. In
general, the expected continuous operating leakage current
will be re-attained or fall below its value after about
30 minutes. Any operation below the rated voltage will result
in a significantly lower leakage current.
ELECTRICAL PARAMETERS
Aluminum foil,
etched
Al2O3
(electrochemical oxide
layer (forming)
Al2O3
(natural oxide layer)
Electrolyte paper
(spacer)
Fig. 1 - Basic design of an electrolytic capacitor and
equivalent circuit diagram
Revision: 30-Jan-14
Rated Voltage UR and Operating Voltage UB
The rated voltage is defined as the voltage for which the
capacitor has been designed and after which it is
designated. The operating voltage may be smaller, but may
never exceed the rated voltage value. A reduction in the
operating voltage will not significantly increase the
capacitor’s lifetime. The capacitors may be charged with the
specified rated direct voltage in the specified operating
temperature range. In case of ripple alternating voltage, the
peak voltage value must not exceed the rated value.
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Introduction
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Surge Voltage US
The surge voltage is defined as the maximum voltage which
may be applied to the capacitor for a short time
only (in one hour a maximum of five times with a duration of
one minute each.) The surge voltage may not be used for
periodic charge and discharge.
US = 1.15 x UR for UR  250 V
US = 1.10 x UR for UR > 250 V
Fig. 2 - Detail from an equivalent circuit diagram for
two surface elements
The ripple voltage is defined as the effective value
alternating voltage with which the capacitor may be charged
in addition to direct voltage. The peak value of resulting
ripple DC voltage must not exceed the rated voltage value.
A reverse polarity voltage with a peak value of > 1.5 V must
not occur.
Reverse Voltage Urev
C
C20 °C
Ripple Alternating Voltage
1.2
1.1
1.0
0.9
6.3 V
A reverse polarity of up to 1.5 V is permissible.
0.8
CAPACITANCE
0.7
Rated Capacitance CR
0.6
- 40
The rated capacitance is defined as the capacitance value,
after which the capacitor has been designated. The
capacitance value may vary within the permissible tolerance
limits.
Alternating Voltage Capacitance CW
The AC capacitance normally corresponds to the rated
capacitance value. It is determined by measuring the AC
resistance at an AC voltage of  0.5 V. Since AC capacitance
depends on frequency and temperature, a specific
measuring frequency and temperature have to be agreed
upon. IEC 60384-4 stipulates a frequency of 100 Hz and a
temperature of 20 °C.
100 V
40 V
16 V
- 20
0
20
40
60
80
[°C]
Fig. 3 - Typical temperature dependent
behavior of AC capacitance
Frequency Dependence of AC Capacitance
The frequency dependence of AC capacitance is similar to
its temperature dependence. The capacitive partial
resistance ZCi decreases with increasing frequency f. At the
same time the influence of the ohmic partial resistance Ri of
the AC resistance Zi is increasing. In this case, too,
“high-resistive coupled surface elements have a lower
capacitive effect”.
Direct Voltage Capacitance CDC
EQUIVALENT SERIES RESISTANCE RESR
The DC capacitance is determined from the quantity of
charge which is stored after a DC voltage charging of the
capacitor. The measurement is effected during a single
discharge under specified conditions. The measuring
procedures are described in DIN 41 328. If both values, C
and CDC, are measured at an electrolytic capacitor, the
result will always be: C < CDC.
Depending on the design CDC  (1.05...1.30) x C.
The equivalent series resistance is defined as the ohmic part
of the AC resistance describing the losses occurring in an
electrolytic capacitor. It consists of three partial resistance
values: the lead and the foil resistance, the electrolyte paper
resistance, and the oxide layer resistance. Just as any other
ohmic resistance, RESR is temperature-dependent, too.
Moreover, it contains a frequency-dependent part - the
oxide layer resistance. RESR is usually calculated from the
dissipation factor tan  as follows:
Temperature Dependence of AC Capacitance
The measured AC capacitance decreases with falling
temperatures. Falling temperatures result in an increased
viscosity of electrolyte and thus in an increasing ohmic
resistance. In fact, a model calculation shows that the total
capacitance of capacitive surface elements which are
parallel connected via different series resistors R1, R2, etc.
will decrease, if the series resistors increase. Usually this
behavior is described as follows: “High-resistive coupled
surface elements have a lower capacitive effect.”
Revision: 30-Jan-14
tan 
tan 
R ESR = ------------ = ---------------------------------C
2xxfxC
RESR []
C [F]
f [Hz]
In practical operation the lower limit of the RESR is given by
the ohmic part of the contact points and the foil resistance
values. Thus it will not always be possible to achieve
calculated values below 0.03 .
The foil resistance and RESR can further be reduced by using
the multiple tab technique. This technique consists of
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ESR
ESR20 °C
creating multiple contact points with the outer contact
elements distributed uniformly across the anode and
cathode foils. At the same time, the RESR-dependent
capacitor values such as the dissipation factor, the
impedance, and the maximum AC rating are clearly
improved.
Z
C RESR L
1
ωC
ωL
5
RESR
(- 25 °C)
3
2
6.3 V
RESR
(+ 25 °C)
10
25 V
5
100 V
3
2
fr
f
Fig. 6 - Idealized frequency dependent impedance curve at
+25 °C and -25 °C
1
0.5
40
20
0
20
40
60
80
100
120
[°C]
Fig. 4 - Temperature dependence of RESR (approx. values)
DISSIPATION FACTOR tan 
The dissipation factor tan  is defined as the ratio between
the equivalent series resistance RESR and the reactance
ZL, C = L - 1/C (see Fig. 5). It is frequency-dependent via
the reactance ZL, C and temperature dependent via the
equivalent series resistance RESR.
ωL
1
ωC
Fig. 5 - Vector diagram of the AC values of an electrolytic capacitor
IMPEDANCE Z
The amount of impedance Z of an electrolytic capacitor is
calculated from the geometrical sum of the capacitive
reactance ZC = 1/C of the inductive reactance ZL = L and
of the equivalent series resistance RESR.
R
2
ESR
+  L- 1/C 
2
Figure 6 shows the ideal frequency curve of the impedance
indicated on a double-logarithmic scale. The strong
temperature dependence of the RESR value can also be
seen.
Revision: 30-Jan-14
The leakage current is defined as the current flowing
through the capacitor when a direct voltage is applied
subsequent to the charging of the capacitor. Generally
speaking, this leakage current is caused by “defects” in the
oxide dielectric. These defects range from crystal defects,
stress, cracks, and installation-related damage, to a partial
solution caused by the operating electrolyte. The leakage
current is a measure of the “forming state”, i.e. of the
regeneration to be effected on the oxide dielectric. This
current depends on a multitude of factors, such as time,
voltage, temperature, type of electrolyte, and “history” of the
capacitor.
Time Dependence of the Leakage Current
RESR
Z =
LEAKAGE CURRENT IL
At the moment the measuring voltage is applied, a peak
current occurs which depends on the capacitor’s forming
state as well as on the internal resistance of the voltage
source. When the measuring voltage (charging of the
capacitor) is reached, the current first drops with time until it
takes on a small, nearly constant final value which ideally is
only determined by the dynamic balance (temperature and
voltage dependent) between the build-up and reduction of
the oxide layer. This value is the operational leakage current
ILB. As can be expected, the operational leakage current
level depends on the (measuring) voltage applied and on the
temperature. Furthermore, the value of the operational
leakage current is determined by the effective surface of the
etched aluminum foil (capacitance of the capacitor), the type
of electrolyte, and the level of the anode’s (pre)forming
voltage. Since the measurement of the operational leakage
current, due to the long measurement period
(10 < tM 60 min), will be feasible only in specific cases,
shorter measurement periods of preferably one minute or
five minutes have been accepted for general measurement
regulations. The values measured in this way are described
as leakage current for acceptance tests. In this case, the
measuring voltage corresponds to the rated voltage of the
capacitor.
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IL
1
IL (UB)
IL (UR)
0.8
0.6
A
Operational
leakage current
ILtM
tM
0.4
B
t
0.2
UB
UR
Fig. 7 - Typical variation with time of the leakage current
0.2
Voltage Dependence of the Leakage Current
0.6
0.8
1
Fig. 8a - Typical size dependant relation (see text)
Temperature Dependence of the Leakage Current
Although there are numerous causes for leakage current,
only one can be described as having a more clearly defined
temperature dependence - i.e. the dynamic balance
between partial solution and build-up of the oxide layer. As
a measure of this parameter the operating leakage current
ILB has been introduced under section “Time dependence of
the leakage current”. The model of the rate of (electro)
chemical reactions increasing with temperature can be
qualitatively applied here. Hence it follows that ILB increases
with temperature. Figure 9 shows some empirical values.
ILB(J)
ILB(20°C)
Figure 8 shows the qualitative leakage current behavior. The
leakage current IL increases with the operating voltage UB.
The more the operating voltage approaches the (pre)forming
voltage UF of the anode, the steeper the slope (exponential
rise), especially after exceeding the rated voltage UR. The
leakage current, however, loses more and more of its
original meaning. Specifically in the US...UF range the
current can no longer be described as the measure of the
regeneration work to be effected on the oxide layer. Above
the surge voltage US there is an increasing tendency
towards secondary reactions such as temperature rise,
heavy formation of gas, electrolyte degradation, and
inappropriate formation of oxide. For this reason any
continuous operation above the rated voltage UR is not
tolerable. The conditions for exceeding the rated voltage on
a short-time basis are stipulated under the heading “surge
voltage” (see surge voltage US).
0.4
14
12
The hatched area in Figure 8a illustrates an empirical
evaluation of practical leakage current measurements. It
shows the recommended approximate values for the
relative leakage current dependence of UB for UB  UR.
10
Curve A describes a small capacitor with a low rated voltage
(e.g. 6 V) and a one minute leakage current value in the order
of 1 μA. Curve B is typical of a middle sized high-voltage
capacitor (e.g. UR = 350 V) with a 1-minute leakage current
value of approximatly 100 μA (at room temperature).
4
8
6
2
0
0
10
20
30
40
50
60 70
80 90 100
Temperature [°C]
Fig. 9 - Typical variation of leakage current with temperature
IL
Leakage Current for Acceptance Test ILt
UR US
UF
UB
IEC 60384-4 and EN 130300 stipulate the measurement
procedures for determining the leakage current for
acceptance tests ILt. Based on these standards and due to
different measuring periods (30 s, ILo.5; 2 min, IL2; 5 min, IL5)
the threshold values for the Vishay Roederstein electrolytic
capacitors are those that are calculated from the leakage
current equations of the respective type specifications.
Fig. 8 - Typical variation of leakage current with applied voltage
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ALTERNATING CURRENT
The alternating current is defined as the effective value of
the alternating current with which the capacitor is charged.
Rated Alternating Current IR
The permissible rated alternating current is defined in such
a way that at an upper category temperature TUC and at a
frequency of 100 Hz (measuring frequency of capacitance
and dissipation factor), the temperature of the case surface
area rises by 3 K. The resulting AC values IR are indicated in
the datasheets for each capacitor.
Maximum Permissible Alternating Current I, AC Rating
The maximum permissible alternating current rating
depends on ambient temperature Tamb' case surface area
Fs' equivalent series resistance RESR (or the dissipation
factor tan ), as well as on excess surface temperature T
(temperature rise, difference between surface temperature
Ts and ambient temperature Tamb). The permissible
temperature rise T is specified by the respective
manufacturer. For Vishay Roederstein electrolytic
capacitors this value is based on IEC 60384-4 and is 3 K in
relation to the upper category temperature TUC. Due to the
temperature and frequency dependence of the equivalent
series resistance RESR (or the dissipation factor tan ) the
maximum permissible alternating current is also dependent
on the alternating current frequency f. Since the life
expectancy of an electrolytic capacitor is considerably
determined by its thermal load (permutation model, see
section Lifetime), the temperature rise caused by an AC load
presents a significant factor of the capacitor's lifetime. The
individual lifetime tables show the interrelation between the
maximum permissible alternating current I, the ambient
temperature Tamb' the surface temperature Ts' the
alternating current frequency f, as well as the lifetime.
(Sections Standard Lifetime Conversion Table and Type
Specific Lifetime Conversion Table explain the use of these
tables.)
ELECTRICAL STRENGTH OF THE INSULATION
The insulating sleeve can withstand a voltage of at least
1000 V.
INSULATION RESISTANCE OF THE INSULATION
The insulation resistance of the sleeve material is a minimum
of 100 M.
CLIMATIC CONDITIONS
For reasons of reliability and due to the temperature
dependence of electrical parameters certain limits have to
be observed for the climatic conditions. The upper and
lower category temperature are considered important
climatic conditions for electrolytic capacitors. Furthermore
the degree of humidity has to be taken into account. These
three values are indicated in coded form in the applicability
class and lEG climatic category (see section Climatic and
Applicability Categories).
Revision: 30-Jan-14
Vishay Roederstein
Upper Category Temperature TUC
The use of electrolytic capacitors is subject to specific upper
temperature limits. Exceeding these limits may result in early
failure of the capacitor. To avoid this, upper category
temperatures are fixed which indicate the maximum
permissible ambient temperature of the capacitor for
continuous operation. The upper category temperature is
given with the temperature range value in the datasheets.
Sections Maximum Permissible Alternating Current I, AC
Rating and Lifetime have shown that the electrolytic
capacitor's lifetime and reliability depend considerably on
the capacitor's temperature. This is why Vishay recommend
using the capacitor at the lowest temperature possible to
increase lifetime and reliability. Furthermore, Vishay
recommend mounting the electrolytic capacitors inside the
units at positions having a low ambient temperature.
Lower Category Temperature TLC
Due to an impaired electrolytic conductivity, a decreasing
temperature results in higher values for impedance and
dissipation factor (or RESR values). Most capacitor
applications limit such an increase to specific threshold
values. For this reason it is practical to stipulate a lower
category temperature which is also indicated in the
temperature range value given in the datasheet. It should be
emphasized, however, that an operation below the specified
lower category temperature is possible without damaging
the capacitor. This is particularly true if the capacitor is
exposed to an alternating-current load. Compared to the
lower ambient temperature, the alternating current flowing
through the increased equivalent series resistance can heat
the electrolytic capacitor to such an extent, that its
properties still ensure proper functioning of the unit.
Climatic and Applicability Categories
According to DIN 40040 the applicability class is given in
form of a three-letter code. The IEC publication indicates a
so-called Category (IEC Climatic Category). The datasheets
list both specifications. The first letter in the DIN 40040
formula stands for the lower category temperature, the
second for the upper category temperature, and the third for
the permissible humidity.
40 / 085 / 56
56 days damp heat (tested according to IEC 60068-1)
Upper category temperature 85 °C
Lower category temperature - 40 °C
DIN CLIMATIC CATEGORY
1st letter 
F
G
H
lower category
-55 °C
-40 °C
-25 °C
temperature
M
2nd letter 
P
K
100 °C
upper category
85 °C
125 °C
(105 °C)
temperature
3rd letter 
C
D
E
relative humidity/
 95 %
 80 %
 75 %
annual average
100 %
100 %
95 %
30 days/year max.
100 %
90 %
85 %
occasional formation
of dew permissible
yes
yes
yes (1)
S
70 °C
F
 75 %
95 %
85 %
yes
Note
(1) Rare and mild formation of dew permissible
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HOW TO USE ELECTROLYTIC CAPACITORS
Saftey vent
Date of Manufacture (Code) IEC 60062
The month and the year of manufacture are indicated. The
year is given first, followed by the month.
CODE (YEAR)
CODE (MONTH)
2009
X
January
1
2010
A
February
2
2011
B
March
3
2012
C
April
4
2013
D
May
5
2014
E
June
6
2015
F
July
7
2016
H
August
8
2017
J
September
9
2018
K
October
0
2019
L
November
N
2020
M
December
D
90°
Fig. 10 - Recommended mounting position
We recommend not to have PC-board traces below radial
aluminum electrolytic capacitors.
Low and High Pressure
Vishay Roederstein electrolytic capacitors may be used at
any low pressure and at any altitude. The operating
temperature should not fall below the lower category
temperature. The capacitors may not be used at pressures
exceeding 120 kPa.
Example: 2007 May: V5
Cleaning, Moulding
Alternatively it is possible to indicate the year and the week.
In this case the first two figures indicate the year and the last
two the week.
Halogenated
hydrocarbons,
particularly
CFCs
(chlorofluorocarbons), are frequently used for the cleaning
of boards. There are for instance several FREON types
(registered trademark of Du Pont) based on 1,1,1Trichlorotrifluoroethane.
Example: 2003, 20th week: 0320
Pulse Handling
Vishay Roederstein electrolytic capacitors exhibit good
pulse handling characteristics. However, due to
continuously increased surface gain of anode foils, absolute
compliance with the IEC requirement
C
6
--------  ± 10 % after 10 switching cycles
C
cannot be guaranteed without taking specific measures,
which need prior agreement.
Vibration Resistance
If not otherwise indicated in the datasheets, the lEC
publication 60068-2 is applicable: Test FC at 5 g; stress
period: 1.5 h; frequency 10 Hz to 55 Hz, maximum
displacement 0.35 mm.
Mounting Position
Care should be taken when mounting capacitors which have
a pressure release valve. In vertical mounting the valve
should always be at the top to avoid electrolytic leakage if
the pressure valve is triggered. Similarly, when mounting the
capacitor in a horizontal position the pressure valve should
be in the “12- o’clock position”.
The manufacturers of aluminum electrolytic capacitors warn
against the use of these solvents since a corrosive effect on
aluminium is definitely possible. This corrosive mechanism,
which may be triggered by the external influence of
compounds containing CFCs, is very complex and can lead
to consequential changes. Only the strict compliance with a
number of clearly defined conditions can provide any
protection against the penetration of solvents. We do not
consider it necessary to list the conditions here but would
advise you against using halogenated compounds for
cleaning. Moreover, you should check whether the plastic
insulation is resistant to the detergent you want to use.
Ketone type solvents (e.g. acetone, methyl ethyl ketone) and
ester type solvents (e.g. ethyl acetate, butyl acetate) should
preferably not be used or only after checking their effect in
the cleaning process. The same applies to aromatic
hydrocarbons (e.g. xylenes) and aliphatic hydrocarbons
(e.g. petroleum ether).
We recommend using water-based or alcohol-based
detergents (e.g. ethanol, isopropanol, isobutyl alcohol,
various ethylene glycols, etc.). We also recommend
continuous monitoring of the cleaning bath in order to avoid
the accumulation of corrosive agents (e.g. chlorides from
solder residues, possibly sulphonates from surface active
agents). Careful drying should immediately follow cleaning.
Similar procedures should be observed when electrolytic
capacitors are varnished or moulded. Care must be taken
that any varnish or moulding components such as resin,
hardener, accelerator, thinner, filler, coloring matter, etc. do
not contain any halogen.
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ELECTROLYTE
The operating electrolyte is an electrically conductive liquid.
Its composition differs according to type and voltage range.
A polar organic liquid of a high boiling point with a certain
amount of salt provides its ionic conductivity. Halogenated
hydrocarbons are not used. Water may occur as a
constituent of the electrolyte. The salts used can be organic
or inorganic.
The electrolytes can be mixed with water. Since they have
an almost neutral pH value, there will be no acidic or caustic
reaction. Its flash point is always above 80 °C. They do not
contain any easily or highly ignitable agents and no
explosive substances.
Great attention is given to selecting only those electrolytic
constituents that combine the least possible toxicity with the
utmost environmental compatibility. Unfortunately the
present state of technological development does not always
enable us to fully avoid the use of substances which are
considered harmful. However, we do not use highly toxic,
carcinogenic, or questionable compounds. Extreme care
should be taken when handling electrolytic liquid that has
leaked out.
- Avoid skin contact
- Do not inhale vapors
- Provide sufficient ventilation
If the electrolyte has come into contact with your skin,
mucous membrane, or eyes, immediately rinse carefully for
several minutes under running water. Remove affected
clothing. Seek medical attention if you have swallowed any
liquid.
We would like to remind you that the following errors will
trigger the safety mechanism and may result in a discharge
of electrolytic fluid:
- Reverse polarity
- Excessive voltage
- Excessive current load
- Overheating
DISPOSAL OF USED ALUMINUM
ELECTROLYTIC CAPACITORS
Due to potential harmful effects to the environment, special
regulations have to be observed which dictate the disposal
of capacitors as toxic waste.
Important remarks:
The aluminum electrolytic capacitors do not contain any
polychlorinated biphenyls (PCB) or similar substances that
may produce dioxins when burning. Moreover, during
manufacture we do not use any substances that may harm
the ozone layer.
OPERATIONAL RELIABILITY
The specifications regarding the reliability of electrolytic
capacitors refer to:
1) The failure rate during operation
2) The beginning of wear-out failures (end of lifetime)
a
failure
rate
manufacture
Early failure
region
b
user
c
lifetime
Region with
constant failure rate
time
Region of
wear-out failures
Fig. 11 - Failure rate () as a function of time (“bath-tub life curve”)
Early failures (region a) of electrolytic capacitors occur
during the manufacturing process and are eliminated. We
normally expect a constant low failure rate () during the
stated lifetime of capacitors (region b). Subsequently the
electrolytic capacitors will tend to suffer failures due to
drying out (region c).
Endurance Test
IEC 60384-4 and EN 130300 define the criteria for
permissible changes in the values of electrical parameters
following endurance tests at rated voltage and upper
category temperature. The duration and the conditions for
the specific capacitor types are given in the respective
separate specifications. The endurance test does not allow
any direct assessment of the lifetime of an electrolytic
capacitor. Therefore the duration of the test must not be
confused with the indicated lifetime of the respective
capacitor type.
If one of the following conditions is not met, the capacitor
has failed the test.
FAILURE CRITERIA FOR ENDURANCE TEST
RATIO OF FINAL VALUE TO SPECIFIED THRESHOLD VALUE
CRITERIA
VOLTAGE RANGE
(V)
CHANGE IN CAPACITANCE
(%)
tan 
Z
IL
A
6.3  UR
6.3 < UR  160
160 < UR
-40  C/C  +25
-30  C/C  +30
-15  C/C  +15
 1.5
3
1
B
6.3  UR
6.3 < UR  160
160 < UR
-30  C/C  +15
-15  C/C  +15
-10  C/C  +10
 1.3
2
1
C
16  UR
16 > UR
-25  C/C  +25
-20  C/C  +20
 1.5
 1.5
-
1
-20  C/C  +20
2
2
1
E
-15  C/C  +15
 1.5
2
1
F
-20  C/C  +20
2
-
1
G
-20  C/C  +20
 1.5
-
1
D
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Lifetime
Failure Rate
The lifetime is defined as the period during which a specified
failure rate is not exceeded under given operating
conditions and under specified failure criteria. The indicated
lifetime usually is based on a 60 % upper confidence level.
The failure rate  (fit = failure time) is defined as the quotient
of the number of failures, and the product of the number of
test components and the test period (component operating
time).
The lifetime is continuously confirmed by accelerated
sample tests at the upper category temperature. At
temperatures > 40 °C for every temperature rise of 10K the
acceleration factor for electrolytic capacitors is assumed to
halve the lifetime at the same failure rate (10K rule).
Number of failures
 = -------------------------------------------------------------------------------------------------------------Number of test components x test period
In principle, the lifetime is determined by the loss of
electrolyte. The degree of electrolyte loss (diffusion through
the sealing elements) depends on the time, the electrolytic
vapor pressure, the individual interaction of electrolytic
solvent with the sealing materials and geometric factors.
For practical purposes, the temperature dependence is
described by way of an equation which was used by
Arrhenius to describe the effect of temperature on the rate
of chemical reactions. The frequently used 10K rule only
provides a practical approximation formula for usual
temperature range.
Failure Criteria for Lifetime Indication
Based on IEC 60384-4 or EN1300300, the indicated lifetime
values are defined as follows:
a) Load factors
-Rated voltage UR
The failure rate provides the basis for reliability forecasts.
Usually the failure rate is given with the unit 10-9/h = 1 fit
(failure in time) at an UCL (Upper Confidence Level) of 60 %.
The failure rates indicated apply to Tamb = 40 °C UB = 0.5 x
UR. The failure rate is temperature and voltage dependent. 
The conversion table given below shall be used in the case
of other conditions.
Load Voltage
RATED VOLTAGE LOAD
CONVERSION FACTOR
100 %
2.0
75 %
1.4
50 %
1.0
25 %
0.8
10 %
0.6
TEMPERATURE
CONVERSION FACTOR
 40 °C
1
55 °C
3
70 °C
8
-Rated alternating current IR
85 °C
20
-Upper category temperature TUC
105 °C
90
125 °C
360
b) Failure criteria
LL GRADE
(LONG LIFE)
GP GRADE
(GENERAL
PURPOSE)
FAILURE
PARAMETER
Complete
All
Short circuit or break
Change
failure
tan  or RESR
IL
Z
> 3 x initial threshold value
> initial threshold value
> 3 x initial threshold value
C/C
> ± 30 %
> ± 40 %
The ratio between complete failure and change failure
should be 1:9.
Revision: 30-Jan-14
Cumulative Failure Frequency
The share of failed components during a stress period (to be
specified).
STANDARD LIFETIME CONVERSION TABLE
The lifetime conversion table is used to describe the relation
between user current, ambient temperature and lifetime at
various frequencies. It should be used to determine lifetime
under the conditions in the application. The following
standard table applies to all types where no specific
conversion table has been integrated in the datasheet. The
table indicates minimum values.
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STANDARD LIFETIME CONVERSION TABLE
TUC - 30
TUC - 25
TUC - 20
TUC - 15
TUC - 10
TUC - 5
596
560
505
437
362
288
220
161
113
76
49
30
18
10
5.7
3.0
1.5
298
280
252
218
181
144
110
80
56
38
25
15
9.1
5.2
2.8
1.5
149
140
126
109
91
72
55
40
28
19
12
7.6
4.5
2.6
1.4
75
70
63
55
45
36
27
20
14
9.5
6.1
3.8
2.3
1.3
37
35
32
27
23
18
14
10
7.1
4.8
3.1
1.9
1.1
26
25
22
19
16
13
9.7
7.1
5.0
3.4
2.2
1.3
19
18
16
14
11
9.0
6.9
5.0
3.5
2.4
1.5
13
12
11
9.6
8.0
6.4
4.9
3.6
2.5
1.7
1.1
9.3
8.8
7.9
6.8
5.7
4.5
3.4
2.5
1.8
1.2
6.6
6.2
5.6
4.8
4.0
3.2
2.4
1.8
1.2
4.7
4.4
3.9
3.4
2.8
2.3
1.7
1.3
3.3
3.1
2.8
2.4
2.0
1.6
1.2
2.33
2.19
1.97
1.71
1.41
1.13
TUC
TUC - 35
0.1
0.5
1.2
2.1
3.3
4.8
6.5
8.4
11
13
16
19
22
26
30
34
38
TUC - 40
0.2
0.5
0.7
0.9
1.2
1.4
1.6
1.9
2.1
2.3
2.6
2.8
3.0
3.3
3.5
3.7
4.0
TUC - 45
> 2500
0.2
0.4
0.7
0.9
1.1
1.3
1.6
1.8
2.0
2.2
2.5
2.7
2.9
3.1
3.3
3.6
3.8
TUC - 55
1000
0.2
0.4
0.6
0.9
1.1
1.3
1.5
1.7
1.9
2.2
2.4
2.6
2.8
3.0
3.2
3.5
3.7
TUC - 65
500
0.2
0.4
0.6
0.8
1.1
1.3
1.5
1.7
1.9
2.1
2.3
2.5
2.7
2.9
3.2
3.4
3.6
TUC - 75
250
0.2
0.4
0.6
0.8
1.0
1.2
1.4
1.6
1.8
2.0
2.2
2.4
2.6
2.8
3.0
3.2
3.4
TUC - 85
100
0.2
0.4
0.6
0.7
0.9
1.1
1.3
1.5
1.7
1.9
2.1
2.2
2.4
2.6
2.8
3.0
3.2
FOR ALL SURFACE MOUNT AND RADIAL SERIES
LIFETIME MULTIPLIER L (depending on I/IR and Tamb)
AMBIENT TEMPERATURE Tamb (°C)
SURFACE TEMP.
RISE TS (°C)
50
I/IR (FREQUENCY DEPENDENT)
FREQUENCY (Hz)
1.65
1.55
1.39
1.21
1.00
combination
not
permitted
Notes
TUC Upper category temperature (°C)
I
User current (A)
IR
100 Hz alternating current (A) at upper category temperature TUC taken from respective datasheet
Tamb Ambient temperature of electrolytic capacitor (°C)
Ts Surface temperature rise of electrolytic capacitor due to user current (°C)
L
Lifetime multiplier
PRODUCT CODE
PART NUMBER
1
2
3
4
5
6
7
8
9
Code group
Digit
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
M
A
L
R
E
K
E
0
0
F
E
3
4
7
H
0
0
K
Prefix
Internal code
Special design/
forming
Style
Series name
Design/forming
Voltage
D i m en si o n
Capacitance
Code Group 1
Consists of three characters which indicate the Aluminum Capacitor Division (Material Aluminum).
Code Group 2
Consists of one character which indicates the style of the product.
A = Axial
I = Snap in
L = Solder lug
P = Solder pin
R = Radial
S = SMD
T = Screw terminal
M = Accessories
Revision: 30-Jan-14
Document Number: 25001
322
For technical questions, contact: [email protected]
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
Introduction
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Vishay Roederstein
Code Group 3
Consists of three characters which provide the code indicating the respective series.
Examples of series codes:
EKA, EKB, EKF, EKE, ELM, EBM, EB, EL, EYH, EYN, ECA, ECV
Note
• For two letter type-codes the third place (7th digit) is a zero.
Code Group 4
Consists of two digits which provide the numerical code for specifying a particular design.
Description:
8th digit:
0 = Standard design, polarized
2 = Bipolar, non-polarized
9 = Special, customized
9th digit:
0 =
3 =
5 =
6 =
7 =
8 =
9 =
Standard design
Mounting ring (for axial products only)
Cut leads (for radial products only), wires cut to 4.5 mm (3 mm and 4 mm on request)
Radial types with snap-in leads and shortened (for diameter 10  Ø D  18 mm only)
Radial types with snap-in pins
Radial types with snap-in pins
Radial types, with snap-in leads, shortened and bent open to 5.0 mm (for diameter Ø D  8 mm only)
Consists of two letters indicating the capacitor’s (nominal) dimensions. The 10th digit stands for the diameter D and the 11th for
the length L.
Code Group 5
RADIAL TYPES
10th
digit
D (mm)
3
4
5
6.3
8
8.5
10
12.5
13
14
16
18
22
25
25.4
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
AXIAL TYPES
11th
10th
digit
L (mm)
N
M
A
B
P
C
D
F
G
H
J
K
L
P
R
5
7
9
10
11
11.5
12
12.5
16
20
22
25
27
30
31.5
35
35.5
36.5
41
45
51
Revision: 30-Jan-14
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
digit
D (mm)
P
M
Z
V
A
B
T
C
D
E
F
G
N
J
S
U
L
R
K
W
X
3.3
4.5
6
6.5
8
10
12
14
16
18
21
25
30
=
=
=
=
=
=
=
=
=
=
=
=
=
A
B
C
D
F
G
H
J
K
L
M
N
P
CAN TYPES
11th
digit
L (mm)
7
8
10
11
17
18
20
25
30
35
40
45
50
=
=
=
=
=
=
=
=
=
=
=
=
=
M
N
K
A
B
L
C
D
E
F
G
H
J
10th
digit
D (mm)
20
22
25
30
35
40
45
50
55
60
65
76
=
=
=
=
=
=
=
=
=
=
=
=
S
L
A
B
C
D
M
E
F
G
H
K
SMD
11th
10th,
11th digit
D x L (mm)
digit
L (mm)
20
25
30
35
40
45
50
55
60
65
70
80
90
105
114
120
125
135
144
166
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
W
U
V
A
B
C
D
E
F
H
G
J
K
M
O
P
R
S
T
X
AA
BA
BB
AB
BC
AC
BD
AD
BM
AE
AF
AG
AH
BH
AK
AM
AN
AP
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
=
3
3
4
4
5
5
6.3
6.3
6.3
8
8
10
12.5
12.5
16
16
18
18
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
5.3
5.8
5.3
5.8
5.3
5.8
5.3
5.8
7.7
6.5
10
10
13.5
16.5
16.5
21.5
16.5
21.5
Document Number: 25001
323
For technical questions, contact: [email protected]
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
Introduction
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Vishay Roederstein
Code Group 6
Consists of three digits which indicate the capacitance values.
12th digit:
13th and 14th digit:
Number of place before the decimal point
Capacitance value
Example:
047 = 0.47 μF
147 = 4.7 μF
247 = 47 μF
347 =
470 μF
447 = 4700 μF
547 = 47 000 μF
Code Group 7
Consists of one place (15th place) and provides the letter code indicating the capacitor’s rated DC voltage (V).
A
B
C
D
Z
E
F
G
H
U
J
W
L
M
S
N
V
O
K
R
X
P
Y
4
6.3
10
16
33
25
35
40
50
60
63
80
100
160
200
250
300
350
360
385
400
450
500
Code Group 8
Consists of two figures (16th and 17th place) which indicate the capacitance tolerances and special designs.
Description:
16th and 17th digit:
00 = Standard design
02 = Standard design for can types (pin length 6.3 mm)
03 = Lead length 3.0 mm (in combination with code group 4 only)
04 = Lead length 4.0 mm (in combination with code group 4 only)
05 = Capacitance tolerance -10 % ... +50 %
06 = Capacitance tolerance -10 % ... +30 %
07 = Capacitance tolerance ± 10 %
08 = Capacitance tolerance ± 15 %
09 = Capacitance tolerance ± 20 %
DIN IEC 62 coding:
T
Q
K
M
Note
• 05 or 09 is only mentioned if there is a deviation of the standard tolerance
10 to 99 = Other special designs
The
16th
digit can also be taken by a letter which in this case indicates the type of packaging.
DESCRIPTION
LETTER CODE
STYLE
CASE DIAMETER (mm)
TYPE OF PACKAGING
LEAD SPACING (mm)
A
Axial
3.3  16
Reel
n/a
B
Axial
3.3  16
Ammo
n/a
M
Radial
3  6.3
Ammo
2.5
N
Radial
8
Ammo
3.5
L
Radial
48
Ammo
5.0
G
Radial
10  12.5
Ammo
5.0
G
Radial
16  18
Ammo
7.5
Code Group 9
Consists of one character (18th digit) and is reserved for an internal coding. 
(e.g. production line, production location, etc.)
Revision: 30-Jan-14
Document Number: 25001
324
For technical questions, contact: [email protected]
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
ECA
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Vishay Roederstein
Aluminum Capacitors
FEATURES
• Load life: 2000 h at 85 °C
• Miniature dimension
• High CU-product
• SMD style
• Polarized aluminum electrolytic capacitors
• Reflow soldering
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
QUICK REFERENCE DATA
DESCRIPTION
VALUE
Nominal case size
(Ø D x L in mm)
APPLICATIONS
4 x 5.3 to 12.5 x 13.5
Rated capacitance range, CR
• General use
0.10 μF to 2200 μF
Capacitance tolerance
• Consumer electronics
± 20 %
Rated voltage range
• Low-headroom, height restricted low mass units
6.3 V to 100 V
Category temperature range
- 40 °C to + 85 °C
Load life
• Filtering, smoothing, coupling
2000 h
Based on sectional
specification
IEC 60384-4/EN 130300
Climatic category
IEC 60068
40/105/56
PACKAGING
Supplied in blister tape.
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
RATED VOLTAGE (V)
CR
(μF)
6.3
10
16
25
35
50
63
0.10





4 x 5.3
-
-
0.22





4 x 5.3
-
-
0.33





4 x 5.3
-
-
0.47





4 x 5.3
-
-
1.0





4 x 5.3
-
2.2





4 x 5.3

5 x 5.3
3.3





4 x 5.3

6.3 x 5.8
4.7





5 x 5.3

6.3 x 5.8
10




4 x 5.3
5 x 5.3
6.3 x 5.8
8 x 10
22



5 x 5.3

6.3 x 5.3
8 x 6.2
8 x 10
33



5 x 5.3
6.3 x 5.3
6.3 x 7.7
8 x 10
10 x 10
100
-
47


5 x 5.3
6.3 x 5.3
8 x 6.2
8 x 10

10 x 10
68







12.5 x 13.5
100
5 x 5.3

6.3 x 5.3
8 x 6.2
8 x 10
10 x 10

12.5 x 13.5
220

8 x 6.2
6.3 x 7.7
8 x 10

10 x 10
12.5 x 13.5
-
330
6.3 x 7.7

8 x 10

10 x 10
12.5 x 13.5
-
-
470

8 x 10

10 x 10
12.5 x 13.5
-
-
-
1000
8 x 10
10 x 10

12.5 x 13.5
-
-
-
-
1500
10 x 10

12.5 x 13.5
-
-
-
-
-
2200

12.5 x 13.5
-
-
-
-
-
-
Revision: 18-Oct-12
Document Number: 25018
325
For technical questions, contact: [email protected]
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
ECA
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Vishay Roederstein
DIMENSIONS in millimeters
CASE SIZE
CODE
D±
L±
A±
B±
C±
E±
R
N
P
0.5
BB
4 ± 0.5
5.3 ± 0.2
1.9 ± 0.2
4.3 ± 0.2
4.3 ± 0.2
1.0 ± 0.2
0.5 ~ 0.8
0.3
BC
5 ± 0.5
5.3 ± 0.2
2.3 ± 0.2
5.3 ± 0.2
5.3 ± 0.2
1.4 ± 0.2
0.5 ~ 0.8
0.3
0.5
BD
6.3 ± 0.5
5.3 ± 0.3
2.4 ± 0.2
6.6 ± 0.2
6.6 ± 0.2
2.2 ± 0.2
0.5 ~ 0.8
0.3
0.5
0.5
AD
6.3 ± 0.5
5.8 ± 0.3
2.4 ± 0.2
6.6 ± 0.2
6.6 ± 0.2
2.2 ± 0.2
0.5 ~ 0.8
0.3
BM
6.3 ± 0.5
7.7 ± 0.4
2.4 ± 0.2
6.6 ± 0.2
6.6 ± 0.2
2.2 ± 0.2
0.5 ~ 0.8
0.3
0.5
AE
8 ± 0.5
6.2 ± 0.4
3.3 ± 0.2
8.3 ± 0.2
8.3 ± 0.2
2.3 ± 0.2
0.5 ~ 0.8
0.3
0.5
AF
8 ± 0.5
10 ± 0.5
2.9 ± 0.2
8.3 ± 0.2
8.3 ± 0.2
3.1 ± 0.2
0.8 ~ 1.1
0.3
0.5
AG
10 ± 0.5
10 ± 0.5
3.2 ± 0.2
10.3 ± 0.2
10.3 ± 0.2
4.5 ± 0.2
0.8 ~ 1.1
0.3
0.5
AH
12.5 ± 0.5
13.5 ± 0.5
4.6 ± 0.2
12.8 ± 0.2
12.8 ± 0.2
4.5 ± 0.2
1.1 ~ 1.4
0.3
0.5
AK
16 ± 0.5
16.5 ± 0.5
5.6 ± 0.2
16.8 ± 0.2
16.8 ± 0.2
6.5 ± 0.2
1.1 ~ 1.4
0.3
0.5
Capacitance
N max.
Plastic plateform
C±α
+ Positive
P max.
A±α
E±α
A±α
Voltage
B±α
Lot no.
ØD±α
22 A
50
+
L±α
ECA 33 μF/25 V, ± 20 %, size 5 x 5.3 mm
DESCRIPTION
Ordering code: MALSECA00BC233EARK
UR
Rated voltage
CR
Rated capacitance at 120 Hz
tan 
Max. dissipation factor at 120 Hz
RESR
Max. equivalent series resistance at 120 Hz
IR
- Negative
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
R
For Standard Packaging Quantity (SPQ) and Minimum Order
Quantity (MOQ) please refer to our price list or contact
customer service.
Rated alternating current at 120 Hz and upper
catagory temperature
Note
• Unless otherwise specified, all electrical values apply at
Tamb = 20 C, P = 80 kPa to 120 kPa, RH = 45 % to 75 %.
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
CR
120 Hz
(μF)
DIMENSIONS
DxL
(mm)
tan 
120 Hz
RESR
120 Hz
()
IR
120 Hz/85 °C
(mA)
WEIGHT
(g)
CATALOG NUMBER
100
5 x 5.3
0.28
3.71
60
0.17
MALSECA00BC310BARK
330
6.3 x 7.7
0.35
1.41
188
0.40
MALSECA00BM333BARK
1000
8 x 10
0.35
0.46
370
1.00
MALSECA00AF410BARK
1500
10 x 10
0.35
0.31
480
1.25
MALSECA00AG415BARK
220
8 x 6.2
0.24
1.45
175
0.55
MALSECA00AE322CARK
470
8 x 10
0.24
0.68
290
1.00
MALSECA00AF347CARK
1000
10 x 10
0.24
0.32
454
1.25
MALSECA00AG410CARK
2200
12.5 x 13.5
0.24
0.14
960
2.50
MALSECA00AH422CARK
Revision: 18-Oct-12
Document Number: 25018
326
For technical questions, contact: [email protected]
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
ECA
www.vishay.com
Vishay Roederstein
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
16
25
35
50
63
100
CR
120 Hz
(μF)
DIMENSIONS
DxL
(mm)
tan 
120 Hz
RESR
120 Hz
()
IR
120 Hz/85 °C
(mA)
WEIGHT
(g)
CATALOG NUMBER
47
5 x 5.3
0.20
5.64
52
0.17
MALSECA00BC247DARK
100
6.3 x 5.3
0.20
2.65
88
0.27
MALSECA00BD310DARK
220
6.3 x 7.7
0.24
1.45
162
0.40
MALSECA00BM322DARK
330
8 x 10
0.24
0.96
270
1.00
MALSECA00AF333DARK
1500
12.5 x 13.5
0.24
0.21
870
2.50
MALSECA00AH415DARK
22
5 x 5.3
0.13
7.84
41
0.17
MALSECA00BC222EARK
33
5 x 5.3
0.13
5.22
50
0.17
MALSECA00BC233EARK
47
6.3 x 5.3
0.13
3.67
70
0.27
MALSECA00BD247EARK
100
8 x 6.2
0.16
2.12
145
0.55
MALSECA00AE310EARK
220
8 x 10
0.16
0.96
232
1.00
MALSECA00AF322EARK
470
10 x 10
0.16
0.45
400
1.25
MALSECA00AG347EARK
1000
12.5 x 13.5
0.16
0.21
820
2.50
MALSECA00AH410EARK
10
4 x 5.3
0.15
19.9
27
0.12
MALSECA00BB210FARK
33
6.3 x 5.3
0.15
6.03
65
0.27
MALSECA00BD233FARK
MALSECA00AE247FARK
47
8 x 6.2
0.15
4.23
105
0.55
100
8 x 10
0.15
1.99
175
1.00
MALSECA00AF310FARK
330
10 x 10
0.15
0.60
360
1.25
MALSECA00AG333FARK
470
12.5 x 13.5
0.15
0.42
600
2.50
MALSECA00AH347FARK
0.10
4 x 5.3
0.10
1326
3.2
0.12
MALSECA00BB010HARK
0.22
4 x 5.3
0.10
602.9
4.7
0.12
MALSECA00BB022HARK
0.33
4 x 5.3
0.10
401.9
5.7
0.12
MALSECA00BB033HARK
0.47
4 x 5.3
0.10
282.2
6.8
0.12
MALSECA00BB047HARK
1.0
4 x 5.3
0.10
132.6
10
0.12
MALSECA00BB110HARK
2.2
4 x 5.3
0.10
60.3
15
0.12
MALSECA00BB122HARK
3.3
4 x 5.3
0.10
40.2
18
0.12
MALSECA00BB133HARK
4.7
5 x 5.3
0.10
28.2
25
0.17
MALSECA00BC147HARK
10
5 x 5.3
0.10
13.2
41
0.17
MALSECA00BC210HARK
22
6.3 x 5.3
0.10
6.03
71
0.27
MALSECA00BD222HARK
33
6.3 x 7.7
0.12
4.82
94
0.40
MALSECA00BM233HARK
47
8 x 10
0.12
3.39
140
1.00
MALSECA00AF247HARK
100
10 x 10
0.12
1.59
195
1.25
MALSECA00AG310HARK
220
10 x 10
0.12
0.72
320
1.25
MALSECA00AG322HARK
330
12.5 x 13.5
0.12
0.48
600
2.50
MALSECA00AH333HARK
10
6.3 x 5.8
0.12
15.9
46
0.30
MALSECA00AD210JARK
22
8 x 6.2
0.12
7.23
96
0.55
MALSECA00AE222JARK
33
8 x 10
0.12
4.82
117
1.00
MALSECA00AF233JARK
220
12.5 x 13.5
0.12
0.72
550
2.50
MALSECA00AH322JARK
2.2
5 x 5.3
0.12
72.35
20
0.17
MALSECA00BC122LARK
3.3
6.3 x 5.8
0.12
48.2
29
0.30
MALSECA00AD133LARK
4.7
6.3 x 5.8
0.12
33.9
35
0.30
MALSECA00AD147LARK
10
8 x 10
0.12
15.9
77
1.00
MALSECA00AF210LARK
22
8 x 10
0.12
7.23
100
1.00
MALSECA00AF222LARK
33
10 x 10
0.12
4.82
130
1.25
MALSECA00AG233LARK
47
10 x 10
0.12
3.39
155
1.25
MALSECA00AG247LARK
68
12.5 x 13.5
0.12
2.34
350
2.50
MALSECA00AH268LARK
100
12.5 x 13.5
0.12
1.59
420
2.50
MALSECA00AH310LARK
Revision: 18-Oct-12
Document Number: 25018
327
For technical questions, contact: [email protected]
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
ECA
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Vishay Roederstein
REFLOW SOLDERING CONDITIONS FOR SMD ALUMINUM ELECTROLYTIC CAPACITORS
tP
TP
Critical Zone
TL to TP
Temperature
Ramp-up
TL
tL
Ts max.
Ts min.
Ramp-down
ts
Preheat
t 25 °C to Peak
Time
PROFILE FEATURE
SOLDERING CONDITION
Ø 4 TO Ø 10
Average ramp-up rate (TL to TP)
Ø 12.5
Ø 16
3 °C/s max.
3 °C/s max.
Preheat
Temperature min. (Ts min.)
150 °C
150 °C
Temperature max. (Ts max.)
200 °C
200 °C
Time (Ts min. to Ts max.)
60 s to 150 s
40 s to 120 s
40 s to 100 s
Ts max. to TL
Ramp-up rate
3 °C/s max.
3 °C/s max.
Time maintained above
Temperature (TL)
Time (tL)
217 °C
217 °C
60 s to 90 s
40 s to 60 s
Peak/classification temperature (TP)
250 °C
Time within 5 °C of actual peak temperature (TP)
240 °C
230 °C
10 s max.
10 s max.
Ramp-down rate
3 °C/s max.
3 °C/s max.
Time 25 °C to peak temperature
8 min max.
8 min max.
RESISTANCE TO SOLDERING HEAT
Leakage current
Less than specified value
Capacitance value
Within ± 10 % of initial value
tan 
Less than specified value
LOW TEMPERATURE BEHAVIOR (at 120 Hz)
IMPEDANCE RATIO
(Z) T2/(Z) T1
RATED VOLTAGE (V)
T2/T1
6.3
10
16
25
35
50
63
100
- 25 °C/+ 20 °C
5
4
3
2
2
2
2
2
- 40 °C/+ 20 °C
10
8
6
4
3
3
3
3
Revision: 18-Oct-12
Document Number: 25018
328
For technical questions, contact: [email protected]
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
ECA
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Vishay Roederstein
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Current
Leakage current
(Test conditions: UR, 20 °C)
After 2 min at UR
IL2  0.01 x CR x UR
or 3 μA
for UR  100 V (whichever is greater)
Resistance
Equivalent series resistance
(ESR)
Calculated from tan max.
ESR = tan /2  f CR
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER FOR UR  100 V
FREQUENCY (Hz)
50
0.70
120
1.00
300
1.17
1000
1.36
 10 000
1.50
TEST PROCEDURES AND REQUIREMENTS
PROCEDURE
(quick reference)
TEST
Load life
Shelf life
Tamb = 85 °C
C/C: ± 20 % of initial value
UR and IR applied
IL  spec. limit
After 2000 h
tan   2 x spec. limit
No voltage applied
C/C: ± 20 % of initial value
After 1000 h
After test: UR to be applied for 30 min
24 to 48 h before measurement
Revision: 18-Oct-12
REQUIREMENTS
IL  spec. limit
tan   2 x spec. limit
Document Number: 25018
329
For technical questions, contact: [email protected]
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
ECV
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Vishay Roederstein
Aluminum Capacitors
FEATURES
• Load life: 2000 h at 105 °C
• Miniature dimension
• SMD style
• Reflow soldering
• Polarized aluminum electrolytic capacitors
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
QUICK REFERENCE DATA
DESCRIPTION
APPLICATIONS
VALUE
Nominal case size
(Ø D x L in mm)
• Industrial
electronics,
automotive
telecommunication systems
4 x 5.3 to 12.5 x 13.5
Rated capacitance range, CR
Capacitance tolerance
10 μF to 2200 μF
• Smoothing and filtering
± 20 %
Rated voltage range
• Miniature power supply units, dc-to-dc converters
6.3 V to 50 V
Category temperature range
Load life
- 40 °C to 105 °C
PACKAGING
2000 h
Based on sectional specification
Climatic category
IEC 60068
electronics,
Supplied in blister tape.
IEC 60384-4/EN130300
40/105/56
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
RATED VOLTAGE (V)
CR
(μF)
6.3
10
16
25
35
50
10


4 x 5.3

5 x 5.3
6.3 x 5.8
22



6.3 x 5.8
6.3 x 5.8
8 x 6.2
33


6.3 x 5.8
6.3 x 5.8
8 x 6.2
8 x 10
47
5 x 5.3

6.3 x 5.8
8 x 6.2
8 x 10
10 x 10
100

6.3 x 5.8

8 x 10

10 x 10
220

8 x 10
10 x 10

10 x 10
12.5 x 13.5
330
8 x 10

10 x 10
10 x 10
12.5 x 13.5
-
470

10 x 10
10 x 10
10 x 10
12.5 x 13.5
-
680



12.5 x 13.5
-
-
1000

10 x 10
12.5 x 13.5
-
-
-
1500
10 x 10
12.5 x 13.5
-
-
-
-
2200
12.5 x 13.5
-
-
-
-
-
Revision: 18-Oct-12
Document Number: 25003
330
For technical questions, contact: [email protected]
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
ECV
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Vishay Roederstein
DIMENSIONS in millimeters
CASE SIZE
CODE
D±
L±
A±
B±
C±
E±
R
N
P
BB
BC
AD
BM
AE
AF
AG
AH
4 ± 0.5
5 ± 0.5
6.3 ± 0.5
6.3 ± 0.5
8 ± 0.5
8 ± 0.5
10 ± 0.5
12.5 ± 0.5
5.3 ± 0.2
5.3 ± 0.2
5.8 ± 0.3
7.7 ± 0.4
6.2 ± 0.4
10 ± 0.5
10 ± 0.5
13.5 ± 0.5
1.9 ± 0.2
2.3 ± 0.2
2.4 ± 0.2
2.4 ± 0.2
3.3 ± 0.2
2.9 ± 0.2
3.2 ± 0.2
4.6 ± 0.2
4.3 ± 0.2
5.3 ± 0.2
6.6 ± 0.2
6.6 ± 0.2
8.3 ± 0.2
8.3 ± 0.2
10.3 ± 0.2
12.8 ± 0.2
4.3 ± 0.2
5.3 ± 0.2
6.6 ± 0.2
6.6 ± 0.2
8.3 ± 0.2
8.3 ± 0.2
10.3 ± 0.2
12.8 ± 0.2
1.0 ± 0.2
1.4 ± 0.2
2.2 ± 0.2
2.2 ± 0.2
2.3 ± 0.2
3.1 ± 0.2
4.5 ± 0.2
4.5 ± 0.2
0.5 to 0.8
0.5 to 0.8
0.5 to 0.8
0.5 to 0.8
0.5 to 0.8
0.8 to 1.1
0.8 to 1.1
1.1 to 1.4
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.3
0.5
0.5
0.5
0.5
0.5
0.5
0.5
0.5
Capacitance
N max.
Plastic plateform
C±α
+ Positive
P max.
A±α
E±α
A±α
Voltage
B±α
Lot no.
ØD±α
22 A
50
+
L±α
RESR
IR
- Negative
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
UR
CR
tan 
R
ECV 220 μF/35 V, ± 20 %, size 10 mm x 10 mm
DESCRIPTION
Ordering code: MALSECV00AG322FARK
Rated voltage
Rated capacitance at 120 Hz
Max. dissipation factor at 120 Hz
Max. equivalent series resistance at 120 Hz
Rated alternating current at 120 Hz and upper
category temperature
For Standard Packaging Quantity (SPQ) and Minimum Order
Quantity (MOQ) please refer to our price list or contact
customer service.
Note
• Unless otherwise specified, all electrical values apply at
Tamb = 20 °C, P = 86 kPa to 106 kPa, RH = 45 % to 75 %.
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
CR
120 Hz
(μF)
DIMENSIONS
DxL
(mm)
tan 
120 Hz
RESR
120 Hz/20 °C
()
IR
120 Hz/105 °C
(mA)
WEIGHT
(g)
CATALOG NUMBER
47
330
1500
2200
100
220
470
1000
1500
10
33
47
220
330
470
1000
5 x 5.3
8 x 10
10 x 10
12.5 x 13.5
6.3 x 5.8
8 x 10
10 x 10
10 x 10
12.5 x 13.5
4 x 5.3
6.3 x 5.8
6.3 x 5.8
10 x 10
10 x 10
10 x 10
12.5 x 13.5
0.22
0.28
0.28
0.28
0.19
0.24
0.24
0.24
0.24
0.16
0.16
0.16
0.20
0.20
0.20
0.20
6.21
1.13
0.25
0.17
2.52
1.45
0.68
0.32
0.21
21.22
6.43
4.52
1.21
0.80
0.56
0.27
36
288
560
730
60
173
351
550
650
17
40
50
330
441
489
600
0.17
1.00
1.21
2.00
0.30
1.00
1.21
1.21
2.00
0.12
0.30
0.30
1.21
1.21
1.21
2.00
MALSECV00BC247BARK
MALSECV00AF333BARK
MALSECV00AG415BARK
MALSECV00AH422BARK
MALSECV00AD310CARK
MALSECV00AF322CARK
MALSECV00AG347CARK
MALSECV00AG410CARK
MALSECV00AH415CARK
MALSECV00BB210DARK
MALSECV00AD233DARK
MALSECV00AD247DARK
MALSECV00AG322DARK
MALSECV00AG333DARK
MALSECV00AG347DARK
MALSECV00AH410DARK
Revision: 18-Oct-12
Document Number: 25003
331
For technical questions, contact: [email protected]
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
ECV
www.vishay.com
Vishay Roederstein
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
25
35
50
DIMENSIONS
DxL
(mm)
6.3 x 5.8
6.3 x 5.8
8 x 6.2
8 x 10
10 x 10
10 x 10
12.5 x 13.5
5 x 5.3
6.3 x 5.8
8 x 6.2
8 x 10
10 x 10
12.5 x 13.5
12.5 x 13.5
6.3 x 5.8
8 x 6.2
8 x 10
10 x 10
10 x 10
12.5 x 13.5
CR
120 Hz
(μF)
22
33
47
100
330
470
680
10
22
33
47
220
330
470
10
22
33
47
100
220
tan 
120 Hz
0.14
0.14
0.16
0.16
0.16
0.16
0.16
0.12
0.12
0.13
0.13
0.13
0.13
0.13
0.10
0.12
0.12
0.12
0.12
0.12
RESR
120 Hz/20 °C
()
8.44
5.63
4.52
2.12
0.64
0.45
0.31
15.92
7.23
5.22
3.67
0.78
0.52
0.37
13.26
7.23
4.82
3.39
1.59
0.72
IR
120 Hz/105 °C
(mA)
38
48
79
181
372
450
500
24
42
76
124
450
500
600
30
67
133
180
310
480
WEIGHT
(g)
CATALOG NUMBER
0.30
0.30
0.55
1.00
1.21
1.21
2.00
0.17
0.30
0.55
1.00
1.21
2.00
2.00
0.30
0.55
1.00
1.21
1.21
2.00
MALSECV00AD222EARK
MALSECV00AD233EARK
MALSECV00AE247EARK
MALSECV00AF310EARK
MALSECV00AG333EARK
MALSECV00AG347EARK
MALSECV00AH368EARK
MALSECV00BC210FARK
MALSECV00AD222FARK
MALSECV00AE233FARK
MALSECV00AF247FARK
MALSECV00AG322FARK
MALSECV00AH333FARK
MALSECV00AH347FARK
MALSECV00AD210HARK
MALSECV00AE222HARK
MALSECV00AF233HARK
MALSECV00AG247HARK
MALSECV00AG310HARK
MALSECV00AH322HARK
REFLOW SOLDERING CONDITIONS FOR SMD ALUMINUM ELECTROLYTIC CAPACITORS
tP
TP
Critical Zone
TL to TP
Temperature
Ramp-up
TL
tL
Ts max.
Ts min.
Ramp-down
ts
Preheat
t 25 °C to Peak
Time
PROFILE FEATURE
Average ramp-up rate (TL to TP)
Preheat
Temperature min. (Ts min.)
Temperature max. (Ts max.)
Time (Ts min. to Ts max.)
Ts max. to TL
Ramp-up rate
Time maintained above temperature (TL)
Time (tL)
Peak/classification temperature (TP)
Time within 5 °C of actual peak temperature (TP)
Ramp-down rate
Time 25 °C to peak temperature
Revision: 18-Oct-12
Ø 4 TO Ø 10
3 °C/s max.
150 °C
200 °C
60 s to 150 s
3 °C/s max.
217 °C
60 s to 90 s
250 °C
10 s max.
3 °C/s max.
8 min max.
SOLDERING CONDITION
Ø 12.5
3 °C/s max.
Ø 16
150 °C
200 °C
40 s to 120 s
40 s to 100 s
3 °C/s max.
217 °C
40 s to 60 s
240 °C
230 °C
10 s max.
3 °C/s max.
8 min max.
Document Number: 25003
332
For technical questions, contact: [email protected]
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
ECV
www.vishay.com
Vishay Roederstein
RESISTANCE TO SOLDERING HEAT
Leakage current
Less than specified value
Capacitance value
Within ± 10 % of initial value
tan 
Less than specified value
LOW TEMPERATURE BEHAVIOR (at 120 Hz)
IMPEDANCE RATIO
(Z) T2/(Z) T1
RATED VOLTAGE (V)
T2/T1
6.3
10
16
25
35
50
- 25 °C/+ 20 °C
3
3
2
2
2
2
- 40 °C/+ 20 °C
8
5
4
3
3
3
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Current
Leakage current
(test conditions: UR, 20 °C)
After 2 min at UR
IL2  0.01 x CR x UR
or 3 μA
for UR  100 V (whichever is greater)
Resistance
Equivalent series resistance
(ESR)
Calculated from tan max.
ESR = tan /2  f CR
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER FOR UR  100 V
FREQUENCY (Hz)
50
0.70
120
1.00
300
1.17
1000
1.36
 10 000
1.50
TEST PROCEDURES AND REQUIREMENTS
PROCEDURE
(quick reference)
TEST
Load life
Shelf life
Tamb = 105 °C
C/C: ± 20 % of initial value
UR and IR applied
IL  spec. limit
After 2000 h
tan   2 x spec. limit
No voltage applied
C/C: ± 20 % of initial value
After 1000 h
After test: UR to be applied for 30 min
24 h to 48 h before measurement
Revision: 18-Oct-12
REQUIREMENTS
IL  spec. limit
tan   2 x spec. limit
Document Number: 25003
333
For technical questions, contact: [email protected]
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
ECL
www.vishay.com
Vishay Roederstein
Aluminum Capacitors
FEATURES
• Load life: 2000 h at 105 °C
• Extra low impedance, high ripple current
• Polarized SMD aluminum electrolytic capacitors, 
non solid electrolyte
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
QUICK REFERENCE DATA
DESCRIPTION
APPLICATIONS
VALUE
Nominal case size
(Ø D x L in mm )
• SMD technology, for high mounting density
• Industrial and professional applications
6 x 5.8 to 12.5 x 13.5
Rated capacitance range CR
Capacitance tolerance
• General industrial, consumer
10 μF to 1500 μF
• Smoothing, filtering, buffering
± 20 %
Rated voltage range
6.3 V to 50 V
Category temperature range
Load life
PACKAGING
- 40 °C to 105 °C
Supplied in blister tape.
2000 h
Based on sectional
specification
IEC 60384-4/EN 130300
Climatic category
IEC 60068
40/105/56
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
RATED VOLTAGE (V)
6.3
10
16
25
35
50
10





6.3 x 5.8
22





6.3 x 5.8
33




6.3 x 5.8
8 x 6.2
47




6.3 x 5.8
8 x 6.2
68



6.3 x 5.8
8 x 6.2
8 x 10
100


6.3 x 5.8
8 x 6.2
8 x 10
10 x 10
220
6.3 x 5.8
6.3 x 7.7
8 x 6.2
8 x 10
10 x 10
-
330
8 x 6.2

8 x 10
-
-
-
470

8 x 10
10 x 10
-
-
-
680

10 x 10
-
-
-
-
1000
10 x 10
-
-
-
-
-
1500
10 x 10
-
-
-
-
-
Revision: 18-Oct-12
Document Number: 25020
334
For technical questions, contact: [email protected]
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
ECL
www.vishay.com
Vishay Roederstein
DIMENSIONS in millimeters
CASE SIZE
CODE
D±
L±
A±
B±
C±
E±
R
N
P
AD
6.3 ± 0.5
5.8 ± 0.3
2.4 ± 0.2
6.6 ± 0.2
6.6 ± 0.2
2.2 ± 0.2
0.5 to 0.8
0.3
0.5
BM
6.3 ± 0.5
7.7 ± 0.4
2.4 ± 0.2
6.6 ± 0.2
6.6 ± 0.2
2.2 ± 0.2
0.5 to 0.8
0.3
0.5
AE
8 ± 0.5
6.2 ± 0.4
3.3 ± 0.2
8.3 ± 0.2
8.3 ± 0.2
2.3 ± 0.2
0.5 to 0.8
0.3
0.5
AF
8 ± 0.5
10 ± 0.5
2.9 ± 0.2
8.3 ± 0.2
8.3 ± 0.2
3.1 ± 0.2
0.8 to 1.1
0.3
0.5
AG
10 ± 0.5
10 ± 0.5
3.2 ± 0.2
10.3 ± 0.2
10.3 ± 0.2
4.5 ± 0.2
0.8 to 1.1
0.3
0.5
AH
12.5 ± 0.5
13.5 ± 0.5
4.6 ± 0.2
12.8 ± 0.2
12.8 ± 0.2
4.5 ± 0.2
1.1 to 1.4
0.3
0.5
Capacitance
N max.
Plastic plateform
C±α
+ Positive
P max.
A±α
E±α
A±α
Voltage
B±α
Lot no.
ØD±α
22 A
50
+
L±α
- Negative
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
R
ECL 22 μF/50 V, ± 20 %, size 6.3 x 5.8 mm
DESCRIPTION
Ordering code: MALSECL00AD222HARK
UR
Rated voltage
CR
Rated capacitance at 120 Hz
tan 
Max. dissipation factor at 120 Hz
RESR
Max. equivalent series resistance at 120 Hz
IR
Rated alternating current at 120 Hz and upper
catagory temperature
Z
Max. impedance at 100 kHz
For Standard Packaging Quantity (SPQ) and Minimum Order
Quantity (MOQ) please refer to our price list or contact
customer service.
Note
• Unless otherwise specified, all electrical values apply at
Tamb = 20 °C, P = 86 to 100 kPa, RH = 45 to 75 %.
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
Z
100 kHz/
20 °C
()
IR
100 kHz/
105 °C
(mA)
CR
120 Hz
(μF)
DIMENSIONS
DxL
(mm)
220
6.3 x 5.8
0.24
0.44
330
8 x 6.2
0.24
0.26
1000
10 x 10
0.24
0.09
1500
10 x 10
0.24
220
6.3 x 7.7
0.19
470
8 x 10
680
10 x 10
100
6.3 x 5.8
0.16
0.44
220
8 x 6.2
0.16
0.26
330
8 x 10
0.16
0.17
450
1.00
MALSECL00AF333DARK
470
10 x 10
0.16
0.09
670
1.21
MALSECL00AG347DARK
Revision: 18-Oct-12
tan 
120 Hz
WEIGHT
(g)
CATALOG NUMBER
230
0.30
MALSECL00AD322BARK
300
0.55
MALSECL00AE333BARK
670
1.21
MALSECL00AG410BARK
0.09
670
1.21
MALSECL00AG415BARK
0.34
280
0.40
MALSECL00BM322CARK
0.19
0.17
450
1.00
MALSECL00AF347CARK
0.19
0.09
670
1.21
MALSECL00AG368CARK
230
0.30
MALSECL00AD310DARK
300
0.55
MALSECL00AE322DARK
Document Number: 25020
335
For technical questions, contact: [email protected]
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
ECL
www.vishay.com
Vishay Roederstein
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
25
35
50
CR
120 Hz
(μF)
DIMENSIONS
DxL
(mm)
tan 
120 Hz
Z
100 kHz/
20 °C
()
IR
100 kHz/
105 °C
(mA)
WEIGHT
(g)
CATALOG NUMBER
68
100
220
33
47
68
100
220
10
22
33
47
68
100
6.3 x 5.8
8 x 6.2
8 x 10
6.3 x 5.8
6.3 x 5.8
8 x 6.2
8 x 10
10 x 10
6.3 x 5.8
6.3 x 5.8
8 x 6.2
8 x 6.2
8 x 10
10 x 10
0.14
0.14
0.14
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.44
0.26
0.17
0.44
0.44
0.26
0.17
0.09
0.88
0.88
0.63
0.63
0.34
0.18
230
300
450
230
230
300
450
670
165
165
300
300
450
670
0.30
0.55
1.00
0.30
0.30
0.55
1.00
1.21
0.30
0.30
0.55
0.55
1.00
1.21
MALSECL00AD268EARK
MALSECL00AE310EARK
MALSECL00AF322EARK
MALSECL00AD233FARK
MALSECL00AD247FARK
MALSECL00AE268FARK
MALSECL00AF310FARK
MALSECL00AG322FARK
MALSECL00AD210HARK
MALSECL00AD222HARK
MALSECL00AE233HARK
MALSECL00AE247HARK
MALSECL00AF268HARK
MALSECL00AG310HARK
REFLOW SOLDERING CONDITIONS FOR SMD ALUMINUM ELECTROLYTIC CAPACITORS
tP
TP
Critical Zone
TL to TP
Temperature
Ramp-up
TL
tL
Ts max.
Ts min.
Ramp-down
ts
Preheat
t 25 °C to Peak
Time
PROFILE FEATURE
Average ramp-up rate (TL to TP)
Preheat
Temperature min. (Ts min.)
Temperature max. (Ts max.)
Time (Ts min. to Ts max.)
Ts max. to TL
Ramp-up rate
Time maintained above
Temperature (TL)
Time (tL)
Peak/classification temperature (TP)
Time within 5 °C of actual peak temperature (TP)
Ramp-down rate
Time 25 °C to peak temperature
Revision: 18-Oct-12
Ø 4 TO Ø 10
3 °C/s max.
150 °C
200 °C
60 s to 150 s
SOLDERING CONDITION
Ø 12.5
3 °C/s max.
Ø 16
150 °C
200 °C
40 s to 120 s
40 s to 100 s
3 °C/s max.
3 °C/s max.
217 °C
60 s to 90 s
250 °C
10 s max.
3 °C/s max.
8 min max.
217 °C
40 s to 60 s
240 °C
230 °C
10 s max.
3 °C/s max.
8 min max.
Document Number: 25020
336
For technical questions, contact: [email protected]
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
ECL
www.vishay.com
Vishay Roederstein
RESISTANCE TO SOLDERING HEAT
Leakage current
Less than specified value
Capacitance value
Within ± 10 % of initial value
tan 
Less than specified value
LOW TEMPERATURE BEHAVIOR (at 120 Hz)
IMPEDANCE RATIO
(Z) T2/(Z) T1
RATED VOLTAGE (V)
T2/T1
6.3
10
16
25
35
50
63
100
- 25 °C/+ 20 °C
2
2
2
2
2
2
3
3
- 40 °C/+ 20 °C
3
3
3
3
3
3
4
4
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY (Hz)
IR MULTIPLIER
50
0.41
120
0.59
300
0.69
1000
0.80
10 000
0.88
100 000
1.00
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Current
Leakage current
(test conditions: UR, 20 °C)
After 2 min at UR
IL2  0.01 x CR x UR
or 3 μA
for UR  100 V (whichever is greater)
Resistance
Equivalent series resistance
(ESR)
Calculated from tan max.
ESR = tan /2  f CR
TEST PROCEDURES AND REQUIREMENTS
TEST
PROCEDURE
(quick reference)
REQUIREMENTS
Load life
Tamb = 105 °C
UR and IR applied
After 2000 h
C/C: ± 25 % of initial value
IL  spec. limit
tan   2 x spec. limit
Shelf life
No voltage applied
After 1000 h
After test: UR to be applied for 30 min
24 h to 48 h before measurement
C/C: ± 25 % of initial value
IL  spec. limit
tan   2 x spec. limit
Revision: 18-Oct-12
Document Number: 25020
337
For technical questions, contact: [email protected]
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
EKA
www.vishay.com
Vishay Roederstein
Aluminum Capacitors
Radial Style
FEATURES
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte
• Radial leads, cylindrical aluminum case
• High CV-product per unit volume
• Material categorization: for definitions of
compliance please see www.vishay.com/doc?99912
APPLICATIONS
• General purpose, industrial and audio-video
• Coupling, decoupling, timing, smoothing,
buffering in SMPS
• Portable and mobile equipment
filtering,
QUICK REFERENCE DATA
DESCRIPTION
Nominal case size (Ø D x L)
Rated capacitance range CR
Capacitance tolerance
Rated voltage range
Category temperature range
Load life
Based on sectional specification
Climatic category IEC 60068
UNIT
mm
μF
%
V
°C
h
VALUE
5 x 11 to 18 x 40
1 to 22 000
± 20
6.3 to 350
- 40 to + 85
400 to 450
- 25 to + 85
2000
IEC 60384-4/EN 130300
40/085/56
25/085/56
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
1.0
1.5
2.2
3.3
4.7
6.8
10
15
22
33
47
68
100
150
220
330
470
680
1000
2200
3300
4700
6800
10 000
15 000
22 000
6.3


















8 x 11.5

10 x 20
12.5 x 20
12.5 x 25
16 x 25


Revision: 14-Mar-12
10














5 x 11

6.3 x 11


10 x 16




16 x 35.5
18 x 40
RATED VOLTAGE (V) (> 100 V see next page)
16
25
35
50







































5 x 11


5 x 11


5 x 11

6.3 x 11

5 x 11
6.3 x 11

5 x 11
6.3 x 11
8 x 11.5


6.3 x 11
8 x 11.5
10 x 12.5
6.3 x 11
8 x 11.5
10 x 12.5
10 x 16
8 x 11.5
10 x 12.5
10 x 16
10 x 20
8 x 11.5
10 x 16
10 x 20
12.5 x 20
10 x 12.5
10 x 16
12.5 x 20
12.5 x 25
10 x 20
12.5 x 20
16 x 25
16 x 31.5
12.5 x 20
16 x 25
16 x 31.5
18 x 31.5
12.5 x 25
16 x 25
16 x 35.5
18 x 40
16 x 25
18 x 31.5
18 x 40
16 x 31.5
18 x 40
18 x 35.5
-
63
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
6.3 x 11
6.3 x 11
8 x 11.5
8 x 11.5
10 x 12.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
18 x 31.5
18 x 40
-
100
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
6.3 x 11
6.3 x 11
8 x 11.5
8 x 11.5
10 x 12.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 31.5
-
Document Number: 25014
338
For technical questions, contact: [email protected]
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
EKA
www.vishay.com
Vishay Roederstein
SELECTION CHART FOR CR, UR AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
160



6.3 x 11
6.3 x 11
8 x 11.5

10 x 12.5
10 x 12.5
10 x 16

12.5 x 20
12.5 x 25
16 x 20
16 x 25
16 x 35.5
18 x 40
1.0
1.5
2.2
3.3
4.7
6.8
10
15
22
33
47
68
100
150
220
330
470
RATED VOLTAGE (V)
250
350






6.3 x 11

6.3 x 11
8 x 11.5
8 x 11.5


10 x 12.5
10 x 16
10 x 20
10 x 16

10 x 20

12.5 x 20
16 x 20
16 x 20
16 x 25
16 x 25
18 x 31.5
16 x 31.5

18 x 35.5
-
200






8 x 11.5



10 x 20
12.5 x 25

16 x 25
18 x 31.5
18 x 35.5
-
400





10 x 12.5
10 x 16

12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 35.5
18 x 40
-
450
8 x 11.5
8 x 11.5
8 x 11.5
8 x 11.5
10 x 12.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
16 x 35.5
18 x 40
-
RADIAL STYLE: DIMENSIONS in millimeters
Ø D + α max.
Ø d ± 0.05 tinned copper-ply steel
+
S ± 0.5
L + β max.
ØD
S
Ød


5
2.0
0.5
6.3
2.5
0.5
1.5
8
3.5
0.6
15 min.
10
5.0
0.6
4 min.
12.5
5.0
0.6
16
7.5
0.8
18
7.5
0.8
22
10.0
1.0
25
12.5
1.0
2.0
0.5
1.0
Dmax.
Dmax.
Casing Insulation
Ød
DIMENSIONS in millimeters AND AVAILABLE FORMS
Lmax.
15 min.
Ø D ≤ 18 long leads MALREKA00...
S ± 0.5
Lmax.
4 min.
4.5 ± 0.5
Ø D ≤ 18 shortened leads MALREKA05...
(S = 2 mm/2.5 mm/3.5 mm/5 mm/7.5 mm)
GENERAL NOTE
• For Minimum Package Quantity (MPQ) and Minimum Order Quantity (MOQ) please refer to our price list or contact customer service.
• For other packaging forms please refer to Vishay Roederstein General Information.
Revision: 14-Mar-12
Document Number: 25014
339
For technical questions, contact: [email protected]
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
EKA
www.vishay.com
Vishay Roederstein
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
EKA 3300 μF/16 V, ± 20 %, size: 12.5 mm x 20 mm
DESCRIPTION
UR
Rated voltage
Leads: Long
CR
Rated capacitance at 120 Hz
Ordering code: MALREKA00FE433D00K
tan 
Max. dissipation factor at 120 Hz
RESR
Calculated equivalent series resistance at 120 Hz
IR
Rated ripple current (rms) at 120 Hz and upper
category temperature
Leads: Short
Ordering code: MALREKA05...
Note
• Unless otherwise specified, all electrical values apply at
Ta = 20 °C, P = 80 kPa to 120 kPa, RH = 45 % to 75 %.
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
Revision: 14-Mar-12
CR
120 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
tan 
120 Hz
RESR
120 Hz
()
1000
8 x 11.5
0.28
3300
10 x 20
0.34
4700
12.5 x 20
6800
10 000
IR
120 Hz/85 °C
(mA)
WEIGHT
(g)
CATALOG
NUMBER
(Long Leads)
0.37
581
1.20
MALREKA00PB410B00K
0.14
1286
2.80
MALREKA00DE433B00K
0.36
0.10
1736
4.10
MALREKA00FE447B00K
12.5 x 25
0.40
0.08
2129
5.60
MALREKA00FG468B00K
16 x 25
0.46
0.06
2629
7.50
MALREKA00JG510B00K
220
5 x 11
0.24
1.45
218
0.45
MALREKA00AA322C00K
470
6.3 x 11
0.24
0.68
366
0.48
MALREKA00BA347C00K
MALREKA00DD422C00K
2200
10 x 16
0.28
0.17
1051
2.30
15 000
16 x 35.5
0.52
0.05
3284
10.5
MALREKA00JL515C00K
22 000
18 x 40
0.70
0.04
3843
16.0
MALREKA00KK522C00K
150
5 x 11
0.20
1.77
198
0.45
MALREKA00AA315D00K
330
6.3 x 11
0.20
0.80
359
0.48
MALREKA00BA333D00K
470
8 x 11.5
0.20
0.56
476
1.20
MALREKA00PB347D00K
680
8 x 11.5
0.20
0.39
600
1.20
MALREKA00PB368D00K
1000
10 x 12.5
0.20
0.27
796
1.85
MALREKA00DC410D00K
MALREKA00DE422D00K
2200
10 x 20
0.24
0.14
1331
2.80
3300
12.5 x 20
0.26
0.10
1686
4.10
MALREKA00FE433D00K
4700
12.5 x 25
0.28
0.08
2129
5.60
MALREKA00FG447D00K
MALREKA00JG468D00K
6800
16 x 25
0.32
0.06
2577
7.50
10 000
16 x 31.5
0.38
0.05
3176
9.50
MALREKA00JS510D00K
15 000
18 x 35.5
0.48
0.04
3656
13.0
MALREKA00KL515D00K
MALREKA00AA268E00K
68
5 x 11
0.16
3.12
144
0.45
100
5 x 11
0.16
2.12
181
0.45
MALREKA00AA310E00K
150
6.3 x 11
0.16
1.42
246
0.48
MALREKA00BA315E00K
220
6.3 x 11
0.16
0.97
327
0.48
MALREKA00BA322E00K
330
8 x 11.5
0.16
0.64
431
1.20
MALREKA00PB333E00K
470
10 x 12.5
0.16
0.45
550
1.85
MALREKA00DC347E00K
680
10 x 16
0.16
0.31
754
2.30
MALREKA00DD368E00K
1000
10 x 16
0.16
0.21
942
2.30
MALREKA00DD410E00K
2200
12.5 x 20
0.20
0.12
1542
4.10
MALREKA00FE422E00K
3300
16 x 25
0.22
0.09
2194
7.50
MALREKA00JG433E00K
4700
16 x 25
0.24
0.07
2448
7.50
MALREKA00JG447E00K
6800
18 x 31.5
0.28
0.05
3114
12.0
MALREKA00KS468E00K
10 000
18 x 40
0.34
0.05
3544
16.0
MALREKA00KK510E00K
Document Number: 25014
340
For technical questions, contact: [email protected]
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
EKA
www.vishay.com
Vishay Roederstein
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
35
50
50
63
Revision: 14-Mar-12
CR
120 Hz
(μF)
NOMINAL
CASE SIZE
ØDxL
(mm)
tan 
120 Hz
RESR
120 Hz
()
IR
120 Hz/85 °C
(mA)
WEIGHT
(g)
CATALOG
NUMBER
(Long Leads)
47
5 x 11
0.14
3.95
131
0.45
MALREKA00AA247F00K
100
6.3 x 11
0.14
1.86
220
0.48
MALREKA00BA310F00K
150
8 x 11.5
0.14
1.24
318
1.20
MALREKA00PB315F00K
220
8 x 11.5
0.14
0.84
386
1.20
MALREKA00PB322F00K
330
10 x 12.5
0.14
0.56
549
1.85
MALREKA00DC333F00K
470
10 x 16
0.14
0.40
740
2.30
MALREKA00DD347F00K
680
10 x 20
0.14
0.27
947
2.80
MALREKA00DE368F00K
1000
12.5 x 20
0.14
0.19
1306
4.10
MALREKA00FE410F00K
2200
16 x 25
0.18
0.11
2032
7.50
MALREKA00JG422F00K
3300
16 x 31.5
0.20
0.08
2502
9.50
MALREKA00JS433F00K
4700
16 x 35.5
0.22
0.06
2905
10.5
MALREKA00JL447F00K
6800
18 x 40
0.26
0.05
3408
16.0
MALREKA00KK468F00K
33
5 x 11
0.12
4.83
123
0.45
MALREKA00AA233H00K
68
6.3 x 11
0.12
2.34
203
0.48
MALREKA00BA268H00K
220
10 x 12.5
0.12
0.72
501
1.85
MALREKA00DC322H00K
330
10 x 16
0.12
0.48
672
2.30
MALREKA00DD333H00K
470
10 x 20
0.12
0.34
875
2.80
MALREKA00DE347H00K
680
12.5 x 20
0.12
0.23
1235
4.10
MALREKA00FE368H00K
1000
12.5 x 25
0.12
0.16
1633
5.60
MALREKA00FG410H00K
2200
16 x 31.5
0.16
0.10
2220
9.50
MALREKA00JS422H00K
3300
18 x 31.5
0.18
0.07
2765
12.0
MALREKA00KS433H00K
4700
18 x 40
0.20
0.06
3272
16.0
MALREKA00KK447H00K
1.0
5 x 11
0.10
133
23
0.45
MALREKA00AA110J00K
1.5
5 x 11
0.10
88.5
28
0.45
MALREKA00AA115J00K
2.2
5 x 11
0.10
60.3
34
0.45
MALREKA00AA122J00K
3.3
5 x 11
0.10
40.2
42
0.45
MALREKA00AA133J00K
4.7
5 x 11
0.10
28.2
50
0.45
MALREKA00AA147J00K
6.8
5 x 11
0.10
19.5
60
0.45
MALREKA00AA168J00K
10
5 x 11
0.10
13.3
72
0.45
MALREKA00AA210J00K
15
5 x 11
0.10
8.85
89
0.45
MALREKA00AA215J00K
22
5 x 11
0.10
6.03
108
0.45
MALREKA00AA222J00K
33
6.3 x 11
0.10
4.02
151
0.48
MALREKA00BA233J00K
47
6.3 x 11
0.10
2.82
181
0.48
MALREKA00BA247J00K
68
8 x 11.5
0.10
1.95
256
1.20
MALREKA00PB268J00K
100
8 x 11.5
0.10
1.33
311
1.20
MALREKA00PB310J00K
150
10 x 12.5
0.10
0.88
422
1.85
MALREKA00DC315J00K
220
10 x 16
0.10
0.60
586
2.30
MALREKA00DD322J00K
330
10 x 20
0.10
0.40
784
2.80
MALREKA00DE333J00K
470
12.5 x 20
0.10
0.28
1098
4.10
MALREKA00FE347J00K
680
12.5 x 25
0.10
0.20
1440
5.60
MALREKA00FG368J00K
1000
16 x 25
0.10
0.13
1937
7.50
MALREKA00JG410J00K
2200
18 x 31.5
0.14
0.08
2445
12.0
MALREKA00KS422J00K
3300
18 x 40
0.16
0.06
2987
16.0
MALREKA00KK433J00K
Document Number: 25014
341
For technical questions, contact: [email protected]
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
EKA
www.vishay.com
Vishay Roederstein
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
100
160
160
200
250
350
Revision: 14-Mar-12
CR
120 Hz
(μF)
1.0
1.5
2.2
3.3
4.7
6.8
10
15
22
33
47
68
100
150
220
330
470
680
1000
3.3
4.7
6.8
15
22
33
68
100
150
220
330
470
10
47
68
150
220
330
3.3
4.7
6.8
15
22
33
47
68
100
150
220
4.7
10
15
47
68
100
NOMINAL
CASE SIZE
ØDxL
(mm)
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
6.3 x 11
6.3 x 11
8 x 11.5
8 x 11.5
10 x 12.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 31.5
6.3 x 11
6.3 x 11
8 x 11.5
10 x 12.5
10 x 12.5
10 x 16
12.5 x 20
12.5 x 25
16 x 20
16 x 25
16 x 35.5
18 x 40
8 x 11.5
10 x 20
12.5 x 25
16 x 25
18 x 31.5
18 x 35.5
6.3 x 11
6.3 x 11
8 x 11.5
10 x 16
10 x 16
10 x 20
12.5 x 20
16 x 20
16 x 25
16 x 31.5
18 x 35.5
8 x 11.5
10 x 12.5
10 x 20
16 x 20
16 x 25
18 x 31.5
tan 
120 Hz
RESR
120 Hz
()
IR
120 Hz/85 °C
(mA)
WEIGHT
(g)
CATALOG
NUMBER
(Long Leads)
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.20
0.20
0.20
0.20
0.20
0.20
106
70.8
48.3
32.2
22.6
15.6
10.6
7.08
4.83
3.22
2.26
1.56
1.06
0.71
0.48
0.32
0.23
0.16
0.11
60.3
42.3
29.3
13.3
9.05
6.03
2.93
1.99
1.33
0.90
0.60
0.42
19.9
4.23
2.93
1.33
0.90
0.60
60.3
42.3
29.3
13.3
9.05
6.03
4.23
2.93
1.99
1.33
0.90
56.5
26.5
17.7
5.65
3.90
2.65
23
28
34
42
50
60
76
89
124
178
222
293
388
528
737
1002
1328
1643
1965
45
53
76
131
156
209
391
516
632
873
1152
1434
96
293
426
691
962
1206
48
57
76
143
170
247
319
425
564
726
988
66
107
156
353
465
592
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.48
0.48
1.20
1.20
1.85
2.30
2.80
4.10
5.60
7.50
9.50
12.0
0.48
0.48
1.20
1.85
1.85
2.30
4.10
5.60
5.70
7.50
10.5
16.0
1.20
2.80
5.60
7.50
12.0
13.0
0.48
0.48
1.20
2.30
2.30
2.80
4.10
5.70
7.50
9.50
13.0
1.20
1.85
2.80
5.70
7.50
12.0
MALREKA00AA110L00K
MALREKA00AA115L00K
MALREKA00AA122L00K
MALREKA00AA133L00K
MALREKA00AA147L00K
MALREKA00AA168L00K
MALREKA00AA210L00K
MALREKA00BA215L00K
MALREKA00BA222L00K
MALREKA00PB233L00K
MALREKA00PB247L00K
MALREKA00DC268L00K
MALREKA00DD310L00K
MALREKA00DE315L00K
MALREKA00FE322L00K
MALREKA00FG333L00K
MALREKA00JG347L00K
MALREKA00JS368L00K
MALREKA00KS410L00K
MALREKA00BA133M00K
MALREKA00BA147M00K
MALREKA00PB168M00K
MALREKA00DC215M00K
MALREKA00DC222M00K
MALREKA00DD233M00K
MALREKA00FE268M00K
MALREKA00FG310M00K
MALREKA00JE315M00K
MALREKA00JG322M00K
MALREKA00JL333M00K
MALREKA00KK347M00K
MALREKA00PB210S00K
MALREKA00DE247S00K
MALREKA00FG268S00K
MALREKA00JG315S00K
MALREKA00KS322S00K
MALREKA00KL333S00K
MALREKA00BA133N00K
MALREKA00BA147N00K
MALREKA00PB168N00K
MALREKA00DD215N00K
MALREKA00DD222N00K
MALREKA00DE233N00K
MALREKA00FE247N00K
MALREKA00JE268N00K
MALREKA00JG310N00K
MALREKA00JS315N00K
MALREKA00KL322N00K
MALREKA00PB147O00K
MALREKA00DC210O00K
MALREKA00DE215O00K
MALREKA00JE247O00K
MALREKA00JG268O00K
MALREKA00KS310O00K
Document Number: 25014
342
For technical questions, contact: [email protected]
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
EKA
www.vishay.com
Vishay Roederstein
ELECTRICAL DATA AND ORDERING INFORMATION
NOMINAL
CASE SIZE
ØDxL
(mm)
10 x 12.5
10 x 16
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 35.5
18 x 40
8 x 11.5
8 x 11.5
8 x 11.5
8 x 11.5
10 x 12.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
16 x 35.5
18 x 40
CR
120 Hz
(μF)
UR
(V)
6.8
10
22
33
47
68
100
150
1.0
1.5
2.2
3.3
4.7
6.8
10
15
22
33
47
68
100
400
450
tan 
120 Hz
RESR
120 Hz
()
IR
120 Hz/85 °C
(mA)
WEIGHT
(g)
CATALOG
NUMBER
(Long Leads)
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
39.0
26.5
12.1
8.04
5.65
3.90
2.65
1.77
265
177
121
80.4
56.5
39.0
26.5
17.7
12.1
8.04
5.65
3.90
2.65
87
115
218
296
387
488
667
863
26
32
33
50
72
86
115
164
217
294
384
503
546
1.85
2.30
4.10
5.60
7.50
9.50
13.0
16.0
1.20
1.20
1.20
1.20
1.85
2.30
2.80
4.10
5.60
7.50
9.50
10.5
16.0
MALREKA00DC168X00K
MALREKA00DD210X00K
MALREKA00FE222X00K
MALREKA00FG233X00K
MALREKA00JG247X00K
MALREKA00JS268X00K
MALREKA00KL310X00K
MALREKA00KK315X00K
MALREKA00PB110P00K
MALREKA00PB115P00K
MALREKA00PB122P00K
MALREKA00PB133P00K
MALREKA00DC147P00K
MALREKA00DD168P00K
MALREKA00DE210P00K
MALREKA00FE215P00K
MALREKA00FG222P00K
MALREKA00JG233P00K
MALREKA00JS247P00K
MALREKA00JL268P00K
MALREKA00KK310P00K
LOW TEMPERATURE BEHAVIOR (at 120 Hz)
IMPEDANCE RATIO
Z (T2)/Z (T1)
RATED VOLTAGE
(V)
T2/T1
6.3
10
16
25
35
50 ~ 100
160
200 ~ 350
400 ~ 450
- 25/+ 20 °C
5
4
3
2
2
2
4
6
12
- 40/+ 20 °C
12
10
8
5
4
3
6
8
-
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Current
Leakage current
(test conditions: UR, 20 °C)
After 1 min at UR
IL1  0.03 x CR x UR
After 2 min at UR
IL2  0.01 x CR x UR
or 3 μA
After 5 min at UR
IL5  0.02 x CR x UR
or 15 μA
or 4 μA
Resistance
Equivalent series resistance (ESR)
Calculated from tan max. and CR
ESR = tan /2  f CR
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER FOR UR  100 V
FREQUENCY
(Hz)
CR  47 μF
CR = 68 μF to 680 μF
CR  1000 μF
50
0.75
0.80
0.85
120
1.00
1.00
1.00
300
1.35
1.25
1.10
1000
1.55
1.35
1.15
 10 000
2.00
1.50
1.15
Revision: 14-Mar-12
Document Number: 25014
343
For technical questions, contact: [email protected]
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
EKA
www.vishay.com
Vishay Roederstein
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER FOR UR 160 V to  450 V
FREQUENCY
(Hz)
CR = 47 μF to 220 μF
CR  330 μF
50
0.80
0.90
120
1.00
1.00
300
1.25
1.10
1000
1.40
1.13
 10 000
1.60
1.15
PROCEDURE
(quick reference)
REQUIREMENTS
TEST PROCEDURES AND REQUIREMENTS
TEST
Load life
Tamb = 85 °C
UR and IR applied 
After 2000 h
C/C: ± 25 % of initial value
IL  spec. limit
tan   2 x spec. limit
Shelf life
Tamb = 85 °C 
No voltage applied
After 1000 h
After test: UR to be applied for 30 min
24 h to 48 h before measurement
C/C: ± 20 % of initial value
IL  spec.limit
tan   2 x spec. limit
Revision: 14-Mar-12
Document Number: 25014
344
For technical questions, contact: [email protected]
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
EKB
www.vishay.com
Vishay Roederstein
Aluminum Capacitors
Radial Style
FEATURES
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte
• Radial leads, cylindrical aluminum case
• High CV-product per unit volume
• Temperature range up to 105 °C
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
• General purpose, industrial and audio-video
• Coupling, decoupling, timing, smoothing,
buffering in SMPS
• Portable and mobile equipment
filtering,
QUICK REFERENCE DATA
DESCRIPTION
UNIT
VALUE
Nominal case size (Ø D x L)
mm
5 x 11 to 8 x 11.5
Rated capacitance range CR
μF
10 x 12.5 to 18 x 40
Capacitance tolerance
%
Rated voltage range
V
6.3 to 100
160 to 350
400 to 450
Category temperature range
°C
- 55 to + 105
- 40 to + 105
- 25 to + 105
Load life
h
2.2 to 22 000
± 20
1000
Based on sectional specification
2000
IEC 60384-4/EN 130300
Climatic category
IEC 60068
55/105/56
40/105/56
25/105/56
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
2.2
3.3
4.7
6.8
10
15
22
33
47
68
100
150
220
330
470
680
1000
1500
2200
3300
4700
6800
10 000
15 000
22 000
6.3















8 x 11.5
8 x 11.5


12.5 x 16
12.5 x 20
12.5 x 25
16 x 25
16 x 35.5
18 x 40
Revision: 14-Mar-12
10











5 x 11
5 x 11
6.3 x 11
6.3 x 11

10 x 12.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 35.5
18 x 35.5
-
RATED VOLTAGE (V) (> 100 V see next page)
16
25
35
50































5 x 11


5 x 11


5 x 11
6.3 x 11

5 x 11

6.3 x 11


6.3 x 11
8 x 11.5

6.3 x 11

8 x 11.5
10 x 12.5

8 x 11.5
10 x 12.5
10 x 16
8 x 11.5
10 x 12.5
10 x 16
10 x 20
10 x 12.5
10 x 16
12.5 x 16
12.5 x 20
10 x 16
10 x 20
12.5 x 20
12.5 x 25
12.5 x 16
12.5 x 20
16 x 20
16 x 25
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
12.5 x 25
16 x 25
16 x 35.5
16 x 35.5
16 x 25
16 x 31.5
16 x 35.5
16 x 31.5
18 x 35.5
18 x 35.5
-
63
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
6.3 x 11
6.3 x 11
8 x 11.5
8 x 11.5
10 x 12.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 35.5
16 x 35.5
18 x 40
-
100
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
6.3 x 11
6.3 x 11
8 x 11.5
10 x 12.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 25
16 x 31.5
18 x 40
-
Document Number: 25013
345
For technical questions, contact: [email protected]
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
EKB
www.vishay.com
Vishay Roederstein
SELECTION CHART FOR CR, UR AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
RATED VOLTAGE (V)
CR
(μF)
160
200
250
350
400
450
2.2


6.3 x 11

8 x 11.5
10 x 12.5
3.3

6.3 x 11

8 x 11.5
10 x 12.5
10 x 16
4.7
6.3 x 11

8 x 11.5

10 x 12.5
10 x 16
6.8
8 x 11.5

10 x 12.5

10 x 16
10 x 20
10


10 x 12.5
10 x 16
10 x 20
12.5 x 20
15


10 x 16
10 x 20
12.5 x 20
12.5 x 25
22

10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
33

10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
47

12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
16 x 35.5
68
12.5 x 25
16 x 20
16 x 25
16 x 31.5
18 x 35.5
18 x 40
100
12.5 x 25
16 x 25
16 x 31.5
18 x 35.5
18 x 40
-
150
16 x 25
16 x 35.5
18 x 35.5
18 x 40
-
-
220
16 x 31.5
18 x 35.5
18 x 40
-
-
-
330
18 x 35.5
18 x 40
-
-
-
-
470
18 x 40
-
-
-
-
-
RADIAL STYLE: DIMENSIONS in millimeters
Ø D + α max.
Ø d ± 0.05 tinned copper-ply steel
+
S ± 0.5
L + β max.
15 min.
4 min.
ØD
5
6.3
8
10
12.5
16
18
22
25
S
2.0
2.5
3.5
5.0
5.0
7.5
7.5
10.0
12.5
Ød
0.5
0.5
0.6
0.6
0.6
0.8
0.8
1.0
1.0

1.5
2.0

0.5
1.0
Dmax.
Dmax.
Casing Insulation
Ød
DIMENSIONS in millimeters AND AVAILABLE FORMS
Lmax.
15 min.
Ø D ≤ 18 long leads MALREKB00...
S ± 0.5
Lmax.
4 min.
4.5 ± 0.5
Ø D ≤ 18 shortened leads MALREKB05...
(S = 2 mm/2.5 mm/3.5 mm/5 mm/7.5 mm)
GENERAL NOTE
• For Minimum Package Quantity (MPQ) and Minimum Order Quantity (MOQ) please refer to our price list or contact customer service.
• For other packaging forms please refer to Vishay Roederstein General Information.
Revision: 14-Mar-12
Document Number: 25013
346
For technical questions, contact: [email protected]
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
EKB
www.vishay.com
Vishay Roederstein
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
UR
CR
EKB 3300 μF/25 V, ± 20 %, size: 16 mm x 25 mm
DESCRIPTION
Leads: Long 
Ordering code: MALREKB00JG433E00K
Rated voltage
Rated capacitance at 120 Hz
Leads: Short 
Ordering code: MALREKB05...
tan 
Max. dissipation factor at 120 Hz
RESR
Calculated equivalent series resistance at 120 Hz
IR
Rated ripple current (RMS) at 120 Hz and upper
category temperature
Note
• Unless otherwise specified, all electrical values apply at
Ta = 20 °C, P = 80 kPa to 120 kPa, RH = 45 % to 75 %
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
CR
120 Hz
(μF)
DIMENSIONS
DxL
(mm)
tan 
120 Hz
RESR
120 Hz
()
IR
120 Hz/105 °C
(mA)
WEIGHT
(g)
CATALOG
NUMBER
(Long Leads)
680
8 x 11.5
0.28
0.55
348
1.10
MALREKB00PB368B00K
1000
8 x 11.5
0.28
0.37
422
1.10
MALREKB00PB410B00K
3300
12.5 x 16
0.34
0.14
983
3.00
MALREKB00FD433B00K
4700
12.5 x 20
0.36
0.10
1219
4.00
MALREKB00FE447B00K
6800
12.5 x 25
0.40
0.08
1480
5.00
MALREKB00FG468B00K
10 000
16 x 25
0.46
0.06
1807
8.50
MALREKB00JG510B00K
15 000
16 x 35.5
0.56
0.05
2233
11.0
MALREKB00JL515B00K
22 000
18 x 40
0.70
0.04
2652
14.6
MALREKB00KK522B00K
150
5 x 11
0.24
2.12
134
0.45
MALREKB00AA315C00K
220
5 x 11
0.24
1.45
162
0.45
MALREKB00AA322C00K
330
6.3 x 11
0.24
0.96
228
0.46
MALREKB00BA333C00K
470
6.3 x 11
0.24
0.68
272
0.46
MALREKB00BA347C00K
1000
10 x 12.5
0.24
0.32
544
2.05
MALREKB00DC410C00K
1500
10 x 16
0.26
0.23
680
2.20
MALREKB00DD415C00K
2200
10 x 20
0.28
0.17
844
3.10
MALREKB00DE422C00K
3300
12.5 x 20
0.30
0.12
1148
4.00
MALREKB00FE433C00K
4700
12.5 x 25
0.32
0.09
1421
5.00
MALREKB00FG447C00K
6800
16 x 25
0.36
0.07
1737
8.50
MALREKB00JG468C00K
10 000
16 x 35.5
0.42
0.06
2172
11.0
MALREKB00JL510C00K
15 000
18 x 35.5
0.52
0.05
2482
14.0
MALREKB00KL515C00K
100
5 x 11
0.20
2.65
119
0.45
MALREKB00AA310D00K
220
6.3 x 11
0.20
1.21
203
0.46
MALREKB00BA322D00K
470
8 x 11.5
0.20
0.56
349
1.10
MALREKB00PB347D00K
680
10 x 12.5
0.20
0.39
488
2.05
MALREKB00DC368D00K
1000
10 x 16
0.20
0.27
648
2.20
MALREKB00DD410D00K
MALREKB00FD415D00K
1500
12.5 x 16
0.22
0.19
862
3.00
2200
12.5 x 20
0.24
0.14
1055
4.00
MALREKB00FE422D00K
3300
12.5 x 25
0.26
0.10
1323
5.00
MALREKB00FG433D00K
4700
16 x 25
0.28
0.08
1657
8.50
MALREKB00JG447D00K
6800
16 x 31.5
0.32
0.06
1982
10.0
MALREKB00JS468D00K
10 000
18 x 35.5
0.38
0.05
2409
14.0
MALREKB00KL510D00K
Revision: 14-Mar-12
Document Number: 25013
347
For technical questions, contact: [email protected]
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
EKB
www.vishay.com
Vishay Roederstein
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
25
35
50
63
CR
120 Hz
(μF)
DIMENSIONS
DxL
(mm)
tan 
120 Hz
RESR
120 Hz
()
IR
120 Hz/105 °C
(mA)
WEIGHT
(g)
CATALOG
NUMBER
(Long Leads)
68
150
330
470
680
1000
1500
2200
3300
4700
6800
47
68
100
150
220
330
470
680
1000
1500
2200
3300
4700
33
220
330
470
680
1000
1500
2200
3300
2.2
3.3
4.7
6.8
10
15
22
33
47
68
100
150
220
330
470
680
1000
1500
2200
3300
5 x 11
6.3 x 11
8 x 11.5
10 x 12.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 35.5
5 x 11
6.3 x 11
6.3 x 11
8 x 11.5
8 x 11.5
10 x 12.5
10 x 16
12.5 x 16
12.5 x 20
16 x 20
16 x 25
16 x 35.5
16 x 35.5
5 x 11
10 x 12.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
16 x 35.5
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
5 x 11
6.3 x 11
6.3 x 11
8 x 11.5
8 x 11.5
10 x 12.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 35.5
16 x 35.5
18 x 40
0.16
0.16
0.16
0.16
0.16
0.16
0.18
0.20
0.22
0.24
0.28
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.14
0.16
0.18
0.20
0.22
0.12
0.12
0.12
0.12
0.12
0.12
0.14
0.16
0.18
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.12
0.14
0.16
3.12
1.41
0.64
0.45
0.31
0.21
0.16
0.12
0.09
0.07
0.05
3.95
2.73
1.86
1.24
0.84
0.56
0.40
0.27
0.19
0.14
0.11
0.08
0.06
4.82
0.72
0.48
0.34
0.23
0.16
0.12
0.10
0.07
60.29
40.19
28.22
19.50
13.26
8.84
6.03
4.02
2.82
1.95
1.33
0.88
0.60
0.40
0.28
0.20
0.13
0.11
0.08
0.06
108
185
324
449
591
782
1017
1235
1562
1916
2335
96
132
160
231
280
399
521
740
974
1188
1426
1857
2224
92
376
504
657
927
1226
1442
1442
1794
26
32
38
46
56
68
83
116
139
197
239
340
451
603
844
1107
1490
1770
1770
2689
0.45
0.46
1.10
2.05
2.20
3.10
4.00
5.00
8.50
10.0
14.0
0.45
0.46
0.46
1.10
1.10
2.05
2.20
3.00
4.00
6.00
8.50
11.0
14.0
0.45
2.05
2.20
3.10
4.00
5.00
8.50
10.0
11.0
0.45
0.45
0.45
0.45
0.45
0.45
0.45
0.46
0.46
1.10
1.10
2.05
2.20
3.10
4.00
5.00
8.50
11.0
11.0
14.6
MALREKB00AA268E00K
MALREKB00BA315E00K
MALREKB00PB333E00K
MALREKB00DC347E00K
MALREKB00DD368E00K
MALREKB00DE410E00K
MALREKB00FE415E00K
MALREKB00FG422E00K
MALREKB00JG433E00K
MALREKB00JS447E00K
MALREKB00KL468E00K
MALREKB00AA247F00K
MALREKB00BA268F00K
MALREKB00BA310F00K
MALREKB00PB315F00K
MALREKB00PB322F00K
MALREKB00DC333F00K
MALREKB00DD347F00K
MALREKB00FD368F00K
MALREKB00FE410F00K
MALREKB00JE415F00K
MALREKB00JG422F00K
MALREKB00JL433F00K
MALREKB00JL447F00K
MALREKB00AA233H00K
MALREKB00DC322H00K
MALREKB00DD333H00K
MALREKB00DE347H00K
MALREKB00FE368H00K
MALREKB00FG410H00K
MALREKB00JG415H00K
MALREKB00JS422H00K
MALREKB00JL433H00K
MALREKB00AA122J00K
MALREKB00AA133J00K
MALREKB00AA147J00K
MALREKB00AA168J00K
MALREKB00AA210J00K
MALREKB00AA215J00K
MALREKB00AA222J00K
MALREKB00BA233J00K
MALREKB00BA247J00K
MALREKB00PB268J00K
MALREKB00PB310J00K
MALREKB00DC315J00K
MALREKB00DD322J00K
MALREKB00DE333J00K
MALREKB00FE347J00K
MALREKB00FG368J00K
MALREKB00JG410J00K
MALREKB00JL415J00K
MALREKB00JL422J00K
MALREKB00KK433J00K
Revision: 14-Mar-12
Document Number: 25013
348
For technical questions, contact: [email protected]
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
EKB
www.vishay.com
Vishay Roederstein
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
100
160
200
250
CR
120 Hz
(μF)
DIMENSIONS
DxL
(mm)
tan 
120 Hz
RESR
120 Hz
()
IR
120 Hz/105 °C
(mA)
WEIGHT
(g)
CATALOG
NUMBER
(Long Leads)
2.2
5 x 11
0.08
48.23
26
0.45
MALREKB00AA122L00K
3.3
5 x 11
0.08
32.15
32
0.45
MALREKB00AA133L00K
4.7
5 x 11
0.08
22.58
38
0.45
MALREKB00AA147L00K
6.8
5 x 11
0.08
15.60
46
0.45
MALREKB00AA168L00K
10
5 x 11
0.08
10.61
56
0.45
MALREKB00AA210L00K
15
6.3 x 11
0.08
7.07
78
0.46
MALREKB00BA215L00K
22
6.3 x 11
0.08
4.82
95
0.46
MALREKB00BA222L00K
33
8 x 11.5
0.08
3.22
137
1.10
MALREKB00PB233L00K
47
10 x 12.5
0.08
2.26
190
2.05
MALREKB00DC247L00K
68
10 x 16
0.08
1.56
251
2.20
MALREKB00DD268L00K
100
10 x 20
0.08
1.06
332
3.10
MALREKB00DE310L00K
150
12.5 x 20
0.08
0.71
477
4.00
MALREKB00FE315L00K
220
12.5 x 25
0.08
0.48
630
5.00
MALREKB00FG322L00K
330
16 x 25
0.08
0.32
856
8.50
MALREKB00JG333L00K
470
16 x 25
0.08
0.23
1021
8.50
MALREKB00JG347L00K
680
16 x 31.5
0.08
0.16
1344
10.0
MALREKB00JS368L00K
1000
18 x 40
0.08
0.11
1925
14.6
MALREKB00KK410L00K
4.7
6.3 x 11
0.15
42.33
34
0.46
MALREKB00BA147M00K
6.8
8 x 11.5
0.15
29.26
49
1.10
MALREKB00PB168M00K
68
12.5 x 25
0.15
2.93
273
5.00
MALREKB00FG268M00K
100
12.5 x 25
0.15
1.99
331
5.00
MALREKB00FG310M00K
150
16 x 25
0.15
1.33
450
8.50
MALREKB00JG315M00K
220
16 x 31.5
0.15
0.90
596
10.0
MALREKB00JS322M00K
330
18 x 35.5
0.15
0.60
822
14.0
MALREKB00KL333M00K
470
18 x 40
0.15
0.42
1015
14.6
MALREKB00KK347M00K
3.3
6.3 x 11
0.15
60.29
29
0.46
MALREKB00BA133S00K
22
10 x 16
0.15
9.04
111
2.20
MALREKB00DD222S00K
33
10 x 20
0.15
6.03
149
3.10
MALREKB00DE233S00K
47
12.5 x 20
0.15
4.23
208
4.00
MALREKB00FE247S00K
68
16 x 20
0.15
2.93
279
6.00
MALREKB00JE268S00K
100
16 x 25
0.15
1.99
368
8.50
MALREKB00JG310S00K
150
16 x 35.5
0.15
1.33
517
11.0
MALREKB00JL315S00K
220
18 x 35.5
0.15
0.90
671
14.0
MALREKB00KL322S00K
330
18 x 40
0.15
0.60
850
14.6
MALREKB00KK333S00K
2.2
6.3 x 11
0.15
90.43
23
0.46
MALREKB00BA122N00K
4.7
8 x 11.5
0.15
42.33
40
1.10
MALREKB00PB147N00K
6.8
10 x 12.5
0.15
29.26
56
2.05
MALREKB00DC168N00K
10
10 x 12.5
0.15
19.89
68
2.05
MALREKB00DC210N00K
15
10 x 16
0.15
13.26
92
2.20
MALREKB00DD215N00K
22
10 x 20
0.15
9.04
121
3.10
MALREKB00DE222N00K
33
12.5 x 20
0.15
6.03
175
4.00
MALREKB00FE233N00K
47
12.5 x 25
0.15
4.23
227
5.00
MALREKB00FG247N00K
MALREKB00JG268N00K
68
16 x 25
0.15
2.93
303
8.50
100
16 x 31.5
0.15
1.99
402
10.0
MALREKB00JS310N00K
150
18 x 35.5
0.15
1.33
554
14.0
MALREKB00KL315N00K
220
18 x 40
0.15
0.90
694
14.6
MALREKB00KK322N00K
Revision: 14-Mar-12
Document Number: 25013
349
For technical questions, contact: [email protected]
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
EKB
www.vishay.com
Vishay Roederstein
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
CR
120 Hz
(μF)
DIMENSIONS
DxL
(mm)
tan 
120 Hz
RESR
120 Hz
()
IR
120 Hz/105 °C
(mA)
WEIGHT
(g)
CATALOG
NUMBER
(Long Leads)
3.3
10
15
22
33
47
68
100
150
2.2
3.3
4.7
6.8
10
15
22
33
47
68
100
2.2
3.3
4.7
6.8
10
15
22
33
47
68
8 x 11.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 35.5
18 x 40
8 x 11.5
10 x 12.5
10 x 12.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 35.5
18 x 40
10 x 12.5
10 x 16
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
16 x 35.5
18 x 40
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
80.38
26.53
17.68
12.06
8.04
5.64
3.90
2.65
1.77
120.6
80.38
56.44
39.01
26.53
17.68
12.06
8.04
5.64
3.90
2.65
120.6
80.38
56.44
39.01
26.53
17.68
12.06
8.04
5.64
3.90
34
75
100
143
190
252
332
407
523
28
39
47
62
82
118
155
211
276
373
427
27
36
43
56
80
107
144
193
242
352
1.10
2.20
3.10
4.00
5.00
8.50
10.0
14.0
14.6
1.10
2.05
2.05
2.20
3.10
4.00
5.00
8.50
10.0
14.0
14.6
2.05
2.20
2.20
3.10
4.00
5.00
8.50
10.0
11.0
14.6
MALREKB00PB133O00K
MALREKB00DD210O00K
MALREKB00DE215O00K
MALREKB00FE222O00K
MALREKB00FG233O00K
MALREKB00JG247O00K
MALREKB00JS268O00K
MALREKB00KL310O00K
MALREKB00KK315O00K
MALREKB00PB122X00K
MALREKB00DC133X00K
MALREKB00DC147X00K
MALREKB00DD168X00K
MALREKB00DE210X00K
MALREKB00FE215X00K
MALREKB00FG222X00K
MALREKB00JG233X00K
MALREKB00JS247X00K
MALREKB00KL268X00K
MALREKB00KK310X00K
MALREKB00DC122P00K
MALREKB00DD133P00K
MALREKB00DD147P00K
MALREKB00DE168P00K
MALREKB00FE210P00K
MALREKB00FG215P00K
MALREKB00JG222P00K
MALREKB00JS233P00K
MALREKB00JL247P00K
MALREKB00KK268P00K
350
400
450
LOW TEMPERATURE BEHAVIOR
IMPEDANCE RATIO
Z (T2)/Z (T1)
RATED VOLTAGE
(V)
T2/T1
6.3
10
16
25
35
50 ~ 100
160
200 ~ 350
400
450
- 25/+ 20 °C
5
4
3
2
2
2
3
4
6
10
- 40/+ 20 °C
10
8
6
4
3
3
4
8
-
-
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Current
Leakage current
(test conditions: UR, 20 °C)
After 1 min at UR
IL1  0.03 x CR x UR
or 4 μA
for UR  100 V (whichever is greater)
After 2 min at UR
IL2  0.01 x CR x UR
or 3 μA
for UR  100 V (whichever is greater)
After 5 min at UR
IL5  0.02 x CR x UR
+ 15 μA
for UR > 100 V (whichever is greater)
Resistance
Equivalent series resistance
(ESR)
Revision: 14-Mar-12
Calculated from
tan max. and CR
ESR = tan /2  f CR
Document Number: 25013
350
For technical questions, contact: [email protected]
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
EKB
www.vishay.com
Vishay Roederstein
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
FREQUENCY
(Hz)
IR MULTIPLIER FOR UR  100 V
CR  47 μF
CR = 68 μF to 680 μF
CR  1000 μF
50
0.75
0.80
0.85
120
1.00
1.00
1.00
300
1.35
1.25
1.10
1000
1.55
1.35
1.15
 10 000
2.00
1.50
1.15
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER FOR UR 160 V to  450 V
FREQUENCY
(Hz)
CR = 47 μF to 220 μF
CR  330 μF
50
0.80
0.90
120
1.00
1.00
300
1.25
1.10
1000
1.40
1.13
 10 000
1.60
1.15
TEST PROCEDURES AND REQUIREMENTS
TEST
PROCEDURE
(quick reference)
REQUIREMENTS
Load life
Tamb = 105 °C
UR and IR applied
After 1000 h Ø 5 mm, Ø 6.3 mm, Ø 8 mm
After 2000 h  Ø 10 mm
C/C: ± 25 % of initial value
IL  spec. limit
tan   2 x spec. limit
Shelf life
Tamb = 105 °C 
No voltage applied
After 1000 h
After test: UR to be applied for 30 min
24 h to 48 h before measurement
C/C: ± 20 % of initial value
IL  spec.limit
tan   2 x spec. limit
Revision: 14-Mar-12
Document Number: 25013
351
For technical questions, contact: [email protected]
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
EKE
www.vishay.com
Vishay Roederstein
Aluminum Capacitors
Radial Style
FEATURES
• Polarized aluminum electrolytic capacitors,
non-solid electrolyte
• Radial leads, cylindrical aluminum case
• Miniaturized, high CV-product per unit volume
• Low impedance
• Long lifetime
• Temperature range up to 105 °C
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
• General purpose, industrial, telecommunications, power
supplies and audio-video
• Coupling, decoupling, timing, smoothing, filtering and
buffering
• Portable and mobile units
QUICK REFERENCE DATA
DESCRIPTION
UNIT
Nominal case size (Ø D x L)
Rated capacitance range CR
Capacitance tolerance
Rated voltage range
mm
μF
%
V
Category temperature range
°C
Load Life
UR  100 V
UR > 100 V
Based on sectional specification
Climatic category IEC 60068
h
VALUE
5 x 11 to 18 x 40
0.22 to 15 000
± 20
6.3 to 450
6.3 V to 350 V
- 40 to + 105
5 x 11 to 6.3 x 11
8 x 11.5
2000
3000
2000
IEC 60384-4/EN 130300
40/105/56
400 V to 450 V
- 25 to + 105
10 x 12.5 to 18 x 40
5000
25/105/56
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
CR
(μF)
0.22
0.47
1.0
2.2
3.3
4.7
10
22
33
47
100
150
220
330
470
1000
1500
2200
3300
4700
6800
10 000
15 000
6.3













6.3 x 11

10 x 12.5


12.5 x 20

16 x 25
16 x 31.5
18 x 35.5
Revision: 14-Mar-12
10










5 x 11

6.3 x 11

8 x 11.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 35.5
-
RATED VOLTAGE (V) (continuation see next page)
16
25
35
50



5 x 11



5 x 11



5 x 11



5 x 11



5 x 11


5 x 11
5 x 11


5 x 11
5 x 11


5 x 11
5 x 11


5 x 11


5 x 11
6.3 x 11
6.3 x 11

6.3 x 11
8 x 11.5
8 x 11.5
6.3 x 11

8 x 11.5
10 x 12.5

8 x 11.5
10 x 12.5
10 x 16
8 x 11.5
10 x 12.5
10 x 16
10 x 20
10 x 12.5
10 x 16
10 x 20
12.5 x 20
10 x 20
12.5 x 20
12.5 x 25
16 x 25
12.5 x 20
16 x 20
16 x 25
16 x 31.5
12.5 x 25
16 x 25
16 x 31.5
18 x 35.5
16 x 25
16 x 31.5
18 x 35.5
16 x 31.5
18 x 35.5
18 x 35.5
-
63
5 x 11
5 x 11
5 x 11
6.3 x 11
6.3 x 11
8 x 11.5
10 x 16
10 x 20
10 x 25
12.5 x 20
16 x 20
16 x 35.5
-
100
5 x 11
5 x 11
5 x 11
6.3 x 11
8 x 11.5
10 x 12.5
10 x 16
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 40
-
Document Number: 25008
352
For technical questions, contact: [email protected]
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
EKE
www.vishay.com
Vishay Roederstein
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
RATED VOLTAGE (V)
CR
(μF)
160
200
250
400
450
3.3




10 x 20
4.7




12.5 x 20
12.5 x 25
10


10 x 20
10 x 20
22

10 x 20
12.5 x 20
12.5 x 25
16 x 25
33
10 x 20
12.5 x 20
12.5 x 25
16 x 20
16 x 31.5
18 x 31.5
47

12.5 x 20
12.5 x 25
16 x 25
100

16 x 25
16 x 31.5
18 x 40
-
150
16 x 31.5
18 x 25
18 x 31.5
-
-
220
16 x 31.5
18 x 31.5
18 x 40
-
-
330
18 x 31.5
-
-
-
-
RADIAL STYLE: DIMENSIONS in millimeters
Ø D + α max.
Ø d ± 0.05 tinned copper-ply steel
+
S ± 0.5
L + β max.
15 min.
4 min.
ØD
5
6.3
8
10
12.5
16
18
22
25
S
2.0
2.5
3.5
5.0
5.0
7.5
7.5
10.0
12.5
Ød
0.5
0.5
0.6
0.6
0.6
0.8
0.8
1.0
1.0

1.5
2.0

0.5
1.0
Dmax.
Dmax.
Casing Insulation
Ød
DIMENSIONS in millimeters AND AVAILABLE FORMS
Lmax.
15 min.
Ø D ≤ 18 long leads MALREKE00...
S ± 0.5
Lmax.
4 min.
4.5 ± 0.5
Ø D ≤ 18 shortened leads MALREKE05...
(S = 2 mm/2.5 mm/3.5 mm/5 mm/7.5 mm)
GENERAL NOTE
• For Minimum Package Quantity (MPQ) and Minimum Order Quantity (MOQ) please refer to our price list or contact customer service.
• For other packaging forms please refer to Vishay Roederstein General Information.
Revision: 14-Mar-12
Document Number: 25008
353
For technical questions, contact: [email protected]
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
EKE
www.vishay.com
Vishay Roederstein
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
EKE 470 μF/35 V, ± 20 %, size: 10 mm x 20 mm
DESCRIPTION
UR
Rated voltage
Leads: Long
CR
Rated capacitance at 120 Hz
Ordering code: MALREKE00DE347F00K
tan 
Max. dissipation factor at 120 Hz
RESR
Calculated equivalent series resistance at 120 Hz
Leads: Short
IR
Rated ripple current (RMS)
Ordering code: MALREKE05...
Z
Max. impedance
Note
• Unless otherwise specified, all electrical values
Ta = 20 °C, P = 80 kPa to 120 kPa, RH = 45 % to 75 %.
at
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
6.3
10
16
25
CR
120 Hz
(μF)
DIMENSIONS
Ø D x L
(mm)
tan 
120 Hz
RESR
120 Hz/
20 °C
()
Z
100 kHz/
20 °C
()
IR
100 kHz/
105 °C
(mA)
WEIGHT
(g)
CATALOG NUMBER
(Long Leads)
330
1000
3300
6800
10 000
15 000
100
220
470
1000
1500
2200
3300
4700
6800
10 000
150
330
470
1000
1500
2200
3300
4700
6800
47
100
220
330
470
1000
1500
2200
3300
4700
6.3 x 11
10 x 12.5
12.5 x 20
16 x 25
16 x 31.5
18 x 35.5
5 x 11
6.3 x 11
8 x 11.5
10 x 16
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 35.5
6.3 x 11
8 x 11.5
10 x 12.5
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 35.5
5 x 11
6.3 x 11
8 x 11.5
10 x 12.5
10 x 16
12.5 x 20
16 x 20
16 x 25
16 x 31.5
18 x 35.5
0.22
0.22
0.28
0.34
0.40
0.50
0.19
0.19
0.19
0.19
0.21
0.23
0.25
0.27
0.31
0.37
0.16
0.16
0.16
0.16
0.18
0.20
0.22
0.24
0.28
0.14
0.14
0.14
0.14
0.14
0.14
0.16
0.18
0.20
0.22
0.884
0.292
0.113
0.066
0.053
0.044
2.520
1.145
0.536
0.252
0.186
0.139
0.100
0.076
0.060
0.049
1.415
0.643
0.452
0.212
0.159
0.121
0.088
0.068
0.055
3.951
1.857
0.844
0.563
0.395
0.186
0.141
0.109
0.080
0.062
0.30
0.10
0.050
0.030
0.025
0.022
0.65
0.30
0.14
0.080
0.054
0.050
0.038
0.030
0.025
0.022
0.30
0.14
0.10
0.054
0.050
0.038
0.030
0.025
0.022
0.65
0.30
0.14
0.10
0.080
0.050
0.030
0.030
0.025
0.022
280
660
1400
2100
2600
3000
180
280
450
850
1100
1400
1700
2100
2600
3000
280
450
660
1100
1400
1700
2100
2600
3000
180
280
450
660
850
1400
2100
2100
2600
3000
0.43
1.90
4.50
6.60
9.00
11.5
0.42
0.43
1.05
2.40
3.00
4.50
4.70
6.60
9.00
11.5
0.43
1.05
1.90
3.00
4.50
4.70
6.60
9.00
11.5
0.42
0.43
1.05
1.90
2.40
4.50
5.80
6.60
9.00
11.5
MALREKE00BA333B00K
MALREKE00DC410B00K
MALREKE00FE433B00K
MALREKE00JG468B00K
MALREKE00JS510B00K
MALREKE00KL515B00K
MALREKE00AA310C00K
MALREKE00BA322C00K
MALREKE00PB347C00K
MALREKE00DD410C00K
MALREKE00DE415C00K
MALREKE00FE422C00K
MALREKE00FG433C00K
MALREKE00JG447C00K
MALREKE00JS468C00K
MALREKE00KL510C00K
MALREKE00BA315D00K
MALREKE00PB333D00K
MALREKE00DC347D00K
MALREKE00DE410D00K
MALREKE00FE415D00K
MALREKE00FG422D00K
MALREKE00JG433D00K
MALREKE00JS447D00K
MALREKE00KL468D00K
MALREKE00AA247E00K
MALREKE00BA310E00K
MALREKE00PB322E00K
MALREKE00DC333E00K
MALREKE00DD347E00K
MALREKE00FE410E00K
MALREKE00JE415E00K
MALREKE00JG422E00K
MALREKE00JS433E00K
MALREKE00KL447E00K
Revision: 14-Mar-12
Document Number: 25008
354
For technical questions, contact: [email protected]
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
EKE
www.vishay.com
Vishay Roederstein
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
35
50
63
CR
120 Hz
(μF)
DIMENSIONS
Ø D x L
(mm)
tan 
120 Hz
RESR
120 Hz/
20 °C
()
Z
100 kHz/
20 °C
()
IR
100 kHz/
105 °C
(mA)
WEIGHT
(g)
CATALOG NUMBER
(Long Leads)
4.7
5 x 11
0.12
33.86
0.70
180
0.42
MALREKE00AA147F00K
10
5 x 11
0.12
15.92
0.70
180
0.42
MALREKE00AA210F00K
22
5 x 11
0.12
7.235
0.70
180
0.42
MALREKE00AA222F00K
33
5 x 11
0.12
4.823
0.65
180
0.42
MALREKE00AA233F00K
47
6.3 x 11
0.12
3.386
0.30
280
0.43
MALREKE00BA247F00K
100
8 x 11.5
0.12
1.592
0.14
450
1.05
MALREKE00PB310F00K
150
8 x 11.5
0.12
1.061
0.14
450
1.05
MALREKE00PB315F00K
220
10 x 12.5
0.12
0.723
0.10
660
1.90
MALREKE00DC322F00K
330
10 x 16
0.12
0.482
0.080
850
2.40
MALREKE00DD333F00K
470
10 x 20
0.12
0.339
0.054
1100
3.00
MALREKE00DE347F00K
1000
12.5 x 25
0.12
0.159
0.038
1700
4.70
MALREKE00FG410F00K
1500
16 x 25
0.14
0.124
0.030
2100
6.60
MALREKE00JG415F00K
2200
16 x 31.5
0.16
0.096
0.025
2600
9.00
MALREKE00JS422F00K
3300
18 x 35.5
0.18
0.072
0.022
3000
11.5
MALREKE00KL433F00K
0.22
5 x 11
0.10
602.9
8.00
18
0.42
MALREKE00AA022H00K
0.47
5 x 11
0.10
282.2
5.00
25
0.42
MALREKE00AA047H00K
1.0
5 x 11
0.10
132.6
3.50
40
0.42
MALREKE00AA110H00K
2.2
5 x 11
0.10
60.29
3.00
55
0.42
MALREKE00AA122H00K
3.3
5 x 11
0.10
40.19
2.60
65
0.42
MALREKE00AA133H00K
4.7
5 x 11
0.10
28.22
2.30
90
0.42
MALREKE00AA147H00K
10
5 x 11
0.10
13.26
1.40
120
0.42
MALREKE00AA210H00K
22
5 x 11
0.10
6.029
1.20
150
0.42
MALREKE00AA222H00K
47
6.3 x 11
0.10
2.822
0.43
250
0.43
MALREKE00BA247H00K
100
8 x 11.5
0.10
1.326
0.24
340
1.05
MALREKE00PB310H00K
150
10 x 12.5
0.10
0.884
0.17
490
1.90
MALREKE00DC315H00K
220
10 x 16
0.10
0.603
0.12
650
2.40
MALREKE00DD322H00K
MALREKE00DE333H00K
330
10 x 20
0.10
0.402
0.10
810
3.00
470
12.5 x 20
0.10
0.282
0.085
1100
4.50
MALREKE00FE347H00K
1000
16 x 25
0.10
0.133
0.043
1600
6.60
MALREKE00JG410H00K
1500
16 x 31.5
0.12
0.106
0.038
2000
9.00
MALREKE00JS415H00K
2200
18 x 35.5
0.14
0.084
0.034
2300
11.5
MALREKE00KL422H00K
3.3
5 x 11
0.09
36.17
2.00
64
0.42
MALREKE00AA133J00K
4.7
5 x 11
0.09
25.40
2.00
76
0.42
MALREKE00AA147J00K
10
5 x 11
0.09
11.94
2.00
111
0.42
MALREKE00AA210J00K
22
6.3 x 11
0.09
5.426
0.60
190
0.43
MALREKE00BA222J00K
33
6.3 x 11
0.09
3.617
0.60
233
0.43
MALREKE00BA233J00K
47
8 x 11.5
0.09
2.540
0.50
328
1.05
MALREKE00PB247J00K
100
10 x 16
0.09
1.194
0.12
456
2.40
MALREKE00DD310J00K
150
10 x 20
0.09
0.796
0.10
610
3.00
MALREKE00DE315J00K
220
10 x 25
0.09
0.543
0.090
809
3.20
MALREKE00DG322J00K
330
12.5 x 20
0.09
0.362
0.085
1036
4.50
MALREKE00FE333J00K
470
16 x 20
0.09
0.254
0.050
1411
5.80
MALREKE00JE347J00K
1000
16 x 35.5
0.09
0.119
0.025
1967
10.0
MALREKE00JL410J00K
Revision: 14-Mar-12
Document Number: 25008
355
For technical questions, contact: [email protected]
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
EKE
www.vishay.com
Vishay Roederstein
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
100
160
200
250
400
450
CR
120 Hz
(μF)
DIMENSIONS
Ø D x L
(mm)
tan 
120 Hz
RESR
120 Hz/
20 °C
()
Z
100 kHz/
20 °C
()
IR
100 kHz/
105 °C
(mA)
WEIGHT
(g)
CATALOG NUMBER
(Long Leads)
2.2
3.3
4.7
10
22
33
47
100
150
220
330
470
33
150
220
330
22
33
47
100
150
220
10
22
33
47
100
150
220
10
22
33
47
100
3.3
4.7
10
22
33
47
5 x 11
5 x 11
5 x 11
6.3 x 11
8 x 11.5
10 x 12.5
10 x 16
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 40
10 x 20
16 x 31.5
16 x 31.5
18 x 31.5
10 x 20
12.5 x 20
12.5 x 20
16 x 25
18 x 25
18 x 31.5
10 x 20
12.5 x 20
12.5 x 25
12.5 x 25
16 x 31.5
18 x 31.5
18 x 40
10 x 20
12.5 x 25
16 x 20
16 x 25
18 x 40
10 x 20
12.5 x 20
12.5 x 25
16 x 25
16 x 31.5
18 x 31.5
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.15
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
48.23
32.15
22.58
10.61
4.823
3.215
2.258
1.061
0.707
0.482
0.322
0.226
6.029
1.326
0.904
0.603
9.043
6.029
4.233
1.989
1.326
0.904
19.89
9.043
6.029
4.233
1.989
1.326
0.904
26.53
12.06
8.038
5.644
2.653
80.38
56.44
26.53
12.06
8.038
5.644
2.50
2.50
2.50
1.00
0.60
0.40
0.30
0.15
0.12
0.070
0.050
0.030
1.30
0.22
0.22
0.22
1.50
0.91
0.91
0.27
0.27
0.22
3.50
2.30
1.70
1.70
0.63
0.42
0.35
2.90
1.30
0.91
0.73
0.34
6.50
3.60
2.50
1.70
1.10
0.93
52
64
76
128
224
319
417
570
762
1250
1404
1980
565
1300
1300
1700
440
590
780
1280
1500
1700
300
480
630
630
1400
1450
1485
180
300
600
700
1250
150
200
315
570
620
900
0.42
0.42
0.42
0.43
1.05
1.90
2.40
4.50
4.70
6.60
9.00
15.0
3.00
9.00
9.00
11.0
3.00
4.50
4.50
6.60
9.00
11.0
3.00
4.50
4.70
4.70
9.00
11.0
15.0
3.00
4.70
5.80
6.60
15.0
3.00
4.50
4.70
6.60
9.00
11.0
MALREKE00AA122L00K
MALREKE00AA133L00K
MALREKE00AA147L00K
MALREKE00BA210L00K
MALREKE00PB222L00K
MALREKE00DC233L00K
MALREKE00DD247L00K
MALREKE00FE310L00K
MALREKE00FG315L00K
MALREKE00JG322L00K
MALREKE00JS333L00K
MALREKE00KK347L00K
MALREKE00DE233M00K
MALREKE00JS315M00K
MALREKE00JS322M00K
MALREKE00KS333M00K
MALREKE00DE222S00K
MALREKE00FE233S00K
MALREKE00FE247S00K
MALREKE00JG310S00K
MALREKE00KG315S00K
MALREKE00KS322S00K
MALREKE00DE210N00K
MALREKE00FE222N00K
MALREKE00FG233N00K
MALREKE00FG247N00K
MALREKE00JS310N00K
MALREKE00KS315N00K
MALREKE00KK322N00K
MALREKE00DE210X00K
MALREKE00FG222X00K
MALREKE00JE233X00K
MALREKE00JG247X00K
MALREKE00KK310X00K
MALREKE00DE133P00K
MALREKE00FE147P00K
MALREKE00FG210P00K
MALREKE00JG222P00K
MALREKE00JS233P00K
MALREKE00KS247P00K
LOW TEMPERATURE BEHAVIOR (at 120 Hz)
IMPEDANCE RATIO
Z (T2)/Z (T1)
RATED VOLTAGE
(V)
T2/T1
6.3
10
16
25 ~ 100
160 ~ 250
350 ~ 450
- 25 °C/+ 20 °C
4
3
2
2
3
8
- 40 °C/+ 20 °C
8
6
4
3
4
-
Revision: 14-Mar-12
Document Number: 25008
356
For technical questions, contact: [email protected]
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
EKE
www.vishay.com
Vishay Roederstein
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
Current
Leakage current
(test conditions: UR, 20 °C)
After 1 min at UR
IL1  0.03 x CR x UR
or 4 μA
for UR  100 V (whichever is greater)
After 2 min at UR
IL2  0.01 x CR x UR
or 3 μA
for UR  100 V (whichever is greater)
After 5 min at UR
IL5  0.02 x CR x UR
+ 15 μA
for UR > 100 V
Resistance
Equivalent series resistance
(ESR)
Calculated from
tan max. and CR
ESR = tan /2  f CR
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER FOR UR  100 V
FREQUENCY (Hz)
CR  47 μF
CR = 68 μF to 680 μF
CR  1000 μF
50
0.34
0.47
0.65
120
0.45
0.59
0.77
300
0.61
0.74
0.85
1000
0.70
0.79
0.88
10 000
0.91
0.88
0.88
100 000
1.00
1.00
1.00
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER FOR UR > 100 V
FREQUENCY (Hz)
CR = 0.47 μF to 220 μF
CR  330 μF
50
0.44
0.69
120
0.56
0.77
0.87
300
0.69
1000
0.78
0.87
10 000
0.89
0.88
100 000
1.00
1.00
TEST PROCEDURES AND REQUIREMENTS
TEST
PROCEDURE
(quick reference)
REQUIREMENTS
Load life
Tamb = 105 °C
UR and IR applied 
After specified hours
C/C: ± 25 % of initial value
IL  spec. limit
tan   2 x spec. limit
Shelf life
Tamb = 105 °C 
No voltage applied
After 1000 h
After test: UR to be applied for 30 min
24 h to 48 h before measurement
C/C: ± 25 % of initial value
IL  spec. limit
tan   2 x spec. limit
Revision: 14-Mar-12
Document Number: 25008
357
For technical questions, contact: [email protected]
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
EKV
www.vishay.com
Vishay Roederstein
Aluminum Capacitors
Radial Style
FEATURES
• Polarized aluminum electrolytic capacitor
• High ripple current
• High load life up to 10 000 h
• Temperature range up to 105 °C
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
APPLICATIONS
• For electronic lighting ballast
• Power supply
QUICK REFERENCE DATA
DESCRIPTION
UNIT
VALUE
Nominal case size (Ø D x L)
mm
10 x 12.5 to 18 x 31.5
Rated capacitance range CR
μF
1.0 to 150
Capacitance tolerance
%
± 20
Rated voltage range
V
200 to 450
Category temperature range
°C
-25 to 105
Load life
h
10 000
Based on sectional specification
IEC 60384-4/EN130300
Climatic category IEC 60068
25/105/56
SELECTION CHART FOR CR, UR, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm)
RATED VOLTAGE (V)
CR
(μF)
200
250
350
400
450
1.0



10 x 12.5
-
2.2



10 x 12.5
10 x 16
3.3


10 x 12.5

10 x 16
4.7



10 x 16
10 x 20
6.8

10 x 12.5

10 x 16
10 x 20
10
10 x 16


10 x 20
12.5 x 20
22
10 x 20

12.5 x 20
12.5 x 25
16 x 25
33

12.5 x 20
16 x 20
16 x 25
18 x 25
47
12.5 x 20
12.5 x 25
16 x 25
18 x 25
18 x 31.5
68
12.5 x 25
16 x 25
18 x 25
-
-
100
16 x 25
18 x 25
-
-
-
150
18 x 25
-
-
-
-
Revision: 25-Sep-13
Document Number: 25145
358
For technical questions, contact: [email protected]
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
EKV
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Vishay Roederstein
RADIAL STYLE: DIMENSIONS in millimeters
Ø D + α max.
Ø d ± 0.05 tinned copper-ply steel
+
S ± 0.5
L + β max.
15 min.
4 min.
ØD
5
6.3
8
10
12.5
16
18
22
25
S
2.0
2.5
3.5
5.0
5.0
7.5
7.5
10.0
12.5
Ød
0.5
0.5
0.6
0.6
0.6
0.8
0.8
1.0
1.0

1.5
2.0

0.5
1.0
Ød
DIMENSIONS in millimeters AND AVAILABLE FORMS
Dmax.
Dmax.
Casing Insulation
Lmax.
15 min.
S ± 0.5
Lmax.
4 min.
Ø D ≤ 18 long leads MALREKV00...
4.5 ± 0.5
Ø D ≤ 18 shortened leads MALREKV05...
(S = 2 mm/2.5 mm/3.5 mm/5 mm/7.5 mm)
GENERAL NOTE
• For Minimum Package Quantity (MPQ) and Minimum Order Quantity (MOQ) please refer to our price list or contact customer service.
• For other packaging forms please refer to Vishay Roederstein General Information.
ORDERING EXAMPLE
ELECTRICAL DATA
SYMBOL
UR
CR
DESCRIPTION
Rated voltage
Rated capacitance at 120 Hz
tan 
Max. dissipation factor at 120 Hz
RESR
Max. equivalent series resistance at 120 Hz
IR
EKV 22 μF/450 V, ± 20 %, size: 16 mm x 25 mm
Leads: Long 
Ordering code: MALREKV00JG222P00K
Leads: Short 
Ordering code: MALREKV05JG222P00K
Rated alternating current (RMS) at 120 Hz and
upper category temperature
Note
• Unless otherwise specified, all electrical values apply at
Tamb = 20 °C, P = 80 kPa to 120 kPa, RH = 45 % to 75 %.
Revision: 25-Sep-13
Document Number: 25145
359
For technical questions, contact: [email protected]
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
EKV
www.vishay.com
Vishay Roederstein
ELECTRICAL DATA AND ORDERING INFORMATION
CR
120 Hz
(μF)
UR
(V)
200
250
350
400
450
DIMENSIONS
ØDxL
(mm)
tan 
120 Hz
RESR
120 Hz
()
IR
100 kHz/105 °C
(mA)
WEIGHT
(g)
CATALOG NUMBER
(Long Leads)
10
10 x 16
0.15
19.9
250
2.3
MALREKV00DD210S00K
22
10 x 20
0.15
9.04
500
2.8
MALREKV00DE222S00K
47
12.5 x 20
0.15
4.23
660
3.8
MALREKV00FE247S00K
68
12.5 x 25
0.15
2.93
760
5.1
MALREKV00FG268S00K
100
16 x 25
0.15
1.99
1120
7.1
MALREKV00JG310S00K
150
18 x 25
0.15
1.33
1360
9.5
MALREKV00KG315S00K
MALREKV00DC168N00K
6.8
10 x 12.5
0.15
29.3
120
1.9
33
12.5 x 20
0.15
6.03
600
3.8
MALREKV00FE233N00K
47
12.5 x 25
0.15
4.23
720
5.1
MALREKV00FG247N00K
68
16 x 25
0.15
2.93
920
7.1
MALREKV00JG268N00K
100
18 x 25
0.15
1.99
1200
9.5
MALREKV00KG310N00K
3.3
10 x 12.5
0.20
80.4
100
1.9
MALREKV00DC133O00K
22
12.5 x 20
0.20
12.1
350
3.8
MALREKV00FE222O00K
33
16 x 20
0.20
8.04
500
6.3
MALREKV00JE233O00K
47
16 x 25
0.20
5.64
660
7.1
MALREKV00JG247O00K
MALREKV00KG268O00K
68
18 x 25
0.20
3.90
840
9.5
1.0
10 x 12.5
0.24
318
90
1.9
MALREKV00DC110X00K
2.2
10 x 12.5
0.24
145
100
1.9
MALREKV00DC122X00K
4.7
10 x 16
0.24
67.7
180
2.3
MALREKV00DD147X00K
6.8
10 x 16
0.24
46.8
200
2.3
MALREKV00DD168X00K
10
10 x 20
0.20
26.5
280
2.8
MALREKV00DE210X00K
22
12.5 x 25
0.20
12.1
430
5.1
MALREKV00FG222X00K
33
16 x 25
0.20
8.04
640
7.1
MALREKV00JG233X00K
47
18 x 25
0.20
5.64
840
9.5
MALREKV00KG247X00K
2.2
10 x 16
0.24
145
120
2.3
MALREKV00DD122P00K
3.3
10 x 16
0.24
96.5
140
2.3
MALREKV00DD133P00K
4.7
10 x 20
0.24
67.7
180
2.8
MALREKV00DE147P00K
6.8
10 x 20
0.24
46.8
200
2.8
MALREKV00DE168P00K
10
12.5 x 20
0.20
26.5
320
3.8
MALREKV00FE210P00K
22
16 x 25
0.20
12.1
560
7.1
MALREKV00JG222P00K
33
18 x 25
0.20
8.04
700
9.5
MALREKV00KG233P00K
47
18 x 31.5
0.20
5.64
880
12.0
MALREKV00KS247P00K
LOW TEMPERATURE BEHAVIOUR (at 120 Hz)
IMPEDANCE RATIO
Z (T2)/Z (T1)
RATED VOLTAGE (V)
T2/T1
200
250
350
400
450
-25 °C/+20 °C
3
3
4
6
6
ADDITIONAL ELECTRICAL DATA
PARAMETER
CONDITIONS
VALUE
After 5 min at UR
IL5  0.02 x CR x UR + 25 μA
Calculated from tan max.
ESR = tan /2  f CR
Current
Leakage current
(test conditions: UR, 20 °C)
Resistance
Equivalent series resistance (ESR)
Revision: 25-Sep-13
Document Number: 25145
360
For technical questions, contact: [email protected]
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
EKV
www.vishay.com
Vishay Roederstein
MULTIPLIER OF RIPPLE CURRENT (IR) AS A FUNCTION OF FREQUENCY
IR MULTIPLIER
FREQUENCY
(Hz)
1.0 μF ~ 4.7 μF
6.8 μF ~ 150 μF
60
0.25
0.35
120
0.30
0.50
300
0.45
0.60
1000
0.60
0.80
10 000
0.80
0.90
 100 000
1.00
1.00
TEST PROCEDURES AND REQUIREMENTS
TEST
PROCEDURE
(quick reference)
REQUIREMENTS
Load life
Tamb = 105 °C
UR and IR applied
After 5000 h  6.8 μF
After 10 000 h  10 μF
C/C: ± 20 % of initial value
IL  spec. limit
tan   2 x spec. limit
Shelf life
No voltage applied
After 1000 h
After test: UR to be applied for 30 min
24 h to 48 h before measurement
C/C: ± 20 % of initial value
IL  spec.limit
tan   2 x spec. limit
Revision: 25-Sep-13
Document Number: 25145
361
For technical questions, contact: [email protected]
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
Contents
Vishay
OS-CON
General Specifications ........... 363
Construction and
Characteristics ....................... 367
Electrical Characteristics ....... 368
Reliability................................ 371
Precautions when Using
in Circuits ............................... 372
Reel Specifications ................ 375
Soldering Profile and
Land Pattern .......................... 377
94SVP .................................... 379
94SVPD.................................. 382
General Specifications
www.vishay.com
Vishay OS-CON
Solid Aluminum Capacitors
with Organic Semiconductor Electrolyte
INTRODUCTION
Vishay OS-CON capacitors are electrolytic capacitors. Up
to now, an electrolytic solution and manganese dioxide have
been used as the electrolyte in electrolytic capacitors. In
development of a new highly efficient electrolytic capacitor
which has a high conductivity (organic semi-conductor)
when compared to earlier electrolytes, we have successfully
worked out the Vishay OS-CON electrolytic capacitors with
low impedance, using an organic semiconductor for the
electrolyte.
FEATURES
• Vishay OS-CON capacitors are low ESR capacitors.
Impedance frequency characteristics are plotted in a
highly desirable curve. (Best suited to use as de-coupling
capacitors for removing such noise as ripple, spike,
digital, static and audio.)
Able to flow large ripple current. (Best suited for
miniaturization, used as smoothing capacitor of switching
power supply.)
Able to discharge rapidly. (Best suited for use as back-up
capacitor in a circuit where large current is consumed at
high-speed.)
• Equivalent Series Resistance (ESR) is not dependent on
temperature. (Best suited for devices that have low
temperature specifications of 0° Centigrade or less.).
• Vishay OS-CON capacitors have polarity but that is strong
against reverse voltage. (Best suited for a circuit that
needs capacitance and where electric potentia slightly
oscillates with reverse voltage.)
APPLICATION NOTES
The Vishay OS-CON capacitor is a uniquely structured solid
aluminum electrolytic capacitor. Please note the following
points in order to take full advantage of the capacitors
performance and ensure the most stable quality possible.
Polarity:
Vishay OS-CON capacitors are solid aluminum electrolytic
capacitors with positive and negative electrodes. Do not
reverse the polarity when using. If it is used with the
polarities reversed, increased leakage current or a
decreased life span may result.
Prohibited Circuits:
Since problems can be expected due to the leakage current
fluctuations that occur during soldering and other
processes, the capacitors cannot be used on the following
circuits.
1. High impedance voltage retention circuits.
2. Coupling circuits.
3. In addition to the leakage current fluctuation above, the
operational conditions such as characteristics of
temperature, anti-humidity and high temperature loads
stipulated in the delivery specifications will affect the
electrostatic capacity. This electrostatic capacity
fluctuation may cause problems if it is used as a time
constant capacitor, which is extremely sensitive to the
fluctuation of electrostatic capacity. Do not use it as a
time constant capacitor.
Revision: 07-Feb-14
4. Circuits greatly affected by leakage current.
5. The circuit in which two or more capacitors are
connected in series so as to raise the endurance voltage
of them.
Overvoltage Prohibited During Design:
Overvoltage exceeding the rated voltage may not be applied
even for an instant as it may cause a short circuit.
Sudden Charge and Discharge Restricted:
Sudden charge and discharge restricted (for maintenance of
high-proof reliability). A protection circuit is recommended
when a sudden charge or discharge causes excessive rush
current because this is a main cause of short circuits and
large leakage current. Use protection circuits when the rush
current value is ten times larger than the allowable ripple
current value and for circuits whose rush current value
exceeds 10 A. (Refer to document “Precautions when Using
in Circuits” www.vishay.com/doc?90018.) Be sure to insert
a protection resistor of about 1 k for charge and discharge
when measuring the leakage current.
Considerations When Soldering:
The soldering conditions are to be within the range
prescribed in the delivery specification. If the specifications
are not followed, there is the possibility of the appearance
becoming defective and of increase of abnormal leakage
current and capacity reduction when soldering is conducted
under conditions that are harsher than those stipulated.
Sufficient PC Board Installation Space:
The design must give consideration to the standard of lead
position displacement given in the delivery specification.
The capacitors may not be able to be inserted in the PC
board if there is insufficient space.
Considerations When Using in Industrial Equipment:
To insure reliability when the capacitor is used in industrial
equipment, design must allow for its capacitance,
impedance and other characteristics.
Using in Equipment Regarding Human Life:
If using in equipment regarding human life (e.g. space,
aeronautic and atomic equipment, etc.), contact the factory
for more information. Do not use without recognition
document of Vishay OS-CON.
Circuit Designing Cautions:
1. Rated Performance
Check the rated performance. After checking the
operation and installation environments, design the
circuit so that it falls within the rated performance range
stipulated in the catalog or delivery specification. The
peak current value of the diode when absorbing counter
electromotive force.
2. Operating Temperature and Ripple Current
a. Set the operating temperature so that it falls within
the range stipulated in the catalog or delivery
specification.
b. Do not supply current that exceeds the allowable
ripple current. When excessive ripple current is
supplied, internal heat increases and reduces the
capacitor's life span.
Document Number: 90000
363
For technical questions, contact: [email protected]
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
General Specifications
www.vishay.com
Vishay OS-CON
3. Leakage Current
Even when the soldering conditions fall within the range
of the delivery specification, leakage current increases a
little on occasion. It also increases a little during high
temperature no-load, moisture-proof no-load and
temperature cycling tests with no voltage applied. In
cases such as these, leakage current will decrease by
applying voltage that falls below the capacitor's
maximum operating temperature. The speed at which
the leakage current is restored is increased by applying
a high voltage under voltage rating when the capacitor's
temperature is close to the maximum operating
temperature. Refer to the following diagram.
Leakage Current (µA)
Leakage Current
Restoration Characteristics
10 µF/16 WV (16 DC applied)
100
+20 °C
10
1.0
+60 °C
+105 °C
0.1
1
10
100
Hours
Applied Voltage (V)
4. Applied Voltage for Designing
a. Less than 80 % of the rated voltage is recommended
to be applied to more than 10 WV products. Less
than 90 % is recommended for 6.3 WV products. For
4 WV products, 100 % of the rated voltage can be
applied without causing any problems. Use less than
80 % of the following temperature reduction voltage
for 25 WV products. This does not need to be applied
to products between 4 and 20, 30 WV products.
Refer to the following diagram.
25.0
22.5
20.0
-55 °C
Temperature Deg. Centigrade
+85° +95° +105°
b. Make sure the sum of the peak DC voltage and ripple
voltage values does not exceed the rated voltage.
c. When the DC voltage is low, set it so that the
negative ripple voltage peak value does not become
a reverse voltage that exceeds 10 % of the rated
voltage
d. Use the capacitor within 20 % of the rated voltage for
application of reverse voltage during the transient
phenomena caused when the power is turned off or
the source is switched. Use it within 10 % of the
rated voltage when reverse voltage is applied
continuously.
Revision: 07-Feb-14
5. Reduction of Failure Stress
The main failure mode of the capacitor is open mode
primarily caused by electrostatic capacity drop at high
temperature (i.e. wear out failure), besides random short
circuit mode failures primarily caused by over voltage
occurs as minor one. The time it takes to reach the
failure mode can be extended by using the capacitor
with reduced ambient temperature, ripple current and
applied voltage. The failure rate is less than 0.5 %/
1000 h when used at 60 % of the confidence level with
the prescribed voltage applied at +105 °C.
6. Capacitor Insulation
a. Insulation in the marking sleeve is not guaranteed. Be
aware that the space between the case and the
negative electrodes terminal is not insulated and has
inconstant resistance.
b. Be sure to completely separate the case, negative
electrode terminal, positive electrode terminal from
adjacent and components and PC board foil.
7. Operating Environment Restrictions
Do not use the capacitor in the following environments:
a. Places where water, salt water or oil can directly fall
on it and places where condensation may form.
b. Places filled with noxious gas (hydrogen sulfide,
sulfurous acid, nitrous acid, chlorine, ammonia, etc.).
c. Places susceptile to ozone, ultraviolet rays and
radiation.
8. Lead Pitch
The pitch and diameter of PCB holes to which the Vishay
OS-CON capacitor is mounted should be designed to
conform to the dimensional tolerance stipulated in the
delivery specifications.
9. PC Board Design
a. Avoid locating heat-generating components around
the Vishay OS-CON capacitor and on the under side
of the PC board underneath the capacitor.
b. Follow the recommendations given in the catalog or
delivery specification for land patterns for chip-type
PC boards when designing circuits.
10. Parallel Connection
A large amount of ripple current may be applied to the
capacitor when it is used in parallel connection with
another capacitor. Carefully select the type of capacitor.
(Refer to section “Connecting a Vishay OS-CON and an
Aluminum Electrolytic Capacitor in Parallel” of
document “Precautions when Using in Circuits”
www.vishay.com/doc?90018.)
11. Design Circuits after checking the following items:
a. Electrical characteristics are affected by temperature
and frequency fluctuations. Design circuits after
checking the amount of fluctuation.
b. When mounting a Vishay OS-CON on a double-sided
PC board, design it so that extra PC board holes and
the through holes for connecting the front and back
of the PC board are not located underneath the
capacitor.
Document Number: 90000
364
For technical questions, contact: [email protected]
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
General Specifications
www.vishay.com
Vishay OS-CON
Mounting Precautions:
1. Things to know before mounting:
a. Do not reuse Vishay OS-CON capacitors that have
been assembled in a set and energized. Excluding
capacitors that have been removed for measuring
electrical characteristics during a periodic
inspection, they cannot be reused.
b. Leakage current may have increased in capacitors
that have been stored for a long period of time. In this
case, use after treatment of rated voltage with an
approximately 1 k resistor at about +60 °C to
+70 °C for 1 h.
2. Mounting (1)
a. Mount after checking the capacitance and the rated
voltage.
b. Mount after checking the polarity.
c. Do not drop the capacitor on the floor. Do not use
capacitors that have been dropped.
d. Do not deform and then mount a Vishay OS-CON
capacitor.
3. Mounting (2)
a. Mount after checking that the capacitor's lead pitch
and the PC board holes pitch match.
b. When an automatic inserter is used to clinch the
capacitor's lead wires, make sure it is not set too
strong.
c. Be careful of the shock force that can be produced
by absorbers, product checkers and centerers on
automatic
inserters and installers.
d. Do not apply excessive external force to the lead
wires, the capacitor itself, and electrode terminals.
4. Soldering with a Soldering Iron
a. Set the soldering conditions (temperature, time) so
that they fall within the range stipulated in the
delivery specification.
b. When the lead wire terminal must be processed
because the terminal spacing and the PC board
holes spacing do not match, process it before
soldering so that no stress is applied to the capacitor
itself.
c. Do not subject the capacitor itself to excessive stress
when soldering with a soldering iron.
d. When a soldering iron is used to repair a capacitor
that has already been soldered once and needs to be
removed, remove it after the solder has been
completely melted so that no stress is applied to the
capacitor's terminal.
e. Do not let the tip of the soldering iron touch the
capacitor itself.
f. The LC value after soldering may increase a little
(from a few μA to several hundred μA) depending on
the soldering conditions (preheating and solder
temperature and time, PC boards material and
thickness, etc.). The leakage current can be reduced
through self-repair by applying voltage.
5. Flow Soldering
a. Do not solder the capacitor by submerging it in
melted solder. Use the PC board to protect the
capacitor and only solder the opposite side that the
capacitor is mounted on.
Revision: 07-Feb-14
b. Set the soldering conditions (soldering temperature,
terminal submersion time) so that they fall within the
range stipulated in the specification.
The LC value after soldering may increase a little
(from a few μA to several hundred μA) depending on
the soldering conditions (preheating and solder
temperature and time, PC boards material and
thickness, etc.). The leakage current can be reduced
through self-repair by applying voltage.
c. Take care that flux does not adhere to any place
other than the terminal.
d. When soldering, take care that other components do
not fall over and touch the capacitor.
e. Flow soldering under extremely abnormal conditions
may reduce the electrostatic capacity of the
products before or after soldering.
6. Reflow Soldering
a. Set the soldering conditions (preheating, soldering
temperature and time) so that they fall within the
range stipulated in the catalog or delivery
specification. 
The LC value after soldering may increase a little
(from a few μA to several hundred μA) depending on
the soldering conditions (type of reflow furnace,
reflow conditions, PC boards material and thickness,
number of components, etc.). The leakage current
can be reduced through selfrepair by applying
voltage.
b. Reflow may only be conducted once. If reflow must
be conducted twice, please contact Vishay OS-CON.
c. Set the VPS soldering conditions so that they fall
within the range stipulated in the delivery
specification.
d. Reflow soldering may reduce the electrostatic
capacity of products before or after soldering even if
soldering conditions stipulated in catalog and
delivery specifications are met.
7. Handling after Soldering
a. Do not tilt, bend or twist the capacitor after it has
been soldered on the PC board.
b. Do not use the capacitor like a handle to move the
PC board after it has been soldered to it.
c. Do not bump the capacitor with objects after it has
been soldered to the PC board. When stacking PC
boards, make sure that the capacitor does not touch
other PC boards or components.
d. Do not subject the capacitor to excessive stress after
it has been soldered to the PC board.
8. Washing the PC Board
Check the following items before washing the PC board
with these detergents; High quality alcohol based
cleaning fluid such as Pine-ST-100S, Clean thru 750H,
750L, 710M, 750K, or Techno Care FRW14 through 17;
or detergents including substitute freon such as
AK-225AES and IPA.
a. Use immersion or ultrasonic waves to clean for a
total less than 5 min.
b. The temperature of the cleaning fluid should be less
than +60 °C.
c. After cleaning, do not store the capacitor in a
location subject to gases from the cleaning fluid or in
an airtight container. Dry the PC board and capacitor
with hot air (less than the maximum operating
temperature). Note that when it is heated (heat run,
dry, etc.) soon after cleaning, the sleeve may swell
and shrink again.
Document Number: 90000
365
For technical questions, contact: [email protected]
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
General Specifications
www.vishay.com
Vishay OS-CON
9. Fixatives and Coatings
a. Select appropriate materials for the capacitor's
material and sealant. In particular, make sure coating
and thinner do not contain acetone.
b. Before applying the fixative or coating, completely
remove any flux residue and foreign matter from the
area where the PC board and the capacitor are to be
joined together.
c. Allow any detergent to dry before applying the
fixative or coating.
5. Do not lick the capacitor's electrolyte. When the
electrolyte gets on your skin, wash it off with soap.
6. The electrolyte, separator, resin and tube used in the
Vishay OS-CON capacitor are all combustible. When the
current value is extraordinarily large after a short circuit,
assuming the worst possibility, the shorted-out section
in the lead wire or inside the capacitor has created a
spark, and it may have caught fire to the resin and/or
tube. Give consideration to the capacitors mounting
method, mounting position, pattern design and such.
Precautions with Completed Board:
1. Do not directly touch the capacitor’s terminals
2. Do not use electric conductors to cause short circuits
between the capacitor's terminals. Do not subject the
capacitor to conductive solutions such as acids and
alkaline water solutions.
3. Check the installation environment of the board the
capacitor is installed in.
4. Age the board at conditions that fall below the
capacitors ratings.
5. It is recommended that the board be used at room
temperature and in ordinary humidity.
Storage Conditions:
1. Do not store the capacitor at high temperatures and high
humidity. Store it in a location that is not subject to
direct sunlight and that has low temperatures and
humidity (generally, temperatures between +15 °C and
+35 °C and a relative humidity of less than 75 %).
2. Store the capacitor in an airtight plastic bag to keep the
leads in good condition.
3. To keep the leads in good condition, store lead-type
capacitors for no more than one year, and SMD types
for no more than six months.
4. For SMD types in particular, open the bag just before
mounting and use up all the capacitors in the bag as far
as is possible. If some are unavoidably left over, return
them to the bag and seal the opening with tape.
5. Do not store the capacitors in places where water, salt
water or oil can directly fall on it, or places where
condensation may form.
6. Do not store the capacitors in places filled with noxious
gas (hydrogen sulfide, sulfurous acid, nitrous acid,
chlorine, ammonia, etc.).
7. Do not store the capacitor in places susceptible to
ozone, ultraviolet rays and radiation.
In the Event that Something Unfortunate Should Occur:
1. In the event that a short circuit causes the current to
become relatively small (less than approximately 3 A
for Ø 10 and less than approximately 1 A for Ø 6.3), the
capacitor itself will generate a little heat, but the
appearance will not be affected even when electricity is
supplied continuously. 
However, if the short circuits current value exceeds
the above mentioned values, the temperature inside
the capacitor will increase. When the temperature
exceeds approximately +220 °C, the impregnated
organic semiconductor melts and liquefies, the internal
pressure is raised, and the liquefied organic
semiconductor and odorous gas is released from the
space between the sealant and the aluminum case and
lead wires. In this case, keep your face and hands away
from the area.
2. If a short circuit occurs and odorous gas is released,
either turn off the sets main power or unplug the power
cord from the outlet.
3. If a short circuit should occur, it may take anywhere from
a few seconds to a few minutes until the organic
semiconductor liquefies and an odorous gas develops,
depending on the conditions. Set it up so that a power
protection circuit works during this time.
4. If the gas gets in your eyes, rinse them immediately.
Gargle if it has been inhaled.
Disposal:
The Vishay OS-CON capacitor is comprised of solid organic
compounds, various metals and resin. Treat it as industrial
waste when disposing of it.
For details, refer to the Operating Precaution Guidelines for
the EIAJ RC-2367 Electronic Device Solid Aluminum
Non-solid Capacitor. No part of this publication may be
reproduced without prior written permission of the
publisher. We are not liable for problems affecting the
industrial property of a third party arising from the use of this
product unless they are directly caused by the structure and
manufacturing of this product. Any system and/or product
using this product must be provided with sufficient safety
measures to prevent any social damage and/or loss
including injury and fire, taking into consideration any of the
potential failure of this product.
PART NUMBER EXPLANATION
94SVPD
566
X0
010
C6
VISHAY
OS-CON TYPE
CAPACITANCE
CAPACITANCE
TOLERANCE
DC VOLTAGE RATING
CASE CODE
94SVP
94SVPD
This is expressed in
picofarads (pF). The first
two digits are the
significant figures. The
third is the number of
zeros to follow.
X0 = ± 20 %
This is expressed in volts.
To complete the three digit
block, zeros precede the
voltage rating if the voltage
is under 100.
Example: 010 = 10 V.
A decimal is expressed as
follows: 6R3 = 6.3 V
A5
B6
C6
E7
F8
E12
F12
Revision: 07-Feb-14
Document Number: 90000
366
For technical questions, contact: [email protected]
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
Construction and Characteristics
www.vishay.com
Vishay OS-CON
Solid Aluminum Capacitors
with Organic Semiconductor Electrolyte
VISHAY OS-CON SEMICONDUCTOR
Inorganic Semiconductor
(Element: Si, Ge, Ga, etc.)
Transistor, Diode
IC
LED
Organic Semiconductor
(Element: C, H, N, etc.)
Superconductive
Semiconductor
Material
(Vishay OS-CON)
VISHAY OS-CON ORGANIC SEMICONDUCTOR
TCNQ Complex Salt
Conventional Organic Semiconductor
Organic
Semiconductor
Simple Crystal
Cooling
Heating
Melting
Insulating
NC
CN
Solidifying
C
Resolving
n • C4H9
N+
Developed Organic Semiconductor
C
NC
CN
NC
CN
C
Organic
Semiconductor
Simple Crystal
Cooling
Heating
Melting
Solidifying
C
NC
CN
Crystallization
High
Conductor
N-n-butyl Isoquinolinium (TCNQ)2
FEATURES OF ORGANIC SEMICONDUCTOR AS ELECTROLYTE
• High conductivity (low resistance value) compared to other electrolytes.
• High conductivity provides stability against temperature.
TYPE OF CAPACITOR
TYPE OF ELECTROLYTE
CONDUCTIVITY (mS/cm) (1)
Non-solid Electrolyte Capacitor
Electrolyte Solution
3
Solid Electrolyte Capacitor
Manganese Dioxide
30
Vishay OS-CON Capacitor
Organic Semiconductor
300
Note
(1) Conductivity comparisons are abbreviated values.
Revision: 05-Feb-14
Document Number: 90015
367
For technical questions, contact: [email protected]
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
Electrical Characteristics
www.vishay.com
Vishay OS-CON
Solid Aluminum Capacitors
with Organic Semiconductor
FREQUENCY CHARACTERISTICS (AT 25 °C)
The greatest feature of the Vishay OS-CON capacitor is its excellent frequency characteristic which is nearly equal to that of a
film capacitor. Using the high conductivity of an organic semiconductor with an electrolyte, and adopting the winding element
for layer thinness of electrolyte, the ESR (Equivalent Series Resistance) is greatly improved, obtaining the frequency
characteristic nearly to the film capacitor.
100
A = Vishay OS-CON
47 µF/16 WV
Ø 0.248 x 0.386 l: 12.05" (6.3 x 9.8 l: 306 mm3)
B = Al-E (Low Impedance)
47 µF/16 WV
Ø 0.248 x 0.276 l: 8.58" (6.3 x 7.0 l: 218 mm3)
IMPEDANCE (Ω)
10
C = Ta-Cap
47 µF/16 WV
Ø 0.236 x 0.433 l: 12.24" (6.0 x 11.0 l: 311 mm3)
D = Al-E (Low Impedance)
1000 µF/16 WV
Ø 0.630 x 0.984 l: 197.8" (16 x 25 l: 5024 mm3)
1
B
C
0.1
D
A
0.01
1K
10K
100K
1M
10M
20M
FREQUENCY (Hz)
The chart above shows the impedance frequency characteristic of Vishay OS-CON, compared to that of other types of
capacitors. The Vishay OS-CON capacitor shows a nearly ideal curve. When compared at 100 kHz of frequency, a Vishay
OS-CON capacitor 47 μF and low impedance aluminum electrolytic capacitor 1000 μF nearly have the same feature. If the
frequency gets higher, the capacitance ratio between the Vishay OS-CON capacitor and aluminum electrolytic capacitor
becomes bigger.
100
Vishay OS-CON
Rated
A = 4.7 µF/25 WV
B = 22 µF/6.3 WV
C = 220 µF/10 WV
D = 820 µF/4 WV
IMPEDANCE (Ω)
ESR (Ω)
10
Impedance
ESR
1
A
C
B
B
A
0.1
C
D
D
0.01
1K
10K
100K
1M
10M
20M
FREQUENCY (Hz)
This chart shows the impedance and ESR frequency characteristics for each size of Vishay OS-CON capacitors. The resonance
point of the Vishay OS-CON capacitor is at 100 kHz to 10 MHz. The ESR becomes about 10 m or less at 100 kHz (829 μF
rating), an extremely small value.
Revision: 05-Feb-14
Document Number: 90016
368
For technical questions, contact: [email protected]
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
Electrical Characteristics
www.vishay.com
Vishay OS-CON
TEMPERATURE CHARACTERISTICS
100.0
10.0
Al
Ta
ESR (Ω)
1.0
0.1
OS
CR (E)
CR (B)
0.01
0.001
-55
-20
0
+20
Temperature (°C)
+85
+105
Equivalent Series Resistance at 100 kHz
10 μF
20
OS
10
Ta
Capacitance Change (%)
0
CR (B)
-10
Al
-20
CR (E)
-30
-40
-50
-55
-20
0
+20
Temperature (°C)
+85
+105
Capacitance Change at 120 Hz
10 μF
OS = Vishay OS-CON
Al = AL-E Capacitor
Ta = Tantalum Capacitor
CR(B) = Cera Capacitor (B Type)
CR(E) = Cera Capacitor (E Type)
Revision: 05-Feb-14
The temperature characteristics of the Vishay OS-CON
capacitor features little changes in temperature for the ESR.
Since ESR is dominant at the high range of impedance (near
resonance point), the ESR value greatly affects noise
clearing capacity. When ESR changes little against the
temperature it means that the noise clearing ability changes
little against temperature as well.
The Vishay OS-CON capacitor is best suited for outdoor
apparatus, vehicles and machinery.
Document Number: 90016
369
For technical questions, contact: [email protected]
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
Electrical Characteristics
www.vishay.com
Vishay OS-CON
BIAS CHARACTERISTICS
OS.1
OS.2
0
Capacitance Change (%)
OS.1 = Vishay OS-CON
Capacitor
94SVP
OS.2 = Vishay OS-CON
Capacitor
94SVPD
CR (B) = Cera Capacitor
(B Type, 10 V, 10 μF)
CR (E) = Cera Capacitor
(E Type, 50 V, 10 μF)
Capacitance Change
at 120 Hz
10 μF
-10
CR (B)
CR (E)
When voltage within rating is applied to the Vishay OS-CON
capacitors (less than 80 % of the rated voltage is
recommended) it shows a stable characteristic where the
capacitance changes little. Also when regarding bias
characteristics, which must be considered in using ceramic
capacitors, the Vishay OS-CON capacitors can be used
safely.
-20
-30
0
10
20
Bias Voltage (V)
30
35
Bias Voltage Characteristics
3.5
3.37
3.0
2.67
Ripple Current (ARMS)
2.5
2.0
1.5
1.83
1.37
1.15
1.10
1.0
0.84
0.74
0.5
0.45
0.45
0.45
0.48
33 μF
16 V
47 μF
16 V
100 μF
10 V
220 μF
10 V
0
Vishay OS-CON Capacitor (SA Series)
Al-E Capacitor (Low Impedance)
Tantalum Capacitor (Low Impedance)
Allowable Ripple Current (100 kHz at + 45 °C)
When selecting a smoothing capacitor for a power supply, the allowable ripple current of the capacitor becomes one of the
standard selections.
The allowable value of the ripple current is decided by the generated heat of the capacitor, but its heating comes out of ESR.
Since a large ESR capacitor generates larger heat value, it can not make the flow of ripple current greater.
The Vishay OS-CON capacitor has a small ESR, and compared to other electrolytic capacitors, can allow far more ripple
currents.
Revision: 05-Feb-14
Document Number: 90016
370
For technical questions, contact: [email protected]
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
Reliability
www.vishay.com
Vishay OS-CON
Solid Aluminum Capacitors
with Organic Semiconductor Electrolyte
TEMPERATURE ACCELERATION TEST (High-temperature load)
Capacitance Change at 120 Hz
22 μF, 10 V
Capacitance Change (%)
+70 °C
-1
+85 °C
+105 °C
-10
+155 °C
+145 °C
10
+135 °C
100
(h)
+125 °C
1000
The decrease of capacitance causes a failure
in the lifetime of the Vishay OS-CON
capacitor. The capacitance decreases mainly
due to temperature. Fig. 2 shows the
decreasing speed in capacitance at each
temperature. From this, the temperature
coefficient of the Vishay OS-CON capacitor’s
lifetime becomes 10 times at 20 °C reduction.
The temperature coefficient of the aluminum
electrolytic capacitor becomes twice at 10 °C
reduction compared to that in the usual
lifetime.
This indicates that, for instance, their
deterioration at +105 °C x 2000 h, can be
converted into those at +105 °C, +85 °C and
+65 °C as follows:
Fig. 1
Estimation of Life Time:
OS-CON
105 °C = 2000 h
95 °C = 6324 h
85 °C = 20 000 h
75 °C = 63 245 h
Aluminum Electrolytic Capacitor
105 °C = 2000 h
95 °C = 4000 h
85 °C = 8000 h
75 °C = 16 000 h
(These are estimated values, not actual amounts that can be guaranteed.)
This means that the Vishay OS-CON capacitor has extremely longer life in practical use even for +105 °C x 2000 h, guaranteed products.
RELIABILITY PRESUMPTION OF LIFE
The capacitance of the OS-CON is getting smaller as time goes with endurance test.
This means wear-failure of the OS-CON is open mode, which is a main failure factor.
The life time is different by each operating temperature and self-heating by ripple current.
The following formula is used to estimate the presumptive lifetime of the OS-CON at ambient temperature Tx (ºC).
The result of the following estimation is not guaranteed but presumptive values based on actual measurement. The estimated
life-span is limited up to 15 years.
Calculation formula of estimated life expectancy:
L x = L o x 10
To - Tx
-----------------20
Lx = Life expectance (h) in actual use (temperature Tx)
Lo = Guaranteed (h) at maximum temperature in use
To = Maximum operating temperature (°C)
Tx = Temperature in actual use (ambient temperature of the OS-CON) (°C)
Please contact us separately about estimated life expectancy of SVPD series guaranteed at 125 °C.
Note
• The estimated life expectancy of conductive polymer electrolyte type can be calculated without consideration of self-heating under
application of the ripple current.
Revision: 07-Feb-14
Document Number: 90017
371
For technical questions, contact: [email protected]
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
Precautions when Using in Circuits
www.vishay.com
Vishay OS-CON
Solid Aluminum Capacitors
with Organic Semiconductor Electrolyte

EXPLANATION OF THE RUSH CURRENT SUPPRESSION METHODS
There is the chance that an excessive amount of rush
current will flow through the Vishay OS-CON capacitor
when it is used in the following circuits because its ESR is
exceedingly low. Therefore, careful consideration and
measures must be taken with regard to design and
production equipment. Use the Vishay OS-CON capacitor
so the rush current value does not exceed 10 A.
In case that 10 times the allowable ripple current value
exceeds 10 A, the Vishay OS-CON capacitor can be used
within that value.
1. DC/DC Converter Input Circuits
a. DC/DC converter circuits are usually a PC board block
shape and use a low ESR capacitor in the input section
for high performance and miniaturization.
b. Consideration must be given to the rush current that
flows the equipment when DC/DC converter is adjusted
and inspected.
• There is the possibility that an extremely large amount of
rush current will flow through the Vishay OS-CON
capacitor during voltage adjustment or inspection of the
DC/DC converter’s circuit block when the power
impedance supplied from the equipment being adjusted
or inspected is exceedingly low and the current
suppression function of the current limiter and such is
provided.

(Refer to the example in Fig. 1.)
• Rush current suppression measures must be taken for
DC/DC converter adjustment and inspection equipment.
2. Circuits Driven by Chargeable Batteries
b. Circuit power lines equipped with batteries or
rechargeable batteries use capacitors such as the Vishay
OS-CON with very low ESR to increase performance and
facilitate miniaturization.
• There is the possibility of an extremely large amount of
rush current flowing through the low ESR capacitors
arranged along the power line when the power is turned
on for circuits driven by nickel cadmium chargeable
batteries and such that have a very low internal resistance.

(Refer to the example in Fig. 1.)
Inductance coil
Direction of
current flow
Diode for absorbing counter electromotive force
The main points to be aware of are listed here.
• Normally, an inductance coil with a magnetic core is used;
however, inductance sometimes drops depending on the
frequency, so it must be checked.
• The peak current value of the diode when absorbing
counter electromotive force.
3. No Protection Resistance Rush Current
When there is no protection, Resistor Z as shown in Fig. 1
and the power supply has Re = 0 , the Vishay OS-CON
capacitor’s rush current is as follows.
Supplied DC voltage (E)
Rush current (A) = --------------------------------------------------------------ESR + Re + Z ( 
Example:

For type 94SC106X0025C
ESR = Less than 90 m, and 
supplied DC voltage = 20 V,
Then 20 V
---------------------------------------------- = More than 222 A
Less than 0.09 
Z (Protection circuit)
Capacitor
Power supply
internal resistance
Re
ESR
Load
resistance
Capacity
Power supply
Voltage E
Fig. 1
• A protection circuit like that is shown at the top of the next
column is usually used to suppress rush current of
charging battery.
Revision: 17-Jul-08
Document Number: 90018
372
For technical questions, contact: [email protected]
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
Precautions when Using in Circuits
www.vishay.com
Vishay OS-CON
EXAMPLE OF RUSH CURRENT SUPPRESSION METHODS
1. Resistor Method
3. Resistor and Thyristor Method
R (Resistor for current suppression)
R
Capacitor
Power supply
internal resistance
Re
ESR
Power supply
voltage E
Capacity
Capacitor
ESR
Thyristor
Re
Power supply
voltage E
Capacity
• Rush current is as shown below.
E (V)
Rush current (A) = ------------------------------------------------Re + ESR + R ( 
• Rush current is usually determined mainly by R, as Re and
ESR are low.
• Although the current is simply and clearly suppressed with
this method, resistor R is suppressing current causes the
voltage to drop.
• Rush Current is exactly the same as in the resistor
method, however, there is almost no voltage drop caused
by R after rushing, the same as the resistor and relay
method.
4. Power Thermistor
Power thermistor
2. Resistor and Relay Method
Capacitor
Relay contact
R
Power supply
internal resistance
Re
Power supply
voltage E
Capacitor
Power supply
voltage E
Capacity
ESR
Capacity
• Note that the relay MUST be changed depending on the
voltage of the supplied power.

This is mainly because the relay coil’s specifications differ
depending on the voltage.
Revision: 17-Jul-08
ESR
Relay coil
• The rush current is exactly the same as in the resistor
method, however, there is almost no voltage drop caused
by the current suppression resistor from the time the relay
contact goes ON.

Re
• Taking an example of a power thermistor sold on the
market, the value is 8  at +25 °C, but becomes -0.62 
at +130 °C.
• When the power thermistor is connected as shown in the
above diagram, rush current is suppressed due to the
large resistor value at the moment the switch is turned on.

After this, the output loss (voltage drop) is reduced.

However, the power thermistor has a heat constant,
meaning that the large resistor value in the initial state
cannot be regained the moment the switch is turned off.

As a result, the ability to suppress current is lost when the
switch is turned off and on quickly.
Document Number: 90018
373
For technical questions, contact: [email protected]
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
Precautions when Using in Circuits
www.vishay.com
Vishay OS-CON
SUDDEN DISCHARGE CURRENT SUPPRESSION
METHODS
Since the Vishay OS-CON capacitor has an exceedingly low
ESR and when the load impedance during discharge is
extremely low, there is the chance that it allows a large
amount of discharge current to flow for an instant. 
Please note the following points when using Vishay
OS-CON capacitor in sudden discharge operations.
Ir
Ir1
Ir2
C1
C2
ESR1
ESR2
Cz1
The discharge equivalent circuit is as shown below.
Cz2
Protection resistor
Z1
Capacitor
Fig. 1
ESR
Z2
Load
cicuit
Capacity
As shown in the above example, there is the chance an
extremely large amount of discharge current will flow when
electric charge is discharged with 0  loading. When the
Vishay OS-CON capacitor is to be used in sudden discharge
operations, use the above mentioned formula to estimate
the discharge current.
Use the Vishay OS-CON capacitor so the peak discharge
current value does not exceed 10 A. In case that 10 times of
the allowable ripple current value exceeds 10 A, the Vishay
OS-CON capacitor can be used within the value.
The formula for estimating discharge current is given below.
Ir = Total Ripple Current 
ESR = Capacitor’s Equivalent Series Resistance 
Cz = Impedance of the capacitor’s capacitive components
Ripple current flowing through each parallel connected
capacitor can be found by using the values symbolized in
the reference equivalent circuit in Fig. 1.
The equivalent circuit in Fig. 1 can be simplified as shown in
Fig. 2 when it is to be used for frequencies between
100
kHz and a few MHz. (Assuming the capacitor’s capacity is
more than 10 μF.)
Ir = 1000 mA
Vishay OS-CON 100 µF
Ir1
Ir2
AI-E 1000 µF
ESR1
ESR2
30 m
80 mΩ
Charging voltage (V)
Discharge current (A) = -----------------------------------------------------ESR + Z1 + Z2 ( 
Example:
For type 94SC106X0025C
ESR = Less than 90 mΩ
is set, then
Charging voltage = 20 V
Z1, Z2 = 0 Ω
Charging voltage (V)
Discharge current (A) = ------------------------------------------------------ 
ESR + Z1 + Z2 ( 

Then 20 V
= ------------------------------------------------ = More than 222 A
Less than 0.09 
CONNECTING A VISHAY OS-CON AND AN
ALUMINUM ELECTROLYTIC CAPACITOR IN
PARALLEL
Aluminum electrolytic capacitors and Vishay OS-CON
capacitors are often connected in parallel to improve the
space factor and cost performance of ripple absorbing
capacitors. Please give full consideration to the following.
Revision: 17-Jul-08
Fig. 2
Since impedance becomes exceedingly low when the
capacity is more than 10 μF, and frequencies higher than
100 kHz, each Cz in Fig. 1 can be omitted changing the
actual ripple current value to that shown Fig. 2.
ESR2
I r 1 = I r x ------------------------------------ESR1 + ESR2
80 m
= 1000 mA x -------------------------------------------- = 727 mA
30 m + 80 m
As shown here, although the Vishay OS-CON capacitor has
1/10th of the capacity of that the mated capacitor, it
allows 73 % of the ripple current flow.
As explained here, when a Vishay OS-CON capacitor and an
aluminum electrolytic capacitor are to be used in parallel
connection, select the appropriate type of Vishay OS-CON
capacitor that has an extra margin of capacity since a large
amount of ripple current flows through it.
Document Number: 90018
374
For technical questions, contact: [email protected]
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
Reel Specifications
www.vishay.com
Vishay OS-CON
Type 94SVP/94SVPD Solid Aluminum Capacitors with
Organic Semiconductor Electrolyte Surface Mount Chip
TAPING SPECIFICATIONS FOR AUTOMATIC INSERTING MACHINES
4.0 ± 0.1
2.0
± 0.1
t
Ø 1.5 + 0.1/- 0
E
F
W
B
T
Mounting parts
A
P
Direction of unreeling
DIMENSIONS in millimeters
SIZE CODE
A
B
W
F
E
P
t
T
A5
4.7 ± 0.2
4.7 ± 0.2
12.0 ± 0.3
5.5 ± 0.1
1.75 ± 0.1
8.0 ± 0.1
0.4 ± 0.1
5.8 ± 0.2
B6
5.6 ± 0.2
5.6 ± 0.2
16.0 ± 0.3
7.5 ± 0.1
1.75 ± 0.1
8.0 ± 0.1
0.4 ± 0.1
6.2 ± 02
C6
6.9 ± 0.2
6.9 ± 0.2
16.0 ± 0.3
7.5 ± 0.1
1.75 ± 0.1
12.0 ± 0.1
0.4 ± 0.1
6.2 ± 0.2
E7
8.6 ± 0.2
8.6 ± 0.2
24.0 ± 0.3
11.5 ± 0.1
1.75 ± 0.1
12.0 ± 0.1
0.4 ± 0.1
7.2 ± 0.2
F8
10.7 ± 0.2
10.7 ± 0.2
24.0 ± 0.3
11.5 ± 0.1
1.75 ± 0.1
16.0 ± 0.1
0.4 ± 0.1
8.2 ± 0.2
E12
8.6 ± 0.2
8.6 ± 0.2
24.0 ± 0.3
11.5 ± 0.1
1.75 ± 0.1
16.0 ± 0.1
0.4 ± 0.1
12.3 ± 0.2
F12
10.7 ± 0.2
10.7 ± 0.2
24.0 ± 0.3
11.5 ± 0.1
1.75 ± 0.1
16.0 ± 0.1
0.4 ± 0.1
13.0 ± 0.2
Direction of unreeling
0.079 ± 0.020
[2.0 ± 0.5]
Ø 0.512 ± 0.008
[13.0 ± 0.2]
Ø 80 ± 1.0
Unreeling
R
0.040
[1.0]
Ø 0.827
[21.0 ± 0.8]
min.
14.96 ± 0.079
[380.0 ± 2.0]
W1
W2
DIMENSIONS in millimeters
SIZE CODE
W1
W2
A5
13.0 ± 0.5
17.5 ± 1.0
B6, C6
17.0 ± 0.5
21.5 ± 1.0
E7, F8, E12, F12
25.0 ± 0.5
29.5 ± 1.0
Revision: 08-Aug-08
Document Number: 90019
375
For technical questions, contact: [email protected]
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
Reel Specifications
www.vishay.com
Vishay OS-CON
MINIMUM PACKING QUANTITY
Revision: 08-Aug-08
SIZE CODE
PCS/REEL
(Ø 380)
A5
2000
B6
1500
C6
1000
E7
1000
F8
500
E12
400
F12
400
Document Number: 90019
376
For technical questions, contact: [email protected]
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
Soldering Profile and Land Pattern
www.vishay.com
Vishay OS-CON
Type 94SVP/94SVPD Solid Aluminum Capacitors with
Organic Semiconductor Electrolyte Surface Mount Chip
Surface of external case/terminal (°C)
RECOMMENDED REFLOW PROFILE
300
Peak temperature
250
Duration at 230 °C or higher
Duration at 220 °C or higher
Duration at 200 °C or higher
200
150
100
Preheating 150 °C to 180 °C
50
0
0
30
60
90
120
150
180
210
240
Vishay OS-CON has different characteristics against soldering heat from conventional aluminum electrolytic capacitors or
tantalum capacitors because of its unique materials and structure.
Please note the following points on soldering of Vishay OS-CON 94SVP/94SVPD series to draw out the best performance.
ITEM
Peak temperature (max.)
94SVP/94SVPD SERIES
250 °C
Preheat
260 °C
150 °C to 180 °C 90 s ± 30 s
200 °C over time (max.)
60 s
60 s
220 °C over time (max.)
50 s
50 s
230 °C over time (max.)
40 s
40 s
Twice or less
Only 1 time
Reflow number
Note
• All temperatures are measured on the topside of the Al-can and terminal surface.
Attention:
Reflow soldering may reduce the capacitance of products before or after soldering even if soldering conditions stipulated in
Recommended Reflow Condition are met. Though the actual reflow conditions are subject to change depending on the kind of
reflow soldering method, please be aware that the peak temperature at the top of Al-case and electrode terminals should not
exceed peak temperature. Particular notice should be given to the time that Vishay OS-CON is heated at 200 °C or higher during
reflow. Be aware that soldering considerably deviating from these conditions will cause problems such as a 50 % reduction in
capacitance, and a considerable increase in leakage current.
The leakage current value may increase (from a few μA to a few mA) even within the above conditions. When the Vishay OS-CON
is used in a DC circuit, the leakage current will decrease gradually through self-recovery after voltage is applied. If your reflow
profile (reflow temperature, number of reflows, etc.) deviates from the above conditions for mounting the 94SVP/94SVPD series,
please consult with Vishay OS-CON.
Revision: 08-Sep-08
Document Number: 90014
377
For technical questions, contact: [email protected]
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
Soldering Profile and Land Pattern
www.vishay.com
Vishay OS-CON
STORAGE OF TYPE 94SVP/94SVPD
It is necessary to store these capacitors in a proper environment to prevent problems (degradation of solderability or
appearance) when soldering. Keep these capacitors sealed in the reel and storage bag as delivered and store in the following
environment:
• Room temperature and room humidity (generally +15 °C to 25 °C, 45 % to 75 % RH).
• Place where capacitors are not exposed to direct sunshine.
• Also, set storage period at 6 months or shorter.
Unseal just before mounting. Return any remaining parts to storage bag and reseal bag securely with tape.
RECOMMENDED LAND PATTERN
Type 94SVP/94SVPD
c
a
b
DIMENSIONS in millimeters
CASE CODE
a
b
c
A5
1.0
6.2
1.6
B6
1.4
7.4
1.6
C6
2.1
9.1
1.6
E7
2.8
11.1
1.9
F8
4.3
13.1
1.9
E12
2.8
11.1
1.9
F12
4.3
13.1
1.9
Revision: 08-Sep-08
Document Number: 90014
378
For technical questions, contact: [email protected]
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
94SVP
www.vishay.com
Vishay OS-CON
SMD Aluminum Solid Capacitors with Conductive Polymer
FEATURES
• Vishay OS-CON series utilizes a polymerized
organic semiconductor as electrolyte
• Features superior heat-proof characteristics
compared with previous OS-CON series
• For power supply and other applications where
high ripple current and low impedance are necessary
• Rated ripple current values are guaranteed at 105 °C
• No need to consider derating on maximum allowable
ripple current
• SMD version with base plate, containing no lead (Pb)
• Material categorization: For definitions of compliance
please see www.vishay.com/doc?99912
QUICK REFERENCE DATA
DESCRIPTION
Operating temperature range
Capacitance tolerance at 120 Hz
Tangent of loss angle (tan ) at 120 Hz
Leakage current (μA/2 min) (or less) (1)
Equivalent series resistance (), (100 kHz to 300 kHz)
VALUE
-55 °C to +105 °C
M: ± 20 %
Values in Electrical Data and Ordering Information table
Values in Electrical Data and Ordering Information table
Values in Electrical Data and Ordering Information table
0.75 to 1.25
-55 °C
Z/Z20 °C
+105 °C
Z/Z20 °C
0.75 to 1.25
C/C
Within ± 20 %
tan 
 1.5 x the value of tangent of loss angle
ESR
 1.5 x the value of ESR
Leakage current
 the value of leakage current
C/C
Within ± 20 %
tan 
 1.5 x the value of tangent of loss angle
ESR
 1.5 x the value of ESR
Leakage current
 the value of leakage current after voltage treatment
Temporary: < 20 % of the rated voltage
Continuous: < 10 % of the rated voltage
Characteristics at high temp. and low temp.
Impedance ratio at 100 kHz, +20 °C
Endurance +105 °C, 2000 h
Rated voltage applied (20 V for 25 V products)
(1000 h for A5/B6 sizes)
Damp heat (steady state)
(+60 °C, 90 % to 95 % RH, 1000 h, no voltage)
(500 h for A5/B6 sizes)
Reverse voltage guarantee
Solder heat resistance (VPS) (2)
(230 °C x 75 s)
(Please consult us for A5/B6 sizes)
C/C
Within ± 10 %
tan 
 1.3 x the value of tangent of loss angle
ESR
 1.3 x the value of ESR
Leakage current
 the value of leakage current after voltage treatment
Notes
(1) If any doubt arises, measure the current after applying voltage (voltage treatment). Voltage treatment: The rated voltage is applied to Vishay
OS-CON (2.5 WV to 20 WV) for 120 min at 105 °C. (However, 20 V is applied to a 25 WV Vishay OS-CON).
(2) Refer to Soldering Profile and Land Pattern document www.vishay.com/doc?90014 for soldering recommendation.
DIMENSIONS in millimeters
SIZE CODE
0.2 max.
W
H
ØD
L
Revision: 06-Mar-14
P
R
(+)
C
A5
B6
C6
E7
F8
E12
F12
ØD
± 0.5
4.0
5.0
6.3
8.0
10.0
8.0
10.0
L
max.
5.5
6.0
6.0
7.0
8.0
12.0
12.7
W
± 0.2
4.3
5.3
6.6
8.3
10.3
8.3
10.3
H
± 0.2
4.3
5.3
6.6
8.3
10.3
8.3
10.3
C
± 0.2
5.0
6.0
7.3
9.0
11.0
9.0
11.0
R
0.5 to 0.8
0.5 to 0.8
0.5 to 0.8
0.5 to 0.8
0.5 to 0.8
0.8 to 1.1
0.8 to 1.1
P
± 0.2
1.0
1.4
2.1
3.2
4.6
3.2
4.6
Document Number: 90021
379
For technical questions, contact: [email protected]
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
94SVP
www.vishay.com
Vishay OS-CON
RECOMMENDED LAND PATTERN DIMENSIONS in millimeters
SIZE CODE
a
b
c
A5
1.0
6.2
1.6
B6
1.4
7.4
1.6
C6
2.1
9.1
1.6
a
E7
2.8
11.1
1.9
b
F8
4.3
13.1
1.9
c
E12
2.8
11.1
1.9
F12
4.3
13.1
1.9
CASE CODE LIST
CAPACITANCE
(μF)
WV (1)
(SV)
(2)
2.5
4
6.3
10
16
20
25
(3.3)
(5.2)
(8.2)
(11.5)
(18.4)
(23)
(25)
3.3
-
-
-
-
A5
-
-
4.7
-
-
-
A5
-
-
-
6.8
-
-
-
A5
-
-
C6
10.0
-
-
-
A5
-
B6
E7
15.0
-
-vb
-
A5
B6
-
-
22.0
-
-
A5
-
B6
C6
F8
27.0
-
-
-
-
-
C6
-
33.0
-
A5
-
B6
-
E7
E12
39.0
-
B6
-
-
C6
-
-
47.0
-
-
B6
C6
-
E7
-
56.0
-
-
-
C6
E7
F8
F12
68.0
-
B6
-
-
-
F8
-
82.0
-
-
C6
-
E7
-
-
100.0
-
-
C6
-
F8
E12
-
120.0
-
-
-
E7
-
-
-
150.0
-
C6
-
E7, F8
F8
F12
-
180.0
-
-
-
-
E12
-
-
220.0
-
-
E7, F8
-
-
-
-
270.0
-
-
-
F8
-
-
-
330.0
-
E7
F8
E12
F12
-
-
470.0
-
-
F8, E12
-
-
-
-
560.0
-
E12
-
F12
-
-
-
680.0
E12
F8
-
-
-
-
-
820.0
-
-
F12
-
-
-
-
1200.0
-
F12
-
-
-
-
-
1500.0
F12
-
-
-
-
-
-
Notes
(1) WV = Rated Voltage.
(2) (SV) = Surge Voltage (at room temperature). The description contents are subject to change due to technical improvement without notice.
Please ask for latest specifications for order and use.
Revision: 06-Mar-14
Document Number: 90021
380
For technical questions, contact: [email protected]
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
94SVP
www.vishay.com
Vishay OS-CON
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
2.5
4
6.3
10
16
20
25 (2)
CR
(μF)
CASE
CODE
MAX. ESR
(100 kHz to 300 kHz)
(m)
680
1500
33
39
68
150
330
680
560
1200
22
47
82
100
220
220
330
470
470
820
4.7
6.8
10
15
33
47
56
120
150
150
270
330
560
3.3
15
22
39
56
82
100
150
180
330
10
22
27
33
47
56
68
100
150
6.8
10
22
33
56
E12
F12
A5
B6
B6
C6
E7
F8
E12
F12
A5
B6
C6
C6
E7
F8
F8
E12
F8
F12
A5
A5
A5
A5
B6
C6
C6
E7
E7
F8
F8
E12
F12
A5
B6
B6
C6
E7
E7
F8
F8
E12
F12
B6
C6
C6
E7
E7
F8
F8
E12
F12
C6
E7
F8
E12
F12
16
13
200
70
70
50
35
25
16
13
220
90
50
40
35
30
25
17
25
14
260
260
240
240
130
60
55
40
35
35
30
19
15
280
150
120
65
50
45
40
35
22
17
170
65
60
50
50
45
45
25
21
80
60
50
30
28
ALLOWABLE
RIPPLE CURRENT
AT 100 kHz, +105 °C
(mA)
4080
5230
740
1100
1100
1620
2560
3700
4080
5230
700
1060
1570
1810
2560
3020
3300
3960
3700
5040
660
660
670
700
990
1450
1510
2120
2560
2670
3020
3740
4870
590
920
980
1390
1800
1890
2400
2670
3480
4580
850
1390
1450
1700
1750
2200
2200
3260
4220
1200
1500
2000
2980
3800
MAX.
TANGENT OF
LOSS ANGLE
0.15
0.18
0.15
0.12
0.12
0.12
0.12
0.12
0.15
0.18
0.12
0.12
0.12
0.12
0.12
0.12
0.12
0.15
0.12
0.15
0.08
0.09
0.10
0.10
0.15
0.12
0.12
0.12
0.12
0.12
0.12
0.15
0.15
0.07
0.10
0.10
0.10
0.12
0.12
0.12
0.12
0.15
0.15
0.10
0.10
0.10
0.12
0.12
0.12
0.12
0.15
0.15
0.10
0.10
0.10
0.12
0.12
MAX. LEAKAGE
CURRENT
(μA)
(after 2 min)
340
750
66.0
78
136
120
264
544
448
960
69.3
148
103
126
277
277
416
592
592
775
23.5
34.0
50.0
75.0
165
94
112
240
300
300
540
660
840
26.4
120
176
125
179
262
320
480
576
792
100
88
108
132
188
224
272
400
600
85
125
275
413
700
PART NUMBER (1)
94SVP687X02R5E12
94SVP158X02R5F12
94SVP336X0004A5
94SVP396X0004B6
94SVP686X0004B6
94SVP157X0004C6
94SVP337X0004E7
94SVP687X0004F8
94SVP567X0004E12
94SVP128X0004F12
94SVP226X06R3A5
94SVP476X06R3B6
94SVP826X06R3C6
94SVP107X06R3C6
94SVP227X06R3E7
94SVP227X06R3F8
94SVP337X06R3F8
94SVP477X06R3E12
94SVP477X06R3F8
94SVP827X06R3F12
94SVP475X0010A5
94SVP685X0010A5
94SVP106X0010A5
94SVP156X0010A5
94SVP336X0010B6
94SVP476X0010C6
94SVP566X0010C6
94SVP127X0010E7
94SVP157X0010E7
94SVP157X0010F8
94SVP277X0010F8
94SVP337X0010E12
94SVP567X0010F12
94SVP335X0016A5
94SVP156X0016B6
94SVP226X0016B6
94SVP396X0016C6
94SVP566X0016E7
94SVP826X0016E7
94SVP107X0016F8
94SVP157X0016F8
94SVP187X0016E12
94SVP337X0016F12
94SVP106X0020B6
94SVP226X0020C6
94SVP276X0020C6
94SVP336X0020E7
94SVP476X0020E7
94SVP566X0020F8
94SVP686X0020F8
94SVP107X0020E12
94SVP157X0020F12
94SVP685X0025C6 (2)
94SVP106X0025E7 (2)
94SVP226X0025F8 (2)
94SVP336X0025E12 (2)
94SVP566X0025F12 (2)
Notes
(1) Part numbers shown are for ± 20 % capacitance tolerance (X0).
(2) 25 V rated parts are not for new design. Please check 94SVPD (www.vishay.com/doc?90022) for replacement.
Revision: 06-Mar-14
Document Number: 90021
381
For technical questions, contact: [email protected]
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
94SVPD
www.vishay.com
Vishay OS-CON
SMD Aluminum Solid Capacitors with Conductive Polymer
FEATURES
• New OS-CON 94SVPD series provides
improved characteristics with up to 125 °C
temperature capability and 35 V maximum
voltage rating in a SMD package
• Improved damp heat (steady state) 85 °C x 85 %
RH performance
• Suitable for use in smoothing circuits of vehicle-mounted
equipment, industrial equipment, etc.
• This product can support lead (Pb)-free reflow (2)
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
QUICK REFERENCE DATA
DESCRIPTION
Operating temperature range
Capacitance tolerance
Tangent of loss angle (tan )
Leakage current (μA/2 min) (or less) (1)
ESR
Characteristics of impedance ratio
at high and low temperature
CONDITIONS
120 Hz
120 Hz
After 2 min
-
VALUE
- 55 °C to + 125 °C
M: ± 20 %
 values in Electrical Data and Ordering Information table
 values in Electrical Data and Ordering Information table
 values in Electrical Data and Ordering Information table
- 55 °C
Z/Z20 °C
0.75 to 1.25
+ 125 °C
Z/Z20 °C
0.75 to 1.0
C/C
Within ± 20 %
tan 
2 x or < than an initial standard
ESR
2 x or < than an initial standard
Leakage current
Below an initial standard
C/C
Within ± 20 %
tan 
2 x or < than an initial standard
ESR
2 x or < than an initial standard
Leakage current
Below an initial standard
C/C
Within ± 10 %
tan 
1.3 x or < than an initial standard
ESR
1.3 x or < than an initial standard
Below an initial standard
Leakage current
(after voltage processing)
100 kHz, + 20 °C
+ 125 °C, 2000 h
rated voltage applied
Endurance
Damp heat (steady state)
+ 85 °C, 85 % to 90 % RH,
1000 h
rated voltage applied
Solder heat resistance (2)
(VPS)
(230 °C x 75 s)
Notes
(1) If any doubt arises, measure the current after applying voltage (voltage treatment). Voltage treatment: The rated voltage is applied (10 V to
35 V) for 120 min at 125 ºC.
(2) Refer to “Recommended Reflow Profile” for maximum temperatures.
DIMENSIONS in millimeters
0.2 max.
L
SIZE CODE
C6
E7
F8
E12
F12
Revision: 03-Aug-12
Ø D ± 0.5
6.3
8.0
10.0
8.0
10.0
L + 0.1/- 0.4
5.9
6.9
7.9
11.9
12.6
W ± 0.2
6.6
8.3
10.3
8.3
10.3
H ± 0.2
6.6
8.3
10.3
8.3
10.3
W
P
C
H
ØD
Series
C6 size is PD
E7, F8, E12, F12
size is SVPD
Polarity marking (Cathode)
Case No.
003
SVPD
Rated capacitance
47
35
Rated voltage
R
C ± 0.2
7.3
9.0
11.0
9.0
11.0
(+)
R
0.6 to 0.8
0.6 to 0.8
0.6 to 0.8
0.8 to 1.1
0.8 to 1.1
P ± 0.2
2.1
3.2
4.6
3.2
4.6
Document Number: 90022
382
For technical questions, contact: [email protected]
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
94SVPD
www.vishay.com
Vishay OS-CON
CASE CODE LIST
RATED VOLTAGE (SURGE AT 125 °C)
CAPACITANCE
(μF)
10.0
(11.5)
16.0
(18.4)
25.0
(29.0)
35.0
(40.0)
8.2
E7
10
C6
18
F8
22
E7
39
F8
47
E12
56
E12
F12
C6
82
E7
F12
RECOMMENDED LAND PATTERN DIMENSIONS (in millimeters)
SIZE CODE
a
b
c
C6
2.1
9.1
1.6
E7
2.8
11.1
1.9
a
F8
4.3
13.1
1.9
b
E12
2.8
11.1
1.9
F12
4.3
13.1
1.9
c
FREQUENCY COEFFICIENT FOR RIPPLE CURRENT
FREQUENCY
120 Hz  f < 1 kHz
1 kHz  f < 10 kHz
10 kHz  f < 100 kHz
100 kHz  f < 500 kHz
COEFFICIENT
0.05
0.3
0.7
1
ELECTRICAL DATA AND ORDERING INFORMATION
UR
(V)
CR
(μF)
CASE
CODE
MAX. ESR
(100 kHz
TO
300 kHz)
(m)
RATED RIPPLE
CURRENT
ALLOWABLE
RIPPLE CURRENT
105 °C <
Tx  125 °C
Tx  105 °C
MAX.
TANGENT
OF LOSS
ANGLE
100 kHz (mA) (3)
MAX.
LEAKAGE
CURRENT
(μA) (2)
PART NUMBER (1)
94SVPD566X0010C6
10
56
C6
45
538
1700
0.12
112
16
82
E7
40
670
2120
0.12
262
94SVPD826X0016E7
10
C6
65
474
1500
0.10
50
94SVPD106X0025C6
22
E7
48
580
1835
0.10
110
94SVPD226X0025E7
39
F8
45
664
2100
0.10
195
94SVPD396X0025F8
47
E12
30
943
2980
0.12
235
94SVPD476X0025E12
82
F12
28
1202
3800
0.12
410
94SVPD826X0025F12
8.2
E7
70
400
1300
0.10
57
94SVPD825X0035E7
18
F8
60
550
1800
0.10
126
94SVPD186X0035F8
22
E12
50
700
2300
0.12
154
94SVPD226X0035E12
47
F12
30
1150
3650
0.12
329
94SVPD476X0035F12
25
35
Notes
(1) Capacitance tolerance: M ± 20 %
(2) After 2 min
(3) Tx: Ambient temperature
Revision: 03-Aug-12
Document Number: 90022
383
For technical questions, contact: [email protected]
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
94SVPD
www.vishay.com
Vishay OS-CON
FREQUENCY CHARACTERISTICS
1000
ESR, Impedance (Ω)
100
10
1
Curve 1: 94SVPD476X0035F12 Impedance (Ω)
Curve 2: 94SVPD476X0035F12 ESR (Ω)
Curve 3: 94SVPD186X0035F8 Impedance (Ω)
Curve 4: 94SVPD186X0035F8 ESR (Ω)
Curve 5: 94SVPD106X0025C6 Impedance (Ω)
Curve 6: 94SVPD106X0025C6 ESR (Ω)
Curve 7: 94SVPD826X0025F12 Impedance (Ω)
Curve 8: 94SVPD826X0025F12 ESR (Ω)
5
3
1
7
4
6
2
8
0.1
0.01
0.001
0.1
1
100
10
1000
10 000
Frequency (kHz)
FREQUENCY (kHz)
0.12
0.5
1
10
100
500
1000
5000
10 000
94SVPD106X0025C6
IMPEDANCE ()
127.769
31.001
15.608
1.612
0.176
0.046
0.032
0.093
0.179
94SVPD106X0025C6
ESR ()
1.303
0.482
0.306
0.081
0.044
0.035
0.032
0.033
0.040
94SVPD186X0035F8
IMPEDANCE ()
72.87
17.781
8.955
0.918
0.096
0.023
0.037
0.200
0.397
94SVPD186X0035F8
ESR ()
1.681
0.333
0.179
0.043
0.027
0.023
0.023
0.026
0.034
94SVPD476X0035F12
IMPEDANCE ()
30.178
7.389
3.725
0.392
0.05
0.016
0.025
0.134
0.266
94SVPD476X0035F12
ESR ()
0.852
0.206
0.121
0.045
0.023
0.016
0.014
0.017
0.023
94SVPD826X0025F12
IMPEDANCE ()
16.736
4.096
2.074
0.229
0.029
0.014
0.028
0.144
0.285
94SVPD826X0025F12
ESR ()
0.339
0.135
0.094
0.033
0.015
0.011
0.011
0.014
0.019
Revision: 03-Aug-12
Document Number: 90022
384
For technical questions, contact: [email protected]
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
94SVPD
www.vishay.com
Vishay OS-CON
TYPICAL PARAMETERS
MODEL
94SVPD106X0025C6
TEST ITEM
TEST TEMPERATURE
APPLIED VOLTAGE
LOT. NUMBER
Endurance
(after V.P.S. test)
125 °C
25 V
7130A2714
Change in capacitance (120 Hz)
Tangent of loss angle (120 Hz)
20
0.12
0.11
10
0.10
Tangent of loss angle
Max.
Δ (%)
0
Av.
Min.
- 10
- 20
- 30
0.09
0.08
0.07
0.06
0.05
0.04
0.03
Av.
0.02
Max.
0.01
- 40
Min.
0
0
2000
Time (h)
0
2000
Time (h)
Leakage current (25 V, 60 s)
ESR (100 kHz)
200
10 000
180
1000
ESR (mΩ)
140
120
100
80
Av.
60
40
Max.
Min.
Leakage current (µA)
160
100
10
Max.
1
Av.
0.1
20
Min.
0
0.01
0
TIME (h)
2000
0
Time (h)
2000
Notes
• n = 30 pieces
• V.P.S. test conditions: 230 °C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method)
Revision: 03-Aug-12
Document Number: 90022
385
For technical questions, contact: [email protected]
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
94SVPD
www.vishay.com
Vishay OS-CON
TYPICAL PARAMETERS
MODEL
94SVPD186X0035F8
TEST ITEM
TEST TEMPERATURE
APPLIED VOLTAGE
LOT. NUMBER
Endurance
(after V.P.S. test)
125 °C
35 V
6517A3254
Tangent of loss angle (120 Hz)
Change in capacitance (120 Hz)
0.12
20
0.11
0.10
Av.
Δ (%)
0
Max.
Min.
- 10
- 20
Tangent of loss angle
10
- 30
0.09
0.08
0.07
0.06
0.05
0.04
Av.
0.03
Max.
0.02
0.01
Min.
0
- 40
0
2000
Time (h)
0
2000
Time (h)
Leakage current (35 V, 60 s)
ESR (100 kHz)
200
10 000
180
1000
Leakage current (µA)
160
ESR (mΩ)
140
120
100
80
60
Av.
40
Max.
100
10
Av.
0.1
20
Max.
1
Min.
Min.
0
0.01
0
Time (h)
2000
0
Time (h)
2000
Notes
• n = 30 pieces
• V.P.S. test conditions: 230 °C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method)
Revision: 03-Aug-12
Document Number: 90022
386
For technical questions, contact: [email protected]
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
94SVPD
www.vishay.com
Vishay OS-CON
TYPICAL PARAMETERS
MODEL
94SVPD476X0035F12
TEST ITEM
TEST TEMPERATURE
APPLIED VOLTAGE
LOT. NUMBER
Endurance
(after V.P.S. test)
125 °C
35 V
7209A6544
Tangent of loss angle (120 Hz)
Change in capacitance (120 Hz)
0.12
20
0.11
0.10
10
Max.
Δ (%)
0
Min.
- 10
- 20
Tangent of loss angle
Av.
- 30
0.09
0.08
0.07
0.06
0.05
0.04
Av.
0.03
Max.
0.02
0.01
Min.
0
- 40
0
2000
Time (h)
0
2000
Time (h)
Leakage current (35 V, 60 s)
ESR (100 kHz)
200
10 000
180
1000
Leakage current (µA)
160
ESR (mΩ)
140
120
100
80
Av.
60
Max.
40
100
Av.
10
Max.
1
Min.
0.1
20
Min.
0
0.01
0
Time (h)
2000
0
Time (h)
2000
Notes
• n = 30 pieces
• V.P.S. test conditions: 230 °C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method)
Revision: 03-Aug-12
Document Number: 90022
387
For technical questions, contact: [email protected]
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
94SVPD
www.vishay.com
Vishay OS-CON
TYPICAL PARAMETERS
MODEL
94SVPD826X0025F12
TEST ITEM
TEST TEMPERATURE
APPLIED VOLTAGE
LOT. NUMBER
Endurance
(after V.P.S. test)
125 °C
25 V
7527A6544
Tangent of loss angle (120 Hz)
Change in capacitance (120 Hz)
0.12
20
0.11
0.10
10
Tangent of loss angle
Max.
Δ (%)
0
Av.
- 10
Min.
- 20
- 30
0.09
0.08
0.07
0.06
Max.
0.05
0.04
Av.
0.03
0.02
0.01
Min.
0
- 40
0
2000
Time (h)
0
2000
Time (h)
Leakage current (25 V, 60 s)
ESR (100 kHz)
200
10 000
180
1000
160
Leakage current (µA)
ESR (mΩ)
140
120
100
80
60
Av.
40
Max.
100
Max.
Av.
10
1
Min.
0.1
20
Min.
0
0
Time (h)
0.01
2000
0
Time (h)
2000
Notes
• n = 30 pieces
• V.P.S. test conditions: 230 °C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method)
Revision: 03-Aug-12
Document Number: 90022
388
For technical questions, contact: [email protected]
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
94SVPD
www.vishay.com
Vishay OS-CON
TYPICAL PARAMETERS
MODEL
94SVPD106X0025C6
TEST ITEM
TEST
TEMPERATURE
APPLIED VOLTAGE
TEST HUMIDITY
LOT. NUMBER
Damp heat (steady state)
(after V.P.S. test)
85 °C
25 V
85 %
7530A2714
Tangent of loss angle (120 Hz)
Change in capacitance (120 Hz)
0.12
20
0.11
0.10
10
Max.
0
Δ (%)
Tangent of loss angle
Av.
Min.
- 10
- 20
- 30
0.09
0.08
0.07
0.06
0.05
Av.
0.04
Max.
0.03
Min.
0.02
0.01
0
- 40
0
Time (h)
1000
0
1000
Time (h)
Leakage current (25 V, 60 s)
ESR (100 kHz)
200
10 000
180
1000
ESR (mΩ)
140
120
100
Av.
Max.
80
60
Leakage current (µA)
160
100
10
Av.
1
Max.
Min.
40
0.1
20
0
Min.
0.01
0
Time (h)
1000
0
Time (h)
1000
Notes
• n = 30 pieces
• V.P.S. test conditions: 230 °C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method)
Revision: 03-Aug-12
Document Number: 90022
389
For technical questions, contact: [email protected]
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
94SVPD
www.vishay.com
Vishay OS-CON
TYPICAL PARAMETERS
MODEL
94SVPD186X0035F8
TEST ITEM
TEST
TEMPERATURE
APPLIED VOLTAGE
TEST HUMIDITY
LOT. NUMBER
Damp heat (steady state)
(after V.P.S. test)
85 °C
35 V
85 %
6517A3254
Tangent of loss angle (120 Hz)
Change in capacitance (120 Hz)
0.12
20
0.11
Av.
0.10
Max.
Tangent of loss angle
10
0
Δ (%)
Min.
- 10
- 20
- 30
0.09
0.08
Av.
Max.
0.07
0.06
0.05
Min.
0.04
0.03
0.02
0.01
0
- 40
0
1000
Time (h)
0
1000
Time (h)
Leakage current (35 V, 60 s)
ESR (100 kHz)
200
10 000
180
1000
Leakage current (µA)
160
ESR (mΩ)
140
120
100
80
Av.
60
Max.
40
100
Av.
10
Max.
1
0.1
20
Min.
Min.
0
0.01
0
Time (h)
1000
0
Time (h)
1000
Notes
• n = 30 pieces
• V.P.S. test conditions: 230 °C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method)
Revision: 03-Aug-12
Document Number: 90022
390
For technical questions, contact: [email protected]
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
94SVPD
www.vishay.com
Vishay OS-CON
TYPICAL PARAMETERS
MODEL
94SVPD476X0035F12
TEST ITEM
TEST
TEMPERATURE
APPLIED VOLTAGE
TEST HUMIDITY
LOT. NUMBER
Damp heat (steady state)
(after V.P.S. test)
85 °C
35 V
85 %
7209A6544
Tangent of loss angle (120 Hz)
Change in capacitance (120 Hz)
0.12
20
0.11
0
Δ (%)
0.10
Max.
Av.
Tangent of loss angle
10
Min.
- 10
- 20
- 30
0.09
0.08
0.07
0.06
Max.
Av.
0.05
0.04
0.03
Min.
0.02
0.01
0
- 40
0
1000
Time (h)
0
1000
Time (h)
Leakage current (35 V, 60 s)
ESR (100 kHz)
200
10 000
180
1000
Leakage current (µA)
160
ESR (mΩ)
140
120
100
80
60
Av.
100
Av.
Max.
10
1
Max.
40
Min.
0.1
20
Min.
0
0.01
0
Time (h)
1000
0
Time (h)
1000
Notes
• n = 30 pieces
• V.P.S. test conditions: 230 °C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method)
Revision: 03-Aug-12
Document Number: 90022
391
For technical questions, contact: [email protected]
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
94SVPD
www.vishay.com
Vishay OS-CON
TYPICAL PARAMETERS
MODEL
94SVPD826X0025F12
TEST ITEM
TEST
TEMPERATURE
APPLIED VOLTAGE
TEST HUMIDITY
LOT. NUMBER
Damp heat (steady state)
(after V.P.S. test)
85 °C
25 V
85 %
6806A6724
Tangent of loss angle (120 Hz)
Change in capacitance (120 Hz)
0.12
20
0.11
0.10
10
Max.
Tangent of loss angle
Av.
Δ (%)
0
Min.
- 10
- 20
- 30
0.09
0.08
0.07
0.06
Max.
0.05
0.04
Av.
0.03
0.02
Min.
0.01
0
- 40
0
1000
Time (h)
0
1000
Time (h)
Leakage current (25 V, 60 s)
ESR (100 kHz)
200
10 000
180
1000
Leakage current (µA)
160
ESR (mΩ)
140
120
100
80
60
Av.
40
Max.
100
Av.
10
Max.
1
0.1
Min.
20
Min.
0
0
Time (h)
0.01
1000
0
Time (h)
1000
Notes
• n = 30 pieces
• V.P.S. test conditions: 230 °C x 75 s x 2 (V.P.S. = Vapor Phase Soldering method)
Revision: 03-Aug-12
Document Number: 90022
392
For technical questions, contact: [email protected]
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
94SVPD
www.vishay.com
Vishay OS-CON
Surface of external case/terminal (°C)
RECOMMENDED REFLOW PROFILE
300
Peak temperature
250
Duration at 230 °C or higher
Duration at 220 °C or higher
Duration at 200 °C or higher
200
150
100
Preheating 150 °C to 180 °C
50
0
0
30
60
90
120
150
180
210
240
Vishay OS-CON has different characteristics against soldering heat from conventional aluminum electrolytic capacitors or
tantalum capacitors because of its unique materials and structure.
Please note the following points on soldering of Vishay OS-CON 94SVPD series to draw out the best performance.
ITEM
Peak temperature (max.)
94SVPD SERIES
250 °C
Preheat
260 °C
150 °C to 180 °C 90 ± 30 s
200 °C over time (max.)
60 s
60 s
220 °C over time (max.)
50 s
50 s
230 °C over time (max.)
40 s
40 s
Twice or less
Only 1 time
Reflow number
Note
• All temperatures are measured on the topside of the Al-can and terminal surface.
Attention:
Reflow soldering may reduce the capacitance of products before or after soldering even if soldering conditions stipulated in
Recommended Reflow Condition are met. Though the actual reflow conditions are subject to change depending on the kind of
reflow soldering method, please be aware that the peak temperature at the top of Al-case and electrode terminals should not
exceed peak temperature. Particular notice should be given to the time that Vishay OS-CON is heated at 200 °C or higher during
reflow. Be aware that soldering considerably deviating from these conditions will cause problems such as a 50 % reduction in
capacitance, and a considerable increase in leakage current.
The leakage current value may increase (from a few μA to a few mA) even within the above conditions. When the Vishay OS-CON
is used in a DC circuit, the leakage current will decrease gradually through self-recovery after voltage is applied. If your reflow
profile (reflow temperature, number of reflows, etc.) deviates from the above conditions for mounting the 94SVPD series, please
consult with Vishay OS-CON.
Revision: 03-Aug-12
Document Number: 90022
393
For technical questions, contact: [email protected]
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
Contents
515D....................................... 395
511D....................................... 403
517D....................................... 408
678D....................................... 415
672D....................................... 420
Vishay
Sprague
510DX .................................... 427
TVA ATOM® ........................... 431
39D......................................... 435
53D......................................... 442
500D....................................... 445
516D....................................... 453
TE........................................... 459
601D....................................... 463
604D....................................... 471
30D......................................... 476
630D....................................... 480
600D....................................... 482
610D....................................... 488
515D
www.vishay.com
Vishay Sprague
Aluminum Capacitors
+ 85 °C, Miniature, Radial Lead
FEATURES
• High CV per case size
• Low cost
• Low profile ratings
• Material categorization:
for definitions of compliance please see
www.vishay.com/doc?99912
QUICK REFERENCE DATA
RIPPLE CURRENT MULTIPLIERS
DESCRIPTION
TEMPERATURE
VALUE
Nominal case size 
Ø D x L in mm
Operating temperature
Rated capacitance range, CR
0.157" x 0.276" [4.0 x 7.0]
to 0.709" x 1.575" [18.0 x 40.0]
AMBIENT TEMPERATURE
MULTIPLIERS
 + 70 °C
1.27
- 40 °C to + 85 °C
- 25 °C to + 85 °C for 315 WVDC
to 450 WVDC units
+ 85 °C
0.1 μF to 18 000 μF
WVDC
CAP.
(μF)
0 to 47
0.75
1
1.35
1.57
2.00
6.3 to 100
100 to 470
0.80
1
1.23
1.34
1.50
± 20 %
Tolerance on CR
Rated voltage range, UR
6.3 WVDC to 450 WVDC
Termination
1.0
FREQUENCY (Hz)
50 TO 100 TO 300 TO
1 kHz  10 kHz
60
120
400
1000 to 18 000 0.85
2 radial leads
160 to 450
Life validation test at 85 °C
2000 h: CAP ± 20 % from initial
measurement.
DF 2 x initial specified limit.
DCL  initial specified limit.
Shelf life at 85 °C
1000 h: CAP ± 20 % from initial
measurement.
DF 2 x initial specified limit.
DCL  initial specified limit.
DC leakage current
Rated voltage for 1 and 2 min for
6.3 WVDC to 100 WVDC units:
I < 0.03 CV or 4 μA
(whichever is greater).
I < 0.04 CV or 3 μA
(whichever is greater).
Rated voltage for 1 min for
160 WVDC to 450 WVDC units:
I < 0.1 CV + 40 μA and
CV  1000; I < 0.04 CV + 100 μA
and CV > 1000
0.47 to 220
0.80
1
1.10
1.13
1.15
1
1.25
1.40
1.60
LOW TEMPERATURE PERFORMANCE
MAXIMUM IMPEDANCE RATIO Z(T)/Z(+ 20 °C)
MAXIMUM AT 120 Hz
RATED VOLTAGE
(WVDC)
Z - 25 °C/Z + 20 °C
Z - 40 °C/Z + 20 °C
6.3
4.0
10.0
10.0
3.0
8.0
16.0
2.0
6.0
25.0
2.0
4.0
35.0 to 100.0
2.0
3.0
160.0 to 200.0
3.0
4.0
250.0
3.0
6.0
315.0 to 400.0
6.0
-
450.0
15.0
-
DIMENSIONS in inches [millimeters]
CASE
CODE
NOMINAL CASE SIZE
DxL
LEAD SPACING
S
NOMINAL LEAD DIAMETER
D
TYPICAL WEIGHT
(g)
HW
0.157 x 0.276 [4.0 x 7.0]
0.059 [1.5]
0.018 [0.45]
0.20
JW
0.197 x 0.276 [5.0 x 7.0]
0.079 [2.0]
0.018 [0.45]
0.30
AW
0.248 x 0.276 [6.3 x 7.0]
0.098 [2.5]
0.018 [0.45]
0.40
JA
0.197 x 0.433 [5.0 x 11.0]
0.079 [2.0]
0.020 [0.50]
0.44
AA
0.248 x 0.433 [6.3 x 11.0]
0.098 [2.5]
0.020 [0.50]
0.60
BB
0.315 x 0.453 [8.0 x 11.5]
0.138 [3.5]
0.024 [0.60]
0.95
Revision: 12-Jun-13
Document Number: 42052
395
For technical questions, contact: [email protected]
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
515D
www.vishay.com
Vishay Sprague
DIMENSIONS in inches [millimeters]
CASE
CODE
NOMINAL CASE SIZE
DxL
LEAD SPACING
S
NOMINAL LEAD DIAMETER
D
TYPICAL WEIGHT
(g)
CC
CD
CG
DG
DK
EK
EN
ER
FR
FV
0.394 x 0.492 [10.0 x 12.5]
0.394 x 0.630 [10.0 x 16.0]
0.394 x 0.787 [10.0 x 20.0]
0.492 x 0.787 [12.5 x 20.0]
0.492 x 0.984 [12.5 x 25.0]
0.630 x 0.984 [16.0 x 25.0]
0.630 x 1.240 [16.0 x 31.5]
0.630 x 1.398 [16.0 x 35.5]
0.709 x 1.398 [18.0 x 35.5]
0.709 x 1.575 [18.0 x 40.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.295 [7.5]
0.295 [7.5]
0.295 [7.5]
0.295 [7.5]
0.295 [7.5]
0.024 [0.60]
0.024 [0.60]
0.024 [0.60]
0.024 [0.60]
0.024 [0.60]
0.031 [0.80]
0.031 [0.80]
0.031 [0.80]
0.031 [0.80]
0.031 [0.80]
1.48
1.75
2.37
3.73
4.85
7.08
8.94
10.50
12.53
15.71
ELECTROLYTIC CAPACITOR WITH CUT OR FORMED LEADS in inches [millimeters]
0.177
[4.5]
Code S
Code F
X
0.177
[4.5]
0.197 ± 0.20
F (1) [5.0 ± 0.5]
D
Ø d (2)
Code S
0.033 ± 0.006
[0.85 ± 0.15]
Ø d (2)
0.197 ± 0.20
[5.0 ± 0.5]
Ø d (2)
Code S
S ± 0.20 [0.5]
D
F (1)
D
Ø d (2)
0.177
[4.5]
Code C
0.177
[4.5]
X
0.197 ± 0.20
F (1) [5.0 ± 0.5]
D
Code S
0.039 ± 0.008
[1.0 ± 0.2]
(10, 12.5, 16, 18)
(4, 5, 6.3, 8)
DIMENSIONS in inches [millimeters]
FORMING
METHOD
FORMED LEAD
CODE
Formed and cut
F
Cut
C
Snap-in
S
D
0.157 [4.0]
0.197 [5.0]
0.248 [6.3]
0.315 [8.0]
0.394 [10.0]
0.492 [12.5]
0.630 [16.0]
0.709 [18.0]
0.157 [4.0]
0.197 [5.0]
0.248 [6.3]
0.315 [8.0]
0.394 [10.0]
0.492 [12.5]
0.630 [16.0]
0.709 [18.0]
L.S.
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.295 [7.5]
0.295 [7.5]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.295 [7.5]
0.295 [7.5]
DIMENSIONS
P
0.059 [1.5]
0.079 [2.0]
0.098 [2.5]
0.138 [3.5]
0.059 [1.5]
0.079 [2.0]
0.098 [2.5]
0.138 [3.5]
-
e (3)
0.043 [1.1]
0.043 [1.1]
0.043 [1.1]
0.051 [1.3]
0.051 [1.3]
0.051 [1.3]
0.051 [1.3]
0.051 [1.3]
X (Max.)
0.059 [1.5]
0.059 [1.5]
0.098 [2.5]
0.098 [2.5]
0.059 [1.5]
0.059 [1.5]
0.059 [1.5]
0.059 [1.5]
-
Notes
• Coding of cut or formed lead to be added to the end of type number in 15th position (with position 14 coded “6”).
(1) Formed lead.
(2) Lead thickness Ø d depends on capacitor specification.
(3) Lead protrusion at bottom of tape.
Revision: 12-Jun-13
Document Number: 42052
396
For technical questions, contact: [email protected]
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
515D
www.vishay.com
Vishay Sprague
TAPED CAPACITORS FOR AUTOMATIC INSERTION SYSTEMS in inches [millimeters]
PACKAGING
SPECIFICATION
LEAD CODE
14th AND 15th
DIGITS OF PN
LEAD STYLE
8P
Formed lead (1)
Ammo pack
+
LEAD
SPACE
-
CAPACITOR SIZES AVAILABLE
LEADER
-
0.157 x 0.276 - 0.492 x 0.787 [4.0 x 7.0 - 12.5 x 20.0]
0.197 [5.0]
Case codes HW, JW, AW, JA, AA, BB, CC, CD, DG
Notes
• The ammo pack code is to be added at the end of part number in the 14th and 15th position as 8P. To specify formed, cut or snap-in leads
and for tape and ammo, both positions 14 and 15 of the type number must be filled in with the proper codes.
(1) Except 0.394 [10.0 mm] and 0.492 [12.5 mm] diameter have straight unformed leads.
TAPING SPECIFICATIONS in inches [millimeters]
P
Formed Lead Type
K
H
H0
F
W0
P0
W
D0
Ød
t
DIMENSIONS in inches [millimeters]
CASE SIZE
(Diameter x Length)
ITEM
FORMED LEAD TYPE
STRAIGHT LEAD TYPE
0.157 x 0.276 0.197 x 0.276 0.197 x 0.433 0.248 x 0.276 0.248 x 0.433 0.315 x 0.453 0.394 [10.0]
[4.0 x 7.0]
[5.0 x 7.0]
[5.0 x 11.0]
[6.3 x 7.0]
[6.3 x 11.0]
[8.0 x 11.5]
(Dia.)
0.492 [12.5]
(Dia.)
Ø d - Lead-wire diameter
0.018 [0.45]
0.018 [0.45]
0.020 [0.5]
0.018 [0.45]
0.020 [0.5]
0.024 [0.6]
0.024 [0.6]
0.024 [0.6]
P - Pitch of component
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.591 [15.0]
P0 - Feed hole pitch
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.591 [15.0]
F - Lead-to-lead distance
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
K - Clinch height
0.059 [1.5]
0.059 [1.5]
0.098 [2.5]
0.059 [1.5]
0.098 [2.5]
0.157 [4.0]
-
-
H - Height of component
0.689 [17.5]
0.689 [17.5]
0.728 [18.5]
0.689 [17.5]
0.728 [18.5]
0.787 [20.0]
0.728 [18.5]
0.630 [16.0]
H0 - Lead-wire clinch height
0.630 [16.0]
0.630 [16.0]
0.630 [16.0]
0.630 [16.0]
0.630 [16.0]
0.630 [16.0]
-
-
W - Tape width
0.709 [18.0]
0.709 [18.0]
0.709 [18.0]
0.709 [18.0]
0.709 [18.0]
0.709 [18.0]
0.709 [18.0]
0.709 [18.0]
W0 - Hold down tape width
0.512 [13.0]
0.512 [13.0]
0.512 [13.0]
0.512 [13.0]
0.512 [13.0]
0.512 [13.0]
0.512 [13.0]
0.512 [13.0]
D0 - Feed hole diameter
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
t - Total tape thickness
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
Revision: 12-Jun-13
Document Number: 42052
397
For technical questions, contact: [email protected]
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
515D
www.vishay.com
Vishay Sprague
ORDERING EXAMPLE
Electrolytic capacitor 515D series:
515D 107 M 6R3 JA 6 A E3
DESCRIPTION
CODE
515D
107
M
6R3
JA
6
A
E3
EXPLANATION
Product type
Capacitance value (100 μF)
Tolerance (M = ± 20 %)
Voltage rating at 85 °C (6R3 = 6.3 V)
Can size (see Dimensions table)
Packaging (bulk)
Lead style (uncut)
RoHS compliant indicator
PACKING AND LEAD STYLES
6A
6C
6F
6S
8P
Bulk, uncut leads
Bulk, cut leads
Bulk; formed and cut leads
Bulk, snap-in leads
Ammopack (case codes HW, JW, AW, JA, AA, BB, CC, CD, CG, DG only)
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
22.0
33.0
47.0
100.0
220.0
330.0
470.0
1000.0
2200.0
3300.0
4700.0
6800.0
10 000.0
15 000.0
18 000.0
22.0
33.0
47.0
100.0
220.0
330.0
470.0
1000.0
2200.0
3300.0
4700.0
6800.0
10 000.0
15 000.0
10.0
22.0
33.0
47.0
Revision: 12-Jun-13
PART NUMBER
NOMINAL CASE SIZE
DxL
6.3 WVDC AT + 85 °C, SURGE = 8 V
515D226M6R3JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D336M6R3JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D476M6R3JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D107M6R3JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D227M6R3AA6AE3
0.248 x 0.433 [6.3 x 11.0]
515D337M6R3AA6AE3
0.248 x 0.433 [6.3 x 11.0]
515D477M6R3BB6AE3
0.315 x 0.453 [8.0 x 11.5]
515D108M6R3CC6AE3
0.394 x 0.492 [10.0 x 12.5]
515D228M6R3DG6AE3
0.492 x 0.787 [12.5 x 20.0]
515D338M6R3DG6AE3
0.492 x 0.787 [12.5 x 20.0]
515D478M6R3EK6AE3
0.630 x 0.984 [16.0 x 25.0]
515D688M6R3EK6AE3
0.630 x 0.984 [16.0 x 25.0]
515D109M6R3EN6AE3
0.630 x 1.240 [16.0 x 31.5]
515D159M6R3FR6AE3
0.709 x 1.398 [18.0 x 35.5]
515D189M6R3FV6AE3
0.709 x 1.575 [18.0 x 40.0]
10 WVDC AT + 85 °C, SURGE = 13 V
515D226M010JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D336M010JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D476M010JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D107M010JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D227M010AA6AE3
0.248 x 0.433 [6.3 x 11.0]
515D337M010BB6AE3
0.315 x 0.453 [8.0 x 11.5]
515D477M010BB6AE3
0.315 x 0.453 [8.0 x 11.5]
515D108M010CD6AE3
0.394 x 0.630 [10.0 x 16.0]
515D228M010DG6AE3
0.492 x 0.787 [12.5 x 20.0]
515D338M010DK6AE3
0.492 x 0.984 [12.5 x 25.0]
515D478M010EK6AE3
0.630 x 0.984 [16.0 x 25.0]
515D688M010EN6AE3
0.630 x 1.240 [16.0 x 31.5]
515D109M010FR6AE3
0.709 x 1.398 [18.0 x 35.5]
515D159M010FV6AE3
0.709 x 1.575 [18.0 x 40.0]
16 WVDC AT + 85 °C, SURGE = 20 V
515D106M016JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D226M016JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D336M016JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D476M016JA6AE3
0.197 x 0.433 [5.0 x 11.0]
MAX. RIPPLE
AT + 85 °C
120 Hz (mA)
MAX. DF
AT + 20 °C
120 Hz
34.0
42.0
50.0
77.0
215.0
265.0
360.0
570.0
1050.0
1250.0
1700.0
1900.0
2250.0
2680.0
2750.0
0.24
0.24
0.24
0.24
0.24
0.24
0.24
0.24
0.24
0.24
0.24
0.24
0.24
0.24
0.24
38.0
47.0
59.0
145.0
230.0
330.0
390.0
630.0
1100.0
1400.0
1800.0
2150.0
2500.0
2720.0
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
28.0
44.0
57.0
168.0
0.16
0.16
0.16
0.16
Document Number: 42052
398
For technical questions, contact: [email protected]
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
515D
www.vishay.com
Vishay Sprague
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER
NOMINAL CASE SIZE
DxL
MAX. RIPPLE
AT + 85 °C
120 Hz (mA)
MAX. DF
AT + 20 °C
120 Hz
16 WVDC AT + 85 °C, SURGE = 20 V
100.0
515D107M016AA6AE3
0.248 x 0.433 [6.3 x 11.0]
175.0
0.16
220.0
515D227M016BB6AE3
0.315 x 0.453 [8.0 x 11.5]
300.0
0.16
330.0
515D337M016BB6AE3
0.315 x 0.453 [8.0 x 11.5]
360.0
0.16
470.0
515D477M016CC6AE3
0.394 x 0.492 [10.0 x 12.5]
470.0
0.16
1000.0
515D108M016CG6AE3
0.394 x 0.787 [10.0 x 20.0]
790.0
0.16
2200.0
515D228M016DK6AE3
0.492 x 0.984 [12.5 x 25.0]
1350.0
0.16
3300.0
515D338M016EK6AE3
0.630 x 0.984 [16.0 x 25.0]
1700.0
0.16
4700.0
515D478M016EN6AE3
0.630 x 1.240 [16.0 x 31.5]
2100.0
0.16
6800.0
515D688M016FR6AE3
0.709 x 1.398 [18.0 x 35.5]
2500.0
0.16
10 000.0
515D109M016FV6AE3
0.709 x 1.575 [18.0 x 40.0]
2640.0
0.16
25 WVDC AT + 85 °C, SURGE = 32 V
4.7
515D475M025JA6AE3
0.197 x 0.433 [5.0 x 11.0]
30.0
0.14
10.0
515D106M025JA6AE3
0.197 x 0.433 [5.0 x 11.0]
33.0
0.14
22.0
515D226M025JA6AE3
0.197 x 0.433 [5.0 x 11.0]
51.0
0.14
33.0
515D336M025JA6AE3
0.197 x 0.433 [5.0 x 11.0]
63.0
0.14
47.0
515D476M025JA6AE3
0.197 x 0.433 [5.0 x 11.0]
115.0
0.14
100.0
515D107M025AA6AE3
0.248 x 0.433 [6.3 x 11.0]
185.0
0.14
220.0
515D227M025BB6AE3
0.315 x 0.453 [8.0 x 11.5]
320.0
0.14
330.0
515D337M025CC6AE3
0.394 x 0.492 [10.0 x 12.5]
420.0
0.14
0.14
470.0
515D477M025CD6AE3
0.394 x 0.630 [10.0 x 16.0]
540.0
1000.0
515D108M025DG6AE3
0.492 x 0.787 [12.5 x 20.0]
950.0
0.14
2200.0
515D228M025EK6AE3
0.630 x 0.984 [16.0 x 25.0]
1550.0
0.14
3300.0
515D338M025EN6AE3
0.630 x 1.240 [16.0 x 31.5]
1950.0
0.14
4700.0
515D478M025FR6AE3
0.709 x 1.398 [18.0 x 35.5]
2360.0
0.14
4.7
515D475M035JA6AE3
0.197 x 0.433 [5.0 x 11.0]
24.0
0.12
10.0
515D106M035JA6AE3
0.197 x 0.433 [5.0 x 11.0]
36.0
0.12
22.0
515D226M035JA6AE3
0.197 x 0.433 [5.0 x 11.0]
57.0
0.12
33.0
515D336M035JA6AE3
0.197 x 0.433 [5.0 x 11.0]
105.0
0.12
0.12
35 WVDC AT + 85 °C, SURGE = 44 V
47.0
515D476M035AA6AE3
0.248 x 0.433 [6.3 x 11.0]
140.0
100.0
515D107M035BB6AE3
0.315 x 0.453 [8.0 x 11.5]
230.0
0.12
220.0
515D227M035CC6AE3
0.394 x 0.492 [10.0 x 12.5]
370.0
0.12
330.0
515D337M035CD6AE3
0.394 x 0.630 [10.0 x 16.0]
490.0
0.12
470.0
515D477M035CG6AE3
0.394 x 0.787 [10.0 x 20.0]
640.0
0.12
1000.0
515D108M035DK6AE3
0.492 x 0.984 [12.5 x 25.0]
1100.0
0.12
2200.0
515D228M035EN6AE3
0.630 x 1.240 [16.0 x 31.5]
1850.0
0.12
3300.0
515D338M035FR6AE3
0.709 x 1.382 [18.0 x 35.5]
2220.0
0.12
4700.0
515D478M035FV6AE3
0.709 x 1.575 [18.0 x 40.0]
2490.0
0.12
50 WVDC AT + 85 °C, SURGE = 63 V
0.10
515D104M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
1.0
0.10
0.22
515D224M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
2.3
0.10
0.33
515D334M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
3.5
0.10
0.47
515D474M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
5.0
0.10
1.0
515D105M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
10.0
0.10
2.2
515D225M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
19.0
0.10
3.3
515D335M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
24.0
0.10
4.7
515D475M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
29.0
0.10
Revision: 12-Jun-13
Document Number: 42052
399
For technical questions, contact: [email protected]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
515D
www.vishay.com
Vishay Sprague
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
10.0
22.0
33.0
47.0
100.0
220.0
330.0
470.0
1000.0
2200.0
4.7
10.0
22.0
33.0
47.0
100.0
220.0
330.0
470.0
1000.0
2200.0
0.10
0.22
0.33
0.47
1.0
2.2
3.3
4.7
10.0
22.0
33.0
47.0
100.0
220.0
330.0
470.0
1000.0
0.47
1.0
2.2
3.3
4.7
10.0
22.0
33.0
47.0
100.0
220.0
Revision: 12-Jun-13
PART NUMBER
NOMINAL CASE SIZE
DxL
50 WVDC AT + 85 °C, SURGE = 63 V
0.197 x 0.433 [5.0 x 11.0]
0.197 x 0.433 [5.0 x 11.0]
0.248 x 0.433 [6.3 x 11.0]
0.248 x 0.433 [6.3 x 11.0]
0.315 x 0.453 [8.0 x 11.5]
0.394 x 0.630 [10.0 x 16.0]
0.394 x 0.787 [10.0 x 20.0]
0.492 x 0.787 [12.5 x 20.0]
0.630 x 0.984 [16.0 x 25.0]
0.709 x 1.398 [18.0 x 35.5]
63 WVDC AT + 85 °C, SURGE = 79 V
515D475M063JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D106M063JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D226M063AA6AE3
0.248 x 0.433 [6.3 x 11.0]
515D336M063AA6AE3
0.248 x 0.433 [6.3 x 11.0]
515D476M063BB6AE3
0.315 x 0.453 [8.0 x 11.5]
515D107M063CC6AE3
0.394 x 0.492 [10.0 x 12.5]
515D227M063CG6AE3
0.394 x 0.787 [10.0 x 20.0]
515D337M063DG6AE3
0.492 x 0.787 [12.5 x 20.0]
515D477M063DK6AE3
0.492 x 0.984 [12.5 x 25.0]
515D108M063EN6AE3
0.630 x 1.240 [16.0 x 31.5]
515D228M063FV6AE3
0.709 x 1.575 [18.0 x 40.0]
100 WVDC AT + 85 °C, SURGE = 125 V
515D104M100JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D224M100JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D334M100JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D474M100JA6AE3
0.197 x .0433 [5.0 x 11.0]
515D105M100JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D225M100JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D335M100JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D475M100JA6AE3
0.197 x 0.433 [5.0 x 11.0]
515D106M100AA6AE3
0.248 x 0.433 [6.3 x 11.0]
515D226M100BB6AE3
0.315 x 0.453 [8.0 x 11.5]
515D336M100CC6AE3
0.394 x 0.492 [10.0 x 12.5]
515D476M100CD6AE3
0.394 x 0.630 [10.0 x 16.0]
515D107M100DG6AE3
0.492 x 0.787 [12.5 x 20.0]
515D227M100EK6AE3
0.630 x 0.984 [16.0 x 25.0]
515D337M100EK6AE3
0.630 x 0.984 [16.0 x 25.0]
515D477M100EN6AE3
0.630 x 1.240 [16.0 x 31.5]
515D108M100FV6AE3
0.709 x 1.575 [18.0 x 40.0]
160 WVDC AT + 85 °C, SURGE = 200 V
515D474M160AA6AE3
0.248 x 0.433 [6.3 x 11.0]
515D105M160AA6AE3
0.248 x 0.433 [6.3 x 11.0]
515D225M160AA6AE3
0.248 x 0.433 [6.3 x 11.0]
515D335M160BB6AE3
0.315 x 0.453 [8.0 x 11.5]
515D475M160BB6AE3
0.315 x 0.453 [8.0 x 11.5]
515D106M160CC6AE3
0.394 x 0.492 [10.0 x 12.5]
515D226M160CG6AE3
0.394 x 0.787 [10.0 x 20.0]
515D336M160DG6AE3
0.492 x 0.787 [12.5 x 20.0]
515D476M160DK6AE3
0.492 x 0.984 [12.5 x 25.0]
515D107M160EK6AE3
0.630 x 0.984 [16.0 x 25.0]
515D227M160FR6AE3
0.709 x 1.398 [18.0 x 35.5]
515D106M050JA6AE3
515D226M050JA6AE3
515D336M050AA6AE3
515D476M050AA6AE3
515D107M050BB6AE3
515D227M050CD6AE3
515D337M050CG6AE3
515D477M050DG6AE3
515D108M050EK6AE3
515D228M050FR6AE3
MAX. RIPPLE
AT + 85 °C
120 Hz (mA)
MAX. DF
AT + 20 °C
120 Hz
44.0
95.0
125.0
150.0
250.0
440.0
580.0
760.0
1350.0
2090.0
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
0.10
45.0
70.0
115.0
140.0
190.0
300.0
490.0
680.0
880.0
1550.0
2200.0
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
2.1
4.7
7.0
10.0
21.0
30.0
40.0
45.0
75.0
130.0
170.0
230.0
400.0
710.0
860.0
1100.0
1690.0
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
0.08
12.0
17.0
26.0
35.0
40.0
65.0
110.0
150.0
180.0
300.0
510.0
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
Document Number: 42052
400
For technical questions, contact: [email protected]
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
515D
www.vishay.com
Vishay Sprague
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
NOMINAL CASE SIZE
DxL
PART NUMBER
MAX. RIPPLE
AT + 85 °C
120 Hz (mA)
MAX. DF
AT + 20 °C
120 Hz
12.0
17.0
26.0
35.0
45.0
70.0
110.0
160.0
180.0
330.0
520.0
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
12.0
17.0
30.0
35.0
45.0
70.0
160.0
210.0
340.0
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
17.0
30.0
35.0
45.0
70.0
120.0
150.0
190.0
340.0
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
0.20
18.0
28.0
35.0
40.0
70.0
110.0
140.0
220.0
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
18.0
28.0
35.0
45.0
70.0
110.0
140.0
220.0
0.25
0.25
0.25
0.25
0.25
0.25
0.25
0.25
200 WVDC AT + 85 °C, SURGE = 250 V
0.47
1.0
2.2
3.3
4.7
10.0
22.0
33.0
47.0
100.0
220.0
515D474M200AA6AE3
515D105M200AA6AE3
515D225M200AA6AE3
515D335M200BB6AE3
515D475M200CC6AE3
515D106M200CD6AE3
515D226M200CG6AE3
515D336M200DK6AE3
515D476M200DK6AE3
515D107M200EN6AE3
515D227M200FV6AE3
0.47
1.0
2.2
3.3
4.7
10.0
33.0
47.0
100.0
515D474M250AA6AE3
515D105M250AA6AE3
515D225M250BB6AE3
515D335M250CC6AE3
515D475M250CC6AE3
515D106M250CG6AE3
515D336M250DK6AE3
515D476M250EK6AE3
515D107M250FR6AE3
1.0
2.2
3.3
4.7
10.0
22.0
33.0
47.0
100.0
515D105M315AA6AE3
515D225M315BB6AE3
515D335M315CC6AE3
515D475M315CD6AE3
515D106M315CG6AE3
515D226M315DK6AE3
515D336M315EK6AE3
515D476M315EN6AE3
515D107M315FV6AE3
1.0
2.2
3.3
4.7
10.0
22.0
33.0
47.0
515D105M350BB6AE3
515D225M350CC6AE3
515D335M350CD6AE3
515D475M350CD6AE3
515D106M350DG6AE3
515D226M350DK6AE3
515D336M350EN6AE3
515D476M350FR6AE3
1.0
2.2
3.3
4.7
10.0
22.0
33.0
47.0
515D105M400BB6AE3
515D225M400CC6AE3
515D335M400CD6AE3
515D475M400CD6AE3
515D106M400DG6AE3
515D226M400DK6AE3
515D336M400EN6AE3
515D476M400FR6AE3
0.248 x 0.433 [6.3 x 11.0]
0.248 x 0.433 [6.3 x 11.0]
0.248 x 0.433 [6.3 x 11.0]
0.315 x 0.453 [8.0 x 11.5]
0.394 x 0.492 [10.0 x 12.5]
0.394 x 0.630 [10.0 x 16.0]
0.394 x 0.787 [10.0 x 20.0]
0.492 x 0.984 [12.5 x 25.0]
0.492 x 0.984 [12.5 x 25.0]
0.630 x 1.240 [16.0 x 31.5]
0.709 x 1.575 [18.0 x 40.0]
250 WVDC AT + 85 °C, SURGE = 300 V
0.248 x 0.433 [6.3 x 11.0]
0.248 x 0.433 [6.3 x 11.0]
0.315 x 0.453 [8.0 x 11.5]
0.394 x 0.492 [10.0 x 12.5]
0.394 x 0.492 [10.0 x 12.5]
0.394 x 0.787 [10.0 x 20.0]
0.492 x 0.984 [12.5 x 25.0]
0.630 x 1.240 [16.0 x 31.5]
0.709 x 1.575 [18.0 x 40.0]
315 WVDC AT + 85 °C, SURGE = 365 V
0.248 x 0.433 [6.3 x 11.0]
0.315 x 0.453 [8.0 x 11.5]
0.394 x 0.492 [10.0 x 12.5]
0.394 x 0.630 [10.0 x 16.0]
0.394 x 0.787 [10.0 x 20.0]
0.492 x 0.984 [12.5 x 25.0]
0.630 x 0.984 [16.0 x 25.0]
0.630 x 1.240 [16.0 x 31.5]
0.709 x 1.575 [18.0 x 40.0]
350 WVDC AT + 85 °C, SURGE = 400 V
0.315 x .453 [8.0 x 11.5]
0.394 x 0.492 [10.0 x 12.5]
0.394 x 0.630 [10.0 x 16.0]
0.394 x 0.630 [10.0 x 16.0]
0.492 x 0.787 [12.5 x 20.0]
0.492 x 0.984 [12.5 x 25.0]
0.630 x 1.240 [16.0 x 31.5]
0.709 x 1.398 [18.0 x 35.5]
400 WVDC AT + 85 °C, SURGE = 450 V
Revision: 12-Jun-13
0.315 x 0.453 [8.0 x 11.5]
0.394 x 0.492 [10.0 x 12.5]
0.394 x 0.630 [10.0 x 16.0]
0.394 x 0.787 [10.0 x 20.0]
0.492 x 0.787 [12.5 x 20.0]
0.630 x 0.984 [16.0 x 25.0]
0.630 x 1.240 [16.0 x 31.5]
0.709 x 1.398 [18.0 x 35.5]
Document Number: 42052
401
For technical questions, contact: [email protected]
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
515D
www.vishay.com
Vishay Sprague
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
NOMINAL CASE SIZE
DxL
PART NUMBER
MAX. RIPPLE
AT + 85 °C
120 Hz (mA)
MAX. DF
AT + 20 °C
120 Hz
450 WVDC AT + 85 °C, SURGE = 500 V
1.0
515D105M450CC6AE3
0.394 x 0.492 [10.0 x 12.5]
19.0
0.25
2.2
515D225M450CD6AE3
0.394 x 0.630 [10.0 x 16.0]
29.0
0.25
4.7
515D475M450DG6AE3
0.492 x 0.787 [12.5 x 20.0]
50.0
0.25
10.0
515D106M450EK6AE3
0.492 x 0.984 [12.5 x 25.0]
75.0
0.25
22.0
515D226M450EN6AE3
0.630 x 1.240 [16.0 x 31.5]
110.0
0.25
33.0
515D336M450FR6AE3
0.709 x 1.398 [18.0 x 35.5]
170.0
0.25
NOMINAL CASE SIZE
DxL
MAX. RIPPLE
AT + 85 °C
120 Hz (mA)
MAX. DF
AT + 20 °C
120 Hz
LOW PROFILE RATINGS in inches [millimeters]
CAPACITANCE
(μF)
PART NUMBER
6.3 WVDC AT + 85 °C, SURGE = 8 V
22.0
515D226M6R3HW6AE3
0.157 x 0.276 [4.0 x 7.0]
34.0
0.24
33.0
515D336M6R3JW6AE3
0.197 x 0.276 [5.0 x 7.0]
42.0
0.24
47.0
515D476M6R3JW6AE3
0.197 x 0.276 [5.0 x 7.0]
50.0
0.24
100.0
515D107M6R3AW6AE3
0.248 x 0.276 [6.3 x 7.0]
77.0
0.24
22.0
515D226M010JW6AE3
0.197 x 0.276 [5.0 x 7.0]
38.0
0.20
33.0
515D336M010JW6AE3
0.197 x 0.276 [5.0 x 7.0]
47.0
0.20
47.0
515D476M010AW6AE3
0.248 x 0.276 [6.3 x 7.0]
59.0
0.20
10.0
515D106M016HW6AE3
0.157 x 0.276 [4.0 x 7.0]
28.0
0.16
22.0
515D226M016JW6AE3
0.197 x 0.276 [5.0 x 7.0]
44.0
0.16
33.0
515D336M016AW6AE3
0.248 x 0.276 [6.3 x 7.0]
57.0
0.16
47.0
515D476M016AW6AE3
0.248 x 0.276 [6.3 x 7.0]
68.0
0.16
10 WVDC AT + 85 °C, SURGE = 13 V
16 WVDC AT + 85 °C, SURGE = 20 V
25 WVDC AT + 85 °C, SURGE = 32 V
10.0
515D106M025JW6AE3
0.197 x 0.276 [5.0 x 7.0]
33.0
0.14
22.0
515D226M025AW6AE3
0.248 x 0.276 [6.3 x 7.0]
51.0
0.14
33.0
515D336M025AW6AE3
0.248 x 0.276 [6.3 x 7.0]
63.0
0.14
35 WVDC AT + 85 °C, SURGE = 44 V
4.7
515D475M035HW6AE3
0.157 x 0.276 [4.0 x 7.0]
24.0
0.12
10.0
515D106M035JW6AE3
0.197 x 0.276 [5.0 x 7.0]
36.0
0.12
22.0
515D226M035AW6AE3
0.248 x 0.276 [6.3 x 7.0]
57.0
0.12
50 WVDC AT + 85 °C, SURGE = 63 V
0.10
515D104M050JW6AE3
0.157 x 0.276 [4.0 x 7.0]
1.0
0.10
0.22
515D224M050HW6AE3
0.157 x 0.276 [4.0 x 7.0]
2.3
0.10
0.33
515D334M050HW6AE3
0.157 x 0.276 [4.0 x 7.0]
3.5
0.10
0.47
515D474M050HW6AE3
0.157 x 0.276 [4.0 x 7.0]
5.0
0.10
1.0
515D105M050HW6AE3
0.157 x 0.276 [4.0 x 7.0]
10.0
0.10
2.2
515D225M050HW6AE3
0.157 x 0.276 [4.0 x 7.0]
19.0
0.10
3.3
515D335M050HW6AE3
0.157 x 0.276 [4.0 x 7.0]
24.0
0.10
4.7
515D475M050JW6AE3
0.197 x 0.276 [5.0 x 7.0]
29.0
0.10
10.0
515D106M050AW6AE3
0.248 x 0.276 [6.3 x 7.0]
44.0
0.10
Revision: 12-Jun-13
Document Number: 42052
402
For technical questions, contact: [email protected]
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
Aluminum Capacitors
General Purpose, Miniature, Radial Lead
FEATURES
• +105 °C
• Suitable for long life applications
Available
• Material categorization: For definitions of
compliance please see www.vishay.com/doc?99912
QUICK REFERENCE DATA
DESCRIPTION
Nominal case size
Ø D x L in mm
Operating temperature
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Termination
Life validation test at 105 °C
Shelf life at 105 °C
DC leakage current
(after 5 min charge)
RIPPLE CURRENT MULTIPLIERS
VALUE
0.236" x 0.433" [6.0 x 11.0]
to 0.709" x 1.417" [18.0 x 36.0]
-40 °C to +105 °C
1 μF to 10 000 μF
± 20 %
6.3 WVDC to 250 WVDC
2 or 3 radial leads
1000 h
(diameter  0.315" [8.0]):
2000 h
(diameter > 0.315" [8.0]):
CAP  15 %
(6.3 WVDC to 16 WVDC),
 10 % (25 WVDC to 250 WVDC)
from initial measurement.
ESR  1.2 x initial specified limit.
DCL  initial specified limit
500 h: CAP  10 % from
initial measurement.
ESR 1.2 x initial specified limit.
DCL  2 x initial specified limit.
I = 0.005 CV (6.3 VDC to 63 VDC)
I = 0.01 CV (100 VDC to 250 VDC)
I in μA, C in μF, V in Volts
TEMPERATURE
AMBIENT
MULTIPLIERS
TEMPERATURE
+105 °C
0.4
+95 °C
0.7
+85 °C
1.0
+75 °C
1.2
 +65 °C
1.4
FREQUENCY (Hz)
WVDC
50 TO 60 100 TO 120 300 TO 400 1K TO 100K
6.3 to 25
0.85
1.00
1.05
1.1
26 to 250
0.80
1.00
1.30
1.4
LEAD LENGTH FOR D TERMINATION
CASE CODE
D
L1 (-)
0.591 [15.0]
L2 (+)
0.787 [20.0]
DIMENSIONS in inches [millimeters]
NOMINAL
CASE
CODE
D
L
AA
BB
CC
CD
CG
DG
DK
EK
EN
ER
FR
0.236 [6.0]
0.315 [8.0]
0.394 [10.0]
0.394 [10.0]
0.394 [10.0]
0.492 [12.5]
0.492 [12.5]
0.630 [16.0]
0.630 [16.0]
0.630 [16.0]
0.709 [18.0]
0.433 [11.0]
0.472 [12.0]
0.512 [13.0]
0.630 [16.0]
0.787 [20.0]
0.787 [20.0]
0.984 [25.0]
0.984 [25.0]
1.260 [32.0]
1.417 [36.0]
1.417 [36.0]
Revision: 07-Nov-13
STYLES 2 AND 4
D
L
(max.)
(max.)
0.256 [6.5] 0.472 [12.0]
0.335 [8.5] 0.512 [13.0]
0.413 [10.5] 0.563 [14.3]
0.413 [10.5] 0.669 [17.0]
0.413 [10.5] 0.846 [21.5]
0.512 [13.0] 0.846 [21.5]
0.512 [13.0] 1.043 [26.5]
0.650 [16.5] 1.031 [26.2]
0.650 [16.5] 1.319 [33.5]
0.650 [16.5] 1.476 [37.5]
0.728 [18.5] 1.476 [37.5]
STYLES 3 AND 5
D
L
(max.)
(max.)
0.256 [6.5] 0.512 [13.0]
0.335 [8.5] 0.551 [14.0]
0.413 [10.5] 0.630 [16.0]
0.413 [10.5] 0.740 [18.8]
0.413 [10.5] 0.906 [23.0]
0.512 [13.0] 0.906 [23.0]
0.512 [13.0] 1.142 [29.0]
0.650 [16.5] 1.098 [27.9]
0.650 [16.5] 1.417 [36.0]
0.650 [16.5] 1.575 [40.0]
0.728 [18.5] 1.575 [40.0]
LEAD SPACING
S
T
± 0.024 [0.60] ± 0.02 [0.50]
0.098 [2.5]
n/a
0.138 [3.5]
n/a
0.197 [5.0]
n/a
0.197 [5.0]
n/a
0.197 [5.0]
n/a
0.197 [5.0]
0.098 [2.5]
0.197 [5.0]
0.098 [2.5]
0.295 [7.5]
0.150 [3.8]
0.295 [7.5]
0.150 [3.8]
0.295 [7.5]
0.150 [3.8]
0.295 [7.5]
0.150 [3.8]
LEAD DIAMETER
AWG
NOMINAL
NO.
0.025 [0.63]
22
0.025 [0.63]
22
0.025 [0.63]
22
0.025 [0.63]
22
0.025 [0.63]
22
0.032 [0.81]
20
0.032 [0.81]
20
0.032 [0.81]
20
0.032 [0.81]
20
0.032 [0.81]
20
0.032 [0.81]
20
Document Number: 42051
403
For technical questions, contact: [email protected]
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
TAPE AND REEL, SPECIFICATIONS TO EIA-468 in inches [millimeters]
Formed Leads
P
K
H
H0
F
W0 W
L1
P0
D0
d
DIMENSIONS in inches [millimeters]
CASE SIZE
F LEAD SPACING
STD. QTY/REEL
0.236 x 0.433 [6.0 x 11.0]
0.197 [5.0]
800
0.315 x 0.472 [8.0 x 12.0]
0.197 [5.0]
700
Unformed Leads
P
H
F
W0 W
L1
P0
D0
d
f
DIMENSIONS in inches [millimeters]
CASE SIZE
F LEAD SPACING
STD. QTY/REEL
0.236 x 0.433 [6.0 x 11.0]
0.098 (1) [2.5]
800
0.315 x 0.472 [8.0 x 12.0]
0.140 (1) [3.5]
700
0.394 x 0.512 [10.0 x 13.0]
0.197 [5.0]
500
0.394 x 0.630 [10.0 x 16.0]
0.197 [5.0]
500
0.394 x 0.787 [10.0 x 20.0]
0.197 [5.0]
500
Note
(1) Available as special order
Revision: 07-Nov-13
Document Number: 42051
404
For technical questions, contact: [email protected]
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
DIMENSIONS in inches [millimeters]
ITEM
d - Lead-wire diameter
P - Pitch of component
P0 - Feed hole pitch
F - Lead-to-lead distance
K - Clinch height
H - Height of component from tape center
H0 - Lead-wire clinch height
W - Tape width
W0 - Hold down tape width
D0 - Feed hole diameter
t - Total tape thickness
L1 - 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]
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]
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 (m)
MAX. RIPPLE
AT +85 °C (A)
MAX.
IMPEDANCE
AT +25 °C (m)
120 Hz 20 kHz TO 40 kHz 120 Hz 20 kHz TO 40 kHz
100 Hz
6.3 WVDC AT +105 °C, SURGE = 8 V
150.0
511D157M6R3AA4D 0.236 x 0.433 [6.0 x 11.0]
3.130
2.720
0.123
0.132
2.800
1200.0
511D128M6R3CG4D 0.394 x 0.787 [10.0 x 20.0] 0.420
0.270
0.590
0.741
0.286
4700.0
511D478M6R3EK4D 0.630 x 0.984 [16.0 x 25.0] 0.121
0.075
1.580
2.010
0.090
10 000.0
511D109M6R3FR4D 0.630 x 1.417 [16.0 x 36.0] 0.068
0.050
2.640
3.070
0.061
100.0 (1)
511D107M010AA4D 0.236 x 0.433 [6.0 x 11.0]
4.073
2.800
0.108
0.131
2.900
220.0 (1)
511D227M010BB4D 0.315 x 0.472 [8.0 x 12.0]
1.855
1.150
0.198
0.252
1.300
1000.0
511D108M010CG4D 0.394 x 0.787 [10.0 x 20.0] 0.407
0.290
0.603
0.715
0.290
3300.0
511D338M010EK4D 0.630 x 0.984 [16.0 x 25.0] 0.166
0.086
1.350
1.880
0.094
4700.0
511D478M010EN4D 0.630 x 1.260 [16.0 x 32.0] 0.122
0.060
1.740
2.480
0.067
10 WVDC AT +105 °C, SURGE = 13 V
Note
(1) These values are normally stocked. See Original Ratings for more values that are stocked.
Revision: 07-Nov-13
Document Number: 42051
405
For technical questions, contact: [email protected]
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
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER
150.0
470.0 (1)
1500.0
2200.0
3300.0
511D157M016BB4D
511D477M016CD4D
511D158M016DK4D
511D228M016EK4D
511D338M016EN4D
120.0
220.0
330.0
470.0
1500.0
2200.0
3300.0
511D127M020BB4D
511D227M020CC4D
511D337M020CD4D
511D477M020CG4D
511D158M020EK4D
511D228M020EN4D
511D338M020FR4D
47.0 (1)
100.0
1200.0
2200.0
511D476M025AA4D
511D107M025BB4D
511D128M025EK4D
511D228M025ER4D
120.0
330.0
1000.0
1500.0
2200.0
511D127M035CC4D
511D337M035CG4D
511D108M035EK4D
511D158M035EN4D
511D228M035FR4D
100.0
220.0
330.0
470.0
1000.0
511D107M040CC4D
511D227M040CG4D
511D337M040DG4D
511D477M040DK4D
511D108M040EN4D
47.0
120.0
270.0
1000.0
1500.0
511D476M050BB4D
511D127M050CD4D
511D277M050DG4D
511D108M050ER4D
511D158M050FR4D
47.0
150.0
470.0
1200.0
511D476M063CC4D
511D157M063CG4D
511D477M063EK4D
511D128M063FR4D
33.0
100.0
150.0
220.0
470.0
511D336M075CC4D
511D107M075CG4D
511D157M075DG4D
511D227M075DK4D
511D477M075EN4D
MAX.
IMPEDANCE
AT +25 °C (m)
120 Hz 20 kHz TO 40 kHz 120 Hz 20 kHz TO 40 kHz
100 Hz
16 WVDC AT +105 °C, SURGE = 20 V
0.315 x 0.472 [8.0 x 12.0] 2.433
1.250
0.173
0.241
1.250
0.394 x 0.630 [10.0 x 16.0] 0.748
0.442
0.419
0.522
0.442
0.492 x 0.984 [12.5 x 25.0] 0.243
0.140
0.971
1.270
0.140
0.630 x 0.984 [16.0 x 25.0] 0.176
0.090
1.310
1.840
0.098
0.630 x 1.260 [16.0 x 32.0] 0.147
0.062
1.580
2.440
0.067
20 WVDC AT +105 °C, SURGE = 25 V
0.315 x 0.472 [8.0 x 12.0] 2.650
1.350
0.166
0.232
1.350
0.394 x 0.512 [10.0 x 13.0] 1.472
0.950
0.266
0.331
0.900
0.394 x 0.630 [10.0 x 16.0] 0.981
0.550
0.350
0.468
0.500
0.394 x 0.787 [10.0 x 20.0] 0.679
0.300
0.467
0.703
0.305
0.630 x 0.984 [16.0 x 25.0] 0.243
0.110
1.120
1.660
0.100
0.630 x 1.260 [16.0 x 32.0] 0.163
0.080
1.510
2.150
0.080
0.630 x 1.417 [16.0 x 36.0] 0.128
0.060
1.920
2.810
0.064
25 WVDC AT +105 °C, SURGE = 32 V
0.236 x 0.433 [6.0 x 11.0] 6.120
2.940
0.089
0.127
2.950
0.315 x 0.472 [8.0 x 12.0] 2.914
1.350
0.158
0.232
1.350
0.630 x 0.984 [16.0 x 25.0] 0.239
0.110
1.127
1.660
0.105
0.630 x 1.417 [16.0 x 36.0] 0.162
0.064
1.580
2.520
0.074
35 WVDC AT +105 °C, SURGE = 44 V
0.394 x 0.512 [10.0 x 13.0] 1.830
1.010
0.239
0.323
0.980
0.394 x 0.787 [10.0 x 20.0] 0.677
0.305
0.468
0.697
0.310
0.630 x 0.984 [16.0 x 25.0] 0.223
0.110
1.170
1.660
0.112
0.630 x 1.260 [16.0 x 32.0] 0.165
0.078
1.490
2.180
0.078
0.709 x 1.417 [18.0 x 36.0] 0.121
0.060
1.980
2.810
0.062
40 WVDC AT +105 °C, SURGE = 50 V
0.394 x 0.512 [10.0 x 13.0] 1.939
1.010
0.232
0.323
0.981
0.394 x 0.787 [10.0 x 20.0] 0.883
0.305
0.411
0.698
0.311
0.492 x 0.787 [12.5 x 20.0] 0.588
0.210
0.573
0.959
0.221
0.492 x 0.984 [12.5 x 25.0] 0.407
0.151
0.719
1.190
0.157
0.630 x 1.260 [16.0 x 32.0] 0.193
0.078
1.390
2.180
0.078
50 WVDC AT +105 °C, SURGE = 63 V
0.315 x 0.472 [8.0 x 12.0] 3.884
1.510
0.137
0.221
1.450
0.394 x 0.630 [10.0 x 16.0] 1.320
0.466
0.302
0.509
0.488
0.492 x 0.787 [12.5 x 20.0] 0.601
0.221
0.567
0.937
0.231
0.630 x 1.417 [16.0 x 36.0] 0.161
0.065
1.590
2.510
0.068
0.709 x 1.417 [18.0 x 36.0] 0.153
0.065
1.760
2.710
0.068
63 WVDC AT +105 °C, SURGE = 79 V
0.394 x 0.512 [10.0 x 13.0] 3.076
1.170
0.184
0.299
1.110
0.394 x 0.787 [10.0 x 20.0] 1.010
0.331
0.385
0.671
0.341
0.630 x 0.984 [16.0 x 25.0] 0.307
0.125
0.995
1.560
0.125
0.709 x 1.417 [18.0 x 36.0] 0.165
0.065
1.690
2.710
0.068
75 WVDC AT +105 °C, SURGE = 90 V
0.394 x 0.512 [10.0 x 13.0] 4.440
1.210
0.153
0.295
1.210
0.394 x 0.787 [10.0 x 20.0] 1.460
0.341
0.318
0.661
0.341
0.492 x 0.787 [12.5 x 20.0] 1.010
0.261
0.439
0.862
0.261
0.492 x 0.984 [12.5 x 25.0] 0.666
0.211
0.589
1.050
0.211
0.630 x 1.260 [16.0 x 32.0] 0.307
0.105
1.110
1.880
0.105
100 WVDC AT +105 °C, SURGE = 125 V
0.236 x 0.433 [6.0 x 11.0] 30.79
4.310
0.041
0.106
4.210
0.314 x 0.472 [8.0 x 12.0] 14.63
1.810
0.071
0.202
1.710
0.394 x 0.630 [10.0 x 16.0] 4.440
0.531
0.165
0.477
0.531
0.492 x 0.984 [12.5 x 25.0] 1.210
0.215
0.437
1.030
0.215
0.630 x 1.260 [16.0 x 32.0] 0.444
0.076
0.958
2.320
0.078
0.709 x 1.417 [18.0 x 36.0] 0.361
0.071
1.150
2.610
0.074
NOMINAL CASE SIZE
DxL
IN INCHES [mm]
MAX. ESR
AT +25 °C (m)
MAX. RIPPLE
AT +85 °C (A)
4.7 (1)
511D475M100AA4D
10.0 (1)
511D106M100BB4D
33.0
511D336M100CD4D
120.0
511D127M100DK4D
330.0
511D337M100ER4D
470.0
511D477M100FR4D
Note
(1) These values are normally stocked. See Original Ratings for more values that are stocked.
Revision: 07-Nov-13
Document Number: 42051
406
For technical questions, contact: [email protected]
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
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER
10.0
22.0
33.0
100.0
511D106M160CD4D
511D226M160DG4D
511D336M160DK4D
511D107M160ER4D
1.5
22.0
33.0
47.0
120.0
511D155M200AA4D
511D226M200DG4D
511D336M200DK4D
511D476M200EK4D
511D127M200FR4D
10.0
33.0
47.0
511D106M250CG4D
511D336M250EK4D
511D476M250EN4D
MAX.
IMPEDANCE
AT +25 °C (m)
120 Hz 20 kHz TO 40 kHz 120 Hz 20 kHz TO 40 kHz
100 Hz
160 WVDC AT +105 °C, SURGE = 185 V
0.394 x 0.630 [10.0 x 16.0] 16.09
4.910
0.086
0.157
4.910
0.492 x 0.787 [12.5 x 20.0] 7.330
3.210
0.162
0.245
3.210
0.492 x 0.984 [12.5 x 25.0] 4.880
2.250
0.216
0.319
2.250
0.630 x 1.260 [16.0 x 32.0] 1.610
0.531
0.504
0.876
0.531
200 WVDC AT +105 °C, SURGE = 225 V
0.236 x 0.433 [6.0 x 11.0] 110.010
33.110
0.021
0.038
33.010
0.492 x 0.787 [12.5 x 20.0] 7.330
3.210
0.162
0.245
3.210
0.492 x 0.984 [12.5 x 25.0] 4.880
2.250
0.216
0.319
2.250
0.630 x 0.984 [16.0 x 25.0] 3.384
1.210
0.299
0.501
1.210
0.709 x 1.417 [18.0 x 36.0] 1.420
0.481
0.577
0.991
0.491
250 WVDC AT +105 °C, SURGE = 275 V
0.394 x 0.787 [10.0 x 20.0] 16.090
3.760
0.096
0.198
3.760
0.630 x 0.984 [16.0 x 25.0] 4.880
1.270
0.249
0.489
1.270
0.630 x 1.260 [16.0 x 32.0] 3.380
0.721
0.331
0.717
0.721
NOMINAL CASE SIZE
DxL
IN INCHES [mm]
MAX. ESR
AT +25 °C (m)
MAX. RIPPLE
AT +85 °C (A)
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
CASE CODE
6.3 WVDC AT +105 °C, SURGE = 8 V
CC
CG
DK
10 WVDC AT +85 °C, SURGE = 13 V
CD
DG
ER
16 WVDC AT +105 °C, SURGE = 20 V
AA
BB
CC
25 WVDC AT +105 °C, SURGE = 32 V
CD
DG
EK
35 WVDC AT +105 °C, SURGE = 44 V
AA
BB
CC
CG
DK
EN
50 WVDC AT +105 °C, SURGE = 63 V
CC
DK
63 WVDC AT +105 °C, SURGE = 70 V
AA
BB
CD
CG
EK
EN
100 WVDC 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.
(1)
Revision: 07-Nov-13
Document Number: 42051
407
For technical questions, contact: [email protected]
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
517D
www.vishay.com
Vishay Sprague
Aluminum Capacitors
+ 105 °C, General Purpose Miniature, Radial Lead
FEATURES
• High CV per case size
• Low cost
• Solvent resistant construction
(through 100 WVDC)
• Life test to 2000 h at + 105 °C
• Material categorization: For definitions of compliance
please see www.vishay.com/doc?99912
RIPPLE CURRENT MULTIPLIERS
QUICK REFERENCE DATA
DESCRIPTION
TEMPERATURE
VALUE
Nominal case size 
Ø D x L in mm
Operating temperature
Rated capacitance range, CR
0.197" x 0.433" [5.0 x 11.0]
to 0.709" x 1.575" [18.0 x 40.0]
AMBIENT TEMPERATURE
MULTIPLIERS
+ 70 °C
1.78
- 55 °C to + 105 °C
(6.3 WVDC to 100 WVDC)
- 40 °C to + 105 °C
(160 WVDC to 250 WVDC)
+ 85 °C
1.4
± 20 %
2 radial leads
Life validation test at 105 °C
Shelf life at 105 °C
DC leakage current
WVDC
CAP. (μF)
50 to
60
100 to
120
300 to
400
0 to 47
0.75
1
1.35
1.57
2.00
6.3 to
100
100 to 470
0.80
1
1.23
1.34
1.50
1000 to
0.85
22 000 000
1
1.10
1.13
1.15
160 to
0.47 to 100 0.80
250
1
1.25
1.40
1.60
6.3 WVDC to 250 WVDC
Termination
2000 h:  CAP ± 20 % from
initial measurement.
 DF 2 x initial specified limit.
 DCL  initial specified limit.
1000 h:  CAP ± 20 % from initial
measurement.
 DF 2 x initial specified limit.
 DCL  initial specified limit.
Rated voltage for 1 min for
6.3 WVDC to 100 WVDC units:
I < 0.03 CV or 4 μA
(whichever is greater).
Rated voltage for 2 min for
6.3 WVDC to 100 WVDC units:
I < 0.04 CV or 3 μA
(whichever is greater).
Rated voltage for 1 min for
160 WVDC to 250 WVDC units:
I < 0.1 CV + 40 μA and CV > 1000;
I < 0.04 CV + 100 μA
and CV > 1000
1.0
FREQUENCY (Hz)
0.47 μF to 15 000 μF
Tolerance on CR
Rated voltage range, UR
+ 105 °C
1 kHz  10 kHz
LOW TEMPERATURE PERFORMANCE
MAXIMUM IMPEDANCE RATIO Z(T)/Z(+ 20 °C)
MAXIMUM AT 120 Hz
RATED VOLTAGE
(WVDC)
Z - 25 °C/Z + 20 °C
Z - 40 °C/Z + 20 °C
6.3
4.0
8.0
10.0
3.0
6.0
16.0
2.0
4.0
25.0 to 100.0
2.0
3.0
160.0 to 200.0
2.0
4.0
250.0
4.0
6.0
DIMENSIONS in inches [millimeters]
CASE
CODE
NOMINAL CASE SIZE
DxL
LEAD SPACING
S
NOMINAL LEAD DIAMETER
D
TYPICAL WEIGHT
(g)
JA
0.197 x 0.433 [5.0 x 11.0]
0.079 [2.0]
0.020 [0.50]
0.44
AA
0.248 x 0.433 [6.3 x 11.0]
0.098 [2.5]
0.020 [0.50]
0.63
BB
0.315 x 0.453 [8.0 x 11.5]
0.138 [3.5]
0.024 [0.60]
1.03
CC
0.394 x 0.492 [10.0 x 12.5]
0.197 [5.0]
0.024 [0.60]
1.53
CD
0.394 x 0.630 [10.0 x 16.0]
0.197 [5.0]
0.024 [0.60]
1.86
2.48
CG
0.394 x 0.787 [10.0 x 20.0]
0.197 [5.0]
0.024 [0.60]
DG
0.492 x 0.787 [12.5 x 20.0]
0.197 [5.0]
0.024 [0.60]
3.98
DK
0.492 x 0.984 [12.5 x 25.0]
0.197 [5.0]
0.024 [0.60]
5.27
Revision: 08-Oct-13
Document Number: 42053
408
For technical questions, contact: [email protected]
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
517D
www.vishay.com
Vishay Sprague
DIMENSIONS in inches [millimeters]
CASE
CODE
NOMINAL CASE SIZE
DxL
LEAD SPACING
S
NOMINAL LEAD DIAMETER
D
TYPICAL WEIGHT
(g)
7.72
EK
0.630 x 0.984 [16.0 x 25.0]
0.295 [7.5]
0.031 [0.80]
EN
0.630 x 1.24 [16.0 x 31.5]
0.295 [7.5]
0.031 [0.80]
9.90
ER
0.630 x 1.40 [16.0 x 35.5]
0.295 [7.5]
0.031 [0.80]
11.10
FR
0.709 x 1.40 [18.0 x 35.5]
0.295 [7.5]
0.031 [0.80]
13.04
FV
0.709 x 1.575 [18.0 x 40.0]
0.295 [7.5]
0.031 [0.80]
15.74
ELECTROLYTIC CAPACITOR WITH CUT OR FORMED LEADS in inches [millimeters]
X
0.177
[4.5]
Code S
0.197 ± 0.20
F (1) [5.0 ± 0.5]
D
Ø d (2)
F (1)
D
Code S
Code S
0.033 ± 0.006
[0.85 ± 0.15]
S ± 0.20 [0.5]
Ø d (2)
0.197 ± 0.20
[5.0 ± 0.5]
Ø d (2)
Ø d (2)
0.177
[4.5]
D
0.177
[4.5]
X
0.197 ± 0.20
F (1) [5.0 ± 0.5]
D
Code C
0.177
[4.5]
Code S
Code F
0.039 ± 0.008
[1.0 ± 0.2]
(10, 12.5, 16, 18)
(4, 5, 6.3, 8)
DIMENSIONS in inches [millimeters]
FORMING METHOD
Formed and cut
Cut
FORMED LEAD CODE
F
C
Snap-in
S
DIMENSIONS
D
S
X (Max.)
0.197 [5.0]
0.197 [5.0]
0.059 [1.5]
0.248 [6.3]
0.197 [5.0]
0.098 [2.5]
0.315 [8.0]
0.197 [5.0]
0.098 [2.5]
0.394 [10.0]
0.197 [5.0]
-
0.492 [12.5]
0.197 [5.0]
-
0.630 [16.0]
0.295 [7.5]
-
0.709 [18.0]
0.295 [7.5]
-
0.197 [5.0]
0.197 [5.0]
0.059 [1.5]
0.248 [6.3]
0.197 [5.0]
0.059 [1.5]
0.315 [8.0]
0.197 [5.0]
0.059 [1.5]
0.394 [10.0]
0.197 [5.0]
-
0.492 [12.5]
0.197 [5.0]
-
0.630 [16.0]
0.295 [7.5]
-
0.709 [18.0]
0.295 [7.5]
-
Notes
• Coding of cut or formed lead to be added to the end of type number in 15th position (with position 14 coded “6”).
(1) Formed lead.
(2) Lead thickness Ø d depends on capacitor specification.
Revision: 08-Oct-13
Document Number: 42053
409
For technical questions, contact: [email protected]
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
517D
www.vishay.com
Vishay Sprague
TAPED CAPACITORS FOR AUTOMATIC INSERTION SYSTEMS in inches [millimeters]
PACKAGING
LEAD CODE
14th AND 15th DIGITS OF PN
SPECIFICATION
8P
Formed lead (1)
Ammo pack
LEAD STYLE
LEAD SPACE
CAPACITOR SIZES AVAILABLE
0.197 [5.0]
0.197 x 0.433 [5.0 x 11.0] to
0.492 x 0.787 [12.5 x 25.0]
Case codes JA, AA, BB, CC, CD, DG, DK
Notes
• The ammo pack code is to be added at the end of type number in the 14th and 15th position as 8P. To specify formed, cut or snap-in leads
and for tape and ammo, both positions 14 and 15 of the type number must be filled in with the proper codes.
(1) Except 0.394" [10.0 mm] and 0.492" [12.5 mm] diameter have straight unformed leads.
TAPING SPECIFICATIONS in inches [millimeters]
P
Formed Lead Type
K
H
H0
F
W0
P0
W
D0
Ød
t
DIMENSIONS in inches [millimeters]
CASE SIZE
(Diameter x Length)
ITEM
FORMED LEAD TYPE
STRAIGHT LEAD TYPE
0.197 x 0.433
[5.0 x 11.0]
0.248 x 0.433
[6.3 x 11.0]
0.315 x 0.452
[8.0 x 11.5]
0.394 [10.0]
(Dia.)
0.492 [12.5]
(Dia.)
Ø d - Lead-wire diameter
0.020 [0.5]
0.020 [0.5]
0.024 [0.6]
0.024 [0.6]
0.024 [0.6]
P - Pitch of component
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.591 [15.0]
P0 - Feed hole pitch
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.500 [12.7]
0.591 [15.0]
F - Lead-to-lead distance
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
K - Clinch height
0.098 [2.5]
0.098 [2.5]
0.157 [4.0]
-
-
H - Height of component from tape center
0.728 [18.5]
0.728 [18.5]
0.787 [20.0]
0.728 [18.5]
0.630 [16.0]
H0 - Lead-wire clinch height
0.630 [16.0]
0.630 [16.0]
0.630 [16.0]
-
-
W - Tape width
0.709 [18.0]
0.709 [18.0]
0.709 [18.0]
0.709 [18.0]
0.709 [18.0]
W0 - Hold down tape width
0.512 [13.0]
0.512 [13.0]
0.512 [13.0]
0.512 [13.0]
0.512 [13.0]
D0 - Feed hole diameter
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
t - Total tape thickness
0.028 [0.7]
0.028 [0.7]
0.028 [0.7]
0.028 [0.7]
0.028 [0.7]
Revision: 08-Oct-13
Document Number: 42053
410
For technical questions, contact: [email protected]
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
517D
www.vishay.com
Vishay Sprague
ORDERING EXAMPLE
Electrolytic capacitor 517D series:
517D 107M 6R3 JA 6 A E3
DESCRIPTION
CODE
517D
107
M
6R3
JA
6
A
E3
EXPLANATION
Product type
Capacitance value (100 μF)
Tolerance (M = ± 20 %)
Voltage rating at 85 °C (6R3 = 6.3 V)
Can size (see dimensions table)
Packaging (bulk)
Lead style (uncut)
RoHS compliant indicator
PACKING AND LEAD STYLES
6A
Bulk; uncut leads
6C
Bulk; cut leads
6F
Bulk; formed and cut leads
6S
Bulk; snap-in leads
8P
Ammopack, (cases codes JA, AA, BB, CC, CD, CG, DG only)
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
22.0
33.0
47.0
100.0
220.0
330.0
470.0
1000.0
2200.0
3300.0
4700.0
6800.0
10 000.0
15 000.0
22.0
33.0
47.0
100.0
220.0
330.0
470.0
1000.0
2200.0
3300.0
4700.0
6800.0
10 000.0
15 000.0
Revision: 08-Oct-13
PART NUMBER
NOMINAL CASE SIZE
DxL
6.3 WVDC AT + 105 °C, SURGE = 8 V
517D226M6R3JA6AE3
0.197 x 0.433 [5.0 x 11.0]
517D336M6R3JA6AE3
0.197 x 0.433 [5.0 x 11.0]
517D476M6R3JA6AE3
0.197 x 0.433 [5.0 x 11.0]
517D107M6R3JA6AE3
0.197 x 0.433 [5.0 x 11.0]
517D227M6R3AA6AE3
0.248 x 0.433 [6.3 x 11.0]
517D337M6R3AA6AE3
0.248 x 0.433 [6.3 x 11.0]
517D477M6R3BB6AE3
0.315 x 0.453 [8.0 x 11.5]
517D108M6R3CC6AE3
0.394 x 0.492 [10.0 x 12.5]
517D228M6R3DG6AE3
0.492 x 0.787 [12.5 x 20.0]
517D338M6R3DG6AE3
0.492 x 0.787 [12.5 x 20.0]
517D478M6R3EK6AE3
0.630 x 0.984 [16.0 x 25.0]
517D688M6R3EK6AE3
0.630 x 0.984 [16.0 x 25.0]
517D109M6R3EN6AE3
0.630 x 1.240 [16.0 x 31.5]
517D159M6R3FR6AE3
0.709 x 1.398 [18.0 x 35.5]
10 WVDC AT + 105 °C, SURGE = 13 V
517D226M010JA6AE3
0.197 x 0.433 [5.0 x 11.0]
517D336M010JA6AE3
0.197 x 0.433 [5.0 x 11.0]
517D476M010JA6AE3
0.197 x 0.433 [5.0 x 11.0]
517D107M010JA6AE3
0.197 x 0.433 [5.0 x 11.0]
517D227M010AA6AE3
0.248 x 0.433 [6.3 x 11.0]
517D337M010BB6AE3
0.315 x 0.453 [8.0 x 11.5]
517D477M010BB6AE3
0.315 x 0.453 [8.0 x 11.5]
517D108M010CD6AE3
0.394 x 0.630 [10.0 x 16.0]
517D228M010DG6AE3
0.492 x 0.787 [12.5 x 20.0]
517D338M010DK6AE3
0.492 x 0.984 [12.5 x 25.0]
517D478M010EK6AE3
0.630 x 0.984 [16.0 x 25.0]
517D688M010EN6AE3
0.630 x 1.240 [16.0 x 31.5]
517D109M010FR6AE3
0.709 x 1.398 [18.0 x 35.5]
517D159M010FV6AE3
0.709 x 1.575 [18.0 x 40.0]
MAX. RIPPLE
AT + 105 °C
120 Hz (mA)
MAX. DF
AT + 20 °C
120 Hz
34.0
50.0
65.0
100.0
165.0
200.0
280.0
470.0
930.0
1100.0
1320.0
1490.0
1830.0
2280.0
0.26
0.26
0.26
0.26
0.26
0.26
0.26
0.26
0.26
0.26
0.26
0.26
0.26
0.26
45.0
60.0
75.0
110.0
180.0
255.0
305.0
570.0
1010.0
1220.0
1410.0
1610.0
1980.0
2470.0
0.22
0.22
0.22
0.22
0.22
0.22
0.22
0.22
0.22
0.22
0.22
0.22
0.22
0.22
Document Number: 42053
411
For technical questions, contact: [email protected]
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
517D
www.vishay.com
Vishay Sprague
ELECTRICAL DATA AND ORDERING INFORMATION
MAX. RIPPLE
AT + 105 °C
120 Hz (mA)
MAX. DF
AT + 20 °C
120 Hz
0.197 x 0.433 [5.0 x 11.0]
35.0
0.18
517D226M016JA6AE3
0.197 x 0.433 [5.0 x 11.0]
55.0
0.18
517D336M016JA6AE3
0.197 x 0.433 [5.0 x 11.0]
70.0
0.18
CAPACITANCE
(μF)
PART NUMBER
NOMINAL CASE SIZE
DxL
10.0
517D106M016JA6AE3
22.0
33.0
16 WVDC AT + 105 °C, SURGE = 20 V
47.0
517D476M016JA6AE3
0.197 x 0.433 [5.0 x 11.0]
85.0
0.18
100.0
517D107M016AA6AE3
0.248 x 0.433 [6.3 x 11.0]
135.0
0.18
220.0
517D227M016BB6AE3
0.315 x 0.453 [8.0 x 11.5]
235.0
0.18
330.0
517D337M016BB6AE3
0.315 x 0.453 [8.0 x 11.5]
285.0
0.18
470.0
517D477M016CC6AE3
0.394 x .0492 [10.0 x 12.5]
395.0
0.18
1000.0
517D108M016CG6AE3
0.394 x 0.787 [10.0 x 20.0]
700.0
0.18
2200.0
517D228M016DK6AE3
0.492 x 0.984 [12.5 x 25.0]
1150.0
0.18
3300.0
517D338M016EK6AE3
0.630 x 0.984 [16.0 x 25.0]
1350.0
0.18
4700.0
517D478M016EN6AE3
0.630 x 1.240 [16.0 x 31.5]
1560.0
0.18
6800.0
517D688M016FR6AE3
0.709 x 1.398 [18.0 x 35.5]
1750.0
0.18
10 000.0
517D109M016FV6AE3
0.709 x 1.575 [18.0 x 40.0]
2170.0
0.18
4.7
517D475M025JA6AE3
0.197 x .0433 [5.0 x 11.0]
24.0
0.16
10.0
517D106M025JA6AE3
0.197 x 0.433 [5.0 x 11.0]
39.0
0.16
22.0
517D226M025JA6AE3
0.197 x 0.433 [5.0 x 11.0]
60.0
0.16
33.0
517D336M025JA6AE3
0.197 x 0.433 [5.0 x 11.0]
75.0
0.16
47.0
517D476M025JA6AE3
0.197 x 0.433 [5.0 x 11.0]
90.0
0.16
100.0
517D107M025AA6AE3
0.248 x 0.433 [6.3 x 11.0]
145.0
0.16
220.0
517D227M025BB6AE3
0.315 x 0.453 [8.0 x 11.5]
250.0
0.16
330.0
517D337M025CC6AE3
0.394 x 0.492 [10.0 x 12.5]
355.0
0.16
470.0
517D477M025CD6AE3
0.394 x 0.630 [10.0 x 16.0]
470.0
0.16
1000.0
517D108M025DG6AE3
0.492 x 0.787 [12.5 x 20.0]
855.0
0.16
2200.0
517D228M025EK6AE3
0.630 x 0.984 [16.0 x 25.0]
1230.0
0.16
3300.0
517D338M025EN6AE3
0.630 x 1.240 [16.0 x 31.5]
1450.0
0.16
4700.0
517D478M025FR6AE3
0.709 x 1.398 [18.0 x 35.5]
1660.0
0.16
25 WVDC AT + 105 °C, SURGE = 32 V
35 WVDC AT + 105 °C, SURGE = 44 V
4.7
517D475M035JA6AE3
0.197 x 0.433 [5.0 x 11.0]
27.0
0.13
10.0
517D106M035JA6AE3
0.197 x 0.433 [5.0 x 11.0]
44.0
0.13
22.0
517D226M035JA6AE3
0.197 x 0.433 [5.0 x 11.0]
65.0
0.13
33.0
517D336M035JA6AE3
0.197 x 0.433 [5.0 x 11.0]
85.0
0.13
47.0
517D476M035AA6AE3
0.248 x 0.433 [6.3 x 11.0]
115.0
0.13
100.0
517D107M035BB6AE3
0.315 x 0.453 [8.0 x 11.5]
190.0
0.13
220.0
517D227M035CC6AE3
0.394 x 0.492 [10.0 x 12.5]
325.0
0.13
330.0
517D337M035CD6AE3
0.394 x 0.630 [10.0 x 16.0]
440.0
0.13
470.0
517D477M035CG6AE3
0.394 x 0.787 [10.0 x 20.0]
580.0
0.13
1000.0
517D108M035DK6AE3
0.492 x 0.984 [12.5 x 25.0]
995.0
0.13
2200.0
517D228M035EN6AE3
0.630 x 1.240 [16.0 x 31.5]
1450.0
0.13
3300.0
517D338M035FR6AE3
0.709 x 1.398 [18.0 x 35.5]
1660.0
0.13
4700.0
517D478M035FV6AE3
0.709 x 1.575 [18.0 x 40.0]
2030.0
0.13
Revision: 08-Oct-13
Document Number: 42053
412
For technical questions, contact: [email protected]
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
517D
www.vishay.com
Vishay Sprague
ELECTRICAL DATA AND ORDERING INFORMATION
MAX. RIPPLE
AT + 105 °C
120 Hz (mA)
MAX. DF
AT + 20 °C
120 Hz
0.197 x 0.433 [5.0 x 11.0]
7.0
0.10
517D105M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
12.0
0.10
517D225M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
18.0
0.10
3.3
517D335M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
25.0
0.10
4.7
517D475M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
30.0
0.10
10.0
517D106M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
50.0
0.10
22.0
517D226M050JA6AE3
0.197 x 0.433 [5.0 x 11.0]
75.0
0.10
33.0
517D336M050M6AE3
0.248 x 0.433 [6.3 x 11.0]
105.0
0.10
47.0
517D476M050AA6AE3
0.248 x 0.433 [6.3 x 11.0]
125.0
0.10
100.0
517D107M050BB6AE3
0.315 x 0.453 [8.0 x 11.5]
210.0
0.10
220.0
517D227M050CD6AE3
0.394 x 0.630 [10.0 x 16.0]
400.0
0.10
330.0
517D337M050CG6AE3
0.394 x 0.787 [10.0 x 20.0]
535.0
0.10
CAPACITANCE
(μF)
PART NUMBER
NOMINAL CASE SIZE
DxL
0.47
517D474M050JA6AE3
1.0
2.2
50 WVDC AT + 105 °C, SURGE = 63 V
470.0
517D477M050DG6AE3
0.492 x 0.787 [12.5 x 20.0]
730.0
0.10
1000.0
517D108M050EK6AE3
0.630 x 0.984 [16.0 x 25.0]
1110.0
0.10
2200.0
517D228M050FR6AE3
0.709 x 1.398 [18.0 x 35.5]
1530.0
0.10
63 WVDC AT + 105 °C, SURGE = 79 V
4.7
517D475M063JA6AE3
0.197 x 0.433 [5.0 x 11.0]
34.0
0.09
10.0
517D106M063JA6AE3
0.197 x 0.433 [5.0 x 11.0]
55.0
0.09
22.0
517D226M063AA6AE3
0.248 x 0.433 [6.3 x 11.0]
90.0
0.09
33.0
517D336M063AA6AE3
0.248 x 0.433 [6.3 x 11.0]
110.0
0.09
47.0
517D476M063BB6AE3
0.315 x 0.453 [8.0 x 11.5]
155.0
0.09
100.0
517D107M063CC6AE3
0.394 x .0492 [10.0 x 12.5]
260.0
0.09
220.0
517D227M063CG6AE3
0.394 x 0.787 [10.0 x 20.0]
465.0
0.09
330.0
517D337M063DG6AE3
0.492 x 0.787 [12.5 x 20.0]
650.0
0.09
470.0
517D477M063DK6AE3
0.492 x 0.984 [12.5 x 25.0]
800.0
0.09
1000.0
517D108M063EN6AE3
0.630 x 1.240 [16.0 x 31.5]
1200.0
0.09
2200.0
517D228M063FV6AE3
0.709 x 1.575 [18.0 x 40.0]
1840.0
0.09
0.47
517D474M100JA6AE3
0.197 x 0.433 [5.0 x 11.0]
10.0
0.08
1.0
517D105M100JA6AE3
0.197 x 0.433 [5.0 x 11.0]
15.0
0.08
2.2
517D225M100JA6AE3
0.197 x 0.433 [5.0 x 11.0]
22.0
0.08
3.3
517D335M100JA6AE3
0.197 x 0.433 [5.0 x 11.0]
29.0
0.08
4.7
517D475M100JA6AE3
0.197 x 0.433 [5.0 x 11.0]
37.0
0.08
10.0
517D106M100AA6AE3
0.248 x 0.433 [6.3 x 11.0]
65.0
0.08
22.0
517D226M100BB6AE3
0.315 x 0.453 [8.0 x 11.5]
115.0
0.08
33.0
517D336M100CC6AE3
0.394 x 0.492 [10.0 x 12.5]
160.0
0.08
47.0
517D476M100CD6AE3
0.394 x 0.630 [10.0 x 16.0]
220.0
0.08
100.0
517D107M100DG6AE3
0.492 x 0.787 [12.5 x 20.0]
385.0
0.08
220.0
517D227M100EK6AE3
0.630 x 0.984 [16.0 x 25.0]
590.0
0.08
100 WVDC AT + 105 °C, SURGE = 125 V
330.0
517D337M100EK6AE3
0.630 x 0.984 [16.0 x 25.0]
720.0
0.08
470.0
517D477M100EN6AE3
0.630 x 1.240 [16.0 x 31.5]
875.0
0.08
1000.0
517D108M100FV6AE3
0.709 x 1.575 [18.0 x 40.0]
1320.0
0.08
Revision: 08-Oct-13
Document Number: 42053
413
For technical questions, contact: [email protected]
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
517D
www.vishay.com
Vishay Sprague
ELECTRICAL DATA AND ORDERING INFORMATION
MAX. RIPPLE
AT + 105 °C
120 Hz (mA)
MAX. DF
AT + 20 °C
120 Hz
0.248 x 0.433 [6.3 x 11.0]
12.0
0.15
517D105M160AA6AE3
0.248 x 0.433 [6.3 x 11.0]
17.0
0.15
517D225M160AA6AE3
0.248 x 0.433 [6.3 x 11.0]
25.0
0.15
3.3
517D335M160BB6AE3
0.315 x 0.453 [8.0 x 11.5]
36.0
0.15
4.7
517D475M160BB6AE3
0.315 x 0.453 [8.0 x 11.5]
43.0
0.15
CAPACITANCE
(μF)
PART NUMBER
NOMINAL CASE SIZE
DxL
0.47
517D474M160AA6AE3
1.0
2.2
160 WVDC AT + 105 °C, SURGE = 200 V
10.0
517D106M160CC6AE3
0.394 x 0.492 [10.0 x 12.5]
70.0
0.15
22.0
517D226M160CG6AE3
0.394 x 0.787 [10.0 x 20.0]
130.0
0.15
33.0
517D336M160DG6AE3
0.492 x 0.787 [12.5 x 20.0]
180.0
0.15
47.0
517D476M160DK6AE3
0.492 x 0.984 [12.5 x 25.0]
220.0
0.15
100.0
517D107M160EK6AE3
0.630 x 0.984 [16.0 x 25.0]
330.0
0.15
220.0
517D227M160FR6AE3
0.709 x 1.398 [18.0 x 35.5]
500.0
0.15
200 WVDC AT + 105 °C, SURGE = 250 V
0.47
517D474M200AA6AE3
0.248 x 0.433 [6.3 x 11.0]
12.0
0.15
1.0
517D105M200AA6AE3
0.248 x 0.433 [6.3 x 11.0]
17.0
0.15
2.2
517D225M200AA6AE3
0.248 x 0.433 [6.3 x 11.0]
25.0
0.15
3.3
517D335M200BB6AE3
0.315 x 0.453 [8.0 x 11.5]
36.0
0.15
4.7
517D475M200CC6AE3
0.394 x 0.492 [10.0 x 12.5]
50.0
0.15
10.0
517D106M200CD6AE3
0.394 x 0.630 [10.0 x 16.0]
80.0
0.15
22.0
517D226M200CG6AE3
0.394 x 0.787 [10.0 x 20.0]
140.0
0.15
33.0
517D336M200DK6AE3
0.492 x 0.984 [12.5 x 25.0]
198.0
0.15
47.0
517D476M200DK6AE3
0.492 x 0.984 [12.5 x 25.0]
220.0
0.15
100.0
517D107M200EN6AE3
0.630 x 1.240 [16.0 x 31.5]
335.0
0.15
220.0
517D227M200FV6AE3
0.709 x 1.575 [18.0 x 40.0]
515.0
0.15
250 WVDC AT + 105 °C, SURGE = 300 V
0.47
517D474M250AA6AE3
0.248 x 0.433 [6.3 x 11.0]
12.0
0.15
1.0
517D105M250AA6AE3
0.248 x 0.433 [6.3 x 11.0]
17.0
0.15
2.2
517D225M250BB6AE3
0.315 x 0.453 [8.0 x 11.5]
29.0
0.15
3.3
517D335M250CC6AE3
0.394 x 0.492 [10.0 x 12.5]
42.0
0.15
4.7
517D475M250CC6AE3
0.394 x 0.492 [10.0 x 12.5]
50.0
0.15
10.0
517D106M250CG6AE3
0.394 x 0.787 [10.0 x 20.0]
88.0
0.15
22.0
517D226M250DK6AE3
0.492 x 0.984 [12.5 x 25.0]
155.0
0.15
33.0
517D336M250DK6AE3
0.492 x 0.984 [12.5 x 25.0]
190.0
0.15
47.0
517D476M250EK6AE3
0.630 x 0.984 [16.0 x 25.0]
230.0
0.15
100.0
517D107M250FR6AE3
0.709 x 1.398 [18.0 x 35.5]
340.0
0.15
Revision: 08-Oct-13
Document Number: 42053
414
For technical questions, contact: [email protected]
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
678D
www.vishay.com
Vishay Sprague
Aluminum Capacitors
105 °C, Miniature, Radial Lead
FEATURES
• Improved SMPS output capacitors
• Highest ripple current ratings per case size
Available
• High CV
• Material categorization: For definitions of compliance
please see www.vishay.com/doc?99912
RIPPLE CURRENT MULTIPLIERS
QUICK REFERENCE DATA
DESCRIPTION
TEMPERATURE
VALUE
Nominal case size 
Ø D x L in inches [mm]
0.394 x 0.472 [10.0 x 12.0]
to 0.709 x 1.575 [18.0 x 40.0]
AMBIENT TEMPERATURE
+105 °C
1.0
Operating temperature
- 55 °C to +105 °C
+85 °C
2.2
Rated capacitance range, CR
Tolerance on CR
Rated voltage range, UR
Termination
Life validation test at 105 °C
Shelf life at 105 °C
DC leakage current
Revision: 11-Nov-13
MULTIPLIERS
33 μF to 6800 μF
+75 °C
2.7
± 20 %
 +65 °C
3.0
6.3 WVDC to 63 WVDC
FREQUENCY (Hz)
2 and 3 radial leads and axial
mount.
WVDC 50 TO 60 100 TO 120 300 TO 400 1K TO 19K 20K TO 200K
4000 h (0.512" [13.0] diameter):
3000 h (0.394" [10.0] diameter):
CAP  20 % (6.3 WVDC to
25 WVDC),
 15 % (40 WVDC to 63 WVDC)
from initial measurement.
ESR  1.3 x initial
specified limit.
DCL  2 x initial specified limit.
1000 h: CAP  20 %
(6.3 WVDC to 25 WVDC),
 15 % (40 WVDC to 63 WVDC)
from initial measurements.
ESR  1.3 x initial
specified limit.
I = 0.01 CV (2 min charge time)
I = 0.03 CV (1 min charge time)
I in μA, C in μF, V in Volts
6.3 to 63
0.60
0.70
0.75
0.82
1.0
LOW TEMPERATURE PERFORMANCE
CAPACITANCE RATIO C-55 °C/C+25 °C MINIMUM AT 120 Hz
MAXIMUM 
CAPACITANCE 
CHANGE
MAXIMUM 
IMPEDANCE
CHANGE
VOLTAGE
MULTIPLIER
6.3 V to 16 V
0.75
25 V to 63 V
0.85
VOLTAGE
MULTIPLIER
6.3 V to 16 V
2.0
25 V to 63 V
1.5
ESL (TYPICAL VALUES AT 1 MHz TO 10 MHz)
NOMINAL
DIAMETER
TYPICAL ESL (nH)
0.394
[10.0]
0.512
[13.0]
0.630
[16.0]
0.709
[18.0]
4.0
7.0
10.0
12.0
Document Number: 42055
415
For technical questions, contact: [email protected]
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
678D
www.vishay.com
Vishay Sprague
BULK SPECIFICATIONS in millimeters
TERMINAL CODE C
TERMINAL CODE D
9.5 min.
S
W
L
20 min.
S
+
D
L
W
+
D
-
-
15 min.
Sleeve
7.1 min.
Sleeve
TERMINAL CODE O (2)
TERMINAL CODE J (1)
9.5 ± 1.6
25 min.
S
W
L
S
25 min.
T
+
D
+
D
-
NC
-
NC
25 min.
L
W
5.0 ± 1.6
Sleeve
Third lead may fall
within ± 20° of CL
Sleeve
7.1 ± 1.6
Notes
+ Positive terminal
- Negative terminal
NC
No charge potential
(1) Available for 12.5 mm, 16 mm, and 18 mm diameter units
(2) Available for 12.5 mm, 16 mm, and 18 mm diameter units with epoxy end-seal
DIMENSIONS in inches [millimeters]
NOMINAL
CASE
CODE
D
STYLES 2 AND 4
L
D (max.)
L (max.)
STYLES 3 AND 5
D (max.)
L (max.)
LEAD SPACING
S ± 0.024
[0.60]
LEAD DIAMETER
T ± 0.020
[0.50]
NOMINAL
AWG
CC
0.394 [10.0] 0.512 [13.0] 0.413 [10.5] 0.563 [14.3] 0.413 [10.5] 0.630 [16.0] 0.197 [5.0]
n/a
0.025 [0.63]
22
CD
0.394 [10.0] 0.630 [16.0] 0.413 [10.5] 0.669 [17.0] 0.413 [10.5] 0.740 [18.8] 0.197 [5.0]
n/a
0.025 [0.63]
22
CG
0.394 [10.0] 0.787 [20.0] 0.413 [10.5] 0.846 [21.5] 0.413 [10.5] 0.906 [23.0] 0.197 [5.0]
n/a
0.025 [0.63]
22
DG
0.492 [12.5] 0.787 [20.0] 0.512 [13.0] 0.846 [21.5] 0.512 [13.0] 0.906 [23.0] 0.197 [5.0] 0.098 [2.5]
0.032 [0.81]
20
DK
0.492 [12.5] 0.984 [25.0] 0.512 [13.0] 1.043 [26.5] 0.512 [13.0] 1.142 [29.0] 0.197 [5.0] 0.098 [2.5]
0.032 [0.81]
20
DM
0.492 [12.5] 1.043 [26.5] 0.512 [13.0] 1.102 [28.0] 0.512 [13.0] 1.161 [29.5] 0.197 [5.0] 0.098 [2.5]
0.032 [0.81]
20
DT
0.492 [12.5] 1.319 [33.5] 0.512 [13.0] 1.346 [34.2] 0.512 [13.0] 1.417 [36.0] 0.197 [5.0] 0.098 [2.5]
0.032 [0.81]
20
DS
0.492 [12.5] 1.673 [42.5] 0.512 [13.0] 1.720 [43.7] 0.512 [13.0] 1.791 [45.5] 0.197 [5.0] 0.098 [2.5]
0.032 [0.81]
20
EK
0.630 [16.0] 0.984 [25.0] 0.650 [16.5] 1.031 [26.2] 0.650 [16.5] 1.098 [27.9] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
EN
0.630 [16.0] 1.260 [32.0] 0.650 [16.5] 1.319 [33.5] 0.650 [16.5] 1.417 [36.0] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
ER
0.630 [16.0] 1.417 [36.0] 0.650 [16.5] 1.476 [37.5] 0.650 [16.5] 1.575 [40.0] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
EU
0.630 [16.0] 1.575 [40.0] 0.650 [16.5] 1.642 [41.7] 0.650 [16.5] 1.669 [42.4] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
FR
0.709 [18.0] 1.417 [36.0] 0.728 [18.5] 1.476 [37.5] 0.728 [18.5] 1.575 [40.0] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
FV
0.709 [18.0] 1.575 [40.0] 0.728 [18.5] 1.653 [42.0] 0.728 [18.5] 1.693 [43.0] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
Revision: 11-Nov-13
Document Number: 42055
416
For technical questions, contact: [email protected]
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
678D
www.vishay.com
Vishay Sprague
TAPE AND REEL, SPECIFICATIONS TO EIA-468D in inches [millimeters]
P
Formed Leads
K
H
H0
F
W0 W
L1
P0
d
D0
DIMENSIONS in inches [millimeters] AND PACKAGING QUANTITIES
CASE SIZE
F LEAD SPACING
STD. QTY/REEL
0.236 x 0.453 [6.0 x 11.0]
0.197 [5.0]
800
0.315 x 0.472 [8.0 x 12.0]
0.197 [5.0]
700
Unformed (Straight) Leads
P
H
F
W0 W
L1
P0
d
D0
f
DIMENSIONS in inches [millimeters] AND PACKAGING QUANTITIES
CASE SIZE
F LEAD SPACING
STD. QTY/REEL
0.236 x 0.453 [6.0 x 11.0]
0.098 [2.5]
800
0.315 x 0.472 [8.0 x 12.0]
0.140 (1) [3.5]
700
0.394 x 0.512 [10.0 x 13.0]
0.197 [5.0]
500
0.394 x 0.630 [10.0 x 16.0]
0.197 [5.0]
500
0.394 x 0.787 [10.0 x 20.0]
0.197 [5.0]
500
Note
(1) Available as special order.
Revision: 11-Nov-13
Document Number: 42055
417
For technical questions, contact: [email protected]
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
678D
www.vishay.com
Vishay Sprague
DIMENSIONS in inches [millimeters]
ITEM
d - Lead-wire diameter
P - Pitch of component
P0 - Feed hole pitch
F - Lead-to-lead distance
K - Clinch height
H - Height of component from tape center
H0 - Lead-wire clinch height
W - Tape width
W0 - Hold down tape width
D0 - Feed hole diameter
t - Total tape thickness
L1 - 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]
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 [0.63]
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]
0.028 [0.7]
0.028 [0.7]
0.118 [3.0]
0.118 [3.0]
0.118 [3.0]
0.394 x 0.787
[10.0 x 20.0]
0.025 [0.63]
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]
0.028 [0.7]
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 678D series: 678D 108 M 6R3 DG 3 D
DESCRIPTION
CODE
678D
108
M
6R3
DG
3
D
EXPLANATION
Product type
Capacitance value (1000 μF)
Tolerance (M = ± 20 %)
Voltage rating at 105 °C (6R3 = 6.3 V)
Can size (see Dimensions table)
Sleeve and sealing (3 = P.V.C. sleeve w/epoxy end seal)
Terminal code/packaging (D = Bulk; straight leads)
Note
• For lead (Pb)-free/RoHS compliant products add suffix “E3” to part number.
Example: 678D108M6R3DG3DE3
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER
330.0
470.0
1000.0
2200.0
3300.0
4700.0
678D337M6R3CC3D
678D477M6R3CD3D
678D108M6R3DG3D
678D228M6R3EK3D
678D338M6R3DS3D
678D478M6R3FR3D
330.0
470.0
1000.0
2200.0
3300.0
4700.0
678D337M010CD3D
678D477M010CG3D
678D108M010DM3D
678D228M010EK3D
678D338M010EN3D
678D487M010FR3D
Revision: 11-Nov-13
NOMINAL CASE SIZE
DxL
MAX. ESR
AT +25 °C (m)
20 Hz
6.3 WVDC at 105 °C, SURGE = 9 V
0.394 x 0.512 [10.0 x 13.0]
0.540
0.394 x 0.630 [10.0 x 16.0]
0.340
0.492 x 0.787 [12.5 x 20.0]
0.200
0.630 x 0.984 [16.0 x 25.0]
0.110
0.492 x 1.673 [12.5 x 42.5]
0.067
0.709 x 1.417 [18.0 x 36.0]
0.066
10 WVDC AT 105 °C, SURGE = 13 V
0.394 x 0.630 [10.0 x 16.0]
0.350
0.394 x 0.787 [10.0 x 20.0]
0.235
0.492 x 1.043 [12.5 x 26.5]
0.120
0.630 x 0.984 [16.0 x 25.0]
0.115
0.630 x 1.260 [16.0 x 32.0]
0.085
0.709 x 1.417 [18.0 x 36.0]
0.070
MAX. RIPPLE
AT +105 °C (A)
20 kHz
20 kHz to 100 kHz
MAX.
IMPEDANCE
AT +25 °C (m)
100 Hz
0.213
0.133
0.071
0.041
0.031
0.029
0.36
0.49
0.83
1.36
1.67
2.02
0.213
0.132
0.070
0.045
0.032
0.031
0.135
0.092
0.062
0.042
0.038
0.031
0.46
0.63
0.98
1.52
1.56
1.97
0.134
0.090
0.061
0.046
0.041
0.033
Document Number: 42055
418
For technical questions, contact: [email protected]
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
678D
www.vishay.com
Vishay Sprague
ELECTRICAL DATA AND ORDERING INFORMATION
NOMINAL CASE SIZE
DxL
MAX. ESR
AT +25 °C (m)
MAX. RIPPLE
AT +105 °C (A)
MAX.
IMPEDANCE
AT +25 °C (m)
100 Hz
CAPACITANCE
(μF)
PART NUMBER
220.0
678D227M016CC3D
0.394 x 0.512 [10.0 x 13.0]
0.585
0.217
0.40
0.217
330.0
678D337M016CD3D
0.394 x 0.630 [10.0 x 16.0]
0.370
0.137
0.52
0.136
20 Hz
20 kHz
20 kHz to 100 kHz
16 WVDC AT 105 °C, SURGE = 20 V
470.0
678D477M016CG3D
0.394 x 0.787 [10.0 x 20.0]
0.250
0.098
0.70
0.094
1000.0
678D108M016DM3D
0.492 x 1.043 [12.5 x 26.5]
0.130
0.066
1.00
0.065
2200.0
678D228M016ER3D
0.630 x 1.417 [16.0 x 36.0]
0.074
0.032
1.78
0.034
3300.0
678D338M016FR3D
0.709 x 1.417 [18.0 x 36.0]
0.074
0.032
1.94
0.034
220.0
678D227M020CD3D
0.394 x 0.630 [10.0 x 16.0]
0.380
0.150
0.41
0.148
330.0
678D337M020CG3D
0.394 x 0.787 [10.0 x 20.0]
0.270
0.100
0.61
0.098
470.0
678D477M020DG3D
0.492 x 0.787 [12.5 x 20.0]
0.250
0.077
0.45
0.075
1000.0
678D108M020DT3D
0.492 x 1.280 [12.5 x 33.5]
0.115
0.048
0.78
0.045
2200.0
678D228M020ER3D
0.630 x 1.417 [16.0 x 36.0]
0.077
0.032
1.80
0.034
3300.0
678D338M020FV3D
0.709 x 1.575 [18.0 x 40.0]
0.061
0.026
2.25
0.028
0.250
20 WVDC AT 105 °C, SURGE = 30 V
25 WVDC AT 105 °C, SURGE = 35 V
100.0
678D107M025CC3D
0.394 x 0.512 [10.0 x 13.0]
0.700
0.250
0.32
220.0
678D227M025CG3D
0.394 x 0.787 [10.0 x 20.0]
0.300
0.105
0.59
0.100
330.0
678D337M025DG3D
0.492 x 0.787 [12.5 x 20.0]
0.270
0.078
0.79
0.076
0.068
470.0
678D477M025DM3D
0.492 x 1.043 [12.5 x 26.5]
0.160
0.067
0.97
1000.0
678D108M025DS3D
0.492 x 1.673 [12.5 x 42.5]
0.090
0.034
1.60
0.036
2200.0
678D228M025FV3D
0.709 x 1.575 [18.0 x 40.0]
0.062
0.026
2.22
0.028
47.0
678D476M040CC3D
0.394 x 0.512 [10.0 x 13.0]
0.265
0.28
0.265
40 WVDC AT 105 °C, SURGE = 55 V
0.950
100.0
678D107M040CD3D
0.394 x 0.630 [10.0 x 16.0]
0.580
0.165
0.38
0.165
330.0
678D337M040DM3D
0.492 x 1.043 [12.5 x 26.5]
0.200
0.068
0.93
0.070
470.0
678D477M040EK3D
0.630 x 0.984 [16.0 x 25.0]
0.133
0.046
1.28
0.050
1000.0
678D108M040ER3D
0.630 x 1.417 [16.0 x 36.0]
0.080
0.033
1.76
0.035
0.275
50 WVDC AT 105 °C, SURGE = 75 V
47.0
678D476M050CC3D
0.394 x 0.512 [10.0 x 13.0]
1.250
0.275
0.28
100.0
678D107M050CG3D
0.394 x 0.787 [10.0 x 20.0]
0.520
0.115
0.57
0.112
220.0
678D227M050DM3D
0.472 x 1.043 [12.5 x 26.5]
0.240
0.069
0.93
0.071
330.0
678D337M050EK3D
0.630 x 0.984 [16.0 x 25.0]
0.150
0.048
1.26
0.052
470.0
678D477M050DS3D
0.492 x 1.673 [12.5 x 42.5]
0.110
0.036
1.55
0.039
1000.0
678D108M050FV3D
0.709 x 1.575 [18.0 x 40.0]
0.077
0.028
2.15
0.032
33.0
678D336M063CC3D
0.394 x 0.512 [10.0 x 13.0]
1.600
0.288
0.27
0.288
47.0
678D476M063CD3D
0.394 x 0.630 [10.0 x 16.0]
1.000
0.180
0.37
0.180
100.0
678D107M063DG3D
0.492 x 0.787 [12.5 x 20.0]
0.450
0.093
0.72
0.090
220.0
678D227M063DT3D
0.492 x 1.280 [12.5 x 33.5]
0.160
0.055
1.10
0.054
220.0
678D227M063EK3D
0.630 x 0.984 [16.0 x 25.0]
0.170
0.050
1.23
0.054
330.0
678D337M063DS3D
0.492 x 1.673 [12.5 x 42.5]
0.130
0.038
1.51
0.040
470.0
678D477M063ER3D
0.630 x 1.417 [16.0 x 36.0]
0.120
0.035
1.70
0.038
63 WVDC AT 105 °C, SURGE = 80 V
Revision: 11-Nov-13
Document Number: 42055
419
For technical questions, contact: [email protected]
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
672D
www.vishay.com
Vishay Sprague
Aluminum Capacitors
+105 °C, Miniature, Radial Lead
FEATURES
• Original SMPS output capacitors
• Minimal ESR change
Available
• High ripple current capability
• Material categorization: for definitions of compliance
please see www.vishay.com/doc?99912
RIPPLE CURRENT MULTIPLIERS
TEMPERATURE
QUICK REFERENCE DATA
DESCRIPTION
VALUE
AMBIENT
TEMPERATURE
MULTIPLIERS
0.5
Nominal case size 
Ø D x L in inches [mm]
0.394 x 0.472 [10.0 x 12.0]
to 0.709 x 1.575 [18.0 x 40.0]
+105 °C
+85 °C
1.0
Operating temperature
-55 °C to +105 °C
 +75 °C
1.25
Rated capacitance range, CR
4.7 μF to 3300 μF
Tolerance on CR
Rated voltage range, UR
Termination
Life validation test
Shelf life at 105 °C
DC leakage current
(after 2 min charge)
Revision: 12-Nov-13
FREQUENCY (Hz)
-10 %, +50 %
WVDC
6.3 WVDC to 250 WVDC
0 to 75
0.60
0.70
0.75
0.80
76 to 100
0.40
0.55
0.70
0.80
101 to 250
0.25
0.35
0.45
0.65
2 and 3 radial leads and axial
mount.
4000 h at +105 °C ( 13.0 mm dia.):
3000 h at +105 °C (10.0 mm dia.):
CAP  20 % from initial
measurement.
ESR  1.15 x initial specified limit.
DCL  initial specified limit.
500 h: CAP  10 % from initial
measurement.
ESR  1.15 x initial specified limit.
DCL  2 x initial specified limit,
(6.3 WVDC to 100 WVDC);
 3 x initial specified limit,
(150 WVDC to 250 WVDC).
I = 0.03 CV
(6.3 VDC to 100 VDC)
I = 0.01 CV
(150 VDC to 250 VDC)
I in μA, C in μF, V in Volts
50 TO 60 100 TO 120 300 TO 400
1K TO 19K
LOW TEMPERATURE PERFORMANCE
CAPACITANCE RATIO C-55 °C/C+25 °C MINIMUM AT 120 Hz
MAXIMUM 
CAPACITANCE 
CHANGE
MAXIMUM 
IMPEDANCE
CHANGE
VOLTAGE
MULTIPLIER
6.3 V to 100 V
0.75
150 V to 250 V
0.70
VOLTAGE
MULTIPLIER
6.3 V to 100 V
2.5
150 V to 250 V
2.0
ESL (TYPICAL VALUES AT 1 MHz TO 10 MHz)
NOMINAL
DIAMETER
TYPICAL ESL (nH)
0.394
[10.0]
0.512
[13.0]
0.630
[16.0]
0.709
[18.0]
4.0
7.0
10.0
12.0
Document Number: 42054
420
For technical questions, contact: [email protected]
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
672D
www.vishay.com
Vishay Sprague
BULK SPECIFICATIONS in millimeters
TERMINAL CODE C
TERMINAL CODE D
9.5 min.
S
W
20 min.
S
L
+
D
L
W
+
D
-
-
15 min.
Sleeve
7.1 min.
Sleeve
TERMINAL CODE J (1)
TERMINAL CODE O (2)
25 min.
S
W
L
9.5 ± 1.6
25 min.
S
T
+
D
+
D
-
NC
-
NC
25 min.
L
W
5.0 ± 1.6
Sleeve
Third lead may fall
within ± 20° of CL
Sleeve
7.1 ± 1.6
Notes
+ Positive terminal
- Negative terminal
NC
No charge potential
(1) Available for 12.5 mm, 16 mm, and 18 mm diameter units
(2) Available for 12.5 mm, 16 mm, and 18 mm diameter units with epoxy end-seal
DIMENSIONS in inches [millimeters]
CASE
CODE
NOMINAL
D
STYLES 2 AND 4
L
D (max.)
L (max.)
STYLES 3 AND 5
D (max.)
L (max.)
LEAD SPACING
S ± 0.024
[0.60]
LEAD DIAMETER
T ± 0.020
[0.50]
NOMINAL
AWG
CC
0.394 [10.0] 0.512 [13.0] 0.413 [10.5] 0.563 [14.3] 0.413 [10.5] 0.630 [16.0] 0.197 [5.0]
n/a
0.025 [0.63]
22
CD
0.394 [10.0] 0.630 [16.0] 0.413 [10.5] 0.669 [17.0] 0.413 [10.5] 0.740 [18.8] 0.197 [5.0]
n/a
0.025 [0.63]
22
CG
0.394 [10.0] 0.787 [20.0] 0.413 [10.5] 0.846 [21.5] 0.413 [10.5] 0.906 [23.0] 0.197 [5.0]
n/a
0.025 [0.63]
22
DG
0.492 [12.5] 0.787 [20.0] 0.512 [13.0] 0.846 [21.5] 0.512 [13.0] 0.906 [23.0] 0.197 [5.0] 0.098 [2.5]
0.032 [0.81]
20
DK
0.492 [12.5] 0.984 [25.0] 0.512 [13.0] 1.043 [26.5] 0.512 [13.0] 1.142 [29.0] 0.197 [5.0] 0.098 [2.5]
0.032 [0.81]
20
DM
0.492 [12.5] 1.043 [26.5] 0.512 [13.0] 1.102 [28.0] 0.512 [13.0] 1.161 [29.5] 0.197 [5.0] 0.098 [2.5]
0.032 [0.81]
20
DT
0.492 [12.5] 1.319 [33.5] 0.512 [13.0] 1.346 [34.2] 0.512 [13.0] 1.417 [36.0] 0.197 [5.0] 0.098 [2.5]
0.032 [0.81]
20
DS
0.492 [12.5] 1.673 [42.5] 0.512 [13.0] 1.720 [43.7] 0.512 [13.0] 1.791 [45.5] 0.197 [5.0] 0.098 [2.5]
0.032 [0.81]
20
EK
0.630 [16.0] 0.984 [25.0] 0.650 [16.5] 1.031 [26.2] 0.650 [16.5] 1.098 [27.9] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
EN
0.630 [16.0] 1.260 [32.0] 0.650 [16.5] 1.319 [33.5] 0.650 [16.5] 1.417 [36.0] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
ER
0.630 [16.0] 1.417 [36.0] 0.650 [16.5] 1.476 [37.5] 0.650 [16.5] 1.575 [40.0] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
ET
0.630 [16.0] 1.319 [33.5] 0.650 [16.5] 1.347 [34.2] 0.650 [16.5] 1.417 [36.0] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
EU
0.630 [16.0] 1.575 [40.0] 0.650 [16.5] 1.642 [41.7] 0.650 [16.5] 1.669 [42.4] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
FR
0.709 [18.0] 1.417 [36.0] 0.728 [18.5] 1.476 [37.5] 0.728 [18.5] 1.575 [40.0] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
FV
0.709 [18.0] 1.575 [40.0] 0.728 [18.5] 1.653 [42.0] 0.728 [18.5] 1.693 [43.0] 0.295 [7.5] 0.150 [3.8]
0.032 [0.81]
20
Revision: 12-Nov-13
Document Number: 42054
421
For technical questions, contact: [email protected]
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
672D
www.vishay.com
Vishay Sprague
TAPE AND REEL, SPECIFICATIONS TO EIA-468D in inches [millimeters]
Formed Leads
P
K
H
H0
F
W0 W
L1
P
d
D0
DIMENSIONS in inches [millimeters] AND PACKAGING QUANTITIES
CASE SIZE
F LEAD SPACING
STD. QTY/REEL
0.236 x 0.453 [6.0 x 11.0]
0.197 [5.0]
800
0.315 x 0.472 [8.0 x 12.0]
0.197 [5.0]
700
Unformed (Straight) Leads
P
H
F
W0 W
L1
d
P0
D0
f
DIMENSIONS in inches [millimeters] AND PACKAGING QUANTITIES
CASE SIZE
F LEAD SPACING
STD. QTY/REEL
0.236 x 0.453 [6.0 x 11.0]
0.098 [2.5]
800
0.315 x 0.472 [8.0 x 12.0]
0.140 [3.5]
(1)
700
0.394 x 0.512 [10.0 x 13.0]
0.197 [5.0]
500
0.394 x 0.630 [10.0 x 16.0]
0.197 [5.0]
500
0.394 x 0.787 [10.0 x 20.0]
0.197 [5.0]
500
Note
(1) Available as special order.
Revision: 12-Nov-13
Document Number: 42054
422
For technical questions, contact: [email protected]
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
672D
www.vishay.com
Vishay Sprague
DIMENSIONS in inches [millimeters]
ITEM
d - Lead-wire diameter
P - Pitch of component
P0 - Feed hole pitch
F - Lead-to-lead distance
K - Clinch height
H - Height of component from tape center
H0 - Lead-wire clinch height
W - Tape width
W0 - Hold down tape width
D0 - Feed hole diameter
f - Total tape thickness
L1 - 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]
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 [0.63]
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]
0.028 [0.7]
0.028 [0.7]
0.118 [3.0]
0.118 [3.0]
0.118 [3.0]
0.394 x 0.787
[10.0 x 20.0]
0.025 [0.63]
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]
0.028 [0.7]
0.118 [3.0]
Note
• Positive leader is standard. Negative leader is available by special order.
ORDERING EXAMPLE
Electrolytic capacitor 672D series: 672D 336 F 100 DM 5 D
DESCRIPTION
CODE
672D
336
F
100
DM
5
D
EXPLANATION
Product type
Capacitance value (33 μF)
Tolerance (F = -10 %/+50 %)
Voltage rating at 105 °C (100 = 100 V)
Can size (see Dimensions table)
Sleeve and sealing (5 = Polyester sleeve w/epoxy end seal)
Terminal code/packaging (D = Bulk; straight leads)
Note
• For lead (Pb)-free/RoHS compliant products add suffix “E3” to part number.
Example: 672D336F100DM5DE3
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER
150.0
220.0
1000.0
1500.0
3300.0
672D157F6RCD5D
672D227F6RCG5D
672D108F6REK5D
672D158F6RET5D
672D338F6RFV5D
100.0
470.0
1000.0
2200.0
672D107F012CC5D
672D477F012DM5D
672D108F012DS5D
672D228F012FV5D
100.0
470.0
1000.0
672D107F015CD5D
672D477F015DT5D
672D108F015ET5D
100.0
470.0
1000.0
672D107F020CG5D
672D477F020EK5D
672D158F020FV5D
Revision: 12-Nov-13
NOMINAL CASE SIZE
DxL
MAX. ESR
AT +25 °C (m)
120 Hz
20 kHz
6.3 WVDC AT 105 °C, SURGE = 9 V
0.394 x 0.630 [10.0 x 16.0]
1.10
0.70
0.394 x 0.787 [10.0 x 20.0]
0.75
0.40
0.630 x 0.984 [16.0 x 25.0]
0.16
0.09
0.630 x 1.319 [16.0 x 33.5]
0.105
0.06
0.709 x 1.575 [18.0 x 40.0]
0.075
0.045
12 WVDC AT 105 °C, SURGE = 16 V
0.394 x 0.512 [10.0 x 13.0]
1.60
0.90
0.492 x 1.043 [12.5 x 26.5]
0.31
0.16
0.492 x 1.673 [12.5 x 42.5]
0.15
0.08
0.709 x 1.575[18.0 x 40.0]
0.08
0.05
15 WVDC AT 105 °C, SURGE = 20 V
0.394 x 0.630 [10.0 x 16.0]
1.35
0.70
0.492 x 1.319 [12.5 x 35.5]
0.25
0.12
0.630 x 1.319 [16.0 x 33.5]
0.12
0.06
20 WVDC AT 105 °C, SURGE = 30 V
0.394 x 0.787 [10.0 x 20.0]
1.25
0.40
0.630 x 0.984 [16.0 x 25.0]
0.24
0.09
0.709 x 1.575 [18.0 x 40.0]
0.09
0.05
MAX. RIPPLE
AT +85 °C (A)
20 kHz TO 100 kHz
MAX.
IMPEDANCE
AT +25 °C (m)
100 Hz
0.50
0.70
2.05
2.90
3.40
0.60
0.33
0.085
0.055
0.045
0.40
1.35
2.35
3.30
0.70
0.12
0.06
0.05
0.50
1.75
2.90
0.50
0.11
0.055
0.70
2.00
3.25
0.35
0.085
0.05
Document Number: 42054
423
For technical questions, contact: [email protected]
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
672D
www.vishay.com
Vishay Sprague
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER
47.0
330.0
470.0
1200.0
672D476F025CC5D
672D337F025DT5D
672D477F025DS5D
672D128F025FV5D
220.0
330.0
672D227F040EK5D
672D337F040ET5D
100.0
150.0
220.0
470.0
672D107F050DT5D
672D157F050EK5D
672D277F050ET5D
672D477F050FV5D
15.0
22.0
100.0
150.0
672D156F060CD5D
672D226F060CG5D
672D107F060EK5D
672D157F060ET5D
12.0
120.0
672D126F075CD5D
672D127F075ET5D
10.0
33.0
120.0
672D106F100CD5D
672D336F100DM5D
672D127F100ET5D
4.7
15.0
47.0
672D475F200CG5D
672D156F200DT5D
672D476F200FV5D
10.0
672D106F250DT5D
NOMINAL CASE SIZE
DxL
MAX. ESR
AT +25 °C (m)
120 Hz
20 kHz
25 WVDC AT 105 °C, SURGE = 35 V
0.394 x 0.512 [10.0 x 13.0]
2.35
0.90
0.492 x 1.319 [12.5 x 33.5]
0.29
0.12
0.492 x 1.673 [12.5 x 42.5]
0.22
0.08
0.709 x 1.575 [18.0 x 40.0]
0.10
0.05
40 WVDC AT 105 °C, SURGE = 55 V
0.630 x 0.984 [16.0 x 25.0]
0.48
0.14
0.630 x 1.319 [16.0 x 33.5]
0.32
0.12
50 WVDC AT 105 °C, SURGE = 75 V
0.492 x 1.319 [12.5 x 33.5]
0.80
0.26
0.630 x 0.984[16.0 x 25.0]
0.55
0.22
0.630 x 1.319 [16.0 x 33.5]
0.40
0.15
0.709 x 1.575 [18.0 x 40.0]
0.25
0.09
60 WVDC AT 105 °C, SURGE = 85 V
0.394 x 0.512 [10.0 x 13.0]
7.00
2.00
0.394 x 0.787 [10.0 x 20.0]
4.60
1.20
0.630 x 0.984 [16.0 x 25.0]
0.90
0.28
0.630 x 1.319 [16.0 x 33.5]
0.60
0.18
75 WVDC AT 105 °C, SURGE = 100 V
0.394 x 0.512 [10.0 x 13.0]
8.50
2.20
0.630 x 1.319 [16.0 x 33.5]
0.68
0.18
100 WVDC AT 105 °C, SURGE = 125 V
0.394 x 0.630 [10.0 x 16.0]
10.00
2.30
0.492 x 1.043 [12.5 x 26.5]
2.55
0.55
0.630 x 1.319 [16.0 x 33.5]
0.68
0.19
200 WVDC AT 105 °C, SURGE = 250 V
0.394 x 0.787 [10.0 x 20.0]
22.50
1.95
0.492 x 1.319 [12.5 x 33.5]
7.00
0.58
0.709 x 1.575 [18.0 x 40.0]
2.30
0.18
250 WVDC AT 105 °C, SURGE = 300 V
0.492 x 1.319 [12.5 x 33.5]
12.00
1.50
MAX. RIPPLE
AT +85 °C (A)
20 kHz TO 100 kHz
MAX.
IMPEDANCE
AT +25 °C (m)
100 Hz
0.40
1.75
2.35
3.20
0.85
0.10
0.07
0.055
1.65
2.25
0.12
0.08
1.15
1.30
1.85
2.40
0.22
0.18
0.12
0.095
0.28
0.40
1.20
1.65
1.70
1.00
0.24
0.15
0.26
1.50
1.75
0.16
0.26
0.72
1.50
1.80
0.39
0.17
0.31
0.76
1.90
1.75
0.55
0.165
0.48
1.60
ELECTRICAL DATA AND ORDERING INFORMATION - Original ratings
CAPACITANCE (μF)
150.0
220.0
680.0
1000.0
1200.0
3300.0
100.0
150.0
680.0
1000.0
2700.0
CASE CODE
6.3 WVDC AT 105 °C, SURGE = 9 V
CD
CG
DM
EK
DS
FV
7.5 WVDC AT 105 °C, SURGE = 10 V
CC
CD
DT
ET
FV
PART NUMBER
672D157H6R3CD5C
672D227H6R3CG5C
672D687H6R3DM5C
672D108H6R3EK5C
672D158H6R3ET5C
672D338H6R3FV5C
672D107H7R5CC5C
672D157H7R5CD5C
672D687H7R5DT5C
672D108H7R5ET5C
672D278H7R5FV5C
Note
• Capacitance tolerance code H, -10 %, +100 %; Lead code C, cut leads. C lead = Negative lead: 0.281" [7.1 mm], ± 0.062" [1.6 mm]; Positive
lead: 0375" [9.5 mm], ± 0.062" [1.6 mm]. D lead = 1.0" [25.4 mm] minimum.
Revision: 12-Nov-13
Document Number: 42054
424
For technical questions, contact: [email protected]
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
672D
www.vishay.com
Vishay Sprague
ELECTRICAL DATA AND ORDERING INFORMATION - Original ratings
CAPACITANCE (μF)
100.0
150.0
470.0
680.0
1000.0
2200.0
100.0
150.0
470.0
680.0
820.0
1000.0
1800.0
68.0
100.0
330.0
470.0
560.0
680.0
1500.0
47.0
68.0
330.0
470.0
680.0
1200.0
47.0
220.0
330.0
390.0
820.0
22.0
100.0
150.0
180.0
220.0
470.0
15.0
22.0
68.0
100.0
120.0
150.0
390.0
CASE CODE
12 WVDC AT 105 °C, SURGE = 16 V
CC
CG
DM
DT
DS
FV
15 WVDC AT 105 °C, SURGE = 20 V
CD
CG
DT
EK
DS
ET
FV
20 WVDC AT 105 °C, SURGE = 30 V
CD
CG
DM
EK
DS
ET
FV
25 WVDC AT 105 °C, SURGE = 35 V
CC
CD
DT
DS
EU
FV
40 WVDC AT 105 °C, SURGE = 55 V
CD
EK
ET
DS
FV
50 WVDC AT 105 °C, SURGE = 75 V
CD
DT
EK
DS
ET
FV
60 WVDC AT 105 °C, SURGE = 85 V
CD
CG
DM
EK
DS
ET
FV
PART NUMBER
672D107H012CC5C
672D157H012CG5C
672D477H012DM5C
672D687H012DT5C
672D108H012DS5C
672D228H012FV5C
672D107H015CD5C
672D157H015CG5C
672D477H015DT5C
672D687H015EK5C
672D827H015DS5C
672D108H015ET5C
672D188H015FV5C
672D868H020CD5C
672D107H020CG5C
672D337H020DM5C
672D477H020EK5C
672D567H020DS5C
672D687H020ET5C
672D158H020FV5C
672D476H025CC5C
672D686H025CD5C
672D337H025DT5C
672D477H025DS5C
672D687H025EU5C
672D128H025FV5C
672D476H040CD5C
672D227H040EK5C
672D337H040ET5C
672D397H040DS5C
672D827H040FV5C
672D226H050CD5C
672D107H050DT5C
672D157H050EK5C
672D187H050DS5C
672D227H050ET5C
672D477H050FV5C
672D156H060CD5C
672D226H060CG5C
672D686H060DM5C
672D107H060EK5C
672D127H060DS5C
672D157H060ET5C
672D397H060FV5C
Note
• Capacitance tolerance code H, -10 %, +100 %; Lead code C, cut leads. C lead = Negative lead: 0.281" [7.1 mm], ± 0.062" [1.6 mm]; Positive
lead: 0375" [9.5 mm], ± 0.062" [1.6 mm]. D lead = 1.0" [25.4 mm] minimum.
Revision: 12-Nov-13
Document Number: 42054
425
For technical questions, contact: [email protected]
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
672D
www.vishay.com
Vishay Sprague
ELECTRICAL DATA AND ORDERING INFORMATION - Original ratings
CAPACITANCE (μF)
CASE CODE
PART NUMBER
75 WVDC AT 105 °C, SURGE = 100 V
12.0
CD
672D126H075CD5C
18.0
CG
672D186H075CG5C
82.0
EK
672D826H075EK5C
120.0
ET
672D127H075ET5C
270.0
FV
672D277H075FV5C
100 WVDC AT 105 °C, SURGE = 125 V
8.2
CC
10.0
CD
672D825H100CC5C
672D106H100CD5C
33.0
DM
672D336H100DM5C
68.0
EK
672D686H100EK5C
120.0
ET
672D127H100ET5C
180.0
FV
672D187H100FV5C
150 WVDC AT 105 °C, SURGE = 200 V
6.8
CG
672D685H150CG5C
22.0
DT
672D226H150DT5C
39.0
ET
672D396H150ET5C
68.0
FV
672D686H150FV5C
200 WVDC AT 105 °C, SURGE = 250 V
4.7
CG
672D475H200CG5C
15.0
DT
672D156H200DT5C
27.0
ET
672D276H200ET5C
47.0
FV
672D476H200FV5C
250 WVDC AT 105 °C, SURGE = 300 V
8.2
DM
672D825H250DM5C
10.0
DT
672D106H250DT5C
22.0
ET
672D226H250ET5C
39.0
FV
672D396H250FV5C
Note
• Capacitance tolerance code H, -10 %, +100 %; Lead code C, cut leads. C lead = Negative lead: 0.281" [7.1 mm], ± 0.062" [1.6 mm]; Positive
lead: 0375" [9.5 mm], ± 0.062" [1.6 mm]. D lead = 1.0" [25.4 mm] minimum.
Revision: 12-Nov-13
Document Number: 42054
426
For technical questions, contact: [email protected]
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
510DX
www.vishay.com
Vishay Sprague
Aluminum Capacitors
+125 °C, Miniature, Radial Lead
FEATURES
• +125 °C performance
• Suitable for tantalum foil replacement
Available
applications
• Low DC leakage currents
• Very stable, long life
• Case sizes through 0.709" x 1.417" [18.0 mm x 36.0 mm]
• Optional third lead on diameters  0.492" [12.5 mm]
• Material categorization: For definitions of compliance
please see www.vishay.com/doc?99912
QUICK REFERENCE DATA
DESCRIPTION
RIPPLE CURRENT MULTIPLIERS
TEMPERATURE
AMBIENT TEMPERATURE
MULTIPLIERS
+125 °C
0.4
+105 °C
1.0
+85 °C
1.41
+75 °C
1.58
 +65 °C
,1.73
FREQUENCY (Hz)
FREQUENCY (Hz) 50 TO 60 100 TO 120 300 TO 400 1K AND UP
0.85
1.00
1.05
1.10
MULTIPLIERS
0.80
1.00
1.30
1.40
VALUE
Nominal case size 
Ø D x L in mm
0.236" x 0.433" [6.0 x 11.0]
to 0.709" x 1.417" [18.0 x 36.0]
Operating temperature
-40 °C to +125 °C
Rated capacitance range, CR
1.0 μF to 6800 μF
Tolerance on CR
± 20 %
Rated voltage range, UR
6.3 WVDC to 63 WVDC
Termination
2 and 3 radial leads
Life validation test at 125 °C
2000 h: CAP  15 %
(6.3 WVDC to 10 WVDC),
 10 % (16 WVDC to 63 WVDC)
from initial measurement.
DF  1.25 x initial specified limit.
DCL  initial specified limit.
Shelf life at 105 °C
500 h: CAP  12 % from
initial measurement.
DF  1.25 x initial specified limit.
DCL  2.0 x initial specified limit.
DC leakage current
(after 2 min charge)
I = 0.01 CV
I in μA, C in μF, V in Volts
LOW TEMPERATURE PERFORMANCE
CAPACITANCE RATIO C-55 °C/C+25 °C MINIMUM AT 120 Hz
RATED VOLTAGE (WVDC)
CAPACITANCE REMAINING
6.3 to 10
75 %
16 to 25
80 %
36 to 63
85 %
ESR RATIO ESR-55 °C/ESR+25 °C MAXIMUM AT 120 Hz
MULTIPLIER
RATED VOLTAGE (WVDC)
6.3 to 10
35
16 to 25
30
36 to 63
25
DIMENSIONS in inches [millimeters]
NOMINAL
STYLES 2 AND 4
STYLES 3 AND 5
CASE
CODE
D
L
D (max.)
L (max.)
D (max.)
BB
BD
CC
CG
DG
DK
EN
ER
FR
0.315 [8.0]
0.315 [8.0]
0.394 [10.0]
0.394 [10.0]
0.492 [12.5]
0.492 [12.5]
0.630 [16.0]
0.630 [16.0]
0.709 [18.0]
0.472 [12.0]
0.630 [16.0]
0.512 [13.0]
0.787 [20.0]
0.787 [20.0]
0.984 [25.0]
1.260 [32.0]
1.417 [36.0]
1.417 [36.0]
0.335 [8.5]
0.335 [8.5]
0.413 [10.5]
0.413 [10.5]
0.512 [13.0]
0.512 [13.0]
0.650 [16.5]
0.650 [16.5]
0.728 [18.5]
0.512 [13.0]
0.669 [17.0]
0.563 [14.3]
0.846 [21.5]
0.846 [21.5]
1.043 [26.5]
1.319 [33.5]
1.476 [37.5]
1.476 [37.5]
0.335 [8.5]
0.335 [8.5]
0.413 [10.5]
0.413 [10.5]
0.512 [13.0]
0.512 [13.0]
0.650 [16.5]
0.650 [16.5]
0.728 [18.5]
Revision: 07-Nov-13
LEAD SPACING
LEAD DIAMETER
L (max.)
S ± 0.024
[0.60]
T ± 0.020
[0.50]
NOMINAL
AWG
NO.
0.551 [14.0]
0.709 [18.0]
0.630 [16.0]
0.906 [23.0]
0.906 [23.0]
1.142 [29.0]
1.417 [36.0]
1.575 [40.0]
1.575 [40.0]
0.138 [3.5]
0.138 [3.5]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.197 [5.0]
0.295 [7.5]
0.295 [7.5]
0.295 [7.5]
n/a
n/a
n/a
n/a
0.098 [2.5]
0.098 [2.5]
0.150 [3.8]
0.150 [3.8]
0.150 [3.8]
0.025 [0.63]
0.025 [0.63]
0.025 [0.63]
0.025 [0.63]
0.028 [0.71]
0.032 [0.81]
0.032 [0.81]
0.032 [0.81]
0.032 [0.81]
22
22
22
22
20
20
20
20
20
Document Number: 42050
427
For technical questions, contact: [email protected]
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
510DX
www.vishay.com
Vishay Sprague
DIMENSIONS in inches [millimeters] AND AVAILABLE FORMS
P
Formed Leads
K
H
H0
F
W0 W
L1
P0
d
D0
DIMENSIONS in inches [millimeters] AND PACKAGING QUANTITIES
CASE SIZE
F LEAD SPACING
STD. QTY/REEL
0.236 x 0.433 [6.0 x 11.0]
0.197 [5.0]
800
0.315 x 0.472 [8.0 x 12.0]
0.197 [5.0]
700
Unformed (Straight) Leads
P
H
F
W0 W
L1
P0
d
D0
f
DIMENSIONS in inches [millimeters] AND PACKAGING QUANTITIES
CASE SIZE
F LEAD SPACING
STD. QTY/REEL
0.236 x 0.433 [6.0 x 11.0]
0.098 [2.5] (1)
800
0.315 x 0.472 [8.0 x 12.0]
0.140 [3.5] (1)
700
0.394 x 0.512 [10.0 x 13.0]
0.197 [5.0]
500
0.394 x 0.630 [10.0 x 16.0]
0.197 [5.0]
500
0.394 x 0.787 [10.0 x 20.0]
0.197 [5.0]
500
Note
(1) Available as special order.
Revision: 07-Nov-13
Document Number: 42050
428
For technical questions, contact: [email protected]
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
510DX
www.vishay.com
Vishay Sprague
DIMENSIONS in inches [millimeters]
ITEM
d - Lead-wire diameter
P - Pitch of component
P0 - Feed hole pitch
F - Lead-to-lead distance
K - Clinch height
H - Height of component from tape center
H0 - Lead-wire clinch height
W - Tape width
W0 - Hold down tape width
D0 - Feed hole diameter
t - Total tape thickness
L1 - 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]
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 [0.63]
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]
0.028 [0.7]
0.028 [0.7]
0.118 [3.0]
0.118 [3.0]
0.118 [3.0]
0.394 x 0.787
[10.0 x 20.0]
0.025 [0.63]
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]
0.028 [0.7]
0.118 [3.0]
Note
• Positive leader is standard. Negative leader is available by special order.
ORDERING EXAMPLE
Electrolytic capacitor 510DX series: 510DX 227 M 050 DG 2 D
DESCRIPTION
CODE
510DX
227
M
050
DG
2
D
EXPLANATION
Product type
Capacitance value (220 μF)
Tolerance (M = ± 20 %)
Voltage rating at 105 °C (050 = 50 V)
Can size (see “Dimensions” table)
Sleeve and sealing (2 = Polyester sleeve)
Packaging (D = Bulk; straight leads)
Note
• For lead (Pb)-free/RoHS compliant products add suffix “E3” to part number.
Example: 510DX227M050DG2DE3
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER (1)
330.0
1000.0
1500.0
4700.0
510DX337M6R3CC2D
510DX108M6R3DG2D
510DX158M6R3DK2D
510DX478M6R3ER2D
150.0
220.0
1200.0
4700.0
510DX157M010BB2D
510DX227M010BD2D
510DX128M010DK2D
510DX478M010FR2D
150.0
470.0
2200.0
510DX157M016BD2D
510DX477M016DG2D
510DX228M016ER2D
Revision: 07-Nov-13
NOMINAL CASE SIZE
DxL
IN INCHES (mm)
MAX. ESR
AT +25 °C (m)
MAX. RIPPLE
AT +105 °C (A)
120 Hz 20 kHz TO 40 kHz 120 Hz 20 kHz TO 40 kHz
6.3 WVDC AT 125 °C, SURGE = 8 V
0.394 x 0.512 [10.0 x 13.0] 1206.0
507.0
0.492 x 0.787 [12.5 x 20.0] 398.0
201.0
0.492 x 0.984 [12.5 x 25.0] 265.0
133.0
0.630 x 1.417 [16.0 x 36.0]
85.0
40.0
10 WVDC AT 125 °C, SURGE = 13 V
0.315 x 0.472 [8.0 x 12.0] 2210.0
948.0
0.315 x 0.630 [8.0 x 16.0] 1507.0
528.0
0.492 x 0.984 [12.5 x 25.0] 276.0
138.0
0.709 x 1.417[18.0 x 36.0]
71.0
37.0
16 WVDC AT 125 °C, SURGE = 20 V
0.315 x 0.630 [8.0 x 16.0] 1415.0
549.0
0.492 x 0.787 [12.5 x 20.0] 451.0
216.0
0.630 x 1.417 [16.0 x 36.0]
96.0
43.0
MAX. Z
AT +25 °C
(m)
100 Hz
0.294
0.697
0.931
2.193
0.454
0.984
1.313
3.193
457.0
181.0
121.0
36.0
0.182
0.247
0.911
2.582
0.278
0.417
1.287
3.576
854.0
475.0
124.0
33.0
0.255
0.654
2.060
0.409
0.946
3.078
494.0
194.0
39.0
Document Number: 42050
429
For technical questions, contact: [email protected]
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
510DX
www.vishay.com
Vishay Sprague
ELECTRICAL DATA AND ORDERING INFORMATION
CAPACITANCE
(μF)
PART NUMBER (1)
NOMINAL CASE SIZE
DxL
IN INCHES (mm)
MAX. ESR
AT +25 °C (m)
MAX. RIPPLE
AT +105 °C (A)
120 Hz 20 kHz TO 40 kHz 120 Hz 20 kHz TO 40 kHz
MAX. Z
AT +25 °C
(m)
100 Hz
25 WVDC AT 125 °C, SURGE = 32 V
100.0
510DX107M025BD2D
0.315 x 0.630 [8.0 x 16.0]
1459.0
571.0
0.251
0.401
514.0
100.0
510DX107M025CC2D
0.394 x 0.512 [10.0 x 13.0]
1459.0
571.0
0.268
0.428
514.0
330.0
510DX337M025DG2D
0.492 x 0.787 [12.5 x 20.0]
442.0
224.0
0.661
0.927
202.0
470.0
510DX477M025DK2D
0.492 x 0.984 [12.5 x 25.0]
310.0
150.0
0.859
1.238
135.0
1500.0
510DX158M025ER2D
0.630 x 1.417 [16.0 x 36.0]
97.0
45.0
2.049
3.009
40.0
47.0
510DX476M035BB2D
0.315 x 0.472 [8.0 x 12.0]
2822.0
1067.0
0.161
0.262
960.0
100.0
510DX107M035CC2D
0.394 x 0.512 [10.0 x 13.0]
1326.0
593.0
0.281
0.421
534.0
220.0
510DX227M035CG2D
0.394 x 0.787 [10.0 x 20.0]
603.0
248.0
0.496
0.774
223.0
470.0
510DX477M035DK2D
0.492 x 0.984 [12.5 x 25.0]
282.0
156.0
0.901
1.214
140.0
1200.0
510DX128M035EN2D
0.630 x 1.260 [16.0 x 32.0]
111.0
58.0
1.826
2.527
52.0
1500.0
510DX158M035ER2D
0.630 x 1.417 [16.0 x 36.0]
88.0
47.0
2.151
2.944
42.0
35 WVDC AT 125 °C, SURGE = 44 V
50 WVDC AT 125 °C,