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F971A336MNC Dataheets PDF



Part Number F971A336MNC
Manufacturers Nichicon
Logo Nichicon
Description SOLID TANTALUM ELECTROLYTIC CAPACITORS
Datasheet F971A336MNC DatasheetF971A336MNC Datasheet (PDF)

SOLID TANTALUM ELECTROLYTIC CAPACITORS F97 Resin-molded Chip, High Reliability (High temperature / moisture resistance) Series Specifications Item Category Temperature Range Capacitance Tolerance Performance Characteristics --55 to +125˚C (Rated temperature : +85˚C) ± 20%, ± 10% (at 120Hz) Refer to next page Refer to next page Compliant to the RoHS directive (2002/95/EC). Compliant to AEC-Q200. Dissipation Factor ESR (100kHz) Leakage Current∗ • After 1 minute' s application of rated volt.

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SOLID TANTALUM ELECTROLYTIC CAPACITORS F97 Resin-molded Chip, High Reliability (High temperature / moisture resistance) Series Specifications Item Category Temperature Range Capacitance Tolerance Performance Characteristics --55 to +125˚C (Rated temperature : +85˚C) ± 20%, ± 10% (at 120Hz) Refer to next page Refer to next page Compliant to the RoHS directive (2002/95/EC). Compliant to AEC-Q200. Dissipation Factor ESR (100kHz) Leakage Current∗ • After 1 minute' s application of rated voltage,leakage current at 20˚C is not more than 0.01CV or 0.5µA, whichever is greater. • After 1 minute' s application of rated voltage,leakage current at 85˚C is not more than 0.1CV or 5µA,whichever is greater. • After 1 minute' s application of derated voltage,leakage current at 125˚C is not more than 0.125CV or 6.3µA,whichever is greater. +15% Max. (at +125˚C) +10% Max. (at +85˚C) --10% Max. (at --55˚C) At 85˚C, 85% R.H.,For 1000 hours (No voltage applied) Capacitance Change • • • • • • Within ±10% of the initial value Dissipation Factor • • • • • • • • • • • Initial specified value or less Leakage Current • • • • • • • • • • • • 125% or less than the initial specified value After 500 hour' s application of rated voltage in series with a 33Ω resistor at 60˚C, 90 to 95% R.H.,capacitors meet the characteristics requirements table below. Capacitance Change • • • • • • Within ±10% of the initial value Dissipation Factor • • • • • • • • • • Initial specified value or less Leakage Current • • • • • • • • • • • • 125% or less than the initial specified value At --55˚C / +125˚C,For 30 minutes each,1000 cycles Capacitance Change • • • • • • Within ± 5% of the initial value Dissipation Factor • • • • • • • • • • • Initial specified value or less Leakage Current • • • • • • • • • • • • • Initial specified value or less 10 seconds reflow at 260˚C, 5 seconds immersion at 260˚C. Capacitance Change • • • • • • Within ± 5% of the initial value Dissipation Factor • • • • • • • • • • • Initial specified value or less Leakage Current • • • • • • • • • • • • • Initial specified value or less After immersing capacitors completely into a solder pot at 245˚C for 2 to 3 seconds,more than 3/4 of their electrode area shall remain covered with new solder. After application of surge in series with a 33Ω resistor at the rate of 30 seconds ON, 30 seconds OFF,for 1000 successive test cycles at 85˚C,capacitors shall meet the characteristic requirements table below. Capacitance Change • • • • • • Within ± 5% of the initial value Dissipation Factor • • • • • • • • • • • Initial specified value or less Leakage Current • • • • • • • • • • • • • Initial specified value or less After 2000 hours' application of rated voltage in series with a 3Ω resistor at 85˚C,or derated voltage in series with a 3Ω resistor at 125˚C,capacitors shall meet the characteristic requirements table below. Capacitance Change • • • • • • Within ±10% of the initial value Dissipation Factor • • • • • • • • • • • Initial specified value or less Leakage Current • • • • • • • • • • • • • Initial specified value or less After applying the pressure load of 5N for 10 ± 1 seconds horizontally to the center of capacitor side body which has no electrode and has been 5N (0.51kg • f) soldered beforehand on a substrate, For 10 ± 1 seconds there shall be found neither exfoliation nor its sign at the terminal electrode. Keeping a capacitor surface-mounted on a substrate upside down and supporting the substrate at both of the opposite bottom points 45mm apart from the center of capacitor, the pressure strength is applied with a 20 specified jig at the center of the R230 substrate so that substrate may bend by 1mm as illustrated. Then, there shall be found no 45 45 remarkable abnormality on the capacitor terminals. Capacitance Change by Temperature Damp Heat (Steady State) Applications Automotive electronics(Engine ECU) Industrial equipment Load Humidity Type numbering system (Example : 16V 3.3µF) Temperature Cycles 1 2 3 4 5 6 7 8 9 10 11 Taping code (Refer to page 333 for details) Case code Capacitance tolerance Rated capacitance Rated voltage Series F 9 7 1 C 3 3 5 M A Resistance to Soldering Heat Drawing A • B Case L H W1 L H Solderability C • N Case W1 Surge∗ www.DataSheet.net/ W2 S S S S W2 Endurance∗ Dimensions Case code A B C N 3.2 3.5 6.0 7.3 L ± 0.2 ± 0.2 ± 0.2 ± 0.2 W1 1.6 2.8 3.2 4.3 ± 0.2 ± 0.2 ± 0.2 ± 0.2 W2 1.2 2.2 2.2 2.4 ± 0.1 ± 0.1 ± 0.1 ± 0.1 1.6 1.9 2.5 2.8 H ± 0.2 ± 0.2 ± 0.2 ± 0.2 S (mm) 0.8 ± 0.2 0.8 ± 0.2 1.3 ± 0.2 1.3 ± 0.2 Shear Test Marking A Case C475 Month code B Case 10 16r C Case 10 16r N Case 47 10r Terminal Strength Rated voltage (Voltage code) Month code Rated Voltage (V) Rated Capacitance (Capacitance code ) Rated voltage (V) Rated Capacitance (µF) ∗ As for the surge and derated voltage at 125˚C, refer to page 332 for details. Standard ratings V Cap.(µF) Code 6.3 0J 10 1A 16 1C 20 1D A A A A B A • B (B) • C (B) • C N C • N 25 1E .


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