PWS MKP with metal foil current carriers axial terminals snubber very high pulse applications high current high frequency Main applications Dissipation factor (DF), max. -4 Snubber and SCR commutating circuits in SMPSs, high voltage, tg x10 , measured at 25 5C high current and high pulse applications up to very high operation Freq. Cn 1000 pF 1000 pF < Cn 0.1 F Cn > 0.1 F frequencies 10kHz - 5 10 Dielectric 100kHz 10 - - Polypropylene Electrodes Insulation resistance (R ) INS Metal foils (lead free) Measured between terminals, at 25C, after 1 minute of electrification at 100Vdc Coating 100 G for Cn 0.1 F UL 510 / CSA TIL I-26 polyester tape wrapping UL 94 V-0 resin end fill. 10000s for Cn > 0.1 F Flame retardant execution Test voltage between terminals (Ut) Construction 2xUr (DC) applied for 2s, at 255C (1 minute for type test) Extended foil with internal series connection and metallized film (refer to General Technical Information) Damp heat test (steady state) Test conditions: Terminals Temperature = +40 2C Tinned copper wire (lead free) Relative humidity =93 2% Reference standard Test duration = 56 days IEC 60384/13, IEC 60068, RoHS compliant Performance: Capacitance change 1% Climatic category DF change 0.0005 at 10kHz for Cn 0.1 F 55/100/56 (IEC 60068/1), FMD (DIN 40040) DF change 0.0010 at 1kHz for Cn > 0.1 F Operating temperature range (case) R 50% of initial limit value INS -55...+105C Endurance test Nominal Capacitance (Cn) F Test conditions: 1000pF to 0,56F, in compliance with IEC 60063, E6 series. Refer to Temperature= +852C article table Test duration= 1000h Voltage applied=1,5xUr(DC) Capacitance tolerance (at 1kHz) 10% (code=K), 5% (code=J) and 20% (code=M). Other tolerances Performance: upon request Capacitance change 1% DF change 0.0005 at 10kHz for Cn 0.1F Capacitance temperature coefficient DF change 0.0010 at 1kHz for Cn > 0.1F Refer to General Technical Information R 50% of initial limit value INS Long term stability (at 1kHz) Resistance to soldering heat test Capacitance variation 0.5% after a period of 2 years at standard Test conditions: environmental conditions Solder bath temperature= +2605C Rated voltage (Ur) (Vdc) at 85C Dipping time (with heat screen)= 101s 630, 1000, 1500, 2000 Vdc Performance: Capacitance change 1% Permissible AC voltage at 60Hz (Vac) DF change 0.0005 at 1kHz 300, 400, 450, 500 Vac R 50% of initial limit value INS Category voltage (Uc) Reliability (MIL HDB 217) Uc=Ur at +85C Uc=0,8xUr at +100C Application conditions: Temperature derated voltage Applied voltage= 0,5 x Ur(DC) For T > +85C, Ur must be decreased 1,25% for every C exceeding Temperature= +402C +85C -9 Failure rate: (1FIT=1x10 failures/components x hours) Self inductance 1FIT 1nH/mm of capacitor and leads length used for connection Failure criteria (DIN44122): Capacitance change > 10% Maximum pulse rise time V/s DF change > 2 x initial value Refer to article table. The pulse characteristic Ko depends on the R < 0,005 x initial limit value INS voltage waveform. In any case the value given in the article table must Short or open circuit not be exceeded 6.1 Ed. 04 Rev. 00 09.2018PWS MKP with metal foil current carriers axial terminals snubber very high pulse applications high current high frequency Dimensional tolerances (mm) L L D 19.0 1.5 1.5 27.0 2.0 2.0 32.0 2.0 2.0 PWS article table (different values available upon request) (1) Voltage at +85C Cn Dimensions (mm) du/dt K ICEL CODE 0 (2) 2 Ur (Vdc) Urms (Vac) F D L d V/s V /s - 630 300 0,015 7 19 0,8 4300 5420000 PWS1632150*D 630 300 0,022 8 19 0,8 4300 5420000 PWS1632220*D 630 300 0,033 10 19 0,8 4300 5420000 PWS1632330*D 630 300 0,033 7,5 27 0,8 2600 3270000 PWS1632330*G 630 300 0,047 8,5 27 0,8 2600 3270000 PWS1632470*G 630 300 0,068 10 27 0,8 2600 3270000 PWS1632680*G 630 300 0,1 12 27 0,8 2600 3270000 PWS1633100*G 630 300 0,15 15 27 0,8 2600 3270000 PWS1633150*G 630 300 0,15 12,5 32 0,8 1800 2260000 PWS1633150*J 630 300 0,22 15 32 0,8 1800 2260000 PWS1633220*J 630 300 0,33 18 32 1 1800 2260000 PWS1633330*J 630 300 0,47 22 32 1 1800 2260000 PWS1633470*J 630 300 0,56 25 32 1 1800 2260000 PWS1633560*J 1000 400 0,0033 7 19 0,8 14000 28000000 PWS2101330*D 1000 400 0,0047 8 19 0,8 14000 28000000 PWS2101470*D 1000 400 0,0068 10 19 0,8 14000 28000000 PWS2101680*D 1000 400 0,0068 6,5 27 0,8 5000 10000000 PWS2101680*G 1000 400 0,01 7 27 0,8 5000 10000000 PWS2102100*G 1000 400 0,015 8,5 27 0,8 5000 10000000 PWS2102150*G 1000 400 0,022 10 27 0,8 5000 10000000 PWS2102220*G 1000 400 0,033 12 27 0,8 5000 10000000 PWS2102330*G 1000 400 0,047 15 27 0,8 5000 10000000 PWS2102470*G 1000 400 0,047 12,5 32 0,8 3700 7400000 PWS2102470*J 1000 400 0,068 15 32 0,8 3700 7400000 PWS2102680*J 1000 400 0,1 17,5 32 1 3700 7400000 PWS2103100*J 1000 400 0,15 21,5 32 1 3700 7400000 PWS2103150*J 1000 400 0,22 26 32 1 3700 7400000 PWS2103220*J 1500 450 0,0022 7,5 19 0,8 17000 51000000 PWS2151220*D 1500 450 0,0033 8,5 19 0,8 17000 51000000 PWS2151330*D 1500 450 0,0047 10,5 19 0,8 17000 51000000 PWS2151470*D 1500 450 0,0047 7 27 0,8 6000 18000000 PWS2151470*G 1500 450 0,0068 7,5 27 0,8 6000 18000000 PWS2151680*G 1500 450 0,01 8,5 27 0,8 6000 18000000 PWS2152100*G 1500 450 0,015 10,5 27 0,8 6000 18000000 PWS2152150*G 1500 450 0,022 12,5 27 0,8 6000 18000000 PWS2152220*G 1500 450 0,033 16 27 0,8 6000 18000000 PWS2152330*G 1500 450 0,033 13 32 0,8 4500 13500000 PWS2152330*J 1500 450 0,047 15,5 32 0,8 4500 13500000 PWS2152470*J 1500 450 0,068 18,5 32 1 4500 13500000 PWS2152680*J 1500 450 0,1 22 32 1 4500 13500000 PWS2153100*J 1500 450 0,12 25 32 1 4500 13500000 PWS2153120*J (1) Change the * symbol with the needed capacitance tolerance code: J=5%, K=10%, M=20% (2) Not suitable for across the line application 6.2 Ed. 04 Rev. 00 09.2018