F72/F75 Series Low Profile and HiCV Conformal Coated Chip TECHNICAL SPECIFICATIONS Item Performance Characteristics Category Temperature Range -55 to +125C (Rated temperature: +85C) Capacitance Tolerance 20%, 10% (at 120Hz) Dissipation Factor Refer to next page LEAD-FREE COMPATIBLE COMPONENT ESR (100kHz) Refer to next page After 1 minutes application of rated voltage, leakage current at 20C is not more than 0.01CV or 0.5A, whichever is greater. After 1 minutes application of rated voltage, leakage current at 85C Leakage Current is not more than 0.1CV or 5A, whichever is greater. After 1 minutes application of derated voltage, leakage current at 125C is not more than 0.125CV or 6.3A, whichever is greater. FEATURES +15% Max. (at +125C) Capacitance Change +10% Max. (at +85C) Compliant to the RoHS2 directive 2011/65/EU by Temperature -10% Max. (at -55C) SMD Conformal At 40C, 90 to 95% R.H., 500 hours (No voltage applied) Damp Heat Capacitance Change ........... Refer to next page (*1) Small and low profile (Steady State) Dissipation Factor ................ Initial specified value or less Leakage Current.................. Initial specified value or less At -55C / +125C, 30 minutes each, For 5 cycles APPLICATIONS Capacitance Change ........... Refer to next page (*1) Temperature Cycles Dissipation Factor ................ Initial specified value or less Smartphone Leakage Current.................. Initial specified value or less Mobile phone 10 seconds reflow at 260C, 10 seconds immersion at 260C. Resistance to Wireless module Capacitance Change ........... Refer to next page (*1) Soldering Heat Dissipation Factor ................ Initial specified value or less Hearing aid Leakage Current.................. Initial specified value or less After application of surge voltage in series with a 33 resistor at the rate of CASE DIMENSIONS: millimeters (inches) 30 seconds ON, 30 seconds OFF, for 1000 successive test cycles at 85C, capacitors shall meet the characteristic requirements table below. Surge Code L W H A B D* Capacitance Change ........... Refer to next page (*1) Dissipation Factor ................ Initial specified value or less F72 Case Dimensions Leakage Current.................. Initial specified value or less 7.200.30 6.000.30 2.00 Max. 1.300.40 3.800.60 6.20 M After 2000 hours application of rated voltage at 85C, capacitors shall (0.2830.012) (0.2360.012) (0.079 Max) (0.0510.016) (0.1500.024) (0.244) meet the characteristic requirements table below. 7.200.30 6.000.30 1.200.30 1.300.40 3.800.60 6.20 R Endurance Capacitance Change ........... Refer to next page (*1) (0.2830.012) (0.2360.012) (0.0470.012) (0.0510.016) (0.1500.024) (0.244) Dissipation Factor ................ Initial specified value or less F75 Case Dimensions Leakage Current.................. Initial specified value or less 7.100.30 3.200.30 2.500.30 1.300.30 3.600.60 6.00 After applying the pressure load of 5N for 101 C (0.2800.012) (0.1260.012) (0.0980.012) (0.0510.012) (0.1420.024) (0.236) seconds horizontally to the center of capacitor side body which has no electrode and has been 7.300.30 4.300.30 2.800.30 1.300.40 3.900.60 6.40 5N (0.51kg f) Shear Test D soldered beforehand on a substrate, there shall (0.2870.012) (0.1360.012) (0.1100.012) (0.0510.016) (0.1530.024) (0.252) For 10 1 seconds be found neither exfoliation nor its sign at the 7.200.30 6.000.30 3.500.30 1.300.40 3.800.60 6.20 R terminal electrode. (0.2830.012) (0.2360.012) (0.1380.012) (0.0510.016) (0.1500.024) (0.244) Keeping a capacitor surface-mounted on a substrate upside down and 7.100.30 3.200.30 2.00 Max. 1.300.30 3.600.60 6.00 supporting the substrate at both of the opposite bottom points 45mm apart U (0.2800.012) (0.1260.012) (0.079 Max) (0.0510.012) (0.1420.024) (0.236) from the center of capacitor, the pressure 20 *D dimension only for reference strength is applied with a specified jig at the R230 Terminal Strength center of substrate so that the substrate F72 F75 may bend by 1mm as illustrated. Then, there shall be found no remarkable 45 45 abnormality on the capacitor terminals. H H A B A B D D L L W W Solder electrode HOW TO ORDER F72 1A 107 M R AQ2 Type Rated Capacitance Tolerance Case Packaging Single Voltage Code Size K = 10% Facing See page pF code: 1st two digits See Electrode M = 20% 164 for represent significant figures, table details 3rd digit represents multiplier above (number of zeros to follow) F75 1C 157 M D AQ2 Type Rated Capacitance Tolerance Case Single Packaging Voltage Code Size K = 10% Facing See page pF code: 1st two digits See Electrode M = 20% 164 for represent significant figures, table details 3rd digit represents multiplier above (number of zeros to follow) DECEMBER 2013 49 1mmF72/F75 Series Low Profile and HiCV Conformal Coated Chip CAPACITANCE AND RATED VOLTAGE, V (VOLTAGE CODE) RANGE R (LETTER DENOTES CASE SIZE) F72 F75 Capacitance Rated Voltage Capacitance Rated Voltage F Code 4V (0G) 6.3V (0J) 10V (1A) 16V (1C) F Code 4V (0G) 6.3V (0J) 10V (1A) 16V (1C) 33 336 R 68 686 C 47 476 R R 100 107 C 68 686 R R R 150 157 C D 100 107 R R R 220 227 C C/D R 150 157 R R R 330 337 C C/D D 220 227 R R R M 470 477 C/D D/U R/U 330 337 R R R* M 680 687 D D/R/U* 470 477 M 1000 108 D/R R/U* 680 687 M 1500 158 R 1000 108 M M 2200 228 R 1500 158 M Available Ratings Please contact to your local AVX sales office when these series are being designed in your application. *Codes under development subject to change RATINGS & PART NUMBER REFERENCE F72 F75 Ripple Ripple Rated Leakage Disspation *1 Rated Leakage Disspation *1 AVX Case Cap ESR Current AVX Case Cap ESR Current Voltage Current Factor C/C Voltage Current Factor C/C Part Number Size (F) ( 100kHz) (mArms Part Number Size (F) ( 100kHz) (mArms (V) (A) (% 120Hz) (%) (V) (A) (% 120Hz) (%) 100kHz 20C) 100kHz 20C) 4 Volt 4 Volt F720G107MRC R 100 4 4.0 8 0.70 463 * F750G337MCC C 330 4 13.2 10 0.15 856 * F720G157MRC R 150 4 6.0 10 0.70 463 * F750G477MCC C 470 4 18.8 14 0.12 957 * F720G227MRC R 220 4 8.8 12 0.70 463 * F750G477MDC D 470 4 18.8 14 0.12 1118 * F720G337MRC R 330 4 13.2 12 0.70 463 * F750G687MDC D 680 4 27.2 18 0.12 1118 * 6.3 Volt F750G108MDC D 1000 4 40.0 24 0.12 1118 * F720J686MRC R 68 6.3 4.3 6 0.75 447 * F750G108MRC R 1000 4 40.0 24 0.12 1443 * F720J107MRC R 100 6.3 6.3 8 0.70 463 * F750G158MRC R 1500 4 60.0 30 0.12 1443 * F720J157MRC R 150 6.3 9.5 10 0.70 463 * F750G228MRC R 2200 4 88.0 45 0.07 1890 * F720J227MRC R 220 6.3 13.9 12 0.70 463 * 6.3 Volt F720J337MRC R 330 6.3 20.8 12 0.70 463 * F750J227MCC C 220 6.3 13.9 10 0.20 742 * F720J108MMC M 1000 6.3 63.0 30 0.14 1118 15 F750J337MCC C 330 6.3 20.8 10 0.15 856 * F720J158MMC M 1500 6.3 95.0 45 0.14 1118 20 F750J337MDC D 330 6.3 20.8 10 0.15 1000 * 10 Volt F750J477MDC D 470 6.3 29.6 14 0.12 1118 * F721A476MRC R 47 10 4.7 6 0.80 433 * F750J477MUC U 470 6.3 29.6 15 0.10 1049 * F721A686MRC R 68 10 6.8 6 0.75 447 * F750J687MDC D 680 6.3 42.8 18 0.12 1118 * F721A107MRC R 100 10 10.0 8 0.70 463 * F750J687MRC R 680 6.3 42.8 18 0.12 1443 * F721A157MRC R 150 10 15.0 10 0.70 463 * F750J108MRC R 1000 6.3 63.0 24 0.12 1443 * F721A227MRC R 220 10 22.0 12 0.70 463 * 10 Volt F721A477MMC M 470 10 47.0 30 0.14 1118 15 F751A157MCC C 150 10 15.0 10 0.22 707 * F721A687MMC M 680 10 68.0 35 0.14 1118 20 F751A227MCC C 220 10 22.0 10 0.20 742 * F721A108MMC M 1000 10 200 45 0.14 1118 20 F751A227MDC D 220 10 22.0 10 0.20 866 * 16 Volt F751A337MDC D 330 10 33.0 10 0.15 1000 * F721C336MRC R 33 16 5.3 6 0.90 408 * F751A477MRC R 470 10 47.0 14 0.12 1443 * F721C476MRC R 47 16 7.5 6 0.80 433 * F751A477MUC U 470 10 94.0 30 0.15 856 20 F721C686MRC R 68 16 10.9 6 0.75 447 * 16 Volt F721C227MMCAQ2 M 220 16 35.2 12 0.20 935 20 F751C686MCC C 68 16 10.9 10 0.22 707 * F721C337MMCAQ2 M 330 16 52.8 45 0.20 935 20 F751C107MCC C 100 16 16.0 10 0.22 707 * F751C157MDC D 150 16 24.0 10 0.22 826 * F751C227MRC R 220 16 35.2 10 0.20 1118 * *1: C/C Marked * Item F72 All Case (%) *1: C/C Marked * Damp Heat 10 Tempereature cycles 5 Item F75 All Case (%) Resistance soldering heat 5 Damp Heat 10 Surge 5 Tempereature cycles 5 Endurance 10 Resistance soldering heat 5 Surge 5 Endurance 10 50 DECEMBER 2013