PHC1703220KJ Nichicon

PHC MKP axial terminals high current high frequency switching applications Main applications Dissipation factor (DF), max. -4 Switching capacitor for industrial and motor speed controls, high tg x10 , measured at 25 5C, 1 kHz frequency electronic ballasts, switching mode power supplies, Cn 5 F 5 F < Cn 30 F Cn > 30 F resonant circuits, induction heaters, high-end audio applications 6 10 15 Dielectric Polypropylene Insulation resistance (R ) INS Electrodes 30000s but need not exceed 30G (typical value), after 1 minute of Vacuum deposited metal layers electrification at 100Vdc (25 5C) Coating Test voltage between terminals (Ut) UL 510 / CSA TIL I-26 polyester tape wrapping UL 94 V-0 resin end fill. 1,6xUr (DC) applied for 10s / 2xUr (DC) applied for 2s, at 255C Flame retardant execution Test voltage between terminals and case (Utc) Construction 3kV 5060Hz applied for 60s at 25 5C Extended metallized film, internal series connection for Ur 850Vdc Damp heat test (steady state) (refer to General Technical Information) Test conditions: Terminals Temperature = +40 2C Tinned copper wire (lead free) Relative humidity =93 2% Test duration = 56 days Degree of protection Performance: IP00 Capacitance change 2% Installation DF change 0.0010 at 1kHz Whatever position assuring correct heat dissipation. Arrangement of R 50% of initial limit value INS many components with surfaces in contact not admitted suggested Typical capacitance change versus operating time minimum distance between side by side elements 1/12 of the -5% after 30000 hours at Urms or after 100000 hours at Ur diameter size Life expectancy Reference standard 100000 hours (Ur) IEC 61071, IEC 60068, RoHS compliant Failure quota Climatic category 9 300/10 component hours 40/85/56 (IEC 60068/1), GPD (DIN40040) Please refer also to paragraph C10 (humid ambient) of the General Resistance to soldering heat test Technical Information Test conditions: Solder bath temperature= +2605C Operating temperature range (case) -40...+85C Dipping time (with heat screen)= 101s Performance: Max. permissible ambient temperature Capacitance change 1% +70C (operation at rated power, current, voltage and natural cooling) DF change 0.0010 at 1kHz Nominal Capacitance (Cn) F R 50% of initial limit value INS 0,1F to 60F. Refer to article table Capacitance tolerance (at 1kHz) 10% (code=K), 5% (code=J) and 20% (code=M). Other tolerances upon request Capacitance temperature coefficient Refer to General Technical Information Long term stability (at 1kHz) Capacitance variation 1% after a period of 2 years at standard environmental conditions Rated voltage (Ur) (Vdc) at 85C 250, 330, 400, 600, 700, 850 Vdc Non recurrent surge voltage (Upk) at 85C 400, 500, 600, 800, 1000, 1200 Vdc Self inductance 1nH/mm of capacitor and leads length used for connection Maximum pulse rise time V/s Refer to article table Maximum peak current (Ipeak) Refer to article table. Max. non repetitive Ipk = 1,5 x Ipeak 13.1 Ed. 04 Rev. 00 09.2018PHC MKP axial terminals high current high frequency switching applications PHC article table (different values available upon request) (2) (3) (1) Voltage at +85C Cn Dimensions (mm) du/dt Ipeak Irms ESR ICEL CODE (4) Ur (Vdc) Urms (Vac) Upk (Vdc) F D L d V/s A A m - 250 160 400 1 9 27 0,8 50 50 4,5 7,6 PHC1254100*G 250 160 400 1,5 11 27 0,8 50 75 5,5 6,1 PHC1254150*G 250 160 400 2 12,5 27 0,8 50 100 6 5,1 PHC1254200*G 250 160 400 2 10,5 32 0,8 40 80 5,5 6 PHC1254200*J 250 160 400 2,2 13 27 0,8 50 110 6,5 5 PHC1254220*G 250 160 400 2,2 11 32 0,8 40 88 6 5,7 PHC1254220*J 250 160 400 2,5 13,5 27 0,8 50 125 7 4,8 PHC1254250*G 250 160 400 2,5 12 32 0,8 40 100 7 5,4 PHC1254250*J 250 160 400 3 15 27 0,8 50 150 7,5 4,4 PHC1254300*G 250 160 400 3 13 32 0,8 40 120 7 4,8 PHC1254300*J 250 160 400 3,3 13,5 32 0,8 40 132 8 4,4 PHC1254330*J 250 160 400 4 15 32 1 40 160 9 3,8 PHC1254400*J 250 160 400 4,7 16 32 1 40 188 10 3,5 PHC1254470*J 250 160 400 5 16,5 32 1 40 200 10 3,4 PHC1254500*J 250 160 400 6,8 19 32 1 40 272 10,5 3,1 PHC1254680*J 250 160 400 10 22 32 1 40 400 10,5 2,5 PHC1255100*J 250 160 400 10 19,5 44 1 25 250 10,5 3,3 PHC1255100*N 250 160 400 15 23,5 44 1,2 25 375 14 2,7 PHC1255150*N 250 160 400 20 27 44 1,2 25 500 14 5 PHC1255200*N 250 160 400 22 28,5 44 1,2 25 550 14 4,7 PHC1255220*N 250 160 400 25 30 44 1,2 25 625 14 4,4 PHC1255250*N 250 160 400 30 29 53 1,2 20 600 14 4,5 PHC1255300*R 250 160 400 30 27,5 57 1,2 15 450 14 5,3 PHC1255300*S 250 160 400 33 30,5 53 1,2 20 660 14 4,3 PHC1255330*R 250 160 400 33 29 57 1,2 15 495 14 5 PHC1255330*S 250 160 400 40 34 53 1,2 20 800 14 3,9 PHC1255400*R 250 160 400 40 31,5 57 1,2 15 600 14 4,5 PHC1255400*S 250 160 400 50 38 53 1,2 20 1000 14 3,5 PHC1255500*R 250 160 400 50 35 57 1,2 15 750 14 3,9 PHC1255500*S 250 160 400 60 38 57 1,2 15 900 14 3,5 PHC1255600*S 330 220 500 0,68 9 27 0,8 60 40,8 4,5 9,1 PHC1333680*G 330 220 500 1 10,5 27 0,8 60 60 5,5 6,9 PHC1334100*G 330 220 500 1,5 13 27 0,8 60 90 6,5 5,5 PHC1334150*G 330 220 500 1,5 11,5 32 0,8 45 67,5 6 6,3 PHC1334150*J 330 220 500 2 14,5 27 0,8 60 120 7,5 4,7 PHC1334200*G 330 220 500 2 13 32 0,8 45 90 7 5,7 PHC1334200*J 330 220 500 2,2 15,5 27 0,8 60 132 8 4,3 PHC1334220*G 330 220 500 2,2 13,5 32 0,8 45 99 7,5 5,3 PHC1334220*J (1) Change the * symbol with the needed capacitance tolerance code: J=5%, K=10%, M=20% (2) Maximum values at 100kHz, +70C, C tol. 10% (3) Typical values at 100kHz (for operating frequencies far from the reference, ESR variation and related different power dissipation must be taken in consideration) (4) Not suitable for across the line application 13.2 Ed. 04 Rev. 00 09.2018