T52M1157M025C0070 [VISHAY]
Polymer Surface Mount Chip Capacitors;型号: | T52M1157M025C0070 |
厂家: | VISHAY |
描述: | Polymer Surface Mount Chip Capacitors |
文件: | 总15页 (文件大小:552K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
T52
Vishay
www.vishay.com
vPolyTanTM Polymer Surface Mount Chip Capacitors,
Low Profile, Leadframeless Molded Type
FEATURES
• Ultra-low ESR
• 100 ꢀ surge current tested
• Molded case 7360, 7343 EIA size
• Lead (Pb)-free L-shaped face-down terminations
• 12 mm tape and reel packaging available per
EIA-481 standard
• Material categorization:
for definitions of compliance please see
www.vishay.com/doc?99912
PERFORMANCE / ELECTRICAL
CHARACTERISTICS
Operating Temperature: -55 °C to +105 °C
Capacitance Range: 47 μF to 1500 μF
Capacitance Tolerance: 20 ꢀ
Voltage Rating: 6.3 VDC to 35 VDC
APPLICATIONS
• Decoupling, smoothing, filtering
• Bulk energy storage in Solid State Drives (SSD)
• Infrastructure equipment
• Storage and networking
• Computer motherboards
• Smartphones and tablets
ORDERING INFORMATION
T52
M1
337
M
016
C
0025
TYPE
CASE
CODE
CAPACITANCE
CAPACITANCE
TOLERANCE
DC VOLTAGE
RATING
TERMINATION /
PACKAGING
ESR
See
Ratings
and
This is expressed in
picofarads. The first
two digits are the
significant figures.
The third is the
number of zeros
to follow.
M = 20 ꢀ
This is expressed
in volts. To
C = 100 ꢀ tin, 7" reel
Maximum
100 kHz ESR
in m
complete the
Case
three-digit block,
zeros precede the
voltage rating.
A decimal point is
indicated by an “R”
(6R3 = 6.3 V)
Codes
table.
DIMENSIONS in inches [millimeters]
Anode
Cathode
termination
termination
Anode polarity mark
0.25 Ref.
A
A
View A
Both sides typical
L
P1
P2
P1
CASE CODE
EIA SIZE
H (MAX.)
L
W
P1
P2 (REF.)
C
0.059
[1.5]
0.287 0.012
[7.3 0.3]
0.169 0.012
[4.3 0.3]
0.051 0.008
[1.3 0.2]
0.191
[4.85]
0.094 0.008
[2.4 0.2]
E5
7343-15
0.079
[2.0]
0.287 0.012
[7.3 0.3]
0.169 0.012
[4.3 0.3]
0.051 0.008
[1.3 0.2]
0.191
[4.85]
0.094 0.008
[2.4 0.2]
E1
7343-20
7360-20
0.079
[2.0]
0.287 0.012
[7.3 0.3]
0.236 0.012
[6.0 0.3]
0.051 0.008
[1.3 0.2]
0.191
[4.85]
0.161 0.008
[4.1 0.2]
M1
Revision: 05-Oct-17
Document Number: 40216
1
For technical questions, contact: polytech@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
T52
Vishay
www.vishay.com
RATINGS AND CASE CODES (ESR m)
μF
6.3 V
10 V
16 V
25 V
35 V
47
E5 (55, 70, 100) (1)
M1 (70) (1)
E5 (55, 70, 100) (1)
150
220
330
470
1000
1500
E5 (55) (1)
M1 (55 / 70)
M1 (40 / 55)
M1 (55) (1)
E5 (55) (1) / M1 (55)
M1 (55)
M1 (35 / 55) (1)
M1 (25 / 35 / 55) (1)
Note
(1)
Rating in development, contact factory for availability
MARKING
Polarity mark
+ + +
VISHAY T52
Vishay logo
®
Family
Capacitance - Voltage
2
330µF-16V
STANDARD RATINGS
MAX. DF
MAX. ESR
AT +25 °C
100 kHz
(m)
MAX. DCL
AT +25 °C
(μA)
MAX. RIPPLE,
100 kHz IRMS
(A)
CAPACITANCE
AT +25 °C
120 Hz
(%)
CASE CODE
PART NUMBER
(μF)
6.3 VDC AT +105 °C
1000
1000
1500
1500
1500
M1 (1)
M1 (1)
M1 (1)
M1 (1)
M1 (1)
T52M1108M6R3C0055
630
630
945
945
945
10
10
10
10
10
55
35
55
35
25
1.732
2.171
1.732
2.171
2.569
T52M1108M6R3C0035
T52M1158M6R3C0055
T52M1158M6R3C0035
T52M1158M6R3C0025
10 VDC AT +105 °C
220
220
330
E5 (1)
M1
T52E5227M010C0055
220
220
330
10
10
10
55
55
55
1.595
1.732
1.732
T52M1227M010C0055
T52M1337M010C0055
M1
16 VDC AT +105 °C
150
220
220
330
330
470
E5 (1)
M1
T52E5157M016C0055
240
352
352
528
528
752
10
10
10
10
10
10
55
70
55
55
40
55
1.595
1.535
1.732
1.732
2.031
1.732
T52M1227M016C0070
T52M1227M016C0055
T52M1337M016C0055
T52M1337M016C0040
T52M1477M016C0055
M1
M1
M1
M1 (1)
Note
(1)
Rating in development, contact factory for availability
Revision: 05-Oct-17
Document Number: 40216
2
For technical questions, contact: polytech@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
T52
Vishay
www.vishay.com
STANDARD RATINGS
MAX. DF
AT +25 °C
120 Hz
(%)
MAX. ESR
AT +25 °C
100 kHz
(m)
MAX. DCL
AT +25 °C
(μA)
MAX. RIPPLE,
100 kHz IRMS
(A)
CAPACITANCE
(μF)
CASE CODE
PART NUMBER
25 VDC AT +105 °C
47
47
E5 (1)
E5 (1)
E5 (1)
M1 (1)
T52E5476M025C0100
T52E5476M025C0070
T52E5476M025C0055
T52M1157M025C0070
118
118
118
375
10
10
10
10
100
70
1.183
1.414
1.595
1.535
47
55
150
70
35 VDC AT +105 °C
47
47
47
E5 (1)
E5 (1)
E5 (1)
T52E5476M035C0100
165
165
165
10
10
10
100
70
1.183
1.414
1.595
T52E5476M035C0070
T52E5476M035C0055
55
Note
(1)
Rating in development, contact factory for availability
RECOMMENDED VOLTAGE DERATING GUIDELINES
CAPACITOR VOLTAGE RATING
OPERATING VOLTAGE
6.3
10
16
25
35
5.0
8.0
12.8
20
28
POWER DISSIPATION
CASE CODE
MAXIMUM PERMISSIBLE POWER DISSIPATION AT +25 °C (W) IN FREE AIR
E5
E1
0.140
0.150
0.165
M1
STANDARD PACKAGING QUANTITY
CASE CODE
UNITS PER 7" REEL
E5
E1
1000
1000
1000
M1
PERFORMANCE CHARACTERISTICS
ITEM
CONDITION
POST TEST PERFORMANCE
Life test at +105 °C
2000 h application of rated voltage at 105 °C,
MIL-STD-202 method 108
Capacitance change Within 20 ꢀ of initial value
Dissipation factor
Leakage current
Within initial limits
Shall not exceed 300 ꢀ of initial limit
Shelf life test
at +105 °C
2000 h no voltage applied at 105 °C,
MIL-STD-202 method 108
Capacitance change Within 20 ꢀ of initial value
Dissipation factor
Leakage current
Within initial limits
Shall not exceed 300 ꢀ of initial limit
Humidity tests
At 60 °C / 90 ꢀ RH 500 h, no voltage applied
Capacitance change -20 ꢀ to +40 ꢀ of initial value
Dissipation factor
Leakage current
Within initial limit
Shall not exceed 300 ꢀ of initial limit
Revision: 05-Oct-17
Document Number: 40216
3
For technical questions, contact: polytech@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
T52
Vishay
www.vishay.com
PERFORMANCE CHARACTERISTICS
ITEM
CONDITION
POST TEST PERFORMANCE
Capacitance change Within -20 ꢀ to 0 ꢀ of initial value
Stability at low and
high temperatures
-55 °C
Dissipation factor
Leakage current
Shall not exceed 150 ꢀ of initial limit
n/a
25 °C
85 °C
105 °C
Capacitance change Within 20 ꢀ of initial value
Dissipation factor
Leakage current
Within initial limit
Within initial limit
Capacitance change Within 0 ꢀ to +40 ꢀ of initial value
Dissipation factor
Leakage current
Within initial limit
Shall not exceed 1000 ꢀ of initial value
Capacitance change Within 0 ꢀ to +40 ꢀ of initial value
Dissipation factor
Leakage current
Within initial limits
Shall not exceed 1000 ꢀ of initial limits
Surge voltage
85 °C, 1000 successive test cycles at 1.3 of
rated voltage in series with a 33 resistor at
the rate of 30 s ON, 30 s OFF
Capacitance change Within 20 ꢀ of initial value
Dissipation factor
Leakage current
Within initial limit
Shall not exceed 300 ꢀ of initial limit
Shock
(specified pulse)
MIL-STD-202, method 213, condition E,
1000 g peak
Capacitance change Within 20 ꢀ of initial value
Dissipation factor
Leakage current
Within initial limit
Shall not exceed 300 ꢀ of initial limit
Vibration
MIL-STD-202, method 204, condition D,
10 Hz to 2000 Hz 20 g peak
There shall be no mechanical or visual damage to capacitors
post-conditioning.
Shear test
Apply a pressure load of 5 N for 10 s 1 s
horizontally to the center of capacitor side body
Capacitance change Within 20 ꢀ of initial value
Dissipation factor
Leakage current
Within initial limit
Shall not exceed 300 ꢀ of initial limit
PRODUCT INFORMATION
Polymer Guide
www.vishay.com/doc?40076
Moisture Sensitivity
Infographic
www.vishay.com/doc?40135
www.vishay.com/doc?48084
www.vishay.com/doc?48073
Sample Board
FAQ
Frequently Asked Questions
www.vishay.com/doc?42106
Revision: 05-Oct-17
Document Number: 40216
4
For technical questions, contact: polytech@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
Polymer Guide
www.vishay.com
Vishay
Guide for Tantalum Solid Electrolyte Chip Capacitors
with Polymer Cathode
Rating for rating, tantalum capacitors tend to have as much
as three times better capacitance/volume efficiency than
aluminum electrolytic capacitors. An approximation of the
capacitance/volume efficiency of other types of capacitors
may be inferred from the following table, which shows the
dielectric constant ranges of the various materials used in
each type. Note that tantalum pentoxide has a dielectric
constant of 26, some three times greater than that of
aluminum oxide. This, in addition to the fact that extremely
thin films can be deposited during the electrolytic process
mentioned earlier, makes the tantalum capacitor extremely
efficient with respect to the number of microfarads available
per unit volume. The capacitance of any capacitor is
determined by the surface area of the two conducting
plates, the distance between the plates, and the dielectric
constant of the insulating material between the plates.
INTRODUCTION
Tantalum electrolytic capacitors are the preferred choice in
applications where volumetric efficiency, stable electrical
parameters, high reliability, and long service life are primary
considerations. The stability and resistance to elevated
temperatures of the tantalum/tantalum oxide/manganese
dioxide system make solid tantalum capacitors an
appropriate choice for today's surface mount assembly
technology.
Vishay Sprague has been a pioneer and leader in this field,
producing a large variety of tantalum capacitor types for
consumer, industrial, automotive, military, and aerospace
electronic applications.
Tantalum is not found in its pure state. Rather, it is
commonly found in a number of oxide minerals, often in
combination with Columbium ore. This combination is
known as “tantalite” when its contents are more than
one-half tantalum. Important sources of tantalite include
Australia, Brazil, Canada, China, and several African
countries. Synthetic tantalite concentrates produced from
tin slags in Thailand, Malaysia, and Brazil are also a
significant raw material for tantalum production.
Electronic applications, and particularly capacitors,
consume the largest share of world tantalum production.
Other important applications for tantalum include cutting
tools (tantalum carbide), high temperature super alloys,
chemical processing equipment, medical implants, and
military ordnance.
COMPARISON OF CAPACITOR
DIELECTRIC CONSTANTS
e
DIELECTRIC
DIELECTRIC CONSTANT
Air or vacuum
Paper
1.0
2.0 to 6.0
2.1 to 6.0
2.2 to 2.3
2.7 to 2.8
3.8 to 4.4
4.8 to 8.0
5.1 to 5.9
5.4 to 8.7
8.4
Plastic
Mineral oil
Silicone oil
Quartz
Glass
Vishay Sprague is a major user of tantalum materials in the
form of powder and wire for capacitor elements and rod and
sheet for high temperature vacuum processing.
Porcelain
Mica
Aluminum oxide
Tantalum pentoxide
Ceramic
THE BASICS OF TANTALUM CAPACITORS
26
Most metals form crystalline oxides which are
non-protecting, such as rust on iron or black oxide on
copper. A few metals form dense, stable, tightly adhering,
electrically insulating oxides. These are the so-called
“valve“metals and include titanium, zirconium, niobium,
tantalum, hafnium, and aluminum. Only a few of these
permit the accurate control of oxide thickness by
electrochemical means. Of these, the most valuable for the
electronics industry are aluminum and tantalum.
Capacitors are basic to all kinds of electrical equipment,
from radios and television sets to missile controls and
automobile ignitions. Their function is to store an electrical
charge for later use.
12 to 400K
In the tantalum electrolytic capacitor, the distance between
the plates is very small since it is only the thickness of the
tantalum pentoxide film. As the dielectric constant of the
tantalum pentoxide is high, the capacitance of a tantalum
capacitor is high if the area of the plates is large:
eA
C = ------
t
where
C = capacitance
Capacitors consist of two conducting surfaces, usually
metal plates, whose function is to conduct electricity. They
are separated by an insulating material or dielectric. The
dielectric used in all tantalum electrolytic capacitors is
tantalum pentoxide.
Tantalum pentoxide compound possesses high-dielectric
strength and a high-dielectric constant. As capacitors are
being manufactured, a film of tantalum pentoxide is applied
to their electrodes by means of an electrolytic process. The
film is applied in various thicknesses and at various voltages
and although transparent to begin with, it takes on different
colors as light refracts through it. This coloring occurs on the
tantalum electrodes of all types of tantalum capacitors.
e = dielectric constant
A = surface area of the dielectric
t = thickness of the dielectric
Tantalum capacitors contain either liquid or solid
electrolytes. In solid electrolyte capacitors, a dry material
(manganese dioxide) forms the cathode plate. A tantalum
lead is embedded in or welded to the pellet, which is in turn
connected to a termination or lead wire. The drawings show
the construction details of the surface mount types of
tantalum capacitors shown in this catalog.
Revision: 25-Oct-17
Document Number: 40076
1
For technical questions, contact: polytech@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
Polymer Guide
www.vishay.com
Vishay
SOLID ELECTROLYTE POLYMER TANTALUM CAPACITORS
Solid electrolyte polymer capacitors utilize sintered tantalum pellets as anodes. Tantalum pentoxide dielectric layer is formed
on the entire surface of anode, which is further impregnated with highly conductive polymer as cathode system.
The conductive polymer layer is then coated with graphite, followed by a layer of metallic silver, which provides a conductive
surface between the capacitor element and the outer termination (lead frame or other).
Molded chip polymer tantalum capacitor encases the element in plastic resins, such as epoxy materials. After assembly, the
capacitors are tested and inspected to assure long life and reliability. It offers excellent reliability and high stability for variety of
applications in electronic devices. Usage of conductive polymer cathode system provides very low equivalent series resistance
(ESR), which makes the capacitors particularly suitable for high frequency applications.
TANTALUM CAPACITOR WITH POLYMER CATHODE TYPE T55
Epoxy encapsulation
Silver adhesive
Anode polarity bar
Solderable cathode termination
Polymer / carbon / silver coating
Solderable anode termination
Sintered tantalum pellet
Lead frame welded to Ta wire
TANTALUM CAPACITOR WITH POLYMER CATHODE TYPE T58
Rating / marking
Encapsulation
Side cathode termination (-)
Anode polarity bar
Silver adhesive epoxy
Bottom cathode termination (-)
Copper pad
Side anode termination (+)
Glass reinforced epoxy resin substrate
Polymer / carbon / silver coating
Conductive strip
Sintered tantalum pellet
Anode wire
Bottom anode termination (+)
Revision: 25-Oct-17
Document Number: 40076
2
For technical questions, contact: polytech@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
Polymer Guide
www.vishay.com
Vishay
TANTALUM CAPACITOR WITH POLYMER CATHODE TYPE T52
Encapsulation
Side cathode termination (-)
Anode polarity marking
Silver adhesive epoxy
Bottom cathode termination (-)
Side anode termination (+)
Sintered
tantalum pellet
Silver plated copper substrate
Conductive strip
Polymer / carbon / silver coating
Insulation adhesive epoxy
TANTALUM CAPACITOR WITH POLYMER CATHODE TYPE T54 / T59
Top / bottom cathode termination (-)
Encapsulation
Side cathode termination (-)
Anode polarity marking
Top / bottom anode termination (+)
Silver plated copper lead frame
Silver adhesive epoxy
Conductive strip
Side anode termination (+)
Sintered tantalum pellet
Top / bottom cathode termination (-)
Polymer / carbon / silver coating
Insulation / adhesive epoxy
Top / bottom anode termination (+)
Revision: 25-Oct-17
Document Number: 40076
3
For technical questions, contact: polytech@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
Polymer Guide
www.vishay.com
Vishay
POLYMER CAPACITORS - MOLDED CASE
SERIES
T55
PRODUCT IMAGE
TYPE
VPolyTanTM, molded case, high performance polymer
FEATURES
High performance
-55 °C to +105 °C
3.3 μF to 1000 μF
2.5 V to 63 V
20 ꢀ
0.1 CV
8 ꢀ to 10 ꢀ
12 m to 500 m
J, P, A, T, B, Z, V, D
TEMPERATURE RANGE
CAPACITANCE RANGE
VOLTAGE RANGE
CAPACITANCE TOLERANCE
LEAKAGE CURRENT
DISSIPATION FACTOR
ESR
CASE SIZES
Cases J, P: 100 ꢀ tin
Case A: 100 ꢀ tin or Ni / Pd / Au
Cases T, B, Z, V, D: Ni / Pd / Au
TERMINATION FINISH
POLYMER CAPACITORS - LEADFRAMELESS MOLDED CASE
SERIES
T52
T58
T59
T54
PRODUCT IMAGE
vPolyTanTM polymer
surface mount chip
capacitors, low ESR,
leadframeless molded type,
hi-rel commercial
vPolyTanTM polymer
surface mount chip
capacitors, low profile,
leadframeless molded type
vPolyTanTM polymer surface
mount chip capacitors,
compact, leadframeless
molded type
vPolyTanTM polymer
surface mount chip
capacitors, low ESR,
leadframeless molded type
TYPE
off-the-shelf (COTS)
FEATURES
Low profile
Small case size
Multianode
Hi-rel COTS, multianode
TEMPERATURE
RANGE
-55 °C to +105 °C
-55 °C to +105 °C
-55 °C to +105 °C
-55 °C to +105 °C
CAPACITANCE
RANGE
VOLTAGE RANGE
CAPACITANCE
TOLERANCE
47 ꢁF to 1500 ꢁF
6.3 V to 35 V
20 ꢀ
1 ꢁF to 330 ꢁF
6.3 V to 35 V
20 ꢀ
15 ꢁF to 470 ꢁF
16 V to 75 V
15 ꢁF to 470 ꢁF
16 V to 75 V
20 ꢀ
10 ꢀ, 20 ꢀ
LEAKAGE
CURRENT
0.1 CV
DISSIPATION
FACTOR
ESR
10 ꢀ
8 ꢀ to 14 ꢀ
10 ꢀ
25 m to 150 m
EE
10 ꢀ
25 m to 150 m
EE
25 m to 55 m
E1, E5, M1
50 m to 500 m
MM, M0, W0, W9,
A0, AA, B0, BB
CASE SIZES
TERMINATION
100 ꢀ tin
100 ꢀ tin / lead
Revision: 25-Oct-17
Document Number: 40076
4
For technical questions, contact: polytech@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
Polymer Guide
www.vishay.com
Vishay
MOLDED CAPACITORS, T55 TYPE
PLASTIC TAPE AND REEL PACKAGING DIMENSIONS in millimeters
Label
E
D
W
TAPE WIDTH
A + 0 / - 3
B + 1 / 0
8
12
Ø 180
Ø 60
Ø 13
Ø 21
2.0
C
D
E
0.2
0.5
0.5
0.3
W
9.0
13.0
Note
A reel diameter of 330 mm is also applicable
•
PLASTIC TAPE SIZE DIMENSIONS in millimeters
Perforation
Pocket
Ø 1.5+ 0.1
0
A
P1
t
4.0 0.1
2.0 0.1
Inserting direction
Direction of tape flow
Perforation
Marking side (upper)
Mounting terminal side (lower)
Symbol: R
CASE CODE
A
ꢀ02
1.0
B
ꢀ02
1.8
W
ꢀ03
8.0
8.0
8.0
8.0
8.0
F
ꢀ01
3.5
E
1.75
ꢀ01
P1 ꢀ01
4.0
4.0
4.0
4.0
4.0
8.0
8.0
8.0
tmax0
1.3
1.6
2.5
1.7
2.5
2.6
2.6
3.4
J
P
A
T
B
Z
V
D
1.4
1.9
3.1
3.1
4.8
4.8
4.8
2.2
3.5
3.8
3.8
7.7
7.7
7.7
3.5
3.5
3.5
3.5
5.5
5.5
5.5
1.75
1.75
1.75
1.75
1.75
1.75
1.75
12.0
12.0
12.0
Note
A reel diameter of 330 mm is also applicable
•
Revision: 25-Oct-17
Document Number: 40076
5
For technical questions, contact: polytech@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
Polymer Guide
www.vishay.com
Vishay
LEADFRAMELESS MOLDED CAPACITORS, ALL TYPES
PLASTIC TAPE AND REEL PACKAGING in inches [millimeters]
0.157 0.004
[4.0 0.10]
10 pitches cumulative
tolerance on tape
0.008 [0.200]
Tape thickness
Deformation
between
embossments
0.059 + 0.004 - 0.0
[1.5 + 0.10 - 0.0]
Embossment
0.014
[0.35]
max.
0.079 0.002
[2.0 0.05]
0.069 0.004
[1.75 0.10]
Top
cover
tape
A0
0.030 [0.75]
min. (3)
20°
F
W
B1 (max.) (6)
K0
Maximum
component
rotation
B0
P1
0.030 [0.75]
min. (4)
Top cover
tape
(Side or front sectional view)
Center lines
of cavity
0.004 [0.10]
max.
For tape feeder
reference only
including draft.
D1 (min.) for components
(5)
.
0.079 x 0.047 [2.0 x 1.2] and larger
USER DIRECTION
OF FEED
Maximum
(5)
cavity size (1)
Concentric around B0
Cathode (-)
Anode (+)
DIRECTION OF FEED
3.937 [100.0]
0.039 [1.0]
20° maximum
component rotation
max.
Typical
component
cavity
center line
Tape
0.039 [1.0]
max.
Tape and Reel Specifications: all case sizes are
available on plastic embossed tape per EIA-481.
Standard reel diameter is 7" [178 mm].
B0
0.9843 [250.0]
Typical
Camber
component
center line
(Top view)
A0
Allowable camber to be 0.039/3.937 [1/100]
Non-cumulative over 9.843 [250.0]
(Top view)
Notes
•
(1)
Metric dimensions will govern. Dimensions in inches are rounded and for reference only.
A0, B0, K0, are determined by the maximum dimensions to the ends of the terminals extending from the component body and / or the body
dimensions of the component. The clearance between the ends of the terminals or body of the component to the sides and depth of the
cavity (A0, B0, K0) must be within 0.002" (0.05 mm) minimum and 0.020" (0.50 mm) maximum. The clearance allowed must also prevent
rotation of the component within the cavity of not more than 20°.
(2)
(3)
(4)
(5)
(6)
Tape with components shall pass around radius “R” without damage. The minimum trailer length may require additional length to provide
“R” minimum for 12 mm embossed tape for reels with hub diameters approaching N minimum.
This dimension is the flat area from the edge of the sprocket hole to either outward deformation of the carrier tape between the embossed
cavities or to the edge of the cavity whichever is less.
This dimension is the flat area from the edge of the carrier tape opposite the sprocket holes to either the outward deformation of the carrier
tape between the embossed cavity or to the edge of the cavity whichever is less.
The embossed hole location shall be measured from the sprocket hole controlling the location of the embossment. Dimensions of
embossment location shall be applied independent of each other.
B1 dimension is a reference dimension tape feeder clearance only.
Revision: 25-Oct-17
Document Number: 40076
6
For technical questions, contact: polytech@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
Polymer Guide
www.vishay.com
Vishay
CARRIER TAPE DIMENSIONS in inches [millimeters]
CASE CODE
TAPE SIZE
B1 (MAX0) (1)
D1 (MIN0)
F
Kꢀ (MAX0)
P1
W
E1
E5
TBD
TBD
MM (2)
8 mm
0.075 [1.91]
0.32 [8.2]
0.02 [0.5]
0.138 [3.5]
0.043 [1.10]
0.094 [2.39]
0.157 [4.0]
0.315 [8.0]
0.217 0.002
[5.5 0.05]
0.315 0.04
[8.0 1.0]
0.472 + 0.012 / - 0.004
[12.0 + 0.3 / - 0.10]
M1
12 mm
0.059 [1.5]
W9
W0
A0
8 mm
8 mm
8 mm
8 mm
12 mm
8 mm
0.126 [3.20]
0.126 [3.20]
-
0.030 [0.75]
0.030 [0.75]
0.02 [0.5]
0.138 [3.5]
0.138 [3.5]
0.138 [3.5]
0.138 [3.5]
0.217 [5.5]
0.138 [3.5]
0.045 [1.15]
0.045 [1.15]
0.049 [1.25]
0.079 [2.00]
0.049 [1.25]
0.087 [2.22]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.157 [4.0]
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
0.315 [8.0]
AA
B0
BB
0.154 [3.90]
0.181 [4.61]
0.157 [4.0]
0.039 [1.0]
0.059 [1.5]
0.039 [1.0]
0.217 0.002
[5.5 0.05]
0.315 0.04
[8.0 1.0]
0.472 + 0.012 / - 0.004
[12.0 + 0.3 / - 0.10]
EE
12 mm
0.32 [8.2]
0.059 [1.5]
0.175 [4.44]
Notes
(1)
For reference only.
Standard packaging of MM case is with paper tape. Plastic tape is available per request.
(2)
PAPER TAPE AND REEL PACKAGING DIMENSIONS in inches [millimeters]
[10 pitches cumulative tolerance on tape 0.2 mm]
E1
P2
T
Ø D0
P0
A0
F
Bottom cover
tape
W
B0
E2
Top
cover tape
Anode
Cavity size (1)
P1
Bottom cover tape
G
Cavity center lines
USER FEED DIRECTION
CASE TAPE
SIZE SIZE
Aꢀ
Bꢀ
Dꢀ
Pꢀ
P1
P2
E
F
W
T
0.041 0.002 0.071 0.002 0.06 0.004 0.157 0.004 0.157 0.004 0.079 0.002 0.069 0.004 0.0138 0.002 0.315 0.008 0.037 0.002
MM 8 mm
[1.05 0.05] [1.8 0.05] [1.5 0.1]
[4.0 0.1]
[4.0 0.1]
[2.0 0.05]
[1.75 0.1]
[3.5 0.05]
[8.0 0.2] [0.95 0.05]
0.049 0.002 0.081 0.002 0.06 0.004 0.157 0.004 0.157 0.004 0.079 0.002 0.069 0.004 0.0138 0.002 0.315 0.008 0.041 0.002
M0 8 mm
[1.25 0.05] [2.05 0.05] [1.5 0.1]
[4.0 0.1]
[4.0 0.1]
[2.0 0.05]
[1.75 0.1]
[3.5 0.05]
[8.0 0.2] [1.05 0.05]
Note
(1)
A0, B0 are determined by the maximum dimensions to the ends of the terminals extending from the component body and / or the body
dimensions of the component. The clearance between the ends of the terminals or body of the component to the sides and depth of the
cavity (A0, B0) must be within 0.002" (0.05 mm) minimum and 0.020" (0.50 mm) maximum. The clearance allowed must also prevent rotation
of the component within the cavity of not more than 20°.
Revision: 25-Oct-17
Document Number: 40076
7
For technical questions, contact: polytech@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
Polymer Guide
www.vishay.com
Vishay
PACKING AND STORAGE
Polymer capacitors meet moisture sensitivity level rating (MSL) of 3 as specified in IPC/JEDEC® J-STD-020 and are dry
packaged in moisture barrier bags (MBB) per J-STD-033. Level 3 specifies a floor life (out of bag) of 168 hours at 30 °C maximum
and 60 ꢀ relative humidity (RH). Unused capacitors should be re-sealed in the MBB with fresh desiccant. A moisture strip
(humidity indicator card) is included in the bag to assure dryness. To remove excess moisture, capacitors can be dried at 40 °C
(standard “dry box” conditions).
For detailed recommendations please refer to J-STD-033.
RECOMMENDED REFLOW PROFILES
Vishay recommends no more than 3 cycles of reflow in accordance with J-STD-020.
TP
tp
Max. ramp up rate = 3 °C/s
Max. ramp down rate = 6 °C/s
TL
tL
TSmax.
Preheat area
TSmin.
tS
25
Time 25 °C to peak
Time
PROFILE FEATURE
SnPb EUTECTIC ASSEMBLY
LEAD (Pb)-FREE ASSEMBLY
PREHEAT AND SOAK
Temperature min. (TSmin.
)
100 °C
150 °C
150 °C
200 °C
Temperature max. (TSmax.
)
Time (tS) from (TSmin. to TSmax.
)
60 s to 120 s
60 s to 120 s
RAMP UP
Ramp-up rate (TL to Tp)
Liquidus temperature (TL)
Time (tL) maintained above TL
3 °C/s maximum
183 °C
217 °C
60 s to 150 s
Depends on type and case - see table below
Peak package body temperature (Tp) max.
Time (tp) within 5 °C of the peak max. temperature
RAMP DOWN
20 s
5 s
Ramp-down rate (Tp to TL)
6 °C/s maximum
Time from 25 °C to peak temperature
6 min maximum
8 min maximum
PEAK PACKAGE BODY TEMPERATURE (Tp) MAXIMUM
PEAK PACKAGE BODY TEMPERATURE (TP) MAX0
TYPE
CASE CODE
SnPb EUTECTIC ASSEMBLY LEAD (Pb)-FREE ASSEMBLY
T55
T52
T58
T59
T54
J, P, A, T, B, Z, V, D
260 °C
260 °C
260 °C
250 °C
250 °C
E1, E5, M1
n/a
MM, M0, W9, W0, A0, AA, B0, BB
EE
EE
220 °C
220 °C
Notes
•
T52, T55, and T58 capacitors are process sensitive.
PSL classification to JEDEC J-STD-075: R4G
T54 and T59 capacitors are process sensitive.
PSL classification to JEDEC J-STD-075: R6G
•
Revision: 25-Oct-17
Document Number: 40076
8
For technical questions, contact: polytech@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
Polymer Guide
www.vishay.com
Vishay
MOLDED CAPACITORS, T55 TYPE
PAD DIMENSIONS in millimeters
L
X
W
Capacitor
Pattern
Y
G
Z
CAPACITOR SIZE
PAD DIMENSIONS
CASE /
DIMENSIONS
L
W
0.8
1.25
1.6
2.8
4.3
G (max0)
0.7
Z (min0)
2.5
X (min0)
Y (Ref0)
0.9
J
P
1.6
2.0
3.2
3.5
7.3
1.0
1.2
1.5
2.7
2.9
0.5
2.6
1.05
1.35
1.35
2.05
A
1.1
3.8
T / B
Z / V / D
1.4
4.1
4.1
8.2
LEADFRAMELESS MOLDED CAPACITORS, ALL TYPES
PAD DIMENSIONS in inches [millimeters]
D
B
C
A
FAMILY
CASE CODE
E1 / E5
M1
A (NOM0)
0.094 [2.40]
0.161 [4.10]
0.024 [0.61]
0.035 [0.89]
0.047 [1.19]
0.094 [2.39]
0.209 [5.30]
B (MIN0)
C (NOM0)
D (MIN0)
0.073 [1.85]
0.073 [1.85]
0.027 [0.70]
0.029 [0.74]
0.042 [1.06]
0.044 [1.11]
0.098 [2.50]
0.187 [4.75]
0.187 [4.75]
0.025 [0.64]
0.041 [1.05]
0.065 [1.65]
0.072 [1.82]
0.169 [4.30]
0.333 [8.45]
0.333 [8.45]
0.080 [2.03]
0.099 [2.52]
0.148 [3.76]
0.159 [4.03]
0.366 [9.30]
T52
MM, M0
W0, W9
AA, A0, A2
BB, B0
EE
T58
T59 / T54
Revision: 25-Oct-17
Document Number: 40076
9
For technical questions, contact: polytech@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
Polymer Guide
www.vishay.com
Vishay
GUIDE TO APPLICATION
1.
AC Ripple Current: the maximum allowable ripple
4.
Reverse Voltage: the capacitors are not intended for
use with reverse voltage applied. However, they are
capable of withstanding momentary reverse voltage
peaks, which must not exceed the following values:
At 25 °C: 10 ꢀ of the rated voltage or 1 V, whichever
is smaller.
current shall be determined from the formula:
P
IRMS
=
------------
RESR
where,
P =
At 85 °C: 5 ꢀ of the rated voltage or 0.5 V, whichever
is smaller.
At 105 °C: 3 ꢀ of the rated voltage or 0.3 V,
whichever is smaller.
power dissipation in W at +45 °C as given in
the tables in the product datasheets.
RESR = the capacitor equivalent series resistance at
the specified frequency.
5.
Mounting Precautions:
2.
AC Ripple Voltage: the maximum allowable ripple
5.1
Limit Pressure on Capacitor Installation with
Mounter: pressure must not exceed 4.9 N with a tool
end diameter of 1.5 mm when applied to the
capacitors using an absorber, centering tweezers, or
similar (maximum permitted pressurization time: 5 s).
An excessively low absorber setting position would
result in not only the application of undue force to the
capacitors but capacitor and other component
scattering, circuit board wiring breakage, and / or
cracking as well, particularly when the capacitors are
mounted together with other chips having a height of
1 mm or less.
voltage shall be determined from the formula:
P
VRMS = Z ------------
RESR
or, from the formula:
VRMS = IRMS x Z
where,
P =
power dissipation in W at +45 °C as given in
the tables in the product datasheets.
R
ESR = The capacitor equivalent series resistance at
5.2
Flux Selection
the specified frequency.
5.2.1 Select a flux that contains a minimum of chlorine and
amine.
5.2.2 After flux use, the chlorine and amine in the flux
remain must be removed.
Z =
The capacitor impedance at the specified
frequency.
2.1
The tantalum capacitors must be used in such a
condition that the sum of the working voltage and
ripple voltage peak values does not exceed the rated
voltage as shown in figure below.
5.3
Cleaning After Mounting: the following solvents are
usable when cleaning the capacitors after mounting.
Never use a highly active solvent.
• Halogen organic solvent (HCFC225, etc.)
• Alcoholic solvent (IPA, ethanol, etc.)
Ripple voltage
Rated voltage
• Petroleum solvent, alkali saponifying agent, water,
etc.
Operating
voltage
Working voltage
Circuit board cleaning must be conducted at a
temperature of not higher than 50 °C and for an
immersion time of not longer than 30 minutes. When
an ultrasonic cleaning method is used, cleaning must
be conducted at a frequency of 48 kHz or lower, at
an vibrator output of 0.02 W/cm3, at a temperature of
not higher than 40 °C, and for a time of 5 minutes or
shorter.
Time (s)
3.
Temperature Derating: power dissipation is
affected by the heat sinking capability of the
mounting surface. If these capacitors are to
be operated at temperatures above +45 °C, the
permissible ripple current (or voltage) shall be
calculated using the derating coefficient as shown in
the table below:
Notes
• Care must be exercised in cleaning process so that the
mounted capacitor will not come into contact with any
cleaned object or the like or will not get rubbed by a stiff
brush or similar. If such precautions are not taken
particularly when the ultrasonic cleaning method is
employed, terminal breakage may occur.
• When performing ultrasonic cleaning under conditions
other than stated above, conduct adequate advance
checkout.
MAXIMUM RIPPLE CURRENT TEMPERATURE
DERATING FACTOR
45 °C
55 °C
1.0
0.8
0.6
0.4
85 °C
105 °C
Revision: 25-Oct-17
Document Number: 40076
1ꢀ
For technical questions, contact: polytech@vishay.com
THIS DOCUMENT IS SUBJECT TO CHANGE WITHOUT NOTICE. THE PRODUCTS DESCRIBED HEREIN AND THIS DOCUMENT
ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?91000
Legal Disclaimer Notice
www.vishay.com
Vishay
Disclaimer
ALL PRODUCT, PRODUCT SPECIFICATIONS AND DATA ARE SUBJECT TO CHANGE WITHOUT NOTICE TO IMPROVE
RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.
Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,
“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other
disclosure relating to any product.
Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or
the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all
liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special,
consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular
purpose, non-infringement and merchantability.
Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of
typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding
statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a
particular product with the properties described in the product specification is suitable for use in a particular application.
Parameters provided in datasheets and / or specifications may vary in different applications and performance may vary over
time. All operating parameters, including typical parameters, must be validated for each customer application by the customer’s
technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase,
including but not limited to the warranty expressed therein.
Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining
applications or for any other application in which the failure of the Vishay product could result in personal injury or death.
Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk.
Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for
such applications.
No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document
or by any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.
© 2017 VISHAY INTERTECHNOLOGY, INC. ALL RIGHTS RESERVED
Revision: 08-Feb-17
Document Number: 91000
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