Aluminum Electrolytic Capacitors Radial, Enhanced High Temperature, Low Impedance 40 RTM lower Z longer life 25 C 50 C 50 RMI 46 RTI Fig. QUICK REFERENCE DATA DESCRIPTION VALUE Nominal case sizes (Ø D x L in mm) 0 x 2 to 8 x 35 Rated capacitance range, C R 33 μf to 3300 μf Tolerance on C R ± 20 % Rated voltage range, U R 6 V to 50 V Category temperature range -55 C to +50 C Endurance test at 50 C 000 h to 500 h Useful life at 50 C 000 h to 2000 h Useful life at 40 C,.8 x I R applied 200 000 h Shelf life at 0 V, 50 C 000 h Based on sectional specification IEC 60384-4 / EN30300 Climatic category IEC 60068 55 / 50 / 56 FEATURES Useful life: up to 2000 h at 50 C High stability, high reliability Very low ESR AEC-Q200 qualified Excellent ripple current capability Polarized aluminum electrolytic capacitors, non-solid electrolyte Radial leads, cylindrical aluminum case with pressure relief, insulated with a blue PET sleeve Charge and discharge proof Material categorization: for definitions of compliance please see www.vishay.com/doc?9992 APPLICATIONS Power supplies (SMPS, DC/DC converters) for industrial, automotive, telecommunications and military Smoothing, filtering and buffering MARKING The capacitors are marked (where possible) with the following information: Rated capacitance (in μf) Tolerance on rated capacitance, code letter in accordance with IEC 60062 (M for ± 20 %) Rated voltage (in V) Date code, in accordance with IEC 60062 Code indicating factory of origin Logo of manufacturer Upper category temperature (50 C) Negative terminal identification Series number (60) SELECTION CHART FOR C R, U R, AND RELEVANT NOMINAL CASE SIZES (Ø D x L in mm) C R (μf) U R (V) 6 25 35 50 33 0 x 2 47 0 x 2 0 x 2 00 0 x 2 0 x 6 0 x 6 220 0 x 6 2.5 x 20 2.5 x 20 0 x 20 330 0 x 20 2.5 x 25 2.5 x 25 2.5 x 20 470 2.5 x 20 6 x 25 8 x 20 2.5 x 25 680 2.5 x 25 6 x 3 6 x 25 000 6 x 25 6 x 3 8 x 35 8 x 3 500 8 x 20 8 x 3 - - 2200 8 x 25 - - - 2700 8 x 3 - - - 3300 8 x 35 - - - Revision: 02-May-208 Document Number: 28420
DIMENSIONS in millimeters AND AVAILABLE FORMS - 5 min. 5 min. Ø d Ø D F Ø d Ø D F L + L 4 + 0 Fig. 2 - Form CA: Long leads Fig. 3 - Form CB: Cut leads Fig. 4 - Form TFA: Taped in box (ammopack) Table DIMENSIONS in millimeters, MASS AND PACKAGING QUANTITIES NOMINAL CASE SIZE Ø D x L CASE CODE Ø d Ø D max. L max. F MASS (g) PACKAGING QUANTITIES FORM CA FORM CB 0 x 2 4 0.6 0.5 3.5 5.0 ± 0.5.6 000 500 800 0 x 6 5 0.6 0.5 7.5 5.0 ± 0.5.9 500 500 800 0 x 20 6 0.6 0.5 22.0 5.0 ± 0.5 2.2 500 500 800 2.5 x 20 7 0.6 3.0 22.0 5.0 ± 0.5 4.0 500 500 500 2.5 x 25 8 0.6 3.0 27.0 5.0 ± 0.5 5.0 250 250 500 6 x 25 9 0.8 6.5 27.0 7.5 ± 0.5 8.0 250 250 250 6 x 3 20 0.8 6.5 33.5 7.5 ± 0.5 9.0 00 00 250 8 x 20 820 0.8 8.5 22.0 7.5 ± 0.5 8.0 00 00 250 8 x 25 825 0.8 8.5 27.0 7.5 ± 0.5 0.0 00 00 250 8 x 3 83 0.8 8.5 33.5 7.5 ± 0.5 2.5 00 00 250 8 x 35 22 0.8 8.5 37.5 7.5 ± 0.5 4.5 00 00 - FORM TFA ELECTRICAL DATA SYMBOL DESCRIPTION C R Rated capacitance at 00 Hz, tolerance ± 20 % I R Rated RMS ripple current at 00 khz, 50 C I L2 Maximum leakage current after 2 min at U R tan δ Maximum dissipation factor at 00 Hz Z Maximum impedance at 00 khz ORDERING EXAMPLE Electrolytic capacitor series 470 μf / 25 V; ± 20 % Nominal case size: Ø 6 mm x 25 mm; Form TFA Ordering code: MAL2603647E3 Note Unless otherwise specified, all electrical values in Table 2 apply at T amb = 20 C, P = 86 kpa to 06 kpa, RH = 45 % to 75 % Revision: 02-May-208 2 Document Number: 28420
Table 2 ELECTRICAL DATA AND ORDERING INFORMATION U R (V) 6 25 35 50 C R 00 Hz (μf) NOMINAL CASE SIZE Ø D x L (mm) I R 00 khz 50 C (ma) I L2 2 min (μa) tan δ 00 Hz Z 00 khz +20 C (Ω) Z 00 khz -40 C (Ω) ORDERING CODE MAL260... BULK PACKAGING TAPED FORM CA FORM CB FORM TFA 220 0 x 6 300 38 0.4 0.075 0.450 5522E3 6522E3 3522E3 330 0 x 20 400 56 0.4 0.065 0.390 5533E3 6533E3 3533E3 470 2.5 x 20 600 78 0.4 0.048 0.288 5547E3 6547E3 3547E3 680 2.5 x 25 700 2 0.4 0.040 0.240 5568E3 6568E3 3568E3 000 6 x 25 800 63 0.6 0.029 0.74 5502E3 6502E3 3502E3 500 8 x 20 750 243 0.6 0.035 0.20 5552E3 6552E3 3552E3 2200 8 x 25 200 355 0.8 0.028 0.68 55222E3 65222E3 35222E3 2700 8 x 3 600 435 0.8 0.025 0.50 55272E3 65272E3 35272E3 3300 8 x 35 2000 53 0.20 0.023 0.32 55332E3 65332E3-00 0 x 2 250 28 0.2 0.20 0.750 560E3 660E3 360E3 220 2.5 x 20 600 58 0.2 0.048 0.288 5622E3 6622E3 3622E3 330 2.5 x 25 700 86 0.2 0.040 0.240 5633E3 6633E3 3633E3 470 6 x 25 800 2 0.2 0.029 0.74 5647E3 6647E3 3647E3 000 6 x 3 000 253 0.2 0.027 0.62 5602E3 6602E3 3602E3 500 8 x 3 600 378 0.4 0.025 0.50 5652E3 6652E3 3652E3 47 0 x 2 250 9 0.0 0.20 0.750 50479E3 60479E3 30479E3 00 0 x 6 400 38 0.0 0.075 0.450 500E3 600E3 300E3 220 2.5 x 20 600 80 0.0 0.048 0.288 5022E3 6022E3 3022E3 330 2.5 x 25 700 9 0.0 0.040 0.240 5033E3 6033E3 3033E3 470 8 x 20 750 68 0.0 0.035 0.20 5047E3 6047E3 3047E3 680 6 x 3 000 24 0.0 0.027 0.62 5068E3 6068E3 3068E3 000 8 x 35 200 353 0.0 0.024 0.44 5002E3 6002E3-33 0 x 2 60 20 0.0 0.380 2.280 5339E3 6339E3 3339E3 47 0 x 2 80 27 0.0 0.360 2.60 5479E3 6479E3 3479E3 00 0 x 6 270 53 0.0 0.260.560 50E3 60E3 30E3 220 0 x 20 360 3 0.0 0.70.020 522E3 622E3 322E3 330 2.5 x 20 400 68 0.0 0.5 0.690 533E3 633E3 333E3 470 2.5 x 25 600 238 0.0 0.095 0.570 547E3 647E3 347E3 680 6 x 25 700 343 0.0 0.069 0.44 568E3 668E3 368E3 000 8 x 3 000 503 0.0 0.062 0.372 502E3 602E3 302E3 Revision: 02-May-208 3 Document Number: 28420
ADDITIONAL ELECTRICAL DATA PARAMETER CONDITIONS VALUE Voltage Surge voltage U s.5 x U R Reverse voltage U rev 0.5 V Current Leakage current After 2 min at U R I L2 0.0 C R x U R + 3 μa Inductance Equivalent series inductance (ESL) Case Ø D = 0 mm Typ. 6 nh Case Ø D 2.5 mm Typ. 8 nh Resistance Equivalent series resistance (ESR) Calculated from tan δ max. and C R (see Table 2) ESR = tan δ/2 π f C R CAPACITANCE (C) C C 0.2. C C 0.2.0 0.8.0 0.6 0.9 0.4 0.2 0.8-60 -40-20 0 20 40 60 80 00 20 40 60 T ( C) Fig. 5 - Typical multiplier of capacitance at 00 Hz as a function of temperature (C 0 = C at 20 C) EQUIVALENT SERIES RESISTANCE (ESR) ESR ESR 0 00 0 ESR ESR 0 0.0 0 00 000 0 000 00 000 f (Hz) Fig. 6 - Typical multiplier of capacitance as a function of frequency at 20 C (C 0 = C at 00 Hz) 5 4 3 2 0. -60-40 -20 0 20 40 60 80 00 20 40 60 T ( C) Fig. 7 - Typical multiplier of ESR at 00 Hz as a function of temperature (ESR 0 = ESR at 20 C) 0 0 00 000 0 000 00 000 f (Hz) Fig. 8 - Typical multiplier of ESR at 20 C as a function of frequency (ESR 0 = ESR at 00 Hz) Revision: 02-May-208 4 Document Number: 28420
IMPEDANCE (Z) Z Z 0 00 0 00 Z (Ω) 0 2 3 4 5 6 Curve : 220 µf, 35V, 0 x 2 Curve 2: 330 µf, 35 V, 0 x 6 Curve 3: 470 µf, 35 V, 0 x 20 Curve 4: 680 µf, 35 V, 2.5 x 20 Curve 5: 000 µf, 35 V, 2.5 x 25 Curve 6: 800 µf, 35 V, 6 x 25 Curve 7: 3300 µf, 35 V, 8 x 35 7 0. 0. -60-40 -20 0 20 40 60 80 00 20 40 60 T ( C) Fig. 9 - Typical multiplier of impedance at 00 khz as a function of temperature (Z 0 = Z at 20 C) 0.0 0 00 000 0 000 00 000 f (Hz) Fig. 0 - Typical impedance Z at 20 C as a function of frequency 000 Z (Ω) 00 0 0. 2 3 4 5 6 7 8 Curve : 33 µf, 50 V, 0 x 2 Curve 2: 47 µf, 50 V, 0 x 2 Curve 3: 00 µf, 50 V, 0 x 6 Curve 4: 220 µf, 50 V, 0 x 20 Curve 5: 330 µf, 50 V, 2.5 x 20 Curve 6: 470 µf, 50 V, 2.5 x 25 Curve 7: 680 µf, 50 V, 6 x 25 Curve 8: 000 µf, 50 V, 8 x 3 0.0 0 00 000 0 000 00 000 f (Hz) Fig. - Typical impedance Z at 20 C as a function of frequency RIPPLE CURRENT AND USEFUL LIFE Table 3 ENDURANCE TEST DURATION AND USEFUL LIFE AS A FUNCTION OF CASE SIZE NOMINAL CASE SIZE Ø D x L (mm) Note Multiplier of useful life code: MBC245 CASE CODE ENDURANCE AT 50 C (h) USEFUL LIFE AT 50 C (h) 0 x 2 4 000 000 0 x 6 5 000 000 0 x 20 6 000 000 2.5 x 20 7 000 000 2.5 x 25 8 000 000 6 x 25 9 500 2000 6 x 3 20 500 2000 8 x 20 820 500 2000 8 x 25 825 500 2000 8 x 3 83 500 2000 8 x 35 22 500 2000 Revision: 02-May-208 5 Document Number: 28420
I A I R 4.8 MBC245 4.5 4.3 4.2 4. 4.0 3.9 3.8 3.7 3.6 3.5 3.4 3.3 3.2 3. 3.0 2.8.0.5 2.0 2.5 Lifetime multiplier 2.6 2.4 2 6.0 8.0 4.0 2.2 20 I A = Actual ripple current at 00 khz I R = Rated ripple current at 00 khz, 50 C () Useful life at 50 C and I R applied; see Table 4 2.0.8.6.4.2 ().0 0.8 0.5 0.0 40 50 60 70 80 90 00 0 20 30 40 50 60 T amb ( C) 600 400 200 00 50 30 Fig. 2 - Multiplier of useful life as a function of ambient temperature and ripple current load Table 4 MULTIPLIER OF RIPPLE CURRENT (I R ) AS A FUNCTION OF FREQUENCY FREQUENCY (Hz) U R (V) 50 00 300 000 3000 0 000 00 000 I R MULTIPLIER 6.3 0.60 0.70 0.85 0.90 0.95.00.00 0 0.60 0.70 0.85 0.90 0.95.00.00 6 0.60 0.70 0.85 0.90 0.95.00.00 25 0.60 0.70 0.85 0.90 0.95.00.00 35 0.50 0.65 0.80 0.85 0.90 0.95.00 50 0.35 0.50 0.65 0.80 0.90 0.90.00 63 0.35 0.50 0.65 0.80 0.90 0.90.00 Revision: 02-May-208 6 Document Number: 28420
Table 5 TEST PROCEDURES AND REQUIREMENTS NAME OF TEST Endurance Useful life Shelf life TEST REFERENCE IEC 60384-4 / EN30300 subclause 4.3 CECC 3030 subclause.8. IEC 60384-4 / EN30300 subclause 4.7 PROCEDURE (quick reference) T amb = 50 C; U R applied; for test duration see Table 3 T amb = 50 C; U R and I R applied; for test duration see Table 3 T amb = 50 C; no voltage applied; 000 h after test: U R to be applied for 30 min, 24 h o 48 h before measurement REQUIREMENTS ΔC/C: ± 5 % tan δ.3 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: % ΔC/C: ± 5 % tan δ.3 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: 02-May-208 7 Document Number: 28420
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