To: XA
Issue No.
: E-SX-EY-J0023
Date of Issue
: August 9, 2011
Classification
: New , Changed
PRODUCT SPECIFICATION FOR APPROVAL
Product Description
Customer Part Number
: Specialty Polymer Aluminum Electrolytic Capacitor
:
Product Part Number
: EEFSX0E331EY
Country of Origin
: Japan, Singapore
Printed on the packaging label
: VGA Card
Applications
※ If you approve this specification, please fill in and sign the below and return 1copy to us.
Approval No
:
Approval Date
:
Executed by
:
(signature)
Title
:
Dept.
:
Capacitor Business Unit
Panasonic Electronic Devices Co., Ltd
25 Kowata-nishinaka, Uji City,
Kyoto 611-8585, Japan
Phone: (0774)32-1111
Phone: +81-774-31-7300(Direct)
Panasonic Electronic Devices Singapore
Pte. Ltd.
No.3 Bedok South Road, Singapore 469269,
THE REPUBLIC OF SINGAPORE
Prepared by
: Engineering Group
Aluminum Engineering 4 Team
Contact Person
Signature
Name(Print)
Title
:
Checked by
Signature
Name(Print)
Title
: K.Kawahito
Chief Engineer
Authorized by
Signature
Name(Print)
Title
:
M.Tahara
Engineer
M.Ozawa
Manager
Y.Midou
General Manager of Engineering
No. 4517329
Revision Record
Customer Part No.
Product Part No.
Note
EEFSX0E331EY
No. Pg Revised Date Enforce Date
Initial Date
August 9, 2011
Contents
New
Approval Accepted No.
Y.Midou
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
Page No.
Contents
Contents
Notice matter
P.1
1.Scope
P.2
2.Parts Number
P.2
Parts Lists
P.3
3.Dimensions and Appearance
P.3
4.Marking
P.4
5.Specifications
P.4
6.Performance Characteristics
P.5 to P.7
7.Embossed tape dimension
P.8
8.Package Specifications
P.9 to P.10
9.Application Guidelines
P.11 to P.134
10.Maximum permissible reflow soldering temperature profile
P.14
Panasonic Electronic Devices Co.,Ltd
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
1
Notice matter
Law and regulation which are applied
• This product complies with the RoHS Directive (Restriction of the use of certain Hazardous
Substances in electrical and electronic equipment DIRECTIVE 2002/95/EC).
• No Ozone Depleting Chemicals(ODC's), controlled under the Montreal Protocol Agreement,
are used in producing this product.
• We do not PBBs or PBDEs as brominated flame retardants.
• All the materials that are used for this product are registered as "Known Chemicals" in the Japanese act
"Law Concerning the Examination and Regulation of Manufacture, etc. of Chemical Substances".
• Export procedure which followed export related regulations, such as foreign exchange and a foreign
trade method, on the occasion of export of this product Thank you for your consideration.
Limitation of a use
This capacitor is designed to be used for electronics circuits such as audio/visual equipment,
home appliances, computers and other office equipment, optical equipment, measuring equipment
and industrial robots.
High reliability and safety are required [ be / a possibility that incorrect operation of this product may do harm
to a human life or property ] more. When use is considered by the use, the delivery specifications which
suited the use separately need to be exchanged.
Country of origin : JAPAN,SINGAPORE
Manufacturing factory : Capacitor Business Unit
Panasonic Electronic Devices Co., Ltd
25 Kowata-nishinaka, Uji City, Kyoto 611-8585, Japan
Panasonic Electronic Devices Singapore Pte. Ltd.
No.3 Bedok South Road, Singapore 469269,
THE REPUBLIC OF SINGAPORE
Panasonic Electronic Devices Co.,Ltd
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
2
1. Scope
This specification applies to specialty polymer aluminum electrolytic capacitors
(SX) for use electronic equipment.
2. Explanation of Part Numbers
EEF
○○
○○
○○○
○○
2-1
2-2
2-3
2-4
2-5
2-1
Common code
2-2
Series and Size code
2-3
Rated Voltage Code
R.V. code
0E
R.V.(V.DC)
2
2-4
Capacitance Code : Indicating capacitance in µF by 3 letters.
The first 2 figures are actual values and the third
denotes the number of zeros.
"R" denotes the decimal point and all figures are the
actual number with "R".
ex:4.7µF ---- 4R7 10µF ---- 100
2-5 Suffix Code
Suffix code
EY
Specialty Polymer Aluminum Electrolytic Capacitor
SX
Packaging Style
Cap.Tol : -35 to 10%
High temperature reflow type with taping
(for lead free solder)
Panasonic Electronic Devices Co.,Ltd
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
3
Parts Lists
Rated
Voltage
(V.DC)
Cap.
(µF)
tanδ
max.
L.C.
(µA)
max.
EEFSX0E331EY
2.5
*1 100kHz/ 20 to 105°C
330
0.06
82.5
Part number
ESR
(mΩ)
(100kHz,20°C)
max.
9
Permissible
Ripple
Current
A r.m.s* 1
3.0
3. Appearance, Dimensions
3.1 Appearance
By visual inspection, no deep cracks and blemishes.
3.2 Dimensions
H
P
P
L
W2
W1
L±0.2 W1±0.2 W2±0.1 H±0.2
7.3
4.3
2.4
1.9
W2
* Externals of figure are the reference.
Surface finish of terminal : Tin(Sn)
Panasonic Electronic Devices Co.,Ltd
(mm)
P±0.3
1.3
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
4
4. Marking
The followimg items on the capacitor’ surface shall be legible during appearance inspection.
These markings shall be shown by the method of indelible way.
(1) Rated Voltage
(2) Capacitance
(3) Polarity
(4) Lot No
(Notes) Body Color : Black
Marking : Laser
Code Item
A
Polarity bar
(Positive)
B
R.V. code
C
Cap. *
D
Lot No.
* “R” shows the decimal point.
R.V.code
Marking code
R.V(V.DC)
e
2.5
A
C
D
B
5. Specifications
Item
Specifications
1
Category temperature Range
-40°C to 105°C
2
Rated voltage
2.5V
3
Capacitance
330µF(120Hz 20°C)
4
Tolerance on capacitance
+10/-35%(120Hz 20°C)
5
Surge(V.DC)
6
Rated ripple current
V.DC
2.5
Surge
3.1
See attached individual specifications(P.3)
Panasonic Electronic Devices Co.,Ltd
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
5
6. Characteristics
No
Item
1 Leakage
current
2
3
4
5
6
7
8
9
Characteristics
I≤0.1CV
Outline of test method
Series resistor: 1000Ω
Applied voltage: Rated Voltage
Measuring: 2min
If you have doubts about the measured result,
please re-check after the pre-conditioning explained below.
Pre-conditioning
Apply rated DC voltage for 1h at 105°C through 1000Ω
series resistor: Then discharge and keep in the room
temperature for 24h to 48h
Measuring frequency: 120Hz±10%
Capacitance +10/-35%
Measuring circuit: Equivalent series circuit
tolerance
See attached individual
Measuring voltage: +0V.DC≤0.5Vrms
tanδ
specification(P.3)
Measuring temperature: 20°C
ESR
See attached individual specification
Measuring frequency: 100kHz±10%
(P.3)
Measuring voltage: +0V.DC, ≤0.5Vrms
Measuring temperature: 20°C
SolderMore than 75% of the terminal face are
Solder type: H60A or H63A
ability
covered by new solder.
Flax: About 25% rosin density melted ethanol
Solder temperature: 230±5°C
Immersing time: 2±0.5s
Solubility
Appearance: No remarkable abnormal
Class of regent: Extra grade 2-propanol
resistance
change shall be occurred.
(JIS K8839) or superior.
to marking
Test temperature: 20°C to 25°C
Immersing time: 30±5s
Solder heat Leakage
≤The value of item 1.
The capacitor is held on heating for reflow
resistance
Current
soldering.
Capacitance ±10% of initial
Reflow soldering profile:
Change
measured value.
Please refer to Chapter 10 (Page 14)
tanδ
≤The value of item 3.
Appearance No remarkable abnormal
change shall be occurred.
Adhesion
Appearance:
Push direction: Side
Without mechanical damage such as
Force: 5.0N
breaks after test.
Holding time: 10±0.5s
Damp heat, Leakage
Test temperature: 60±2°C
≤The value of item 1.
Steady state Current
Relative humidity: 90%
Test time: 500+240 h
Capacitance +70%,-20%
Change
of initial measured value.
tanδ
≤200% of initial specified
value.
Appearance No remarkable abnormal
change shall be occurred.
Panasonic Electronic Devices Co.,Ltd
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
6
No
Item
10
Damp
heat,
Steady
state
(Applied
voltage)
11
12
13
Characteristics
Leakage
Current
Capacitance
Change
tanδ
≤The value of item 1.
Outline of test method
Test temperature: 60±2°C
Relative humidity: 90%
Applied voltage: Rated voltage
Test time: 500+240 h
+70%,-20%
of initial measured value.
≤200% of initial specified
value.
Appearance No remarkable abnormal
change shall be occurred.
Endurance Leakage
Test temperature: 105±2°C
≤The value of item 1.
Current
Applied voltage: Rated voltage
+48
Capacitance ±10% of initial measured Test time: 1000 0 h
Change
value.
tanδ
≤The value of item 3.
Appearance No remarkable abnormal
change shall be occurred.
Shelf life
Leakage
Test temperature: 105±2°C
≤The value of item 1.
Current
Test time: 500+240 h
Capacitance ±10% of initial measured
Change
value.
tanδ
≤The value of item 3.
Appearance No remarkable abnormal
change shall be occurred.
Exposure the capacitor at each
CharacStep
Item
Electrical
temperature in following order and
teristics
Characteristics
at high
2 Capacitance ±15% of the value in measure characteristics at step 2,4 and 5
as described on the left.
and low
step 1.
tempeStep Temperature
ESR
≤115% times of the
rature
1
20±2°C
value of item 4.
2
-40±3°C
4 Capacitance ±20% of the value in
3
20±2°C
step 1.
4
105±2°C
5 Leakage
≤The value of item 1.
5
20±2°C
current
Capacitance ±5% of the value in
If you have doubts about the result of its
step 1.
measurement, please make a re-check right
tanδ
≤The value of item 3. after the pre-conditioning explained below.
Pre-conditioning
Dry the products 24h at 125°C
Panasonic Electronic Devices Co.,Ltd
No
14
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
7
Item
Surge
Characteristics
Leakage
current
Capacitance
change
Vibration
±10% of initial
measured value.
≤The value of item 3.
No remarkable abnormal
change shall be occurred.
Appearance: No remarkable abnormal
change shall be occurred.
Capacitance: During test, measured
value to be stabilized.
(When measured several
times within 30min before
completion of test.)
tanδ
Appearance
15
≤The value of item 1.
Outline of test method
Test temperature: 15°C to 35°C
Series resister: 1000Ω
Test voltage: Surge
Applied voltage: 1000 cycles of 30±5s
“ON” and 5min 30s “OFF”
Frequency: 10Hz to 2000Hz to 10Hz
(One cycle per 20min)
Total amplitude: 1.5mm
Direction and duration of vibration:
2h each for tree right-angle
direction, total 6h.
Mounting method:
The capacitor must be soldered in place.
Panasonic Electronic Devices Co.,Ltd
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
8
7.Carrier tape & Reel Dimension
Carrier Tape
Unit : mm
Tape running derection
1.5+0.1 0
4±0.1
2±0.1
1.75±0.1
B
t±0.2
5.5±0.1
12±0.3
7.6±0.2
A
A
B
8±0.1
B-B Cross-Sectional view
Series and Size
code
t
4.5±0.2
SX
2.4
A-A Cross-Sectional view
Reel
2±0.5
φ13±0.2
φ80±1.0
R1.0
φ21±0.8
3.0
14
Panasonic Electronic Devices Co.,Ltd
φ330
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
9
8. Packaging details of carrier tape
8.1 Details of carrier tape
Unit : mm
Cover tape
Carrier tape
100min.
Trailer part
100min.
Mounting part
Trailer part
Fixed tape
200min.
Leader part
Direction of feed
The cover tape shall not cover the sprocket holes
Carrier tape
(B)
0.75 max
Cover tape
(A)
0.5 max
a. Deviation between carrier tape and cover tape shall be less than 0.5mm
b. Cover tape shall not be covered on the feeding holes more than 0.75mm
8.2 Adhesion test
Reasonable pulling strength: 0.1N to 1.3N
Pulling speed: 0.005m/s
Cover tape
165° to 180°
Embossed tape
Panasonic Electronic Devices Co.,Ltd
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
10
8.3 Packaging style
1) Carrier tape shall be reeling inside.(seal tape shall be outside.)
2) First of the carrier tape shall be inserted directly to the reel as shown in the below figure and leader part
of seal tape shall not be attached.
1)
2)
8.4 Dimensions of outer carton box
Dimensions of the carton box are subject to change without notice for adjustment to reel size.
(mm)
135max
400max
400max
8.5 Packaging quantity
1 Reel(pcs)
3,500
Quantity
1 Packaging box(reel)
5
Total Quantity(pcs)
17,500
Panasonic Electronic Devices Co.,Ltd
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
11
9.Application Guidelines
Specialty Polymer Aluminium Electrolytic Capacitor should be used in compliance with the following guidelines.
(1) This specification guarantees the quality and performance of the product as individual components.
Before use, check and evaluate their compatibility with installed in your products.
(2) Do not use the products beyond the specifications described in this document.
9.1 Circuit Design
9.1.1 Prohibited Circuits for use
Do not use the capacitor with the following circuit.
(1) Time-constant circuit
(2) Coupling circuits
(3) 2 or more capacitors connected serially
(4) Circuit which are greatly affected by leakage current
9.1.2 Voltage
The application of over- voltage and reverse voltage described below can cause increases in leakage current
and short circuits.
Applied voltage, refers to the voltage value including the peak value of the transitional Instantaneous voltage
and the peak value of ripple voltage, not just steady line voltage.
Design your circuit so than the peak voltage does not exceed the stipulated voltage.
[Over-voltage]
Do not apply over-voltage in excess of the rated voltage.
Do not apply voltage, which exceeds the full rated voltage when the capacitors receive impulse voltage,
instantaneous high voltage, high pulse voltage etc.
[Reverse-voltage]
Do not apply reverse-voltage
9.1.3 Ripple Current
Use the capacitors within the stipulated permitted ripple current.
When excessive ripple current is applied to the capacitor, if causes increases in leakage current and short
circuits due to self-heating.
Even when using the capacitor under the permissible ripple current, reverse voltage may occur if the DC bias
voltage is low.
9.1.4 Leakage Current
There is a risk of leakage current characteristics increasing even if the following use environments are within
the stipulated range.
However, even if leakage current increases once, it has the characteristic that leakage current becomes small
in most cases after voltage is applied due to its self-correction mechanism.
(1) After re-flow
(2) Shelf conditions such as (1) high temperature with no load, (2) high temperature high humidity with no load
and (3) sudden temperature changes.
9.1.5 Failure Rate
The majority of failure modes are short circuits or increases in leakage current.
The main factors of failure are mechanical stress, heat stress and electric stress due to re-flow and heat from
the use temperature environment.
Even within the stipulated limits, it is possible to lower the failure rate by reducing use conditions such as
temperature and voltage. Please be sure to have ample margin in your design.
[Expected Failure Rate]
(1) Date based on our reliability tests: 46Fit or less (Based on applied rated voltage at 105°C)
(2) Market failure rate: 0.13Fit or less (Based on c=0, Reliability standard: 60%)
Panasonic Electronic Devices Co.,Ltd
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
12
Always consider safety when designing equipment and circuit. Plan for worst-case failure modes
such as short circuits and open circuits which might occur during use.
Install the following systems for a failsafe design to ensure safety if these products are to be used in
equipment where a defect in these products may cause the loss of human life or other signification damage,
such as damage to vehicles (automobile, train, vessel), medical equipment, traffic lights, aerospace
equipment, electric heating appliances, combustion/gas equipment, rotating equipment, and disaster/crime
prevention equipment.
(1) The system is equipped with a protection circuit and protection device.
(2) The system is equipped with a redundant circuit or other system to prevent an unsafe status in the event
of a single fault.
9.1.6 Mounting area considerations
Isolate the surface of PCB under the mounted capacitor.
9.2 Environments and Soldering for Using Capacitors
9.2.1 Storage
Products should be stored in a moisture proof environment. Storage conditions before and after opening the
moisture proof packaging as follows.
(If these conditions are exceeded, the package may absorb moisture and there is a risk of damage to the
exterior due to heat stress during mounting.)
[Environment of storage]
Temperature: 5°C to 30°C without direct sunlight
Humidity: Less than 70%
Maximum storage term before opening the package(2 years after manufactured)
Maximum storage condition after opening the package(7 days after opening)
Products should be all used within the storage term after opening the package.
After the storage limit, baking treatment is necessary to be able to use the products.
The storage conditions after baking are the same as those after opening the package.
[Baking conditions]
Temperature: 50±2°C
Time: 100h to 200h(Do not perform more than twice.)
9.2.2 Temperature
Use at or under the rated (guaranteed) temperature.
Operation at temperatures exceeding specifications causes large changes in the capacitors electrical
properties, and deterioration than can potentially lead to failure.
When calculating the operating temperature of the capacitor, be sure to include not only the ambient
temperature and internal temperature of the unit, but also radiation from heat generating elements inside
the unit (power transistors, resistors, etc.), and self-heating due to ripple current.
9.2.3 Capacitor Mounting
(1) Land Size
Refer to the land size described next page for appropriate design dimensions. Circuit board design requires
examination of the most suitable dimensions taking conditions such as circuit board, parts and re-flow into
consideration.
These products are designed specifically for re-flow soldering. Consult with our factory before performing
mounting processes other than re-flow soldering.
Capacitor
Typical land pattern (mm)
2.8
4.0
8.8
Panasonic Electronic Devices Co.,Ltd
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
13
(2) Heat stress of re-flow, etc.
Specified re-flow conditions must be strictly observed.
Soldering under other conditions can cause short circuits and increases in ESR.
(3) Repair and modification by soldering iron.
When using a soldering iron, set the tip temperature to no more than 350°C, and work in as short a time
as possible under 10s. While soldering, do not apply strong force to the capacitor.
(4) Mechanical stress
Do not apply excessive force to the capacitor, since this can damage the electrodes and badly affect
the capacitor’s mountability. It can also cause the increase of leakage current, separation of the lead wire
and element, and damage to the capacitor body, all of which can badly affect the electrical performance
of the capacitor.
9.2.4 Transportation
Take sufficient care during handling because excessive vibration, or shock can cause the reliability of the
capacitor to decrease.
9.2.5 Circuit Board Cleaning
Products should be cleaned after soldering in accordance with the following conditions.
Temperature: Less than 60°C
Time: Within 5min
Be sure to sufficiently wash and dry (20min at 100°C) the board afterward.
[Recommended cleaning solvents]
Pine Alpha ST-100S, Clean-thru 750H, Clean-thru 750L, Clean-thru710M, Aqua Cleaner 210SEP
Sunelec B-12, DK beclear CW-5790, Techno Cleaner 219, Cold Cleaner P3-375, Telpen Cleaner EC-7R
Techno Care FRW-17, Techno Care FRW-1, Techno care FRV-1, AXREL32
Note1: Consult our factory when performing processes with cleaning solvents other than those listed above.
2: The use of ozone depleting cleaning agents are not recommended in the interest of protecting the
environment.
3: In the case of using ultrasonic cleaning, the terminals may be broken. Therefore, please test before
using in mass production.
9.3 Others
9.3.1 Precautions for using capacitors
Before using the products, carefully check the effects on their quality and performance, and determined
whether or not they can be used. These products are designed and manufactured for general-purpose and
standard use in general electronic equipment. These products are not intended for use in the following special
conditions.
(1) In liquid, such as Water, Oil, Chemicals, or Organic solvent.
(2) In direct sunlight, outdoors, or in dust.
(3) In vapor, such as dew condensation water of resistive element, or water leakage, salty air, or air with a
high concentration corrosive gas, such as Cl2, H2S, NH3, SO2, or NO2.
(4) In an environment where strong static electricity or electromagnetic waves exist.
(5) Mounting or placing heat-generating components or inflammables, such as vinyl-coated wires, near these
products.
(6) Sealing or coating of these products or a printed circuit board on which these products are mounted, with
resin and other material.
(7) Using resolvent, water or water-soluble cleaner for flux cleaning agent after soldering.
(In particular, when using water or a water-soluble cleaning agent, be careful not to leave water residues)
(8) Acid or alkaline environments.
(9) Environment subject to excessive vibration and shock.
9.3.2 Emergency Procedures
If the capacitor is overheated, the resin case may emit smoke. If this occurs, immediately switch off the unit's
main power supply to stop operation. Keep your face and hands away from the capacitor, since the
temperature may be high enough to cause the capacitor to ignite and burn.
9.3.3 Capacitor Disposal
Since capacitors are composed of various metals and resins, treat them as industrial waste when arranging
for their disposal.
Panasonic Electronic Devices Co.,Ltd
Product Specification
E-SX-EY-J0023
Specialty Polymer Aluminum Electrolytic Capacitors
(SX)
14
10.Maximum permissible reflow soldering temperature profile
We recommend soldering shall be done according to following maximum permissible reflow soldering
temperature profile.
Reflow soldering
Method: Hot air or infrared furnace.
Temperature measurement point: Top of capacitor.
Measuring method: Thermo-couple(K: φ0.1mm)
Reflow profile:
Temperature on thesurface of
capacitor(ºC)
Peak temperature 10s max.
250
200
150
150 to 200 ºC
120s max.
100
Time in 230ºC
or more
50
Time(s)
270
Peak Temperature(ºC)
Ex.
260
Peak Temp.
260°C,10s max.
250°C,10s max.
250
Time in 230°C or more
40s max.
60s max.
240
230
0
10
20
30
40
50
60
70
Time in 230ºC or more (s)
Reflow times: 2max.
Note: Please refer to item 9.2.1 of the Application Guidelines for the proper storing conditions prior to
the second reflow.
(The second reflow soldering should be performed in 5 days after the first one.)
Panasonic Electronic Devices Co.,Ltd