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1
Aluminum Electrolytic Capacitors
Aluminum Electrolytic Capacitors is
hard to be in Short-mode because,
it has Shelf-healing mechanism at the dielectric
layer by its electrolyte.
Aluminum Electrolytic Capacitors supply wide
range of capacitance and voltage.
They are suitable for econmical circuit design.
Discontinued Integrated Discontinued Integrated
series series Feature series series Feature
CE-GS CE-GA MV-AZ ME-CZ
MV(ME)-FA ME-CZ
CE-GX CE-AX
MV-EG,GX ME-AX
CE-FC CE-FD MV-HW ME-HC
CE-PX CE-PC MV-HPS ME-HPC
MV-NPD, NPDW ME-HWN
CE-FH Series 34 Radial Lead Type ME-WL Series 70
8 CE-GA Series 35 ME-UW Series 51 MB-UWG Series 71
Surface Mount Type CE-AX Series 36 ME-SWB Series 52 ME-SWG Series 72
10
CE-BJ Series 21 CE-KX Series 38 ME-HC Series 53 ME-WG Series 73
12
CE-BE Series 22 CE-LX Series 40 ME-HPC HPD Series 54 ME-PX Series 74
CE-BD Series 23 CE-LS Series 42 ME-UZ SZ Series 55 ME-FC FD Series 76
14 CE-BSS Series 24 CE-LH Series 43 ME-CZ Series 56 ME-FAZ Series 77
CE-C Series 25 CE-LL Series 45 ME-UAX SAX Series 58 ME-FH Series 78
15 CE-BS Series 26 CE-PC Series 46 ME-LS Series 59 ME-SWN Series 79
CE-FE Series 27 CE-PH Series 48 ME-CA Series 60 ME-HWN Series 80
16
CE-FD Series 28 CE-NP Series 49 ME-CX Series 62
19
CE-LD Series 29 CE-FN Series 50 ME-AX Series 64
20 CE-FSS Series 30 ME-WX Series 66
CE-FS Series 31 ME-WA Series 68
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About the electronic part capacitor
Guidelines and Precautions for Use
Please take note of the following points in order to make the best use of SANYO capacitor's performance.
Please use the capacitor within the range of specified performance after confirming each capacitor's usage
environment and circuit condition.
Please choose the capacitor that matches the lifetime of the intended circuit design.
The performance of the capacitor the temperature or frequency. Therefore, please consider these variations
when designing the circuit.
Please buy SANYO capacitors from our official distributors. Otherwise there is no SANYO warranty.
Line-Up
Aluminum Electrolytic Capacitor (E-CAP)
Aluminum Solid Capacitors with Conductive Polymer/Aluminum Solid Capacitors with Organic Semiconductive Electrolyte OS-CON
Aluminum Electrolytic Capacitors with Hybrid Conductive Polymer EP-cap
Tantalum Solid Capacitors with Conductive Polymer POSCAP
Considerations when using in industrial equipment
To when capacitor is used in industrial equipment, allow wider margin of capacitance, impedance and other characteristics.
Polarity
SANYO capacitors have polarity.
Please confirm the polarity prior to use.If it is used with the polarities reverse in leakage current or a short circuit may result.
Bi-polar capacitors should be used in circuit where polarity is occasionally reversed, or where polarity is unknown.
However bi-polar capacitors cannot be used for AC circuit, too.
There is no bi-polar model of OS-CON, EP-cap and POSCAP.
Operating temperature and ripple current
Set the operating temperature so that it falls within the range stipulated in this delivery specification.
Do not apply current that exceeds the allowable ripple current.When excessive ripple current is applied,
internal heat increases and reduces the life span.
In case the capacitor is used under the condition out of the specified frequency, ripple current shall not exceed the value revised
by the frequency coefficient.
POSCAP About TQC series please contact us.
Applied voltage for designing
Do not apply voltages exceeding the full rated voltage.
If such voltage is applied, it may cause short circuit even though it is just a moment.
90% and below of the rated voltage or category voltage of POSCAP is recommended. If the rated voltage is 10V or over,
80% and below of the rated voltage or category voltage is recommended.
Please refer to the following table for rated voltage of OS-CON.
The sum of the DC voltage plus the peak AC voltage shall not exceed the rated voltage or category voltage.
The sum of the DC voltage plus the negative peak AC voltage shall not allow reverse voltage.
Do not apply reverse voltage.
Please contact us when there is a concern that circuit operation may cause reverse voltage.
Operating environmental
Applied voltage
Temperature
25V products 85 below Less than the rated voltage
except for SVPD 85 above Applied the voltage shown right figure
All except for the above Less than the rated voltage
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About the electronic part capacitor
Guidelines and Precautions for Use
Parallel connection
Ripple current may be flowed to the capacitor that has lower impedance when different kind of capacitors are used in parallel.
Please be very careful of choosing models.
Please consider the balance of electric current when more than two capacitors are connected in parallel.
Operating environment restrictions
Do not use the capacitor in the following environments.
Places where water, salt water or oil can directly fall on it and pleces where condensation may form
Places with noxious gas (hydrogen sulfide, sulfurous acid, nitrous acid, chlorine, ammonia, etc)
Places susceptible to ozone, ultraviolet rays and radiation
Where vibration or shock exceeds the allowable value as specified in the catalog or specification sheet
Places the capacitor under direct sunlight
Land pattern
Please design capacitor SMD type and hole space and hole diameter of circuit board for capacitor radial lead type,
or land patterns with consideration of the product dimension specified in the catalog or specificaion sheet and the size torelance.
Avoid locating heat-generating components around the capacitor and on the underside of the PC board.
When capacitor is mounted to the double sided circuit board, avoid placing through holes under capacitors.
Avoid having the printed wire under the capacitor.
Capacitor insulation (E-CAP. OS-CON. EP-cap)
Be sure to completely separate the case, negative lead terminal, positive lead terminal and PC board patterns with each other
due to the following reasons.
Insulation in the marking sleeve and the laminate resin is not guaranteed.
The space between the case and the negative electrode terminal is not insulated and has some resistance.
Storage conditions
It is necessary to maintain a good storage environment in order to prevent the problem when soldering due to the degradation
of solderability or moisturization of molding resin.
1. When storing the reel in the storage bag, please ensure that the storage bag is fully sealed.
2. Do not store in high temperature and high humidity environment.
3. For duration of storage, refer to the respective "Guidelines and Precautions for Use" of each capacitor.
4. Do not store in damp conditions such as with water, salt water, or oil, and dew condensation.
5. Do not store in places filled with noxious gas (hydrogen sulfide, sulfurous acid, nitrous acid, chlorine, ammonia, etc).
6. Do not store in places susceptible to ozone, ultraviolet rays and radiation.
7. Please unseal storage bag just before mounting and be conscious that not remain.
Refer to the respective "Guidelines and Precautions for Use" of each capacitor when some remain by necessity.
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Guidelines and Precautions for Use
About the electronic part capacitor
Guidelines and Precautions for Use
Considerations when soldering
The soldering conditions as soldering iron, flow soldering, reflow soldering should be under the range prescribed in specifications.
If the specifications are not followed, there is a possibility of the cosmetic defection, the intensive increase of leakage current
or the capacitance reduction.
Soldering heat stress to capacitor varies depending on temperature, duration time, mounting condition as size,
material and component population of PC board. Please check the heat durability in your actual soldering condition.
Things to be noted before mounting
Do not reuse capacitors that have been assembled in a set and energized.
Leakage current may increase when capacitors are stored for long term. In this case, we recommend you to apply the rated
voltage for 1 hour at 60 to 70 with a resistor load of 1k .
In case the capacitor has re-striking-voltage, please apply the rated voltage to the capacitor through 1k resistor.
Mounting 1
Please mount capacitor after confirming the polarity.
Please mount capacitor after confirming its rated capacitance and rated voltage.
When mounting capacitors to the circuit board, please use capacitors with the lead space matching the hole space of the circuit board.
Do not drop capacitor or use capacitor dropped beforehand.
Be careful not to deform the capacitor during installation.
The space specified in the catalog or specitication sheet is needed over the pressure relieve vent of E-CAP or EP-cap.
Avoid having the prented wire over the pressure relieve vent of E-CAP or EP-cap.
If the space between the top of E-CAP or EP-cap and the circuit board is not enough, the hole where gas can escape is needed
when the pressure relieve vent operates.
Mounting 2
When an automatic inserter is used to clinch the capacitor lead terminal, make sure it is not set too strongly.
Be careful to the shock force that can be produced by absorbers, product chckers and centers on automatic inserters and installers.
Do not apply excessive external force to the lead terminal or the capacitor itself.
When mounting snap-in type capacitors, please ensure it is snug fit to the circuit board.
Maintenance / Inspection
For industrial use, please periodically check the capacitor.
When checking, inspect the following points.
Outside appearance.(Opened vent, leakage electrolyte, etc.)
Electrical performance.(Leakage current, Capacitance, Tangent of loss angle, etc.)
Disposal of capacitors
Capacitor comprises solid organic compounds, various metals, resin, rubber, etc. Treat it as industrial waste when disposing of it.
In case of disposing a large amount of SANYO capacitor, SANYO can dispose on your behalf.
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SANYO capacitors
Environmental concerns of
About the electronic part capacitor
Environmental concerns of SANYO capacitors
SANYO Electric Company Co.,Ltd. aims at "Environment . Energy Leading Manufacturer " under the brand
vision '' Think GAIA ''.
Earth-conscious activities are promoted for SANYO capacitors, too.
RoHS compliance
All SANYO capacitors comply with RoHS directive (2002/95/EC).
Restricted Substance
Restricted substances of RoHS directive
Cadmium(Cd) and it's compounds
Lead(Pb) and it's compounds
Mercury(Hg) and it's compounds
Hexavalent chromium(Cr6+)
Polybrominated biphenyls(PBBs)
Polybromineted diphenyl ethers(PBDEs)
Lead-Free Stance
All complete parts and homogenous materials of SANYO capacitors are lead-free.(JEITA, PHASE3)
Halogen-Free Stance
Almost all SANYO capacitors already comply with halogen-free requirements. Please contact us for details.
The difinition of halogen-free for SANYO capacitors is about element or compound of chlorine(CI) and bromine(Br) out of
halogen family except fluorine, iodine and astatine, and satisfy the following conditions as homogeneous materials.
The content percentage of chlorine(CI) 0.09wt% (900ppm) below
The content percentage of bromine(Br) 0.09wt% (900ppm) below
The total content percentage of chlorine(CI) and bromine(Br) 0.15wt% (1500ppm) below
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1
Aluminum Electrolytic Capacitors
Aluminum Electrolytic Capacitors
Guidelines and Precautions for Use
Please observe the following guidelines when using aluminum electrolytic capacitors. (Hereafter "Capacitors")
(The crucial precantions is described to page 3 to 5)
(1) Please use according to the values noted in the catalogue or the specification sheet
when considering the application and use of the capacitors.
(2) Please use according to the temperaturerange and rated ripple current as noted
in the catalog or the specification sheet.
(a) Life time of electrolytic capacitors depends on the ambient temperature.
Generally the life time would be doubled as the temperature decreased by 10 degrees.
It is recommended that capacitors be used at a lower temperature than that of the maximum warranty as possible.
(3) Please choose the capacitors that matches the lifetime of the intended circuit design.
(4) Regular capacitors have polarity. If electrical current is applied in the opposite direction
to a capacitors polarity, the result could be a short circuit or destruction of the capacitor.
Bi-polar capacitors should be used in circuit where polarity is occasionally reversed,
or where is unknown. (except AC)
(5) In circuits where frequent charge and discharge are common, capacitance decrease as
the internal overheat causes damage to capacitors. In such circuits,
please use charge and discharge proof capacitors.
(6) Please consider the balance of the voltage when using two or more capacitors in series.
(1) Please confirm the following points when you solder with a soldering iron.
(a) Follow the criteria of soldering condition including time and temperature noted in a catalogue or a specification.
(b) Process the shape of lead wires before soldering when the lead wire space of a capacitor does not match
the through hole space of a circuit board, avoid the stress to the body of the capacitor.
(c) Melt solder enough to rework a capacitor with a soldering iron after removing it from a circuit board.
Guidelines and Precautions for Use
Insufficience of melting solder causes physical stress to the lead wires.
(d) Do not touch the body of a capacitor with the tip of a soldering iron.
(2) Please confirm the following points when you preform flow soldering.
(a) Do not soak a capacitor in melt solder. Perform flow soldering only on the opposite side
of a circuit board where no capacitor is placed.
(b) Follow the instruction in a catalog or specification with regard to the soldering condition ; preheat,
soldering temperature, and soaking time.
(c) Avoid the attachment of flux to the body of a capacitor except lead wires.
(d) Do not locate a capacitor where metal lead wires of the other components contact with the capacitor.
(3) Please confirm the following points when you preform reflow soldering.
(a) Follow the specifications for pre-heat, reflow time and peak temperature as
noted in the catalog or specification sheet.
(b) The absorption coefficient of infrared rays depend on the color and material of a capacitor.
Avoid heating too much to a capacitor by an infrared heater.
(4) After mounting the circuit board, do not apply the following mechanical stress.
(a) Do not apply excessive force to the lead wires or terminals.
(b) Do not tilt or bring down the capacitor.
(c) Do not pick up circuit board by holding the mounted capacitor.
(d) Do not jolt the capacitor. When stacking circuit boards, make sure the capacitor
does not come into contact with any other parts.
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Aluminum Electrolytic Capacitors 1
Aluminum Electrolytic Capacitors
Guidelines and Precautions for Use
(5) In principle, aluminum electrolytic capacitors are not designed to withstand to the cleaning solvent.
If cleaning of a board is necessary, select capacitor designed to withstand cleaning process,
and observe the cleaning condition specified in the catalog or in the manufactures specification.
Do not clean the capacitors using solvent, unless so specified in catalog or manufactures specfication.
Use of one of the following chemicals for cleaning may damage the capacitor.
(a) Solvent containing halogen ions ; Damage due to electrolysis of elements
(b) Alkaline solvent ; Corrosion of the aluminum case
(c) Xylene ; Degration of sealing rubber
(d) Acetone ; Disappear of marking
(e) Telpen, petro-based solvent ; Degration of sealing rubber
(6) When cleaning solvent proof capacitors, please confirm the following points.
(a) Please manage the pollution of the cleaning solvent. (conductivity, pH, specific gravity, content of water, etc)
(b) Do not keep in the environments of cleaning solvents or airtight containers, after cleaning the capacitors.
Please dry the circuit board and capacitors in a hot blast stove within upper category temperature or less.
(7) When using polymer adhensives, select adhensives without halogenated solvents, nor chloroprene.
(8) Please confirm the following when using coating agents and polymer adhesives.
(a) When adhension or coating is performed after cleaning, air dry should be made immediately
remove cleaning solvent between capacitors and circuit board.
(b) Avoid the treatment that cover the seal of the capacitor, such as coating agents and use of polymer adhesives.
(c) Please contact us for the thermoset condition of coating agents and polymer adhesives.
(1) Do not directly touch the capacitor.
(2) Do not short two lead wires with any conductive material.
Do not spray acid or alkali conductive solution to a capacitor.
(3) Confirm the following concerning the operating environments.
(a) In the environments of splashed water, salt water, and oil on the capacitors.
(b) Where a capacitor is exposed to direct sunshine.
Guidelines and Precautions for Use
(c) In the environments of applied ozone, ultraviolet rays and radical rays.
(d) Places with noxious gas (hydrogen sulfide, sulfurous acid, nitrous acid, chlorine, ammonia, etc)
(e) Where vibration or shock exceeds the allowable values as noted in the catalog or specification sheet.
(1) When working with a pressure relief vent, high temperature gas spouts out, therefore,
do not bring the face close to the capacitor.
(2) In case spouted gas got into eye, immediately wash with the water.
In case you breathe spouted gas, immediately rinse out your mouth.
Product is safekeeping for less than 1 year after shipment.
This guide to use aluminum electrolytic capacitors conform to technical report EIAJ RCR-2367B "Guideline of
notabilia for fixed aluminum electrolytic capacitors for use in electronic equipment".
Please refer to this technical report for additional details.
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1Aluminum Electrolytic Capacitors
Aluminum Electrolytic Capacitors
Product Line-up Table
Product Line-up Table of Aluminum Electrolytic Capacitors with Hybrid Semiconductor
Category Rated
Thin type
Small &
Temperature Rated Voltage Capacitance External Marking
Solvent
Page
Classification Series Features
Proof
Long
Range(