152 152 Selfhealing 152 Internal series connection 152 Very low dissipation factor 152 Negative capacitance change versus temperature 152 According to RoHS 200295EC Typical Appli ID: 841013
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1 ˜ Extremely high pulse duty ˜
˜ Extremely high pulse duty ˜ Self-healing ˜ Internal series connection ˜ Very low dissipation factor ˜ Negative capacitance change versus temperature ˜ According to RoHS 2002/95/EC Typical Applications For high pulse and high frequency applications e.g. ˜ Switch mode power supplies ˜ Converters in drives and power electronics ˜ Deflection systems in monitors and TV-sets ˜ Electronic ballasts Construction Dielectric: Polypropylene (PP) film Capacitor electrodes: at +20 + C: tan at f 0.1 0.1 mF C 0.22 m 1 kHz 10 -4 10 -4 10 kHz 10 -4 10 -4 100 kHz 1010 -4 Dielectric absorption:0.05 Voltage derating: A voltage derating factor of 1.35 % per K must be applied from +85 + C for DC voltages and from +75 + C for AC voltages 30 000 sec ( M ¸ x m F)(mean value: 100000 sec) Measuring voltage: 100 V/1 min. Test voltage: 2 U r , 2 sec / 6 kV: 1.6 U r , 2 sec. Maximum pulse rise time:Capacitance max. pulse rise time V/ m sec at T A 40 ) CpF/ 400VDC630VDC1000VDC1250VDC1600VDC2000VDC4000VDC6000VDC100 ... 220 5600056000 330 ... 680 5100056000 1000 ... 2200 2900029000290002900046000510005100051000 3300 ... 6800 900014000270002900029000290002900029000 0.01 ... 0.022 900011000110001100011000130001300013000 0.033 ... 0.068 90001100011000110001100011000 0.1 ... 0.22 700011000110001100011000 67 11.10 Continuation General Data D Capacitance400 VDC/250 VAC630 VDC/400 VAC PCM**Part numberPCM**Part number1000 pF 11 18 15 FKP1G011004B00_ 11 18 15 FKP1J011004B00_ 1500 „ 11 18 15 FKP1G011504B00_ 11 18
2 15 FKP1J011504B00_ 2200 „
15 FKP1J011504B00_ 2200 „ 11 18 15 FKP1G012204B00_ 11 18 15 FKP1J012204B00_ 3300 „ 11 18 15 FKP1G013304B00_ 11 18 15 FKP1J013304B00_ 4700 „ 11 18 15 FKP1G014704B00_ 11 18 15 FKP1J014704B00_ 6800 „ 11 18 15 FKP1G016804B00_ 12.518 15 FKP1J016804C00_0.01 11 18 15 FKP1G021004B00_ 14 18 15 FKP1J021004D00_ 14 26.522.5FKP1J021005A00_ 0.015 „ 12.518 15 FKP1G021504C00_ 15 18 15 FKP1J021504F00_ 15 26.522.5FKP1J021505B00_ 0.022 „ 14 18 15 FKP1G022204D00_ 16.526.522.5FKP1J022205D00_ 14 26.522.5FKP1G022205A00_ 0.033 „ 15 18 15 FKP1G023304F00_ 8.518.526.522.5FKP1J023305F00_ 15 26.522.5FKP1G023305B00_ 0.047 „ 16.526.522.5FKP1G024705D00_10.520.526.522.5FKP1J024705H00_ 19 31.527.5FKP1J024706A00_ 0.068 „ 8.518.526.522.5FKP1G026805F00_11 21 31.527.5FKP1J026806B00_ 19 41.537.5FKP1J026807A00_0.1 10.520.526.522.5FKP1G031005H00_13 24 31.527.5FKP1J031006D00_ 19 31.527.5FKP1G031006A00_11 22 41.537.5FKP1J031007B00_ 0.15 „11 21 31.527.5FKP1G031506B00_13 24 41.537.5FKP1J031507C00_ 0.22 „13 24 31.527.5FKP1G032206D00_15 26 41.537.5FKP1J032207D00_Capacitance1000 VDC/600 VAC1250 VDC/600 VAC PCM**Part numberPCM**Part number1000 pF 11 18 15 FKP1O111004B00_ 11 18 15 FKP1R011004B00_ 1500 „ 11 18 15 FKP1O111504B00_ 11 18 15 FKP1R011504B00_ 2200 „ 11 18 15 FKP1O112204B00_ 11 18 15 FKP1R012204B00_ 3300 „ 11 18
3 15 FKP1O113304B00_ 12.518 15
15 FKP1O113304B00_ 12.518 15 FKP1R013304C00_ 4700 „ 12.518 15 FKP1O114704C00_ 14 18 15 FKP1R014704D00_ 6800 „ 14 18 15 FKP1O116804D00_ 15 18 15 FKP1R016804F00_ 14 26.522.5 FKP1R016805A00_0.01 15 18 15 FKP1O121004F00_ 16.526.522.5FKP1R021005D00_ 15 26.522.5FKP1O121005B00_ 0.015 „ 15 26.522.5FKP1O121505B00_ 8.518.526.522.5FKP1R021505F00_ 0.022 „ 8.518.526.522.5FKP1O122205F00_10.520.526.522.5FKP1R022205H00_ 0.033 „10.520.526.522.5FKP1O123305H00_11 21 31.527.5 FKP1R023306B00_ 19 31.527.5FKP1O123306A00_ 19 41.537.5 FKP1R023307A00_ 0.047 „11 21 31.527.5FKP1O124706B00_13 24 31.527.5 FKP1R024706D00_ 11 22 41.537.5 FKP1R024707B00_ 0.068 „13 24 31.527.5FKP1O126806D00_11 22 41.537.5FKP1R026807B00_ 11 22 41.537.5FKP1O126807B00_0.1 13 24 41.537.5FKP1O131007C00_15 26 41.537.5FKP1R031007D00_ 0.15 „15 26 41.537.5FKP1O131507D00_17 29 41.537.5FKP1R031507E00_ 0.22 „19 32 41.537.5FKP1O132207F00_19 32 41.537.5FKP1R032207F00_ * AC voltage: f 1000 Hz; 1.4 x U rms + UDC U r ** PCM = Printed circuit module = lead spacing Dims. in mm. Ionisation inception le vel in isolated cases may be lower than admissible ra ted AC voltage. Rights reserved to amend design data without prior notification. WIMA FKP 1 Continuation page 68 dPCM0.815 - 27.5 1.037.5 Part number completion:Tolerance:20 % = M 10 % = K 5 % = J Packing:bulk= S Lead length: 6-2= SDTapedversionseepage127. 68 11.10 WIMA FKP 4 Continuation General Data D Capacitance1600 VDC/650 VAC
4 2000 VDC/700 VAC PCM**Part numberPCM*
2000 VDC/700 VAC PCM**Part numberPCM**Part number 100 pF 11 18 15 FKP1T001004B00_ 11 18 15 FKP1U001004B00_ 150 11 18 15 FKP1T001504B00_ 11 18 15 FKP1U001504B00_ 220 11 18 15 FKP1T002204B00_ 11 18 15 FKP1U002204B00_ 330 11 18 15 FKP1T003304B00_ 12.518 15 FKP1U003304C00_ 470 11 18 15 FKP1T004704B00_ 12.518 15 FKP1U004704C00_ 680 11 18 15 FKP1T006804B00_ 12.518 15 FKP1U006804C00_ 1000 pF 12.518 15 FKP1T011004C00_ 14 18 15 FKP1U011004D00_ 14 26.522.5FKP1T011005A00_ 14 26.522.5 FKP1U011005A00_ 1500 14 18 15 FKP1T011504D00_ 15 26.522.5FKP1U011505B00_ 14 26.522.5FKP1T011505A00_ 2200 15 18 15 FKP1T012204F00_ 16.526.522.5FKP1U012205D00_ 14 26.522.5 FKP1T012205A00_ 3300 15 26.522.5FKP1T013305B00_ 16.526.522.5FKP1U013305D00_ 4700 16.526.522.5FKP1T014705D00_ 8.518.526.522.5FKP1U014705F00_ 6800 8.518.526.522.5FKP1T016805F00_10.520.526.522.5FKP1U016805H00_ 0.01 10.520.526.522.5FKP1T021005H00_11 21 31.527.5FKP1U021006B00_ 0.015 „11 21 31.527.5FKP1T021506B00_13 24 31.527.5FKP1U021506D00_ 0.022 „11 21 31.527.5FKP1T022206B00_15 26 31.5 27.5 FKP1U022206F00_ 13 24 41.537.5 FKP1U022207C00_ 0.033 „13 24 31.527.5 FKP1T023306D00_13 24 41.537.5FKP1U023307C00_ 13 24 41.537.5FKP1T023307C00_ 0.047 „13 24 41.537.5FKP1T024707C00_17 29 41.537.5FKP1U024707E00_ 0.068 „15 26 41.537.5FKP1T026807D00_19 32 41.537.5FKP1U026807F00_0.1 17 29 41.537.5FKP1T031007E
5 00_ Capacitance4000 VDC/700 VAC6000 V
00_ Capacitance4000 VDC/700 VAC6000 VDC/700 VAC PCM**Part numberPCM**Part number 470 pF 14 26.522.5FKP1X004705A00_ 14 26.522.5FKP1Y004705A00_ 680 14 26.522.5FKP1X006805A00_ 14 26.522.5FKP1Y006805A00_ 1000 pF 14 26.522.5FKP1X011005A00_ 14 26.522.5FKP1Y011005A00_ 1500 16.526.522.5FKP1X011505D00_ 16.526.522.5FKP1Y011505D00_ 2200 8.518.526.522.5FKP1X012205F00_10.520.526.522.5FKP1Y012205H00_ 3300 10.520.526.522.5FKP1X013305H00_10.520.526.522.5FKP1Y013305H00_ 4700 11 21 31.527.5FKP1X014706B00_11 21 31.527.5FKP1Y014706B00_ 6800 13 24 31.527.5FKP1X016806D00_13 24 31.527.5FKP1Y016806D00_ 0.01 15 26 31.527.5FKP1X021006F00_15 26 31.527.5FKP1Y021006F00_ 0.015 „13 24 41.537.5FKP1X021507C00_13 24 41.537.5FKP1Y021507C00_ 0.022 „17 29 41.537.5FKP1X022207E00_17 29 41.537.5FKP1Y022207E00_ * AC voltage: f 1000 Hz; 1.4 x U rms + UDC U r ** PCM = Printed circuit module = lead spacing Dims. in mm. Ionisation inception level in isolated cases may be lower than admissible rated AC voltage . Rights reserved to amend design data without prior notification. WIMA FKP 1 AC voltage graphs see page 61. Part number completion:Tolerance:20 % = M 10 % = K 5 % = J Packing:bulk= S Lead length: 6-2= SDTapedversionseepage127. 61 11.10 WIMA FKP 4 D Permissible AC voltage in relation to frequency at 10 ) C internal temperature rise (general guide). WIMA FKP 1 WIMA MKP 10 Technical information and general data see page 66. Permissible AC voltage in relation to frequency at 10 ) C internal temperature rise (general guide). Continuation 25 25 25 17 25 25 25 25
6 25 25 8F 1F 0. 25 25 25 18 25 25 25 18
25 25 8F 1F 0. 25 25 25 18 25 25 25 18 25 25 25 14 11.10 D Recommendation for Processing and Application of Through-Hole Capacitors Soldering Process A preheating of through-hole WIMA capacitors is allowed for temperatures T max 100° C. In practice a preheating duration of t 5 min. has been proven to be best. Single wave solderingSoldering bath temperature: 260° CImmersion time: t 5 sec Double wave solderingSoldering bath temperature: 260° CImmersion time: 2 x t 3 sec Due to different soldering processes and heat requirements the graphs are to be regarded as a recommendation only. 2s 3s 30 60 90 120 150 180 210 240 sec] [ t T 260 240 220 200 180 160 140 120 100 80 60 40 20 [°C ] 10 s see detail- enlargement W ave soldering Typical temperature/time graph for double wave soldering WIMA Quality and Environmental Philosophy ISO 9001:2000 Certification ISO 9001:2000 is an international basic standard of quality assurance systems for all branches of industry. The approval according to ISO 9001:2000 of our factories by the VDE inspectorate certifies that organisation, equipment and moni- toring of quality assurance in our factories correspond to internationally recognized standards. WIMA WPCS The WIMA Process Control System (WPCS) is a quality surveillance and optimization system developed by WIMA. WPCS is a major part of the quality-oriented WIMA production. Points of application of WPCS during production process: ” incoming material inspection ” metallization ” film inspection ” schoopage ” pre-healing ” lead attachment ” cast resin preparatio
7 n/ encapsulation ” 100% final i
n/ encapsulation ” 100% final inspection ” AQL check WIMA Environmental Policy All WIMA capacitors, irrespective of whether through-hole devices or SMD, are made of environmentally friendly materials. Neither during manufacture nor in the product itself any toxic substances are used, e.g.– Lead – PBB/PBDE – PCB – Arsenic – CFC – Cadmium – Hydrocarbon chloride– Mercury – Chromium 6+ – etc. We merely use pure, recyclable materials for packing our components, such as: ” carton ” cardboard ” adhesive tape made of paper ” polystyrene We almost completely refrain from using packing materials such as: ” foamed polystyrene (Styropor®) ” adhesive tapes made of plastic ” metal clips RoHS Compliance According to the RoHS Directive 2002/95/EC certain hazardous substances like e.g. lead, cadmium, mercury must not be used any longer in electronic equipment as of July 1st, 2006. For the sake of the environment WIMA has refraind from using such substances since years already. Tape for lead-free WIMA capacitors DIN EN ISO 14001:2005 WIMA’s environmental management has been established in accordance with the guidelines of DIN EN ISO 14001:2005. The certification has been granted in June 2006. 127 11.10 D P P 1 P 0 P 2 F d P P 1 H 1 H P 0 d P 2 F t D 0 W 2 V h W 0 P 1 P 2 P 0 P H 1 H W 1 W d F Di agram 1: PC M2 .5/5/7.5 mm Di agra m3 :P CM 22. 5a nd 27.5*m m *PCM 27. 5t aping possibl ew it ht wo feed hole sb etween component s Di agram 2: PC M1 0/1 5m m Dimensions for Radial TapingDe
8 signationSymbolPCM 2.5 tapingPCM 5 tapin
signationSymbolPCM 2.5 tapingPCM 5 tapingPCM 7.5 tapingPCM 10 taping PCM 15 taping PCM 22.5 tapingPCM 27.5 tapingCarrier tape width18.0 p 0.518.0 p 0.518.0 p 0.518.0 p 0.518.0 p 0.518.0 p 0.518.0 p 0.5 Hold-down tape width 6.0 for hot-sealing 6.0 for hot-sealing 12.0 for hot-sealing 12.0 for hot-sealing 12.0 for hot-sealing 12.0 for hot-sealing 12.0 for hot-sealing adhesive tape adhesive tape adhesive tape adhesive tape adhesive tape adhesive tape adhesive tapeHole position 9.0 p 0.59.0 p 0.59.0 p 0.59.0 p 0.59.0 p 0.59.0 p 0.59.0 p 0.5Hold-down tape position 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 4.0 p 0.24.0 p 0.24.0 p 0.24.0 p 0.24.0 p 0.24.0 p 0.24.0 p 0.2Pitch of component12.7 p 1.012.7 p 1.012.7 p 1.025.4 p 1.025.4 p 1.038.1 p 1.5 8.1 p 1.5 or 50.8 p 1.5 cumulative pitch cumulative pitch cumulative pitch cumulative pitch cumulative pitch cumulative pitch cumulative pitch Feed hole pitch 12.7 0.3 error max. 12.7 0.3 error max. 12.7 0.3 error max. 12.7 0.3 error max. 12.7 0.3 error max. 12.7 0.3 error max. 12.7 p 0.3 error max. 1.0 mm/20 pitch 1.0 mm/20 pitch 1.0 mm/20 pitch 1.0 mm/20 pitch 1.0 mm/20 pitch 1.0 mm/20 pitch 1.0 mm/20 pitchFeed hole centre P 5.1 p 0.53.85 p 0.72.6 p 0.77.7 p 0.75.2 p 0.77.8 p 0.75.3 p 0.7 to leadHole centre to P 6.35 p 1.36.35 p
9 1.36.35 p 1.312.7 p 1.312.7 p 1.319.0
1.36.35 p 1.312.7 p 1.312.7 p 1.319.05 p 1.319.05 p 1.3 component centreFeed hole centre to bottom H 16.5 p 0.316.5 p 0.316.5 p 0.516.5 p 0.516.5 p 0.516.5 p 0.516.5 p 0.5edge of the component 18.5 p 0.518.5 p 0.518.5 p 0.518.5 p 0.518.5 p 0.518.5 p 0.518.5 p 0.5Feed hole centre to top H H+H component H H+H component H H+H component H H+H component H H+H component H H+H component H H+H component H 1 edge of the component 32.25 max.32.25 max.24.5 to 31.525.0 to 31.526.0 to 37.030.0 to 43.035.0 to 45.0Lead spacing at2.5 p 0.55.0 +0.87.5 p 0.810.0 p 0.815 p 0.822.5 p 0.827.5 p 0.8 upper edge of carrier tape –0.2Lead diameter0.4 p 0.050.5 p 0.05 „ 0.5 p 0.05 or 0.6 –0.05 „ 0.5 p 0.05 or 0.6 –0.050.8 –0.050.8 –0.050.8 –0.05Component alignment Dh 2.0 max. 2.0 max. 3.0 max. 3.0 max. 3.0 max. 3.0 max. p 3.0 max.Total tape thickness0.7 p 0.20.7 p 0.20.7 p 0.20.7 p 0.20.7 p 0.20.7 p 0.20.7 p 0.2 ROLL/AMMOAMMO Package (see also page 128)Unitsee details page 130.Dims in mm. „ Diameter of leads see General Data.Please clarify customer-specific deviations with the manufacturer. 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 REEL P 360 max. B 52 p 2 depending on P 30 58 p 2 comp. dimensions 52 54 p 2 depending REEL P 360 max.58 p 2 or REEL P 500 max.60 p 2 on PCM and P 30 p 66 p2 P 25 p 68 p 2 component dimensions +0.06 Typical Dimensions for Taping Configurat