CD 263 BK Series 2 000 - 3 000h at 105°C CD 269 PH CD 11GL GL · Standard 105°C 125°C longer life CD 287 GC CD 261 LK CD 263 BK CD 110 PT lower ESR 105°C Item Characteristics Operating Temperature Range (°C) -55 ~ +105 Voltage Range (V) 6,3 ~ 100 -40 ~ +105 160 ~ 500 Capacitance Range (µF) 0,1 ~ 15 000 Capacitance Tolerance (20°C, 120Hz) ± 20% Rated Voltage (V) Radial Leakage Current (µA) ILeakage (µA) 6,3 ~ 100 160 ~ 500 After 2 minutes at 20°C application of rated voltage, leakage current is not more than 0,01CV or 3, whichever is greater. After 1 minute at 20°C application of rated voltage, leakage current is not more than: CV ≤ 1 000 0,1 CV + 40 CV > 1 000 0,04CV + 100 C: Nominal Capacitance (µF) Rated Voltage (V) 6,3 Dissipation Factor (20°C, 120Hz) Tan δ (max) 10 16 25 35 50 63 V: Rated Voltage (V) 100 160 200 250 350 400 450 500 0,22 0,19 0,16 0,14 0,12 0,10 0,09 0,08 0,15 0,20 When nominal capacitance is more than 1 000µF add 0,02 on tanδvalue for each 1 000µF more. Rated Voltage (V) 6,3 Stability at Low Temperature (Impedance Ratio at 120Hz) 10 Z -25°C / Z +20°C 4 3 Z -40°C / Z +20°C 8 6 16 25 35 Lifetime Leakage Current Capacitance Change Dissipation Factor Condition: Applied Voltage Applied Current Applied Temperature Outlier Percentage 6,3 ~ 100 160 ~ 500 26 6 8 Load Life 6 Endurance Test 10 Shelf Life 2 000h 1 000h Not more than specified value Not more than specified value Not more than specified value Not more than specified value Within ± 30% of initial value Within ± 20% of initial value Within ± 20% of initial value Within ± 20% of initial value Not more than 300% of specified value Not more than 200% of specified value Not more than 150% of specified value Not more than 200% of specified value UR UR = 0 UR UR UR IR 1,4 x IR IR IR = 0 IR = 0 105°C 40°C 105°C 105°C 105°C ≤ 1% ≤ 1% 0% IEC 60384 0% Multiplier for Lifetime Lifetime Diagram 6,3 ~ 100V 10kHz 100kHz IA ––– 2.0 Lifetime Diagram 160 ~ 500V 2.5 CD 263 BK Series 0,32 0,40 0,70 0,80 1,00 10 ~ 47 0,40 0,50 0,80 0,90 1,00 100 ~ 220 0,56 0,70 0,90 0,90 1,00 330 ~ 1 000 0,64 0,80 0,90 1,00 1,00 CD 263 BK Series IA ––– 2.0 IR IR 1.5 0,1 ~ 4,7 After test: UR to be applied for 30min >24h before measurement Multiplier for Lifetime 2.5 Frequency 50Hz 120Hz 1kHz 3 3 >100 000h Frequency Coefficient Capacitance (µF) 100 160 200 250 350 400 450 500 Ø ≤ 8 : 1 000h Ø ≥ 10 : 2 000h Multiplier for Ripple Current Rated Voltage (V) 63 2 4 Useful Life Ø ≤ 8 : 2 000h Ø ≥ 10 : 3 000h 50 1.5 1.0 0.5 0.0 40 1.0 X32 X16 X8 X4 X2 X1 50 60 70 80 90 100 X32 0.5 Lifetime Multiplier 110 0.0 40 X16 X8 X4 X2 X1 Lifetime Multiplier 50 60 70 80 90 100 TA (˚C) 110 TA (˚C) 2 200 ~ 15 000 0,72 0,90 1,00 1,00 1,00 IA = actual ripple current at 100kHz, IA = actual ripple current at 120Hz, 0,47 ~ 330 0,80 1,00 1,30 1,40 1,60 IR = rated ripple current at 100kHz, 105°C IR = rated ripple current at 120Hz, 105°C Multiplier of Useful Life as a function of ambient temperature and ripple current load Multiplier of Useful Life as a function of ambient temperature and ripple current load Assistance needed? Please contact Jianghai Europe GmbH +49 (0) 2151 652088-72 or [email protected] CD 263 BK Series UR.DC (Surge Voltage) Code (V) Rated Capacitance (µF) 33 47 100 220 330 470 6,3 (7,2) 0J 1 000 2 200 3 300 4 700 6 800 10 000 15 000 22 33 47 100 220 330 470 10 (13) 1A 1 000 2 200 3 300 4 700 6 800 10 000 10 22 33 47 100 220 16 (20) 1C 330 470 1 000 2 200 3 300 4 700 6 800 25 (32) 1E 4,7 10 22 33 47 100 220 330 470 1 000 2 200 3 300 4 700 Max ESR Max Imp 20°C, 20°C, 120Hz 100kHz (Ω) 8,9 6,3 3,0 1,4 1,4 0,89 0,63 0,63 0,30 0,30 0,15 0,15 0,11 0,11 0,080 0,080 0,063 0,063 0,054 0,054 0,045 0,045 11,5 7,7 5,4 2,6 1,2 0,77 0,77 0,54 0,26 0,26 0,13 0,13 0,10 0,10 0,071 0,071 0,057 0,057 0,050 0,050 21,3 9,7 6,5 4,6 2,2 2,2 1,0 1,0 0,65 0,46 0,46 0,22 0,22 0,11 0,11 0,081 0,081 0,063 0,063 0,051 0,051 39,6 18,6 8,5 5,7 4,0 1,9 0,85 0,57 0,40 0,40 0,19 0,19 0,10 0,073 0,073 0,057 0,057 (Ω) 2,5 1,5 1,2 1,2 0,87 0,58 0,55 0,39 0,37 0,23 0,14 0,095 0,12 0,090 0,090 0,061 0,090 0,056 0,061 0,045 0,042 0,036 2,5 1,9 1,5 1,2 0,58 0,54 0,47 0,39 0,25 0,18 0,17 0,090 0,086 0,068 0,068 0,056 0,056 0,045 0,042 0,036 2,5 1,9 1,5 1,2 1,2 0,58 0,54 0,47 0,39 0,66 0,23 0,21 0,12 0,095 0,068 0,068 0,056 0,052 0,045 0,042 0,036 3,0 2,5 1,9 1,5 1,2 0,58 0,39 0,23 0,21 0,18 0,12 0,090 0,056 0,056 0,045 0,050 0,036 Max Imp -10°C, 100kHz Max Ripple Current 105°C, 100kHz Size ØDxL (Surge Voltage) Code (Ω) 5,0 3,0 2,4 2,4 1,74 1,16 1,10 0,78 0,74 0,46 0,28 0,19 0,24 0,18 0,18 0,122 0,180 0,112 0,122 0,090 0,084 0,072 5,0 3,8 3,0 2,4 1,16 1,08 0,94 0,78 0,50 0,36 0,34 0,180 0,172 0,136 0,136 0,112 0,112 0,090 0,084 0,072 5,0 3,8 3,0 2,4 2,4 1,16 1,08 0,94 0,78 1,32 0,46 0,42 0,24 0,19 0,136 0,136 0,112 0,104 0,090 0,084 0,072 6,0 5,0 3,8 3,0 2,4 1,16 0,78 0,46 0,42 0,36 0,24 0,18 0,112 0,112 0,090 0,100 0,072 (mArms) 105 120 130 180 180 220 250 315 435 500 720 1 000 882 1 050 1 120 1 670 1 380 1 740 1 750 2 110 2 040 2 580 92 105 120 130 220 230 265 315 500 615 761 1 050 1 010 1 300 1 250 1 740 1 570 2 110 1 910 2 580 92 105 120 130 150 220 250 290 315 350 500 610 825 961 1 300 1 200 1 740 1 490 2 110 1 830 2 580 85 92 105 120 130 220 315 500 429 615 705 1 050 1 740 1 440 2 110 1 880 2 580 (mm) 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 6,3 x 11,5 6,3 x 11,5 6,3 x 11,5 8 x 11,5 8 x 11,5 10 x 12,5 10 x 20 12,5 x 20 10 x 20 12,5 x 20 12,5 x 20 16 x 25 12,5 x 20 16 x 25 16 x 25 16 x 31,5 16 x 35,5 18 x 35,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 6,3 x 11,5 6,3 x 11,5 8 x 11,5 8 x 11,5 10 x 12,5 10 x 16 10 x 20 12,5 x 20 12,5 x 20 12,5 x 25 12,5 x 25 16 x 25 16 x 25 16 x 31,5 16 x 35,5 18 x 35,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 6,3 x 11,5 6,3 x 11,5 8 x 11,5 8 x 11,5 8 x 11,5 10 x 12,5 10 x 16 10 x 20 12,5 x 20 12,5 x 25 12,5 x 25 16 x 25 16 x 25 16 x 31,5 16 x 35,5 18 x 35,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 6,3 x 11,5 8 x 11,5 10 x 12,5 10 x 12,5 10 x 16 10 x 20 12,5 x 20 16 x 25 16 x 25 16 x 31,5 16 x 31,5 18 x 35,5 (V) UR.DC Rated Capacitance Max ESR 20°C, 120Hz Max Imp 20°C, 100kHz Max Imp -10°C, 100kHz Max Ripple Current 105°C, 100kHz Size ØDxL (µF) 4,7 10 22 33 (Ω) 33,9 16,0 7,3 4,9 3,4 3,4 1,6 1,6 0,73 0,49 0,49 0,34 0,34 0,16 0,16 0,085 0,085 0,065 0,065 0,051 1327 603 402 283 133 60,3 40,2 28,3 13,3 6,1 4,1 4,1 2,9 1,4 0,61 0,61 0,41 0,41 0,29 0,14 0,073 0,073 25,4 12,0 5,5 3,7 2,6 2,6 1,2 0,55 0,55 0,37 0,37 0,26 0,26 0,12 0,12 1 060 483 322 226 107 48,3 32,2 22,6 10,7 4,9 4,9 3,3 3,3 2,3 2,3 1,1 1,1 0,49 0,49 0,33 0,23 (Ω) 2,5 1,8 1,5 1,5 1,7 0,58 0,80 0,39 0,23 0,25 0,18 0,21 0,12 0,095 0,068 0,056 0,045 0,042 0,036 0,036 18,0 13,0 10,0 7,0 4,9 4,2 3,9 3,6 2,7 1,9 1,9 1,1 0,90 0,50 0,38 0,27 0,27 0,18 0,12 0,076 0,065 0,050 5,8 3,6 2,1 1,7 1,8 1,2 0,65 0,48 0,32 0,32 0,22 0,22 0,16 0,13 0,098 25,0 21,0 18,0 13,0 11,0 9,2 7,2 6,3 3,3 3,5 1,4 1,5 0,94 1,1 0,68 0,50 0,28 0,22 0,16 0,13 0,11 (Ω) 5,0 3,6 3,0 3,0 3,4 1,16 1,60 0,78 0,46 0,50 0,36 0,42 0,24 0,190 0,136 0,112 0,090 0,084 0,072 0,072 45,0 32,5 25,0 17,5 12,3 10,5 9,8 9,0 6,8 4,8 4,8 2,8 2,3 1,3 0,95 0,68 0,68 0,45 0,30 0,190 0,163 0,125 17,4 10,8 6,3 5,1 5,4 3,6 1,95 1,44 0,96 0,96 0,66 0,66 0,48 0,39 0,30 100 84,0 72,0 52,0 44,0 36,8 28,8 25,2 13,2 14,0 5,6 6,0 3,8 4,4 2,72 2,00 1,12 0,88 0,64 0,52 0,44 (mArms) 92 105 120 130 90 220 151 315 500 384 615 470 825 857 1 300 1 380 2 110 1 780 2 580 2 120 10 15 18 23 35 53 65 82 100 125 90 195 245 385 314 505 421 675 895 1 495 1 660 2 190 74 95 130 160 120 305 395 335 505 510 660 640 850 930 1 430 1,5 3,4 5,0 30 45 60 67 75 110 93 165 130 305 165 320 265 585 440 1 120 1 290 1 350 (mm) 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 6,3 x 11,5 6,3 x 11,5 8 x 11,5 10 x 12,5 10 x 12,5 10 x 16 10 x 16 10 x 20 12,5 x 20 12,5 x 25 16 x 25 16 x 31,5 16 x 35,5 18 x 35,5 18 x 35,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 6,3 x 11,5 6,3 x 11,5 8 x 11,5 10 x 12,5 10 x 16 10 x 16 10 x 20 12,5 x 20 16 x 25 16 x 35,5 18 x 35,5 5 x 11,5 5 x 11,5 6,3 x 11,5 6,3 x 11,5 6,3 x 11,5 8 x 11,5 10 x 12,5 10 x 16 10 x 20 10 x 20 12,5 x 20 12,5 x 20 12,5 x 25 16 x 25 16 x 31,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 5 x 11,5 6,3 x 11,5 6,3 x 11,5 8 x 11,5 8 x 11,5 10 x 12,5 10 x 12,5 10 x 16 10 x 20 12,5 x 20 12,5 x 25 16 x 25 16 x 25 16 x 31,5 47 100 35 (44) 1V 220 330 470 1 000 2 200 3 300 50 (63) 1H 4 700 0,1 0,22 0,33 0,47 1 2,2 3,3 4,7 10 22 33 47 100 220 330 470 1 000 2 200 4,7 10 22 33 47 63 (79) 1J 100 220 330 470 1 000 100 (125) 2A 0,1 0,22 0,33 0,47 1 2,2 3,3 4,7 10 22 33 47 100 220 330 470 Customer specific products and adaptions on request. Assistance needed? Please contact Jianghai Europe GmbH +49 (0) 2151 652088-72 or [email protected] 27 Radial Ratings for CD 263 BK Series CD 263 BK Series Ratings for CD 263 BK Series UR.DC (Surge Voltage) Code Rated Capacitance Max ESR 20°C, 120Hz Max Ripple Current 105°C, 120Hz (V) (µF) (Ω) (mArms) 0,47 1 2,2 424 199 90,5 60,3 60,3 42,4 42,4 19,9 19,9 9,1 9,1 6,1 4,3 2,0 2,0 1,0 0,61 424 199 90,5 60,3 60,3 42,4 42,4 19,9 19,9 9,1 6,1 4,3 2,0 1,0 424 199 90,5 90,5 60,3 60,3 42,4 42,4 19,9 9,1 6,1 4,3 4,3 2,0 1,3 0,9 3,3 4,7 160 (200) 2C 10 22 33 47 Radial 100 220 330 0,47 1 2,2 3,3 200 (250) 2D 4,7 10 22 33 47 100 220 0,47 1 2,2 3,3 250 (300) 2E 4,7 10 22 33 47 100 150 220 12 18 26 28 37 34 44 58 75 107 135 175 230 299 330 500 764 12 18 26 28 37 40 50 66 80 135 190 230 360 525 12 18 23 30 34 43 40 50 90 155 190 205 225 340 405 570 UR.DC Size ØDxL (Surge Voltage) Code Rated Capacitance Max ESR 20°C, 120Hz Max Ripple Current 105°C, 120Hz (mm) (V) (µF) (Ω) (mArms) (mm) 0,47 1 2,2 3,3 565 266 121 80,4 56,5 56,5 26,6 12,1 8,0 8,0 5,7 3,0 266 266 121 121 80,4 80,4 56,5 56,5 26,6 12,1 12,1 8,1 5,7 3,9 3,2 2,7 2,2 1,8 266 266 121 80,4 56,5 26,6 12,1 8,1 6,0 4,0 3,9 3,0 3,0 2,2 1,8 1,8 1,5 266 121 80,4 56,5 26,6 12,1 8,0 5,6 3,9 3,2 3,2 2,7 2,7 2,2 1,8 11 18 30 36 45 47 95 130 180 180 210 335 16 18 27 30 38 40 42 52 110 150 150 175 220 470 575 675 735 825 18 19 29 42 54 120 170 240 400 490 570 640 750 820 920 920 1100 21 35 48 63 120 180 240 405 560 610 640 800 800 840 890 6,3 x 11,5 6,3 x 11,5 8 x 11,5 10 x 12,5 10 x 12,5 10 x 16 10 x 20 12,5 x 20 12,5 x 25 16 x 25 16 x 25 18 x 40 6,3 x 11,5 8 x 11,5 8 x 11,5 10 x 12,5 10 x 12,5 10 x 16 10 x 16 10 x 20 12,5 x 20 12,5 x 25 16 x 25 16 x 25 16 x 25 18 x 25,5 18 x 31,5 18 x 36 18 x 40 20 x 41 8 x 11,5 10 x 12,5 10 x 16 10 x 20 10 x 20 12,5 x 20 12,5 x 25 16 x 25 16 x 31,5 16 x 35,5 18 x 31,5 18 x 31,5 18 x 36 18 x 40 18 x 46 20 x 41 22 x 41 10 x 12,5 10 x 16 10 x 20 12,5 x 20 12,5 x 25 16 x 25 16 x 31,5 18 x 31,5 18 x 36 18 x 36 18 x 40 18 x 46 20 x 41 22 x 45 22 x 45 6,3 x 11,5 6,3 x 11,5 6,3 x 11,5 6,3 x 11,5 8 x 11,5 6,3 x 11,5 8 x 11,5 8 x 11,5 10 x 12,5 10 x 16 10 x 20 10 x 20 12,5 x 20 12,5 x 25 16 x 25 16 x 31,5 18 x 36 6,3 x 11,5 6,3 x 11,5 6,3 x 11,5 6,3 x 11,5 8 x 11,5 8 x 11,5 10 x 12,5 10 x 12,5 10 x 16 10 x 20 12,5 x 20 12,5 x 20 16 x 25 18 x 31,5 6,3 x 11,5 6,3 x 11,5 6,3 x 11,5 8 x 11,5 8 x 11,5 10 x 12,5 8 x 11,5 10 x 12,5 10 x 16 12,5 x 20 12,5 x 25 12,5 x 25 16 x 25 16 x 31,5 18 x 25,5 18 x 36 350 (400) 2V 4,7 10 22 33 47 100 1 2,2 3,3 400 (450) 2G 4,7 10 22 33 47 68 82 100 120 150 1 450 (500) 2W 2,2 3,3 4,7 10 22 33 47 68 82 100 120 150 500 (550) 2H 180 1 2,2 3,3 4,7 10 22 33 47 68 82 100 120 150 Size ØDxL Customer specific products and adaptions on request. 28 Assistance needed? Please contact Jianghai Europe GmbH +49 (0) 2151 652088-72 or [email protected] Part Number System Order Code SMD, Radial, Snap-In EC R 1C Technology Terminal Type Rated Voltage Code 101 M Series Code Capacitance Code (in µF) Capacitance Tolerance = PT 0,47 = R47 ±20% = M SMD: 4V = 0G CD 11GL = GL 1,0 = 010 ±10% =K = LK 2,2 = 2R2 +20 / -0% = R Radial: CD 261X = QX 10 = 100 +20 / -10% = V Taped EC = Electrolytric SMD = V Capacitor Radial = R 2,5V = 0E Snap-In= S 6,3V = 0J PC = Polymer Capacitor PT 10V = 1A CD 110 CD 261 FF 25 0611 Lead Form Terminal/ Pitch Size Size ØDxL 4x7 Taped = FF 2,0mm = 20 35x80 45x100 = 45100 CD 262 = QM 100 = 101 +30 / -10% = Q Long Lead = LL 2,5mm = 25 CD 263 = BK 1 000 = 102 +50 / -10% = T Cut 5,0mm = CB 3,5mm = 35 25V = 1E CD 269 = PH 10 000 = 103 Cut 4,5mm = CC 5,0mm = 50 35V = 1V CD 269L = HL Cut 4,0mm = CD 7,5mm = 75 Cut 3,5mm = CE 10,0mm = 10 CD 281 CD 281L = LH = LL 63V = 1J CD 287 = GC CD 28L = QL 100V = 2A CD 293 = BZ Snap-In: 160V = 2C CD 294 = BW 4,0mm Pin Length = T/L4 2 Pin 180V = 2K CD 295 = BC 6,3mm Pin Length= T/L6 3 Pin = P3 200V = 2D CD 296 = KC 4 Pin = P4 250V = 2E CD 297 = BB 5 Pin = P5 315V = 2F CD 299 = PG = S4 Soldering Pin on request: alternative pin types 350V = 2V CD 29D = HR CD 29G = BA 400V = 2G CD 29H = QH 415V = 2P CD 29L = QL 420V = 2X CD 29U = CU 450V = 2W CD 801 = ZP 500V = 2H CD 804 = ZM 550V = 2Y CD 811 = ZN 575V = 2Z CD 840 = ZQ 600V = 2S CD 891 = ZJ 630V = J2 CD 892 = ZL CD 895 = ZK - = Standard for Specials only Rubber Type - = Standard 5x11,5 = 0511 V = PCV Sleeve F = Flat Rubber 6,3x11,5= 0611 E = PET Sleeve S = Stand-Off = 3580 Cut 3,0mm = CF 12,5mm = 12 on request: alternative lead forms (Keyed Polarity, axial, 90° - angle, others) 80V = 1K 385V = 2J = 0407 Terminal= T2 16V = 1C 40V = 1G Material Code = FF 20V = 1D 50V = 1H JE xxxxx = P2 preferred Polymer on request Technical Specification Radial Type Dimensions for loose, long-lead type (bulk) Order Code: LL L L≤7 L ≥ 11 ØD 3 4 5 6,3 8 5 6,3 8 F 1 1,5 2,0 2,5 3,5 2,0 2,5 3,5 Ø d 0,4 aMax 0,45 0,5 10 12,5 5,0 0,6 1,0 16 18 7,5 20 22 25 10,0 0,8 12,5 1,0 2,0 2,5 For diameter 20 pitch 7,5 on request. in mm Dimensions for loose, short cut leads (bulk) Order Code: CC (CB, CD, CE, CF) Straight Lead Bended Lead 2.5max Code l preferred 8 CB 5,0 ± 0,5 CC 4,5 ± 0,5 l CD CE CF 4,0 ± 0,5 3,5 ± 0,5 3,0 ± 0,5 in mm Assistance needed? Please contact Jianghai Europe GmbH +49 (0) 2151 652088-72 or [email protected] Part Number System Dimensions for Ammopack taping Order Code: FF (FD) item D A Ød P P0 P1 P2 F F1 W W0 W1 W2 H H0 tol. ± 0,5 ± 2,0 ± 0,05 ± 1,0 ± 0,2 ± 0,5 ± 1,0 + 0,8 - 0,2 ± 1,0 ± 0,5 min ± 0,5 max + 0,75 - 0,5 ± 0,5 4 7 0,45 12,7 12,7 2,5 3,5 9,0 1,5 - 5 12,0 18,5 5 18,0 17,5 16,0 7 0,45 12,7 12,7 2,5 3,5 9,0 1,5 - 5 12,0 18,5 5 18,0 17,5 16,0 11,5 0,5 12,7 12,7 2,5 3,5 5 5 18,0 12,0 9,0 1,5 7 0,45 12,7 12,7 2,5 3,5 5 5 18,0 12,0 9,0 1,5 11,5 0,5 12,7 12,7 2,5 3,5 5 5 18,0 12,0 9,0 1,5 11,5 0,6 12,7 12,7 3,5 3,5 5 5 18,0 12,0 9,0 1,5 14 0,6 12,7 12,7 3,85 6,35 5 5 18,0 12,0 9,0 16 0,6 12,7 12,7 3,85 6,35 5 5 18,0 12,0 10 12,5~20 0,6 12,7 12,7 3,85 6,35 5 5 18,0 12,5 20~25 0,6 15 15 5,0 7,5 25,4 12,7 3,85 6,35 5 5 16 20~25,5 0,8 30 15 3,75 7,5 7,5 7,5 Nominal 5 6,3 8 5,1 3,85 5,1 3,85 5,1 3,85 5,1 3,85 5,1 3,85 4,6 3,85 6,35 6,35 6,35 6,35 6,35 6,35 18,5 16,0 18,5 - 17,5 16,0 18,5 16,0 L ØD0 ∆h2 t max ± 0,5 max ± 0,2 11,0 4,0 1,0 0,7 11,0 4,0 1,0 0,7 11,0 4,0 1,0 0,7 11,0 4,0 1,0 0,7 11,0 4,0 1,0 0,7 11,0 4,0 1,0 0,7 Fig. Taping Code 1 FF 2 FF 1 FF 2 FF 1 FF 2 FF 1 FF 2 FF 1 FF 2 FF 3 FF 2 FF 18,5 - 20,0 16,0 1,5 20,0 16,0 11,0 4,0 1,0 0,7 2 FF 9,0 1,5 20,0 16,0 11,0 4,0 1,0 0,7 2 FF 12,0 9,0 1,5 18,5 - 11,0 4,0 1,0 0,7 3 FF 18,0 12,0 9 1,5 18,5 - 11,0 4,0 1,0 0,7 3 FF 4 FD 18,0 12,0 9,0 1,5 18,5 - 11,0 4,0 1,0 0,7 4 FD in mm Assistance needed? Please contact Jianghai Europe GmbH +49 (0) 2151 652088-72 or [email protected] 9 Life Time Estimation Lifetime Estimation of Aluminum Electrolytic Capacitors from Jianghai To estimate the Lifetime of a non-solid Aluminum Electrolytic Capacitor from Jianghai, the following formulas can be utilized. The Lifetime depends mainly on the ambient temperature, the ripple current and, within certain limits, the operating voltage applied. Other parameters may also affect the Lifetime. Moreover, L0 can be interpreted in many different ways, which has a fundamental influence on the numerical result. Jianghai offers a high transparency by publishing the different typical definitions of Lifetimes in each datasheet. Lifetime estimations are approximations by nature. Please let JIANGHAI EUROPE confirm any result before using it. The formulas given here do not constitute part of a contract nor of a specification. The formulas do not cover additional aging effects of certain electrolytic systems or other chemical effects. Please contact us should you need Lifetime estimates for Solid Electrolyte Polymer Capacitors. Also the dimensions of the components may have an effect. Forced cooling or other additional cooling-methods have a strong impact on the Lifetime and are not covered by the formulas. For the estimation and interpretation of Lifetime, a close collaboration with JIANGHAI EUROPE is strongly advised. Structural formula: L = L0 · KT · KR · KV Where: L L0 KT KR KV 1. Total Lifetime Lifetime under Rated Ripple Current at Upper Category Temperature (see catalogue) Temperature Factor Ripple Current Factor Voltage Factor KT Temperature Factor: Aluminum Electrolytic Capacitors follow roughly the 10 K rule of Arrhenius. It is possible to estimate the Lifetime by rule of thumb: When the operational temperature is reduced by 10 K, the Lifetime will double. The formula for KT in detail is: T0 - TA KT = 2 10K Where: 2. T0 Rated Temperature TA Ambient Temperature, Upper Category Temperature KR Ripple Current Factor: The influence of ripple current on Lifetime can be estimated according to the following formula: KR = Ki With: A= 1 – A ∆ T0 10K () IA IR 2 Where: IA Actual Rated Ripple Current IR Ripple Current at Upper Category Temperature (databook value) ΔT0 Core Temperature Rise of the capacitor (typically 5K for T0 = 105°C and 10K for T0 = 85°C) Ki Basis, defined as T0 = 105°C IA > IR: Ki = 4 IA ≤ IR: Ki = 2 T0 = 85°C Ki = 2 14 Assistance needed? Please contact Jianghai Europe GmbH +49 (0) 2151 652088-72 or [email protected] Life Time Estimation 3. KV Voltage Factor: For Radial Electrolytic Capacitors, this part of the formula has no impact (KV = 1). But for some bigger capacitors like Snap-In and Screw-Terminal types with rated voltages above 350V, the operating voltage will affect their Lifetime. It is expressed as follows: KV = Where: UA -n UR ( ) UR Rated Voltage UA Actual Operating Voltage n Exponent, defined as: UA 0,5 ≤ UR UA 0< UR ≤1 → n = 2,5 < 0,5 → n = 0 4. Frequency Correction Factors: If the actual Ripple Currents are not given at the same frequency like I0, weighing factors need to be applied. If 1 If 2 ( ) ( ) IA = 2 + Ff 1 IA If1 ... Ifn Ff1 ...Ffn 2 Ff 2 + ... If n ( ) 2 Ff n Actual Rated Ripple Current (normalized) Ripple Currents at different frequencies Frequency Correction Factors for different frequencies 5. JIANGHAI Electrolytic Capacitor Lifetime Estimation Formula L = L0 · KT · KR · KV T0-TA = L0· 2 T0 = 105°C T0 = 85°C 0,5 ≤ 0< UA UR UA UR 10K IA · Ki 2 [1- ( I ) ]· R ∆ T0 10K · UA -n (U ) R IA > IR → Ki = 4 IA ≤ IR → Ki = 2 → Ki = 2 ≤1 → n = 2,5 < 0,5 → n = 0 Assistance needed? Please contact Jianghai Europe GmbH +49 (0) 2151 652088-72 or [email protected] 15 Handling Precautions Jianghai Electrolytic Capacitors Warranty: The information contained in this catalogue does not form part of any quotation or contract, is believed to be accurate, reliable and up to date. Quality data are based on the statistical evaluations of a large quantity of parts and do not constitute a guarantee in a legal sense. However, agreement on these specifications does not mean that the customer may not claim for replacement of individual defective capacitors within the terms of delivery. We cannot assume any liability beyond the replacement of defective components. This applies in particular to any further consequences of component failure. Furthermore it must be taken into consideration that the figures stated for lifetime, failure rates and outlier percentages refer to the average production status and are therefore to be understood as mean values (statistic expectations) for a large number of delivery lots of identical capacitors. These figures are based on application experience and data obtained from preceding tests under normal conditions, or – for purpose of accelerated aging – more severe conditions. JIANGHAI reserves the right to change these specifications without prior notice. Any application information given is advisory and does not form part of any specification. The products are not primarily designed for use in life support applications, devices or systems where malfunction of these products can reasonably be expected to result in personal injury. JIANGHAI customers using or selling these products for use in such applications without prior written consent of JIANGHAI do so at their own risk and agree fully to indemnify JIANGHAI for any damage resulting from such improper use or sale. This version of the catalogue supersedes all previous versions. Latest versions of datasheets can be found on our homepage: www.jianghai-europe.com For more details on precautions and guidelines for aluminum electrolytic capacitors, please refer to CENELEC Technical Report CLC/TR 50454:2008 E, “Guide for the application of aluminum electrolytic capacitors”. Polarity: Electrolytic capacitors are polar and shall never be used with incorrect polarity, as there is a possible danger of shorting or destruction. Rated Voltage Ur: The Rated Voltage is marked on the capacitor and defined in the datasheets as Ur. This voltage should never be exceeded and is the maximum peak voltage including any ripple voltages allowed to avoid a shortening of the lifetime or damage of the capacitor. When a ripple current is applied to the capacitor, the sum of the peak ripple voltage and bias DC voltage shall never exceed the Rated Voltage. It might be necessary to lower the maximum allowed bias DC voltage, when certain ripple currents are applied to the capacitor. Surge Voltage: Maximum Voltage, which may be applied to the capacitor for short periods of time: max. 1000 cycles of 30 sec. per 6 min., max. 5 pulses per hour. Capacitance drift +/- 15% max. Reverse Voltage: Reverse voltages or voltages < 0 V are not allowed. Recovery Voltage: After charging and discharging a capacitor there might still be a voltage between the terminals, which is built up internally due to dielectric absorption. Please take action that this load does not damage other devices or scare the workers during production (sparks possible). Temperature Range: Use electrolytic capacitors only within the specified operating temperature range. Over-Current: Currents exceeding the rated ripple currents should be avoided. Ripple Current/Voltage: The combined value of DC voltage and peak AC voltage (due to ripple current) shall not exceed the rated voltage and shall never be < 0 V. Use of aluminum electrolytic capacitors under ripple current with wide amplitudes is equivalent to quick charge-discharge operation. Rapid Charging/Discharging: Rapid Charging/Discharging generates severe heat and gas may be emitted which may lead to explosion. Consult JIANGHAI about specially designed capacitors suitable for such kind of applications. Balancing resistors: Balancing resistors should be utilized if capacitors are used in serial connection. Please choose low-tolerance resistors to limit voltage drift. Charge-Discharge Proof: JIANGHAI capacitors are charge-discharge proof, which means that 106 switching cycles will cause capacitance reduction of less than 10%. Lifetime: There are many different lifetime definitions known without any true standard definition. Take special care when capacitors are compared that the capacitors fulfill the needed requirements. JIANGHAI publishes all conditions to be as transparent as possible. In the case of lifetime tests with additional ripple currents, the bias DC voltage must be reduced, so that the sum of bias DC voltage and the peak of the ripple voltage does not exceed the Rated Voltage Ur. • Load Life: Period of time, during which the technical parameters of all capacitors stay within the given limits. JIANGHAI defines this without allowing for outliers. • Useful Life: defined like load life, but a given percentage of components may be outside the defined limits. Useful life data are usually calculated within a confidence level of 60%. See further details in specifications and data sheets. Outlier percentage: ≤ 1%. • Endurance Test: IEC 60384-4 defines the acceptable drift criteria of electrical parameters after the endurance tests (continuous voltage test). • Shelf Life: Definition of time with acceptable drift of capacitor parameters after storage at upper category temperature without load. JIS-C-5102-1994 Vibration and mechanical stress: Capacitors are sensitive to vibration and mechanical forces applied on the leads. Do not use capacitors, which have been dropped onto a rigid surface. Insulation: If any defect of the sleeve is visible, the component should not be used – same for any kind of visible damage. A capacitor should be electrically isolated from the following parts: Aluminum case, cathode lead wire, anode lead wire and circuit pattern, and auxiliary terminal of snap-in type. The PVC sleeve is not recognized as an isolator and therefore the standard capacitor should not be used in a place where insulation function is needed. Please contact JIANGHAI if higher grade of insulation is required. Environmental Conditions: • Avoid direct contact with water, salt solution, oil, dewing conditions • Halogens generally, especially fumigation treatment with bromides and flame retardent agents containing halogens must be avoided. • Avoid exposing to direct sunshine, ozone, ultraviolet rays and x-ray radiation. • Air Pressure: Max. 150kPa, min. 8kPa. • No heavy air pressure changes are allowed. • Do not use or store in an environment containing any hazardous gas (e.g., hydrogen sulphide, sulphurous acid, nitrous acid, chlorine, ammonia, bromine, methyl bromide, other halogens) or acidic or alkaline solutions. Storage: • Temperature 5 to 30°C, Humidity below 75%. • Electrolytic capacitors may accumulate charge naturally during storage. In this case discharge through a 1kOhm resistor before use (Recovery Voltage). • Leakage current may be increased after long storage time. In this case the capacitor should be subjected to the rated voltage treatment through a 1kOhm resistor before use for 1 hour, then it should be discharged through a resistor of about 1 Ohm/Volt. • Storage times above 1 year should be avoided or rated voltage treatment may be necessary. • In accordance to IEC 60384-4 electrolytic capacitors are subject to a reforming process before acceptance testing. Rated voltage is applied via a series resistance (100Ω: Ur ≤ 100VDC, 1kΩ: Ur > 100VDC). Soldering: Soldering conditions (temperature, times) should be within specified conditions, especially for SMD components. Avoid high soldering temperatures as this may reduce lifetime or damage the capacitor. Do never dip the capacitor body into molten solder. Flux should not be adhered to the capacitor’s body but only to its terminals. For details and different methods please contact us. Cleaning and Coating: Do not use fixing agents or cleaning substances containing halogens and the epoxy resin coating materials. Also never use solvents containing: Halogenated hydrocarbons, alkali, petroleum, trichloroethylene/-ethane, xylene, acetones, trichlorotrifluoroethane, tetrachloroethylene, methylenechloride, chloroform, acetates, ketones, esters, chlorides and bromides. In case of questions see detailed instructions. Mounting: Other devices, which are mounted near the capacitor, should not touch the capacitor. Additional heat coming from other components near the capacitor may reduce the lifetime of the capacitor. Do never bend or twist the capacitor after soldering to avoid stress on the leads. Radial capacitors are not protected against mechanical forces on the leads. Forces on the pins might damage the capacitor. No printed circuit board tracks are allowed between the lead pads of the capacitor. Screw Terminal capacitors should only be mounted in an upright position. Transport: Avoid fumigation and spraying insecticides (especially with bromides) in the import or export procedures which can cause corrosion. This applies also to the finished devices. Maintenance: Periodical inspection should be carried out for the capacitor: visual inspection to check pressure relief open or leakage of electrolyte, electrical characteristics as leakage current, capacitance, and dissipation factor. Electrolyte and Separator paper: Electrolyte and separator paper used in Aluminum Capacitors may be flammable. Also electrolyte is electrically conductive. Therefore in case electrolyte gets in contact with PC board it may cause corrosion of circuit pattern or cause short circuit between patterns, and may lead to smoke generation or ignition in worst case. Caution during Use of Capacitors: Do not touch the terminals of capacitors. Keep the capacitor free from conductive solution, such as acids, alkali and so on. Ensure that the operating environment of the equipment into which the capacitor has been built is within the specified conditions mentioned in the catalogue or specification sheets. Safety Vent: The safety vent needs some free space to open properly. Allow for free headroom of at least 2mm for diameter ≤16mm, more than 3mm for diameter 18-35mm, more than 5mm for case diameter 40mm and larger. Emergency Actions: When the pressure relief vent is open and some gas blows out from the capacitor, please turn the main switch of the equipment off or pull out the plug from the power outlet immediately. During safety vent operation, extremely hot gas (>100°C) may blow out of the capacitors. Do not stand close to the capacitors. In case of eye contact, rinse the open eye(s) with clean water immediately. In case of ingestion, gargle with water immediately, do not swallow. Do not touch electrolyte but wash skin with soap and water in case of skin contact. Definition of electrical parameters: Separate documents as application notes, equivalent circuit diagrams and so on are available on request. Packaging: Please refer to the data book for details. Further information is available on request. Jianghai Europe Electronic Components GmbH v0712 Assistance needed? Please contact Jianghai Europe GmbH +49 (0) 2151 652088-72 or [email protected] 109