conductive polymer tantalum solid capacitors

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  • 61 62

    Catalog Deletion and EOL seriesOS-CONLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    Characteristics

    Reliability

    Catalog Deletion andEOL series

    SXV

    SVPG

    SVPF

    SVPE

    SVPS

    SVPD

    SVPC

    SVPB

    SVPA

    SVQP

    SVP

    SXE

    SEPF

    SEPC

    SEQP

    SEP

    Image ofcase size

    Products listPackingspecificationsSMD typePackingspecificationsRadial lead type S

    election guide

    Technical data

    Surface mount type

    Radial lead type

    POSCAPLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL models

    Selection guide

    Technical data

    Surface mount type

    The following table is a list of our parts which have been deleted from our catalogs. If you are using any of the following models, please substitute with the suggested alternative model/series.Also, we have announced the end of life of aluminum solid capacitors with organic semiconductive electrolyte. We hope alternative parts (Aluminum Solid Capacitors with Organic Semiconductive Electrolyte) will continue to serve your needs. Thank you very much.

    SVP

    SVQP

    Series

    A5

    B6

    C6

    E7

    F8

    E7

    Size Code AlternativemodelModels forDeletion

    Year ofDeletion

    6SVP15M4SVP22M10SVP22M6SVP33M6SVP56M4SVP82M4SVP100M10SVP82M6SVP120M6SVP150M4SVP150M4SVP220M4SVP470M6SVQP150M4SVQP220M

    200220022002200220022002200220022002200220022002200220072007

    10SVP15M6SVP22M16SVP22M10SVP33M10SVP56M6SVP82M4SVP150MX16SVP82M10SVP120M10SVP150MX10SVP150MX6SVP220MX6SVP470MX10SVQP150M6SVQP220M

    SZPSFSPSCSASLSHSSSGSPASMSNSV

    All size EOL

    The list of alternatives for higher voltage

    SVP

    SEP

    Series

    C6E7F8E12F12 C6E7F8E12F13

    Size Code

    Series Size Code Status

    Alternative seriesModels forDeletionYear ofDeletion

    25SVP6R8M25SVP10M25SVP22M25SVP33M25SVP56M25SEP6R8M25SEP10M 25SEP22M 25SEP33M 25SEP56M

    2013201320132013201320132013201320132013

    SVPD seriesSVPF series

    SEPF series

    The list of alternatives to 25V products

    End of life/ Aluminum Solid Capacitors with Organic Semiconductive Electrolyte

    Surge voltage of above models is 25V and they need to apply the temperature derating voltage, socustomers are encouraged to migrate to models in alternative series which is superior in operating voltage.

    Conductive Polymer Tantalum Solid Capacitors

    INDEXP62

    P63

    P65

    P67

    P74

    P81

    P101

    POSCAP INDEX

    POSCAP Line-up

    Guidelines and precautions

    Selection guide

    Technical data

    Each series

    Catalog Deletion and EOL models

    Yelloew letters Update

    Selection guide

    Technical data

    Surface mount type

    POSCAP Line-up

    Guidelines and precautions

    Series system diagramImage of case sizeProducts listExplanation of part numbersPacking specificationsRecommended soldering conditionFundamental structureCharacteristicsReliability

    TPUTPHTPGTPSFTPETPBTPCTPFTATVTHTQC

    P63

    P65

    P101

    P67P68P69P71P72

    P74P75P76P80

    P81P82P83P84P85P89P91P93P95P96P97P99

    Catalog Deletion and EOL models

    Conductive Polymer Tantalum Solid Capacitors

  • 43

    The Automotive & Industrial Systems Company Group, Panasonic Corporation, Fulfills both environmental contribution and business growth, takes care of biodiversity, and contributes to create harmonization of environment, economy and society and to achieve a sustainable society.

    Environmental responsibilitytP5

    P8

    P9

    P11

    P15

    P25

    P33

    P61

    OS-CON INDEX

    OS-CON Line-up

    Guidelines and precautions

    Selection guide

    Technical data

    Each series

    Catalog Deletion and EOL series

    P103 Application examples

    INDEXGuidelines and precautions for use About capacitors

    POSCAP INDEX

    POSCAP Line-up

    Guidelines and precautions

    Selection guide

    Technical data

    Each series

    Catalog Deletion and EOL models

    P62

    P63

    P65

    P67

    P74

    P81

    P101

    RoHS compliance Halogen-free stance

    Homogeneous material : the material that cannot be mechanically decomposed.

    All OS-CON and POSCAP comply with halogen-free requirements. Please contact us for details.The difinition of halogen-free for capacitors is about element or compound of chlorine(Cl) and bromine(Br) out of halogen family except fluorine, iodine and astatine, and satisfy the following conditions as homogeneous materials.

    *As for the packaging materials, they comply with EU94/62/EC Packaging and Waste Packaging Directive, which requires the total content of lead, cadmium, mercury and hexavalentchromium in the components of packaging materials to be 100 ppm or less.

    All capacitors comply with RoHS directive (2011/65/EU).

    Lead-free stanceAll complete parts and homogenous materials of capacitors are lead-free.(JEITA, PHASE3)

    plastic composed of homogeneous material, adhesives, metallic material, ink, glass, paper, alloyed metal, etc.ink layer printed or coated on plastic material, coating layer, film of paint etc.thin metallic film formed on the surface of plastic material or metallic material

    Automotive Industrial Systems Company, Panasonic Corporation

    Selection guide

    Technical data

    Surface mount type

    POSCAP Line-up

    Guidelines and precautions

    Series system diagramImage of case sizeProducts listExplanation of part numbersPacking specificationsRecommended soldering conditionFundamental structureCharacteristicsReliability

    TPUTPHTPGTPSFTPETPBTPCTPFTATVTHTQC

    P63

    P65

    P101

    P67P68P69P71P72

    P74P75P76P80

    P81P82P83P84P85P89P91P93P95P96P97P99

    Catalog Deletion and EOL models

    Conductive Polymer Tantalum Solid Capacitors

    Yelloew letters Update Red letters New series

    Selection guide

    Technical data

    Radial lead type

    OS-CON Line-up

    Guidelines and precautions

    Series system diagramImage of case sizeProducts listPacking specificationsSMD typePacking specificationsRadial lead typeRecommended soldering conditionFundamental structureCharacteristicsReliability

    SXVSVPGSVPFSVPESVPSSVPDSVPCSVPBSVPASVQPSVP

    SXESEPFSEPCSEQPSEP

    P9

    P11

    P15P16P17P21P23

    P25P26P27P30

    P33P34P35P37P39P41P43P45P47P49P51

    P53P54P55P57P59

    Catalog Deletion and EOL seriesP61

    Surface mount type

    (Example)

    Cadmium(Cd) and it's compoundsLead(Pb) and it's compoundsMercury(Hg) and it's compoundsHexavalent chromium(Cr6+)Polybrominated biphenyls(PBBs)Polybromineted diphenyl ethers(PBDEs)

    Restricted substances of RoHS directiveRestricted Substance

    The content percentage of chlorine(Cl)The content percentage of bromine(Br)The total content percentage of chlorine(Cl) and bromine(Br)

    0.09wt% (900ppm) below0.09wt% (900ppm) below0.15wt% (1,500ppm) below

    Conductive Polymer Aluminum Solid Capacitors

    Principle

  • 65

    Please take note of the following points in order to make the best use of capacitor's performance.Please use capacitors within the range of specified performance after confirming each capacitor's usage environment and circuit condition. Please choose capacitors that match the lifetime of the intended circuit design.The performance of capacitors is changed by the temperature or frequency. Therefore, please consider these variations when designing the circuit.Please buy capacitors from our official distributors. Otherwise there is no warranty.

    Line-upConductive Polymer Aluminum Solid CapacitorsConductive Polymer Tantalum Solid Capacitors

    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 the POSCAP is recommended. If the rated voltage is 10V or over except for TQC series, 80% and below of the rated voltage or category voltage is recommended.

    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.

    Applied voltage for designing

    OS-CON and POSCAP have polarity.Please confirm the polarity prior to use. If it is used with the reverse polarities, leakage current, shorter lifetime or a short circuit may result.There is no bi-polar model of the OS-CON and POSCAP.

    Polarity

    Rating and category

    Operating temperature and ripple current

    Do not use the capacitor in the following environments

    Operating environment restrictions

    The definition of rating and category is as follows.

    Rated temperature:The maximum ambient temperature at which rated voltage may be continuously applied.

    Rated voltage:The maximum direct 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.

    Category temperature range:The range of ambient temperatures for which a capacitor has been designed to operate continuously; this is given by the lower and upper category temperature.

    Category voltage:The maximum voltage which may be applied continuously to a capacitor at its upper limit of category temperature.

    Places where water, salt water or oil can directly fall on it and pleces where dew condensation may form

    Places with noxious gas (hydrogen sulfide, sulfurous acid, nitrous acid, chlorine, ammonia, etc)

    Places susceptible to ozone, ultraviolet rays and radiation

    Places where vibration or shock exceeds the allowable value as specified in the catalog or specification sheet

    Places under direct sunlight

    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 such as size, material and component quantity of PC board. Please check the heat durability in your actual soldering condition.

    SolderingSet 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 lifetime.

    In case capacitors are used under the condition out of the specified frequency, ripple current shall not exceed the value revised by the frequency coefficient.

    Ripple current may be flowed to a capacitor that has lower impedance when a different kind of capacitor is 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.

    Parallel connection

    Land patternPlease design hole space and hole diameter of circuit board for capacitor radial lead type, or land patterns for capacitor SMD type with consideration of the product dimension specified in the catalog or specification sheet and the size tolerance.Avoid locating heat-generating components around the capacitor and on the underside of the PC board.When a capacitor is mounted to the double sided circuit board, avoid placing through holes under the capacitor.Avoid having the printed wire under the capacitor.

    Considerations when using in industrial equipment

    To when capacitors are used in industrial equipment, allow wider margin of capacitance, impedance and other characteristics.

    Guidelines and precautions for useAbout capacitors

  • 65

    Please take note of the following points in order to make the best use of capacitor's performance.Please use capacitors within the range of specified performance after confirming each capacitor's usage environment and circuit condition. Please choose capacitors that match the lifetime of the intended circuit design.The performance of capacitors is changed by the temperature or frequency. Therefore, please consider these variations when designing the circuit.Please buy capacitors from our official distributors. Otherwise there is no warranty.

    Line-upConductive Polymer Aluminum Solid CapacitorsConductive Polymer Tantalum Solid Capacitors

    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 the POSCAP is recommended. If the rated voltage is 10V or over except for TQC series, 80% and below of the rated voltage or category voltage is recommended.

    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.

    Applied voltage for designing

    OS-CON and POSCAP have polarity.Please confirm the polarity prior to use. If it is used with the reverse polarities, leakage current, shorter lifetime or a short circuit may result.There is no bi-polar model of the OS-CON and POSCAP.

    Polarity

    Rating and category

    Operating temperature and ripple current

    Do not use the capacitor in the following environments

    Operating environment restrictions

    The definition of rating and category is as follows.

    Rated temperature:The maximum ambient temperature at which rated voltage may be continuously applied.

    Rated voltage:The maximum direct 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.

    Category temperature range:The range of ambient temperatures for which a capacitor has been designed to operate continuously; this is given by the lower and upper category temperature.

    Category voltage:The maximum voltage which may be applied continuously to a capacitor at its upper limit of category temperature.

    Places where water, salt water or oil can directly fall on it and pleces where dew condensation may form

    Places with noxious gas (hydrogen sulfide, sulfurous acid, nitrous acid, chlorine, ammonia, etc)

    Places susceptible to ozone, ultraviolet rays and radiation

    Places where vibration or shock exceeds the allowable value as specified in the catalog or specification sheet

    Places under direct sunlight

    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 such as size, material and component quantity of PC board. Please check the heat durability in your actual soldering condition.

    SolderingSet 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 lifetime.

    In case capacitors are used under the condition out of the specified frequency, ripple current shall not exceed the value revised by the frequency coefficient.

    Ripple current may be flowed to a capacitor that has lower impedance when a different kind of capacitor is 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.

    Parallel connection

    Land patternPlease design hole space and hole diameter of circuit board for capacitor radial lead type, or land patterns for capacitor SMD type with consideration of the product dimension specified in the catalog or specification sheet and the size tolerance.Avoid locating heat-generating components around the capacitor and on the underside of the PC board.When a capacitor is mounted to the double sided circuit board, avoid placing through holes under the capacitor.Avoid having the printed wire under the capacitor.

    Considerations when using in industrial equipment

    To when capacitors are used in industrial equipment, allow wider margin of capacitance, impedance and other characteristics.

    Guidelines and precautions for useAbout capacitors

  • 7 8

    Guidelines and precautions for useAbout capacitors

    Storage conditions

    Only for capacitors packed by laminate bag.

    Disposal of capacitorsCapacitors comprise solid organic compounds, various metals, resin, rubber, etc. Treat them as industrial wastewhen disposing of it.In case of disposing of a large amount of capacitor, we can dispose on your behalf.

    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.

    When storing the reel in the storage bag, please ensure that the storage bag is fully sealed.

    Do not store in high temperature and high humidity environment.

    For duration of storage, refer to the respective "Guidelines and precautions for use" of each capacitor.

    Do not store in damp conditions such as with water, salt water, or oil, and dew condensation.

    Do not store in places filled with noxious gas (hydrogen sulfide, sulfurous acid, nitrous acid, chlorine, ammonia, etc).

    Do not store in places susceptible to ozone, ultraviolet rays and radiation.

    Please unseal storage bag just before mounting and be conscious that the capacitors are used up.Refer to the respective "Guidelines and precautions for use" of each capacitor when some remain by necessity.

    Mounting 1Please mount capacitors after confirming the polarity.

    Please mount capacitors 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 capacitors or use capacitors dropped beforehand.

    Be careful not to deform the capacitor during installation.

    Mounting 2When an automatic inserter is used to clinch the capacitor lead terminal, make sure it is not set too strongly.

    Be careful of 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.

    P8

    P9

    P11

    P15

    P25

    P33

    P61

    OS-CON INDEX

    OS-CON Line-up

    Guidelines and precautions

    Selection guide

    Technical data

    Each series

    Catalog Deletion and EOL series

    Conductive Polymer Aluminum Solid Capacitors

    INDEX

    Yelloew letters Update Red letters New series

    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 a resistor load of 1k.

    Selection guide

    Technical data

    Radial lead type

    OS-CON Line-up

    Guidelines and precautions

    Series system diagramImage of case sizeProducts listPacking specificationsSMD typePacking specificationsRadial lead typeRecommended soldering conditionFundamental structureCharacteristicsReliability

    SXVSVPGSVPFSVPESVPSSVPDSVPCSVPBSVPASVQPSVP

    SXESEPFSEPCSEQPSEP

    P9

    P11

    P15P16P17P21P23

    P25P26P27P30

    P33P34P35P37P39P41P43P45P47P49P51

    P53P54P55P57P59

    Catalog Deletion and EOL seriesP61

    Surface mount type

    Conductive Polymer Aluminum Solid Capacitors

  • 65 66

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    Guidelines andprecautions

    Circuit designing cautions

    1.Check the rated performanceAfter checking the operation and installation environments, design the circuit so that it falls within the rated performance range stipulated in this delivery specification.

    8.Reduction of failure stressWhen POSCAP is used within the rated voltage, it shows a stable characteristic, but it may be damaged in a short circuit when an overvoltage, for instance, is applied.The time to reach the failure mode can be extended by using POSCAP with reduced environment temperature, ripple current and applied voltage.Failure rate

    In the case of the endurance which is 105 2,000h.0.5%/1,000h (Environment temp. : 105, Rated voltage or Category voltage applied)In the case of the endurance which is 105 1,000h or 125 1,000h.1.0%/1,000h (Environment temp. : 105, Rated voltage or Category voltage applied)In the case of the endurance which is 85 1,000h.1.0%/1,000h (Environment temp. : 85, Rated voltage applied)

    9.Considerations when solderingThe soldering conditions are to be within the range prescribed in this delivery specification. If the specifications are not followed, there is the possibility of degradation of electric characteristic and lifetime when soldering is conducted under conditions that are harsher that those stipulated.

    10.OthersPOSCAPs Electrical characteristics are affected by temperature and frequency fluctuations.Design circuits after checking the amount of fluctuation.

    2.Operating temperature and ripple current(a) Set the operating temperature so that it falls within the range stipulated in this delivery specification.

    (b) Do not apply current that exceeds the allowable ripple current. Ripple current should be controlled so that surface temperature of a capacitor do not exceed the rated temperature. (For questions regarding TQC series, please contact us.)

    3.Leakage currentEven when the soldering conditions fall within the range of this delivery specifications, leakage current increases a little on occasion. It also increases a little during high temperature storage, high humidity storage and temperature cycling with no voltage applied. In cases such as these, leakage current will decrease by applying voltage under the condition of below the POSCAP's maximum operating temperature. The speed at which the leakage current is restored is increased by applying voltage when the POSCAP's temperature is close to the maximum operating temperature.

    5.Rapid charge and discharge limitationRapid charge and discharge are restricted (for maintainance of high-proof reliability).A protective circuit is recommended for when a rapid charge or discharge causes excessive rush current since this is main cause of short circuit and large leakage current. Use a protective circuits in case the rush current value exceeds 20A.Be sure to insert a protection resistor of about 1k for charge and discharge when measuring the leakage current. When TH series use under the ambient temperature more than 105 : 10A, TPU series : 10A

    6.Protect circuitThe failure mode of POSCAP is the short mode. When it breaks down, short electric current flows to it.POSCAP gives off heat by this short current. Do the following consideration in design fully for the safety because it has a bad influence on the part around POSCAP due to this heat. A protective circuit and a protective device are set up, so as to make the system safer.

    A diffuse circuit and so on is set up, so as to make the system safer such as that a machine may not break down as to the single trouble.

    POSCAP is uniquely structured solid electrolytic capacitor. Please note the following points in order to take full advantage of the POSCAP's performance and ensure the most stable quality. The crucial precautions is described to page 5 to 7

    7.Failure and life-span

    4.Prohibited circuitsSince problems can be expected, POSCAP cannot be used on the following circuits(1) High impedance voltage retention circuits(2) Time constant circuits(3) Circuits greatly affected by leakage current(4) The circuit in which two or more POSCAP are connected in a series so as to raise the endurance voltage.

    The failure rate is 0.5% / 1,000h (Confidence level60%) based on JIS C 5003.The mainly failure modes are as follows. B2 size or less: 1.0%

    7-1. Contingency failureThe main causes of failure are thermal stresses cause by the soldering or thermal use environment,along with heat stresses, electrical stresses or mechanical stresses. The most common failure mode is a short circuit.In case a short circuit occurs, ensure safety by fully considering the followings.(1) If POSCAP emit smoke, turn off the main power of the equipment.In this case, keep your face and hands away from the area.

    It is necessary to set an environment to prevent a trouble at the time of soldering by the degradation of solder ability or moisture's getting into the molding resin when POSCAP are stored. (Please refer to page 6. about the general storage conditions)The storage period is 18 months or shorter after shipment from factories, under the condition that the storage bag is unopened.Please unseal storage bag just before mounting and be conscious that POSCAP in the storage bag is used up.When remainder unfortunately occurs, return them to the storage bag once again and, please seal the unsealed part by adhesive tape etc., including desiccants. Moreover, once and use it in time the storage bag is opened, store POSCAP according to the table's Floor Life ''Time'' and ''conditions''

    Storage conditions

    We, Panasonic are providing the product and service that customers can use without anxiety, and are working positively on the protection of our products under intellectual property rights.Representative patents relating to POSCAP are as follows:( TPB, TPC, TPD, TPE, TPF, TPG, TPH, TPSF, TPU, TA, TV, TH series ) U.S. Patent Nos. 6168639 and 6313979

    Intellectual property right

    (2) It may take a few seconds to a few minutes before POSCAP emits smoke by the situation. Increase safety by using a protective circuit.

    (3) If the smoke comes into eyes, rinse immediately. If the smoke is inhaled, gargle immediately.

    (4) In case a large current continues to flow after a short circuit, in the worst case, the shorted-out section may ignite. For safety, install a redundant circuit or a protective circuit, etc.

    7-2. Wear-out failure (lifetime)When lifetime exceeded the specified guarantee time of Endurance and Damp heat, electrolyte might insulate and cause electric characteristic changed. This is called an open circuit. The electric characteristics of capacitance and ESR may possibly change within the specified range in specifications when it is used under the condition of the rated voltage, electric and mechanical performance. Please note it when design.

    (Conform to IPC/JEDEC J-STD-020D)

    Floor life Applicable modelsTime Conditions

    See characteristics list in Page 81 to 100

    4 weeks

    168 hours

    3060RH

    3060RH

    2a

    3

    48 hours 3060RH5

    MSL

  • 65 66

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    Guidelines andprecautions

    Circuit designing cautions

    1.Check the rated performanceAfter checking the operation and installation environments, design the circuit so that it falls within the rated performance range stipulated in this delivery specification.

    8.Reduction of failure stressWhen POSCAP is used within the rated voltage, it shows a stable characteristic, but it may be damaged in a short circuit when an overvoltage, for instance, is applied.The time to reach the failure mode can be extended by using POSCAP with reduced environment temperature, ripple current and applied voltage.Failure rate

    In the case of the endurance which is 105 2,000h.0.5%/1,000h (Environment temp. : 105, Rated voltage or Category voltage applied)In the case of the endurance which is 105 1,000h or 125 1,000h.1.0%/1,000h (Environment temp. : 105, Rated voltage or Category voltage applied)In the case of the endurance which is 85 1,000h.1.0%/1,000h (Environment temp. : 85, Rated voltage applied)

    9.Considerations when solderingThe soldering conditions are to be within the range prescribed in this delivery specification. If the specifications are not followed, there is the possibility of degradation of electric characteristic and lifetime when soldering is conducted under conditions that are harsher that those stipulated.

    10.OthersPOSCAPs Electrical characteristics are affected by temperature and frequency fluctuations.Design circuits after checking the amount of fluctuation.

    2.Operating temperature and ripple current(a) Set the operating temperature so that it falls within the range stipulated in this delivery specification.

    (b) Do not apply current that exceeds the allowable ripple current. Ripple current should be controlled so that surface temperature of a capacitor do not exceed the rated temperature. (For questions regarding TQC series, please contact us.)

    3.Leakage currentEven when the soldering conditions fall within the range of this delivery specifications, leakage current increases a little on occasion. It also increases a little during high temperature storage, high humidity storage and temperature cycling with no voltage applied. In cases such as these, leakage current will decrease by applying voltage under the condition of below the POSCAP's maximum operating temperature. The speed at which the leakage current is restored is increased by applying voltage when the POSCAP's temperature is close to the maximum operating temperature.

    5.Rapid charge and discharge limitationRapid charge and discharge are restricted (for maintainance of high-proof reliability).A protective circuit is recommended for when a rapid charge or discharge causes excessive rush current since this is main cause of short circuit and large leakage current. Use a protective circuits in case the rush current value exceeds 20A.Be sure to insert a protection resistor of about 1k for charge and discharge when measuring the leakage current. When TH series use under the ambient temperature more than 105 : 10A, TPU series : 10A

    6.Protect circuitThe failure mode of POSCAP is the short mode. When it breaks down, short electric current flows to it.POSCAP gives off heat by this short current. Do the following consideration in design fully for the safety because it has a bad influence on the part around POSCAP due to this heat. A protective circuit and a protective device are set up, so as to make the system safer.

    A diffuse circuit and so on is set up, so as to make the system safer such as that a machine may not break down as to the single trouble.

    POSCAP is uniquely structured solid electrolytic capacitor. Please note the following points in order to take full advantage of the POSCAP's performance and ensure the most stable quality. The crucial precautions is described to page 5 to 7

    7.Failure and life-span

    4.Prohibited circuitsSince problems can be expected, POSCAP cannot be used on the following circuits(1) High impedance voltage retention circuits(2) Time constant circuits(3) Circuits greatly affected by leakage current(4) The circuit in which two or more POSCAP are connected in a series so as to raise the endurance voltage.

    The failure rate is 0.5% / 1,000h (Confidence level60%) based on JIS C 5003.The mainly failure modes are as follows. B2 size or less: 1.0%

    7-1. Contingency failureThe main causes of failure are thermal stresses cause by the soldering or thermal use environment,along with heat stresses, electrical stresses or mechanical stresses. The most common failure mode is a short circuit.In case a short circuit occurs, ensure safety by fully considering the followings.(1) If POSCAP emit smoke, turn off the main power of the equipment.In this case, keep your faceand hands away from the area.

    It is necessary to set an environment to prevent a trouble at the time of soldering by the degradation of solder ability or moisture's getting into the molding resin when POSCAP are stored. (Please refer to page 6. about the general storage conditions)The storage period is 18 months or shorter after shipment from factories, under the condition that the storage bag is unopened.Please unseal storage bag just before mounting and be conscious that POSCAP in the storage bag is used up.When remainder unfortunately occurs, return them to the storage bag once again and, please seal the unsealed part by adhesive tape etc., including desiccants. Moreover, once and use it in time the storage bag is opened, store POSCAP according to the table's Floor Life ''Time'' and ''conditions''

    Storage conditions

    We, Panasonic are providing the product and service that customers can use without anxiety, and are working positively on the protection of our products under intellectual property rights.Representative patents relating to POSCAP are as follows:( TPB, TPC, TPD, TPE, TPF, TPG, TPH, TPSF, TPU, TA, TV, TH series ) U.S. Patent Nos. 6168639 and 6313979

    Intellectual property right

    (2) It may take a few seconds to a few minutes before POSCAP emits smoke by the situation. Increase safety by using a protective circuit.

    (3) If the smoke comes into eyes, rinse immediately. If the smoke is inhaled, gargle immediately.

    (4) In case a large current continues to flow after a short circuit, in the worst case, the shorted-out section may ignite. For safety, install a redundant circuit or a protective circuit, etc.

    7-2. Wear-out failure (lifetime)When lifetime exceeded the specified guarantee time of Endurance and Damp heat, electrolyte might insulate and cause electric characteristic changed. This is called an open circuit. The electric characteristics of capacitance and ESR may possibly change within the specified range in specifications when it is used under the condition of the rated voltage, electric and mechanical performance. Please note it when design.

    (Conform to IPC/JEDEC J-STD-020D)

    Floor life Applicable modelsTime Conditions

    See characteristics list in Page 81 to 100

    4 weeks

    168 hours

    3060RH

    3060RH

    2a

    3

    48 hours 3060RH5

    MSL

  • 63

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    Line-up

    TPSF

    TPU

    TPH

    TPG

    55 to 85

    55 to 85

    55 to 85

    55 to 85

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    2.01.25

    3.52.8

    3.21.6

    3.21.6

    3.52.8

    3.52.8

    3.52.8

    3.52.8

    7.34.3

    7.34.3

    7.34.3

    7.34.3

    3.52.8

    7.34.3

    7.34.3

    3.52.8

    7.34.3

    S09

    B09

    A09

    A14

    B1G

    B15G

    B2S

    B2

    D15E

    D2E

    D3L

    D4

    B2

    D3L

    D4

    B1

    D2

    2.5 to 10

    6.3

    2.5 to 10

    2.5 to 6.3

    2.5 to 12.5

    4.0 to 6.3

    2.0 to 2.5

    2.0 to 10

    6.3

    2.5 to 10

    2.5 to 10

    2.5 to 10

    4.0 to 10

    4.0 to 10

    6.3 to 10

    6.3 to 12.5

    6.3 to 10

    4.7 to 100

    150

    33 to 100

    100 to 220

    33 to 220

    150 to 220

    270

    47 to 470

    470

    68 to 470

    220 to 680

    330 to 1,500

    33 to 68

    150 to 330

    220 to 470

    10 to 47

    68 to 330

    0.9

    0.9

    0.9

    1.4

    1.1

    1.4

    1.9

    1.9

    1.4

    1.8

    2.8

    3.8

    1.9

    2.8

    3.8

    1.1

    1.9

    82

    81

    83

    84

    85 to 88

    89 to 90

    TPE

    TPB

    91 to 92

    Standard

    Low profileTPC

    FeaturesSeriesCategorytemperaturerange

    Ratedvoltagerange

    Capacitancerange

    LWmm

    Hmm

    PageClassification

    Small size Low

    profile

    Large capacitance

    Low ESR

    For automotive Size

    code

    High voltage

    Low ESR Small sizeLarge capacitanceFace down terminal

    Small sizeLow profile

    Face down terminal

    Low ESR

    Small sizeLow profileLarge capacitance

    Small sizeLow ESR

    Face down terminal

    SMD type

  • 64

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 125

    55 to 125

    55 to 125

    55 to 125

    55 to 125

    55 to 125

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    55 to 105

    7.34.3

    7.34.3

    7.34.3

    3.52.8

    7.34.3

    7.34.3

    7.34.3

    7.34.3

    7.34.3

    7.34.3

    7.34.3

    7.34.3

    3.52.8

    3.52.8

    7.34.3

    7.34.3

    7.34.3

    7.34.3

    D2E

    D3L

    D4

    B2

    D2E

    D3L

    D2E

    D3L

    D2E

    D2

    D3L

    D4

    B15

    B2

    D12

    D15

    D2

    D3L

    2.0

    2.5 to 10

    2.5 to 6.3

    4.0 to 10

    2.5 to 10

    2.5 to 10

    6.3 to 10

    10

    2.5 to 6.3

    2.5 to 10

    4.0 to 6.3

    4.0 to 10

    35

    16 to 35

    16

    16 to 25

    16 to 35

    16 to 25

    220 to 330

    150 to 680

    470 to 1,000

    47 to 100

    68 to 470

    150 to 680

    68 to 150

    150

    150 to 330

    68 to 220

    220 to 330

    220 to 470

    2.7

    3.9 to 33

    33

    22 to 47

    10 to 100

    68 to 150

    1.8

    2.8

    3.8

    1.9

    1.8

    2.8

    1.8

    2.8

    1.8

    1.9

    2.8

    3.8

    1.4

    1.9

    1.15

    1.4

    1.9

    2.8

    93 to 94TPF

    95TA

    96

    97 to 98

    TV

    TH

    99 to 100TQC

    FeaturesSeriesCategorytemperaturerange

    Ratedvoltagerange

    Capacitancerange

    LWmm

    Hmm

    PageClassification

    Small size Low

    profile

    Large capacitance

    Low ESR

    For automotive Size

    code

    High voltage

    Low ESRLarge capacitance

    High reliability(for the car electronics)

    Guaranteed at 125

    High voltage

    High reliabilityGuaranteed at 125(for the car electronics)

    SMD type

  • 67

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    Series systemdiagram

    The size of each photo is nearly to full scale.

    Case size (Unit:mm)B2S3.52.81.9

    D127.34.31.15

    D157.34.31.4

    D15E7.34.31.4

    LWH

    S092.01.250.9

    A093.21.60.9

    A143.21.61.4

    B093.52.80.9

    B13.52.81.1

    B1G3.52.81.1

    B15G3.52.81.4

    B153.52.81.4

    B23.52.81.9

    D2E7.34.31.8

    D27.34.31.9

    D3L7.34.32.8

    D47.34.33.8

    P.93 to 94

    TPF

    2.5 to 6.3.V470 to 1,000F

    D4 size

    2.5 to 10V150 to 680F

    D3L size

    2.0V220 to 330F

    D2E size

    Low ESRLarge capacitance

    P.89 to 90

    TPB 6.3 to 10V220 to 470F

    D4 size4.0 to 10V150 to 330F

    D3L size4.0 to 10V33 to 68F

    B2 sizeStandard

    P.85 to 88

    2.5 to 10V330 to 1,500F

    D4 size

    2.5 to 10V220 to 680F

    D3L size

    2.5 to 10V68 to 470F

    D2E size

    6.3V470F

    D15E size

    TPELow ESR

    2.0 to 10V47 to 470F

    B2 size

    P.99 to 100

    16 to 25V68 to 150F

    D3L size

    16 to 35V10 to 100F

    D2 size

    16V33F

    D12 size

    16 to 25V22 to 47F

    D15size

    TQCHigh voltage

    35V2.7F

    B15 size

    P.97 to 98

    4.0 to 10V220 to 470F

    D4 size

    4.0 to 6.3V220 to 330F

    D3L size

    2.5 to 10V68 to 220F

    D2 size

    2.5 to 6.3V150 to 330F

    D2E size

    THGuaranteed at 125C

    P.91 to 92

    6.3 to 10V68 to 330F

    D2 size

    6.3 to 12.5V10 to 47F

    B1 size

    TPCLow profile

    P.81

    TPU

    6.3V150F

    B09 size

    2.5 to 10V4.7 to 100F

    S09 size

    Small sizeLow profileFace down terminal type

    P.83

    2.5 to 6.3V150 to 220F

    B15G size

    2.5 to 12.5V33 to 220F

    B1G size

    TPGSmall size

    Large capacitance

    P.84

    2.0 to 2.5V270F

    B2S size

    TPSFLow ESR

    Large capacitanceSmall size

    P.82

    2.5 to 6.3V100 to 220F

    A14 size

    2.5 to 10V33 to 100F

    A09 size

    TPHSmall sizeLow profileFace down terminal type

    P.95

    TA

    2.5 to 10V150 to 680

    D3L size

    2.5 to 10V68 to 470F

    D2E size

    4.0 to 10V47 to 100F

    B2 size

    High reliability(For the car electronics)

    P.96

    10V150F

    D3L size

    6.3 to 10V68 to 150F

    D2E size

    TVHigh reliabilityGuaranteed at 125C(For the car electronics)

    New

    16 to 35V3.9 to 33F

    B2 size

  • 68

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    Image ofcase size

    (Unit:mm)

    (Unit:mm)

    L

    W

    H

    The size of each photo is nearly to full scale.

    16V33F

    L7.3W4.3H1.15

    D12size

    D15size

    D15Esize

    D2Esize

    D2size

    D3Lsize

    D4size

    TQCP.99 to 100

    16 to 25V22 to 47F

    L7.3W4.3H1.4

    TQCP.99 to 100

    6.3V470F

    L7.3W4.3H1.4

    TPEP.85

    2.5 to 10V68 to 470F

    L7.3W4.3H1.8

    TPEP.85

    2.0V220 to 330F

    TPFP.93 to 94

    2.5 to 10V68 to 470F

    TAP.95

    6.3 to 10V68 to 150F

    TVP.96

    2.5 to 6.3V150 to 330F

    THP.97 to 98

    6.3 to 10V68 to 330F

    L7.3W4.3H1.9

    TPCP.91

    2.5 to 10V68 to 220F

    THP.97 to 98

    16 to 35V10 to 100F

    TQCP.99 to 100

    2.5 to 10V220 to 680F

    L7.3W4.3H2.8

    TPEP.85

    4.0 to 10V150 to 330F

    TPBP.89 to 90

    2.5 to 10V150 to 680F

    TPFP.93 to 94

    2.5 to 10V150 to 680F

    TAP.95

    10V150F

    TVP.96

    4.0 to 6.3V220 to 330F

    THP.97 to 98

    16 to 25V68 to 150F

    TQCP.99 to 100

    2.5 to 10V330 to 1,500F

    L7.3W4.3H3.8

    TPEP.85

    6.3 to 10V220 to 470F

    TPBP.89 to 90

    2.5 to 6.3V470 to 1,000F

    TPFP.93 to 94

    4.0 to 10V220 to 470F

    THP.97 to 98

    New

    (Unit:mm)

    A09size

    A14size

    B09size

    B1size

    B1Gsize

    B2size

    B2Ssize

    2.5 to 10V33 to 100F

    L3.2W1.6H0.9

    TPHP.82

    2.5 to 6.3V100 to 220F

    L3.2W1.6H1.4

    TPHP.82

    6.3V150F

    L3.5W2.8H0.9

    TPUP.81

    6.3 to 12.5V10 to 47F

    L3.5W2.8H1.1

    TPCP.91 to 92

    2.5 to 12.5V33 to 220F

    L3.5W2.8H1.1

    TPGP.83

    2.0 to 10V47 to 470F

    TPEP.85

    L3.5W2.8H1.9 L3.5W2.8H1.9

    4.0 to 10V33 to 68F

    TPBP.89 to 90

    2.0 to 2.5V270F

    TPSFP.84

    B15Gsize

    2.5 to 6.3V150 to 220F

    L3.5W2.8H1.4

    TPGP.83

    B15size

    35V2.7F

    L3.5W2.8H1.4

    TQCP.99 to 100

    2.5 to 10V4.7 to 100F

    L2.0W1.25H0.9

    S09size

    TPUP.81

    4.0 to 10V47 to 100F

    TAP.95

    16 to 35V3.9 to 33F

    TQCP.99 to 100

  • 69

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    D2150

    D3L70

    Products list

    SizeESR Matrix list

    B290 D255

    D1555

    D1555

    D1570B2400B15300

    B2100

    S09150

    S09150

    B170,55

    A09150

    B180

    B170

    B290B1G70

    D2120

    D290,45

    D255,40

    D260,45

    D280 D260

    D1240D270 D250

    D260

    B270

    B270

    B270 B270

    B235 D2E25

    B1G70

    B1G70

    D245

    A09150

    S09300

    S09250 S09150 S09150

    B180

    B2100

    B2100

    B2100

    A09150

    VF

    SeriesTPETPFTPSFTPB

    TPE

    TPF

    TPG

    TPHTPSFTPUTPB

    TPE

    TPFTPGTPHTPU

    TPB

    TPC

    TPE

    TPFTPG

    TPH

    TPUTPCTPETPG

    TPB

    TPCTPETPFTPGTPHTPUTPCTPG

    TQC

    TQC

    TQC

    TQC

    2.0

    2.5

    4.0

    6.3

    8.0

    10

    12.5

    16

    20

    25

    35

    2.7 3.9 4.7 5.6 8.2 10 15 22 33 47 68

    Case size Unit:mm

    LWH

    D47.34.33.8

    D3L7.34.32.8

    D27.34.31.9

    D2E7.34.31.8

    D15E7.34.31.4

    D157.34.31.4

    D127.34.31.15

    B2S3.52.81.9

    B23.52.81.9

    B15G3.52.81.4

    B153.52.81.4

    B1G3.52.81.1

    B13.52.81.1

    B093.52.80.9

    A143.21.61.4

    A093.21.60.9

    S092.01.250.9

    B290

  • 70

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    Under development 1(F:15, I:18, M:25) 2(C:12, F:15, I:18, M:25) 3(7, 9, C:12, F:15, I:18, M:25) Symbols in table: Case size( ): ESR specitication(mmax.)

    D3L55

    D3L15,12

    D45D3L10,7,6

    B235 D415

    B235

    D245

    B235

    D245

    D250

    D2E25,18B235,25

    B1G70,55,35A09100A1470

    B270

    A09150

    S09150

    D415,12

    D45

    D3L10,2

    D46,5D3L10,7,6

    D3L25,18

    B235,15,9

    B211B215,13

    D3L15

    B15G30

    B15G70

    D2E6

    D3L7

    D3L40

    D3L12 D3L10

    D2E6

    D2E9,2 D2E3 D2E18,15,12,9,7

    D2E1 D2E25,18

    B1G70

    B2S9,6

    D2E18

    D240 D240

    D240

    D3L40D3L40

    D3L40 D3L40

    D3L9D3L12.9,5

    D3L50

    D2E1D3L9,1D2E25D2E25,18

    B235 B235

    A1470

    B225

    D410D15E35

    A1470

    B235

    B235B235,25

    B15G70,35

    B09100

    D440

    D440D435

    D410

    D410

    D425,18 D425,18

    D435

    D425

    VF

    Series

    B235,25,21,15

    TPETPFTPSFTPB

    TPE

    TPF

    TPG

    TPHTPSFTPUTPB

    TPE

    TPFTPGTPHTPU

    TPB

    TPC

    TPE

    TPFTPG

    TPH

    TPUTPCTPETPG

    TPB

    TPCTPETPFTPGTPHTPUTPCTPG

    TQC

    TQC

    TQC

    TQC

    2.0

    2.5

    4.0

    6.3

    8.0

    10

    12.5

    16

    20

    25

    35

    B2S6

    100 120 150 200 220 270 330 470 680 1,000 1,500

    Red letters New models

  • 71 72

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    Explanation ofpart numbers

    Packing specifications

    2R5 TPB 330 M LRated voltage1 to 3 figures

    Series name3 to 4 figures

    Rated capacitance2 to 4 figures

    Capacitance tolerance1 figure

    Special code0 to 4 figures

    1.82.02.54.06.38.0

    101112.516202535

    Ratedvoltage Code

    X2

    2R5orE 4 6 810111216202535

    20%

    Capacitancetolerance Code

    M

    Series Code

    TPBTPCTPETPFTPGTPHTPSFTPUTABTAETHBTHCTHETQCTVE

    TPBTPCTPETPFTPGTPHTPSFTPUTABTAETHBTHCTHETQCTVE

    Ratedcapacitance Code

    2R73R94R7

    5R6 8R2 10 15 22 33 47 56 68 82 100 120 150 200 220 270 330 470 68010001500

    2.7 3.9 4.7 5.6 8.2 10 15 22 33 47 56 68 82 100 120 150 200 220 270 330 470 6801,0001,500

    1.652.052.053.23.23.253.253.33.253.33.254.54.54.74.54.54.54.5

    S09A09A14B09B1B1SB1GB15B15GB2B2SD12D15D15ED2ED2D3LD4

    Sizecode

    2.43.653.653.83.83.93.93.83.93.84.07.57.57.87.57.57.77.7

    8.08.08.08.08.08.08.08.08.08.08.012.012.012.012.012.012.012.0

    3.53.53.53.53.53.53.53.53.53.53.55.55.55.55.55.55.55.5

    1.751.751.751.751.751.751.751.751.751.751.751.751.751.751.751.751.751.75

    4.04.04.04.04.04.04.04.04.04.04.08.08.08.08.08.08.08.0

    2.02.02.02.02.02.02.02.02.02.02.02.02.02.02.02.02.02.0

    3302

    180

    A 802

    602

    B 130.2

    130.2

    C13.50.5

    90.5

    W117.51.0

    11.41.0

    W2

    4.04.04.04.04.04.04.04.04.04.04.04.04.04.04.04.04.04.0

    1.51.51.51.51.51.51.51.51.51.51.51.51.51.51.51.51.51.5

    1.31.31.71.41.41.71.72.11.72.12.11.72.41.72.42.43.24.2

    0.250.250.250.20.20.250.250.20.250.20.250.30.30.30.30.30.30.3

    Dimension A and B are the measure of compartment's inside bottom.The (+) Polarity of the chip is placed on right side towards the unreeling direction.Dimension of the topcover tape Thickness of cover tape: 6210m Width of cover tape: 9.50.2mm 5.50.2mm (180reel)

    *We supply only embossed taping type

    W2

    W1

    ABC

    03

    (unit:mm)

    (unit:mm)

    A 0.1 B 0.1 C 0.3 D 0.1 E 0.1 F 0.1 G 0.1 H 0.1 K 0.2 t 0.1J 0.10

    Part number system Dimension of carrier tape

    Reel dimension

    Sprocket holeJ

    A

    FKt

    G H

    DE

    C

    Component compartment

    (Polarity)

    Direction of unreeling

    ()

    (+)

    B

    ZBUBPBLBIBFBFGBAZBAUBAPBAFBAFGBADGBAJGBAZUAPLILFLCLALALA9EL

    ZGD

    AHAAEAABCAZC

    ESR 35m maxESR 30m maxESR 25m maxESR 21m maxESR 18m maxESR 15m maxESR 15m/300kHz maxESR 35m max 85ESR 30m max 85ESR 25m max 85ESR 15m max 85ESR 15m/300kHz max 85ESR 13m/300kHz max 85ESR 11m/300kHz max 85ESR 35m max 85ESR 25m max 85ESR 25m maxESR 18m maxESR 15m maxESR 12m maxESR 10m maxESR 25m max 85ESR 9m/500kHz max 85

    ESR 35m/300kHz max.

    ESR 150m maxESR 100m maxESR 70m maxESR 35m max

    B2 size

    D2E sizeD15E size

    D3L size

    A09 size

    B1G size

    A14 size

    CodeStandardTPE series

    TPH series

    TPG series

    CodeStandard

    9L7L6L5L5ELAH6H5H

    AIG

    SIBI

    YFYFBYFSYFTYFD

    GVWZIFC9865ZGUG9G6E4E

    D3L size

    D4 size

    TPB seriesL

    AB

    D3L sizeTPC series85B1 size

    TPF series ESR 9m max ESR 7m max ESR 6m max ESR 5m max

    ESR 5m/500kHz max ESR 10m max ESR 6m max ESR 5m maxTPSF series

    ESR 18m/300kHz max 85TPU seriesS09 size09 sizeTQC series

    Capacitance enlarged typeCapacitance enlarged type( size)Capacitance enlarged type(D12 size)Capacitance enlarged type(D15 size)Capacitance enlarged type(D2 size)

    All seriesESR 55m maxESR 45m maxESR 40m maxESR 35m maxESR 18m maxESR 15m maxESR 12m maxESR 9m maxESR 8m maxESR 6m maxESR 5m max

    ESR 35m/300kHz maxESR 30m/300kHz maxESR 9m/300kHz maxESR 6m/500kHz maxESR4m/500kHz max

    B2S size

  • 72

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    Packing specifications

    1.652.052.053.23.23.253.33.253.33.254.54.54.74.54.54.54.5

    S09A09A14B09B1B1GB15B15GB2B2SD12D15D15ED2ED2D3LD4

    Sizecode

    2.43.653.653.83.83.93.83.93.84.07.57.57.87.57.57.77.7

    8.08.08.08.08.08.08.08.08.08.012.012.012.012.012.012.012.0

    3.53.53.53.53.53.53.53.53.53.55.55.55.55.55.55.55.5

    1.751.751.751.751.751.751.751.751.751.751.751.751.751.751.751.751.75

    4.04.04.04.04.04.04.04.04.04.08.08.08.08.08.08.08.0

    2.02.02.02.02.02.02.02.02.02.02.02.02.02.02.02.02.0

    3302

    180

    A 802

    602

    B 130.2

    130.2

    C13.50.5

    90.5

    W117.51.0

    11.41.0

    W2

    4.04.04.04.04.04.04.04.04.04.04.04.04.04.04.04.04.0

    1.51.51.51.51.51.51.51.51.51.51.51.51.51.51.51.51.5

    1.31.31.71.41.41.72.11.72.12.11.72.41.72.42.43.24.2

    0.250.250.250.20.20.250.20.250.20.250.30.30.30.30.30.30.3

    Dimension A and B are the measure of compartment's inside bottom.The (+) Polarity of the chip is placed on right side towards the unreeling direction.Dimension of the topcover tape Thickness of cover tape: 6210m Width of cover tape: 9.50.2mm 5.50.2mm (180reel)

    *We supply only embossed taping type

    W2

    W1

    ABC

    03

    (unit:mm)

    (unit:mm)

    A 0.1 B 0.1 C 0.3 D 0.1 E 0.1 F 0.1 G 0.1 H 0.1 K 0.2 t 0.1J 0.10

    Dimension of carrier tape

    Reel dimension

    Sprocket holeJ

    A

    FKt

    G H

    DE

    C

    Component compartment

    (Polarity)

    Direction of unreeling

    ()

    (+)

    B

  • 73

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    Packing specifications

    3,0003,0002,5003,0003,0002,5002,0002,5002,0002,000

    Quantity(pcs./Reel,180)S09A09A14B09B1B1GB15B15GB2B2S

    Size code200200200200200200160200200200

    Typical weight(g)4,5003,0004,0003,0003,0002,5002,000

    Quantity(pcs./Reel,330)D12D15D15ED2ED2D3LD4

    Size code1,2001,0001,0001,0001,0001,1001,200

    Typical weight(g)

    15,00015,00012,50015,00015,00012,50010,00012,50010,00010,000

    Pieces/caseS09A09A14B09B1B1GB15B15GB2B2S

    Size code22,50015,00020,00015,00015,00012,50010,000

    Pieces/caseD12D15D15ED2ED2D3LD4

    Size code

    a

    b

    c

    Reel size90

    240

    240

    180120

    360

    360

    330(unit:mm)

    ca

    b

    Minimum packing quantity and weight

    Dimension of packing case

    Units per packing case

  • 73 74

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    Packing specifications

    Recommendedsolderingcondition

    Products list

    3,0003,0002,5003,0003,0002,5002,5002,0002,5002,0002,000

    Quantity(pcs./Reel,180)S09A09A14B09B1B1SB1GB15B15GB2B2S

    Size code200200200200200200200160200200200

    Typical weight(g)4,5003,0004,0003,0003,0002,5002,000

    Quantity(pcs./Reel,330)D12D15D15ED2ED2D3LD4

    Size code1,2001,0001,0001,0001,0001,1001,200

    Typical weight(g)

    15,00015,00012,50015,00015,00012,50012,50010,00012,50010,00010,000

    Pieces/caseS09A09A14B09B1B1SB1GB15B15GB2B2S

    Size code22,50015,00020,00015,00015,00012,50010,000

    Pieces/caseD12D15D15ED2ED2D3LD4

    Size code

    a

    b

    c

    Reel size90

    240

    240

    180120

    360

    360

    330(unit:mm)

    ca

    b

    Minimum packing quantity and weight

    Dimension of packing case

    Units per packing case

    The cycles of reflow soldering: Twice (max)

    The cycles of reflow soldering: Twice (max)

    Tip of a soldering iron: 350 max (TQC serise: 400 max) Power of a soldering iron: 30W max Working time: 3sec. max (TQC serise: 5sec max)(Do not let the tip of soldering iron touch the POSCAP itself. Do not subject the POSCAP itself to excessive stress when soldering.)

    The model of MSL"2a" is changed into MSL "3" with this reflow condition.(See page 66)The cycles of reflow soldering: Twice (max)

    The cycles of reflow soldering: Twice (max)

    Recommended reflow soldering temperature profile

    Peak temperature 250 lead free reflow soldering profile

    Peak temperature 260 lead free reflow soldering profile

    TQC series

    Soldering with a soldering iron

    Temperature on the

    surface of capacitor

    217200180150

    250

    70s max120s max

    60s max

    Time(sec.)

    10s maxPeak temperature

    Temperature on the

    surface of capacitor

    217200

    150

    260

    6s max

    90s max180s max60smax

    Time(sec.)

    5s maxPeak temperature

    Temperature on the

    surface of capacitor

    Time(sec.)

    220180150

    250

    40s max

    30s max120s max60smax

    5s maxPeak temperature

    Time(sec.)

    Temperature on the

    surface of capacitor

    150

    200240

    40s max

    30s max120s max60smax

    Peak temperature5s max

  • 75 76

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    Fundamentalstructure haracteristics

    Products list

    1. POSCAP Electrical characteristics1-1. Frequency characteristics

    (Standard model)

    Tantalum wireSintered tantalum

    Silver adhesive

    Silver paste

    Molding resin

    Cathode

    Carbon layer

    Anode

    ElectrolyteConductive polymer

    Tantalum oxide

    Magnified cross-section of element

    POSCAP uses sintered tantalum as the anode material. An oxide layer formed on the surface of the sintered tantalum is used for the dielectric, and a conductive polymer for the electrolyte.

    Magnified photo

    Sintered tantalum

    Tantalum oxide

    ElectrolyteConductive polymer

    (Face down terminals model)

    The electrolytes make the difference in structure between the POSCAP and the standard tantalum capacitor.

    1. Basic structure of POSCAP

    CapacitorTantalum capacitor

    Conductive polymerManganese dioxide

    Electrolyte

    The sintered tantalum has a porous structure, it makes a large surface area, which enables to have large capacitance. The conductive polymer used for the electrolyte is high in electric conductivity and enables the low ESR.

    Tantalum wireSintered tantalum

    Silver paste

    Molding resin

    Silver adhesive

    CathodeAnode

    Tantalum oxide

    Electrolyte(Conductive polymer)

    Carbon layer

    The greatest characteristic of POSCAP is the excellent frequency characteristics.Using a high conductive polymer for the electrolyte greatly improves the ESR characteristics and enables the POSCAP to perform at the higher frequency levels.Fig. A: Compares the POSCAP to an aluminum electrolytic and a tantalum capacitor.

    The POSCAP's impedance is remarkably lower than the other capacitors at the periphery of the resonance frequency.

    Fig. B: Compares the impedance and ESR frequency characteristics of three different POSCAP series.The TPSF series has a low ESL characteristic which brings it to high resonance frequency, it makes impedance be much lower in the range of high - frequency wave.

    0.01

    0.1

    1

    10

    100

    Frequency (Hz)1k 10k 100k 1M 10M

    A

    B

    C

    25V/47F (5.0H10.8mm)

    A 6.3V/47F (3.5x2.8x1.1mm) POSCAP

    BTantalum capacitor 6.3V/47F (3.5x2.8x1.9mm)CAluminum electrolytic capacitor

    at 25

    Fig.A Impedance frequency characteristics (POSCAP vs other type)

    Fig.B Impedance & ESR frequency characteristics (Several POSCAP models)

    Impedance ()

    0.001

    0.01

    0.1

    1

    10

    100

    Frequency Hz

    Impedance & ESR

    1 10K 100K 1M 10M

    AB

    at 20 ImpedanceESR

    POSCAPA: 2R5TPF470M6LB: 2TPSF270M6E

  • 75 76

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    Fundamentalstructure haracteristics

    Products list

    1. POSCAP Electrical characteristics1-1. Frequency characteristics

    (Standard model)

    Tantalum wireSintered tantalum

    Silver adhesive

    Silver paste

    Molding resin

    Cathode

    Carbon layer

    Anode

    ElectrolyteConductive polymer

    Tantalum oxide

    Magnified cross-section of element

    POSCAP uses sintered tantalum as the anode material. An oxide layer formed on the surface of the sintered tantalum is used for the dielectric, and a conductive polymer for the electrolyte.

    Magnified photo

    Sintered tantalum

    Tantalum oxide

    ElectrolyteConductive polymer

    (Face down terminals model)

    The electrolytes make the difference in structure between the POSCAP and the standard tantalum capacitor.

    1. Basic structure of POSCAP

    CapacitorTantalum capacitor

    Conductive polymerManganese dioxide

    Electrolyte

    The sintered tantalum has a porous structure, it makes a large surface area, which enables to have large capacitance. The conductive polymer used for the electrolyte is high in electric conductivity and enables the low ESR.

    Tantalum wireSintered tantalum

    Silver paste

    Molding resin

    Silver adhesive

    CathodeAnode

    Tantalum oxide

    Electrolyte(Conductive polymer)

    Carbon layer

    The greatest characteristic of POSCAP is the excellent frequency characteristics.Using a high conductive polymer for the electrolyte greatly improves the ESR characteristics and enables the POSCAP to perform at the higher frequency levels.Fig. A: Compares the POSCAP to an aluminum electrolytic and a tantalum capacitor.

    The POSCAP's impedance is remarkably lower than the other capacitors at the periphery of the resonance frequency.

    Fig. B: Compares the impedance and ESR frequency characteristics of three different POSCAP series.The TPSF series has a low ESL characteristic which brings it to high resonance frequency, it makes impedance be much lower in the range of high - frequency wave.

    0.01

    0.1

    1

    10

    100

    Frequency (Hz)1k 10k 100k 1M 10M

    A

    B

    C

    25V/47F (5.0H10.8mm)

    A 6.3V/47F (3.5x2.8x1.1mm) POSCAP

    BTantalum capacitor 6.3V/47F (3.5x2.8x1.9mm)CAluminum electrolytic capacitor

    at 25

    Fig.A Impedance frequency characteristics (POSCAP vs other type)

    Fig.B Impedance & ESR frequency characteristics (Several POSCAP models)

    Impedance ()

    0.001

    0.01

    0.1

    1

    10

    100

    Frequency Hz

    Impedance & ESR

    1 10K 100K 1M 10M

    AB

    at 20 ImpedanceESR

    POSCAPA: 2R5TPF470M6LB: 2TPSF270M6E

  • 77 78

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    Voltage applied.(Periodic Change.)

    It generates subtle vibration by expanding and contracting

    The vibration travels to PCB and creates noise.

    Subtle vibration

    No vibration is generated.

    No noise on the PCB.

    (Ceramic capacitor) (POSCAP)

    haracteristics

    0.001

    0.01

    0.1

    1

    10

    100

    Temperature

    ESR

    8520-20-55 0 105

    6TPC47MB)

    F)

    Capacitance change (%)

    -80

    -60

    -40

    -20

    0

    20

    0 1 2 3 4 5 6Bias voltage (V)

    at 120Hz

    The POSCAP has a characteristics of low and high temperature, which is little change against temperature for the ESR.The stability of ESR's temperature characteristics means the noise-clearing ability is little change against temperature.The POSCAP is suitable for outdoor equipment which requires the temperature characteristic flexibility.

    The ceramic capacitor has bias characteristics, which makes the capacitance decrease when voltage is applied to it. However, POSCAPs will show no reduction in capacitance for applied voltage, as long as the applied voltage is within its rating. Therefore, you will be able to design without worrying about capacitance changing when voltage is applied.

    1-2. Characteristics at high and low temperature

    1-3. Bias characteristics

    1-4. Piezoelectric effect of the capacitor

    Fig.A ESR temperature characteristics POSCAP vs Ceramic capacitor

    Comparison of bias characteristicsPOSCAP vs Ceramic capacitor)

    Fig.B Capacitance temperature characteristicsPOSCAP vs Ceramic capacitor)

    at 100kHz

    -60

    -50

    -40

    -30

    -20

    -10

    0

    10

    20

    TemperatureCapacitance change %

    85 105200-20-55

    at 120Hz

    POSCAP6TPE100MAZBCeramic capacitor(6.3V/100F) X5R

    1.10

    3.903.60

    6.10

    1.83

    1.10

    0.00

    1.00

    2.00

    3.00

    4.00

    5.00

    6.00

    7.00

    10V/150F 6.3V/330F 2.5V/470F

    1-5. Allowable ripple current

    POSCAPTPE seriesTantalum capacitor (Low ESR)

    BlueGreen

    Ripple CurrentArms

    The allowable ripple current of a capacitor is an important characterisitc when selecting a smoothing capacitor for a power supply. The allowable value of ripple current is decided by the generated heat of the capacitor. This generated heat is relevant to the ESR value. Since a large ESR capacitor generates a larger value of heat, it inhibits the ripple current value.Because the ESR of the POSCAP is so small, it can reach a high ripple current rating compared to other electrolytic capacitors.

    POSCAP 6TPC47MBCeramic capacitor 6.3V/47F(X5R)Ceramic capacitor 6.3V/10F(Y5V)

    POSCAP 6TPC47MBCeramic capacitor 6.3V/47F (X5R)Ceramic capacitor 6.3V/10F (Y5V)

    When variable voltage is applied to ceramic capacitors that uses dielectrics with piezoelectric characteristics (e.g. barium titanate), the voltage will cause vibration due to the elasticity in the dielectric.If the cyclic change is within the audio-frequency (20Hz to 20kHz), the vibration from the capacitor travels to the PCB and it could generate noise inside the equipment. This may be an unwanted effect depending on the product you are developing. Our POSCAPs dielectric layer is composed of tantalum oxide which does not have piezoelectric characteristics. Silence is thus assured by use of our product.

    Comparison of allowable ripple currentPOSCAP vs Tantalum capacitor)

  • 77 78

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    Voltage applied.(Periodic Change.)

    It generates subtle vibration by expanding and contracting

    The vibration travels to PCB and creates noise.

    Subtle vibration

    No vibration is generated.

    No noise on the PCB.

    (Ceramic capacitor) (POSCAP)

    haracteristics

    0.001

    0.01

    0.1

    1

    10

    100

    Temperature

    ESR

    8520-20-55 0 105

    6TPC47MB)

    F)

    Capacitance change (%)

    -80

    -60

    -40

    -20

    0

    20

    0 1 2 3 4 5 6Bias voltage (V)

    at 120Hz

    The POSCAP has a characteristics of low and high temperature, which is little change against temperature for the ESR.The stability of ESR's temperature characteristics means the noise-clearing ability is little change against temperature.The POSCAP is suitable for outdoor equipment which requires the temperature characteristic flexibility.

    The ceramic capacitor has bias characteristics, which makes the capacitance decrease when voltage is applied to it. However, POSCAPs will show no reduction in capacitance for applied voltage, as long as the applied voltage is within its rating. Therefore, you will be able to design without worrying about capacitance changing when voltage is applied.

    1-2. Characteristics at high and low temperature

    1-3. Bias characteristics

    1-4. Piezoelectric effect of the capacitor

    Fig.A ESR temperature characteristics POSCAP vs Ceramic capacitor

    Comparison of bias characteristicsPOSCAP vs Ceramic capacitor)

    Fig.B Capacitance temperature characteristicsPOSCAP vs Ceramic capacitor)

    at 100kHz

    -60

    -50

    -40

    -30

    -20

    -10

    0

    10

    20

    Temperature

    Capacitance change %

    85 105200-20-55

    at 120Hz

    POSCAP6TPE100MAZBCeramic capacitor(6.3V/100F) X5R

    1.10

    3.903.60

    6.10

    1.83

    1.10

    0.00

    1.00

    2.00

    3.00

    4.00

    5.00

    6.00

    7.00

    10V/150F 6.3V/330F 2.5V/470F

    1-5. Allowable ripple current

    POSCAPTPE seriesTantalum capacitor (Low ESR)

    BlueGreen

    Ripple CurrentArms

    The allowable ripple current of a capacitor is an important characterisitc when selecting a smoothing capacitor for a power supply. The allowable value of ripple current is decided by the generated heat of the capacitor. This generated heat is relevant to the ESR value. Since a large ESR capacitor generates a larger value of heat, it inhibits the ripple current value.Because the ESR of the POSCAP is so small, it can reach a high ripple current rating compared to other electrolytic capacitors.

    POSCAP 6TPC47MBCeramic capacitor 6.3V/47F(X5R)Ceramic capacitor 6.3V/10F(Y5V)

    POSCAP 6TPC47MBCeramic capacitor 6.3V/47F (X5R)Ceramic capacitor 6.3V/10F (Y5V)

    When variable voltage is applied to ceramic capacitors that uses dielectrics with piezoelectric characteristics (e.g. barium titanate), the voltage will cause vibration due to the elasticity in the dielectric.If the cyclic change is within the audio-frequency (20Hz to 20kHz), the vibration from the capacitor travels to the PCB and it could generate noise inside the equipment. This may be an unwanted effect depending on the product you are developing. Our POSCAPs dielectric layer is composed of tantalum oxide which does not have piezoelectric characteristics. Silence is thus assured by use of our product.

    Comparison of allowable ripple currentPOSCAP vs Tantalum capacitor)

  • 79 80

    TQC

    TH

    TV

    TA

    TPF

    TPC

    TPB

    TPE

    TPSF

    TPG

    TPH

    TPU

    Reliability

    haracteristics

    Fundamentalstructure

    Packingspecifications

    Explanation ofpart numbers

    Products list

    Image ofcase size

    Series systemdiagram

    Guidelines andprecautions

    POSCAPLine-up

    Recommendedsolderingcondition

    Catalog Deletion andEOL models

    Surface mount type

    Technical data

    Selection guide

    Catalog Deletion andEOL series

    Guidelines andprecautions

    OS-CONLine-up

    Selection guide

    Surface mount type

    Technical data

    Radial lead type

    POSCAPLine-up

    Guidelines andprecautions

    Series systemdiagram

    Recommendedsolderingcondition

    Fundamentalstructure

    haracteristics

    Reliability

    TPU

    TPH

    TPG

    TPSF

    TPE

    TPB

    TPC

    TPF

    TA

    TV

    TH

    TQC

    Catalog Deletion andEOL models

    Image ofcase size

    Products list

    Explanation ofpart numbersPackingspecifications

    Selection guide

    Technical data

    Surface mount type

    OS-CONLine-up

    Guidelines andprecautions

    Catalog Deletion andEOL series

    Selection guide

    Technical data

    Surface mount type

    Radial lead type

    haracteristics Reliability

    -20

    -15

    -10

    -5

    0

    5

    100 1,000 10,000 100,000 1,000,000Timeh

    105 85

    65

    Capacitance changeat 120Hz6.3V/330F

    1-6. ESL characteristicsPOSCAP is a high performing capacitor with low ESR and large capacitance.In recent circuit technologies for electronic equipment, the ESL value is important when considering performance in the high frequency range.

    ESL

    (unit: nH)

    (a) Eqivalent series circuit of capacitor

    (b) Approximate ESL value of POSCAP

    1. Temperature accelaration test (Endurance)

    Capacitance change

    Aluminum electrolytic capacitorPOSCAP

    2,000h20,000h200,000h

    1058565

    2,000h8,000h32,000h

    105 85 65

    The following life time are not guaranteed but presumptive values.

    1-7. Self-Healing MechanismConductive polymer is used as an electrolyte in our POSCAPs. As an organic material, conductive polymer becomes non-conductive and acts as an insulator against leakage current at a relatively low temperature of approximately 300. As seen in the explanation below, this characteristic is used to suppress leakage current when there is microcrack in the dielectric oxide layer. We call this capability "self-healing mechanism." In addition to this characteristic, this conductive polymer has enough heat

    resistance to endure reflow soldering process and it is able to retain high specific electric conductivity even after going through such process.

    Size Code Size Codeat 10 MHz at 10 MHzS09A09A14B1B1SB1GB15B15GB2B2S

    D12D15ED15D2E

    D2ETPFD2D3L

    D3LTPFD4

    D4TPF

    0.81.21.11.20.71.11.31.41.30.7

    1.82.01.81.81.52.02.32.02.62.5

    2-1. Calculating formula for the presumtion of life

    2. Presumption of life for the POSCAP

    Electrolyte(Conductive polymer)

    Sintered tantalum

    Dielectric oxide layer

    Microrack

    Initial State Occurrence of a Microcrack InsulateHeat is generated

    Leakage current

    Heat Generation

    The image above represents a close-up of the cross-section of the layers within the core of a POSCAP,which consists of sintered tantalum,dielectric oxide layer and anelectrolyte (conductive polymer).

    In rare cases, a microcrack could occur on the dielectric oxide layer by stress caused by rapid temperature change during the reflow soldering process or when excessive voltage is applied to the capacitor.

    Joule heat is generated locally when leakage current flows into the microcrack as voltage is applied.

    Conductive polymer around the microcrack turns non-conductive and creates an insulated layer at a relatively-low temperature of approximately 300 caused by Joule heat. It is at this point that the insulator suppresses the leakage current. This is called "self-healing mechanism" or "self-recovery function."

    With this "self-healing mechanism" POSCAP is able to minimize stress induced failures and achieve high reliability.

    Polymer turns non-conductive creating an insulated layer

    The POSCAP capacitance level decreases during a long term endurance test.

    The left figure shows time variation of capacitance decrease at each temperature. This graph indicates that temp