Conductive Polymer Aluminum Electrolytic Capacitors Surface Mount Type Series : HX (Guaranteed at 125 °C) Features ● Endurance 125 °C 1000 h voltage & Large capacitance (2 V.DC 560 μF to 25 V.DC 33 μF) ● Low ESR (4.5 mΩ max.) ● RoHS compliance, Halogen free ● High Specifications Series Category temp. range Rated voltage range Category voltage range Nominal cap.range Capacitance tolerance DC leakage current Dissipation factor (tan d) Surge voltage (V.DC) Endurance Damp heat (Steady state) HX –55 °C to +125 °C 2 V.DC to 2.5 V.DC, 10 V.DC to 25 V.DC 1.6 V.DC to 2 V.DC, 8 V.DC to 20 V.DC 15 μF to 560 μF ±20 % (120 Hz/+20 °C) 2 V.DC to 2.5 V.DC : I < 0.1 CV (μA) 2 minutes, 10 V.DC to 25 V.DC : I < 0.3 CV (μA) 2 minutes < 0.1 (120 Hz/+20 °C) Rated voltage × 1.25 [2 V.DC to 16 V.DC], × 1.15 [20 V.DC to 25 V.DC](15 °C to 35 °C) +125 °C, 1000 h, rated voltage applied Capacitance change Within ±20 % of the initial value tan d < 2 times of the initial limit DC leakage current Within the initial limit After storing for 500 hours at +60 °C, 90 % 2 V.DC to 2.5 V.DC 10 V.DC to 25 V.DC Capacitance change of initial measurd value +70 %, –20 % +60 %, –20 % tan d < 2 times of the initial limit 2 V.DC to 2.5 V.DC : Within the initial limit DC leakage current 10 V.DC to 25V DC : < 3 times of the initial limit Marking Dimensions (not to scale) – + H Cap. Polarity bar (Positive) P P Lot No. W1 W2 W2 L R.V. code Rated voltage mark d e A 2 V.DC 2.5 V.DC 10 V.DC Unit : mm C D E 16 V.DC 20 V.DC 25 V.DC Series HX L±0.2 W1±0.2 W2±0.1 H±0.1 7.3 4.3 2.4 1.9 P±0.3 1.3 ✽ Externals of figure are the reference. Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 03 Nov. 2015 Conductive Polymer Aluminum Electrolytic Capacitors Characteristics list Reflow ✽3 Series Rated voltage [105 °C] (V.DC) Category Capacitance voltage (±20 %) [125 °C] (μF) (V.DC) 470 2 1.6 560 330 2.5 2 470 HX 47 10 16 20 25 8 12.8 16 20 Case size (mm) Specification ✽1 L W H 7.3 4.3 1.9 7.3 4.3 1.9 ✽2 Ripple ESR current (mAr.m.s.) (mΩ max.) 5100 15 6300 9 Part number <Standard> Min.✽4 Packaging Q’ty (pcs) EEFHX0D471R 3500 EEFHX0D471R9 3500 7.3 4.3 1.9 7500 6 EEFHX0D471R6 3500 7.3 4.3 1.9 8500 4.5 EEFHX0D471R4 3500 7.3 4.3 1.9 5100 15 EEFHX0D561R 3500 7.3 4.3 1.9 8500 4.5 EEFHX0D561R4 3500 7.3 4.3 1.9 5100 15 EEFHX0E331R 3500 7.3 4.3 1.9 6300 9 EEFHX0E331R9 3500 7.3 4.3 1.9 7500 6 EEFHX0E331R6 3500 7.3 4.3 1.9 8500 4.5 EEFHX0E331R4 3500 7.3 4.3 1.9 5100 15 EEFHX0E471R 3500 7.3 4.3 1.9 6300 9 EEFHX0E471R9 3500 7.3 4.3 1.9 7500 6 EEFHX0E471R6 3500 7.3 4.3 1.9 8500 4.5 EEFHX0E471R4 3500 7.3 4.3 1.9 3200 40 EEFHX1A470R 3500 68 7.3 4.3 1.9 3200 40 EEFHX1A680R 3500 100 7.3 4.3 1.9 3200 40 EEFHX1A101R 3500 15 7.3 4.3 1.9 3200 40 EEFHX1C150R 3500 22 7.3 4.3 1.9 3200 40 EEFHX1C220R 3500 33 7.3 4.3 1.9 3200 40 EEFHX1C330R 3500 47 7.3 4.3 1.9 3200 40 EEFHX1C470R 3500 68 7.3 4.3 1.9 3200 40 EEFHX1C680R 3500 22 7.3 4.3 1.9 3200 40 EEFHX1D220R 3500 33 7.3 4.3 1.9 3200 40 EEFHX1D330R 3500 47 7.3 4.3 1.9 3200 40 EEFHX1D470R 3500 56 7.3 4.3 1.9 3200 40 EEFHX1D560R 3500 15 7.3 4.3 1.9 3200 40 EEFHX1E150R 3500 22 7.3 4.3 1.9 3200 40 EEFHX1E220R 3500 33 7.3 4.3 1.9 3200 40 EEFHX1E330R 3500 45 °C < T < 85 °C 85 °C < T < 105 °C 125 °C < T ✽1: Ripple current (100 kHz/ +45°C ), ✽2: ESR (100 kHz/+20 °C) ✽3: Please refer to the page of “Mounting Specifications”. ✽4: Please contact us when 500 pcs packing is necessary. Temperature compensation multipliers for ripple current Temp. 2 V.DC to 2.5 V.DC 10 V.DC to 25 V.DC Coefficient T < 45 °C 1.0 0.7 0.25 0.25 1.0 0.8 0.5 0.25 Ripple current should be controlled so that surface temperature of capacitor does not exceed the category temperature. Design and specifications are each subject to change without notice. Ask factory for the current technical specifications before purchase and/or use. Should a safety concern arise regarding this product, please be sure to contact us immediately. 03 Nov. 2015