To: Farnell InOne Issue No. : CE-AAMX-CEM-1 Date of Issue : 12 December, 2006 ENGINEERING DRAFT Product Description Customer Part Number : Aluminum Electrolytic Capacitor : Product Part Number : Radial lead type (JIS:04 type) AM series X type Country of Origin Marking of the Origin Applications Term of Validity : : : : Japan, Malaysia Printed on the packaging label AUDIO November 9, 2007 from the date issue ・ These specifications are temporary specifications. Ask factory for technical specifications before purchase and / or use. Prepared by Capacitor Business Unit Panasonic Electronic Devices Co.,Ltd. 25.Kohata-nishinaka..Uji City, Kyoto, 611-8585, Japan Phone (774)32-1111 Phone :+81-774-33-3209(Direct) Fax :+81-774-33-4251 : Engineering Group Aluminum Engineering Team Contact Person Signature Name(Print) Title : Authorized by Signature Name(Print) Title : Haruhiko Handa : Engineer Hisao Nagara : Manager No.3726636 Engineering Draft CE-AAMX-CEM-1 A type AM series X type Contents Notice matter P.1 Scope P.2 Parts Number P.2 Parts Lists P.3 ~ P.5 Can Size Table P.6 Dimensions and Appearance P.7 Constructions P.8 Marking P.8 Lot No. System P.9 ~ P.10 Standard Rating P.11 Performance Characteristics P.12 ~ P.15 Other Characteristics P.16 Dimensions (Snap-in lead formed type) P.17 Taping Shape and Dimensions P.18 ~ P.21 Taping Specifications P.22 ~ P.24 Package Amount and Shape P.25 ~ P.27 Notes in using Radial lead type Aluminum Electrolytic Capacitor P.28 ~ P.31 Panasonic Electronic Devices Co.,Ltd. Page No. Contents Engineering Draft CE-AAMX-CEM-1 A type AM series X type 1 Notice matter ◆ Law and regulation which are applied ・ This product complies with the RoHS Directive (Restriction of the use of certain Hazardous Substances in electrical and electronic equipment (DIRECTIVE 2002/95/EC). ・ No Ozone Depleting Chemicals(ODC's), controlled under the Montreal Protocol Agreement, are used in producing this product. ・ We do not PBBs or PBDEs as brominated flame retardants. ・ All the materials that are used for this product are registered as "Known Chemicals" in the Japanese act "Law Concerning the Examination and Regulation of Manufacture, etc. of Chemical Substances". ・ Export procedure which followed export related regulations, such as foreign exchange and a foreign trade method, on the occasion of export of this product .Thank you for your consideration. ◆ Limitation of a use ・ This capacitor is designed to be used for electronics circuits such as audio/visual equipment, home appliances, computers and other office equipment, optical equipment, measuring equipment and industrial robots. High reliability and safety are required [ be / a possibility that incorrect operation of this product may do harm to a human life or property ] more. When use is considered by the use, the delivery specifications which suited the use separately need to be exchanged. ◆ Unless otherwise specified, the product shall conform to JIS 5101-4-1 ◆ Country of origin : JAPAN, MALAYSIA ◆ Manufacturing factory : Panasonic Electronic Devices Yamaguchi Co.,Ltd. 1285, Aza-Sakutaguchi, Oaza-Asada,Yamaguchi City, Yamaguchi 753-8536 Japan Panasonic Electronic Devices Malaysia Sdn.Bhd. No.1 Jalan Jemuju 16/13,40200 Shah Alam,Selangor Darul Ehsan, MALAYSIA Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 2 1. Scope Fixed capacitors for use in electronic equipment, Aluminum electrolytic capacitors with non-solid electrolyte. 2. Parts Number EC A ○○ 2-1 2-2 2-3 AM 2-4 ○○○ X □ 2-5 2-4 2-6 2-1 Aluminum Electrolytic Capacitor 2-2 Type : Radial lead type ( JIS : 04 type ) 2-3 Rated Voltage Code Voltage Code Rated Voktage (V.DC) 0J 6.3 1A 10 1C 16 1E 25 1V 35 1H 50 2-4 AM series X type 2-5 Capacitance Code : Indicating capacitance in uF by 3 letters. The first 2 figures are actual values and the third denotes the number of zeros. "R" denotes the decimal point and all figures are the actual number with "R". For example, 1uF is expressed as 010 in this case. 1J 63 2A 100 ex. 0. 1µF → 0R1 , 10µF → 100 , 1000µF → 102 2-6 Suffix Code for Appearance : Special Code for Appearance Blank Standard Long Lead E Snap-in lead i Lead taping (2.5mm pitch) B Lead taping (5.0mm pitch) Item 9 for snap-in lead, Item 10 for lead taping dimensions, Item 11 and Item 12 for lead taping specifications. Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 3 Parts lists P art N o. W .V. C ap. [V .D C ] [µF ] E CA 0JA M 221X E CA 0JA M 471X E CA 0JA M 102X E CA 0JA M 222X E CA 0JA M 332X E CA 0JA M 472X E CA 0JA M 682X E CA 0JA M 103X E CA 0JA M 153X E CA 0JA M 223X T angent Leakage R ated R ipple C urrent of loss C urrent D im .[ m m ] 6.3 6.3 6.3 6.3 6.3 6.3 6.3 6.3 6.3 6.3 (120H z) (20℃ ) 220 470 1000 2200 3300 4700 6800 10000 15000 22000 angle m ax . (120H z) (20℃ ) 0.28 0.28 0.28 0.30 0.32 0.34 0.38 0.46 0.56 0.70 [µA ] m ax . (A fter 2 m in.) 13.8 29.6 63.0 138.6 207.9 296.1 428.4 630.0 945.0 1386.0 [m A rm s] m ax . (120H z) (85℃ ) 240 380 580 890 1020 1170 1270 1450 1700 1900 φD 5 6.3 8 10 10 12.5 12.5 16 16 18 L 11 11.2 11.5 16 20 20 25 25 31.5 35.5 φd 0.5 0.5 0.6 0.6 0.6 0.6 0.6 0.8 0.8 0.8 E CA 1AA M 331X E CA 1AA M 102X E CA 1AA M 222X E CA 1AA M 332X E CA 1AA M 472X E CA 1AA M 682X E CA 1AA M 103X E CA 1AA M 153X 10 10 10 10 10 10 10 10 330 1000 2200 3300 4700 6800 10000 15000 0.24 0.24 0.26 0.28 0.30 0.34 0.42 0.52 33.0 100.0 220.0 330.0 470.0 680.0 1000.0 1500.0 330 630 920 1090 1200 1400 1600 1850 6.3 10 10 12.5 12.5 16 16 18 11.2 12.5 20 20 25 25 31.5 35.5 0.5 0.6 0.6 0.6 0.6 0.8 0.8 0.8 E CA 1CA M 100X E CA 1CA M 220X E CA 1CA M 330X E CA 1CA M 470X E CA 1CA M 101X E CA 1CA M 221X E CA 1CA M 471X E CA 1CA M 102X E CA 1CA M 222X E CA 1CA M 332X E CA 1CA M 472X E CA 1CA M 682X E CA 1CA M 103X 16 16 16 16 16 16 16 16 16 16 16 16 16 10 22 33 47 100 220 470 1000 2200 3300 4700 6800 10000 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.20 0.22 0.24 0.26 0.30 0.38 3.0 3.5 5.2 7.5 16.0 35.2 75.2 160.0 352.0 528.0 752.0 1088.0 1600.0 30 75 110 130 180 280 440 680 1000 1200 1360 1600 1800 5 5 5 5 5 6.3 8 10 12.5 12.5 16 16 18 11 11 11 11 11 11.2 11.5 16 20 25 25 31.5 35.5 0.5 0.5 0.5 0.5 0.5 0.5 0.6 0.6 0.6 0.6 0.8 0.8 0.8 Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 4 Parts lists P a rt N o . T a n g e n t L e a k a g e R a te d R ip p le C u rre n t o f lo ss C u rre n t a n g le [µ A ] [m A rm s] m ax. m ax. m ax. (1 2 0 H z ) (A f te r (1 2 0 H z ) (2 0 ℃ ) 2 m in .) (8 5 ℃ ) 0 .1 6 2 5 .0 180 0 .1 6 8 2 .5 390 0 .1 6 1 1 7 .5 480 0 .1 6 2 5 0 .0 850 0 .1 8 5 5 0 .0 1200 0 .2 0 8 2 5 .0 1300 0 .2 2 1 1 7 5 .0 1500 0 .2 6 1 7 0 0 .0 1750 W .V . [V .D C ] C ap. [µ F ] E C A 1E A M 101X E C A 1E A M 331X E C A 1E A M 471X E C A 1E A M 102X E C A 1E A M 222X E C A 1E A M 332X E C A 1E A M 472X E C A 1E A M 682X 25 25 25 25 25 25 25 25 (1 2 0 H z ) (2 0 ℃ ) 100 330 470 1000 2200 3300 4700 6800 E C A 1V A M 470X E C A 1V A M 101X E C A 1V A M 221X E C A 1V A M 331X E C A 1V A M 471X E C A 1V A M 102X E C A 1V A M 222X E C A 1V A M 332X E C A 1V A M 472X 35 35 35 35 35 35 35 35 35 47 100 220 330 470 1000 2200 3300 4700 0 .1 4 0 .1 4 0 .1 4 0 .1 4 0 .1 4 0 .1 4 0 .1 6 0 .1 8 0 .2 0 1 6 .4 3 5 .0 7 7 .0 1 1 5 .5 1 6 4 .5 3 5 0 .0 7 7 0 .0 1 1 5 5 .0 1 6 4 5 .0 E C A 1H A M 0R 1X E C A 1H A M R 22X E C A 1H A M R 33X E C A 1H A M R 47X E C A 1H A M 010X E C A 1H A M 2R 2X E C A 1H A M 3R 3X E C A 1H A M 4R 7X E C A 1H A M 100X E C A 1H A M 220X E C A 1H A M 330X E C A 1H A M 470X E C A 1H A M 101X E C A 1H A M 221X E C A 1H A M 331X E C A 1H A M 471X E C A 1H A M 102X E C A 1H A M 222X E C A 1H A M 332X 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 50 0 .1 0 .2 2 0 .3 3 0 .4 7 1 .0 2 .2 3 .3 4 .7 10 22 33 47 100 220 330 470 1000 2200 3300 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 2 0 .1 4 0 .1 6 3 .0 3 .0 3 .0 3 .0 3 .0 3 .0 3 .0 3 .0 5 .0 1 1 .0 1 6 .5 2 3 .5 5 0 .0 1 1 0 .0 1 6 5 .0 2 3 5 .0 5 0 0 .0 1 1 0 0 .0 1 6 5 0 .0 D im .[ m m ] φD 6 .3 8 10 10 1 2 .5 16 16 18 L 1 1 .2 1 1 .5 1 2 .5 20 25 25 3 1 .5 3 5 .5 φd 0 .5 0 .6 0 .6 0 .6 0 .6 0 .8 0 .8 0 .8 130 210 350 440 550 900 1250 1400 1600 5 6 .3 8 10 10 1 2 .5 16 16 18 11 1 1 .2 1 1 .5 1 2 .5 16 20 25 3 1 .5 3 5 .5 0 .5 0 .5 0 .6 0 .6 0 .6 0 .6 0 .8 0 .8 0 .8 1 .3 2 .9 4 .4 5 10 20 35 45 65 100 110 130 250 400 500 650 1050 1300 1500 5 5 5 5 5 5 5 5 5 5 5 6 .3 8 10 10 10 1 2 .5 16 18 11 11 11 11 11 11 11 11 11 11 11 1 1 .2 1 1 .5 1 2 .5 16 20 25 3 1 .5 3 5 .5 0 .5 0 .5 0 .5 0 .5 0 .5 0 .5 0 .5 0 .5 0 .5 0 .5 0 .5 0 .5 0 .6 0 .6 0 .6 0 .6 0 .6 0 .8 0 .8 Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 5 Parts lists Part N o. W .V . C ap. [V .D C ] [µF ] EC A 1JA M 100X EC A 1JA M 220X EC A 1JA M 330X EC A 1JA M 470X EC A 1JA M 101X EC A 1JA M 221X EC A 1JA M 331X EC A 1JA M 471X EC A 1JA M 102X EC A 1JA M 222X EC A 2A A M R 47X EC A 2A A M 010X EC A 2A A M 2R 2X EC A 2A A M 3R 3X EC A 2A A M 4R 7X EC A 2A A M 100X EC A 2A A M 220X EC A 2A A M 330X EC A 2A A M 470X EC A 2A A M 101X EC A 2A A M 221X EC A 2A A M 331X EC A 2A A M 471X EC A 2A A M 102X T angent Leakage Rated R ipple Current of loss C urrent D im .[ m m ] 63 63 63 63 63 63 63 63 63 63 (120Hz) (20℃ ) 10 22 33 47 100 220 330 470 1000 2200 angle m ax. (120Hz) (20℃ ) 0.11 0.11 0.11 0.11 0.11 0.11 0.11 0.11 0.11 0.13 [µA ] m ax. (A fter 2 m in.) 6.3 13.8 20.7 29.6 63.0 138.6 207.9 296.1 630.0 1386.0 [m A rm s] m ax . (120H z) (85℃ ) 70 105 130 160 270 450 550 750 1100 1400 φD 5 5 6.3 6.3 8 10 10 12.5 16 18 L 11 11 11.2 11.2 11.5 16 20 20 25 35.5 φd 0.5 0.5 0.5 0.5 0.6 0.6 0.6 0.6 0.8 0.8 100 100 100 100 100 100 100 100 100 100 100 100 100 100 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1000 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 0.10 3.0 3.0 3.0 3.3 4.7 10.0 22.0 33.0 47.0 100.0 220.0 330.0 470.0 1000.0 10 20 30 40 50 70 115 145 180 350 550 700 900 1300 5 5 5 5 5 5 6.3 8 8 10 12.5 12.5 16 18 11 11 11 11 11 11 11.2 11.5 11.5 16 20 25 25 35.5 0.5 0.5 0.5 0.5 0.5 0.5 0.5 0.6 0.6 0.6 0.6 0.6 0.8 0.8 Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 6 Capacitance and Can Size Table φD×L [mm] V.DC Cap (µF) 0.1 0.22 0.33 0.47 1.0 2.2 3.3 4.7 10 22 33 47 100 220 330 470 1000 2200 3300 4700 6800 10000 15000 22000 6.3 5×11 → 6.3×11.2 8×11.5 10×16 10×20 12.5×20 12.5×25 16×25 16×31.5 18×35.5 10 → 6.3×11.2 → 10×12.5 10×20 12.5×20 12.5×25 16×25 16×31.5 18×35.5 16 5×11 5×11 5×11 5×11 5×11 6.3×11.2 → 8×11.5 10×16 12.5×20 12.5×25 16×25 16×31.5 18×35.5 25 → → → → 6.3×11.2 → 8×11.5 10×12.5 10×20 12.5×25 16×25 16×31.5 18×35.5 35 → → → 5×11 6.3×11.2 8×11.5 10×12.5 10×16 12.5×20 16×25 16×31.5 18×35.5 50 5×11 5×11 5×11 5×11 5×11 5×11 5×11 5×11 5×11 5×11 5×11 6.3×11.2 8×11.5 10×12.5 10×16 10×20 12.5×25 16×31.5 18×35.5 63 100 → → → → → 5×11 5×11 6.3×11.2 6.3×11.2 8×11.5 10×16 10×20 12.5×20 16×25 18×35.5 5×11 5×11 5×11 5×11 5×11 5×11 6.3×11.2 8×11.5 8×11.5 10×16 12.5×20 12.5×25 16×25 18×35.5 Please refer to a high-ranking voltage for "→" Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 7 3. Dimensions and Appearance Body Color (Clear Blue) , Marking (White ) Standard Long Lead (Suffix : Blank) Pressure relief φ5~φ8 φ6.3≦ [mm] F±0.5 φd±0.05 3 *L * L≦16:L±1.0 14min. min. φD±0.5 φ10≦ L≧20:L±2.0 Body Dia. φD 5 6.3 8 10 12.5 16 Lead Space F 2.0 2.5 3.5 5.0 5.0 7.5 Lead Dia. φd 0.5 0.5 0.6 0.6 0.6 0.8 Please refer to L dimension on the parts number lists table. [mm] 18 7.5 0.8 Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 8 4. Constructions 4-1 Inside Construction 3 Aluminum can 2 Sleeve 4 Sealing rubber Pressure relief dia≧φ6.3 1 Lead wire Inside unit (5 Separator, 6・7 Anode and cathode foil, 8 Electrolyte) Aluminum lead 4-2 Construction Parts Parts 1 Lead Wire Materials Parts Solid tinned copper weld 5 Separator Materials Manila hemp steel wire 2 Sleeve Thermoplastic Resin 6 Anode Foil High purity Aluminum foil 3 Aluminum Can Aluminum 7 Cathode Foil 4 Sealing Rubber Synthetic rubber 8 Electrolyte Main Solvent Ethlene glycol (EPT/IIR) Aluminum foil Main Solute Ammonium salt 5. Marking Markings indicated on the products : a) Rated Voltage. b) Capacitance c ) Negative Polarity d) Manufacturer’s Trademark e) Upper Category Temperature f ) Series Code g) Lot No. (It indicates to Lot No. System) Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 Radial lead type Lot No. System 9 ・JAPAN PRODUCTS Lot number is indicated on a sleeve in following manner. eg. For 04 type, expressed in 3 figures, 4 figures, or 5 figures. (a) (b) (c) (a)sequential alphabet for each lot (b)month (1 to 9 and O for October, N for November, D for December) (c)sequential alphabet for (a) (b) (c) (d) As for the display contents of 4 figures, there are 2 kinds (1) (a) last number of year (b) month (1 to 9 and O for October, N for November, D for December) (c) week (1 to 5 and A to E) (d) line code in alphabet (A to Z) (2) (a) last number of year (b) month (1 to 9 and O for October, N for November, D for December) (c) line code in alphabet (A to Z) (d) production date (a) (b) (a) last 2 digit of year (b) numerical indication of week (ninth week of 1992=09) (a) (b) (d) (a) last number of year (b) month (1 to 9 and O for October, N for November, D for December) (c) week (1 to 5 and A to E) (d) line code production month 1:January 7:July 2:February 8:August 3:March 9:September 4:April O:October 5:May N:November 6:June D:December production week A,1: first week B,2:second week C,3: third week D,4: forth week E,5: fifth week production date A=1 date 1=27 date B=2 2=28 C=3 3=29 4=30 Y=25 5=31 Z=26 ~ production year 1:2001 2:2002 3:2003 4:2004 ~ Indicating with the last digit or the last 2 digits of a year. (c) * Lot number can be written in both horizontal and vertical directions. * Manufacturing country for certain products may not be indicated. ※ Letters and marks are also used to distinguish different lines, machines and shifts operation. Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 Radial lead type Lot No. System 10 ・MALAYSIA PRODUCTS Lot number is indicated on a sleeve in following manner. eg. For 04 type, expressed in 4 figures, or 5 figures. (a) (b) (c) (c) (a) last number of year (b) month (1 to 9 and O for October, N for November, D for December) (c) line code in alphabet (A to Z) (a) (b) (b) (a) (a) last number of year and line code in alphabet (A to Z) (b) month (1 to 9 and O for October, N for November, D for December) and production date production year 1:2001 2:2002 3:2003 4:2004 ~ Indicating with the last digit or the last 2 digits of a year. (c) (d) (d) (a) last number of year (b) month (1 to 9 and O for October, N for November, D for December) (c) week (Greece number) (d) line code production month 1:January 7:July 2:February 8:August 3:March 9:September 4:April O:October 5:May N:November 6:June D:December production week Ⅰ: first week A,1: first week Ⅱ:second week B,2:second week Ⅲ: third week C,3: third week Ⅳ: forth week D,4: forth week Ⅴ: fifth week E,5: fifth week production date 1:1date B:11date 2:2date C:12date 3:3date U:30date 9:9date V:31date A:10date ~ (b) ~ (a) Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 11 6. Standard Ratings Item No. Ratings -40℃ ~ +85℃ 1 Category Temperature Range 2 Rated Voltage Range 6.3 V.DC ~ 100 V.DC 3 Capacitance Range 0.1 µF ~ 22000 µF 4 Capacitance Tolerance 5 Surge Voltage (V.DC) 6 Rated Ripple Current (120Hz 20℃) ± 20% (120Hz 20℃) R.V. 6.3 10 16 25 35 50 63 100 S.V. 8 13 20 32 44 63 79 125 Parts Lists and Table3 Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 12 7. Performance Characteristics No Item 1 Leakage Current Performance Characteristics ≦ I = 0. 01CV or 3µA, whichever is greater. I : Leakage current C : Capacitance V : Rated voltage W ithin the specified capacitance tolerance. 2 Capacitance 3 Tangent of Loss Angle (tanδ) Less than the table 1 value of item 8. Series Resistor Applied Voltage Measuring Test : 1000Ω±10Ω : Rated voltage : After 2 minutes Measuring Frequency Measuring Circuit Measuring Voltage Measuring Frequency Measuring Circuit Measuring Voltage : 120 Hz±20% : Equivalent series circuit : +1. 5V. DC ~ +2 V. DC ( ≦0.5V for AC.) : 120 Hz±20% : Equivalent series circuit : +1. 5V. DC ~ +2 V. DC ( ≦0.5V for AC.) Added 0. 02 per 1000µF for items with over 1000µF. 4 Characteristics at Step 2 High and Low Impedance Ratio : Test Temperature (℃) Time Temperature Ratio for the value in step 1 shall be Step 20± 2 1 less than the value from table 2 in 2 -25±3, -40±3 item 8. * 20± 2 3 15 minutes Step 4 85± 2 4 2 hours Leakage Current : 20± 2 5 * ≦ 500% of the value of item 7. 1. Capacitance Change : Impedance should be measured at the frequency W ithin ±25% of the value in step 1 of 120 Hz±10%. Tangent of Loss Angle (tanδ): * Capacitors should be stored at each temperature until measured impedance or ≦ the value of item 7. 3. capacitance is stabilized. 5 Surge Leakage Current : Test Temperature : 15℃ ~ 35℃ ≦ the value of item 7.1. 100 ± 50 Capacitance Change : Series Protective Resistance : R = C W ithin ±15% of the initially measured value. Tangent of Loss Angle (tanδ): R = Series protective resistance (kΩ) C =Capacitance (µF) ≦ the value of item 7. 3. Appearance : Test Voltage : Surge voltage item 6. 5 No significant change can be Applied Voltage : 1000 cycles of 30s±5s observed. “ON” and 5 min. 30 s "OFF" Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type No Item 6 Robustness of Terminations Tensile Performance Characteristics There is no damage or breakage after Bending test. 13 Test Diameter [mm] Pull Strength φ0.5 5N 10 N φ0.6 ~ φ0.8 Applied above steady pull axially for a 10s±1s Diameter [mm] Static Load φ0.5 2.5 N 5N φ0.6 ~ φ0.8 At first, a capacitor is placed in vertical position with the weight specified above being applied to one of leads. Then the capacitor is slowly rotated 90°to horizontal position and subsequently returned to vertical position. The above bending procedure takes for 2s ~ 3s An additional bending is done in the opposite direction. 7 Vibration Capacitance : Frequency : 10 Hz ~ 55 Hz Measured value is to be stabilized (1 minute per cycle.) during test. (Measured several times Total Amplitude : 1. 5 mm within 30 min. Direction and Duration of Vibration : before completion of test) It is done in the X, Y, Z axis direction for 2 Appearance : hours each, with a total of 6 hours. No significant change can be Mounting Method : observed. The capacitor shall be fixed with its lead wires Capacitance Change : at the point of 4 mm from the bottom of Within ±5% of the initially capacitor body. The capacitor with diameter measured value. greater than 12. 5 mm or longer than 25 mm must be fixed in place with a bracket. 8 Solderability More than 3/4 of the terminal surface Solder Type : H60A, H60S, or H63A (JIS Z3282) shall be covered with new solder. Solder Temperature : 235℃±5℃ Immersing Time : 2s±0. 5s Immersing Depth : 1. 5mm ~ 2. 0mm from the root. Flux : Approx. 25% rosin (JIS K5902) in ETHANOL (JIS K8101) 9 Resistance to Leakage Current : Solder Type : H60A, H60S, or H63A (JIS Z3282) Soldering Heat Solder Temperature : 260℃±5℃ ≦ the value of item 7.1. Capacitance Change : Immersing Time : 10s±1s Within ±10% of the initially Immersing Depth : 1. 5mm ~ 2. 0mm from the root. measured value. Tangent of Loss Angle (tanδ): ≦ the value of item 7. 3. Appearance : No significant change can be observed. Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type No Item Performance Characteristics 10 Solvent Resistance of Marking 11 Pressure Relief ( More than φ6. 3 diameter products ) 14 Test There shall be no damage and legible Class of Reagent : Isopropyl Alcohol marking. Marking can be easily comprehended. Test Temperature Immersing Time : 20 ℃ ~ 25 ℃ : 30s±5s Pressure relief shall be operated without any hazardous expulsion or emission of flame. AC Current Method No emission of gas after 30 minutes of the voltage application also meets the specification. R A.C. Power supply A ~ V ~ Cx 50H z or 60Hz A :A.C. ammeter R :Seri es resister ~ V :A.C. voltmeter Cx :Tested capacitor ~ Applied Voltage : AC voltage equals to rated W. V. × 0. 7 or 250 V (rms), whichever is smaller. Capacitance DC Resistance (µF) (Ω) 1000±100 ≦1 >1 >10 >100 >1000 100±10 10±1 1±0.1 ≦10 ≦100 ≦1000 ≦10000 0.1±0.01 * >10000 * When capacitance is over 10000µF,the value of series resistance equals to the half of the tested capacitor’s impedance. Reverse Voltage Method A D.C. Power supply Cx A :D.C. ammeter Cx :Tested capacitor Nominal Diameter [mm] DC Current (A) ≦22.4 >22.4 10 (const) Panasonic Electronic Devices Co.,Ltd. 1 (const) Engineering Draft CE-AAMX-CEM-1 A type AM series X type No Item 12 Damp Heat (Steady state) 13 Endurance 14 Shelf Life Performance Characteristics Leakage Current : ≦ the value of item 7.1. Capacitance Change : Within ±20% of the initially measured value. Tangent of Loss Angle (tanδ): ≦ 120% the value of item 7. 3. Appearance : No significant change can be observed. Leakage Current : ≦ the value of item 7.1. Capacitance Change : Within ±20% of the initially measured value. Tangent of Loss Angle (tanδ): ≦ 150% of the value of item 7. 3. Appearance : No significant change can be observed. Leakage Current : ≦ the value of item 7.1. Capacitance Change : Within ±20% of the initially measured value. Tangent of Loss Angle (tanδ): ≦ 150% of the value of item 7. 3. Appearance : No significant change can be observed. Test Temperature Relative Humidity Test Duration 15 Test : 40℃±2℃ : 90% ~ 95% : 240hours ±8hours After subjected to the test, capacitors shall be left for 2 hours at room temperature and room humidity prior to the measurement. Test Temperature : 85℃±2℃ +72 Test Duration : 2000 0 hours Applied Voltage : Rated voltage After subjected to the test, capacitors shall be left at room temperature and room humidity for 2 hours prior to the measurement. Test Temperature Test Duration : 85℃±2℃ +48 : 1000 0 hours After subjected to the test with no voltage applied, * capacitors shall undergo voltage treatment and be left for 2 hours at room temperature and humidity prior to the measurement. * Voltage treatment : The rated voltage shall be applied to the capacitors, which are connected to series protective resistors (1000Ω±10Ω), for 30 minutes as a posttest treatment (performing discharge). Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 16 8. Other Characteristics ■ Table 1. Tangent of Loss Angle(tanδ) V.DC 6.3 10 16 25 35 D.F. 0.28 0.24 0.20 0.16 0.14 Added 0. 02 per 1000µF for items with over 1000µF items. 50 0.12 63 0.11 ■ Table 2.Characteristics at low temperature Impedance ratio (at 120 Hz) V.DC 6.3 10 16 25 35 50 63 Z(-25℃)/Z(20℃) 5 4 3 2 2 2 2 Z(-40℃)/Z(20℃) 12 10 8 5 4 3 3 -25℃:Added 0.5 per 1000µF for items with over 1000µF items. -40℃:Added 1.0 per 1000µF for items with over 1000µF items. ■ Table 3.Frequency Correction Factor of Rated Ripple Current Frequency (Hz) 50,60 120 1k 10k~ Coefficient 0.7 1 1.3 1.7 Panasonic Electronic Devices Co.,Ltd. 100 0.10 100 2 3 Engineering Draft CE-AAMX-CEM-1 A type AM series X type 17 9. Snap-In Lead Formed Type ( Part No. Suffix : E ) EP φ5~φ8 F φd H3 H2 H1 φD±0.5 EP φ10~φ18 F φd H2 φD±0.5 H1 * Direction of bending is random. [mm] φD H1±0.5 H2 H3 max. F±0.5 P E max. φd±0.05 5 6.3 8 10 12.5 16 18 4.5 4.5 4.5 4.5 4.5 4.5 4.5 2.7 2.7 2.7 2.7 2.7 2.7 2.7 2.5 2.5 2.5 - - - - 5.0 5.0 5.0 5.0 5.0 7.5 7.5 1.00 1.00 1.00 1.00 1.00 0.90 0.90 1.0 1.0 1.0 1.0 1.0 1.0 1.0 0.50 0.50 0.60 0.60 0.60 0.80 0.80 P.W.B φ 0.9 1.0 1.0 1.0 1.0 1.1 1.1 t 1.6 1.6 1.6 1.6 1.6 1.6 1.6 * The lead forming dimensions above shall only be subjected to our outgoing inspection and not to the customer's incoming inspection. Due to the application of mechanical stress during transportation, actual dimensions might not meet the specification. Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 18 10. Lead Taping 10-1. Lead Taping ( Body Diameter φ5 ~φ6. 3 ) The Suffix of Taping Part Number : i 1) Applicable Range This specification is applied to products, which are Aluminum Electrolytic Capacitors (JIS04 type) that taped with single tape. 2) Taping Shape & Dimensions φ5 φ6.3 φD ∆P P2 ∆h ∆P P φD P2 ∆h P L L W2 W0 P1 F H H W1 W W W1 W2 W0 P1 F φD0 P0 φd φD0 t φd t P0 [mm] Item Body diameter Body length Lead wire diameter Body pitch Feed hole pitch *1 Symbol Hole center to lead P1 5.1 ±0.5 Feed hole center to product center P2 6.35 ±1.00 Lead to lead distance F 2.5 ±0.5 Mount tape Adhesive tape Hole position Adhesive tape slipping Height of product from the center Feed hole diameter Inclination of body Inclination of body Total tape thickness W W0 W1 W2 18.0 6.0 ≦ 9.0 0 ~ 1.5 ±0.5 H 18.50 φD0 △h △P t 4.0 1.0 ≧ 1.0 ≧ 0.6 φD L φd P P0 Dimensions 5 6.3 11.0 ~ 11.2 0.5 12.7 12.7 Tolerance Remarks ±0.5 ±0.05 ±1.0 ±0.2 Specified by the contact surface between tape & lead Specified by the contact surface between tape & lead ±0.5 +0.75 -0.50 ±0.2 ±0.3 Specified by the top of an aluminum can Specified by the top of an aluminum can CP wire is excluded *1 Cumulative deviation of “feed hole pitch” shall be less than 1 mm in 20 sections. Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 19 10-2. Lead Taping ( Body Diameter φ5 ~φ8 ) The Suffix of Taping Part Number : B 1) Applicable Range This specification is applied to products, which are Aluminum Electrolytic Capacitors (JIS04 type) that taped with single tape. 2) Taping Shape & Dimensions φ5,φ6.3 φ8 ∆P ∆h φD P2 φD ∆P P P2 P L L W φd φD0 t P0 t φD0 W0 W1 W φd F H H0 W1 H0 W0 P0 P1 W2 F H W2 P1 ∆h [mm] Item Body diameter Body length Lead wire diameter Body pitch Feed hole pitch *1 Symbol Hole center to lead P1 3.85 ±0.5 Feed hole center to product center P2 6.35 ±1.00 F 5.0 W W0 W1 W2 18.0 6.0 ≦ 9.0 0 ~ 1.5 φD L φd P P0 Lead to lead distance Mount tape Adhesive tape Hole position Adhesive tape slipping Height of product from the center Lead wire clinch height Feed hole diameter Inclination of body Inclination of body Total tape thickness H H0 φD0 △h △P t Dimensions 5 Tolerance 6.3 8 11.0 ~ 11.5 0.5 0.6 12.7 12.7 18.5 16.0 4.0 1.0 ≧ 1.0 ≧ 0.6 Remarks ±0.5 ±0.05 ±1.0 ±0.2 +0.8 -0.2 ±0.5 Specified by the contact surface between tape & lead Specified by the contact surface between tape & lead ±0.5 20.0 +0.75 -0.50 ±0.5 ±0.2 ±0.3 Specified by the top of an aluminum can Specified by the top of an aluminum can CP wire is excluded *1 Cumulative deviation of “feed hole pitch” shall be less than 1 mm in 20 sections. *2 Lead forming angle A=90°min A Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 20 10-3. Lead Taping ( Body Diameter φ10 ,φ12.5 ) The Suffix of Taping Part Number : B 1) Applicable Range This specification is applied to products, which are Aluminum Electrolytic Capacitors (JIS04 type) that taped with single tape. 2) Taping Shape & Dimensions ∆P φD P2 ∆h P L F H W2 P1 W1 W0 W φD0 t φd P0 [mm] Item Body diameter Body length Lead wire diameter Body pitch Feed hole pitch *1 Symbol Dimensions φD L φd P P0 10 12.5 12.5 ~ 25.0 0.60 12.7 15.0 12.7 15.0 ±0.05 ±1.0 ±0.2 Hole center to lead P1 3.85 5.00 ±0.5 Feed hole center to product center P2 6.35 7.50 ±1.00 Lead to lead distance F 5.0 Mount tape Adhesive tape Hole position Adhesive tape slipping Height of product from the center Feed hole diameter Inclination of body Inclination of body Total tape thickness W W0 W1 W2 18.0 6.0 ≦ 9.0 0 ~ 1.5 H 18.50 Tolerance Remarks ±0.5 +0.8 -0.20 ±0.5 Specified by the contact surface between tape & lead Specified by the contact surface between tape & lead ±0.5 +0.75 -0.50 ±0.2 φD0 4.0 △h 1.0 ≧ Specified by the top of an aluminum can △P 1.0 ≧ Specified by the top of an aluminum can t 0.6 ±0.3 CP wire is excluded *1 Cumulative deviation of “feed hole pitch” shall be less than 1 mm in 20 sections. Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 21 10-4. Lead Taping ( Body Diameter φ16 ) The Suffix of Taping Part Number : B 1) Applicable Range This specification is applied to products, which are Aluminum Electrolytic Capacitors (JIS04 type) that taped with single tape. 2) Taping Shape & Dimensions ∆P ∆h P P2 φD L W2 P1 F H W0 W1 W φD0 φd t P0 [mm] Item Body diameter Body length Lead wire diameter Body pitch Feed hole pitch *1 Symbol Dimensions Tolerance φD L φd P P0 16 25.0 0.80 30.0 15.0 ±0.5 ±0.05 ±1.0 ±0.2 Hole center to lead P1 3.75 ±0.5 Feed hole center to product center P2 7.5 ±1.00 Lead to lead distance F 7.5 ±0.5 Mount tape Adhesive tape Hole position Adhesive tape slipping Height of product from the center Feed hole diameter Inclination of body Inclination of body Total tape thickness W W0 W1 W2 18.0 6.0 ≦ 9.0 0 ~ 1.5 ±0.5 H 18.50 φD0 △h △P t 4.0 2.0 ≧ 1.3 ≧ 0.6 Remarks Specified by the contact surface between tape & lead Specified by the contact surface between tape & lead ±0.5 +0.75 -0.50 ±0.2 ±0.3 Specified by the top of an aluminum can Specified by the top of an aluminum can CP wire is excluded *1 Cumulative deviation of “feed hole pitch” shall be less than 1 mm in 20 sections. Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 22 11. Taping Method 11-1 The capacitors shall be placed vertically on the base tape, and their lead wires are fixed with the adhesive tape. In addition, the direction of polarity is standardized as the base tape is situated underneath of an adhesive tape, and lead wires with the same polarity are placed on the right hand side (the direction of polarity for bipolar products is not specified). (Examples) *Polarity direction φ5 ~ φ12.5 : Negative polarity on the right. φ16 : Positive polarity on the right. 11-2 After taping, there shall be no more than three blank spaces without lead wires on the base tape. The number of blank spaces within a packing unit (an inner carton) is not restricted, however, the specified packing quantity must be satisfied. 11-3 The connection method is as follows. The portion shall meet the general taping specification. The position of connection shall not be restricted. Adhesive tape Connecting point Base Connect with the adhesive tape Note ) When connecting two base tapes, they shall not be piled on top of each other. Base tapes shall not be connected with each other by using staples. Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 23 11-4 In case of removing the products after taping, lead wires shall be cut or the capacitor shall be pulled out. The length of remaining lead wire shall be less than 2.0 mm from the upper edge of the base tape. Lead wire Base 2mm max. Adhesive tape 11-5 Tensile strength of lead wire after taping (specified for the positive lead wire only) : Fix the tape as below and pull the positive lead wire to the vertical direction by using the push pull scale. The tensile strength shall be greater than 2. 94 N. Push pull scale Lead wire Fixed After continuously storing in an atmosphere of 40℃±2℃ and 90% ~ 98% for 250 hours, the taped products shall meet the specification above, and there shall be no inclination of the capacitors or covering of holes with the adhesive. 11-6 The leader is the spot where more than 4pcs capacitors are lacked at the both ends of taping. (≧φ10) Example-1 Example-2 Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 A type AM series X type 24 12. Packing Method 12-1 Taped products shall be packed in an inner carton ( the smallest packing unit ) in the zigzag pattern. In an inner carton, the lead wires with positive polarity are not to be placed on the top of lead wires with negative polarity and vice versa (however, the last sentence does not apply to bipolar products). (Examples) No unit at The corner. Inner packing case φ10~φ16 φ4~φ8 12-2 Polarity identifications on an inner carton shall match the polarity of products situated inside the inner carton. 12-3 Inner cartons shall be handled as follows. * No more than 10 inner cartons shall be piled on top of each other. * In case of situating cartons in upright position, the indication of polarity shall be faced upward. * The products shall be handled with care. ○ < Right > ○ < Wrong> × × 12-4 The inner cartons shall be packed in a cardboard box for transportation. Products with various part numbers can be packed in an outer carton upon request. However, each inner carton (the smallest packing unit) shall only contain products with the same part number. 12-5 The shape & dimensions of inner cartons shall be as follows. Can size (b) (a) φD φ5 ~φ8 φ10 (c) (a) (b) [mm] (c) L ~ 11.5 340 55 320 340 55 320 ~ 16 20 340 62 320 φ12.5 20 340 65 320 25 340 66 330 φ16 25 340 66 330 Note : The dimensions listed above are subject to change without notice, depending on the auto-insert machine. Panasonic Electronic Devices Co.,Ltd. Engineering Draft Radial lead type CE-AAMX-CEM-1 Label information on the packing box. Package Label Example Long lead , Lead formed Outer Box The label has following information in English a ) Rated Voltage, Capacitance b ) Manufacturer’s Trademark c ) Part Number d ) Packing Quantity e ) Serial No. f ) Manufacturer’s Name g ) Country of Origin Long lead , Lead formed (Unit:pcs) Long lead Can size Packaging Quantity 25 Package Amount and Shape Lead formed Packaging Packaging Quantity per box Quantity Packaging Quantity per box φ5x11 200 10000 200 10000 φ6.3x11.2 200 5000 200 5000 φ8x11.5 200 4000 200 4000 φ10x12.5 ~φ10x20 φ12.5x20 ~φ12.5x25 φ16x25 ~φ16x31.5 φ18x31.5 ~φ18x40 200 2000 200 2000 200 2000 200 1000 100 1000 100 500 50 500 50 200 Contents of label description (1) Customer Part No. (2) Quantity (3) Rated Capacitance (4) Voltage (5) Can Size (6) Product Part No. <JAPAN PRODUCTS> Customer Part No. G (1) (3N)1 (1) (2) (3N)2 Y5201R41A001 108010 FIXED ALUMINIUM ELECTROLYTIC CAPACITOR (6) (2) Package Material Inner Outer Long lead Lead formed Vinyl bag Card board Serial (3) uF (4) V (5) φ × L No. Y5201R41A001 Panasonic Electronic Devices Co.,Ltd. M MADE IN JAPAN EIAJ C-3 001 <MALAYSIA PRODUCTS> (1) (3N)1 (1) (3N)2 G Production month (2) D0002R03D428 (3) uF 108010 FIXED ALUMINIUM ELECTROLYTIC CAPACITOR (6) M (4) V (5) φ X L Serial No. D0002R03D428 Panasonic Electronic Devices (M) Sdn.Bhd. EIAJ-C3 PEDMA(SA) Made in Malaysia Panasonic Electronic Devices Co.,Ltd. (2) PCS. Engineering Draft Radial lead type CE-AAMX-CEM-1 26 Package Amount and Shape Label information on the packing box. The label has following information in English a ) Rated Voltage, Capacitance b ) Manufacturer’s Trademark c ) Part Number d ) Packing Quantity e ) Serial No. f ) Manufacturer’s Name g ) Country of Origin Taping (Unit:pcs) Box Packaging Quantity per box 10000 10000 5000 2000 2000 1000 Can size Packaging Quantity φ5 2000 φ6.3 2000 φ8 1000 φ10 500 φ12.5 500 φ16 250 Package Label Example Taping Outer Box Contents of label description (1) Customer Part No. (2) Quantity (3) Rated Capacitance (4) Voltage (5) Can Size (6) Product Part No. or <JAPAN PRODUCTS> Customer Part No. Customer Part No. G (1) (3N)1 (1) (3N)2 Y5201R41A001 108010 FIXED ALUMINIUM ELECTROLYTIC CAPACITOR Serial Production month (1) (2) (6) (2) <MALAYSIA PRODUCTS> (3) uF (4) V (5) φ × L No. Y5201R41A001 (3N)1 (1) (3N)2 D0002R03D428 108010 FIXED ALUMINIUM ELECTROLYTIC CAPACITOR (6) M (3) uF (5) φ MADE IN JAPAN EIAJ Panasonic Electronic Devices (M) Sdn.Bhd. EIAJ-C3 PEDMA(SA) Made in Malaysia C-3 001 Package Material Inner Outer X (4) V L Serial No. D0002R03D428 Panasonic Electronic Devices Co.,Ltd. M G (2) Taping Card board Card board Panasonic Electronic Devices Co.,Ltd. (2) PCS Engineering Draft Radial lead type CE-AAMX-CEM-1 27 Package Amount and Shape Taping Inner Box Contents of label description (1) Customer Part No. (2) Quantity (3) Rated Capacitance (4) Voltage (5) Can Size (6) Product Part No. <JAPAN PRODUCTS> Customer Part <MALAYSIA PRODUCTS> No. Customer Part No. (1) (3N)1 (3N)2 G (1) (2) Y5201R41A001 (3) uF (4) V (5) φ × L Serial No. Y5201R41A001 108010 (2) (1) (3N)2 D0002R03D428 108010 (6) EIAJ C-3 MADE IN JAPAN 001 G (2) FIXED ALUMINIUM ELECTROLYTIC CAPACITOR (6) Panasonic Electronic Devices Co.,Ltd. (3N)1 PCS. FIXED ALUMINIUM ELECTROLYTIC CAPACITORS M Production month (1) M (3) uF (5) φ X Serial No. D0002R03D428 Panasonic Electronic Devices (M) Sdn.Bhd EIAJ-C3 PEDMA(SA) Made in Malaysia Storage 1. With respect to the handling method, follow Item 12-3 in this specification. 2. Products shall be out of direct sun light. In addition, the temperature and humidity shall be normal. Minimum order quantity The order shall be placed with a multiple of the inner carton quantity. Examples : φ5 ~ φ6. 3 : minimum 2000 pcs φ8 : minimum 1000 pcs φ10 ~ φ12. 5 : minimum 500 pcs φ16 : minimum 250 pcs Panasonic Electronic Devices Co.,Ltd. (4) V L (2) PCS. Engineering Draft CE-AAMX-CEM-1 Application Guidelines 28 * This specification guarantees the quality and performance of the product as individual components. Before use, check and evaluate their compatibility with installed in your products. * Do not use the products beyond the specifications described in this document. * Install the following systems for a failsafe design to ensure safety if these products are to be used in equipment where a defect in these products may cause the loss of human life or other signification damage, such as damage to vehicles (automobile, train, vessel), traffic lights, medical equipment, aerospace equipment, electric heating appliances, combustion/ gas equipment, rotating equipment, and disaster/crime prevention equipment. ・The system is equipped with a protection circuit and protection device. ・The system is equipped with a redundant circuit or other system to prevent an unsafe status in the event of a single fault. * Before using the products, carefully check the effects on their quality and performance, and determined whether or not they can be used. These products are designed and manufactured for general-purpose and standard use in general electronic equipment. These products are not intended for use in the following special conditions. 1. In liquid, such as Water, Oil, Chemicals, or Organic solvent 2. In direct sunlight, outdoors, or in dust 3. In vapor, such as dew condensation water of resistive element, or water leakage, salty air, or air with a high concentration corrosive gas, such as Cl2, H2S, NH3, SO2, or NO2 4. In an environment where strong static electricity or electromagnetic waves exist 5. Mounting or placing heat-generating components or inflammables, such as vinyl-coated wires, near these products 6. Sealing or coating of these products or a printed circuit board on which these products are mounted, with resin and other material 7. Using resolvent, water or water-soluble cleaner for flux cleaning agent after soldering. (In particular, when using water or a water-soluble cleaning agent, be careful not to leave water residues) * Please arrange circuit design for preventing impulse or transitional voltage. Do not apply voltage, which exceeds the full rated voltage when the capacitors receive impulse voltage, instantaneous high voltage, high pulse voltage etc. * Electrolyte is used in the products. Therefore, misuse can result in rapid deterioration of characteristics and functions of each product. Electrolyte leakage damages printed circuit and affects performance, characteristics, and functions of customer system. 1. Circuit Design 1.1 Operating Temperature and Frequency Electrical parameters for electrolytic capacitors are normally specified at 20 ℃ temperature and 120 Hz frequency. These parameters vary with changes in temperature and frequency. Circuit designers should take these changes into consideration. (1) Effects of operating temperature on electrical parameters a) At higher temperatures, leakage current and capacitance increase while equivalent series resistance (ESR) decreases. b) At lower temperatures, leakage current and capacitance decrease while equivalent series resistance (ESR) increases. (2) Effects of frequency on electrical parameters a) At higher frequencies, capacitance and impedance decrease while tanδ increases. b) At lower frequencies, heat generated by ripple current will rise due to an increase in equivalent series resistance (ESR). 1.2 Operating Temperature and Life Expectancy (1) Expected life is affected by operating temperature. Generally, each 10 ℃ reduction in temperature will double the expected life. Use capacitors at the lowest possible temperature below the upper category temperature. (2) If operating temperatures exceed the upper category limit, rapid deterioration of electrical parameter will occur and irreversible damage will result. Check for the maximum capacitor operating temperatures including ambient temperature, internal capacitor temperature rise due to ripple current, and the effects of radiated heat from power transistors, IC's or resistors. Avoid placing components, which could conduct heat to the capacitor from the back side of the circuit board. (3) The formula for calculating expected life at lower operating temperatures is as follows ; T1-T2 10 L2=L1x2 L1 L2 T1 T2 : : : : Guaranteed life (h) at temperature, T1 ℃ Expected life (h) at temperature, T2 ℃ Upper category temperature (℃) Actual operating temperature, ambient temperature + temperature rise due to ripple current heating(℃) (4) Please use according to the lifetime as noted in this specification. Using products beyond end of the lifetime may change characteristics rapidly, short-circuit, operate pressure relief vent, or leak electrolyte. Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 Application Guidelines 29 1.3 Common Application Conditions to Avoid The following misapplication load conditions will cause rapid deterioration of a capacitor’s electrical parameters. In addition, rapid heating and gas generation within the capacitor can occur, causing the pressure relief vent to operate and resultant leakage of electrolyte. Under extreme conditions, explosion and fire ignition could result. The leaked electrolyte is combustible and electrically conductive. (1) Reverse Voltage DC capacitors have polarity. Verify correct polarity before insertion. For circuits with changing or uncertain polarity, use DC bipolar capacitors. DC bipolar capacitors are not suitable for use in AC circuits. (2) Charge / Discharge Applications Standard capacitors are not suitable for use in repeating charge/discharge applications. For charge/ discharge applications, consult us with your actual application condition. (3) Over voltage Do not apply voltages exceeding the maximum specified rated voltage. Voltages up to the surge voltage rating are acceptable for short periods of time. Ensure that the sum of the DC voltage and the superimposed AC ripple voltage does not exceed the rated voltage. (4) Ripple Current Do not apply ripple currents exceeding the maximum specified value. For high ripple current applications, use a capacitor designed for high ripple currents. In addition, consult us if the applied ripple current is to be higher than the maximum specified value. Ensure that rated ripple currents that superimposed on low DC bias voltages do not cause reverse voltage conditions. 1.4 Using Two or More Capacitors in Series or Parallel (1) Capacitors Connected in Parallel The circuit resistance can closely approximate the series resistance of the capacitor, causing an imbalance of ripple current loads within the capacitors. Careful wiring methods can minimize the possible application of an excessive ripple current to a capacitor. (2) Capacitors Connected in Series Differences in normal DC leakage current among capacitors can cause voltage imbalances. The use of voltage divider shunt resistors with consideration to leakage currents can prevent capacitor voltage imbalances. 1.5 Capacitor Mounting Considerations (1) Double-Sided Circuit Boards Avoid wiring pattern runs, which pass between the mounted capacitor and the circuit board. When dipping into a solder bath, an excess solder may deposit under the capacitor by capillary action, causing short circuit between anode and cathode terminals. (2) Circuit Board Hole Positioning The vinyl sleeve of the capacitor can be damaged if solder passes through a lead hole into the subsequently processed parts. Special care when locating hole positions in proximity to capacitors is recommended. (3) Circuit Board Hole Spacing The spacing of circuit board holes should match the lead wire spacing of capacitors within the specified tolerances. Incorrect spacing can cause an excessive lead wire stress during the insertion process. This may result in premature capacitor failure due to the short or open circuit, increased leakage current, or electrolyte leakage. (4) Clearance for Case Mounted Pressure Relief Capacitors with case mounted pressure relief require sufficient clearance to allow proper pressure relief operation. The minimum clearances are dependent of capacitor diameters as follows. Dia. 6. 3 mm ~Dia. 16 mm : 2 mm minimum, Dia. 18 mm ~Dia. 35 mm : 3 mm minimum, Dia 40 mm or greater : 5 mm minimum. (5) Clearance for Seal Mounted Pressure Relief Provide a hole on a circuit board to relieve gas when a pressure relief of a capacitor is situated underneath of the circuit board. (6) Wiring Near the Pressure Relief Avoid locating high voltage, high current wiring, or circuit board paths above the pressure relief . Flammable, high temperature gas that exceeds 100 ℃ may be released and could dissolve the wire insulation and ignite. (7) Circuit Board Patterns Under the Capacitor Avoid circuit board runs underneath the capacitor, as an electrical short can occur due to an electrolyte leakage. (8) Screw Terminal Capacitor Mounting Do not orient the capacitor with the screw terminal side of the capacitor facing downward. Tighten the terminal and mounting bracket screws within the torque range specified in the specification. 1.6 Electrical Isolation of the Capacitor Completely isolate the capacitor as follows. (1) Between the cathode and the case (except for axially leaded B types) and between the anode terminal and other circuit paths. (2) Between the extra mounting terminals (on T types) and the anode terminal, cathode terminal, and other circuit paths. 1.7 Capacitor Sleeve The vinyl sleeve or laminate coating is intended for marking and identification purposes and is not meant to electrically insulate the capacitor. The sleeve may split or crack if immersed into solvents such as toluene or xylene and then subsequently exposed to high temperatures. Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 Application Guidelines 30 2. Capacitor Handling Techniques 2.1 Considerations Before Using (1) Capacitors have a finite life. Do not reuse or recycle capacitors from used equipment. (2) Transient recovery voltage may be generated in the capacitor due to dielectric absorption. If required, this voltage can be discharged with a resistor with a value of about 1kΩ. (3) Capacitors stored for a long period of time may exhibit an increase in leakage current. This can be corrected by gradually applying rated voltage in series with a resistor of approximately 1kΩ. (4) If capacitors are dropped, they can be damaged mechanically or electrically. Avoid using dropped capacitors. (5) Dented or crushed capacitors should not be used. The seal integrity can be damaged and loss of electrolyte/shortened life can result. 2.2 Capacitor Insertion (1) Verify the correct capacitance and rated voltage of the capacitor. (2) Verify the correct polarity of the capacitor before insertion. (3) Verify the correct hole spacing before insertion (land pattern size on chip type) to avoid stress on the terminals. (4) Ensure that the lead clinching operation done by auto insertion equipments does not stress the capacitor leads where they enter the seal of the capacitor. For chip type capacitors, excessive mounting pressure can cause high leakage current, short circuit, or disconnection. 2.3 Manual Soldering (1) Apply soldering conditions (temperature and time) based on the specification, or do not exceed temperature of 350 ℃ for 3 seconds or less. (2) If lead wires must be modified to meet terminal board hole spacing, avoid stress on the lead wire where it enters the capacitor seal. (3) If a soldered capacitor must be removed and reinserted, avoid excessive stress on the capacitor leads. (4) Avoid physical contacts between the tip of the soldering iron and capacitors to prevent melting of the vinyl sleeve. 2.4 Flow Soldering (1) Do not immerse the capacitor body into the solder bath as excessive internal pressure could result. (2) Apply proper soldering conditions (temperature, time, etc.). Do not exceed the specified limits. (3) Do not allow other parts or components to touch the capacitor during soldering. 2.5 Other Soldering Considerations Rapid temperature rise during the preheat operation and resin bonding operation can cause cracking of the capacitor’s vinyl sleeve. For heat curing, do not exceed 150 ℃ for the maximum time of 2 minutes. 2.6 Capacitor Handling after Soldering (1) Avoid moving the capacitor after soldering to prevent excessive stress on the lead wires where they enter the seal. (2) Do not use the capacitor as a handle when moving the circuit board assembly. (3) Avoid striking the capacitor after assembly to prevent failure due to excessive shock. 2.7 Circuit Board Cleaning (1) Circuit boards can be immersed or ultrasonically cleaned using suitable cleaning solvents for up to 5 minutes and up to 60 ℃ maximum temperatures. The boards should be thoroughly rinsed and dried. The use of ozone depleting cleaning agents is not recommended for the purpose of protecting our environment. (2) Avoid using the following solvent groups unless specifically allowed in the specification ; ・ Halogenated cleaning solvents : except for solvent resistant capacitor types, halogenated solvents can permeate the seal and cause internal capacitor corrosion and failure. For solvent resistant capacitors, carefully follow the temperature and time requirements based on the specification. 1-1-1 trichloroethane should never be used on any aluminum electrolytic capacitor. ・ Alkaline solvents : could react and dissolve the aluminum case. ・ Petroleum based solvents : deterioration of the rubber seal could result. ・ Xylene : deterioration of the rubber seal could result. ・ Acetone : removal of the ink markings on the vinyl sleeve could result. (3) A thorough drying after cleaning is required to remove residual cleaning solvents that may be trapped between the capacitor and the circuit board. Avoid drying temperatures, which exceed the Upper category temperature of the capacitor. (4) Monitor the contamination levels of the cleaning solvents during use in terms of electrical conductivity, pH, specific gravity, or water content. Chlorine levels can rise with contamination and adversely affect the performance of the capacitor. (5) Depending on the cleaning method, the marking on a capacitor may be erased or blurred. Please consult us if you are not certain about acceptable cleaning solvents or cleaning methods. 2.8 Mounting Adhesives and Coating Agents When using mounting adhesives or coating agents to control humidity, avoid using materials containing halogenated solvents. Also, avoid the use of chloroprene based polymers. Harden on dry adhesive or coating agents well lest the solvent should be left. After applying adhesives or coatings, dry thoroughly to prevent residual solvents from being trapped between the capacitor and the circuit board. 2.9 Fumigation In exporting electronic appliances with aluminum electrolytic capacitors, in some cases fumigation treatment using such halogen compound as methyl bromide is conducted for wooden boxes. If such boxes are not dried well, the halogen left in the box is dispersed while transported and enters in the capacitors inside. This possibly causes electrical corrosion of the capacitors. Therefore, after performing fumigation and drying make sure that no halogen is left. Don’t perform fumigation treatment to the whole electronic appliances packed in a box. Panasonic Electronic Devices Co.,Ltd. Engineering Draft CE-AAMX-CEM-1 Application Guidelines 31 3. Precautions for using capacitors 3.1 Environmental Conditions Capacitors should not be stored or used in the following environments. (1) Exposure to temperatures above the upper category or below the lower category temperature of the capacitor. (2) Direct contact with water, salt water, or oil. (3) High humidity conditions where water could condense on the capacitor. (4) Exposure to toxic gases such as hydrogen sulfide, sulfuric acid, nitric acid, chlorine, Chlorine compound, Bromine, Bromine compound or ammonia. (5) Exposure to ozone, radiation, or ultraviolet rays. (6) Vibration and shock conditions exceeding specified requirements. 3.2 Electrical Precautions (1) Avoid touching the terminals of a capacitor as a possible electric shock could result. The exposed aluminum case is not insulated and could also cause electric shock if touched. (2) Avoid short circuiting the area between the capacitor terminals with conductive materials including liquids such as acids or alkaline solutions. 4. Emergency Procedures (1) If the pressure relief of the capacitor operates, immediately turn off the equipment and disconnect from the power source. This will minimize an additional damage caused by the vaporizing electrolyte. (2) Avoid contact with the escaping electrolyte gas, which can exceed 100 ℃ temperatures. If electrolyte or gas enters the eye, immediately flush the eye with large amounts of water. If electrolyte or gas is ingested by mouth, gargle with water. If electrolyte contacts the skin, wash with soap and water. 5. Long Term Storage Leakage current of a capacitor increases with long storage times. The aluminum oxide film deteriorates as a function of temperature and time. If used without reconditioning, an abnormally high current will be required to restore the oxide film. This surge current could cause the circuit or the capacitor to fail. After one year, a capacitor should be reconditioned by applying the rated voltage in series with a 1000 Ω current limiting resistor for a time period of 30 minutes. 5.1 Environmental Conditions (1) Exposure to temperatures above the upper category or below the lower category temperature of the capacitor. (2) Direct contact with water, salt water, or oil. (3) High humidity conditions where water could condense on the capacitor. (4) Exposure to toxic gases such as hydrogen sulfide, sulfuric acid, nitric acid, chlorine, Chlorine compound, Bromine, Bromine compound or ammonia. (5) Exposure to ozone, radiation, or ultraviolet rays. (6) Vibration and shock conditions exceeding specified requirements. 6. Capacitor Disposal When disposing capacitors, use one of the following methods. (1) Incinerate after crushing the capacitor or puncturing the can wall (to prevent explosion due to internal pressure rise). (2) Dispose as solid waste. NOTE : Local laws may have specific disposal requirements which must be followed. Panasonic Electronic Devices Co.,Ltd.