ALUMINUM ELECTROLYTIC CAPACITORS 1D) [ For Low Impedance & Low E.S.R ] 105 C Single-Ended Lead Aluminum Electrolytic Capacitors For Hight Frequency Used ELECTRICAL CHARATERISTICS Working Voltage :6.3 ~ |00V Operating Temperature : -40 ~ +105C Rate Capacitance Range : 4.7 ~ | 5000uUF Capacitance Tolerance : -20 ~ +20% DC Leakage Current (uA) :|=0.0 1 CV(HA) or 3.0HA, whichever is greater. ( After 2 Minutes Application of OC Working Voltage at 25C ) Dissipation Factor : at 120 Hz, 25C WV): 63 10 16-25 35 50 63~ {00 DF): 17) 12) OUT) BT For capacitor whose capacitance exceeds |O0QuF The value of DF(%) is increased by 2% for every addition of | O00pF. Load Life : 2000 Hours at 105C Assured with Full Rated Maximum Ripple Current Applied (a) Capacitance Change : Within 20% of Initial Value (b) Dissipation Factor : NOt Exceed 200% of Initial Requirement (c) Leakage Current : Not Exceed the Initial Requirement Shelf Life : }O00 Hours, No Voltage Applied, at }05C (a) Capacitance Change : Within 20% of Initial Value (b) Dissipation Factor : Not Exceed 200% of Initial Requirement (c) Leakage Current : Not Exceed 200% of Initial Requirement DESCRIPTION Used in switching regulator applications in computers. . Terminal equipment, tele-communications, etc. Low ES.R., high permissible ripple current at high frequency and higher operating temperture and high reliability even at higher operating temperature (-40C to +105C). High temperature load life at 105C for 2000 hours. For detail specifications, please refer to Engineering Bulletin No.2037 DIAGRAM OF DIMENSIONS Dimensions : mm D F de Vinyt Steeve ~ fo Rubber End Seal pe 5.0 2.0 05 6.0 2.5 la i 8.0 35 pee etn Sin Sin 10.0 50 0.6 LsI2=L+1.Smax __ L216=L+2.0max 12.0CASE SIZE OF STANDARD PRODUCTS (De = 6mm with Safety Vent at Can Bottom) Dxb:mm CAP. (uF) RATED VOLTAGE WV 6.3 (8) 10 (13) 16 (20) 25 (32) 35 (44) 50 (63) 63 (79) 100 (125) 47 4x5 4x3 Sx 5x1 5x il 68 4x5 Her 3x Sx 1] Sx II 5x | 10 4x5 axe 4x3 gx 5x II 5x1 6x I is 4x5 ee 3x3 exe ae Sx It 6x Bx || 2 x3 3x3 ox: ext 5x 4 Sx 1 6x1) Bx I 33 2x3 exe ext 5x1} 5x1 6x1 6x II 85 7 exe ext 5x II 5x II 6x II 6x Bx 1 ox 20 68 ae 5x II 5x It 5x4 6x Bx Ii Bx lox 19 100 oxy 5x II 5x 11 6x II Bx 1 Bx II bx lo, 19x32 120 5x I 5x | 6x 1 6x I Bx iI Be, 6 x20. 9X58 150 6x1 6x1 6x II Bx I Bx II oxo, 10x33 19 x 38 220 6x11 6x II 8 x I Bx II bx, 8x2o. 19x38 13 x 25 2 meant RR, BREE 470 8x II Bx I P85 8x20. 10x 19 19x35 3 x 25 16x 32 680 10x 12 isi ae ae 13x36 [3 x25 16x38 |6 x 36 620 iden tn es OKI N99 RH 1686 BHO 1200 8x20. 10x 19 19x33 19 x38 13x 25 16 x 36 18 x 40 1500 10x19 ox 23 19x38 13 x 25 exe 18 x 36 = BR as BE tox 3300 19x 26 (3x 25 12x32 16 x 32 18 x 36 4700 13x 25 |2% 33 16 x 36 18 x 36 18 x 40 6800 12x 32 2x48 18 x 36 18 x 40 8200 12x52 16 x 36 1B x 36 10000 16 x 36 18 x 36 18 x 40PERMISIBLE RIPPLE CURRENTAT [00KHZ, [05C (mA,rms) IMPEDANCE AT J00KHZ, 25C (Ohm) uF WVE LF WVE 63 10 16 25 35 50 63 100 63 10 16 25 35 50 63 100 47 so. BS 1001S 47 goo 390 300 300 4.00 68 so FR, leo 130 68 300 388 6388 200 = 2001.50 10 50 By 8g 165130180 10 goo 300 380 200 50 1501.20 is 50 9B FOB R175 150190 5 g09 BBR GR OR 130 140 1401.00 a & %> le iw m0 mw nm 3@ 3@ 7% i ow om = BR WR 200 m0 os ROY Pg 19) ow) eo 47 3, BR 90 200265310440 47 700 150 149 139109 6000072 68 dR (38 t90 200265310 410.490 ce 190 142 30 100060050 0330.30 loo =|28 190 200265310 410440520 joo) fS$2 130 1.00 60050-0338 0300.16 120 190-200-265 310 410. 440490700 120130 100 060 050 033 4030 027 O24 Is0 200 265 310s #10.ss#40-'s490520- 900 501.00 060 050 033 030 027 024 Ok 220-265 310. 410s 440 490.8520 700sst120ia22sHD S033. 030027024 B09 330 310 410 440 490 520 700 900 1350 330 050 033 030 027 024 018 O12 0073 470 410 440 490 520. 700, 900.ss*d20s570.'si4TOsiiBB BD. Fs O24 IB --I2-0.095 O06 680 440 490 520 700 900 1/20 1350 1610 680 030 027 024 O18 012 0095 0085 0052 820 490 520 700 900 1120 1350 1570 1810 820 027 024 O18 012 0.095 0085 0070 0.045 1000 520. 700 90011201350. 1570: 1610-2240 1000 024 O18 O12 0095 0085 0070 0060 0039 (200 700 900-1120 :1350.-15701610.- 1810 (200 018 O12 0095 0085 0070 0.060 0052 i500 900 1120. 1350s1S7O.1610.s 1810-2240 1500 012 0095 0.085 0070 0080 0052 0045 2200 1120 1350 1570 1610 1710-2240 2200 0.095 0.085 0.070 0060 0.052 0045 0.039 3300 1350 1570 1610 1710 1810 3300 0,085 0.070 0.060 0.052 0.045 09.039 4700 1570 1610 1710 1810 2240 4700 0.070 0060 0052 0045 0.039 6800 1610 1710 1810 2240 6800 0.060 0.052 0048 0.039 8200 710 1810 2240 8200 0.052 0.048 0.039 10000 i810 2240 2850 }0000 0.048 0.039 0.035 {5000 2240 [5000 0.039 LOAD LIFE Capacitance Change Ratio CIC (4). 1O00uF 35v Dissipation Factor Change tond (4) 1 1900 1000uF 35v 2000 500 Leakage Current Change 1000 Time In Hours LOOOWE 334 2000