Not Recommended for New Designs, Use 50 CR Aluminum Capacitors SMD (Chip), High Temperature 50 CL 53 CRV Lead (Pb)-free 40 CLH 5 C high temperature 53 CLV Fig. low 50 CL QUICK REFERENCE DATA DESCRIPTION VALUE Nominal case sizes (L x W x H in mm) 8 x 8 x 0 to 0 x 0 x 4 Rated capacitance range, C R 33 μf to 000 μf Tolerance on C R ± 0 % Rated voltage range, U R 6.3 V to 63 V Category temperature range -55 C to +05 C Endurance test at 05 C 000 h Useful life at 05 C: case size 0 x 0 x 0 case size 0 x 0 x 4 500 h 3000 h Useful life at 40 C;.8 x l R applied: case size 0 x 0 x 0 case size 0 x 0 x 4 5 000 h 50 000 h Shelf life at 0 V, 05 C 000 h Based on sectional specification IEC 60384-8 / CECC3300 Climatic category IEC 60068 55/05/56 FEATURES Polarized aluminum electrolytic capacitors, non-solid electrolyte, self healing SMD-version with base plate, reflow solderable Very low impedance, very high ripple current Very long useful life: 3000 h at 05 C Charge and discharge proof, no peak current limitation ATTENTION: for maximum safe soldering conditions refer to Fig. 4 APPLICATIONS SMD technology, for high mounting density Industrial and professional applications Automotive, general industrial Smoothing, filtering, buffering MARKING Rated capacitance (in μf) Rated voltage (in V) Date code, in accordance with IEC 6006 Black mark or - sign indicating the cathode (the anode is identified by bevelled edges) Code indicating group number () PACKAGING Supplied in blister tape on reel. SELECTION CHART FOR C R, U R, AND RELEVANT NOMINAL CASE SIES (L x W x H in mm) C R U R (V) (μf) 6.3 0 6 5 35 50 63 33 - - - - - - 8 x 8 x 0 47 - - - - - - 8 x 8 x 0 - - - - - - 0 x 0 x 0 68 - - - - - 8 x 8 x 0 0 x 0 x 0 00 - - - - 8 x 8 x 0 0 x 0 x 0 0 x 0 x 4 50 - - - 8 x 8 x 0 - - - 0 - - 8 x 8 x 0 8 x 8 x 0 0 x 0 x 0 0 x 0 x 4-330 - 8 x 8 x 0 8 x 8 x 0 0 x 0 x 0 0 x 0 x 4 - - 470 8 x 8 x 0 8 x 8 x 0 0 x 0 x 0 0 x 0 x 4 - - - 680-0 x 0 x 0 0 x 0 x 4 - - - - 000 0 x 0 x 0 0 x 0 x 4 - - - - - Revision: 9-Jan-5 Document Number: 8304 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9000
Not Recommended for New Designs, Use 50 CR 50 CL Table DIMENSIONS in millimeters AND MASS NOMINAL CASE SIE CASE MASS L L x W x H CODE max. W max. H max. Ø D B max. S L max. (g) 8 x 8 x 0 080 8.5 8.5 0.5 8.0.0 3. 9.9.0 0 x 0 x 0 00 0.5 0.5 0.5 0.0.0 4.5.8.3 0 x 0 x 4 04 0.5 0.5 4.3 0.0.0 4.5.8.5 0.4 ± 0. L WB Table Note Detailed tape dimensions see section PACKAGING. C S C Fig. - Dimensional outline 0.3 max. TAPE AND REEL DIMENSIONS in millimeters, PACKAGING QUANTITIES NOMINAL CASE SIE CASE PITCH TAPE WIDTH TAPE THICKNESS PACKAGING QUANTITY REEL DIA. L x W x H CODE P W T PER REEL 8 x 8 x 0 080 6 4.3 380 500 0 x 0 x 0 00 6 4.3 380 500 0 x 0 x 4 04 6 4 4.8 330 50 MOUNTING The capacitors are designed for automatic placement on to printed-circuit boards. Optimum dimensions of soldering pads depend amongst others on soldering method, mounting accuracy, print layout and / or adjacent components. For recommended soldering pad dimensions, refer to Fig. 3 and Table 3. SOLDERING Soldering conditions are defined by the curve, temperature versus time, where the temperature is that measured on the soldering pad during processing. For maximum conditions refer to Fig. 4. Any temperature versus time curve which does not exceed the specified maximum curves may be applied. Table 3 RECOMMENDED SOLDERING PAD DIMENSIONS in millimeters CASE CODE a b c 080 3.5.5 3.0 00 4.3.5 4.0 04 4.3.5 4.0 a c a Fig. 3 - Recommended solder pad dimensions AS A GENERAL PRINCIPLE, TEMPERATURE AND DURATION SHALL BE THE MINIMUM NECESSARY REQUIRED TO ENSURE GOOD SOLDERING CONNECTIONS. HOWEVER, THE SPECIFIED MAXIMUM CURVES SHOULD NEVER BE EXCEEDED. T PAD ( C) 80 60 40 0 00 80 60 40 0 00 80 0 50 00 50 00 50 t (s) b Fig. 4 - Maximum temperature load during infrared reflow soldering measured on the soldering pad Revision: 9-Jan-5 Document Number: 8304 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9000
Not Recommended for New Designs, Use 50 CR www.vishay.com ELECTRICAL DATA SYMBOL DESCRIPTION C R Rated capacitance at 00 Hz, tolerance ± 0 % I R Rated RMS ripple current at 00 khz, 05 C I L Max. leakage current after min at U R tan Max. dissipation factor at 00 Hz Max. impedance at 00 khz 50 CL ORDERING EXAMPLE Electrolytic capacitor 50 CL series 0 μf/50 V; ± 0 % Nominal case size: 0 mm x 0 mm x 4 mm; taped on reel Ordering code: MAL50950E3 Former NC: 50 950 Note Unless otherwise specified, all electrical values in Table 4 apply at T amb = 0 C, P = 86 kpa to 06 kpa, RH = 45 % to 75 %. Table 4 ELECTRICAL DATA AND ORDERING INFORMATION U R (V) 6.3 0 6 5 35 50 63 C R (μf) NOMINAL CASE SIE L x W x H (mm) I R 05 C 00 khz (ma) I L min. (ma) tan 00 Hz 00 khz ( ) ORDERING CODE MAL50... 470 8 x 8 x 0 435 30 0.4 0.5 953E3 000 0 x 0 x 0 670 63 0.4 0.3 9530E3 330 8 x 8 x 0 435 33 0.0 0.5 954E3 470 8 x 8 x 0 435 47 0.0 0.5 954E3 680 0 x 0 x 0 670 68 0.0 0.3 9540E3 000 0 x 0 x 4 850 00 0.0 0.0 9540E3 0 8 x 8 x 0 435 35 0.6 0.5 955E3 330 8 x 8 x 0 435 53 0.6 0.5 955E3 470 0 x 0 x 0 670 75 0.6 0.3 9550E3 680 0 x 0 x 4 850 09 0.6 0.0 9550E3 50 8 x 8 x 0 40 38 0.4 0.8 956E3 0 8 x 8 x 0 40 55 0.4 0.8 956E3 330 0 x 0 x 0 640 83 0.4 0.4 9560E3 470 0 x 0 x 4 80 8 0.4 0. 9560E3 00 8 x 8 x 0 405 35 0. 0.30 950E3 0 0 x 0 x 0 630 77 0. 0.5 9500E3 330 0 x 0 x 4 790 6 0. 0. 9500E3 68 8 x 8 x 0 333 34 0. 0.48 95E3 00 0 x 0 x 0 490 50 0. 0.4 950E3 0 0 x 0 x 4 60 0 0. 0.9 950E3 33 8 x 8 x 0 70 0.0 0.65 958E3 47 8 x 8 x 0 70 30 0.0 0.65 958E3 47 0 x 0 x 0 390 30 0.0 0.38 9580E3 68 0 x 0 x 0 390 43 0.0 0.38 9580E3 00 0 x 0 x 4 507 63 0.0 0.9 95803E3 ADDITIONAL ELECTRICAL DATA PARAMETER CONDITIONS VALUE Voltage Surge voltage for short periods IEC 60384-8, subclause 4.4 U s.5 x U R Reverse voltage for short periods IEC 60384-8, subclause 4.6 U rev. V Current Leakage current After min at U R I L 0.0 x C R x U R Inductance Equivalent series inductance (ESL) Typ. 6 nh Resistance Equivalent series resistance (ESR) at 00 Hz Calculated from tan max. and C R (see Table 4) ESR = tan / f C R Revision: 9-Jan-5 3 Document Number: 8304 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9000
Not Recommended for New Designs, Use 50 CR 50 CL CAPACITANCE (C). DISSIPATION FACTOR (tan ) 00 C C 0.0 tan tan δ 0 Curve : 0 V Curve : 63 V.0 0.9 0.8 C 0 = capacitance at 0 C, 00 Hz Curve : 0 V Curve : 63 V -60-40 -0 0 0 40 60 80 00 0 Fig. 5 - Typical multiplier of capacitance as a function of ambient temperatures T amb ( C) 0. -60-40 -0 0 0 40 60 80 00 tan δ 0 = typical tan δ at 0 C, 00 Hz T amb ( C) Fig. 6 - Typical multiplier of dissipation factor (tan ) as a function of ambient temperatures EQUIVALENT SERIES RESISTANCE (ESR) 0 ESR ESR 0 Curve : 0 V Curve : 63 V IMPEDANCE () 000 ( Ω) 00 U R = 0 V Curve : case code 080, 470 µf Curve : case code 00, 680 µf Curve 3: case code 04, 000 µf 0 3 0. 0 0 0 3 0 4 f (Hz) 0 5 ESR 0 = typical at 0 C, 00 Hz T amb = 0 C Fig. 7 - Typical multiplier of ESR as a function of frequency 0. 0 0 0 3 0 4 f (Hz) 0 5 Fig. 8 - Typical impedance as a function of frequency 0 ( Ω) 0 0 ( Ω) 0 0. 0.0 U R = 35 V Curve : case code 080, 00 µf Curve : case code 00, 0 µf Curve 3: case code 04, 330 µf 0 0 0 3 0 4 0 5 f (Hz) T amb (0 C) Fig. 9 - Typical impedance as a function of frequency 3 0. 0.0 U R = 63 V Curve : case code 080, 47 µf Curve : case code 00, 68 µf Curve 3: case code 04, 00 µf 0 0 0 3 0 4 0 5 f (Hz) T amb (0 C) Fig. 0 - Typical impedance as a function of frequency 3 Revision: 9-Jan-5 4 Document Number: 8304 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9000
RIPPLE CURRENT AND USEFUL LIFE Not Recommended for New Designs, Use 50 CR 50 CL 3.8 CCC06 I A I R 3.7 3.6 3.5 3.4 3.3 3. 3. 3.0.8.6 Lifetime multiplier I A = actual ripple current at 00 khz I R = rated ripple current at 00 khz, 05 C () Useful life at 05 C and I R applied: case code 00: 500 h case code = 04: 3000 h.4..0.8.6.4..0 0.8 0.5 0.0 50 00 60 00 3.0 4.0 6.0 8.0 0 30.5.0 40 50 60 70 80 90 00 0 T amb ( C).0 () Fig. - Multiplier of useful life as a function of ambient temperature and ripple current load MULTIPLIER OF RIPPLE CURRENT (I R ) AS A FUNCTION OF FREQUENCY FREQUENCY (Hz) I R MULTIPLIER U R = 6.3 V TO 5 V U R = 35 V U R = 50 V TO 63 V 00 0.70 0.65 0.60 300 0.80 0.80 0.75 000 0.85 0.85 0.85 3000 0.93 0.93 0.93 0 000 0.95 0.95 0.95 30 000 0.97 0.97 0.97 00 000.00.00.00 Revision: 9-Jan-5 5 Document Number: 8304 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9000
Not Recommended for New Designs, Use 50 CR 50 CL TEST PROCEDURES AND REQUIREMENTS TEST NAME OF TEST REFERENCE PROCEDURE (quick reference) REQUIREMENTS Mounting IEC 60 384-8, subclause 4.3 Endurance IEC 60 384-8 / CECC 3300, subclause 4.5 Useful life CECC 3030, subclause.8. Shall be performed prior to tests mentioned below; reflow soldering; for maximum temperature load refer to chapter Mounting T amb = 05 C; U R applied; 000 h T amb = 05 C; U R and I R applied; case size 0 x 0 x 0: 500 h case size = 0 x 0 x 4: 3000 h C/C: ± 5 % tan spec. limit I L spec. limit U R = 6.3 V; C/C: ± 5 % U R 0 V; C/C: ± 0 % tan x spec. limit I L spec. limit C/C: 50 % tan 3 x spec. limit I L spec. limit no short or open circuit total failure percentage: % Shelf life (storage at high temperature) IEC 60 384-8/ CECC 3 300, subclause 4.7 T amb = 05 C; no voltage applied; 000 h after test: U R to be applied for 30 min, 4 h to 48 h before measurement For requirements see Endurance test above Revision: 9-Jan-5 6 Document Number: 8304 For technical questions, contact: aluminumcaps@vishay.com ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT www.vishay.com/doc?9000
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