The style capacitor is constructed in an efficient rugged selfencased size. The non-inductive multilayer metallized polyester film capacitor features a small size, high dv/dt capability, very low ESR at high frequency and a self-healing capability. type capacitors are ideal for use in high frequency switching power supplies, noise suppression, EMI reduction and long-life applications. Highlights - Efficient size - Self healing - Low ESR/ESL - High dv/dt - Wave solderable Capacitance Range (at khz). to µf Specifications Capacitance Tolerance Rated Voltage Standard Tolerance ±% (K), Optional ±5% (J) or ±% (M), 5, 4, 5 Vdc Operating Temperature Range 55 ºC to 5 ºC Dissipation Factor (at khz/5 ºC) Insulation Resistance Dielectric Strength Self Inductance (typical) Temperature Range Life Test: Moisture Test: Long Term Stability : Vibration Solder Resistance Outline Drawing.%, MΩ x µf - Need not exceed, MΩ Test Voltage for Vdc rating: Vdc Test Voltage for > Vdc rating : Vdc.6 x rated VDC for seconds max. Bold P.N.:. x rated VDC for seconds max. to 6 nh -55 to +5 C at Rated DC Voltage Bold P.N.: -55 to +5 C (derate voltage.5% / C above +85 C) Apply.5 x the rated DC voltage for hours at +85 C. After the test, the capacitance, DF, and IR should meet the following: Capacitance change: 5.% DF will meet the initial specification Insulation Resistance will meet the initial specification Subject the capacitor to +85 C / 85% RH for days without voltage. After the test, the capacitance, DF, and IR should meet the following: Capacitance change: 7.% DF will meet the initial specification Insulation Resistance % of the initial limit After years of storage in a standard environment. Capacitance change:.% Mil Std Method 4D 6 C, 5 sec. Capacitance change:.%
Ratings Catalog Part Number Capacitance (uf) L T Dimensions (in.) H S ±. Vdc / 8 Vac d L T Dimensions (mm) 4K-FA..5.55.8.95.5 8.9.9 7. 7.5.6 75 474K-FA.47.5.8.5.95.5 8.9 4.6 7.7 7.5.6 65 45K-FA..45.75.85.94.5.4 4.4 7..6 5 5K-FA..5.5.5.95.5 8.9 6. 8.9 7.5.6 5 45K-FA..45.5.85.94.5.4 5. 7..6 5 45K-FA..45.5.5.94.5.4 6. 8.9.6 5 445K-FA 4..45..8.94..4 5. 9.7.8 455K-FA 5..45..48.94..4 5.6..8 66K-FA..65.6.46.59. 6.5 6.6.7 5.8 5 Vdc / 6 Vac H S ±.5 d dv/dt (V/us) 44K5-FA.45.6.55.94.5.4 4. 6.5.6 44K5-FA..45.9.5.94.5.4 4.8 7.7.6 75 44K5-FA..45.5..94.5.4 6. 8.4.6 75 4474K5-FA.47.45..5.94.5.4 5. 7.7.6 55 6474K5-FA.47.65..4.59. 6.5 5.8 8.6 5.8 5 65K5-FA..65.4.4.59. 6.5 6. 8.6 5.8 5 4 Vdc / 5 Vac 64K4-FA..65..4.59. 6.5 5.8 8.6 5.8 65 6474K4-FA.47.65.9.44.59. 6.5 7.4. 5.8 5 Vdc / 5 Vac 654K5-FA.5.65.8.54.59. 6.5 7..7 5.8 Part Numbering System 4 K -FA Type Case Size Capacitance Tolerance Voltage RoHS =. =7.5 mm 4 =. µf K = ±% = Vdc -FA = 6/6 Compliant w Sn plated wire leads 4 =.4 = mm (Blank = 5/6 compliant w SnPb wire lead finish) 6 =.6 =5 mm
Typical Performance Curves. µf VDC 4. µf VDC 6 5K4 (. µf 4 MLP) 6K6 (. µf 6 MLP) 4. µf VDC 4. µf 5 VDC 6 45K4 (4. µf 4 MLP) 5K56 (. µf 6 MLP) 5. µf VDC 4.47 µf 4 VDC 6 55K4 (5. µf 4 MLP) 474K46 (.47 µf 6 MLP) www.paktron.com PAGE 9
Typical Performance Curves 5-5 - -55 Capacitance Change vs. Temperature -4-5 45 65 85 5 5 Temperature ( C) DF (%) 6 5 4 Dissipation Factor vs. Temperature -55-4 - 5 45 65 85 5 5 Temperature ( C) + - Capacitance Change vs. AC Volts AC Voltage () DF(%) Dissipation Factor vs. AC Volts ( KHz) 4 5 AC Voltage () - -4 Hz Capacitance Change vs. KHz KHz KHz DF (%) 4 Dissipation Factor vs. Hz KHz KHz KHz Capacitance Change vs. DC Bias - - - -4-5 4 6 8 DC Bias (volts) - Capacitance vs. Time (Aging) Time (Hrs.)
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