Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 FEATURES * Polarized aluminium electrolytic capacitors, non-solid handbook, 4 columns MBG935 * Large types with reduced dimensions, cylindrical aluminium case, insulated with a blue sleeve * Provided with keyed polarity * Pressure relief on the top of the aluminium case * Charge and discharge proof * Long useful life: 12000 hours at 85 C * High ripple current capability Fig.1 Component outlines. * High resistance to shock and vibration. APPLICATIONS * General purpose, industrial and audio/video systems high ripple current handbook, 4 columns PED PW * Smoothing and filtering 050/052 PLL PW 162/163 long life 105 oC PEC PW 051/053 MBG083 * Standard and switched mode power supplies * Energy storage in pulse systems. QUICK REFERENCE DATA VALUE DESCRIPTION 051 Case size (Dnom x Lnom in mm) 053 25 x 30 to 40 x 100 680 to 150000 F Rated capacitance range (E6 series), CR 68 to 2200 F 20% Tolerance on CR Rated voltage range, UR 10 to 100 V 200 to 400 V -40 to +85 C Category temperature range Endurance test at 85 C 5000 hours Useful life at 85 C 12000 hours Useful life at 40 C, 1.4 x IR applied 200000 hours Shelf life at 0 V, 85 C 500 hours Based on sectional specification IEC 384-4, CECC 30300 Detail specification DIN 45910-T129 (without approval) former DIN 41238 Climatic category IEC 68 1997 Nov 13 40/085/56 1 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 Selection chart for CR, UR and relevant nominal case sizes (D x L in mm) Preferred types in bold CR (F) UR (V) 10 16 25 40 63 100 200 385 400 68 - - - - - - - 25 x 30 25 x 30 100 - - - - - - - 25 x 40 25 x 40 150 - - - - - - 25 x 30 30 x 40 30 x 40 220 - - - - - - 25 x 40 35 x 40 35 x 40 330 - - - - - - 30 x 40 35 x 50 35 x 50 - - - - - - - 40 x 40 40 x 40 470 - - - - - - 35 x 40 40 x 50 40 x 50 680 - - - - - 25 x 30 35 x 50 40 x 70 40 x 70 - - - - - - 40 x 40 - - 1000 - - - - - 25 x 40 40 x 50 40 x 100 40 x 100 1500 - - - - - 30 x 40 40 x 70 - - 2200 - - - - 25 x 30 35 x 40 40 x 100 - - 3300 - - - 25 x 30 25 x 40 35 x 50 - - - - - - - - 40 x 40 - - - - - 25 x 30 25 x 40 30 x 40 40 x 50 - - - 6800 - 25 x 30 25 x 40 30 x 40 35 x 40 40 x 70 - - - 10000 25 x 30 25 x 40 30 x 40 35 x 40 35 x 50 40 x 100 - - - - - - - 40 x 40 - - - - 25 x 40 30 x 40 35 x 40 35 x 50 40 x 70 - - - - - - - 40 x 40 - - - - - 30 x 40 35 x 40 35 x 50 40 x 50 40 x 100 - - - - - - 40 x 40 - - - - - - 35 x 40 35 x 50 40 x 50 40 x 70 - - - - - - 40 x 40 - - - - - - - 47000 35 x 50 40 x 50 40 x 70 40 x 100 - - - - - 40 x 40 - - - - - - - - 68000 40 x 50 40 x 70 40 x 100 - - - - - - 100000 40 x 70 40 x 100 - - - - - - - 150000 40 x 100 - - - - - - - - 4700 15000 22000 33000 1997 Nov 13 2 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 MECHANICAL DATA AND PACKAGING QUANTITIES handbook, halfpage 1 5 2 2.5 handbook, halfpage D + 1 max. 2 5 10 0.1 1 L + 5 max. L 1.3 (3x) 12.5 0.1 5.1 0.1 CCA975 Dimensions in mm; for L see Table 1. 1 = positive terminal; 5 = negative terminal. Case D = 25 mm. MGB266 Dimensions in mm. Case D = 25 mm. Fig.3 Mounting hole diagram viewed from component side. Fig.2 Printed wiring pin version. handbook, halfpage 1 5 2.5 3 handbook, halfpage 2 2 D + 1 max. 3 5 15 L 0.1 1 L + 5 max. 1.3 (4x) 7.5 0.1 17.5 CCA976 MGB267 5.1 0.1 Dimensions in mm. Case D = 30 mm. Dimensions in mm; for L see Table 1. 1 = positive terminal; 5 = negative terminal. Case D = 30 mm. Fig.5 Fig.4 Printed wiring pin version. 1997 Nov 13 0.1 3 Mounting hole diagram viewed from component side. Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 handbook, halfpage 1 5 3 2.5 2 handbook, halfpage D + 1 max. 2 3 5 15 0.1 1 L + 5 max. L 1.3 (4x) 7.5 0.1 17.5 MGB268 5.1 0.1 CCA977 Dimensions in mm; for L see Table 1. 1 = positive terminal; 5 = negative terminal. Case D = 35 mm. Dimensions in mm. Case D = 35 mm. Fig.7 Fig.6 Printed wiring pin version. Table 1 0.1 Mounting hole diagram viewed from component side. Physical dimensions, mass and packaging information; see Figs 2, 4, 6 and 8 NOMINAL CASE SIZE D x L (mm) Dmax (mm) Lmax (mm) MASS (g) PACKAGING QUANTITIES (units per box) CARDBOARD BOX DIMENSIONS lxwxh (mm) 25 x 30 26 35 24 100 290 x 280 x 45 25 x 40 26 45 28 100 290 x 280 x 55 30 x 40 31 45 38 100 340 x 330 x 55 35 x 40 36 45 51 50 390 x 198 x 55 35 x 50 36 45 66 50 390 x 198 x 65 40 x 40 41 45 78 50 440 x 223 x 55 40 x 50 41 55 82 50 440 x 223 x 65 40 x 70 41 75 110 50 440 x 223 x 85 40 x 100 41 105 176 50 440 x 223 x 115 1997 Nov 13 4 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 handbook, halfpage 1 4 2 5 3 2.5 handbook, halfpage D + 1 max. 3 2 20 5 4 0.1 1 L L + 5 max. 1.3 (5x) 10 0.1 17.5 20 CCA978 0.1 0.1 MGB269 5.1 0.1 Dimensions in mm; for L see Table 1. 1 = positive terminal; 5 = negative terminal. Case D = 40 mm. Dimensions in mm. Case D = 40 mm. Fig.9 Fig.8 Printed wiring pin version. Mounting hole diagram viewed from component side. * Rated capacitance (in F) Mounting * Tolerance on rated capacitance (M for 20%) When a number of capacitors are connected in a bank, they must not be closer together than 15 mm, when no derating of ripple current and/or temperature is applied. * Rated voltage (in V) * Climatic category in accordance with "IEC 68" * Date code (year and week) in accordance with "IEC 62" Pin numbers 2, 3 and 4 (if present) must be free from the electrical circuit. * Code for factory of origin * Name of manufacturer MARKING * Polarity of the terminals and `-' sign to indicate the negative terminal, visible from the top and/or side of the capacitor The capacitors are marked (where possible) with the following information: * Code number * Code for basic specification in accordance with "IEC 384-4-1" and "CECC 30301". 1997 Nov 13 5 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 ELECTRICAL DATA AND ORDERING INFORMATION Unless otherwise specified, all electrical values in Tables 2 and 3 apply at Tamb = 20 C, P = 86 to 106 kPa, RH = 45 to 75%. SYMBOL Ordering example Electrolytic capacitor 051 series DESCRIPTION 10000 F/25 V; 20% CR rated capacitance at 100 Hz IR rated RMS ripple current at 100 Hz, 85 C or at 20 kHz, 70 C IL1 max. leakage current after 1 minute at UR IL5 max. leakage current after 5 minutes at UR ESR max. equivalent series resistance at 100 Hz Z max. impedance at 10 kHz Table 2 Nominal case size: 30 x 40 mm Catalogue number: 2222 051 56103. Electrical data and ordering information for 051 series; preferred types in bold UR (V) CR 100 Hz (F) NOMINAL CASE SIZE D x L (mm) IR 100 Hz 85 C (A) IR 20 kHz 70 C (A) IL1 1 min (mA) IL5 5 min (mA) ESR 100 Hz (m) Z 10 kHz (m) CATALOGUE NUMBER 2222 ... ..... 10 10000 25 x 30 3.1 5.9 0.60 0.20 51 40 051 54103 15000 25 x 40 4.1 7.8 0.90 0.30 37 30 051 54153 22000 30 x 40 5.0 9.5 1.32 0.44 30 25 051 54223 33000 35 x 40 5.5 10.4 1.98 0.66 28 24 051 54333 47000 35 x 50 6.8 12.9 2.82 0.94 23 20 051 54473 47000 40 x 40 5.8 10.4 2.82 0.94 29 22 051 44473 16 25 68000 40 x 50 7.1 13.5 4.08 1.36 24 20 051 54683 100000 40 x 70 9.2 17.4 6.00 2.00 19 16 051 54104 150000 40 x 100 12.0 22.7 9.00 3.00 16 14 051 54154 6800 25 x 30 3.1 5.9 0.65 0.22 53 42 051 55682 10000 25 x 40 4.0 7.6 0.96 0.32 39 34 051 55103 15000 30 x 40 5.0 9.5 1.44 0.48 31 27 051 55153 22000 35 x 40 5.5 10.4 2.12 0.71 29 26 051 55223 33000 35 x 50 6.7 12.7 3.17 1.06 23 21 051 55333 33000 40 x 40 5.7 10.8 3.17 1.06 30 24 051 45333 47000 40 x 50 7.0 13.3 4.52 1.51 24 20 051 55473 68000 40 x 70 9.2 17.4 6.53 2.18 19 16 051 55683 100000 40 x 100 12.0 22.7 9.60 3.20 16 14 051 55104 4700 25 x 30 2.9 5.5 0.71 0.24 60 42 051 56472 6800 25 x 40 3.9 7.4 1.02 0.34 42 34 051 56682 10000 30 x 40 4.8 9.1 1.50 0.50 34 27 051 56103 15000 35 x 40 5.3 10.0 2.25 0.75 30 26 051 56153 22000 35 x 50 6.5 12.3 3.30 1.10 24 21 051 56223 22000 40 x 40 5.7 10.8 3.30 1.10 31 24 051 46223 33000 40 x 50 7.0 13.3 4.95 1.65 25 20 051 56333 47000 40 x 70 9.2 17.4 7.05 2.35 19 16 051 56473 68000 40 x 100 12.0 22.7 10.20 3.40 16 14 051 56683 1997 Nov 13 6 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring NOMINAL CASE SIZE D x L (mm) IR 100 Hz 85 C (A) IR 20 kHz 70 C (A) IL1 1 min (mA) IL5 5 min (mA) ESR 100 Hz (m) Z 10 kHz (m) CATALOGUE NUMBER 2222 ... ..... 3300 25 x 30 2.9 5.5 0.80 0.27 87 63 051 57332 4700 25 x 40 3.8 7.2 1.13 0.38 62 47 051 57472 6800 30 x 40 4.7 8.9 1.64 0.55 49 38 051 57682 10000 35 x 40 5.2 9.8 2.40 0.80 48 37 051 57103 15000 35 x 50 6.3 11.9 3.60 1.20 37 28 051 57153 15000 40 x 40 5.6 10.6 3.60 1.20 50 35 051 47153 22000 40 x 50 5.8 11.0 5.28 1.76 39 28 051 57223 33000 40 x 70 7.8 14.8 7.92 2.64 28 21 051 57333 47000 40 x 100 10.4 19.7 11.28 3.76 22 17 051 57473 2200 25 x 30 2.5 4.7 0.84 0.28 83 62 051 58222 3300 25 x 40 3.3 6.2 1.25 0.42 58 42 051 58332 4700 30 x 40 4.1 7.8 1.78 0.60 49 38 051 58472 6800 35 x 40 4.5 8.5 2.57 0.86 48 37 051 58682 10000 35 x 50 5.4 10.2 3.78 1.26 37 28 051 58103 10000 40 x 40 4.6 8.7 3.78 1.26 52 37 051 48103 15000 40 x 70 7.5 14.2 5.67 1.89 29 24 051 58153 22000 40 x 100 10.0 19.0 8.32 2.77 22 19 051 58223 UR (V) CR 100 Hz (F) 40 63 PEC-PW 051/053 680 25 x 30 1.74 3.30 0.41 0.14 190 130 051 59681 1000 25 x 40 2.34 4.44 0.60 0.20 130 90 051 59102 1500 30 x 40 2.95 5.59 0.90 0.30 95 67 051 59152 2200 35 x 40 3.69 7.00 1.32 0.44 71 53 051 59222 3300 35 x 50 4.37 8.29 1.98 0.66 55 41 051 59332 3300 40 x 40 4.16 7.89 1.98 0.66 64 48 051 49332 4700 40 x 50 5.21 9.88 2.82 0.94 49 38 051 59472 6800 40 x 70 6.97 13.22 4.08 1.36 35 28 051 59682 10000 40 x 100 9.50 18.00 6.00 2.00 26 21 051 59103 100 1997 Nov 13 7 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring Table 3 PEC-PW 051/053 Electrical data and ordering information for 053 series; preferred types in bold UR (V) CR 100 Hz (F) NOMINAL CASE SIZE D x L (mm) IR 100 Hz 85 C (A) IR 20 kHz 70 C (A) IL1 1 min (mA) IL5 5 min (mA) ESR 100 Hz (m) Z 10 kHz (m) CATALOGUE NUMBER 2222 ... ..... 200 150 25 x 30 0.70 1.33 0.18 0.06 1000 770 053 52151 220 25 x 40 0.94 1.78 0.26 0.09 680 525 053 52221 330 30 x 40 1.27 2.41 0.40 0.14 460 360 053 52331 470 35 x 40 1.66 3.15 0.57 0.19 320 250 053 52471 680 35 x 50 2.19 4.15 0.82 0.28 220 170 053 52681 680 40 x 40 2.17 4.11 0.82 0.28 220 170 053 42681 1000 40 x 50 2.86 5.42 1.20 0.40 150 115 053 52102 1500 40 x 70 3.81 7.22 1.80 0.60 110 85 053 52152 40 x 100 5.20 9.86 2.64 0.88 80 60 053 52222 68 25 x 30 0.47 0.89 0.16 0.06 2200 1480 053 58689 100 25 x 40 0.64 1.21 0.23 0.08 1500 1020 053 58101 150 30 x 40 0.90 1.71 0.35 0.12 1000 700 053 58151 220 35 x 40 1.15 2.18 0.51 0.17 680 480 053 58221 330 35 x 50 1.53 2.90 0.77 0.26 450 340 053 58331 330 40 x 40 1.52 2.88 0.77 0.26 450 340 053 48331 470 40 x 50 1.96 3.72 1.09 0.36 320 260 053 58471 680 40 x 70 2.70 5.12 1.58 0.53 220 190 053 58681 40 x 100 3.70 7.02 2.31 0.78 180 140 053 58102 2200 385 1000 68 25 x 30 0.54 1.02 0.16 0.06 2100 1000 053 56689 100 25 x 40 0.73 1.38 0.24 0.08 1400 780 053 56101 150 30 x 40 0.98 1.86 0.36 0.12 950 520 053 56151 220 35 x 40 1.28 2.43 0.52 0.17 650 400 053 56221 330 35 x 50 1.67 3.17 0.79 0.26 480 280 053 56331 330 40 x 40 1.67 3.17 0.79 0.26 480 280 053 46331 470 40 x 50 2.12 4.02 1.12 0.37 340 220 053 56471 680 40 x 70 2.90 5.50 1.63 0.54 235 155 053 56681 40 x 100 4.05 7.68 2.40 0.80 160 110 053 56102 400 1000 1997 Nov 13 8 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 Additional electrical data PARAMETER CONDITIONS VALUE Voltage Surge voltage for short periods 250 V versions Us = 1.15 x UR 385 V versions Us = 1.1 x UR Urev 1 V Reverse voltage Current Leakage current after 1 minute at UR IL1 0.006CR x UR + 4 A after 5 minutes at UR IL5 0.002CR x UR + 4 A case D = 25 mm max. 25 nH Inductance Equivalent series inductance (ESL) case D = 30 and 35 mm max. 30 nH case D = 40 mm max. 35 nH Capacitance (C) MGB271 handbook, 4 columns 1.1 2 C C0 1, 3 1.0 1 0.9 2, 3 0.8 Curve 1: UR = 100 V and 200 V. Curve 2: UR = 10 V, 16 V, 25 V, 40 V and 63 V. Curve 3: UR = 385 V. C/C0 = capacitance at 20 C and 100 Hz. 40 20 0 20 40 60 80 100 o T amb ( C) Fig.10 Typical multiplier of capacitance as a function of ambient temperature. 1997 Nov 13 9 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 MGB270 1.1 handbook, 4 columns C C0 4 1 1.0 1 2 0.9 3 Curve 1: UR = 100 V and 200 V. Curve 2: UR = 40 V and 63 V. Curve 3: UR = 25 V and 385 V. Curve 4: UR = 10 V and 16 V. C/C0 = capacitance at 20 C and 100 Hz. 4 0.8 10 10 2 10 3 10 4 f (Hz) Fig.11 Typical multiplier of capacitance as a function of frequency. Equivalent series resistance (ESR) MGB272 handbook, 4 columns 1.4 3 ESR ESR 0 1.2 2 1 1.0 1 0.8 2 3 0.6 Curve 1: UR = 10 V, 16 V and 25 V. Curve 2: UR = 40 V, 63 V and 385 V. Curve 3: UR = 100 V and 200 V. ESR0 = typical at 20 C and 100 Hz. 10 10 2 10 3 10 4 Fig.12 Typical multiplier of typical ESR as a function of frequency. 1997 Nov 13 10 f (Hz) 10 5 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 MGB273 2 10 handbook, 4 columns ESR ESR 0 1 10 2 3 1 3 2 1 Curve 1: UR = 385 V. 10 1 Curve 2: UR = 100 V and 200 V. 50 Curve 3: UR = 10 V to 63 V. ESR0 = typical at 20 C and 100 Hz. Case D x L = 25 x 30, 25 x 40, 30 x 40 and 35 x 40 mm. 0 50 100 T amb ( oC) Fig.13 Typical multiplier of ESR as a function of ambient temperature. MGB274 10 2 handbook, 4 columns ESR ESR 0 1 10 2 3 4 4 2,3 1 1 Curve 1: UR = 385 V. Curve 2: UR = 200 V. 1 10 Curve 3: UR = 100 V. 50 Curve 4: UR = 10 V to 63 V. ESR0 = typical at 20 C and 100 Hz. Case D x L = 35 x 50, 40 x 40, 40 x 50, 40 x 70 and 40 x 100 mm. 0 50 T amb ( oC) Fig.14 Typical multiplier of ESR as a function of ambient temperature. 1997 Nov 13 11 100 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 Impedance (Z) 10 MGB275 2 handbook, 4 columns Z Z0 1 10 2 3 4 1 4 2,3 1 Curve 1: UR = 385 V. Curve 2: UR = 200 V. Curve 3: UR = 100 V. 10 1 50 Curve 4: UR = 10 V to 63 V. Z0 = typical impedance at 20 C and 10 kHz. Case D x L = 25 x 30, 25 x 40, 30 x 40 and 35 x 40 mm. 0 50 100 T amb ( oC) Fig.15 Typical multiplier of impedance as a function of ambient temperature. MGB276 10 2 handbook, 4 columns Z Z0 1 10 2 3 4 4 3 2 1 1 Curve 1: UR = 385 V. Curve 2: UR = 200 V. Curve 3: UR = 100 V. 10 1 Curve 4: UR = 10 V to 63 V. 50 Z0 = typical impedance at 20 C and 10 kHz. Case D x L = 35 x 50, 40 x 40, 40 x 50, 40 x 70 and 40 x 100 mm. 0 50 T amb ( oC) Fig.16 Typical multiplier of impedance as a function of ambient temperature. 1997 Nov 13 12 100 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring 10 2 handbook, 4 columns Z ( ) PEC-PW 051/053 MGB277 1 2 10 3 4 5 6 7 8 1 Curve 1: 68 F, 385 V. Curve 2: 150 F, 200 V. Curve 3: 680 F, 100 V. Curve 4: 2200 F, 63 V. Curve 5: 3300 F, 40 V. Curve 6: 4700 F, 25 V. Curve 7: 6800 F, 16 V. Curve 8: 10000 F, 10 V. Case D x L = 25 x 30 mm. Tamb = 20 C. 10 10 1 2 102 10 103 104 105 106 f (Hz) 10 7 Fig.17 Typical impedance as a function of frequency. MGB278 10 2 handbook, 4 columns Z ( ) 1 2 10 3 1 Curve 1: 100 F, 385 V. Curve 2: 220 F, 200 V. Curve 3: 1000 F, 100 V. Curve 4: 3300 F, 63 V. 10 Curve 5: 4700 F, 40 V. Curve 6: 6800 F, 25 V. Curve 7: 10000 F, 16 V. Curve 8: 15000 F, 10 V. 10 4 5 6 7 8 1 2 10 10 2 10 3 10 4 10 5 Case D x L = 25 x 40 mm. Tamb = 20 C. Fig.18 Typical impedance as a function of frequency. 1997 Nov 13 13 10 6 7 f (Hz) 10 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 MGB279 10 2 handbook, 4 columns Z ( ) 1 2 10 3 1 Curve 1: 150 F, 385 V. Curve 2: 330 F, 200 V. Curve 3: 1500 F, 100 V. Curve 4: 4700 F, 63 V. Curve 5: 6800 F, 40 V. Curve 6: 10000 F, 25 V. Curve 7: 15000 F, 16 V. Curve 8: 22000 F, 10 V. Case D x L = 30 x 40 mm. Tamb = 20 C. 10 10 4 5 6 7 8 1 2 102 10 103 104 105 106 f (Hz) 10 7 Fig.19 Typical impedance as a function of frequency. MGB280 10 2 handbook, 4 columns Z ( ) 1 10 2 3 1 Curve 1: 220 F, 385 V. Curve 2: 470 F, 200 V. Curve 3: 2200 F, 100 V. Curve 4: 6800 F, 63 V. Curve 5: 10000 F, 40 V. Curve 6: 15000 F, 25 V. Curve 7: 22000 F, 16 V. Curve 8: 33000 F, 10 V. 10 10 1 4 5 6 7 8 2 10 10 2 10 3 10 4 10 5 Case D x L = 35 x 40 mm. Tamb = 20 C. Fig.20 Typical impedance as a function of frequency. 1997 Nov 13 14 10 6 7 f (Hz) 10 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 MGB281 10 2 handbook, 4 columns Z ( ) 1 10 2 1 Curve 1: 330 F, 385 V. Curve 2: 680 F, 200 V. Curve 3: 3300 F, 100 V. Curve 4: 10000 F, 63 V. Curve 5: 15000 F, 40 V. Curve 6: 22000 F, 25 V. Curve 7: 33000 F, 16 V. Curve 8: 47000 F, 10 V. Case D x L = 35 x 50 and 40 x 40 mm. Tamb = 20 C. 10 10 1 3 4 5 6 7 8 2 102 10 103 104 105 106 f (Hz) 10 7 Fig.21 Typical impedance as a function of frequency. MGB282 10 2 handbook, 4 columns Z ( ) 10 1 2 1 Curve 1: 470 F, 385 V. Curve 2: 1000 F, 200 V. Curve 3: 4700 F, 100 V. Curve 4: 22000 F, 40 V. Curve 5: 33000 F, 25 V. Curve 6: 47000 F, 16 V. Curve 7: 68000 F, 10 V. Case D x L = 40 x 50 mm. Tamb = 20 C. 10 10 1 3 4 5 6 7 2 10 102 103 104 105 Fig.22 Typical impedance as a function of frequency. 1997 Nov 13 15 106 f (Hz) 10 7 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 MGB283 10 2 handbook, 4 columns Z ( ) 10 1 2 1 3 4 Curve 1: 680 F, 385 V. Curve 2: 1500 F, 200 V. Curve 3: 6800 F, 100 V. Curve 4: 15000 F, 63 V. Curve 5: 33000 F, 40 V. Curve 6: 47000 F, 25 V. Curve 7: 68000 F, 16 V. Curve 8: 100000 F, 10 V. Case D x L = 40 x 70 mm. Tamb = 20 C. 10 1 5 6 7 8 10 2 10 102 103 104 105 106 f (Hz) 10 7 Fig.23 Typical impedance as a function of frequency. MGB284 10 2 handbook, 4 columns Z ( ) 10 1 2 1 3 Curve 1: 1000 F, 385 V. Curve 2: 2200 F, 200 V. Curve 3: 10000 F, 100 V. Curve 4: 22000 F, 63 V. 4 10 Curve 5: 47000 F, 40 V. Curve 6: 68000 F, 25 V. Curve 7: 100000 F, 16 V. Curve 8: 150000 F, 10 V. 10 1 5 6 7 8 2 10 102 103 104 105 Case D x L = 40 x 100 mm. Tamb = 20 C. Fig.24 Typical impedance as a function of frequency. 1997 Nov 13 16 106 f (Hz) 10 7 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 RIPPLE CURRENT AND USEFUL LIFE Table 4 Multiplier of ripple current (IR) as a function of frequency FREQUENCY (Hz) IR MULTIPLIER 50 0.83 100 1.00 200 1.10 400 1.15 1000 1.19 2000 1.20 MGA453 2.4 handbook, full pagewidth 2.3 IA IR 2.2 2.1 2.0 1.9 1.8 1.7 1 life multiplier 2 1. 1.6 5 1. 2 1.5 5 2. 3 1.4 4 5 1.3 8 10 1.2 15 1.1 20 60 0.8 80 0.5 0.0 40 (1) 30 1.0 50 60 70 80 Tamb ( oC) 90 IA = actual ripple current at 100 Hz and 85 C. IR = rated ripple current at 100 Hz and 85 C. (1) Useful life at 85 C and IR applied: 12000 hours. Fig.25 Multiplier of useful life as a function of ambient temperature and ripple current load. 1997 Nov 13 17 Philips Components Product specification Non-solid Al - electrolytic capacitors Power Economic Printed Wiring PEC-PW 051/053 SPECIFIC TESTS AND REQUIREMENTS General tests and requirements are specified in data handbook PA01, section "Tests and Requirements". Table 5 Test procedures and requirements TEST NAME OF TEST Endurance REFERENCE IEC 384-4/ CECC 30300 subclause 4.13 PROCEDURE (quick reference) Tamb = 85 C; UR applied; 5000 hours REQUIREMENTS UR 100 V; C/C: 15% UR > 100 V; C/C: 10% Z 2 x spec. limit IL5 spec. limit Useful life CECC 30301 subclause 1.8.1 Tamb = 85 C; UR and IR applied; 12000 hours UR 100 V; C/C: 45% UR > 100 V; C/C: 30% Z 3 x spec. limit IL5 spec. limit no short or open circuit, no visible damage total failure percentage: UR 100 V: 1%; UR > 100 V: 3% Shelf life (storage at high temperature) 1997 Nov 13 IEC 384-4/ CECC 30300 subclause 4.17 Tamb = 85 C; no voltage applied; C/C: 10% 500 hours; I 2 x spec. limit after test: UR to be applied for 30 minutes, L5 24 to 48 hours before measurement 18