Aluminum Electrolytic Capacitors SMD (Chip), High Temperature, Low Impedance, High Vibration Capability FEATURES Extended useful life: up to 6000 h at 25 C Polarized aluminum electrolytic capacitors, non-solid electrolyte, self healing SMD-version with base plate, lead (Pb)-free reflow solderable Charge and discharge proof, no peak current limitation 40 CRH 25 C lower lower higher I R 46 CTI 25 C high vibration Advanced temperature reflow soldering according to JEDEC J-STD-020 Vibration proof, 6-pin version up to 30 g AEC-Q200 qualified 50 CR 5 C Fig. QUICK REFERENCE DATA DESCRIPTION Nominal case sizes (L x W x H in mm) VALUE 6 x 6 x 6 to 8 x 8 x 2 Rated capacitance range, C R 50 μf to 4700 μf Tolerance on C R ± 20 % Rated voltage range, U R 6 V to 0 V Category temperature range -55 C to +25 C Endurance test at 25 C Useful life at 25 C Useful life at 40 C.8 x l R applied Shelf life at 0 V, 25 C 2000 h to 5000 h 2500 h to 6000 h 350 000 h to 400 000 h 00 h Based on sectional specification IEC 60384-8 / CECC 32300 Climatic category IEC 60068 55 / 25 / 56 High reliability Low ESR Material categorization: for definitions of compliance please see /doc?9992 APPLICATIONS SMD technology, for high temperature reflow soldering Industrial and professional applications Automotive, general industrial, telecom Smoothing, filtering, buffering MARKING Rated capacitance (in μf) Rated voltage (in V) Date code, in accordance with IEC 60062 Black mark or - sign indicating the cathode (the anode is identified by beveled edges) Code indicating group number (T) PACKAGING Supplied in blister tape on reel Revision: 2-Apr-7 Document Number: 28424 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?900
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 25 35 50 63 80 0 50 6 x 6 x 6 220 6 x 6 x 6 6 x 6 x 2 8 x 8 x 6 330 6 x 6 x 6 6 x 6 x 2 8 x 8 x 6 8 x 8 x 2 470 6 x 6 x 6 6 x 6 x 6 8 x 8 x 2-680 6 x 6 x 6 6 x 6 x 6 8 x 8 x 6 - - 820 6 x 6 x 2 - - 00 6 x 6 x 6 6 x 6 x 6 6 x 6 x 2 8 x 8 x 6 8 x 8 x 2 - - 200 8 x 8 x 6 8 x 8 x 2 - - - 500 6 x 6 x 6 6 x 6 x 6 6 x 6 x 2 - - - - 800 8 x 8 x 2 - - - - 2200 6 x 6 x 6 6 x 6 x 2 8 x 8 x 6 - - - - - 2700 8 x 8 x 2 - - - - - 3300 6 x 6 x 2 8 x 8 x 6 - - - - - - 3900 8 x 8 x 2 - - - - - - 4700 8 x 8 x 2 - - - - - - 6-pin: Ø 6 mm 35V 00u H4E T min. 0.4 / max..0 (2 x) H MAX. max. 0.3 D W MAX. B L MAX. S L MAX. Fig. - Dimensional outline Table DIMENSIONS in millimeters AND MASS NOMINAL CASE SIE L x W x H CASE CODE L MAX. W MAX. H MAX. Ø D B MAX. S L MAX. MASS (g) 6 x 6 x 6 66 6.6 6.6 7.5 6.0.3 6.5 8.6 5.5 6 x 6 x 2 62 6.6 6.6 22.0 6.0.3 6.5 8.6 6.0 8 x 8 x 6 86 9.0 9.0 7.5 8.0.3 6.5 2.0 8.0 8 x 8 x 2 82 9.0 9.0 22.0 8.0.3 6.5 2.0 8.3 Revision: 2-Apr-7 2 Document Number: 28424 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?900
Table 2 TAPE AND REEL DIMENSIONS in millimeters, PACKAGING QUANTITIES NOMINAL CASE SIE L x W x H CASE CODE PITCH P Note Detailed tape dimensions see section PACKAGING TAPE WIDTH W TAPE THICKNESS T 2 REEL DIAMETER PACKAGING QUANTITY PER REEL 6 x 6 x 6 66 28 44 8.9 380 50 6 x 6 x 2 62 28 44 23.4 380 0 8 x 8 x 6 86 32 44 8.9 380 25 8 x 8 x 2 82 32 44 23.4 380 0 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 component 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. 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. a c a b Case size Ø D 6 mm Fig. 2 - Recommended soldering pad dimensions Table 3 RECOMMENDED SOLDERING PAD DIMENSIONS in millimeters CASE CODE a b c 66 7.8 9.6 4.7 62 7.8 9.6 4.7 86 8.8 9.6 4.7 82 8.8 9.6 4.7 Revision: 2-Apr-7 3 Document Number: 28424 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?900
ADVANCED SOLDERING PROFILE FOR LEAD (Pb)-FREE REFLOW PROCESS ACCORDING TO JEDEC J-STD-020 T ( C) T Peak 230 27 200 90 t 4 t 3 50 t 2 t 25 time (s) Fig. 3 - Maximum temperature load during reflow soldering Table 4 REFLOW SOLDERING CONDITIONS for MAL224699xxxE3 PROFILE FEATURES Maximum time from 25 C to T Peak Maximum ramp-up rate to 50 C Maximum time from 50 C to 200 C (t ) Maximum time from 90 C to 200 C (t 2 ) Ramp up rate from 200 C to T Peak Maximum time above T Liquidus (27 C) (t 3 ) Maximum time above 230 C (t 4 ) CASE CODE 66 TO 82 300 s 3 K/s 50 s s 0.5 K/s to 3 K/s 90 s 60 s Peak temperature T Peak 245 C Maximum time above T Peak minus 5 C Ramp-down rate from T Liquidus 30 s 3 K/s to 6 K/s Notes Temperature measuring point on top of the case and on terminals Maximum 2 runs with pause of minimum 30 min in between Revision: 2-Apr-7 4 Document Number: 28424 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?900
ELECTRICAL DATA SYMBOL DESCRIPTION C R Rated capacitance at 0 Hz, tolerance ± 20 % I R Rated RMS ripple current at 0 khz, 25 C I L2 Maximum leakage current after 2 min at U R tan δ Maximum dissipation factor at 0 Hz Maximum impedance at 0 khz ORDERING EXAMPLE Electrolytic capacitor series 220 μf / 80 V; ± 20 % Nominal case size: 6 mm x 6 mm x 6 mm; taped on reel Ordering code: MAL224699708E3 Note Unless otherwise specified, all electrical values in Table 5 apply at T amb = 20 C, P = 86 kpa to 6 kpa, RH = 45 % to 75 % Table 5 ELECTRICAL DATA AND ORDERING INFORMATION U R (V) 6 25 35 50 63 80 0 C R (μf) NOMINAL CASE SIE L x W x H (mm) I R 25 C 0 khz (ma) I L2 2 min (μa) tan δ 0 Hz Note () Determines the applicable row in the table Endurance Test Duration and Useful Life 0 khz 20 C (Ω) 0 khz -40 C (Ω) LIFE CODE () ORDERING CODE MAL2246... 500 6 x 6 x 6 400 240 0.6 0.050 0.45 L2 99505E3 2200 6 x 6 x 6 400 352 0.8 0.050 0.45 L2 99506E3 3300 6 x 6 x 2 660 528 0.20 0.035 0.32 L3 99507E3 3300 8 x 8 x 6 500 528 0.20 0.050 0.45 L2 99508E3 3900 8 x 8 x 2 750 624 0.20 0.035 0.32 L3 99509E3 4700 8 x 8 x 2 750 752 0.22 0.035 0.32 L3 995E3 00 6 x 6 x 6 400 250 0.4 0.050 0.45 L2 99605E3 500 6 x 6 x 6 400 375 0.4 0.050 0.45 L2 99606E3 2200 6 x 6 x 2 660 550 0.6 0.035 0.32 L3 99607E3 2200 8 x 8 x 6 500 550 0.6 0.050 0.45 L2 99608E3 2700 8 x 8 x 2 750 675 0.6 0.035 0.32 L3 99609E3 680 6 x 6 x 6 400 238 0.2 0.050 0.45 L2 99007E3 00 6 x 6 x 6 400 350 0.2 0.050 0.45 L2 99008E3 200 8 x 8 x 6 500 420 0.2 0.050 0.45 L2 99009E3 500 6 x 6 x 2 660 525 0.2 0.035 0.32 L3 990E3 800 8 x 8 x 2 750 630 0.2 0.035 0.32 L3 9902E3 470 6 x 6 x 6 300 235 0. 0.072 0.65 L2 998E3 680 6 x 6 x 6 300 340 0. 0.072 0.65 L2 999E3 00 6 x 6 x 2 500 500 0. 0.052 0.47 L3 99E3 00 8 x 8 x 6 300 500 0. 0.070 0.63 L2 992E3 200 8 x 8 x 2 600 600 0. 0.049 0.44 L3 993E3 330 6 x 6 x 6 50 208 0. 0.0 0.90 L2 99809E3 470 6 x 6 x 6 50 296 0. 0.0 0.90 L2 998E3 680 8 x 8 x 6 50 428 0. 0.095 0.86 L2 9982E3 820 6 x 6 x 2 300 57 0. 0.075 0.68 L3 9983E3 00 8 x 8 x 2 400 630 0. 0.072 0.65 L3 9984E3 220 6 x 6 x 6 900 76 0.2 0.80.44 L 99708E3 330 6 x 6 x 2 0 264 0.2 0.20 0.96 L 99709E3 330 8 x 8 x 6 900 264 0.2 0.60.28 L 997E3 470 8 x 8 x 2 0 376 0.2 0. 0.88 L 9972E3 50 6 x 6 x 6 650 50 0.2 0.300 2.40 L 99907E3 220 6 x 6 x 2 8 220 0.2 0.230.80 L 99908E3 220 8 x 8 x 6 650 220 0.2 0.300 2.40 L 99909E3 330 8 x 8 x 2 8 330 0.2 0.230.80 L 999E3 Revision: 2-Apr-7 5 Document Number: 28424 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?900
Table 6 EXTENDED VIBRATION SPECIFICATIONS PARAMETER PROCEDURE REQUIREMENTS Vibration improvement From g to 30 g No visible damage; Vibration frequency range Vibration profile Hz to 2 khz Constant sinus sweep 3 directions 8 h per direction no leakage of electrolyte; marking legible ΔC/C: ± 5 % with respect to initial measurements 60 Acceleration (g) 50 40 30 Improved SMD 20 Table 7 Vishay extended AEC-Q200 0 0 0.5.5 2.0 f (khz) Fig. 4 - Vibration profile 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; T A 5 C U rev V Current Leakage current After 2 min at U R I L2 0.0 x C R x U R Inductance Equivalent series inductance (ESL) Ø D 6 mm Typ. nh Resistance Equivalent series resistance (ESR) at 0 Hz Calculated from tan δ max. and C R (see Table 5) ESR = tan δ/2πfc R CAPACITANCE (C).2 C C 0. 2 DISSIPATION FACTOR (tan δ) tan tan 0.0 0.9 2 Curve : 6 V Curve 2: 63 V 0.8-60 -40-20 0 20 40 60 80 0 20 C 0 = capacitance at 20 C, 0 Hz T amb ( C) Fig. 5 - Typical multiplier of capacitance as a function of ambient temperature 0. -60-40 -20 0 20 40 60 80 0 20 40 T amb ( C) tan δ 0 = typical tan δ at 20 C, 0 Hz Fig. 6 - Typical multiplier of dissipation factor (tan δ) as a function of ambient temperature Revision: 2-Apr-7 6 Document Number: 28424 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?900
EQUIVALENT SERIES RESISTANCE (ESR) ESR ESR 0 0. 2 3 4 f (Hz) 5 ESR 0 = typical ESR at 20 C, 0 Hz T amb = 20 C Fig. 7 - Typical multiplier of ESR as a function of frequency IMPEDANCE () 0 (Ω) 00 (Ω) 0 0. 2700-25-82 500-25-66 0. 00-63-82 470-63-66 0.0 0 00 000 0 000 f (Hz) Fig. 8 - Typical impedance as a function of frequency 0.0 0 00 000 0 000 f (Hz) Fig. 9 - Typical impedance as a function of frequency IMPEDANCE () 000 (Ω) 00 Curve : 50-0-66 Curve 2: 220-0-62 Curve 3: 330-0-82 0 2 3 0. 0 00 000 0 000 f (Hz) Fig. - Typical impedance as a function of frequency Revision: 2-Apr-7 7 Document Number: 28424 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?900
.0 RIPPLE CURRENT AND USEFUL LIFE Table 8 ENDURANCE TEST DURATION AND USEFUL LIFE LIFE CODE Note Multiplier of useful life code: MBC242 ENDURANCE AT 25 C (h) USEFUL LIFE AT 25 C (h) USEFUL LIFE AT 40 C.8 x I R APPLIED (h) L 2000 2500 250 000 L2 4000 5000 350 000 L3 5000 6000 400 000 I A I R 4.3 4.2 4. 4.0 3.9 3.8 3.7 MBC242 3.6 3.5 3.4 3.3 3.2 3. 3.0 2.8 Lifetime multiplier 2.6 2.0.5 2.4 2.2 6.0 4.0 3.0 I A = Actual ripple current at 0 khz I R = Rated ripple current at 0 khz, 25 C () Useful life at 25 C and I R applied; see Table 7 2.0.8.6.4.2.0 () 0.8 0.5 0.0 40 50 60 70 80 90 0 20 30 T amb ( C) 400 200 60 0 20 30 2 8.0 Fig. - Multiplier of useful life as a function of ambient temperature and ripple current load Revision: 2-Apr-7 8 Document Number: 28424 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?900
Table 9 MULTIPLIER OF RIPPLE CURRENT (I R ) AS A FUNCTION OF FREQUENCY U R FREQUENCY (Hz) (V) 50 0 300 00 3000 000 30 000 0 000 6 0.60 0.70 0.80 0.85 0.90 0.95 0.97.00 25 0.60 0.70 0.80 0.85 0.90 0.95 0.97.00 35 0.45 0.65 0.80 0.85 0.90 0.95 0.97.00 50 0.40 0.60 0.75 0.82 0.90 0.95 0.97.00 63 0.40 0.60 0.75 0.82 0.90 0.95 0.97.00 80 0.40 0.60 0.75 0.82 0.90 0.95 0.97.00 0 0.40 0.60 0.75 0.82 0.90 0.95 0.97.00 Table TEST PROCEDURES AND REQUIREMENTS TEST NAME OF TEST Mounting Endurance Useful life Shelf life (storage at high temperature) Reverse voltage REFERENCE IEC 60384-8, subclause 4.3 IEC 60384-8 / CECC 32300, subclause 4.5 CECC 3030, subclause.8. IEC 60384-8 / CECC 32300, subclause 4.7 IEC 60384-8 / CECC 32300, subclause 4.6 PROCEDURE (quick reference) Shall be performed prior to tests mentioned below; reflow soldering; for maximum temperature load refer to chapter Mounting T amb = 25 C; U R applied; for test duration see Table 7 T amb = 25 C; U R and I R applied; for test duration see Table 7 T amb = 25 C; no voltage applied; 00 h after test: U R to be applied for 30 min, 24 h to 48 h before measurement T amb = 25 C: 25 h at U = -0.5 V, followed by 25 h at U R REQUIREMENTS ΔC/C: ± 5 % tan δ spec. limit I L2 spec. limit U R 6 V; ΔC/C: ± 20 % tan δ 2 x spec. limit I L2 spec. limit ΔC/C: ± 30 % tan δ 3 x spec. limit I L2 spec. limit no short or open circuit total failure percentage: % For requirements see Endurance test above ΔC/C: ± 5 % tan δ.5 x spec. limit I L2 spec. limit Statements about product lifetime are based on calculations and internal testing. They should only be interpreted as estimations. Also due to external factors, the lifetime in the field application may deviate from the calculated lifetime. In general, nothing stated herein shall be construed as a guarantee of durability. Revision: 2-Apr-7 9 Document Number: 28424 ARE SUBJECT TO SPECIFIC DISCLAIMERS, SET FORTH AT /doc?900
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