Axial-lead and Soldering Star Capacitors B43693 High Voltage – 125 °C B43793 B43693, B43793 SIKOREL® Applications ■ For high-voltage applications in automotive Features ■ ■ ■ ■ High ripple current capability Long useful life High vibration resistance Shelf life up to 15 years KAL0573-K Construction ■ Charge-discharge proof, polar ■ Aluminum case with insulating sleeve ■ Negative pole connected to case Terminals ■ Axial leads, welded to ensure perfect electrical contact ■ Also available with soldering stars Taping and packing ■ Axial-lead capacitors will be delivered in pallet package. Capacitors with d × l ≤ 16 × 30 mm are also available taped on reel. ■ Solder-star capacitors are packed in cardboard. For details on taping and packing, refer to page 342. 299 10/02 B43693 / B43793 High Voltage – 125 °C Specifications and characteristics in brief Rated voltage UR 160 and 250 VDC Surge voltage US 1,15 · UR Rated capacitance CR 22 … 100 µF Capacitance tolerance – 10/+ 30 % Leakage current IL Q (5 min, 20 °C) C R U Rö ⋅ ------- + 4 µA I L ≤ 0,006 µA ⋅ æè ------µF V ø Self-inductance ESL 1) Diameter d 14 mm Approx. ESL (nH) Length l Terminal axial / solder star 22 / 6 26 / 7 30 mm axial / solder star 24 / 7 29 / 8 34 / 10 39 mm axial / solder star —/— 33 / 9 38 / 11 > 1 000 h > 4 000 h > 4 000 h > 200 000 h ∆C/C ESR IL ≤ ± 30 % of initial value ≤ 3 times initial limit ≤ initial specified limit Failure percentage: ≤ 0,5 % Failure rate: ≤ 10 fit (≤ 10 · 10 –9/h) (for definiton “fit”, refer to chapter “Quality”, page 62) Post test requirements: Detail specification ∆C/C ≤ ± 10 % of initial value ESR ≤ 1,3 % of specified limit IL ≤ initial specified limit To IEC 60068-2-6, test Fc: displacement amplitude 1,5 mm, at 10 Hz to 2 kHz, acceleration max. 20 g, duration 3 × 2 h To IEC 60068-1: 40/125/56 (– 40 /+ 125 °C/56 days damp heat test) Similar to CECC 30301-802 Sectional specification IEC 60384-4 Vibration resistance IEC climatic category —/— Requirements: Voltage endurance test 105 °C; UR 18 mm 25 mm Useful life 125 °C; UR; 0,5 I~R 105 °C; UR; I~R 85 °C; UR; I~max 40 °C; UR; 1,9 · I~R 16 mm 2 000 h 1) If optimum circuit design is used, the values are lower by 30 %. 300 10/02 B43693 / B43793 High Voltage – 125 °C Dimensional drawings Axial-lead capacitor 40 _ 5 40 _ 5 max _ 0,02 ø1+0,04 d max max +1,5 max +4 1,3+0,1 KAL0524-S Dimensions, weights and packing units d×l mm dmax × lmax mm Approx. weight g Packing units (pieces) Pallet Reel 14 × 30 14,5 × 30,5 6,8 200 350 16 × 30 18 × 30 16,5 × 30,5 18,5 × 30,5 8,9 11,1 180 160 250 — 18 × 39 18,5 × 40 14,7 160 — 301 10/02 B43693 / B43793 High Voltage – 125 °C Soldering star capacitors Mounting holes d = 12 mm ... 14 mm 0,6 3±0,1 d max c ±0,1 ø1,3+0,1 4,7 _ 0,5 360 ˚ 3 c ±0,1 3,1_ 0,2 max Mounting holes d = 16 mm ... 18 mm ø1,3+0,1 Soldering star is connected to the negative pole _ 0,02 ø1+0,04 KAL0525-1-E The PC-board hole arrangement specified above is based on circular arcs. If, however, the mounting holes have to be matched to a standard drilling raster, a spacing of 1,27 mm (1/20″) has proved to be sufficiently accurate if the following arrangements are used: d = 14 mm d = 18 mm d = 16 mm ø1,5+0,1 KAL0357-R KAL0359-8 KAL0358-Z Dimensions, weights and packing units d×l dmax × lmax c ± 0,1 Approx. weight Packing units mm mm 14 × 30 15,5 × 32 mm 14,5 g 7,2 pieces 480 16 × 30 18 × 30 17,5 × 32 19,5 × 32 16,5 18,5 9,4 11,8 300 300 18 × 39 19,5 × 41,5 18,5 15,4 200 302 10/02 B43693 / B43793 High Voltage – 125 °C Overview of available types UR (VDC) 160 CR (µF) 22 33 47 68 100 Case dimensions d × l (mm) 250 14 × 30 14 × 30 16 × 30 18 × 30 18 × 39 18 × 39 Case dimensions and ordering codes UR CR VDC µF 160 33 47 100 250 22 47 68 Case dim. d×l mm 14 × 30 16 × 30 18 × 39 14 × 30 18 × 30 18 × 39 Ordering code Axial pallet package Axial reel Soldering star B43693A1336Q007 B43693A1336Q009 B43793A1336Q000 B43693A1476Q007 B43693A1107Q007 B43693A1476Q009 B43793A1476Q000 B43793A1107Q000 B43693A2226Q007 B43693A2476Q007 B43693A2226Q009 B43793A2226Q000 B43793A2476Q000 B43693A2686Q007 B43793A2686Q000 Technical data CR 100 Hz 20 °C µF ESRtyp 100 Hz 20 °C mΩ ESRmax 100 Hz 20 °C mΩ ESRmax 100 Hz −40 °C Ω ESR max 10 kHz 20 °C mΩ Zmax 100 kHz 20 °C mΩ I~max 10 kHz 40 °C A I~max 10 kHz 85 °C A I ~R 10 kHz 105 °C A I~max 10 kHz 125 °C A 33 47 1,10 0,75 1,70 1,20 20,0 14,0 530 370 530 360 3,30 4,15 2,75 3,45 1,10 1,40 0,55 0,70 100 0,36 0,60 7,0 175 170 6,85 5,80 2,30 1,15 22 47 1,40 0,65 2,30 1,10 25,0 12,0 540 250 500 230 3,55 5,20 2,95 4,35 1,20 1,75 0,60 0,87 68 0,45 0,75 8,5 170 160 7,15 6,00 2,40 1,20 160 VDC 250 VDC 303 10/02 B43693 / B43793 High Voltage – 125 °C Useful life depending on ambient temperature TA under ripple current operating conditions at UR 1) KAL0552-X 3,5 Ι~ Ι ~R B43693/793 3,0 2,5 2,0 1,5 0 40 50 60 70 80 90 100 1 000 h 4 000 h 10 000 h 30 000 h 100 000 h 0,5 250 000 h 1,0 110 120 ˚C 130 TA Useful life depending on case temperature TC under ripple current operating conditions at UR 1) KAL0553-6 3,5 Ι~ Ι ~R B43693/793 3,0 2,5 2,0 1,5 0 40 50 60 70 80 90 100 1 000 h 4 000 h 10 000 h 30 000 h 100 000 h 0,5 250 000 h 1,0 110 120 ˚C 130 TC 1) Refer to page 40 for an explanation on how to interpret the useful life graphs. 304 10/02 B43693 / B43793 High Voltage – 125 °C Frequency characteristics of ESR at different temperatures typical behavior Frequency factor of permissible ripple current I~ versus frequency f KAL0665-1 1,2 Ι ~f KAL0620-1 35 B43693/793 ESR f ESR 10 kHz 125 ˚C B43693/793 Ι ~10 kHz 0,9 25 0,8 85 ˚C 0,7 20 f g 0,6 15 0,5 0,4 10 0,3 ø [mm] 12 14 16 18 UR 160 VDC f f f f 250 VDC g g g g 0,2 0,1 0 2 10 5 10 3 _ 40 ˚C 0 1 10 5 Hz 10 4 f Equivalent series resistance ESR versus frequency f at different temperatures Typical behavior for 47 µF/250 V 5 10 3 Hz 10 4 f KAL0618-P 10 3 B43693/793 Ω 5 10 2 Impedance Z versus frequency f at different temperatures Typical behavior for 47 µF/250 V KAL0619-X 10 3 20 ˚C 5 B43693/793 Ω Z ESR 10 2 5 10 2 5 _ 55 ˚C _ 40 ˚C 10 1 5 _ 55 ˚C _ 40 ˚C 10 1 5 _ 25 ˚C _ 20 ˚C 0 10 5 10 0 5 20 ˚C _ 10 _ >_ 60 ˚C 10 1 5 10 1 5 _2 10 1 5 10 2 5 10 3 5 10 4 20 ˚C Hz 10 5 f 10 >_ 60 ˚C _2 305 10/02 10 1 5 10 2 5 10 3 5 10 4 Hz 10 5 f Herausgegeben von EPCOS AG Unternehmenskommunikation, Postfach 80 17 09, 81617 München, DEUTSCHLAND ++49 89 636 09, FAX (0 89) 636-2 26 89 ( EPCOS AG 2002. Vervielfältigung, Veröffentlichung, Verbreitung und Verwertung dieser Broschüre und ihres Inhalts ohne ausdrückliche Genehmigung der EPCOS AG nicht gestattet. Bestellungen unterliegen den vom ZVEI empfohlenen Allgemeinen Lieferbedingungen für Erzeugnisse und Leistungen der Elektroindustrie, soweit nichts anderes vereinbart wird. Diese Broschüre ersetzt die vorige Ausgabe. Fragen über Technik, Preise und Liefermöglichkeiten richten Sie bitte an den Ihnen nächstgelegenen Vertrieb der EPCOS AG oder an unsere Vertriebsgesellschaften im Ausland. Bauelemente können aufgrund technischer Erfordernisse Gefahrstoffe enthalten. Auskünfte darüber bitten wir unter Angabe des betreffenden Typs ebenfalls über die zuständige Vertriebsgesellschaft einzuholen. Published by EPCOS AG Corporate Communications, P.O. Box 80 17 09, 81617 Munich, GERMANY ++49 89 636 09, FAX (0 89) 636-2 26 89 ( EPCOS AG 2002. Reproduction, publication and dissemination of this brochure and the information contained therein without EPCOS’ prior express consent is prohibited. Purchase orders are subject to the General Conditions for the Supply of Products and Services of the Electrical and Electronics Industry recommended by the ZVEI (German Electrical and Electronic Manufacturers’ Association), unless otherwise agreed. This brochure replaces the previous edition. For questions on technology, prices and delivery please contact the Sales Offices of EPCOS AG or the international Representatives. Due to technical requirements components may contain dangerous substances. For information on the type in question please also contact one of our Sales Offices.