Low Impedance Features Used in communication equipments, switching power supply, industrial measuring instruments, etc. Load life 000~000 Hrs at Safety vent construction design. For detail specifications, please refer to Engineering Bulletin No. E RoHs Complince ifications Item Operating Temperature Range Rated Voltage Range Capacitance Range Capacitance Tolerance Leakage Current (+0, max) Dissipation Factor (tam ) Low Temperature Characteristics (0Hz) Load Life Shelf Life -40 to + to 0 VDC 0.47 to 0 F I 0.0 CV or ( A) After minutes whichever is greater measured with rated working voltage applied. (+0,at 0Hz) Performance Characteristics 0%(0Hz,+0 ) For capacitance 00 F, add % per another 00uF. Impedance ratio max. Multiplier for Ripple Current vs. Frequency D.F. (%)max. D.F. (%)max. Z- Z+0 Z-40 Z+0 Z- Z+0 Z-40 Z+0 - to + to 40 VDC 0.47 to 470 F I 0.0 CV ( A) After minutes withrate working voltage applied. For capacitance 00 F, add 0. per another 00uF for - +0 add per another 00uF for -40 +0 Test conditions D Life hours Duration time : as right Ambient temperature : + - 000 Applied voltage : Rated DC working voltage 000 After test requirements at +0 000 Capacitance change : 0% of the initial measured value Dissipation factor : 00% of the initial specified value (-40V : 000hrs) Leakage current : The initial specified value Test conditions Duration time : 00Hrs Ambient temperature : + Applied voltage : None After test requirements at +0 : Same limits as Load life. Pre-treatment for measurements shall be conducted after application of DC working voltage for 0 minutes. 4 00 00 4 0 4 0 0 0 0 9 40 7 0 40-0 0 CAP( F) Frequency(Hz) 0(0) CAP 0.47 CAP 0 0. 0 CAP 00 0. 00 CAP 0. 0 0.9 0. 0.7 0.7 0.7 0.0 0.4 0.7 K 0. 0.9 0.90 0.9 K 0.97 0.97 0.9 0.9 0K-0K Diagram of Dimensions:(unit:mm) D F d.0. 0...0.0 0. D D D L. L... 7. 7. 0. 4
Case Size () x 74 4.7 x 9.7 x 0. x 0. x 4 47 x 0.4 x. x. x 0. x 70.0 x 9 0.9 0 x 70.00 x 0. x 0. 0 x 7 0.9 x 0 0.7 x 70 0.47 0 x 0 0. x 90 0. x 90 0.4 x 0.90 x 0.7 x 0 0.4 x. 70 0.4 x 0 0. 0 x 0. x 40 0. x. 40 0. 70 x 0 0.4 x. 0. x. 0 0. 0 x. 90 0.4 x. 40 0.7 x. 90 0. 470 x. 40 0. x. 0 0. x. 70 0.4 0 x. 490 0. x. 0. x. 7 0. x. 0 0.7 0 x. 0 0. x. 7 0. x 0 0.09 0 x 0 0.0 x 90 0. x 40 0.07 00 x. 70 0.7 x 40 0.07 x0 0 0.0 x 70 0. 00 x 0 0. x 00 0.07 x 0.0 x 0 0.4 x0 0.0 x0 0 0.0 x0 0.0 0 x0 0 0. x 0 0.0 x0 0 0.047 x 70 0.0 00 x0 0 0.090 x0 70 0.04 x 000 0.0 x 470 0.09 x x0 0 0.04 700 x 40 0.07 x0 900 0.0 x 40 0.0 x0 0.07 00 x0 0 0.0 x 000 0.0 x 790 0.00 x0 00 0.00 4700 x0 0 0.0 x 0 0.00 x. 0 0.0 x 900 0.040 00 x0 40 0.04 x 90 0.0 x. 990 0.0 00 x 40 0.0 x. 0 0.0 x. 00 0.04 00 x. 0 0.07 x. 770 0.0 x. 0 0.04 000 x. 700 0.04 x. 0 0.04 x4 0 0.04 0 x. 90 0.0 () (0) Radial Ripple Current ( ma, rms ) at 0KHz Max Impedance ( ) at 0 0KHz
() 0.47 x.4 x 40 4. x.. x 0. 4.7 x.9 x. x 90. x 7. x 9.09 x.9. x 0.9 x 97. x.9 x. x.7 x 0. x.9 x 0. x 0. x.4 x. x 0 0. 47 x 90. x 0 0. x 90 0. x 0.00 x 0 0.79 x 0.4 x. 0.49 x 0 0. x. 0 0. x. 7 0. 0 x 70 0. x. 40 0. x. 40 0.7 0 x 0 0. x. 0. x. 0 0. 0 x. 4 0. x. 40 0.9 x. 90 0. x. 4 0. x. 0 0.7 x 0 0.4 0 x. 0 0. x. 70 0.4 x 90 0.09 70 x. 70 0. x 9 0.09 x0 90 0.07 0 x. 0 0.4 x 0 0.079 x 0 0.0 470 x 00 0.07 x0 00 0.0 x0 90 0.0 0 x 0 0.07 x 0.0 x0 0 0.0 0 x0 0.0 x0 70 0.0 x 90 0.044 0 x0 0.0 x0 700 0.04 x0 0 0.09 x 0 0.0 00 x0 0 0.04 x 900 0.04 x 00 0.0 00 x 90 0.04 x0 0.09 x. 0 0.0 x 0.0 x 70 0.0 x. 70 0.04 0 x 0.0 x. 700 0.0 x. 0 0.04 00 x 0 0.0 x. 70 0.04 x. 040 0.0 700 x 0 0.0 x. 0 0.09 x4 070 0.07 00 x. 40 0.0 x. 0 0.0 x4 0 0.0 4700 x. 0 0.04 x4 00 0.04 00 x. 70 0.04 00 x4 0 0.04 (44) 0 () Ripple Current ( ma, rms ) at 0KHz Max Impedance ( ) at 0 0KHz
(79) 0.47 x.4 x 0.9 x 9.44 x 4 x 0 4.4 x 4 7.. x 4. x 4. x.. x. x. x. 70 4. 4.7 x x 7. x. 7 4.. x 9.9 x 0. x. 9.. x 0. x.9 x 0. x.7 x.77 x 0.9 x 40 0.0 x. 0 0. x0 0. x. 70 0. x. 0 0.9 x0 0. 47 x. 00 0. x. 70 0. x0 0 0.9 x. 0 0. x. 0.4 x0 40 0.7 x 440 0.4 x 70 0. x. 40 0. x 470 0. x 4 0. 0 x 0.4 x 0 0. x 00 0.47 0 x 0 0. x 0 0. x 0 0. 0 x 700 0. x0 70 0.74 x. 0 0. x0 00 0. x0 0 0.4 x. 70 0. 0 x0 0 0.00 x 0 0. x. 0 0.9 70 x0 0 0.0 x0 0. x. 90 0. 0 x0 0 0.0 x 440 0. x4 00 0. 470 x 0 0.0 x. 0 0.09 0 x 0 0.049 x. 70 0.0 0 x0 90 0.04 x. 790 0.0 0 x 0 0.0 x. 40 0.07 00 x. 0 0.04 x4 90 0.0 00 x. 0 0.0 x. 7 0.0 0 x4 000 0.07 0 () (00) Ripple Current ( ma, rms ) at 0KHz Max Impedance ( ) at 0 0KHz Radial 7
00 (0) 0.47 x 9. x 40. x 40. x 4 7.7 x 0.4 x. 0 7.90 x.. x. x. 7 4. x. 7. x. 4.0. x. 7 4. x. 7. x. 90.0 x 0. 4.7 x. 7.00 x..0 x. x. 4. x. 0.9 x0.77. x. 90 4.0 x. 9.9 x 0.7 x. 9. x..7 x0. x. x 4.0 x 4.4. x.7 x..0 x. x 40. x.0 x 4.0 x.4 x. 44.7 x 00. x.4 x.0 x0 0.40 x0. x0 0. x0 0.00 x 4. x0.0 x0 0 0.0 x0 0 0.9 x 90 0. 47 x0 0 0. x0 0.0 x 9 0.7 x 0. x 40 0.4 x. 40 0. x0 40 0.4 x 40 0.4 x. 40 0.0 x 40 0.4 x 40 0. x 490 0. x. 47 0.7 x 700 0.0 x. 7 0.7 x. 4 0. 0 x. 0 0. x. 47 0. x. 0. 0 x 740 0. x. 9 0. x. 0.4 x. 0 0. x. 70 0. x4 0 0. 0 x. 40 0. x. 70 0.4 x4 90 0.0 x. 0 0. x. 70 0. x. 90 0.0 x. 0 0. 0 x. 0 0.9 x. 0 0.0 x4 90 0. x4 9 0.9 0 (00) 0 () (40) 0.47 x.00 x 4.00 x. 0 4.00 x..0 x. 7.00 x. 4 7.. x..00 x.. x 0. x. 4.00. x..00 x. 7.00 x 9.00 4.7 x. 9.00 x.0 x0.00. x 7.00 x 9.0 x0 4.7 x. 9 9.00 4.0. x 7.0 x.00 x0 4.0 x0 90.0 x0.70 x.7 x0 9. x 0.70 x.0 x 440. x 40.0 x 40.0 47 x 0.0 x. 0. x. 0.0 x. 0 0. x. 70 0.90 x. 0 0.9 x. 00 0.0 x. 70 0.0 x. 70 0.7 0 x. 900 0. x. 0 0.70 x4 0 0.74 40 (470) 40 (00) Ripple Current ( ma, rms ) at 0KHz Max Impedance ( ) at 0 0KHz