108 11.08 d maximum pulse rise time: capacitance pulse rise time v/ m sec pf/ m f max. operation 1000 ... 2200 2000 3300 ... 0.015 1500 0.022 ... 0.1 500 for pulses equal to a voltage amplitude with 2 x 250 vac = 355 v according to iec 60384-14 test voltage: 3000 vdc, 2 sec. reliability: operational life ? 300 000 hours failure rate ? 1 fit (0.5 x u r and 40 ) c) mounting recommendation to minimize or avoid shock and/or vibration stresses to terminating wires and solder connections we recommend to fix voluminous resin-potted mp capacitors as from e.g. pcm 22.5 mm in an appropriate way since for constructional reasons they do not sit tight on the board. * if safety-approved emi suppression capacitors are operated with a dc vol - tage being above the specified ac voltage rating the given approvals are no longer valid (din en 60384-14). furthermore the permissible pulse rise time du/dt (f max . ) will be subject to a reduction according to f max. = f r x 2 x uac ? / udc if the dc operating voltage udc is higher than 2 x uac packing available taped and reeled up to and including pcm 22.5 mm. detailed taping information and graphs at the end of the catalogue. for further details and graphs please refer to technical information. wima mp 3r-y2 metallized paper (mp) rfi-capacitors class y2 with internal series connection pcm 15 mm to 27.5 mm special features electrical data ? particularly high reliability against active and passive flammability ? twice the safety by internal series connection ? high degree of interference suppression due to good attenuation and low esr ? for temperatures up to +110 ? c ? according to rohs 2002/95/ec typical applications class y2 rfi applications to meet emc regulations ? capacitors connected to the mains between phase or neutral and earthed casing ? by-passing of the basic or supplementary insulation, pulse peak voltage t 5 kv construction dielectric: paper, epoxy resin impregnated capacitor electrodes: vacuum-deposited internal construction: dielectric v acuum- deposited electrod e metal contact layer (schoopage) t erminating wire encapsulation: self-extinguishing epoxy resin, ul 94 v-0. metal foil terminations: tinned wire. marking: marking: black on silver. for a transition period the capacitors will still be marked ?wima mp 30-y2. capacitance range: 1000 pf to 0.1 m f (e12-values on request) rated voltage: 250 vac continuous dc voltage * (general guide): t 125 0 v capacitance tolerances: 20% operating temperature range: C40 ) c to +110 ) c climatic test category: 40/110/56/c in accordance with iec insulation resistance at +20 + c: ? 12 x 10 3 m ? measuring voltage: 100 v/1 min. dissipation factors: tan d t 13 x 10 C3 at 1 khz and +20 + c test specifications: in accordance with din en 60384-14 approvals: country authority specification symbol approval-no. germany vde din en 132 400 91851 iec 60384-14/2 usa ul ul 1414 (250 vac) e 134915 canada csa c 22.2 no. 1 lr 93312-1 en 132 400 v d e
109 11.08 continuation general data d capacitance 250 vac * w h l pcm** 1000 pf 5 13 19 15 1500 ? 5 13 19 15 2200 ? 5 13 19 15 3300 ? 5 13 19 15 4700 ? 6 14 19 15 6800 ? 7 15 19 15 0.01 m f 8 17 19 15 0.015 ? 10 18 19 15 0.022 ? 8 20 28 22.5 0.033 ? 8 20 28 22.5 0.047 ? 10 22 28 22.5 0.068 ? 12 24 28 22.5 0.1 m f 13 25 33 27.5 * f = 50/60 hz ** pcm = printed circuit module = lead spacing upon request with long leads 35-2 mm max. dims. in mm. taped version see page 121. rights reserved to amend design data without prior notification . 1 1 0 100 1000 f/mhz 3 5 7 3 5 7 7 5 3 7 5 3 10 1 0.1 0.01 z -- 1000 pf -- 1500 pf -- 2200 pf -- 3300 pf -- 4700 pf -- 6800 pf -- 0,01 f -- 0,015 f -- 0.022 f -- 0.033 f -- 0.047 f -- 0.068 f 0.1 f -- impedance change with frequency (general guide) pcm at the lead exit points ( 0.5) l w h d 6 - 2 d = 0.8 p wima mp 3r-y2
16 11.08 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 soldering soldering bath temperature: t ? 260 c immersion time: t ? 5 sec double wave soldering soldering bath temperature: t ? 260 c immersion time: 2 x t ? 3 sec due to different soldering processes and heat requirements the graphs are to be regarded as a recommendation only. 2 s 3 s 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 preparation/ 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. C lead C pbb/pbde C pcb C arsenic C cfc C cadmium C hydrocarbon chloride C mercury C chromium 6+ C 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 wimas environmental management has been established in accordance with the guidelines of din en iso 14001:2005. the certification has been granted in june 2006.
121 11.08 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 m 2 .5/5/7.5 mm di agra m 3 : p cm 22. 5 a nd 27.5*m m *pcm 27. 5 t aping possibl e w it h t wo feed hole s b etween component s di agram 2: pc m 1 0/1 5 m m dimensions for radial taping designation symbol pcm 2.5 taping pcm 5 taping pcm 7.5 taping pcm 10 taping * pcm 15 taping * pcm 22.5 taping pcm 27.5 taping carrier tape width w 18.0 p 0.5 18.0 p 0.5 18.0 p 0.5 18.0 p 0.5 18.0 p 0.5 18.0 p 0.5 18.0 p 0.5 hold-down tape width w 0 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 tape hole position w 1 9.0 p 0.5 9.0 p 0.5 9.0 p 0.5 9.0 p 0.5 9.0 p 0.5 9.0 p 0.5 9.0 p 0.5 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 p 0.2 4.0 p 0.2 4.0 p 0.2 4.0 p 0.2 4.0 p 0.2 4.0 p 0.2 4.0 p 0.2 pitch of component p 12.7 p 1.0 12.7 p 1.0 12.7 p 1.0 25.4 p 1.0 25.4 p 1.0 38.1 p 1.5 3 * 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 p 0 12.7 p 0.3 error max. 12.7 p 0.3 error max. 12.7 p 0.3 error max. 12.7 p 0.3 error max. 12.7 p 0.3 error max. 12.7 p 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 pitch feed hole centre p 1 5.1 p 0.5 3.85 p 0.7 2.6 p 0.7 7.7 p 0.7 5.2 p 0.7 7.8 p 0.7 5.3 p 0.7 to lead hole centre to p 2 6.35 p 1.3 6.35 p 1.3 6.35 p 1.3 12.7 p 1.3 12.7 p 1.3 19.05 p 1.3 19.05 p 1.3 component centre feed hole centre to bottom h v 16.5 p 0.3 16.5 p 0.3 16.5 p 0.5 16.5 p 0.5 16.5 p 0.5 16.5 p 0.5 16.5 p 0.5 edge of the component 18.5 p 0.5 18.5 p 0.5 18.5 p 0.5 18.5 p 0.5 18.5 p 0.5 18.5 p 0.5 18.5 p 0.5 feed hole centre to top h 1 h+h component < h 1 h+h component < h 1 h+h component < h 1 h+h component < h 1 h+h component < h 1 h+h component < h 1 h+h component < h 1 edge of the component 32.25 max. 32.25 max. 24.5 to 31.5 25.0 to 31.5 26.0 to 37.0 30.0 to 43.0 35.0 to 45.0 lead spacing at f 2.5 p 0.5 5.0 +0.8 7.5 p 0.8 10.0 p 0.8 15 p 0.8 22.5 p 0.8 27.5 p 0.8 upper edge of carrier tape C0.2 lead diameter d 0.4 p 0.05 0.5 p 0.05 ? 0.5 p 0.05 or 0.6 C0.05 ? 0.5 p 0.05 or 0.6 C0.05 0.8 C0.05 0.8 C0.05 0.8 C0.05 component alignment d h 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. total tape thickness t 0.7 p 0.2 0.7 p 0.2 0.7 p 0.2 0.7 p 0.2 0.7 p 0.2 0.7 p 0.2 0.7 p 0.2 roll/ammo ammo package v (see also page 122) unit see details page 124. v please give ?h dimensions and desired packaging type when ordering. 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 p 1 58 p 2 comp. dimensions 52 p 2 54 p 2 depending reel p 360 max. b 58 p 2 or reel p 500 max. b 60 p 2 on pcm and p 30 p 1 66 p 2 p 25 p 1 68 p 2 component dimensions +0.06 +0,06 +0,08 +0,08 +0.08 typical dimensions for taping configuration
|
