F930G477MNC中文资料

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CAT.8100VPerformance CharacteristicsItemSOLID TANTALUM ELECTROLYTIC CAPACITORSF93Resin-molded Chip,Standard Series

∗As for the surge and derated voltage at 125˚C, refer to page 266 for details.Type numbering system(Example: 10V 10µF)

Drawing

Dimensions

MarkingSpecifications

CategoryTemperature Range--55 ~ +125˚C(Rated temperature : +85˚C) Capacitance Tolerance±20%, ±10% (at 120Hz) Dissipation Factor (120Hz)Refer to next pageESR (100kHz)Refer to next pageLeakage Current•After 1 minute's application of rated voltage, leakage current at 20˚Cis not more than 0.01CV or 0.5µA, whichever is greater.•After 1 minute's application of rated voltage, leakage current at 85˚Cis not more than 0.1CV or 5µA, whichever is greater.•After 1 minute's application of derated voltage, leakage current at 125˚Cis not more than 0.125CV or 6.3µA, whichever is greater.Capacitance Changeby Temperature+15% Max. (at +125˚C) +10% Max. (at +85˚C) --10% Max. (at --55˚C) Damp Heat(No voltage applied) At 40˚C90~95% R.H. 500 hoursCapacitance ChangeWithin ±10% of initial valueDissipation Factor......Initial specified value or lessLeakage Current........Initial specified value or lessTemperature Cycles--55˚C / +125˚C30 minutes each 5 cyclesCapacitance ChangeWithin ±5% of initial valueDissipation Factor......Initial specified value or lessLeakage Current........Initial specified value or lessResistanceto Soldering HeatTest condition:10 seconds reflow at 260˚C , 5 seconds immersion at 260˚CCapacitance ChangeWithin ±5% of initial valueDissipation Factor......Initial specified value or lessLeakage Current........Initial specified value or less

Surge∗After application of surge voltage in series with a 33Ωresistor at the rate of30 seconds ON, seconds OFF, for 1000 sucessive test cycles at 85˚C,capacitors meet the characteristics requirements listed below.Capacitance Change....Within ±5% of initial valueDissipation Factor........Initial specified value or lessLeakage Current..........Initial specified value or lessEndurance∗After 2000 hours' application of rated voltage in series with a 3Ωresistorat 85˚C, or derated voltage in series with a 3Ωresistor at 125˚C,capacitors meet the characteristic requirements listed below.Capacitance Change......Within ±10%of initial valueDissipation Factor..........Initial specified value or lessLeakage Current............Initial specified value or less

Shear TestAfter applying the pressure load of 5N for 10±1 secondshorizontally to the center of capacitor side body which has noelectrode and has been solderedbeforehand on an aluminum substrate,neigher exfoliation not its sign shall befound at the terminal electrode.

Terminal StrengthKeeping a capacitor surface-mounted on a substrate upside downand supporting the substrate at both of the opposite bottom points45mm apart from the center of the capacitor, the pressure load isapplied with a specified jig at thecenter of the substrate so that thesubstrate may bend by 1mm asillustrated.Then, there shall be found noremarkable abnormality on thecapacitor terminals.Case codeLW1W2HSA3.2±0.21.6±0.21.2±0.11.6±0.20.8±0.2B3.5±0.22.8±0.22.2±0.11.9±0.20.8±0.2C6.0±0.23.2±0.22.2±0.12.5±0.21.3±0.2N7.3±0.2

4.3±0.22.4±0.12.8 ±0.2

1.3±0.2(mm)

( ) The series in parentheses are being developed. Please contact to your local Nichicon sales office when theseseries are being designed in your application.Tapingcode(Refertopage267fordetails)F1923314A5160768M9A1011CasecodeCapacitancetoleranceRatedCapacitanceRatedvoltageSeries

LH

SSW2W1LH

SSW2W1A •B CaseC•N Case

Capacitance (µF)Rated voltage (V)Rated voltage (V)A CaseB CaseC CaseN Case

(Rated voltage code)(Capacitance code)C6852216V4716V10016V

2.5VeGJAC4V6.3V10V16V20VDEV25V35V5N(0.51kg¥f)For10±1seconds

20R23045451mm

Standard ratings

0.470.6811.52.23.34.76.8101522334768100150220330470680474684105155225335475685106156226336476686107157227337477687AABB(A)• B(B)• CC•NAAAAA•BA•BA•BA•BA•BB(A)• B•CC•NNNAAAAAA•BA•BA•BA•BA• B•C(A)•B•CB•C(B)•C•NNNAAAAA•BA•BA•BA•B•C(A)•B•C(B)• C•NC•NC•NNNAAAAAA•BA•BA•BA•B•CB•CC•NN(C)•N(N)AAAAA•BA•BA•BC(B)•CC•NN(N)AAAAA•BB(B)•CCCNN2.50E40G6.30J101A161C201D251E351VAAAAA•BA•BC(B)•CCC•NNNVCap.(µF)CodeAdapted to the RoHS directive (2002/95/EC).元器件交易网www.cecb2b.com

CAT.8100VSOLID TANTALUM ELECTROLYTIC CAPACITORSF93Standard ratings

In case of capacitance tolerance ±10% type,Kwill be put at 9th digit of type numbering system.47AF930E476MAA1.2122.5∗68AF930E686MAA1.7182.5∗100BF930E107MBA2.5140.9∗150BF930E157MBA3.8140.7∗220BF930E227MBA5.5180.7∗330CF930E337MCC8.3160.7∗470CF930E477MCC11.8180.5∗470NF930E477MNC11.8120.3∗4.7AF930G475MAA0.564.0∗6.8AF930G685MAA0.563.5∗10AF930G106MAA0.563.0∗15AF930G156MAA0.662.9∗22AF930G226MAA0.982.5∗22BF930G226MBA0.961.9∗33AF930G336MAA1.382.5∗33BF930G336MBA1.361.4∗47AF930G476MAA1.9182.5∗47BF930G476MBA1.981.0∗68AF930G686MAA2.7242.5∗68BF930G686MBA2.780.8∗100AF930G107MAA4.0302.0∗100BF930G107MBA4.0140.9∗150BF930G157MBA6.0160.7∗220BF930G227MBA8.8180.7∗220CF930G227MCC8.8120.7∗330CF930G337MCC13.2140.7∗330NF930G337MNC13.2100.5∗470NF930G477MNC18.8160.3∗680NF930G687MNC27.2180.3∗2.2AF930J225MAA0.565.0∗3.3AF930J335MAA0.564.5∗4.7AF930J475MAA0.564.0∗6.8AF930J685MAA0.563.5∗10AF930J106MAA0.663.0∗15AF930J156MAA0.982.9∗15BF930J156MBA0.962.0∗22AF930J226MAA1.482.5∗22BF930J226MBA1.461.9∗33AF930J336MAA2.182.5∗33BF930J336MBA2.181.4∗47AF930J476MAA3.0182.5∗47BF930J476MBA3.081.0∗68AF930J686MAA4.3202.0∗68BF930J686MBA4.381.0∗68CF930J686MCC4.380.8∗100BF930J107MBA6.3140.9∗100CF930J107MCC6.3100.7∗150BF930J157MBA9.5180.9∗150CF930J157MCC9.5120.7∗220CF930J227MCC13.9140.7∗220NF930J227MNC13.9100.5∗330NF930J337MNC20.8140.5∗470NF930J477MNC29.6160.3∗2.2AF931A225MAA0.565.0∗3.3AF931A335MAA0.564.5∗4.7AF931A475MAA0.564.0∗6.8AF931A685MAA0.763.5∗10AF931A106MAA1.063.0∗10BF931A106MBA1.062.1∗15AF931A156MAA1.582.9∗15BF931A156MBA1.562.0∗22AF931A226MAA2.2122.5∗22BF931A226MBA2.281.9∗33AF931A336MAA3.3182.5∗33BF931A336MBA3.381.4∗33CF931A336MCC3.361.1∗47BF931A476MBA4.781.0∗47CF931A476MCC4.780.9∗68CF931A686MCC6.880.8∗68NF931A686MNC6.860.6∗100CF931A107MCC10.0100.7∗100NF931A107MNC10.0100.6∗150CF931A157MCC15.0140.7∗150NF931A157MNC15.0100.6∗220NF931A227MNC22.0120.5∗330NF931A337MNC 33.0180.5∗2.5V