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EEU-FK1A682SB

EEU-FK1A682SB

  • 厂商:

    NAIS(松下)

  • 封装:

    AEC-D18X20MM_TM

  • 描述:

    AL LYTIC, RADIAL, 10VDC, 6800UF

  • 数据手册
  • 价格&库存
EEU-FK1A682SB 数据手册
Some part numbers are discontinued. Aluminum Electrolytic Capacitors Radial Lead Type FK-A series ■Not available in Japan Features ● Endurance : 105 ℃ 3000 h to 5000 h ● Low impedance (10 % to 30 % less than FC Series) ● Miniaturization (30 % to 40 % less than FC Series) ● AEC-Q200 compliant ● RoHS compliant Specifications Category temp. range Rated voltage range Capacitance range Capacitance tolerance Leakage current –55 ℃ to +105 ℃ 6.3 V to 35 V 180 μF to 12000 μF ±20 % (120 Hz / +20℃) I ≦ 0.01 CV (μA) After 2 minutes Rated voltage (V) 6.3 10 16 25 35 (120 Hz /+20℃) Dissipation factor (tan δ) Dissipation factor (tan δ) 0.22 0.19 0.16 0.14 0.12 For capacitance value ≧ 1000 μF , add 0.02 per every 1000 μF. After following life test with DC voltage and +105 ℃±2 ℃ ripple current value applied (The sum of DC and ripple peak voltage shall not exceed the rated working voltage)when the capacitors are restored to 20 ℃, the capacitors shall meet the limits specified bellow. Duration Endurance ø8 : 3000 h, ø10 : 4000 h, ø12.5 to ø18 : 5000 h Capacitance change Within ±20 % of the initial value Dissipation factor(tan δ) ≦ 200 % of the initial limit DC leakage current Within the initial limit After storage for 1000 h at +105 ℃±2 ℃ with no voltage applied and then being Shelf life stabilized at +20 °C, capacitors shall meet the limits specified in endurance. (With voltage treatment) Frequency correction factor for ripple current Freq. (Hz) Cap. (μF) 180 to 330 390 to 1000 1200 to 12000 60 120 1k 10 k 100 k 0.60 0.65 0.75 0.70 0.75 0.80 0.85 0.90 0.95 0.95 0.98 1.00 1.00 1.00 1.00 Dimensions L* 14min. F±0.5 Pressure relief ø10 ≦ ø8 ød±0.05 Sleeve 3min. øD±0.5 øD±0.5 * L ≦ 16:L±1.5 L ≧ 20:L±2.0 øD L ød F 8.0 ― 0.6 3.5 10.0 ― 0.6 5.0 12.5 to 25 0.6 5.0 12.5 30 to 35 0.8 5.0 Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 16.0 ― 0.8 7.5 Unit:mm 18.0 ― 0.8 7.5 01-Jun-23 FK-A series Case size / Impedance / Ripple current Casecsize (mm) (øD×L) Impedance (Ω) (100 kHz) Ripple current (mA rms) (100 kHz) +20 ℃ -10 ℃ +105 ℃ 8 × 11.5 0.090 0.180 630 8 × 15 0.062 0.124 860 8 × 20 0.044 0.088 1220 10 × 12.5 0.063 0.126 900 10 × 16 0.049 0.098 1240 10 × 20 0.035 0.070 1490 10 × 25 0.033 0.066 1680 10 × 30 0.025 0.050 2140 12.5 × 15 0.048 0.096 1400 12.5 × 20 0.029 0.058 1890 12.5 × 25 0.022 0.044 2280 12.5 × 30 0.018 0.036 2720 12.5 × 35 0.016 0.032 2940 12.5 × 40 0.014 0.028 3010 16 × 15 0.038 0.076 1800 16 × 20 0.026 0.052 2330 16 × 25 0.019 0.038 2760 18 × 15 0.036 0.072 2060 18 × 20 0.025 0.050 2640 18 × 25 0.018 0.036 2850 Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 01-Jun-23 FK-A series Characteristics list Endurance : 105 ℃ 3000 h / ø8, 105 ℃ 4000 h / ø10, 105 ℃ 5000 h / ø12.5 to ø18 Rated voltage (V) Capacitance (±20 %) (μF) 680 1000 1500 1800 2200 3300 6.3 4700 5600 EOL 6800 8200 8200 12000 560 820 1200 1500 1800 2700 10 3900 4700 EOL 5600 6800 6800 8200 Case size (mm) øD L 8.0 8.0 10.0 8.0 10.0 12.5 10.0 10.0 10.0 12.5 16.0 12.5 18.0 12.5 16.0 12.5 12.5 16.0 18.0 18.0 8.0 8.0 10.0 8.0 10.0 12.5 10.0 10.0 10.0 12.5 16.0 12.5 18.0 12.5 16.0 12.5 12.5 16.0 18.0 18.0 11.5 15.0 12.5 20.0 16.0 15.0 20.0 25.0 30.0 20.0 15.0 25.0 15.0 30.0 20.0 35.0 40.0 25.0 20.0 25.0 11.5 15.0 12.5 20.0 16.0 15.0 20.0 25.0 30.0 20.0 15.0 25.0 15.0 30.0 20.0 35.0 40.0 25.0 20.0 25.0 Lead length (mm) Specification (mA rms) Impedance*2 (Ω) Endurance (h) Lead dia. (ød) 630 860 900 1220 1240 1400 1490 1680 2140 1890 1800 2280 2060 2720 2330 2940 3010 2760 2640 2850 630 860 900 1220 1240 1400 1490 1680 2140 1890 1800 2280 2060 2720 2330 2940 3010 2760 2640 2850 0.090 0.062 0.063 0.044 0.049 0.048 0.035 0.033 0.025 0.029 0.038 0.022 0.036 0.018 0.026 0.016 0.014 0.019 0.025 0.018 0.090 0.062 0.063 0.044 0.049 0.048 0.035 0.033 0.025 0.029 0.038 0.022 0.036 0.018 0.026 0.016 0.014 0.019 0.025 0.018 3000 3000 4000 3000 4000 5000 4000 4000 4000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 3000 3000 4000 3000 4000 5000 4000 4000 4000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.8 0.6 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.8 0.6 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 Ripple current *1 Min. Packaging Q'ty (PCS) Lead space Straight 3.5 3.5 5.0 3.5 5.0 5.0 5.0 5.0 5.0 5.0 7.5 5.0 7.5 5.0 7.5 5.0 5.0 7.5 7.5 7.5 3.5 3.5 5.0 3.5 5.0 5.0 5.0 5.0 5.0 5.0 7.5 5.0 7.5 5.0 7.5 5.0 5.0 7.5 7.5 7.5 Part No. Straight leads Taping ✽B 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 ― 5.0 7.5 5.0 7.5 ― 7.5 ― ― 7.5 7.5 7.5 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 ― 5.0 7.5 5.0 7.5 ― 7.5 ― ― 7.5 7.5 7.5 EEUFK0J681( ) EEUFK0J102L( ) EEUFK0J102( ) EEUFK0J152L( ) EEUFK0J152( ) EEUFK0J182S( ) EEUFK0J222( ) EEUFK0J222L( ) EEUFK0J332L EEUFK0J332( ) EEUFK0J332S( ) EEUFK0J472( ) EEUFK0J472S( ) EEUFK0J562L EEUFK0J562S( ) EEUFK0J682L EEUFK0J822L EEUFK0J822( ) EEUFK0J822S( ) EEUFK0J123S( ) EEUFK1A561( ) EEUFK1A821L( ) EEUFK1A821( ) EEUFK1A122L( ) EEUFK1A122( ) EEUFK1A152S( ) EEUFK1A182( ) EEUFK1A182L( ) EEUFK1A272L EEUFK1A272( ) EEUFK1A272S( ) EEUFK1A392( ) EEUFK1A392S( ) EEUFK1A472L EEUFK1A472S( ) EEUFK1A562L EEUFK1A682L EEUFK1A682( ) EEUFK1A682S( ) EEUFK1A822S( ) *1: Ripple current (100 kHz / +105 ℃) *2: Impedance (100 kHz / +20 ℃) ・ When requesting taped product, please put the letter "B" be tween the "( )". Lead wire pitch ✽B=5 mm, 7.5 mm. ・ Please refer to the page of “Taping dimensions”. Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 200 200 200 200 200 200 200 200 100 200 100 200 100 100 100 100 100 100 100 100 200 200 200 200 200 200 200 200 100 200 100 200 100 100 100 100 100 100 100 100 EOL Taping 1000 1000 500 1000 500 500 500 500 ― 500 250 500 250 ― 250 ― ― 250 250 250 1000 1000 500 1000 500 500 500 500 ― 500 250 500 250 ― 250 ― ― 250 250 250 End of life 01-Jun-23 FK-A series Characteristics list Endurance : 105 ℃ 3000 h / ø8, 105 ℃ 4000 h / ø10, 105 ℃ 5000 h / ø12.5 to ø18 Rated voltage (V) Capacitance (±20 %) (μF) 390 680 820 1000 1200 1500 2200 16 2700 3300 3900 EOL 4700 4700 5600 6800 270 390 470 560 820 1000 1200 25 1500 1800 2200 EOL 2700 3300 3300 4700 Case size (mm) øD L 8.0 8.0 10.0 8.0 10.0 10.0 12.5 10.0 10.0 12.5 16.0 12.5 18.0 12.5 12.5 16.0 12.5 18.0 16.0 18.0 8.0 8.0 10.0 8.0 10.0 10.0 12.5 10.0 12.5 10.0 16.0 12.5 18.0 12.5 16.0 12.5 12.5 16.0 18.0 18.0 11.5 15.0 12.5 20.0 16.0 20.0 15.0 25.0 30.0 20.0 15.0 25.0 15.0 30.0 35.0 20.0 40.0 20.0 25.0 25.0 11.5 15.0 12.5 20.0 16.0 20.0 15.0 25.0 20.0 30.0 15.0 25.0 15.0 30.0 20.0 35.0 40.0 25.0 20.0 25.0 Lead length (mm) Specification Impe- *2 (mA rms) dance (Ω) Endurance (h) Lead dia. (ød) 630 860 900 1220 1240 1490 1400 1680 2140 1890 1800 2280 2060 2720 2940 2330 3010 2640 2760 2850 630 860 900 1220 1240 1490 1400 1680 1890 2140 1800 2280 2060 2720 2330 2940 3010 2760 2640 2850 0.090 0.062 0.063 0.044 0.049 0.035 0.048 0.033 0.025 0.029 0.038 0.022 0.036 0.018 0.016 0.026 0.014 0.025 0.019 0.018 0.090 0.062 0.063 0.044 0.049 0.035 0.048 0.033 0.029 0.025 0.038 0.022 0.036 0.018 0.026 0.016 0.014 0.019 0.025 0.018 3000 3000 4000 3000 4000 4000 5000 4000 4000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 3000 3000 4000 3000 4000 4000 5000 4000 5000 4000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.8 0.6 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.8 0.6 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 Ripple current *1 Min. Packaging Q'ty (PCS) Lead space Straight 3.5 3.5 5.0 3.5 5.0 5.0 5.0 5.0 5.0 5.0 7.5 5.0 7.5 5.0 5.0 7.5 5.0 7.5 7.5 7.5 3.5 3.5 5.0 3.5 5.0 5.0 5.0 5.0 5.0 5.0 7.5 5.0 7.5 5.0 7.5 5.0 5.0 7.5 7.5 7.5 Part No. Straight leads Taping ✽B 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 ― 5.0 7.5 5.0 7.5 ― ― 7.5 ― 7.5 7.5 7.5 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 ― 7.5 5.0 7.5 ― 7.5 ― ― 7.5 7.5 7.5 EEUFK1C391( ) EEUFK1C681L( ) EEUFK1C681( ) EEUFK1C821L( ) EEUFK1C102( ) EEUFK1C122( ) EEUFK1C122S( ) EEUFK1C152L( ) EEUFK1C222L EEUFK1C222( ) EEUFK1C222S( ) EEUFK1C272( ) EEUFK1C272S( ) EEUFK1C332L EEUFK1C392L EEUFK1C392S( ) EEUFK1C472L EEUFK1C472S( ) EEUFK1C562( ) EEUFK1C682S( ) EEUFK1E271( ) EEUFK1E391L( ) EEUFK1E471( ) EEUFK1E561L( ) EEUFK1E561( ) EEUFK1E821( ) EEUFK1E821S( ) EEUFK1E102L( ) EEUFK1E122( ) EEUFK1E152L EEUFK1E152S( ) EEUFK1E182( ) EEUFK1E182S( ) EEUFK1E222L EEUFK1E222S( ) EEUFK1E272L EEUFK1E332L EEUFK1E332( ) EEUFK1E332S( ) EEUFK1E472S( ) *1: Ripple current (100 kHz / +105 ℃) *2: Impedance (100 kHz / +20 ℃) ・ When requesting taped product, please put the letter "B" be tween the "( )". Lead wire pitch ✽B=5 mm, 7.5 mm. ・ Please refer to the page of “Taping dimensions”. Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 200 200 200 200 200 200 200 200 100 200 100 200 100 100 100 100 100 100 100 100 200 200 200 200 200 200 200 200 200 100 100 200 100 100 100 100 100 100 100 100 EOL Taping 1000 1000 500 1000 500 500 500 500 ― 500 250 500 250 ― ― 250 ― 250 250 250 1000 1000 500 1000 500 500 500 500 500 ― 250 500 250 ― 250 ― ― 250 250 250 End of life 01-Jun-23 FK-A series Characteristics list Endurance : 105 ℃ 3000 h / ø8, 105 ℃ 4000 h / ø10, 105 ℃ 5000 h / ø12.5 to ø18 Rated voltage (V) Capacitance (±20 %) (μF) 180 270 390 560 680 820 35 1000 1200 1500 1800 EOL 2200 2200 3300 Case size (mm) øD L 8.0 8.0 10.0 8.0 10.0 10.0 12.5 10.0 12.5 10.0 16.0 12.5 18.0 12.5 12.5 16.0 12.5 16.0 18.0 18.0 11.5 15.0 12.5 20.0 16.0 20.0 15.0 25.0 20.0 30.0 15.0 25.0 15.0 30.0 35.0 20.0 40.0 25.0 20.0 25.0 Lead length (mm) Specification Impe- *2 (mA rms) dance (Ω) Endurance (h) Lead dia. (ød) 630 860 900 1220 1240 1490 1400 1680 1890 2140 1800 2280 2060 2720 2940 2330 3010 2760 2640 2850 0.090 0.062 0.063 0.044 0.049 0.035 0.048 0.033 0.029 0.025 0.038 0.022 0.036 0.018 0.016 0.026 0.014 0.019 0.025 0.018 3000 3000 4000 3000 4000 4000 5000 4000 5000 4000 5000 5000 5000 5000 5000 5000 5000 5000 5000 5000 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.8 0.6 0.8 0.8 0.8 0.8 0.8 0.8 0.8 0.8 Ripple current *1 Min. Packaging Q'ty (PCS) Lead space Straight 3.5 3.5 5.0 3.5 5.0 5.0 5.0 5.0 5.0 5.0 7.5 5.0 7.5 5.0 5.0 7.5 5.0 7.5 7.5 7.5 Part No. Straight leads Taping ✽B 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 5.0 ― 7.5 5.0 7.5 ― ― 7.5 ― 7.5 7.5 7.5 EEUFK1V181( ) EEUFK1V271L( ) EEUFK1V271( ) EEUFK1V391L( ) EEUFK1V391( ) EEUFK1V561( ) EEUFK1V561S( ) EEUFK1V681L( ) EEUFK1V821( ) EEUFK1V102L EEUFK1V102S( ) EEUFK1V122( ) EEUFK1V122S( ) EEUFK1V152L EEUFK1V182L EEUFK1V182S( ) EEUFK1V222L EEUFK1V222( ) EEUFK1V222S( ) EEUFK1V332S( ) *1: Ripple current (100 kHz / +105 ℃) *2: Impedance (100 kHz / +20 ℃) ・ When requesting taped product, please put the letter "B" be tween the "( )". Lead wire pitch ✽B=5 mm, 7.5 mm. ・ Please refer to the page of “Taping dimensions”. Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 200 200 200 200 200 200 200 200 200 100 100 200 100 100 100 100 100 100 100 100 EOL Taping 1000 1000 500 1000 500 500 500 500 500 ― 250 500 250 ― ― 250 ― 250 250 250 End of life 01-Jun-23 Safety and Legal Matters to Be Observed Safety and Legal Matters to Be Observed  Product specifications and applications ■ Please be advised that this product and product specifications are subject to change without notice for improvement purposes. Therefore, please request and confirm the latest delivery specifications that explain the specifications in detail before the final design, or purchase or use of the product, regardless of the application. In addition, do not use this product in any way that deviates from the contents of the company's delivery specifications.   ■ Unless otherwise specified in this catalog or the delivery specifications, this product is intended for use in general electronic equipment (AV products, home appliances, commercial equipment, office equipment, information and communication equipment, etc.). When this product is used for the following special cases, please separately discuss the delivery specifications suited to each application with the company. These include applications requiring special quality and reliability, wherein their failures or malfunctions may directly threaten human life or cause harm to the human body (e.g.: space/aircraft equipment, transportation/traffic equipment, combustion equipment, medical equipment, disaster prevention/crime prevention equipment, safety equipment, etc.).    Safety design and product evaluation ■ Please ensure safety through protection circuits, redundant circuits, etc., in the customer's system design so that a defect in our company's product will not endanger human life or cause other serious damage. ■ This catalog shows the quality and performance of individual parts. The durability of parts varies depending on the usage environment and conditions. Therefore, please ensure to evaluate and confirm the state of each part after it has been mounted in your product in the actual operating environment before use. If you have any doubts about the safety of this product, then please notify us immediately, and be sure to conduct a technical review including the above protection circuits and redundant circuits at your company.  Laws / Regulations / Intellectual property ■ The transportation of dangerous goods as designated by UN numbers, UN classifications, etc., does not apply to this product. In addition, when exporting products, product specifications, and technical information described in this catalog, please comply with the laws and regulations of the countries to which the products are exported, especially those concerning security export control. ■ Each model of this product complies with the RoHS Directive (Restriction of the use of hazardous substances in electrical and electronic equipment) (2011/65/EU and (EU) 2015/863). The date of compliance with the RoHS Directive and REACH Regulation varies depending on the product model. Further, if you are using product models in stock and are not sure whether or not they comply with the RoHS Directive or REACH Regulation, please contact us by selecting "Sales Inquiry" from the inquiry form. ■ During the manufacturing process of this product and any of its components and materials to be used, Panasonic does not intentionally use ozone-depleting substances stipulated in the Montreal Protocol and specific bromine-based flame retardants such as PBBs (Poly-Brominated Biphenyls) / PBDEs (Poly-Brominated Diphenyl Ethers). In addition, the materials used in this product are all listed as existing chemical substances based on the Act on the Regulation of Manufacture and Evaluation of Chemical Substances. ■ With regard to the disposal of this product, please confirm the disposal method in each country and region where it is incorporated into your company's product and used.   ■ The technical information contained in this catalog is intended to show only typical operation and application circuit examples of this product. This catalog does not guarantee that such information does not infringe upon the intellectual property rights of Panasonic or any third party, nor imply that the license of such rights has been granted. Panasonic Industry will assume no liability whatsoever if the use of our company's products deviates from the contents of this catalog or does not comply with the precautions. Please be advised of these restrictions. 30-Jun-23 Matters to Be Observed When Using This Product Matters to Be Observed When Using This Product (Conductive polymer hybrid aluminum electrolytic capacitor / Aluminum electrolytic capacitor)  Use environments and cleaning conditions ■ This product (capacitor) is intended for standard general-purpose use in electronic equipment, and is not designed for use in the specific environments described below. Using the product in such specific environments or service conditions, therefore, may affect the performance of the product. Check with us about the performance and reliability of the product first before using the product. (1) Used at a temperature higher than the upper limit category temperature or lower than the lower limit category temperature. (2) Used in an environment where the product is directly exposed to water, salt water, oil, etc., or in a liquid, such as water, oil, chemicals, and organic solvents. (3) Used in an outdoor environment where the product is exposed to direct sunlight, ozone, radiation, UV-rays, etc., or in a dusty place. (4) Used in a wet place (dew concentration on a resistor, water leakage, etc.), a place exposed to sea breeze, or a place filled with a corrosive gas, such as Cl2, H2S, NH3, SO2, or NOX. (5) Used in an environment filled with a toxic gas (hydrogen sulfide, sulfurous acid, nitrous acid, chlorine and chlorine compound, bromine and bromine compound, ammonia, etc.) (6) Used in an environment where static electricity and electromagnetic waves are strong. (7) Located close to heating component or a flammable material, such as a vinyl cable. (8) Sealed with a resin, etc. (9) Cleansed with a solvent, water, or a water-soluble cleaner, to remove solder flux after soldering. (10) Used in an environment where an acidic or alkali atmosphere is present. (11) Used in an environment where excessive vibration or impact exceeding a specified range is applied to the product (even if the applied vibration or impact is within the specified range, it may cause the product to resonate, in which a large vibration acceleration may be generated. Make sure to evaluate/check such vibrations or impacts applied to the product in an actual service condition). (12) Used under a low atmospheric pressure condition or depressurized condition. ■ The capacitor withstands an immersion cleaning process where the board carrying the product is immersed in a cleaning solution of 60 ℃ or lower for less than 5 minutes and withstands an ultrasonic cleaning process as well. However, ensure to thoroughly rinse and dry it. Some cleaning methods erase or blur notes on the capacitor in some cases. Some types of capacitors are not washable and some cleaning solutions cannot be used to clean a capacitor. If you are not sure about which type of capacitor is not washable or which cleaning solution cannot be used, please contact us. Solvents you can use to clean the board are as follows. Pine Alpha ST-100S, Aqua Cleaner 210SEP, Cleanthrough 750H/750L/710M, Sun Elec B-12, Techno Cleaner 219, Cold Cleaner P3-375, DK Be clear CW-5790, Terpene Cleaner EC-7R, Techno Care FRW-17/FRW-1/FRV-1 ■ Keep the cleaning solution under strict contamination control (conductivity, pH, specific gravity, water content, etc.). A contaminated cleaning solution will show a high chlorine concentration, thereby corroding the interior of the capacitor in some cases. Keep the flux concentration in the cleaning solution at a 2% mass or less. ■ Unless otherwise specified in the specifications, avoid cleaning the capacitor with a halogen-based solvent, an alkaline solvent, a petroleum-based solvent, xylene, or acetone. Using a halogen-based solvent may result in a case where the solvent infiltrates (leaks) into the capacitor and break-down releasing chlorine, which reacts with aluminum which can corrode the capacitor interior. 1-1-1 trichloroethane is particularly harmful to a capacitor. Never use it to clean a capacitor. A alkaline solvent may corrode (dissolve) an aluminum case, a petroleum-based solvent and xylene may damage the sealing rubber and accelerate its deterioration, and acetone may erase notes on the capacitor. To protect the global environment, refrain from using an ozone depleting substance as the cleaning solution. ■ Right after the board cleaning, subject the capacitor to a forced drying process so that no cleaning solution remains between the sealing part of the capacitor and the printed board. Set a drying temperature equal to or lower than the upper limit category temperature. ■ When an adhesive or coating agent is used to fix the capacitor and prevent dampening of the board, specific types of solvents included in some adhesives or coating agents may corrode the capacitor. Select a non-halogen solvent for the material making up the adhesive or coating agent. Do not use a chloroprene-based polymer. Solidify and dry the adhesive or coating agent sufficiently to prevent its solvent component from remaining on the capacitor. Leave at least 1/3 of the sealing part unsealed on the surface to which the adhesive or coating agent is applied. 30-Jun-23 Matters to Be Observed When Using This Product ■ Do not use the product in a structure sealed by potting or molding. The pressure of a molding resin on a capacitor may deform the capacitor. In addition, the resin covering the capacitor may affect its heat dissipation performance or may leak into the product. These factors lead to the significant degradation of the capacitor’s characteristics and reliability. There is also a concern that an electrolytic solution permeating the sealing rubber may agglomerate and cause a short circuit. ■ When the capacitor is used in a circuit where an impact voltage is applied or a high voltage is applied in a short period (transient phenomenon) or a high pulse voltage is applied, make sure to use the capacitor at a voltage equal to or lower than its rated voltage. ■ The product contains an electrolytic solution. Improper use of the capacitor leads not only to the rapid degradation of its characteristics but also to electrolytic solution leakage. These problems damage the circuit board and may lead to destruction of the entire circuit set.  Response to anomalies and handling conditions ■ When you see gas coming out of an activated pressure relief valve of a capacitor during use of a circuit set, turn off the main power supply of the circuit set or pull the power cord plug out of the wall-outlet. If you leave the power supply on and the capacitor short-circuits, it will damage the circuit, or the gas can turn into a liquid, which will cause the circuit to short. In the worst case scenarios, these events may develop into a more serious incident, such as burnout of the circuit set. The gas coming out of the pressure relief valve of a capacitor is not smoke, but is the electrolytic solution in its gaseous state. ■ When the pressure valve of the capacitor is activated, it emits a high-temperature gas of over 100 ℃. Do not bring your face near the valve. In case the gas jetting out of the valve gets in your eyes or comes into your mouth, wash your eyes with water or rinse your mouth immediately. If the gas hits your skin, wash it away with soap. ■ If you touch a terminal of the product during use of the circuit set, you will get an electric shock. The aluminum case of the product has an exposed part with no insulation. Do not touch the exposed part because it is as dangerous as the terminal. ■ Do not create a short circuit between terminals of the product by inserting a conductor therebetween. Do not splash a conductive solution, such as an acidic or alkali solution, on the capacitor. It puts the capacitor in a shorted state, which causes the circuit to fail and destroys the capacitor as well. ■ When a silicone material containing a relatively large amount of a low-molecular-weight siloxane is located close to the product, it may cause the capacitor problems with its electrical performance. ■ When electronic equipment having the capacitor built therein is exported to overseas markets, wooden packaging materials are fumigated with a halogen compound, such as methyl bromide. In such cases, if the packaging material subjected to the fumigation treatment is not dried sufficiently, halogen remaining on the packaging material may leach into the capacitor during transportation and trigger a corrosive reaction in the capacitor. When carrying out the fumigation treatment, carefully examine the dried packaging material to confirm that no halogen remains on the packaging material. Never fumigate the entire electronic equipment in its packaged state.  Reliability and product life ■ The service life of the product is affected by service temperatures. In general, a 10 ℃ drop in the service temperature will double the service life. Use the capacitor at a temperature as low as possible from the upper limit category temperature. ■ Using a capacitor under a temperature condition outside a specified temperature range causes heavy degradation of the capacitor characteristics, which may result in breakage of the capacitor. You need to confirm not only the ambient temperature and internal temperature of the capacitor but also the temperature of the capacitor’s top surface, which is given by radiant heat from built-in heating elements (a power transistor, IC, resistance, etc.) and heat generated by self-heating induced by ripple current. Do not place a heating element on the back of the capacitor. 30-Jun-23 Matters to Be Observed When Using This Product ■ The product life is given by the following equation. L2 = L1 x 2 L1 L2 T1 T2 ⊿T T1-(T2+⊿T) 10 Where T1 ≧ T2 : Guaranteed life (h) at temperature T1 (℃) * In the case of a hybrid type, category temperature (℃) : Expected life (h) at temperature T2 (℃) + temperature increase caused by rated ripple current (℃) : Upper category temperature (℃) : Ambient temperature of capacitor (℃) : Temperature increase caused by ripple current (℃) ■ Do not use the product for a period longer than its specified service life. A capacitor with its service life ended may cause the following problems: rapid degradation of the product characteristics, short circuit, unnecessary activation of the pressure valve, electrolytic solution leakage, etc. Note that the estimated service life is not longer than 15 years due to the limited environment-resistant property of the sealing rubber. ■ When the capacitor is used under a high-temperature condition for a long period, minute cracks develop on the surface of the sealing rubber or the case surface turns brown in some cases. These phenomena, however, have no effects on the reliability of the capacitor. ■ A capacitor conforming to "AEC-Q200" refers to a capacitor having passed some or all of evaluation test items defined in AEC-Q200. To know the detailed specifications of each capacitor or specific evaluation test scores, please contact us. We issue a delivery specification sheet for each product ordered. Please confirm the delivery specification sheet when you place an order with us.  Circuit design and circuit board design ■ The electrical characteristics change as a result of temperature/frequency fluctuations. Take electrical characteristic changes into consideration when working out a circuit design. (1) Temperature fluctuations High-temperature condition Low-temperature condition (2) Frequency fluctuations High-frequency condition Low-frequency condition : increase in leak current : decrease in the capacitance, increase in the tangent to the loss angle, increase in the impedance (the hybrid type is excluded), etc. : decrease in the capacitance, increase in the tangent to the loss angle, decrease in the impedance, etc. : more heat generation by ripple current as a result of an increase in the equivalent series resistance ■ The group of factors described below may lead to rapid degradation of the capacitor characteristics, short circuit, or electrolytic solution leakage. They may give rise to sharp heat/gas generation, too, in which case the increasing internal pressure actuates the pressure valve, causes the electrolytic solution to leak out of the sealing part, and, in a worst-case scenario, causes an explosion or ignition incident. When a capacitor bursts, it may scatter flammable materials (electrolytic solution, etc.) in its surroundings. (1) Reverse voltage: The capacitor has preset polarity. Do not apply a reverse voltage to the capacitor. Confirm the polarity indicated on the capacitor and then use it. (2) Charge/discharge: Avoid using the capacitor in a circuit that frequently repeats sharp charge/discharge cycles or a circuit that requires relatively slow but highly frequent charge/discharge cycles. In cases where you use the capacitor in such circuits, make sure to inform us of the charge/discharge conditions. Ensure that a rush current does not exceed 100 A. (3) ON/OFF: Avoid using the capacitor in an on/off circuit that repeatedly switches on and off more than 10,000 times a day. In cases where you use the product in such circuits, make sure to inform us of the circuit conditions, etc. (4) Overvoltage: Do not apply an overvoltage higher than the rated voltage (higher than the surge voltage when the voltage application period is short). A peak value given by superposing a ripple voltage (AC component) on a DC voltage must be equal to or lower than the rated voltage. (5) Ripple current: Do not allow an excessively large ripple current (larger than the rated ripple current specified in the specifications) to flow through the capacitor. Even if a ripple current flow in the capacitor is equal to or smaller than the rated ripple current, a low DC bias voltage may generate a reverse voltage flow in the capacitor. Keep the ripple current flow within a range in which no reverse voltage is generated. Even if the ripple current flow is kept equal to or smaller than the rated ripple current, using the capacitor for a period longer than its service life intensifies the degradation of the ESR characteristics, resulting in an increase in internal heating caused by the ripple current. As a result, the pressure valve is actuated, the exterior case or rubber swells, the electrolytic solution leaks, and, in a worst-case scenario, the capacitor short-circuits and ignites or explodes. 30-Jun-23 Matters to Be Observed When Using This Product ■ Because the impedance of the capacitor is close to the circuit resistance, capacitors connected in parallel in the circuit may damage the whole current balance, in which case, a ripple current higher than the rated ripple current may flow in some of the capacitors. To prevent concentration of ripple current on the low-impedance side, use capacitors with the same product number and avoid the partiality of cable impedances. Do not use capacitors connected in series. ■ When the capacitor is mounted on a double-side wiring board, do not place the wiring pattern directly underneath where the product is mounted. In case the electrolytic solution leaks out, it may short-circuit the pattern and cause tracking or migration. Consider a case where the product is a radial lead capacitor and is mounted on a board with through-holes. In this case, if the sealing part of the capacitor and the board surface stick close to each other, solder flows up to the capacitor during a dip soldering process, which may cause short circuit between the anode and cathode of the capacitor. In such a case, the outer laminate of the product may be damaged. The position of holes, therefore, must be determined properly. ■ When designing a printed board carrying radial lead capacitors, make through-holes across the gap equal to the gap between the leads (terminals) of the capacitor. If the gap between the through-holes is narrower or wider than the gap between the leads, stress is applied to the leads when the capacitor is inserted in the holes. This may result in increasing leak current, short circuit, wire breaking, or electrolytic solution leakage. ■ A capacitor which has the pressure valve on the case must be provided with a space formed above the pressure valve so that the pressure valve operates without hinderance. When the product is 6.3 mm to 16 mm in diameter, form a space of 2 mm or larger. When the product is 18 mm in diameter, form a space of 3 mm or larger. If the space is not large enough, it will impair the operability of the pressure valve and may lead to an explosion incident. ■ Design the circuit in such that the pattern, especially a line pattern carrying high voltage or large current, is not formed above the pressure valve. Upon its activation, the pressure valve emits a flammable high-temperature gas of over 100 ℃. This may cause a secondary accident, such as the gas condensing on the pattern and the wire sheathing being melted and catching on fire. ■ Be careful with the resonance of the capacitor mounted on the board. When a large load is applied to the capacitor before and after its resonance point, it may cause the capacitor to come off or widely change its characteristics. ■ Completely isolate the case of the capacitor from the cathode terminal and the circuit pattern. ■ The laminate or outer sleeve covering of the product is for displaying information on the product and does not have a guaranteed insulating function. The laminate may turn brown under a high-temperature condition. However, that does not cause problems with markings recognition on the product surface or electrical performance.  Mounting conditions ■ Do not reuse a capacitor that was incorporated in a circuit set and energized in the past. Do not use a capacitor that was dropped on the floor. Do not use a capacitor in its compressed form. Compressing the capacitor makes it less airtight, resulting in poor performance, shorter service life, and electrolytic solution leakage. ■ A re-striking voltage is generated in a capacitor in some cases. In such a case, let the capacitor discharge through a resistor of about 1 kΩ. ■ When a capacitor is kept in storage for a long period, you may find the leak current from the capacitor has increased. In such a case, make voltage adjustment through a resistor of about 1 kΩ. ■ Before mounting the capacitor on the board, confirm the ratings (capacitance, rated voltage, etc.) and polarity of the capacitor. Before mounting a surface-mounted type capacitor, confirm its terminal dimensions and land size. Before mounting a radial lead type capacitor, confirm its terminal interval and hole interval. If the terminal interval is not the specified one, stress is applied to internal elements, which may cause problems, such as a short circuit and insufficient mounting strength. When the terminal interval and the hole interval of the radial lead type capacitor do not match and therefore the capacitor’s leads need to be readjusted, make sure that the readjustment does not apply any stress to the capacitor’s body.   30-Jun-23 Matters to Be Observed When Using This Product ■ Confirm the applied pressure when using an automatically mounting process for a surface-mounted type capacitor. Excessive pressure may result in increasing leak current, short circuit, the capacitor coming off from the board, and the like. When automatically mounting the radial lead type capacitor, check the wear of a cutter for cutting the leads and confirm that the angle of clinching the leads is not too acute with regards to the board. Clinching the leads at too acute of an angle applies tensile stress to the leads, which may lead to destruction of the capacitor. ■ Follow soldering conditions (preheating, soldering temperature/time, the number of times of soldering, etc.) specified in the specification sheet. A high peak temperature or a long heating time causes the degradation of electrical characteristics or a reduction in the service life. Note that the specified soldering conditions indicate conditions under which the degradation of capacitor characteristics do not occur but do not indicate conditions under which stable soldering can be performed. Check and set conditions under which stable soldering can be performed, on a case-by-case basis. Measure the temperature of the capacitor, using a thermocouple bonded to the top of the capacitor with an epoxy-based adhesive. This temperature measurement must be conducted in a mass-production setup. ■ The surface-mounted type capacitor is soldered by reflow soldering only. It cannot be soldered by flow soldering or dip soldering. Carry out reflow soldering with an atmospheric heat transfer method using infrared hot air, etc. When carrying out two rounds of reflow processes, carry out the second reflow process after the capacitor’s temperature settles down to a normal temperature. In the case of VPS reflow, a sharp rise in the capacitor temperature causes a change in the characteristics and appearance of the capacitor, which may give rise to a problem with capacitor mounting. We therefore recommend execution of VPS flow at a temperature rise rate of 3 ℃/second or lower. For more information about this matter, please contact us. ■ Reflow soldering, under the reflow conditions we recommend, might result in discoloring or swelling of the case or crack formation on the ink mark indicating the cathode. These minor problems, however, do not affect the reliability of the capacitor at all. ■ A 6.3-mm diameter vibration-resistant capacitor has a structure that covers the auxiliary terminals to the sides of a seat plate. In cases where you confirm formation of a fillet on the sides of the auxiliary terminals by an image recognition means, etc., examine soldering conditions for the formation of a sufficient fillet on the auxiliary terminals in advance before carrying out the soldering process. Even if the formation of a sufficient fillet on the auxiliary terminals is not confirmed, a solder junction between the lower surface of the auxiliary terminals and the board ensures vibration-resistant performance, meaning the reliability of the capacitor is not affected. ■ The radial lead type capacitor cannot be soldered by reflow soldering. Do not dip the capacitor body, except the leads, in solder. Heat from the solder raises the internal pressure of the capacitor and destroys it. Solder the capacitor according to the following soldering conditions: soldering temperature of 260 ℃ ±5 ℃ and soldering time of 10 seconds ±1 second. ■ Ensure that other components do not come in contact with the capacitor during the soldering process. When a radial lead type capacitor is set in close contact with the board, check the soldered state of the capacitor well, because its sealing rubber has no venting structure. ■ When manually soldering the capacitor, follow the soldering conditions (soldering temperature/time) specified in the specification sheet or adopt a soldering temperature of 350 ℃ and a soldering time of 3 seconds or less. When you need to remove a capacitor already soldered, remove it after the solder is melted sufficiently so that no stress is applied to the terminals of the capacitor. Be careful not to let the solder iron tip touch the capacitor. The solder iron touching the capacitor may damage the capacitor. ■ When the temperature of the capacitor becomes extremely high due to preheating, solidification of the setting resin, etc., may cause the outer sleeve of the capacitor to shrink or crack. When treating the capacitor in a thermosetting furnace, etc., place the capacitor in an atmosphere of 150 ℃ for 2 minutes or less. ■ Do not tilt or twist the capacitor soldered to a printed board or hold the capacitor to carry the board or hit the capacitor against something. Such actions apply a force to the internal elements through the terminals and may destroy the product. ■ Using highly active halogenous (chlorine-based or bromic) solder flux poses a concern that residual solder flux will have negative impact on the performance and reliability of the capacitor. Check the influence of residual solder flux before using such solder flux. 30-Jun-23 Matters to Be Observed When Using This Product / Reference information  Storage conditions ■ A capacitor left for a long period is prone to have a greater flow of leak current. This happens because the oxide film deteriorates under a no-load condition. Voltage application to the capacitor reduces the leak current. However, at the start of voltage application, a large flow of film recovery current increases the leak current, which may cause a circuit failure, etc. ■ The storage period of a capacitor is 42 months from the shipment inspection day. However, the storage period of capacitors not listed in the following table is specified as 12 months. Store the capacitor in a place where a normal temperature condition (5°C to 35°C) and a normal humidity condition (45% to 85%) are maintained and direct sunlight is blocked. Product category Series Hybrid type All hybrid series Surface-mounted type other than the hybrid type S (hot lead-free reflow), HA (hot lead-free reflow) HB (hot lead-free reflow, 5.4 mm in height) HC, HD, FCA, FC, FKA, FK, FKS, FP, FT, FH TG, TK, TP, TC, TCU, TQ Radial lead type other than the hybrid type FC-A, FK-A, HD-A, TA-A, TP-A Storage period 42 months from the shipment inspection day ■ Avoid storing the capacitor in environments not specified in the delivery specification sheet or in the following environments or conditions. (1) Used at a temperature higher than the upper limit category temperature or lower than the lower limit category temperature (2) Environments where the capacitor is exposed to water, salt water, or oil (3) Environments where dew concentrates on the capacitor (4) Environments filled with a toxic gas (hydrogen sulfide, sulfurous acid, nitrous acid, chlorine and chlorine compound, bromine and bromine compound, ammonia, etc.) (5) Environments where the product is exposed to ozone, radiation, UV-rays, etc. (6) Environments where vibrations or impacts exceeding a specified range is applied to the capacitor Reference information  Guidelines Some of the product use guidelines described herein are excerpted from JEITA RCR-2367D "Safety application guide for fixed aluminum electrolytic capacitors for use in electronic equipment," a technical report issued by the Japan Electronics and Information Technology Industries Association on October 2017. For more detailed information, please see the above technical report.  Intellectual property Panasonic Group provides customers with safe products and services. We are also making great efforts to protect our intellectual property rights for Panasonic Group products. Typical patents related to this product are as follows. (Hybrid type) [U.S. patent] USP Nos. 7497879, 7621970, 9208954, 9595396, 9966200, 10453618, 10559432, 10679800, 10685788, and 10790095. [Japanese patent] Japanese Patent No. 5360250 [European patent] EP-A Nos. 1808875 and 2698802 30-Jun-23
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