CONDUCTIVE POLYMER ALUMINUM SOLID CAPACITORS

CONDUCTIVE POLYMER ALUMINUM SOLID CAPACITORS FEH Series Radial Lead, 125 C Low CUSTOMER APPROVAL : *Contents in this sheet are subject to change without prior notice.

1. Features Ultra Low & high ripple current capability Endurance: 2000 hours at 125 C Compliant to the RoHS directive Suitable for industrial power supply, medical equipment & automotive application 2. Specifications Item Performance Characteristics Operating Temperature range -55 + 125 C Voltage Range Tolerance 6.3V ~ 100V ± 20% (at 120 Hz / 20 C) Surge Voltage Voltage x 1.15 Leakage Current Dissipation Factor (tan δ) Temperature Characteristics (Impedance ratio at 100 KHz) Within the specified value as in standard rating Less than or equal to the specified value at 20 C, 120 Hz Z (-25 C) / Z (+20 C) 1.15 Z (-55 C) / Z (+20 C) 1.25 The following specifications shall be satisfied when the capacitors are restored to 20 C after the rated voltage is applied for 6.3V~25V 2,000 hours, 35V 1,500 hours at 125 C. Endurance change ± 30% of the initial value D. F. (Tan δ) 300% of initial specified value Leakage current 300% of initial specified value Initial specified value or less The following specifications shall be satisfied when the capacitors are restored to 20 C after subjecting them at 60 C, 90 to 95% RH for 1,000 hours Bias Humidity Test change ± 20% of the initial value D. F. (Tan δ) 150% of initial specified value Leakage current 150% of initial specified value Initial specified value or less The capacitors shall be subjected to 1,000 cycles each consisting of charge with the surge voltage specified at 125 C for 30 seconds through a protective resistor (R=1KΩ) and discharge for 5 minutes 30 seconds. Surge Voltage Test change ± 20% of the initial value D. F. (Tan δ) 150% of initial specified value Leakage current 150% of initial specified value Initial specified value or less Failure Rate 0.5% per 1,000 hours maximum (Confidence level 60% at 125 C) * In case of any doubt arises, measure the leakage current after voltage applied for 120 minutes at 125 C. *Contents in this sheet are subject to change without prior notice.

3. Outline and Dimension Unit : mm φd +0.5max 6.3 8 10 φd ± 0.05 0.50 0.60 0.60 P 2.5 3.5 5.0 α (max) 1.0 1.5 1.5 4. Part Number Coding Rule FEH 100 M 10V 611 TB2.5 Series Tolerance voltage Size Packaging Reserved 125 C, Low Code 1µF 1R0 4.7µF 4R7 47µF 470 470µF 471 4,700µF 472 47,000µF 473 470,000µF 474 Tolerance Code ± 20% M ± 10% K Voltage Code 6.3V 6.3V 10V 10V 16V 16V 50V 50V 100V 100V Size Code 6.3 x 11 611 88 812 8 x 21 821 10 x 10 1010 1012 10 x 21 1021 Style Lead Cut (length mm) Tape/Ammo (pitch mm) Code C(L) TB(P) 5. Frequency coefficient of allowable ripple current Frequency Coefficient 120Hz f < 1KHz 0.05 1KHz f < 10KHz 0.30 10KHz f < 100KHz 0.70 100KHz f < 300KHz 1.00

6. Standard Products Table (φd Lmm) (µf) voltage (Vdc) 6.3 10 16 25 30 35 50 63 100 10 6.3 x 11 6.3 x 11 15 33 47 56 6.3 x 11 68 6.3 x 11 10 x 10 10 x 10 82 100 6.3 x 11 120 150 10 x 10 180 220 270 330 8 x 21 390 470 560 680 10 x 10 820 1000 8 x 21 1200 1500 10 x 21 10 x 21 10 x 21 10 x 21 10 x 21 * Please contact our sales representative for the product availability in cells.

7. Standard Ratings voltage (V.DC) (µf) Case Size D x L (mm) Tan δ Leakage Current (µa) (mω max./ 20 C 100KHz to 300KHz) ripple current ma rms, 100 KHz Tx 105 C 105 C < Tx 125 C Part Number 330 0.12 1,056 13 4,400 1,760 FEH331M6.3V88 470 0.12 592 8 5,210 1,760 FEH471M6.3V812 560 6.3 x 11 0.12 700 7 5,600 1,620 FEH561M6.3V611 6.3V 560 0.12 705 9 5,200 2,080 FEH561M6.3V88 820 0.08 1,033 7 5,860 2,020 FEH821M6.3V1012 1,500 0.10 1,890 15 3,940 2,020 FEH152M6.3V812 1,500 0.10 1,890 13 5,560 2,020 FEH152M6.3V1012 680 10 x 10 0.12 1,360 13 4,820 1,820 FEH681M10V1010 10V 820 0.12 1,640 12 4,000 1,840 FEH821M10V812 1000 0.12 2,000 11 4,000 2,160 FEH102M10V812 330 0.12 1,056 13 4,400 1,760 FEH331M16V88 470 0.12 1,504 13 4,400 1,760 FEH471M16V88 470 0.12 1,504 11 5,400 2,160 FEH471M16V812 16V 820 0.12 2,624 11 5,400 2,160 FEH821M16V812 1,000 0.12 3,200 11 6,100 2,440 FEH102M16V1012 1,000 8 x 21 0.12 3,200 11 6,100 2,440 FEH102M16V821 1,200 0.12 3,840 11 6,100 2,240 FEH122M16V1012 1,500 0.12 4,800 11 6,100 2,240 FEH152M16V1012 220 0.12 1,350 16 4,750 1,900 FEH221M25V812 330 0.12 1,350 16 4,750 1,900 FEH331M25V812 25V 470 0.12 2,350 16 4,750 1,900 FEH471M25V812 470 0.12 2,350 14 5,050 2,020 FEH471M25V1012 680 0.12 3,400 14 5,050 2,020 FEH681M25V1012 30V 270 0.12 1,620 16 3,300 1,320 FEH271M30V812 47 0.12 329 28 2,700 1,080 FEH470M35V88 47 6.3 x 11 0.12 300 32 3,200 1,280 FEH470M35V611 68 0.12 476 50 2,600 1,040 FEH680M35V88 100 0.12 700 23 3,400 1,360 FEH101M35V812 150 0.12 1,050 23 3,400 1,360 FEH151M35V812 35V 220 0.12 1,540 23 3,400 1,360 FEH221M35V812 220 0.12 1,540 21 3,900 1,560 FEH221M35V1012 330 8 x 21 0.12 2,310 24 3,400 1,360 FEH331M35V821 330 0.12 2,310 21 3,900 1,560 FEH331M35V1012 390 0.12 2,730 24 3,400 1,360 FEH391M35V1012 470 0.12 3,290 24 3,400 1,360 FEH471M35V1012 1000 10 x 21 0.12 3,500 25 6,580 2,632 FEH102M35V1021

voltage (V.DC) (µf) Case Size D x L (mm) Tan δ Leakage Current (µa) (mω max./ 20 C 100KHz to 300KHz) ripple current ma rms, 100 KHz Tx 105 C 105 C < Tx 125 C Part Number 10 6.3 x 11 0.12 100 42 1,280 512 FEH100M50V611 47 6.3 x 11 0.12 470 32 2,600 1,020 FEH470M50V611 47 0.12 470 27 2,700 1,080 FEH470M50V812 56 10 x 10 0.12 560 28 2,200 1,120 FEH560M50V1010 50V 82 0.12 820 27 2,700 1,080 FEH820M50V812 100 0.12 1,000 27 2,700 1,080 FEH101M50V812 120 0.12 1,200 25 3,100 1,240 FEH121M50V1012 180 0.12 1,800 26 2,620 1,040 FEH181M50V1012 220 0.12 2,200 25 3,100 1,240 FEH221M50V1012 470 10 x 21 0.12 2,350 28 4,250 1,00 FEH471M50V1021 47 0.12 592 27 2,700 1,080 FEH470M63V812 47 0.12 592 32 2,900 1,160 FEH470M63V1012 100 0.12 1,260 27 2,700 1,080 FEH101M63V812 63V 100 0.12 1,260 27 2,700 1,080 FEH101M63V1012 150 0.12 1,890 25 2,900 1,160 FEH151M63V1012 220 10 x 21 0.12 2,160 26 3,600 1,450 FEH221M63V1021 330 10 x 21 0.12 4,158 25 3,570 1,428 FEH331M63V1021 10 6.3 x 11 0.12 200 75 1,280 512 FEH100M100V611 15 0.12 300 36 2,150 740 FEH150M100V812 33 10 x 10 0.12 660 40 1,880 800 FEH330M100V1010 100V 33 0.12 660 38 1,880 800 FEH330M100V1012 47 0.12 940 35 2,100 840 FEH470M100V1012 47 10 x 21 0.12 940 36 2,100 840 FEH470M100V1021 100 10 x 21 0.12 2,000 36 2,940 1,176 FEH101M100V1021 * Please contact us if the rating data of request item did not show in above.

8. Precaution for using capacitors a. Solid capacitors for D.C. application require polarization confirm the polarity before use. If used in reversed polarity, the circuit life may be shortened and the capacitor or other components may be damaged. To avoid capacitors exploding informally, we have developed "Case vent and Rubber vent" whenever the diameter is 8x11mm or over. b. Use the solid capacitors according to the specified operating temperature range, and do not apply voltage exceeding the specified capacitor voltage rating. c. The capacitance tolerance and D.F. should be tested at 120Hz, 25 C, the value of the leakage current should be measured at 25 C, with rated working voltage applied in specified time. d. For methods of testing the strength of lead wire and terminals, refer to the specified value of JIS-C5102 and IEC384 to avoid the inner or capacitors damaged. e. Do not place a soldering iron near or on the body of capacitor to avoid the sleeves of the capacitors deforming and cracking under high temperature. f. Do not use halogenated hydrocarbon solvent whenever soldering capacitors or cleaning the circuit board to avoid the inner of capacitors damaged. Please refer to following table when using. g. Be careful of temperature and time when soldering. Dipping must be performed at the soldering temperature or less than 260 C for less than 10 seconds otherwise the capacitors may be damaged. h. Capacitors should be stored at low temperature and low humidity to have longer storage time. If the storage period is too long, the capacitors should be charged before use. i. The specifications of products are according to characteristic (w) established JIS-C5141, IEC384. For methods of processing and testing refer to JIS-C5102 and IEC384.