FKP2C012201D00KSSD

厂商：
WIMA
封装：
插件,P=5mm
描述：
2200 pF 薄膜电容器 40V 63V 聚丙烯（PP）径向

数据手册：

下载FKP2C012201D00KSSD.pdf

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详情介绍
数据手册
价格&库存

FKP2C012201D00KSSD 数据手册

1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W D W W O W 100 .CO 1 T T . C . . . . W Y W 00WIMA W 00Y MFKPW2 M O W W O W 1 1 T C T . C . . . . W . W WPolypropylene W 00Y MFilm and 0Y (PP) W O Foil 0 W OM .TW W 1 1 T C . C . . . W . W Capacitors Applications Yfor Pulse W W 00Y M M 0 W O 0 W W O W 1 in PCM 5 mm 1 T C T . C . . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . W SpecialWFeatures Y. . W W 00Y M W Data 00 .COM .TElectrical W O W 1 1 TW . C . . W . W Y W Y W Test0voltage: ˜ Pulse duty construction range: 2 U , 2 sec. M 0 pulse 0up0to ±2.5.%COM Capacitance W O W 33.T pF W to 0.033 mF (E12-values on request) Maximum rise time: TW ˜ Close tolerances 1 1 . C . . W . W (±1 % on request) Rated voltages: 1000 V/ m sec for pulses equal to the Y W Y W M M 0 0 W O 0 W W O 0 63 VDC, 100 VDC, 250 VDC, 400 VDC,W rated 1 voltage ˜ Very low dissipation 1 factor T C T . C . . . . W capacitance . W 630 VDC, 800 VDC, 1000 VDC Dielectric absorption: ˜ Negative change W 00Y W 00Y M M W versus temperature CapacitanceW tolerances: 0.05% O W W O W 1 1 T C T . C . . . . WdielectricWabsorption Y ±10%,M±5%, ±2.5% (±2%, ±1.5% or ±1%W Temperature . coefficient: ˜ Very low W M 0 0Y available as precision capacitors subject –200 x 10 /+ C0(typical) to W RoHS 2002/95/EC W O 0 W O W 1 TW ˜ AccordingW 1 T C T . C . to special enquiry) Voltage derating: . . . . W W 00Y Operating Wderating 0factor Mtemperature range: A voltage Typical Applications 0Yof 1.35 %OperMK W W O W W W 1 T 1 T –55+ C to +100+ C must be applied from +85+ C .for DC C T . . C . . . . W W Y W e.g. 00 Test specifications: M voltages andW from +75+ C for AC M M For high frequency applications 0Y W O W O 0 W with IEC 60384-13 voltages 1 In accordance TW˜ Sample and holdWW 1 T C T . . C . . . . . W and EN 131 800 Reliability: Y W W 0hours M ˜ Timing M 0 testOcategory: 0Y OM .TW W 0Climatic W O OperationalW life  300 000 ˜ LC-Filtering 1 1 T C TW . C . . . in accordance . W . W 55/100/56 with IEC Failure rate  5 fit (0.5 x U and 40+ C) Y ˜ Oscillating circuits W M Y W 00 Mat +20+ C:W M W equipment Insulation O 00 resistance W O W ˜ 1 TAudio CO 1 T C . . C . . . .T W .  5 x 10 Y M¸ W W M Y W M M 0 0 1 x 10 O M¸) W O Construction W 0value:voltage: W (mean O 0 W 1 T C 1 T C . . C . . Measuring . . W . W Y W M W 00Y U = 63 V: 0 U Y= 50 V/1 M min. O W O 0 Dielectric: W W OM W 1 T C 1 T U  100 V: U = 100 V/1 min. C . . C . . . . W . W Polypropylene (PP) film Y at +20)OC:M W factors M W 00Y Dissipation tan d 0 Capacitor electrodes: W 00Y .CO W 0 W O W 1 T T C at .f C . 1000 pF . 1000 pF < C T 4700 pF W C > 4700 pF.1 C Metal foil . W . Y Y W W 00Y M 1 kHz 00  3 x 10O  4 x 10 W 4 x 10 W OMconstruction: W W 100 .Internal 1 T C T C . . .  4 x 10  3.x 10 W 10 kHz .C W 4 x 10 W.1 Y Y W M Y M 0 0 100 kHz  4 x 10  5 x 10 – 0 W O 0 0 x 10.CO W 1 T 10 TW– – . . WW1 MHz W.1  10 Y W W. 00Y.C OM. W W 00Y M 0 W O 0 W W 1 . .1 .C M.T .1 .T .C M W Tests Mechanical Packing W Y W Y W W 0 0 0 W O W W O 0 W 0 W 10 1 T C 1 T . C . . . . . . Pull test W on pins: and reeled. W W 00Y W 00toY Available M W M tapedW 10 N in directionW of pins according W O W O W 1 1 T . . IEC 60068-2-21 taping .C M. .1 .T information and graphs W W .CDetailedM W Y W Y W W Vibration: at the end of the catalogue. 0 0 W O W 1mm0 hours at 10 ... 2000W Hz and 0.75 T .10 Yflame-retardant C . .TW 6displacement .CO Mplastic . WW Encapsulation: . W W Solvent-resistant, W amplitude or 10W g in W M 0Y case with epoxy OUL 94 V-0 .TW accordance with 00 resin .seal, W W O 0 W W IEC 60068-2-6 1 1 C T . C . . W Terminations: . W Y Low air density: W W Y W M M 0 0 Tinned wire. W O 0 W Wwith .10 = 10 mbar in accordance W Marking: .1 .C M.T 1kPa WW .CO M.T W W IEC 60068-2-13 Y W Y W Colour: Red. Marking: 0 Wtest: Bump 00Black. .CO W W O 0 W 1 1 T Epoxy resin seal: Yellow T . C . . . W . 4000 bumps at 390 m/sec in For further details and graphs please W W W 00Y Y Information. W refer0to0Technical M accordance M with IEC 60068-2-29 W W O W W O .1 .1 .C M.T W .C M.T W W Y W Y W 0 0 W O 0 W W O 0 W .1 .1 .C M.T W .C M.T W Y W Y W 0 0 W 0 W O W 10 T C . .CO M.T . WW W.1 . W Y W 00Y M W 00 .CO W O W 1 1 T TW . C . . . W . W Y W Y W 00 M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W W O 0 W 1 1 T . C . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M 30 W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM r -6 r 5 6 r test r test -4 -4 -4 -4 -4 -4 -4 -4 -4 Plastic film Metal foil electrode Terminating wire 08.11 2 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W D W W O W 100 .CO 1 T T . C . . . . W W 00YWIMA W 00Y M FKP M 4 2 W O W W O W 1 1 T C T . C . . . . W . W W Continuation W 00Y M 0Y W O 0 W OM .TW W 1 1 T C . C . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M M W O W W General1Data O W 1 T C T . C . . . W W Y. . W W 00Y100 VDC/63 M63 VDC/40 VAC* MVAC* W Capacitance 00 W O W O W W H L PCM** Part number W H L PCM** Part 1 1 T C . C . . . .Tnumber W . W 4.5 Y W Y W M 100 pF 4.5 6 7.2 M 5 FKP2C001001D00_ _ _ _ 6 7.2 5 FKP2D001001D00_ _ _ _ 0 W O 5 .TFKP2C001501D00_ _ _ _ 0 6 .C7.2 W O 00 5 .CFKP2D001501D00_ _ _ _ W 14.5 150 „ 4.5 6 .17.2 TW . . W W Y W Y W 220 „ 4.5 06 5 FKP2C002201D00_ _ _ _ 4.5 6 7.2 05 FKP2D002201D00_ _ _ _ M W OM 0 6 7.2 W O 0 W 330 W „ 4.5 7.2 5 FKP2C003301D00_ _ _ _ 4.5 6 7.2 5 FKP2D003301D00_ _ _ _ 1 1 T C T . C . . . . W . W 470 „ 5 M FKP2C004701D00_ _ _ _ 4.5 6 W 7.2 5 YFKP2D004701D00_ _ _ _ W4.5 6 0Y7.2 O M 0 W W W O 0 W 680 „ W 4.5 10 6 7.2 5 FKP2C006801D00_ _ _ _ 4.5 6 7.2 5 FKP2D006801D00_ _ _ _ 1 T C T . C . . . . W . W Y 5 OFKP2C011001D00_ _ _ _ W 6 007.2 Y W 5 00FKP2D011001D00_ _ _ _ 1000 pF 4.5 4.5 6 7.2 M M W W W O W 1500 „ 4.5 6 7.2 5 FKP2C011501D00_ _ _ _ 4.5 6 7.2 5 FKP2D011501D00_ _ _ _ 1 TW 1 T C T . C . . . . W . W 2200 „ 4.5 4.5 6 7.2 W5 FKP2D012201D00_ _ _ _ W6 7.2 M M 0Y 5 5 FKP2C012201D00_ _ _ _ 0Y W W O 0 W W O 0 3300 „ 4.5 6 17.2 FKP2C013301D00_ _ _ _ 5.5 7 7.2 5 1FKP2D013301G00_ _ _ _ W T T C T . . C . . . . W . W 4700 „ 4.5 6 7.2 5 FKP2C014701D00_ _ _ _ 5.5 7 7.2 5 FKP2D014701G00_ _ _ _ Y W M W 00Y M M 4.5 6 7.2 005 FKP2C016801D00_ _ _ _ 5.5 7 7.2 W 5 FKP2D016801G00_ _ _ _ W O W W O 1 TW 6800 „ 1 T C T . . C . . . . W . W 0.01 mF 5.5 7 7.2 5 FKP2C021001G00_ _ _ _ 6.5 8 7.2 5 FKP2D021001I00_ _ _ _ Y W W 00Y M M 0 OM .TW 0.015 „ W 7.2 8.5 7.2 W O O 6.5 W 8 7.2 10 5 FKP2C021501I00_ _ _ _ 5 FKP2D021501J00_ _ _ _ 1 T C TW . C . . . . W 8.5 7.2 . 0.022 „ 7.2 5 FKP2C022201J00_ _ _ _ 8.5 10 7.2 W 5 FKP2D022201L00_ _ _ _ Y W M Y W 00 M M 0.033 „ 8.5 10 W7.2 5 00 FKP2C023301L00_ _ _ _ W O O W 1 T W CO 1 T C . . C . . . .T W . W Y W M Y W M M 0 0 W O W 0VAC* .CO W250 VDC/160 O WVAC* .10 1 .T 400 VDC/220 C T . C . . W . Capacitance W Y W 00PartYnumber OM W WH L PCM** PCM** Part M W W H L W Wnumber 00Y O OM W 1 T C 1 T 100 pF 4.5 6 W 7.2 5 FKP2F001001D00_ _ _ _ 4.5 6 7.2 5 FKP2G001001D00_ _ _ _ C . . C . . . . . W Y W 00Y M4.5 6 150 „ 4.5 6 7.2 5 W FKP2F001501D00_ _ _ _ 7.2 5 FKP2G001501D00_ _ _ _ 0 W 00Y .COM W O 0 W O W 220 „ .T 4.5 6 7.2 5 FKP2F002201D00_ _ _ _ 4.5 6 7.2 5 FKP2G002201D00_ _ _ _ 1 1 T C . C . . . W . W Y 330 4.5 6 7.2 5 FKP2F003301D00_ _ _ _ 4.5 W 00Y M„ W 00Y M 6 W7.2 5 FKP2G003301D00_ _ _ _ O W 5 W FKP2F004701D00_ _ _ _ 4.5 6 7.2 5 FKP2G004701D00_ _ _ _ 100 .C O470 „ .TW4.5 6 7.2 W 1 T C . .1 .6 7.2 5 FKP2G006801D00_ _ _ _ . 4.5 .C W 680 „ 4.5 6 7.2 5 FKP2F006801D00_ _ _ _ Y Y W M Y W M 0 0 0 W O 0 O 6 .T7.2 W 5 FKP2G011001D00_ _ _ _ W W 1 1000 pF 10 .10 Y.C4.5 .T4.5 6 7.2 5 5 WFKP2F011001D00_ _ _ _ . W W. 00Y. C 1500 „ M 4.5 6 7.2 FKP2F011501D00_ _ _ _ 4.5 6 7.2 5 FKP2G011501D00_ _ _ _ W W 00Y M 0 W O W O 0 W W 2200 „ 4.5 6 7.2 5 FKP2F012201D00_ _ _ _ 4.5 6 7.2 5 FKP2G012201D00_ _ _ _ 1 . .1 .T 7 7.2 5 FKP2F013301G00_ _ _ _ .C M5.5 .1 .T 5 FKP2G013301G00_ _ _ _ .C 7 M7.2 W W Y 3300 „ 5.5 W Y W W 0 0 0 W 7.2 5 FKP2F014701I00_ _ _ _ W W FKP2G014701I00_ _ _ _W 4700 „ O 6.5 8 8 7.2 5 O 0 6.5 W 0 10 6800 1 T C 1 T . C . . . . . . W 5 FKP2G016801J00_ _ _ _ W W 00Y„ O6.5 Y 8.5 O7.2 W 007.2 M 8 W7.2 5 FKP2F016801I00_ _ _ _ W M W W W 0.01 mF 7.2 8.5 7.2 5 FKP2F021001J00_ _ _ _ 8.5 10 7.2 5 FKP2G021001L00_ _ _ _ W 1 1 T . 0.015 „ Y.C 8.5 10 . . 7.2 5 FKP2F021501L00_ _ _ _ .1 W .C M.T W W W Y W M W 0 0 0 W O W W 10 TW T C . Hz;.1.4 x U + UDC  U .Cf O1000M . WW W.*1 AC voltage: . W W Y W 00Y W M O module .=TpinWspacing. 0=0 Printed.C W W O W W 1 1 ** PCM circuit T . C . Part number . W . W completion: W Y W Y W M M 0 0 Tolerance: 10 % = K W O 0 W 0 W values available .1 and individual .T .C valuesM WW E12 5 J .1 .CO M.T WW% =W W Y from 27 pF up on0request. W Y 0 2.5 % = H W 2 O 0 W W O 0 W 1 1 W T L C T . C % = G . . . . W Dims. inWmm. . W W Y Y M M 1.5 % = F W 0 0 W O 0 W W O 0 1 % =W E .1 .1 .C H M.T W .C M.T W W Y W Y W Packing: bulk = S 0 0 W O 0 W W O 0 W 6 SD C .1 .T Pin length: 6-2 = W W d = 0.5 l .1 .C M.T d. Y W Y W M Taped version see page 127. 0 0 5 W 0 W O W 10 T C . .COPCM M.T . WW W.1 . W at the pin exit points Y W M 0Y with frequency Impedance0change W 00 .(±C0.5)O W O W 1 1 T TW . C . . W . (general. guide). W Y W Y W 00 M 00 .COM .TW W O W 1 1 TW . C . . . Continuation W page 32 W Y W Y W M 0 00 .COM .TW W W O 0 W 1 1 T . C . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y 31 M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM rms r 10 Z  1 7 5 3 pF 337 pF 4 -F p -100 pF -220 F p -470 pF -0 F 100 -0 p F 220 -0 p 470 µF -1 0.0 2 µF -2 0.0 3 µF -3 0.0 -- 0.1 7 5 -2 3 0.01 08.11 Rights reserved to amend design data without prior notification. 1 3 5 7 10 3 5 7 100 f/MHz 1000 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W D W W O W 100 .CO 1 T T . C . . . . W Y W 00WIMA W 00Y MFKPW2 M 4 O W W O W 1 1 T C T . C . . . . W . W WContinuation W 00Y M 0Y W O 0 W OM .TW W 1 1 T C . C . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M M W O W W General Data O W 1 1 T C T . C . . . W W Y. . W W 00800YVDC/250OVAC* MVDC/250WVAC* M Capacitance 0W 0 H .COL 630 W W PCM** Part number W H L PCM** Part number 1 1 T TW . C . . . W . W Y W Y 100 pF 4.5 6 7.2 M 4.5 W 6 7.2 0 5 W O 5 5 FKP2J001001D00_ _ _ _ W 4.5 OM .TW 0 5 .FKP2L001001D00_ _ _ _ W 1006 .7.2 1 T W 150 „ FKP2J001501D00_ _ _ _ 4.5 6 7.2 FKP2L001501D00_ _ _ _ C . C . . W W4.5 06 0Y7.2 O 220 „ 5 MFKP2J002201D00_ _ _ _ 4.5 6 W7.2 5 0YFKP2L002201D00_ _ _ _ M W W W O 0 W 330 „ 4.5 6 7.2 5 FKP2J003301D00_ _ _ _ 4.5 6 7.2 5 FKP2L003301D00_ _ _ _ 1 1 T C T . C . . . . W . W Y 5 OFKP2J004701D00_ _ _ _ 470 „ 4.5 5.5 7 W 7.2 5 FKP2L004701G00_ _ _ _ W 6 007.2 Y M M 0 W W W W O 0 W 680 „ 4.5 6 7.2 5 FKP2J006801D00_ _ _ _ 5.5 7 7.2 5 FKP2L006801G00_ _ _ _ 1 1 T C T . C . . . . W . W W6 7.2 1000 pF 4.5 FKP2J011001D00_ _ _ _ 5.5 7 7.2 W 5 FKP2L011001G00_ _ _ _ OM .TW 00Y 5 5 .CFKP2J011501D00_ _ _ _ 00Y .COM .TW 4.5 6 .17.2 5.5 7 W 7.2 5 .1FKP2L011501G00_ _ _ _ TW 1500 „ WW W 7.2 W 2200 „ 5.5 W 7 7.2 5 FKP2J012201G00_ _ _ _ 6.5 8 5 FKP2L012201I00_ _ _ _ Y M M 0 0Y W W O 0 W W O 0 3300 „ 6.5 8 7.2 5 FKP2J013301I00_ _ _ _ 7.2 8.5 7.2 W 5 FKP2L013301J00_ _ _ _ 1 T 1 T C T . . C . . . . W . W 4700 „ 6.5 8 7.2 5 FKP2J014701I00_ _ _ _ 8.5 10 7.2 5 FKP2L014701L00_ _ _ _ Y W 05 0 FKP2J016801J00_ _ _ _ M W 00Y M M 7.2 W 8.5 7.2 W O W O W 1 TW 6800 „ 1 T C T . . C . . . . W . W 0.01 mF 8.5 10 7.2 5 FKP2J021001L00_ _ _ _ Y W W 00Y M OM .TW 00 .COM .TW W O W 1 1 TW . C . . W . W Y W M Y W 00 M 1000 VDC/250 W Wvalues and individual valuesWavailable OM .TE12 O from 27 pF up on request. 100VAC* Part .number TCapacitance W H WW CO 1 C L PCM** . . C . .T . W Y W M Y W M M 0 0 W 4.5 6 7.2 W 5 FKP2O100331D00_ _ _ _ O .33TpF W O Dims. 0 O 0 W in mm. 1 C 1 T C . C . . . 47 „ 4.5 6 W 7.2 5 FKP2O100471D00_ _ _ _ . . W Y M W 00Y Part number completion: M 0Y 68 „ W 4.5 6 7.2 5 W FKP2O100681D00_ _ _ _ O W O 0 W OM W 1 T C 1 T C . . Tolerance: 10 % = K C . . . . W . 100 pF 4.5 6 7.2 5 FKP2O101001D00_ _ _ _ W W 00Y M M 5 % = W J 0Y 150 „ 4.5 6 7.2 5 WFKP2O101501D00_ _ _ _ W 00Y .CO W O O 0 W 1 T 2.5 % = H 1 T C . C . . 220 „ . 4.5 6 7.2 W 5 FKP2O102201D00_ _ _ _ . . W Y W 00Y 2 % = G W M „ 4.5 0Y W 6 7.2 5 5 FKP2O103301D00_ _ _ _ OM W O W 0 1.5 % =W F 100 . C330 1 T 1 T 470 „ 5.5 7 7.2 FKP2O104701G00_ _ _ _ C . . . . . WFKP2O106801G00_ _ _ _ .C Y 680 O 1 W %=E Y W Y W M „ M 5.5 7 7.2 5 0 0 0 W 0 W Packing: bulk = S W 1 10 TW Pin .10 Y.CO .T 8 7.2 5 FKP2O111001I00_ _ _ _ .CpF M6.5 . . W length: 6-2 = W SD W. 00 Y1000 W W 00Y M 1500 „ O 7.2 8.5 7.2 5 FKP2O111501J00_ _ _ _ 0 W W O 0 W W Taped version see page 127. 1 . 2200Y.„ C 8.5 .T10 7.2 5 FKP2O112201L00_ _ _ _ .1 .1 .C M.T W W W Y W M W 0 0 0 Of  1000.T W W O 0 W 0 Hz;W 1.4 x U + UDC  U W 10* AC voltage: 1 C 1 T . C . . . . . W W Y= PrintedOcircuit W **0PCM W 00Y M moduleW W M 0 = pin spacing. W W O W W 1 1 T . . .C M. .1 W .C M.T W W Y W Y W W 0 0 W 0 W O W W 10 T C . .CO M.T . WW W.1 . W W Y W 00Y W M W 00 .CO W W O W W 1 1 T T . C . . . W Permissible . W W Y W AC voltage Y W M M 0 0 W O 0 W in relation to.1 frequency C W TW .10 Y.CO . rise M.T . WW W W at 10) CW internal temperature Y W M 0 0 W O (general guide). 10 W W O 0 W 1 T C T . C . . . . W . W W W 00Y Y W M M 0 W O W W O 0 W .1 .1 .C M.T W .C M.T W W Y W Y W 0 0 W O 0 W W O 0 W .1 .1 .C M.T W .C M.T W Y W Y W 0 0 W 0 W O W 10 T C . .CO M.T . WW W.1 . W Y W 00Y M W 00 .CO W O W 1 1 T TW . C . . . W . W Y W Y W 00 M 00 .COM .TW W O W 1 630 VDC .1 TW . C . W . W 800 VDC Y W Y W M 0 1000 VDC 00 .COM .TW W W O 0 W 1 1 T . C . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M 32 W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM rms r Rights reserved to amend design data without prior notification. Urms V 5 102 00 47 00 5 2 5 105 2 pF 47 33 pF pF 10 0 47 pF 5 0 22 01 104 0 pF 0. 2 101 22 10 00 µF 106 2 pF pF pF 5 f 107 Hz 08.11 250 2 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W D W W O W 100 .CO 1 T T . C . . . . W W Recommendation W 00Y M forWProcessing M 0Y O 0 W W O W 1 1 T C T . C . . . . W . W and Application of W 00Y W 00Y M W O W OM .TW W 1 Through-Hole Capacitors 1 T C . C . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W Soldering . W Y W Process 00 .COM .TWWave soldering WW .100Y COM .TW W 1 . W . W Y WIMA OM W Y W A preheating of through-hole M 0 0 W 0 W O 0 W capacitors is allowed for temperatures 1 1 T C TW . C . . . . WP 100 ° C.W . W Y T Y W M 0 00 of .COM .TW W O 0 W In practiceW a preheating1duration 1 T . C . . . W tP5W min. has been proven to be best. W 00Y W 00Y M M W W O W W O W 1 1 T C T Single wave soldering . C . . . . W . W W T P0260 ° W 00Y M Soldering bath temperature: 0YC OM W W W O W t.1 P 5 sec TW Immersion time: 1 T C T C . . . . W . W W 00Y W 00Y M M W Double wave soldering W O W W O W 1 T 1 T C T . C . . . . W Soldering bath temperature: T P.260 ° C . W Y W 00 M W 00Y M M W O W O W TWImmersion time: WW 2 x t P .31sec 1 T C T . C . . . . . W Y Due to different soldering processes and W W soldering 0Y M M 0 TypicalOtemperature/time OM .TW W graph for double wave O 0 W heat requirements the graphsW are to be 10 1 T C TW . C . . . . W only. W . W regarded as a recommendation Y M Y W 00 M 00 .COM .TW W O W 1 TW CO 1 . . C . .T W . W Y W M Y W M M 0 WIMA Quality and Environmental Philosophy 0 W O W O 0 W O 0 W 1 T C 1 T C . . C . . . . W . W Y W 00Y M W 00Y M W O W O W OM W ISO 9001:2008 Certification WIMA Environmental Policy RoHS Compliance 1 T C 1 T C . . C . . . . W . W W 00Y M W 00Y M W 00Y .CO W O W O W ISO 9001:2008 is an international basic All WIMA capacitors, irrespective of According to the RoHS Directive 2002/95/EC 1 T 1 T C . . C . . . W . W Y standard of quality assurance systems for whether through-hole devices or SMD, certain hazardous substances like e.g. lead, W 00Y W M cadmium, 0Y WThe approval OM of .industry. W O W 0 branches are made of environmentally friendly mercury must not be used any W 100 .allaccording 1 T C 1 T C . . longer in electronic equipment . Wmaterials. W .C Was of JulyW ISO 9001:2008 of our Neither during Y manufacture 1st,. Y factoriesObytoM Y M 0 0 0 W the VDE inspectorate certifies nor inW the product itself any toxic 2006. For the sake of the environment WIMA 0 W Wsince .10 1 Trefraind .10e.g. Y.CO has .T and moni.C . organisation, equipment substances from using such substances W areWused, W Y W. 00that M W 00Y Myears already. 0 toring of quality assurance in our factories W O W O 0 W – Lead – PBB/PBDE W 1 . correspond .1 – Arsenic .T recognized .C to internationally .1 .C M.T W W – PCB Y W Y W M W 0 standards. 0 0 W – CFC O W W O 0– Cadmium W 0 W 10 1 T C 1 T . C . . . . . . W chloride – Hydrocarbon W YWPCS OM W WIMA Y W –– 0Mercury W M 0 0 – Chromium 6+ etc. W 0 W W O W W 1 1 T . . materialsY.C .C M. .1 .T W Wpure, recyclable W We merely use Y W W W M The WIMA Process Control System (WPCS) 0 0 components, W O W such.1as:0 W 10 surveillance a .quality TW for packing our W COand optimization T C . . . WW issystem . W Y W developed by WIMA. M WPCS is a W 00Y W M W O 0of 0the quality-oriented W W O W ” carton W major part WIMA 1 1 T C T . C . . . . W production. . W W ” cardboard Points ofYapplication of WPCS W Y W M M 0 0 W ” adhesive tape made of paper O 0 W during production O W W 10 Tape for.C T ” polystyrene C Tcapacitors .1 process: lead-free WIMA . . . . WW W W Y W Y W ” incoming material M 0 OM .TW 00 inspection W W O 0 W ” metallization 1 1 C T . C . . . W . W W We almost completely refrain from using W 00Y ” film inspection Y W M packingWmaterials such as: M 0 O W W O 0 DIN EN ISO 14001:2009 W ” schoopage .1 .1 .C M.T .C M.T W W ” W pre-healingW Y Y W 0 0 W O 0 ” pin attachment WIMA’s environmental management has W W O 0 W ” foamed polystyrene (Styropor®) 1 .1 .T .C ” M .Tthe W ” castW resin preparation/ been.establishedY in.C accordance with adhesive tapes made of plastic Y W W M 0 0 encapsulation guidelines of DIN EN ISO 14001:2009 to W W O” metal .clips 0 O Woptimize .the10production.C T C ” 100% final inspection .1 . processes with.T WW W W 00Y Wto energy0and M ” AQL check regard 0Yresources.OM W O W W 1 1 T C TW . C . . . . W . W Y W Y W 00 M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W W O 0 W 1 1 T . C . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M 14 W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM max 260 240 220 200 180 160 140 120 100 80 60 40 20 10 s [°C] see detailenlargement 2s 3s t 30 60 90 120 150 180 210 240 [sec] 08.11 T 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W D W W O W 100 .CO 1 T T . C . . . . W W 0Typical W 00Y M M for 0Y Dimensions W O W W O W 1 1 T C T . C . . . . W . W Taping Configuration W 00Y W 00Y M W O W OM .TW W 1 T C Vh .1 . C . . W . W W 00Y P P W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M M W O W W O W P 1 1 T C T . C . . . . W . W Y W W 00Y M 00 .COM .TW W O W Diagram 1: 1 1 TW . C . W W PCM. 2.5/5/7.5mm . Y W Y W 00 M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W D Y W M 0 00 .COM .TW W W O 0 W 1 1 T . C . . d W . W W 00Y PFOM W 00Y M W W W W O W P 1 1 T C T . C . . . . W . W W 00Y P OM W 00Y M W W W O W 1 TW 1 T C T . C . . . . W . W W 00Y W 00Y M M W W O W W O W 1 T 1 T C T . . C . . . . W . W Y W P00 M W 00Y M M P W O W W O W 1 TW 1 T C T . . C . . . . W . W Y W W 00Y M OM .TW 00 .COM .TW W O W 1 1 TW . C . . W . W Y W M Y W 00 M M 0 W O W O W d d0 1 TW CO 1 T C . . C . . . .T W . W Y W M Y W M M 0 0 P 0 P W F W O WP O O 0 W T C 1 T C P.1 . F C . . . . W . W Y W 00Y M W 00Y M W O W W OM Diagram 2: PCM 10/15 mm DiagramO 3: PCM 22.5 and 27.5*mm W 1 T C 1 T C . . C . . . . W . *PCM 27.5 taping possible with two feed holes between W components W 00Y W 00Y M 00Y .COM .TW W O W O W 1 1 T C . C . . . W . W Y W 00YDimensions for Radial Taping M W 00Y M W W O W W 100 .CO 1 T T C . . .1 . . W .C W Y Y W M Y W M 0 0 0 W O 0 W 0 W 1 T 10 . .CO M.T WW W.1 W W. 00Y.C OM. W Y W 00Y 0 W O 0 W W 1 . .1 .C M.T .1 .C M.T W W Y W Y W W 0 0 0 W O W W O 0 W 0 W 10 1 T C 1 T . C . . . . . . W W W 00Y W 00Y M W M W O W W O W W 1 1 T . . .C M. .1 W .C M.T W W Y W Y W W 0 0 W 0 W O W W 10 T C . .CO M.T . WW W.1 . W W Y W 00Y W M W 00 .CO W W O W W 1 1 T T . C . . . W . W W Y W Y W M M 0 0 W O 0 W W TW .10 Y.CO .C M.T . WW W.1 W W Y W M 0 W 00 .CO W W O 0 W 1 1 T T . C . . . W . W W W 00Y Y W M M 0 W O W W O 0 W .1 .1 .C M.T W .C M.T W W Y W Y W 0 0 W O 0 W W O 0 W .1 .1 .C M.T W .C M.T W Y W Y W 0 0 W 0 W O W 10 T C . .CO M.T . WW W.1 . W Y W 00Y M W 00 .CO W O W 1 1 T TW . C . . . W . W Y W Y W 00 M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W W O 0 W 1 1 T . C . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y 127 M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM 2 W W1 W0 H H1 W2 1 0 H1 t 0 1 H 1 0 0 2 2 Designation Carrier tape width Symbol PCM 2.5 taping W 18.0 p0.5 PCM 5 taping PCM 7.5 taping PCM 10 taping* PCM 15 taping* PCM 22.5 taping PCM 27.5 taping 18.0 p0.5 18.0 p0.5 18.0 p0.5 18.0 p0.5 18.0 p0.5 18.0 p0.5 for hot-sealing for hot-sealing for hot-sealing for hot-sealing for hot-sealing for hot-sealing for hot-sealing Hold-down tape width W0 6.0 6.0 12.0 12.0 12.0 12.0 12.0 adhesive tape adhesive tape adhesive tape adhesive tape adhesive tape adhesive tape adhesive tape Hole position W 1 9.0 p0.5 9.0 p0.5 9.0 p0.5 9.0 p0.5 9.0 p0.5 9.0 p0.5 9.0 p0.5 Hold-down tape position W 2 0.5 to 3.0 max. 0.5 to 3.0 max. 0.5 to 3.0 max. 0.5 to 3.0 max. 0.5 to 3.0 max. 0.5 to 3.0 max. 0.5 to 3.0 max. Feed hole diameter D 0 4.0 p0.2 4.0 p0.2 4.0 p0.2 4.0 p0.2 4.0 p0.2 4.0 p0.2 12.7 p1.0 12.7 p1.0 12.7 p1.0 25.4 p1.0 25.4 p1.0 38.1 p1.5 4.0 p0.2 3*8.1 p1.5 or 50.8 p1.5 Pitch of component P Feed hole pitch P 0 12.7 p0.3 cumulative pitch error max. 1.0 mm/20 pitch 12.7 p0.3 cumulative pitch error max. 1.0 mm/20 pitch 12.7 p0.3 cumulative pitch error max. 1.0 mm/20 pitch 12.7 p0.3 cumulative pitch error max. 1.0 mm/20 pitch 12.7 p0.3 cumulative pitch error max. 1.0 mm/20 pitch 12.7 p0.3 cumulative pitch error max. 1.0 mm/20 pitch 12.7 p0.3 cumulative pitch error max. 1.0 mm/20 pitch Feed hole centre to pin P 1 5.1 p0.5 3.85 p0.7 2.6 p0.7 7.7 p0.7 5.2 p0.7 7.8 p0.7 5.3 p0.7 Hole centre to component centre P 2 6.35 p1.3 6.35 p1.3 6.35 p1.3 12.7 p1.3 12.7 p1.3 19.05 p1.3 19.05 p1.3 Feed hole centre to bottom H edge of the component 16.5 p0.3 18.5 p0.5 16.5 p0.3 18.5 p0.5 16.5 p0.5 18.5 p0.5 16.5 p0.5 18.5 p0.5 16.5 p0.5 18.5 p0.5 16.5 p0.5 18.5 p0.5 16.5 p0.5 18.5 p0.5 Feed hole centre to top H edge of the component 1 H+Hcomponent < H1 32.25 max. H+Hcomponent < H1 32.25 max. H+Hcomponent < H1 24.5 to 31.5 H+Hcomponent < H1 25.0 to 31.5 H+Hcomponent < H1 26.0 to 37.0 H+Hcomponent < H1 30.0 to 43.0 H+Hcomponent < H1 35.0 to 45.0 7.5 p0.8 10.0 p0.8 15 p0.8 22.5 p0.8 27.5 p0.8 Pin spacing at +0.8 F 2.5 p0.5 5.0 upper edge of carrier tape –0.2 +0.08 Dh p 2.0 max. p 2.0 max. p 3.0 max. p 3.0 max. p 3.0 max. p 3.0 max. p 3.0 max. 0.7 p0.2 0.7 p0.2 0.7 p0.2 0.7 p0.2 0.7 p0.2 0.7 p0.2 0.7 p0.2 ROLL/AMMO Package (see also page 128) P 360 max. 52 p2 depending on REEL P 30 p1 B 58 p2 comp. dimensions Unit 0.8 +0,08 –0.05 Component alignment t 0.8 +0,08 –0.05 0.4 p0.05 „ 0.5 +0,06 p0.05 or 0.6 –0.05 d „ 0.5 +0.06 p0.05 or 0.6 –0.05 Pin diameter Total tape thickness 0.5 p0.05 0.8 –0.05 AMMO 52 p2 54 p2 max. P 500 max. B 58 p2 or REEL B 60 p2 REEL PP 360 30 p1 P 25 p1 66 p2 68 p2 depending on PCM and component dimensions see details page 130. Dims in mm. 08.11 „ Diameter of pins see General Data. * PCM 10 and PCM 15 can be crimped to PCM 7.5. Position of components according to PCM 7.5 (sketch 1). P 0 = 12.7 or 15.0 is possible Please clarify customer-specific deviations with the manufacturer. 08.11 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W D W W O W 100 .CO 1 T T . C . . . . W W 0Packing Y M M for Bulk CapacitorsWand TPS* 0Y Quantities 0 W O W W O 0 W 1 1 T C T . C . . . . W . W W 00Y W 00Y M W O W OM .TW W 1 1 T C . C . . . W . Wpcs. per packaging per packaging unit/TPS* W PCM 00Y Y W unit0bulk0Maxi M SizeW Mpcs. Mini Standard Mini O W W Standard O W 1 1 C . C . M W S G X .T Y W H .T L Codes . W . Y W Y W M M 0B 2.5 7 4.6 1000 5000 10 000 – – 0 0 W 0 W W O 0 W 0C 3CO 7.5 4.6 1000 5000 10 000 – – 1 1 T T . W 2.5 W 5000 W. 10 000 Y.C – M. 1000 – mm 0Y .3.8 8.5M. 4.6 0D W 0E 1000 5000 10 00000 –O – 4.6 9 4.6 W O 0 W W W 1 5.5 .C 10 4.6.T 0F 1 1000 5000 10 000 – – T . C . . W . W Y W 1A 2.5 6.5 M 7.2 2000 5000 10 000 – – Y W M 0 0 O 0 1BW 3 7.5 7.2 1000 5000 – – W W O 0 W T –– .1 3.5 Y. C8.5 7.2 .T1C . 1000 5000 – .1 –C W . W W Y W M 1D W 1000 6000 – 4.50 6 7.2 0 –– OM –– W W 0 W 1ET 1000 4000 – 0 4.5 9.5 CO 7.2 1 1 . C . . . .T W 1F 10 7.2 1000 3500 W – W –Y. – 5 Y W M M 0 0 1G 1000 4000 – – – 5.5 7 7.2 W W O 0 W W O 0 W 5 mm 1 1 T 1H 11.5 7.2 500 2500 – – – .T 5.5 C . C . . . W . W 2500 – 8 Y 7.2 W 6.5 W ––00Y M–– 0 7.2 O1I1JM 1000 W 0 500 2500 – W 7.2 8.5 W W O 1 TW 1 T C T C . . 1K . 500 7.2 2000 – – – 7.2 . 13 . W W . W W – 00Y 1L M 500 10 2000 – – M 8.5 0Y 7.2 W W O 0 W W O W 1M 14 7.2 500 1500 – – – 8.5 1 T 1 T C T . . C . . . . W . W 1N 250 11 16 7.2 1000 – – – Y W 7 0100 2A OM1000 W5000 M W– 00Y – OM W 2.5 – W W 1 TW 1 T 2B 3 8.5 10 1000 5000 – – – C T . . C . . . . W . W Y 2C 10 1000 4000 – – – 4 9 W W 00Y – OM M 0 2D O1000 OM .TW 7.5 mm W 0 10.3 3500 – – 4.5 W 9.5 W 1 1 T C TW . . . 2E . 10.5 10.3 1000 3000 – – – .C W 5 . W Y W M Y W 00 – M 12.5 10.3 2000 – – 500 M 5.7 02F W O W O 7.2 12.5 10.3.10 2G 500 1500 – –W – TW CO 1 T C . C . . .T W– W 3A Y. 1000 3 W 9 13 3000 – – Y. W M M M 0 0 FA 4 8.5W 13.5 3000 W – – 500 O W O 0 1000 O 0–– W 1 T C 1 T 3C 13 3000 – – 4 9 C . . C . . . . W . W Y 13 W 3D 3000 – – 4 9.5 M 10 mm W –– 00Y M 0Y 1000 W O W FB 0 O 10 13.5 500 2000 – – 5 W OM W 1 T C T . C . . 3F. 11 W 13 1000 .C 3000 . – – W –1 5 . Y W – 00Y M 2400 – – 0 800 00Y .COM .TW 66 1212.5 1313WW3G W O 0 O W 3H 800 2400 – – – 1 1 T C . C . . . W . W 3I 8 500 12 13 2000 – – – Y M W 0Y – – W 55 1113 1819 W4BFCW .1 800 OM .–TW 00Y .2400 0 W 100 .CO T 1 200 1000 – – C . W 4C W 500 Y 2000 M – .C W – W. Y 12.5 18 – 6 M Y 0 0 0 W O 0 – W 1 T 6 14 19 FDW 250 10 CO – .TW –– .10 1000 . 400 1600 – . W W. 00Y.C OM. 77W 1415 1819 W4D Y W W 00Y M FE 250 1000 – – 0 W O 0 W W 4F 15 18 1200 – – – 400 8 1 15 mm . .C M.T 8 17 19 FFW 100W.1 500Y.C M.T – .1 W– Y W W 0 0 0 4H 14 18 1200 – – – 400 9 O 9.TW16 18 4J W 300 .10 900 CO W W– 0 W 10 C – – 1 T . . . . . W 100 W 500 Y – M – W 00Y –W M1011 1814W 1918 FG W 0 O 4M W W 300 1000 – – – O 0 W W 1 1 T . .1200 Y.C .C M .1 .T– 5A 5 . 14 26.5 – – W W 300 W Y W W W M 5B 6 15 26.5 250 1000 – – – 0 0 0 W 5D – CO – TW – 190 W 760 10 . .TW 26.5 .CO 78 M16.5 . WW W.1 . W FH 20 28 W 125 W 500 – – – Y W M– W 0 0Y 5F 18.5 26.5 – – 125 500 8.5 W O 0mm W O 0 W W 22.5 1 1 T FI 10 22 28 – – – 90 540 C T . C . 26.5 5G . W W – W. – Y. W Y. 10.5 OM W 19 – 170 680 M 0 0 W 0 10.5 20.5 26.5 – O170 W–– W 10–– T 5H TW 680 C . . . 5I 11.C 21 26.5 – 170 680 WW W.1 . W W Y Y W – – – 75 M 450 0 00 12 9 .C2419OM 2831.5.TWFJ6A W W O – –W –10 160 1 T . C . . W . 136 M 640 W W 6B 11 Y 21 31.5 – – – 544 W Y W M 0 0 6DW 13 24 O 31.5 – – – 112 448 0 W W O 0 W – .1 – – 56 .1 1315 Y.2526C 3331.5 .TFK6F W .C M.T336 W W W – – – 96 384 Y W M 0 27.5W mm 1500 26 O W FL 33 – – – 48 288 W O 0 W .117 29Y.C 31.5 6G.T – .1 88Y.C .T – – 176 W W W W M M 6I 17 34.5 31.5 – – – 0 88 176 0 0 W W 33 O FM – – 10 3636 .CO 216 TW–– T . . . WW W2020.1 3239.5 Y.C W 6J 31.5 – – 144 W 6000Y M –W M 7A 9 19 – – W 480 O 00 41.5 W O 1 1 T 7B 11 22 41.5 – – – 51 408 C TW . C . . . . W 13W 24 Y . W 7C 41.5 – – – 84 252 Y W 72 00 M – W – M 0 7DO 26 0 41.5 – 144 O W 1 1 37.5 mmWW15 T C TW . C . . . 17 29 41.5 . 7E – – – W 66 132 . Y W Y W M 19 32 41.5 – 54 0 7F7G OM–– W –– 0 108 W 0 W 20W 39.5 .10 41.5 – 27 108 O 1 T C T C . . . . W24 45.5 . W 7H 41.5 – – – 21 84 W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y 129 M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM Rights reserved to amend design data without prior notification. Samples and pre-production needs on request. Moulded versions. * Tray-Packing-System 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W D W W O W 100 .CO 1 T T . C . . . . W W Packing W 00Y Mfor Taped M Capacitors 0Y Units W O 0 W W O W 1 1 T C T . C . . . . W . W with Radial Leads W 00Y W 00Y M W O W OM .TW W 1 1 T C . C . . . W . W ROLL REEL Y AMMO W 00Y W M Size W M340 x 340W 0 O W P 360 P 500 490 x 370 O 0 W 1 1 T C T . C . . . . W PCM . W H16.5 H18.5 H16.5 H18.5 H16.5 H18.5 H16.5 H18.5 H16.5 W 00Y W OHM L WCodes N O F WI H0Y J AM C B H18.5 W W 10 – .CO 2800 .TW – D C 7 4.6.T 0B .1 Y . W W 2.5. 2200 2500 W W 0–0Y M 0C 7.5 2000 2300 2300 W OM 4.6 00 33.8 .C W W–– O W 1 1 T 0D 8.5 4.6 1500 1800 – 1800 T . 2.5 mm C . . . W . W W 04.60Y 9 O M 0E 4.6 1200 1500 – W –– 00Y 1500 M W W W O 900 5.5 10 4.6 1200 1200 W 0F T–– .1 2.5 Y .–1 .C 7.2 M1A.T . W .C W 6.5 2200 2500 2800 W Y W 0 2300 OM – W 3 00 7.5 7.2 2300 – O 1B1C .TW2000 W 0 W 1 1 C . . 3.5 8.5 7.2 1600 2000 – 2000 . W .C M.––T W W Y W M 1D 4.5 0 6 Y 7.2 1300 1500 – 1500 0 W O1E .TW W – .10 1500 .CO – .TW 4.5 .10 9.5 7.2 1300 1500 C . WW W W 1F 5 10 7.2 1100 1400 – W 1400Y – Y 1G M 1000W M 0 5.5 7 00 7.2 1200 – 1200 – W O W W O 0 W 5 mm W 5.5 .11.5 1 7.2 .C1H T 1 T T 1000 1200 – 1200 – C . . . . W 6.5 W 8 1000 – – M W 100000Y 0 7.2Y 1I1J OM 800 W W W O 7.2 8.5 10 7.2 700 TW 1000 – W 1000 – T 1 C T . C . . W . W 7.2 700. 950 13 . 7.2 Y.1K – 1000 – W M W 800 00Y – OM 8.5 10 7.2 600 800 – W 00 1L1M .COM W W W 1 TW 1 8.5 600 800 14 7.2 – 800 –C T T . . . . . W . W Y 500 700 11 16 7.2 – 700 – W W 00Y M M 01N OM .TW W O W O W 2.5 7 10.10 2A – 2500 4400 2500 – 1 T C TW C . . . . 2B Y. 3 W 8.5 W 10 – 2200 4300 W 2300 4150 M Y W 003100 M 2C 4 9 W 10 3200 1700 W W 00 .C–– OM .T1700 O W T7.5 CO 1 . 4.5 W 9.5 10.3 .12D 1500 2900 1400 2800 C . mm .T W 1300 W – Y. Y W M 2E 5 10.5 10.3 – 1300 2500 M M 0 0 W O O 1000.TW 2200 O 0– W 2F10 5.7 12.5 W 10.3 – 1100 T C 1 C . . C . . . W . W 7.2 12.5 10.3 – 900 1800 1000 – 2G Y W 00Y– M W 1900 00Y M1100 W 2200 W O 3 9 13W 3A – O OM W 1 T C 1 T C . C . . FA . . 4 8.5 W 13.5 – 900 . 1600 –W 1450 . W 0–0Y W1450 00Y M 900 1600 – 00Y .COM .TW 44 99.5 1313 W3C W O O W 3D – 900 1600 – 1400 1 1 T C . C . . . W . W FB 5 10 13.5 – 700 1300 – 1200 Y 10 mm W – 00Y 700OM 1300 M W 00Y – 1200 W 56 1112 1313 3F3G W W W 100 .CO 1 T T C . . – .1 . 1100 . 550 W3H W –– .C W 1000 Y Y M Y M 6 12.5 13 550 1100 – 1000 W 0 0 0 W O 0 – W 740 1 T 8 12 13 3I4B W – .10 400 10 TW . .800 .CO M 1200 W W. 00Y.C OM. 5 W11 18 W – 600 – 1150 Y W W 00Y 0 W FC O 0 5 13 19 – 600 1200 – 1200 W W 1 . .C M .6T 12.5 18 4C W – W.1 500Y.C 1000 .1 .T – 1000 W Y W W M 0 FD 6 14 19 – 500 1000 – 1000 0 0 O 7 .TW W 0 450 .CO 900 .TW – W 0 W 10 4D 14 18 – 850 1 C 1 . . . . W – W 450 Y 900M FE M 7 15 19 – 850W Y W 1500mm W 0 4F 8 15 W 18 –W 400 O 800 – 740 O W W 0 W 1 1 T . . 400 Y.C 800 .C 8 M.17 19 FF .1 .T – 740 W W–– W Y W W W M 4H 9 14 18 350 700 – 650 0 0 W 4J 0 O W 350.10 W 9 16 T 18 – 700 –W 650 T C . .C 10O . WW W.1 . W W FG 18 19 – 300 650 – 590 Y W W 0Y 600 OM – W 540 14 18W 4M – 300 00 11.COM W 0 W W 1 1 T T . C . 26.5 5A W 14 – 800. –. 770 W –W. W Y 65 O W Y M 0 5B 15 M 26.5 W – – 700 – 640 0 0 W– .10 600 .CO – .TW 550 W 7 .C 16.5 26.5 – T 5D . WW W.1 Y W W FH 8 20 28 – – 500 – 480 Y W M 0 OM26.5 .T5FW 00 8.5 .18.5 – –W 0 480 – 450 W W O 1 1 22.5 mm C T . C . . FI 10 22 28 – – 420 – 380 W . W W Y 19 O26.5M 5G W – W 10.5 W M – 400 0Y – 360 0 0 W W O 0 20.5C 26.5 – – W 400 .110.5 .1 .T . 26.5 M5H .T 360 W .C–– W W 5I 11 21 – – 380 350 Y W Y W M 0 12 0024 28O FJ – – 350 – 310 W W W O 0 W .1 19 Y.C31.5 6A .T – .1 .T W 9 – W 460/340* –.C 420 W Y W M M 0 0 6B 11 21 31.5 – – 380/280* – 350 O6D .TW W 300 .10 – .CO 290 .TW 27.5 mmW 13 .1024 – – C . W 15W 26 Y31.5 W – 270 W 250 M 0– Y 00 31.5 .C6FOM .T– W W O 0 W 1 1 TW . C . . W . W Y W Y W 00 M 00 .COM .TW W O W 1 1 TW . C . . W . W Y W Y W M 0 00 .COM .TW W W O 0 W 1 1 T . C . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M 130 W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM Moulded versions. Rights reserved to amend design data without prior notification. 08.11 * for 2-inch transport pitches. Samples and pre-production needs 1 packing unit minimum. 08.11 1 T .1 .C M.T W W. 00Y.C OM. W Y W 00 .CO W 1 1 T C TW . . . . . W Y W Y W 00 M M W D W W O W 100 .CO 1 T T . C . . . . W W 0WIMA W 00Y MNumber M System 0Y Part W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M W O W OM .TW W 1 1 T C . C . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . .consists of M . W A WIMA . W part number 18 digits and is composed as follows: Y W W 00Y M W 00 .CO W O W 1 1 T TW . C . . . W Field 1W . W - 4: Type description Y Y W 00 M M 0 Field 5 - 6: Rated0voltage W O W O W 1 1 T C TW . C . . Field 7 - 10: Capacitance . . W . W Y W Y W M 0 Field 11W - 12: Size and 0 PCM 0 W OMversions) W O 0 W 1 1 T C T Field 13 - 14: Special features (e.g. Snubber . C . . . . W . W W 0tolerance W 00Y M M Field 15: Capacitance 0Y W W O W O W Field 16: W Packing .1 1 T C T C . . . . W . W W (untaped) Field 17 - 18: Lead length W 00Y M M 0Y W O 0 W W O W 1 TW 1 T C T . C . . . . W . W 1 2 3 W4 5 0Y6 7 M8 9 10 11 12 13 W 14 15 0Y16 17 M18 W W O 0 W W O 0 W 1 T 1 T C T . . C . . . . W . W M K S 2 C 0 2 1 0 0 1 A 0 0 M S S D Y W 00 M W 00Y M M W O W W O W 1 TW 1 T C T . . C . . . . W . W Y W MKS 2 63 VDC 0 0.01M mF W20 % bulk 0Y 6 -2 OM OM .TW W 2.5 x 6.5 x 7.2 O 0 W 0 W 1 1 T C TW . C . . . . W . W Y W M Y W 00 M 00 .COM .TW W O W 1 TW CO 1 . . C . .T WRated voltage: . W Tolerance: Y W Type description: Capacitance: Size: M Y W M M 0 0 W O WSize 1812 = X1 20 %W = M .10 O 4.8 x 3.3 x 3 O SMD-PET = SMDT 2.5 W VDC = A1.1022 pF =C 0022 T C T . C . . . W . W = SMDI 4 VDC =W A2 47 pF Y= 0047 4.8 x 3.3 x 4 = X2 10 % =W K Y M SMD-PPS M Size 1812 0pF = 0100 O5.7 x 5.1 x 3.5 0Y O W FKP 02 W = FKP0 14 VDCW= A3 100 Size 2220 = Y1 5 % =J 0 OM 0 W 1 T C 1 T C . . C . . . . W MKS 02 = MKS0 28 VDC = A4 150 pF = 0150 5.7 x 5.1 x 4.5 Size 2220 = Y2 2.5 % = H . W W 220 pF00=Y0220 7.2 x 6.1 x 3 M Size 2824 FKS 2 = FKS2 40 VDC W = A5 = T1 1 % =E W 0Y W 00Y .COM W O O 0 W 1 T FKP 2 .T = FKP2 5 VDC W = A6 330.1 pF = 0330 .C7.2 x 6.1 x 5 Size 2824 = T2 ... C . . . W Y M2 W 00Y MKS 50 VDC = B0 W 470 pF = 0470 = K1 M Size 4030 0Y 10.2 x 7.6 x 5 W== MKS2 W O W W MKP 2 MKP2 63 VDC = C0 680 pF.1=00680 12.7 x 10.2 x 6 Size 5040 = V1 100 .CO T T C . .1 . . .C Packing: W FKS 3 M = FKS3 100 VDC W = D0 1000 pF = 1100 Y15.3 x 13.7 x 7 Size 6054 = Q1 Y W Y W M 0 0 0 W O 0 FKP 3 = FKP3 160 VDC = E0 1500 pF = 1150 2.5 x 7 x 4.6 PCM 2.5 = 0B AMMO H16.5 340 x 340 = A 0 0 W 1 TW .T= MKS4 250 VDC = F0WW . .COPCM 2.5 MKS 4 2200 pF =.1 1220 3 x 7.5 x 4.6 = 0C AMMO H16.5 W 490 x 370 = B .1 W. 00Y.C Y W M Y M = 1AW AMMO H18.5 340 x 340W=W MKP 4 O = MKP4 400 VDC = G0 3300 pF = 1330 00 2.5 x 6.5 x 7.2O PCM 5 C 0 W W 0 1 MKP MKP1 450 VDC = H0 W 4700 pF = 1470 PCM 5 H18.5 490 x 370 = D . .1 3 x 7.5 x 7.2 .C10 M==.T .==T1B2A AMMO .CPCM 7.5 W = F W.1 Y W Y FKP 4 FKP4 600 VDC = I0 6800 pF =W 1680 2.5 x 7 x 10 REEL H16.5 360 M 0 0 0 W O = 2B.TWREEL H16.5 500 0 W 0 1 CO = FKP1TW 630 VDC = J0 = 2100 13 x 8.5 x 10 PCM 7.5 =W H 0.01 mF 10 FKP 1 . C . . . . . W mF = 2220 W= I W 700 VDC = K0 PCM 10 = 3A REEL H18.5 360 0.022 Y R O==MMKX2 W 0MKP-X2 Y W 3 x 9 x 13 M 0 0 MKP-X2 MKXR 800 VDC = L0 2470 4 x 9 x 13 PCM 10 O = 3C REEL H18.5 500 =J W 0.047 mF = W W W 0 W 1 MKP-Y2 .C = MKY2 .T850 VDC = M0 0.1 mFW= 3100 5 x 11 x 18 1 PCM 15.C = 4B .TROLL H16.5 . . .1 = W WNO Y W Y W M W M 0 MP0 3-X2 =O MPX2 900 VDC = N0 = 3220 6 x 12.5 x 18 PCM 15 = 4C ROLL H18.5 = 0.22 mF 0 WW12 180 O W 5 x 14 x 26.5 W 1 3-X1 .C= MPX1 1000 10 PCM 22.5 TW VDC = O1 0.47 mF = 3470 = 5A BLISTER =P T C . . . WW W.MP . W W Y MP 3-Y2 0 = MPY2 M1100 VDC = P0 = 4100 6 x 15 x 26.5 W12 330 =Q 1 mF W 0PCM 22.5 W 0Y = 5BOMBLISTER W O 0 W W MP 3R-Y2 =C MPRY 1200 T VDC = Q0 2.2 mF = 4220 W9 x 19 x 31.5 PCM 27.5 = 6A BLISTER W16 330 =R W 1 1 T . C . PCM 27.5Y.= 6B BLISTER . VDC = R0 4.7 mF = 4470 . W24 330 W W 11 x21 x 31.5 W Snubber MKP Y=. SNMP 1250 =T W W M M 0 0 Snubber FKP = SNFP 1500 VDC = S0 = 5100 9 x 19 x 41.5 PCM 37.5 = 7A Bulk Mini = M 10 mF W O 0 W W 10 = 7B.COBulk Standard TW .1 =YGTOM .PCM 37.5 MKP =S .C 1600MVDC.T= T0 22 mF = 5220W11 x 22 x 41.5 . WW GTO W W Y W DC-LINK MKP 4 0 2000 VDC = U0W 47 mF = 5470 94 x 49 x 182 DCH_ 0= H0 BulkM Maxi =G O 05 == DCP4 W O 0 W 1 DC-LINK MKP DCP5 .C2500 VDC =.T V0 = 6100 94 x 77 x 182 DCH_ = H1 CTPS Mini .TW =X 100 mF 1 . . W DC-LINKWMKP 6 = DCP6Y 3000 VDCM= W0 220 mF = 6220 W . TPS Standard W ... =Y Y W M 0 0 W W O 0 DC-LINK HC 1=0DCH_ 4000O VDC = X0 TW 1F = A010 ... . = SCSC Y6000 .C VDC =MY0. 2.5 F = A025 WW W.1 W .C M.T SuperCap C W W Y 0 Special features: 0 SuperCap MC = SCMC 250 VAC = 0W 50 F = A500 W O 0 W W O 0 W 1 275 .VAC T F = B100 StandardW = 00 .1 Lead.Clength (untaped) C = 1W .100 SuperCap .T W R ==.SCSR Y Y M SuperCap MR W SCMR 0300 VAC = 2W 110 F = B110 Version A1 = 1A W 3.5 ±0.5 = C9 M 0 0 VAC.C=O3W 600.TF W= B600 Version A1.1.1 =W 1B SD TW .10 616-2±1Y.C== O . WW W.1 400 440 VAC = 4W M 1200 F = C120 Version A1.2W= 1C W P1 Y M 00VAC =.C5WO ... .TW ... W 500 ...00 O W 1 1 TW . C . . W . W ... Y W Y W 00 M 00 .COM .TW W W O W 1 1 . C . Wpage is notWcomplete andYserves only toM . on the M.T The data on this explain the part number system.W Part numberW information is Y listed 0 W pages of the respectiveW WIMA range. 00 O W O 0 W 1 1 T C T . C . . . . W . W W 00Y W 00Y M M W O W W O W 1 1 T C T . C . . . . W . W W 00Y W 00Y 125 M W O W OM .T W 1 1 T C . C . . . W . W W 00Y W M 0Y W OM

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FKP2C012201D00KSSD

物料型号：WIMA FKP 2

器件简介：这是一种聚丙烯(PP)薄膜和金属化膜电容器，专为脉冲应用设计，适用于5毫米的印刷电路模块(PCM)。

引脚分配：文档中未明确提供引脚分配信息，但通常这类电容器会有连接到电容器两端的引脚。

参数特性： - 脉冲工作构造 - 测试电压：2 Ur，2秒 - 紧密容差高达±2.5%（可要求±1%） - 最大脉冲上升时间：对于等于额定电压的脉冲为1000 V/msec - 非常低的耗散因子 - 随温度变化的负电容变化 - 介电吸收：0.05% - 温度系数：-200 x 10^-6/°C（典型值） - 符合RoHS 2002/95/EC标准 - 电压降额：从+85°C起对直流电压每升高1°C降低1.35%，对交流电压从+75°C起

功能详解： - 高频应用，例如采样保持、定时、LC滤波、振荡电路和音频设备。

应用信息： - 操作寿命长达300,000小时 - 故障率小于5 fit（在0.5 x Ur和40°C下）

封装信息： - 采用低空气密度、耐溶剂、阻燃的塑料外壳，用环氧树脂密封，符合UL 94 V-0标准 - 端子：镀锡线 - 标记：红色。标记颜色：黑色

机械测试： - 引脚拉力测试：根据IEC 60068-2-21标准，沿引脚方向10 N - 振动测试：根据IEC 60068-2-6标准，6小时在10...2000 Hz和0.75 mm位移幅度或10 g - 冲击测试：根据IEC 60068-2-13标准，1kPa = 10 mbar - 凸起测试：环氧树脂密封，标记为黄色

电气数据： - 电容范围：33 pF至0.033 mF（可按要求提供E12值） - 额定电压：63 VDC、100 VDC、250 VDC、400 VDC、630 VDC、800 VDC、1000 VDC - 电容容差：±10%、±5%、±2.5%（可提供±2%、±1.5%或±1%作为精密电容器，需特别询问） - 工作温度范围：-55°C至+100°C - 测试规格：符合IEC 60384-13和EN 131 800标准 - 气候测试类别：55/100/56，符合IEC标准 - 在+20°C时的绝缘电阻：大于5 × 10^5 MΩ（平均值：1 × 10^6 MΩ） - 包装：可提供卷带和卷轴包装。详细信息和图表在目录末尾提供。

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