Aluminum Capacitors Solid Axial

SAL-A End of Life. Last Available Purchase Date is -December- Radial higher CV/volume Fig. QUICK REFERENCE DATA DESCRIPTION VALUE Maximum case size (Ø D x L in mm) 6.7 x. to.9 x. Rated capacitance range (E6 series), C R. μf to μf Tolerance on C R ± %; ± % on request Rated voltage range, U R 6. V to V Category temperature range - C to + C Useable temperature range - 8 C to + C Endurance test at C and C h and 8 h Useful life at C h Useful life at C, applied h Shelf life at V, C h Based on sectional specification IEC 68-/EN Climatic category IEC 668 //6 Aluminum Capacitors Solid Axial 8 SAL-RPM SAL-A FEATURES Polarized aluminum electrolytic capacitors, solid electrolyte MnO Axial leads, aluminum case, ceramic seal, blue Available insulation sleeve Available SAL-A: standard version SAL-AG: epoxy filled shock-proof version up to g Extremely long useful life: h at C Extended high temperature range up to C Excellent low temperature impedance and behavior Charge and discharge proof, application with resistance allowed Reverse DC voltage up to. x U R allowed AC voltage up to.8 x U R allowed Advanced technology to achieve high reliability and high stability Material categorization: for definitions of compliance please see /doc?999 Note * This datasheet provides information about parts that are RoHS-compliant and / or parts that are non-rohs-compliant. For example, parts with lead (Pb) terminations are not RoHS-compliant. Please see the information / tables in this datasheet for details. APPLICATIONS EDP, telecommunication, industrial high temperature, automotive, military and space Smoothing, filtering, buffering, timing For power supplies, DC/DC converters MARKING The capacitors are marked (where possible) with the following information: Rated capacitance (in μf) Tolerance code on rated capacitance, code letter in accordance with IEC 66 (M = ± %, K = ± %) Rated voltage (in V) at corresponding maximum temperature Date code in accordance with IEC 66 Name of manufacturer Code for factory of origin Band to indicate the negative terminal + sign to identify the positive terminal Series number SELECTION CHART FOR C R, U R, AND RELEVANT MAXIMUM CASE SIES (Ø D x L in mm) C R (μf) U R (V) AT T amb = 8 C 6. 6 U C (V) AT T amb = C 6. 6. - - - - 6.7 x. -. - - - - 6.7 x. -. - - - - 6.7 x. 6.7 x.. - - - - 6.7 x. 6.7 x..7 - - - - 6.7 x. 6.7 x. 6.8 - - - - 6.7 x. 6.7 x. - - 6.7 x. 6.7 x. 7.6 x. 7.6 x. - - 6.7 x. 6.7 x. 7.6 x. 7.6 x. Revision: -Aug- Document Number: 8 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?9

End of Life. Last Available Purchase Date is -December- SAL-A SELECTION CHART FOR C R, U R, AND RELEVANT MAXIMUM CASE SIES (Ø D x L in mm) C R (μf) U R (V) AT T amb = 8 C 6. 6 U C (V) AT T amb = C 6. 6 - - 6.7 x. 7.6 x. 7.6 x. 9. x. - 6.7 x. 7.6 x. 7.6 x. 9. x. 9. x. 7 6.7 x. 6.7 x. 7.6 x. 7.6 x. 9. x.. x. 68 6.7 x. 7.6 x. 7.6 x. 9. x.. x.. x. - 7.6 x. 9. x. 9. x..9 x..9 x. 7.6 x. 9. x. 9. x.. x..9 x. - - 9. x.. x..9 x. - - 9. x.. x.. x. - - - 7 -. x..9 x. - - - 68. x..9 x. - - - -.9 x..9 x. - - - - DIMENSIONS in millimeters AND AVAILABLE S Ø D Ø d BA: taped in box (ammopack) BR: taped on reel Table Notes () For epoxy-filled versions add mm to stated L max.. () Add % for SAL-AG epoxy-filled versions. Detailed tape dimensions see /doc?86. Fig. - Forms: BA and BR DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES CASE MASS F max. Ø d PACKAGING QUANTITIES MAXIMUM SIE Ø D x L () CODE (g) BA BR 6.7 x...6. 8 7.6 x. A..6. 8 9. x...6.6. x...8..9 x. 6..8 7. L max. F 7 CARDBOARD BOX DIMENSIONS, L x W x H (mm) SOLID TYPES BA 6.7 x. x 9 x 7 7.6 x. x 9 x 7 9. x. x 9 x 8. x. 6 x 9 x 8.9 x. 6 x 9 x SOLID TYPES BR all 7 x 7 x Revision: -Aug- Document Number: 8 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?9

End of Life. Last Available Purchase Date is -December- SAL-A ELECTRICAL DATA SYMBOL DESCRIPTION C R Rated capacitance at Hz Max. RMS ripple current, no necessary DC voltage applied I L Max. leakage current after min at U R tan Max. dissipation factor at Hz Max./typ. equivalent series resistance at Hz Max. impedance at khz Note Unless otherwise specified, all electrical values in Table apply at T amb = to C, P = 86 to 6 kpa, RH = to 7 %. Table ELECTRICAL DATA AND ORDERING INATION for series U C (V) U R (V) 6. 6. 6 6 C R Hz (μf) MAX. CASE SIE Ø D x L (mm) Hz C (ma) khz 8 C (ma) khz C (ma) I L min (μa) tan Hz ORDERING EXAMPLE Electrolytic capacitors series μf/6 V; ± % Maximum case size: Ø 6.7 x. mm; form BR for lead (Pb)-free: Ordering code: MAL 9 E Former NC: 8 9 for non lead (Pb)-free: Ordering code: MAL 9 Former NC: 9 MAX. Hz ( ) TYP. Hz ( ) khz ( ) ORDERING CODE MAL...E LEAD (Pb)-FREE MAL... NON LEAD (Pb)-FREE SAL-A BA ± % SAL-A BR ± % SAL-AG () BA ± % LEVEL S SAL-AG () BA ± % 7 6.7 x. 8 6.8 7.6.. 79 79 879 679 68 6.7 x. 8 76.8..6. 689 689 8689 6689 7.6 x. 6 87 7 7.8... 8 6 9. x. 7.8... 8 6 68. x. 68.8..8. 68 68 868 668.9 x. 9 8 6.8.6.9. 8 6 6.7 x. 6 6 7.8.8. 9 9 89 69 7 6.7 x. 8 6.8 7.6.. 79 79 879 679 68 7.6 x. 9 8.8... 689 689 8689 6689 7.6 x. 6 7.8.6.8. 8 6 9. x. 99 7.8..9. 8 6 9. x. 8 7.8.7.6. 8 6. x. 9 6 6.8... 8 6 7. x. 7 9 8.8.8.. 7 7 87 67 68.9 x. 76 8 7.8... 68 68 868 668.9 x. 8 9.8.6.8. 8 6 6.7 x. 6. 8 8.. 9 9 89 69 6.7 x. 7 8. 9.. 9 9 89 69 6.7 x. 6 9... 9 9 89 69 7.6 x. 89 7 68. 8... 9 9 89 69 7 7.6 x. 6 8 7..9.6. 79 79 879 679 68 7.6 x. 8 67 97.... 689 689 8689 6689 9. x. 6 9 6..8..8 8 6 9. x. 6.6..7.8 8 6. x. 6.6...6 8 6. x. 7.6...6 8 6 7.9 x. 68 8 7.6.7.. 7 7 87 67 6.7 x.. 8. 69 69 869 669 6.7 x. 6 8. 9.. 69 69 869 669 7.6 x. 88 7. 7. 69 69 869 669 7.6 x. 7 68 8. 8.. 69 69 869 669 7 7.6 x. 6 6 8..9.. 679 679 8679 6679 68 9. x. 76 7...8. 6689 6689 86689 66689 9. x. 86.6... 6 6 86 66. x. 7.6...8 6 6 86 66.9 x. 6 6 7.6..8.6 6 6 86 66 Revision: -Aug- Document Number: 8 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?9

End of Life. Last Available Purchase Date is -December- SAL-A ELECTRICAL DATA AND ORDERING INATION for series U C (V) U R (V) C R Hz (μf) MAX. CASE SIE Ø D x L (mm) Hz C (ma) khz 8 C (ma) khz C (ma) I L min (μa) tan Hz MAX. Hz ( ) TYP. Hz ( ) khz ( ) ORDERING CODE MAL...E LEAD (Pb)-FREE MAL... NON LEAD (Pb)-FREE SAL-A BA ± % SAL-A BR ± % SAL-AG () BA ± % LEVEL S SAL-AG () BA ± %. 6.7 x. 8. 6. 8 8 88 68. 6.7 x. 7 68 98. 6.6. 8 8 88 68. 6.7 x. 8. 9 7. 8 8 88 68. 6.7 x. 7. 7 8 7. 8 8 88 68.7 6.7 x. 7. 7. 78 78 878 678 6.8 6.7 x. 7. 6 7. 688 688 8688 6688 7.6 x. 7 8.. 9 9 89 69 7.6 x.. 6 8. 9 9 89 69 7.6 x. 78 9. 7. 9 9 89 69 9. x. 9 6. 7.. 9 9 89 69 7 9. x. 8 7 9...9. 79 79 879 679 68. x. 7 7 8.6.7..8 689 689 8689 6689.9 x. 76.6..7.6 8 6.9 x. 9 99.6...6 8 6. 6.7 x. 8 9. 9 8 7. 78 78 878 678. 6.7 x. 6. 7 7. 78 78 878 678.7 6.7 x. 7 9. 7. 778 778 8778 6778 6.8 6.7 x. 8 7. 7. 7688 7688 87688 67688 7.6 x. 8.. 79 79 879 679 7.6 x. 6 6. 6 7. 79 79 879 679 9. x. 89 8 9.. 79 79 879 679 9. x. 9. 7..9. 79 79 879 679 7. x. 6 79 9...7. 779 779 8779 6779 68. x. 7 7 8 7.6.7..8 7689 7689 87689 67689.9 x. 76.6..6.6 7 7 87 67 Note () SAL-AG types are epoxy-filled. ADDITIONAL ELECTRICAL DATA PARAMETER CONDITIONS VALUE Voltage Surge voltage U s. x U R Reverse voltage U rev <. x U R Maximum peak AC voltage, reverse voltage applied V T amb 8 C at: f. Hz. x U R. Hz < f Hz. x U R Hz < f Hz.6 x U R Hz < f Hz.6 x U R Maximum peak AC voltage, f > Hz.8 x U R without reverse voltage applied 8 C < T amb C at: f. Hz. x U R. Hz < f Hz. x U R Hz < f Hz. x U R Hz < f Hz. x U R f > Hz. x U R Current I Maximum leakage current After min at U R and T amb = C L. C R x U R or μa, whichever is greater; see Table After s at U R and T amb = C: Typical leakage current U R = 6. V to 6 V. x value stated in Table U R = V to V. x value stated in Table Revision: -Aug- Document Number: 8 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?9

End of Life. Last Available Purchase Date is -December- SAL-A VOLTAGE U R (V) 6 6. - () UC = C () UC = 7 C () () 8 7 Fig. - Maximum permissible voltage up to 7 C RIPPLE CURRENT ( ) PARAMETER T amb C C 6 C 8 C C C multiplier...88.7.9.7 Notes () Applying the maximum RMS ripple current given in Table will cause a device temperature of 8 C. () The khz values in Table for other temperatures are to be calculated with the above multipliers. LEAKAGE CURRENT I I I I reverse voltage I = leakage current during continuous operation at U - R and T amb = C - Fig. - Typical multiplier of leakage current as a function of ambient temperature CAPACITANCE (C). C C..9.8 Fig. 6 - Typical multiplier of capacitance as a function of ambient temperature. σ C = capacitance at C and Hz - 8-8 6 standard deviation σ - I = leakage current at U R at a discrete constant temperature -.. Fig. - Typical multiplier of leakage current as a function of U/U R DISSIPATION FACTOR (tan ). tan δ tan δ..6..8. - 8 - Fig. 7 - Typical multiplier of dissipation factor as a function of ambient temperature U U R.8 Typical tan δ at Hz and T amb = C:.6 x value stated in Table σ standard deviation σ 8 6. Revision: -Aug- Document Number: 8 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?9

End of Life. Last Available Purchase Date is -December- SAL-A MAXIMUM POWER DISSIPATION MAXIMUM CASE SIE Ø D x L (mm) P max. = P (W) 6.7 x.. 7.6 x..6 9. x... x..6.9 x.. EQUIVALENT SERIES INDUCTANCE (ESL), f = MHz MAXIMUM CASE SIE Ø D x L (mm) IMPEDANCE () PITCH (mm) Typical impedance at khz and T amb = C:. x value stated in Table. MAX. ESL (nh) TYP. ESL (nh) 6.7 x.. to 7.6 x.. 6 to 9. x. 7.9 to 7. x..6 6 to.9 x..6 to 9.... - C. - C. + C. + 8 C + 7 C 6 7 7 standard deviation σ (%) Curve : Case Ø D x L = 6.7 mm x. mm and 7.6 mm x. mm; 6 V to V Curve : Case Ø D x L = 6.7 mm x. mm and 7.6 mm x. mm; 6. V to V Curve : Case Ø D x L = 9. mm x. mm,. mm x. mm and.9 mm x. mm = Initial impedance value at any frequency and T amb = C Fig. 8 - Typical multiplier of impedance as a function of frequency at different ambient temperatures Revision: -Aug- 6 Document Number: 8 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?9

IMPEDANCE () End of Life. Last Available Purchase Date is -December- SAL-A 6 Curve : µf, 6 V Curve : µf, 6 V Curve : µf, 6 V Curve : µf, V Curve : 7 µf, 6. and V Curve 6: 68 µf, 6. V 6 Curve :. µf, and V Curve :. µf, V Curve :.7 µf, and V Curve : 6.8 µf, and V Curve : µf, V Curve 6: µf, V - Case Ø D x L = 6.7 x. mm; U R = 6. to 6 V 6 7 T amb = C Fig. 9 - Typical impedance as a function of frequency Case Ø D x L = 6.7 x. mm; U R = to V 6 7 T amb = C Fig. - Typical impedance as a function of frequency Curve : µf, 6 V Curve : 7 µf, 6 V Curve : 68 µf, V Curve : µf, 6. and V Curve : µf, 6. V 6 Curve : µf, and V Curve : µf, and V Curve : µf, and V Curve : µf, V Curve : 7 µf, V Curve 6: 68 µf, 6 V Case Ø D x L = 6.7 x. mm - U R = 6. to 6 V 6 7 T amb = C Fig. - Typical impedance as a function of frequency Case Ø D x L = 6.7 x. mm; U - R = 6 to V 6 7 T amb = C Fig. - Typical impedance as a function of frequency Curve : V, V Curve : V, V Curve : V, 6. V 6 Curve : µf, V Curve : µf, and V Curve : 7 µf, V Curve : 68 µf, V Curve : µf, 6 and V Curve 6: µf, 6 V - - Case Ø D x L = 9. x. mm; U R = 6. to V 6 7 T amb = C Fig. - Typical impedance as a function of frequency Case Ø D x L = 9. x. mm; - U R = 6 to V 6 7 T amb = C Fig. - Typical impedance as a function of frequency Revision: -Aug- 7 Document Number: 8 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?9

IMPEDANCE () End of Life. Last Available Purchase Date is -December- SAL-A Curve : µf, 6 V Curve : µf, 6 V Curve : µf, V Curve : 7 µf, V Curve : 68 µf, 6. V Curve : 7 V, V Curve : 68 V, and V Curve : V, V - - Case Ø D x L =. x. mm; U R = 6. to 6 V 6 7 T amb = C Fig. - Typical impedance as a function of frequency Case Ø D x L =. x. mm; - U R = to V 6 7 T amb = C Fig. 6 - Typical impedance as a function of frequency Curve : 68 µf, V Curve : µf, 6. V Curve : µf, 6. V 6 Curve : µf, and V Curve : µf, V Curve : µf, V Curve : 7 µf, 6 V Curve : 68 µf, 6 V Curve 6: µf, V - - Case Ø D x L =.9 x. mm; U - R = 6. to V 6 7 T amb = C Fig. 7 - Typical impedance as a function of frequency - Case Ø D x L =.9 x. mm; U R = to V 6 7 T amb = C Fig. 8 - Typical impedance as a function of frequency EQUIVALENT SERIES RESISTANCE () Typical : see Figures to 8; the standard deviation is % of each value. Case Ø D x L = 6.7 x. mm at Hz Case Ø D x L = 7.6 x. mm at Hz - Curve : mf, V; 6.8 mf, and V Curve : mf, 6 V Curve : mf, 6 V Curve : mf, V Curve : 7 mf, 6. and V; 68 mf, 6. V - 8-8 6 Fig. 9 - Typical as a function of ambient temperature - Curve : µf, and V Curve : µf, V Curve : 7 µf, V Curve : 68 µf, V; µf, 6. V - 8-8 6 Fig. - Typical as a function of ambient temperature Revision: -Aug- 8 Document Number: 8 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?9

End of Life. Last Available Purchase Date is -December- EQUIVALENT SERIES RESISTANCE () SAL-A Curve : µf, and V Curve : µf, V; µf, 6. V Case Ø D x L =. x. mm at Hz Curve : 68 µf, and V Curve : µf, V Curve : µf, V Curve : 7 µf, V - Case Ø D x L = 9. x. mm at Hz - - 8-8 6-8 - 8 6 Fig. - Typical as a function of ambient temperature Fig. - Typical as a function of ambient temperature Case Ø D x L =.9 x. mm at Hz Curve : µf, and V Curve : µf, V Curve : µf, V Curve : 7 µf, 6 V Curve : 68 µf, V; µf, 6. V Curve : µf, V; 6.8 µf, and V Curve : µf, 6 V Curve : µf, 6 V Curve : µf, V Curve : 7 µf, 6. and V; 68 µf, 6. V - - Case Ø D x L = 6.7 x. mm - 8-8 6 6 T amb = C Fig. - Typical as a function of ambient temperature Fig. - Typical as a function of frequency Curve : µf, and V Curve : µf, V Curve : 7 µf, V Curve : 68 µf, V; µf, 6. V Curve : µf, V Curve : µf, and V Curve : µf, V; µf, 6. V - - Case Ø D x L = 6.7 x. mm 6 T amb = C - Case Ø D x L = 9. x. mm 6 T amb = C Fig. - Typical as a function of frequency Fig. 6 - Typical as a function of frequency Revision: -Aug- 9 Document Number: 8 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?9

End of Life. Last Available Purchase Date is -December- EQUIVALENT SERIES RESISTANCE () SAL-A Curve : 68 µf, and V Curve : µf, V Curve : µf, V Curve : 7 µf, V Curve : µf, and V Curve : µf, V Curve : µf, V Curve : 7 µf, 6 V Curve : 68 µf, V; µf, 6. V - - - 6 Fig. 7 - Typical as a function of ambient temperature Fig. 8 - Typical as a function of ambient temperature Case Ø D x L = 9. x. mm at Hz - 6 Case Ø D x L = 9. x. mm at Hz Table TEST PROCEDURES AND REQUIREMENTS TEST NAME OF TEST REFERENCE Endurance Useful life Shelf life (storage at high temperature) Charge and discharge Shock Severe rapid change of temperature Solvent resistance IEC 68-/ EN subclause. CECC subclause.8. IEC 68-/ EN subclause.7 IEC 68-- subclause 9. IEC 668--7 test Ea IEC 668--, test XA IEC 66 Passive flammability IEC 669-- PROCEDURE (quick reference) T amb = C; U R = 6. V to V with U R applied; U R = V and V with U C applied; h T amb = C; applied and U R = 6. V to V with U R applied; U R = V and V with U C applied; h T amb = C; no voltage applied; h 6 cycles without series resistance:. s to U R ;. s to ground Half-sine or saw tooth pulse shape; g; ms; successive shocks in each direction of mutually perpendicular axes; no voltage applied cycles of h duration, each with min at - C and + C Immersion: min ±. min with or without ultrasonic at C ± C Solvents: demineralized water and/or calgonite solution ( g/l) Capacitor mounted to a vertical printed-circuit board, one flame on capacitor body; T amb = C to C; test duration = s REQUIREMENTS C/C: ± % tan. x spec. limit. x spec. limit I L spec. limit C/C: ± % tan. x spec. limit. x spec. limit I L spec. limit no short or open circuit, no visible damage total failure percentage: < % C/C: ± % tan. x spec. limit I L x spec. limit C/C: ± % no short or open circuit, no visible damage no intermittent contacts no breakdown no open circuiting no mechanical damage C/C: ± % tan. x spec. limit. x spec. limit I L. x spec. limit C/C: ± % tan. x spec. limit. x spec. limit I L x spec.limit Visual appearance not affected After removing the test flame from the capacitor, the capacitor must not continue to burn for more than s; no burning particles must drop from the sample Revision: -Aug- Document Number: 8 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?9

End of Life. Last Available Purchase Date is -December- ADDITIONAL TESTS AND REQUIREMENTS FOR EPOXY-FILLED VERSIONS SAL-AG 8 8... Form BA ± %, level S, lead (Pb)-free 8... Form BA ± %, level S, non lead (Pb)-free SAL-A Table TEST PROCEDURES AND REQUIREMENTS TEST PROCEDURE REQUIREMENTS Severe vibration tests in accordance with IEC 668--6 and MIL STD-, method, letter E, with the following details and additions Method of mounting: Clamping both body and leads Severity Frequency range temperature Hz to Hz; C to C Severity Frequency range temperature Hz to Hz; C Severity and vibration amplitude: g or. mm, whichever is less Direction and duration of motion: Severity octave/min; directions (mutually perpendicular); sweeps per direction (total 6 sweeps or 8 h) Severity octave/min; directions (longitudinal and transversal); sweeps per direction (total 6 sweeps or h) Functioning: Severity Rated voltage applied Severity No voltage applied Typical capability > 8 g at Hz to Hz (also at C) C/C: ± % tan. x stated limit. x stated limit DC leakage current: stated limit no intermittent contacts no indication of breakdown no open circuiting no evidence of mechanical damage Severe shock tests in accordance with IEC 668--7 and MIL STD-, method, letter F, with the following details and additions Method of mounting Clamping both body and leads Pulse shape: Half-sine or sawtooth Severity g;. ms ( MIL STD-, method, letter F) Severity g;. ms Severity g;. ms Direction and number of shocks: Severity and successive shocks in each direction of mutually perpendicular axes (total 8 shocks) Severity shock in any direction Functioning Rated voltage applied C/C: ± % tan. x stated limit. x stated limit DC leakage current: stated limit no intermittent contacts no indication of breakdown no open circuiting no evidence of mechanical damage Revision: -Aug- Document Number: 8 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?9

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