Medium Power Film Capacitors FFLC DC FILTERING DC FILTERING APPLICATIONS FFLC series is specifically designed for DC filtering, low reactive power. PACKAGING MATERIAL Non-painted rectangular resin filled aluminum case FFLC capacitors meet the level 2 requirement of flammability standard NF F 16 102. 4 x M10 terminals* NEW Available with M10 X 12 female terminal upon request STANDARDS IEC 61071-1: Power electronic capacitors IEC 61071-2: Power electronic capacitors IEC 60068-1: Environmental testing IEC 60077: Rules for electric traction equipment UL 94: Fire requirements NF F 16-101 NF F 16-102: Fire and smoke requirements IEC 61881: Railway applications, rolling stock equipment, capacitors for power electronics DIMENSIONS Terminal Code - - for male threaded Terminal Code JE for female threaded * Dimension take on the contact area *65 *65 *65 (2.559) (2.559) (2.559) 0.5 0.5 0.5 (0.020) (0.020) (0.020) 5.5 (0.217) 0.20 (0.008) // 1.5 (0.060) A 1 M10 (0.394) 2 3 4 E 0.5 (0.020) E/2 Width -10 (0.394) Width Max Torque 15N.m TPC (H +7) 2 (H +0.278) 0.079 H 1 (0.039) Contact Area 33 (1.299) 1 (0.039) 80 (3.150) 2.00 (0.079) 20 (0.787) 2 4 1 3 Width 170 145 95 0/+1 (0/0.039) 335 (13.19) 355 (13.98) 0.50 (0.020) 375 (14.76) A A M10: 15Nm (0.591) General tolerance: 3 HOW TO ORDER FFLC 6 A 8807 K -- Series Dielectric 6 = Polypropylene Voltage Code A = 680Vdc L = 1000Vdc U = 1200Vdc Capacitance Code 4 digit pF code 1st 3 digits are capacitance, last digit is multiplier, e.g. 8807 = 8800F 5067 = 5060F 2247 = 2240F etc. Capacitance Tolerances K = 10% Terminal Code - - = Male Terminal JE = Female Terminal 22 E 100 100 50 2.00 (0.079) Medium Power Film Capacitors DC FILTERING FFLC ELECTRICAL CHARACTERISTICS Climatic Category Test Voltage Between Terminals Test Voltage Between Terminals and Case Capacitance range Cn Tolerance on Cn Rated DC voltage Vndc FFLC overvoltage: Maximum overvoltage Maximum rms current Irms max Stray inductance Ls* Dielectric 40/85/56 (IEC 60068) @ 25C: 1.5 x UNdc for 10s @ 25C: @ 4 kVrms @ 50Hz for 1 min. 1120F to 8800F (other values available upon request) 10% 680 to 1200 V (Vs): Vs = 2 Vndc and limited at 1800V Peak value Maximum duration 1.67 Vndc 100 ms 1 time per week 100 ms 1 time per day 1.25 Vndc 1.1 Vndc 1 min 1 time per day 140 Arms to 300 Arms 28 nH to 40 nH Polypropylene RATINGS AND PART NUMBER REFERENCE Part Number Capacitance (F) FFLC6A8807K-FFLC6A7157K-FFLC6A6507K-FFLC6A5607K-FFLC6A4557K-FFLC6A4187K-FFLC6A2667K-- 8800 7150 6500 5600 4550 4180 2660 FFLC6L5067K-FFLC6L3207K-FFLC6L4307K-FFLC6L2737K-FFLC6L2537K-FFLC6L1607K-- 5060 3200 4300 2730 2530 1600 FFLC6U3527K-FFLC6U2247K-FFLC6U3007K-FFLC6U1907K-FFLC6U1757K-FFLC6U1127K-- 3520 2240 3000 1900 1750 1120 Height mm (in) Width mm (in) Irms (A) UNdc 680 V (Voltage Code A) 240 (9.449) 170 (6.693) 220 240 (9.449) 145 (5.709) 230 240 (9.449) 145 (5.709) 210 170 (6.693) 170 (6.693) 140 170 (6.693) 145 (5.709) 150 240 (9.449) 95 (3.740) 300 170 (6.693) 95 (3.740) 170 UNdc 1000 V (Voltage Code L) 240 (9.449) 170 (6.693) 250 170 (6.693) 170 (6.693) 150 240 (9.449) 145 (5.709) 300 170 (6.693) 145 (5.709) 170 240 (9.449) 95 (3.740) 300 170 (6.693) 95 (3.740) 170 UNdc 1200 V (Voltage Code U) 240 (9.449) 170 (6.693) 250 170 (6.693) 170 (6.693) 150 240 (9.449) 145 (5.709) 300 170 (6.693) 145 (5.709) 170 240 (9.449) 95 (3.740) 300 170 (6.693) 95 (3.740) 170 *Very low stray inductance for high frequency applications on request. Ls* (nH) Rs (m) Rth (C/W) Typical Weight (g) 40 38 38 35 30 35 28 0.58 0.50 0.55 0.88 0.77 0.34 0.49 1.2 1.2 1.3 1.8 1.8 1.0 1.6 18000 13200 15500 15500 11300 10300 7300 40 35 38 30 35 28 0.61 0.89 0.52 0.75 0.36 0.51 1.2 1.9 1.1 1.6 0.8 1.2 17200 12400 15500 11300 10300 7300 40 35 38 30 35 28 0.71 1.1 0.60 0.87 0.41 0.59 1.2 1.9 1.1 1.6 0.8 1.2 18800 12700 15500 11300 10300 7300 Dimensions millimeters (inches) 23 Medium Power Film Capacitors FFLC LIFETIME EXPECTANCY vs HOT SPOT TEMPERATURE AND VOLTAGE DC FILTERING 1.6 Vw/Vndc 1.4 50C 1.2 70C 1.0 85C 0.8 100 1000 10000 100000 Lifetime Expectancy (hours) Vw: permanent working or operating DC-voltage. HOT SPOT CALCULATION See Hot Spot Temperature, page 3. hot spot = ambient + (Pd + Pt) x Rth with Pd (Dielectric losses) = Q x tg0 [ 12 x Cn x (Vpeak to peak)2 x f ] x (2 x 10-4) Pt (Thermal losses) = Rs x (Irms)2 where Cn in Farad Irms in Ampere f in Hertz in C V in Volt Rs in Ohm Rth in C/W 24 1000000