ICGOO在线商城 > UCD1C560MCL1GS
Datasheet下载- 型号: UCD1C560MCL1GS
- 制造商: Nichicon
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UCD1C560MCL1GS产品简介:
ICGOO电子元器件商城为您提供UCD1C560MCL1GS由Nichicon设计生产,在icgoo商城现货销售,并且可以通过原厂、代理商等渠道进行代购。 提供UCD1C560MCL1GS价格参考以及NichiconUCD1C560MCL1GS封装/规格参数等产品信息。 你可以下载UCD1C560MCL1GS参考资料、Datasheet数据手册功能说明书, 资料中有UCD1C560MCL1GS详细功能的应用电路图电压和使用方法及教程。
| 参数 | 数值 |
| 产品目录 | |
| 描述 | CAP ALUM 56UF 16V 20% SMD铝质电解电容器-SMD 16volts 56uF 105c 6.3X5.8 |
| ESR(等效串联电阻) | - |
| 产品分类 | |
| 品牌 | Nichicon |
| 产品手册 | |
| 产品图片 | |
| rohs | 符合RoHS无铅 / 符合限制有害物质指令(RoHS)规范要求 |
| 产品系列 | 铝电解电容器,铝质电解电容器-SMD,Nichicon UCD1C560MCL1GSCD |
| 数据手册 | |
| 产品型号 | UCD1C560MCL1GS |
| 不同温度时的使用寿命 | 105°C 时为 2000 小时 |
| 产品 | Low Impedance Electrolytic Capacitors |
| 产品种类 | 铝质电解电容器-SMD |
| 包装 | 带卷 (TR) |
| 商标 | Nichicon |
| 外壳直径 | 6.3 mm |
| 外壳长度 | 5.8 mm |
| 大小/尺寸 | 0.248" 直径(6.30mm) |
| 安装类型 | 表面贴装 |
| 容差 | 20 % |
| 封装 | Reel |
| 封装/外壳 | 径向,Can - SMD |
| 工作温度 | -55°C ~ 105°C |
| 工厂包装数量 | 1000 |
| 应用 | 通用 |
| 引线间距 | - |
| 损耗因数DF | 0.16 |
| 最大工作温度 | + 105 C |
| 最小工作温度 | - 55 C |
| 标准包装 | 1,000 |
| 漏泄电流 | 8.96 uA |
| 电压额定值DC | 16 V |
| 电容 | 56 uF |
| 端接类型 | SMD/SMT |
| 类型 | Chip Type, Low Impedance |
| 系列 | CD |
| 纹波电流 | 240 mA |
| 表面贴装焊盘尺寸 | 0.260" 长 x 0.260" 宽(6.60mm x 6.60mm) |
| 阻抗 | 360 毫欧 |
| 额定电压 | 16V |
| 高度-安装(最大值) | 0.240"(6.10mm) |
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PDF Datasheet 数据手册内容提取
ALUMINUM ELECTROLYTIC CAPACITORS U UU U 148 U U 153 UU 148148 UU UU 153153 Specifications SpSepceifcicifaictiaotniosns Item Performance Characteristics ItemItem PerPfoerrmfoarmncaen cCeh Carhaacrtaecritsetricisstics Category Temperature Range – 55 to +105°C CatCeagtoergyo Treym Tepmerpaeturaretu Rrea nRgaenge– 5–5 5to5 +to1 0+51°0C5°C Rated Voltage Range 6.3 to 100V RatReadt eVdo lVtaogltea gRea nRgaenge 6.36 t.o3 1to0 01V00V Rated Capacitance Range 1 to 3300µF RCaatpReaadct ieCtadan pCcaeac pTitaoaclneitcraean nRcceae nRgaenge 1± 2to01 % 3to3 a 03t0 31µ02F00µHFz, 20°C CapCaacpitaacnitcaen Tcoel eTroalenrcaence ±20±%20 a%t 1a2t 01H2z0,H 2z0, °2C0°C Leakage Current After 2 minutes' application of rated voltage at 20°C, leakage current is not more than 0.01 CV or 3 (µA), whichever is greater. LeaLkeaagkea gCeu rCreunrrtent AfteArf t2e rm 2in mutineus't easp' palipcpaltiicoant ioonf roaft eradt evodl tvaogltea gaet 2a0t °2C0,° lCea, kleaagkea gcuer creunrrte isn tn ios tn moto mreo trhea tnh a0nM.0 0e1.a 0Cs1Vu rC eoVmr 3oe rn( µt3 Af r()eµ, qAwu)h,e iwncchhyeic v:h e1er2v i0esH rg izrse agatrt ee2ar0.t°eCr. MeMaseuarseumreemnte fnret qfrueeqnuceyn :c 1y 2: 01H2z0 Hatz 2a0t °2C0°C Rated voltage (V) 6.3 10 16 25 35 50 63 80 100 Tangent of loss angle (tan δ) TanTgaenngte onft loosf slo asns galen g(ltea n(t aδ)n δ) RtaantR eδad (t MevodAl tXvao.g)l te a g( Ve) ( V ) 06..2366.3 01.10910 01.16616 02.15425 03.15235 05.10050 06.03863 08.00880 01.0007100 Ftoarn ct aδa n(pM aδc A(iMXta.An) Xc e. ) o f more than 1000µF, add0 0.2.0062.2 f6or e0v.1e09ry.1 in9cre0a.1s06e. 1o6f 1000.01µ04F.1. 4(φ102..1502 t.o1 2φ180).100.10 0.008.08 0.008.08 0.007.07 ForF coarp caacpitaacnitcaen ocef mofo mreo trhea tnh a1n0 0100µ0F0, µaFd, da d0d.0 02. 0fo2r feovre ervye inryc rinecarseea osef 1o0f 0100µ0F0. µ(Fφ1. 2(φ.152 t.o5 φt1o8 φ)18)Measurement frequency : 120Hz Rated voltage (V) 6.3 10 16 25 35 50 MeMaseu6ar3seumreemnte fnr8et0 qfrueeqnuceyn :c1 1y0 20: 01H2z0Hz Stability at Low Temperature RatReadt evodl tvaogltea g(Ve) (ZV—) 25°C / Z+20°C 62.36.3 12010 12616 22525 32535 52050 62363 82080 1020100 StaSbtilaitbyi laitty Laot wL oTwem Tepmerpaeturareture IImmppImee((ddpMMaaeAAnn(dMccXXaee..An)) rrcXaae.tt) iirooatioZZZZ————ZZ2445——5005°°°°24CCCC50 °°//// CCZZZZ ++++// 2222ZZ0000++°°°°22CCCC00°°CC 2334 23 2334 23 2334 23 2333 23 2333 23 2333 23 2333 23 2333 23 2333 23 Z—Z5—5°5C5 °/ CZ +/ 2Z0+°2C0°C 4 4 4 4 4 4 3 3 3 3 3 3 3 3 3 3 3 3 Capacitance Change Within ± 30% of the initial capacitance value The specifications listed at right shall be met when the Endurance TcahpeTa hscpeite oscrpsife icacarifetiic oraentssiot olnisrset eldids tt oea dt2 r0aig°t hCrti g ashfhttea srllh tbahelel bmraeet emt dwe hvt oewlntha etghnee t ihse CtaanpC δaacpitaacnitcaen Cceh aCnhgaengeW20i0tWh%ini toh ±rin l3e ±0s %s3 0t ho%af n toh tfeh t ehin eiint iiiantiali tcli aaslp pceaaccpiiftaiaecnditc avena lcvueae luvaelue EndEunrdaunrcaence caapppcalaiecpidtao fcroistro a5rrs0e 0a r0ree sh rtooeursertsod r et(o2d 0 2t0o00 °2 Ch0 o°auCftr esar ff totehrre Lt hr ae t er1ad0t evmodlm tvao:g l5tea0 giVse is tant aδn δ 2300002%%00 oo%rr lleoesrs ssle ttshhsaa ntnh tathhnee t ihinneiitt iiaianll i tssiapplee sccpiiffieieecddif ivevaadlul uveea fluoer 63V or more aopr plaelipsespd,l ieafodnr d f5o f0ro 0r5 00L 0h 0o u1hr0osmu r(ms2 0: (062030 V0h0o o uhrr osmu forosrre fL)o r a Lt 11 00 51m°0mC m.: m50: V50V Leakage current 3L0e0s3%s0 0t ho%ra nloe rso slre teshsqa utnha atlh nteo t hitnheite iian ilni tsiiatpilae slc psifepiecedifc ievifadiel uvdea v lufaoelru f6eo3r V6 3oVr moro mreore or loers sle, sasn, da nfodr fLo r L 1 0 m10mm: m63: V6 3oVr moro mreo) r ea)t 1a0t 51°0C5.°C. LeaLkeaagkea gcuer creunrrtent LesLse tshsa tnh aonr eoqr ueaqlu taol tthoe t hineit iianli tsiapl escpifeiecdifi evda luvaelue After storing the capacitors under no load at 105°C for 1000 hours and then performing voltage treatment based on JIS C 5101-4 clause 4.1 at Shelf Life A20ft°eACrf ,ts etthro ersiytno gsr ihnthagel l t mhcaeep ecaatc ptihtaoecr issto purensc duifeinerd dne ovr anloloua edlos aa fdto 1ra 0tth 51e°0 Ce5 n°fodCru f1roa0rn 01c00e 0 hc0oh uahrrosau cartnse drai snthtdiec tnsh elpisnet repfoder ramfobirnomgve inv.ogl tvaogltea gtree atrtemaetmnte bnat sbeads eodn oJInS J CIS 5 C1 0511-041 c-l4a ucslaeu 4se.1 4 a.1t at SheSlfh Leilffe Life 20°2C0,° tCh,e tyh sehya sllh malel mete tehte t hspee scpifeiecdif ievadl uveaslu feosr ftohre t heen deunrdaunrcaen cchea crhaacrtearcitsetircisst ilcisst elidst eadb oavbeo.ve. The capacitors are kept on a hot plate for 30 seconds, which is Capacitance Change Within ± 10% of the initial capacitance value RhRheeeeaassRhttiiesseattsaatinnstccaeen ttcooe sstoooll ddseeorrldiinneggring TmrmrpeelhaaaqqetTmriiuunnee hciitt arrqaaaaeeeiuniinp mmnncitdraeeaaeee cddirpmnnniet atteoaasesscdrttt n isollt 22iitoass rsa55ettrt ee r00sld2iedds °° a5 tCCt koeaar0e..e dtt° 2 TTp C rrk0aiithhgge. °t oee hhCTprn ttithcc.g wwoaaaehnpp hhthc aaeewaaoccnnp thiih ttapettooohhclnrrateeiss ttptyyo ehssl ra aaehhsftorryaa eeesr ll allh f 3rrommraee0erlmm ee l 3srmeeeooe0ttmvvce stteeoehhoeddnteevc dt effohccrrsdnoohhe, dmmaa fwcrsrro haah,tt mhhacciwceertt heeahth rrciiciisetsshett iircciissticCttLaaeannapCt aδδkaaancpg iδtaeac ncitcuaernr Cecenh taCnhgaenge WLLLeeeissstWLhsssei nitttsthhhh s±aaai n tnnn1h ±0aooo %nrrr1 eee0 ooqqq%rf uuu e taaaohqlllfeu tttt aooohinl e tttithhht oiieeean t lih iiitnnncieaaiiittt liii piaaancalllai tcsssipaippptala eeecsnccciptciiiafffeeiiineeec cvdddifeai evvv luvdaaaae llluuuvluaeeeelue platpela aten da nreds rtoersetodr etod 2to0 °2C0.°C. LeaLkeaagkea gcuer creunrrtent LesLse tshsa tnh aonr eoqr ueaqlu taol tthoe t hineit iianli tsiapl escpifeiecdifi evda luvaelue Marking Black print on the case top. MaMrkainrgking BlaBckla pckri nptr ionnt othne t hcea scea stoep t.op. Type numbering system (Example : 16V 100µF) TyTpyep neu nmubmebrienrgin sgy ssytesmte m (E (xEaxmapmlep l:e 1 :6 1V6 1V0 100µ0Fµ) F) (φ4 to φ8 × 6.2) Positive 1 2 3 4 5 6 7 8 9 10 11 12 13 14 (φ4( φto4 φto8 φ×8 6 ×.2 6) .2) Plastic platform PosPitoivseitive U1 C12 D23 314 C45 516 607 718 8M9 9C1011L01 111121G12311S3414 VVoo1llttVTaaorggaleetda ((egjj e m:: (66aj..r 33:k VV6.))3VSS)eerrSiieeessries PlasPtli00ac.. s33ptil0MMca. t3pAAfolMXXarmt..AfoXrm. CC±±00C..22±0.2 MAX.0.5MAX.MAX. UUCCDD1 1CC1 10 01 1MMCCL L1 1GGSS Size PackPPaaagccePkkaaacggkCeea occgdooeedd ceeode (φLL8oo1tt L×TNNor oo1at1 ..dTN0eroa, m.dφea1 A2A2rm0ka)47j47j A2rkCCCDCD47jaappCaaCDaccpiittaaacnnicctD±0.5D±0.5φφaeencD±0.5φe LL±±00L..33±0.3 B±0.2B±0.2B±0.2 HH11:: HSS1iizz: eeS φφiz88e ×× φ 866 ..0.5×22 6oo.nn0.52A±0.2A±0.2EA±0.2A±0.2Ellyy PNNooneesA±0.2A±0.2ElggyNiaatiettviigvveaeetive CCaappRCaaaacctpiiettaaadcnn cicctaaeepn ttacooeclleei ttrraoaanlnnecccreaeeφφ n( 11((1c22±±0eφφSφ..2245450 1i00(z µ2±tttt%%eφSooooF.245 )))i01111z tt%0088eoo )11P08TTTT4aaaaa ctφφPppppok TTiiiia DDannnnCC6aacgggggφ.ppook3e iinnDannCSSffgggiioiiggezznCuueeSMMGGCCfrro iiaaccgCSSooSSzdCoottueddMLGeiiCooddro eeacSonneeSdotdeiodene (φLTTVV8orroo(aatll φ ttddTV×Naa8eerogg oa 1l eemm.td×a 0e((aag EE, 1rrem kk φ 0::( a122E,rA2A2 55k 0φ:VV )12220E220E)) A250CVCDCD)a220E) SSpaeeCDcrrSiiieetaessnrPrPreeirrclleeeiieeD±0.5D±0.5φφsseffsss vvuuPreeerrreennleiettD±0.5φsfs 22vuerenPPtll2aassPtt00LLliiacc..±±33 spp00t0LMMill..caa55.±3 ttAAp0ffooMXXl.a5rr..mmtAfoXr.m B±0.2B±0.2B±0.2 HHCCH±±00C..22±0.2 0.5MAX.0.5MAX.0.5MAX.A±0.2A±0.2EA±0.2A±0.2EPNNoeesA±0.2A±0.2EggPNiaatoiettviisgvveiaeetitvivee CABABφφ DD ××AB LLφ D ×44 L ××14144..... 83833554.. 88×14.. 835.855 ××25255..... 13133555.. 88×25.. 135.668..3326266 ××6.....46466 .55326.. 88×..46 566.8..R3326266 a××6.....46466t .Re77326.. da77×.. 46t ce7RRa.d887aap tt××38388caRee..... a3333366c8ddap..i 22tt×38vvaaeSS.. oo336cndee.llic 2tttrrvaaaS88eiieeo ggn28288 e××ss(leec.....t 1r93933 a118ei nn0e((00 g28 TT×aa110s(e.. yy1mm6693 1µ npp0VV(0F11eeTa1ee0))00)ym6111µ 33p××000V..F1e2.2.. e33377)0)1.. 3 1 177×110.002. 88112248837(( 11 00.. .(((( 155t11700111((66o000LL 771118001248tt.. 33( ,,000 2o2o61..××11 0LL. ..(77(5t12.2..0133 LL. 333(6o))11113LL0L ..710))55t. ••300 ,88))02o6.×1LLL.72.3 L. ))3)113L.)5((•08)mmL)NNCCNCCNCmm(QQmLLLLLLL))NCCNCmQLLLL) Lot LNoot .No. CapCaacpitaacnictaence2 : Except : φ10 × 7.7L Positive CE C 41..304.3 51..335.3 62..626.6 62..626.6 82..338.3 83..318.3 140..5310.3 140..5310.3 ((φφCTT11arr(22aaφpTadd..155cree2ia t attdmm.oon5ecaa eφφtrrmokk11nichiconnichicona 88φ330 µF330 µFrk))1nichiconCD 50VCD 50V VV8S330 µFH1015H1015ooLL)eCD 50Vooll VttrttaaH1015 ioLNNeggolsteeoota ..NgeoPrPreeD±0.5D±0.5.φ φ rrlleeiieessffss PrvvuueD±0.5φ eerrrleeeinnPPesttfs 2llvuaae re:nPss tEtt2liiax cc:cs LL E00eppt±±..ipx33llc11aactL MM0..ett:p00± ff.pφ3looAA1at1rrXX M.t:0mm0 f..φ oA×1rX 0m7. .×7 L7.7B±0.2B±0.2L B±0.2HHCCH±±00C..22±0.2 0.5MAX.0.5MAX.0.5MAX.NNEA±0.2A±0.2EA±0.2A±0.2PeeoggNEA±0.2A±0.2saaPietttiioigvvvsaeeeittiivvee HCHHCHEABEABELLLLφφ DD HCH××EABELL LLφ D110000 ×00.... 5588L 111111××15 5 34 34 tt003t003t100..o.o..o..o 0882..5.2..5.110.. 335 335 58001133 111×15 34 ......t003t881155..o..o 082..5.1 335 11013110022.......815..00555511111144 44 15 5 1333t333ttt××10..o..o..o.o28..0.8..0.388.. 665 665 .1105110051113344 15 .... 333tt×4488....o..o558..0.38 665 1101111003..66....48.00555 111111××56 56 25 5 776t776ttt110..o..o..o.o 4..3.4..3.288116..115 115 05110066 111×56 25 ......776tt448855..o..o 4..3.281115 106111100...88....4850055 111111××66 66 27 7 996t996ttt110..o..o..o.o 4..3.4..3.277118..115 115 05110066 111×66 27 ......996tt448855..o..o 4..3.271115 10600.....4855526 6 tt0..o.o322. 50026 ..t88..o32 000...8883 11tt0.oo001. 8113 1..t11.o01 100...18847 7 tt0..o.o577. 81147 ..t11..o57 100...1884 11tt0.oo005. 8114 1..t11.o05 1.1 CapCacaiptaancciteance SerSieesries Voltage φ8 × 10L, φ10 × 10L, φ12.5 × 13.5L, φ16 × 16.5L, φ18 × 16.5L : φT8h e×φ v18i0 b×Lr a1, t0φio1Ln0, φs×1tr 10u0 c×Lt u1, r0φe1L-r2,e .φs51i s2×t. a15n3 ×t. 5 p1Lr3o,. d5φu1Lc6, t φ ×i1s 16 a6 ×ls.5 o1L 6a,. v5φa1Li8,l a φ×b1 l18e6 ×u.5 p1Lo6 n.:5 rLe q: uest, please ask for details. VolVtVaoglteage6.3 10 16 25 35 50 63 80 100 TheT vhiber avitbiorna tsiotrnu scttruurcet-ureres-isretasnistt apnrot dpuroctd iusc at lisso a alsvoa ialavbaliela ubpleo unp roenq ureeqstu, epslet,a pslee aassek afosrk dfoert adilest.a ils. CoVdeV 6.j36.31A0 101C6 162E5 253V5 355H0 506J3 638K0 80120A0100 146 CodCeode j j A A C C E E V V H H J J K K 2A2A Dimension table in next page.
ALUMINUM ELECTROLYTIC CAPACITORS UCD Dimensions V 6.3 10 16 25 35 50 Cap. (µF) Code 0J 1A 1C 1E 1V 1H 1 010 4 × 5.8 2.70 60 2.2 2R2 4 × 5.8 2.70 60 3.3 3R3 4 × 5.8 2.70 60 4.7 4R7 4 × 5.8 1.35 90 4 × 5.8 2.70 60 4 × 5.8 1.35 90 5 × 5.8 1.50 90 10 100 4 × 5.8 1.35 90 4 × 5.8 1.35 90 5 × 5.8 0.70 160 6.3 × 5.8 0.86 170 15 150 4 × 5.8 1.35 90 5 × 5.8 0.70 160 4 × 5.8 1.35 90 22 220 4 × 5.8 1.35 90 4 × 5.8 1.35 90 5 × 5.8 0.70 160 5 × 5.8 0.70 160 6.3 × 5.8 0.86 170 5 × 5.8 0.70 160 27 270 4 × 5.8 1.35 90 5 × 5.8 0.70 160 5 × 5.8 0.70 160 6.3 × 5.8 0.36 240 4 × 5.8 1.35 90 5 × 5.8 0.70 160 6.3 × 7.7 0.66 195 33 330 5 × 5.8 0.70 160 6.3 × 5.8 0.36 240 6.3 × 5.8 0.36 240 5 × 5.8 0.70 160 6.3 × 5.8 0.36 240 8 × 6.2 0.63 200 4 × 5.8 1.35 90 5 × 5.8 0.70 160 6.3 × 7.7 0.66 195 47 470 6.3 × 5.8 0.36 240 6.3 × 5.8 0.36 240 6.3 × 5.8 0.36 240 5 × 5.8 0.70 160 6.3 × 5.8 0.36 240 8 × 6.2 0.63 200 56 560 5 × 5.8 0.70 160 6.3 × 5.8 0.36 240 6.3 × 5.8 0.36 240 6.3 × 5.8 0.36 240 68 680 6.3 × 5.8 0.36 240 6.3 × 5.8 0.36 240 6.3 × 5.8 0.36 240 6.3 × 5.8 0.36 240 6.3 × 7.7 0.32 290 5 × 5.8 0.70 160 6.3 × 7.7 0.32 290 6.3 × 7.7 0 .32 290 8 × 10 0.32 350 100 101 6.3 × 5.8 0.36 240 6.3 × 5.8 0.36 240 6.3 × 5.8 0.36 240 8 × 6.2 0.26 300 8 × 10 0.16 600 10 × 7.7 0.36 330 8 × 10 0.16 600 8 × 10 0.16 600 150 151 6.3 × 5.8 0.36 240 6.3 × 5.8 0.36 240 6.3 × 7.7 0.32 290 10 × 10 0.16 700 10 × 7.7 0.18 600 10 × 7.7 0.18 600 6.3 × 7.7 0.32 290 6.3 × 7.7 0.32 290 8 × 10 0.16 600 8 × 10 0.16 600 220 221 6.3 × 5.8 0.36 240 10 × 10 0.16 700 8 × 6.2 0.26 300 8 × 6.2 0.26 300 10 × 7.7 0.18 600 10 × 7.7 0.18 600 6.3 × 7.7 0.32 290 8 × 10 0.16 600 8 × 10 0.16 600 10 × 13.5 0.14 800 330 331 8 × 10 0.16 600 10 × 10 0.08 850 8 × 6.2 0.26 300 10 × 7.7 0.18 600 10 × 7.7 0.18 600 12.5 × 13.5 0.12 900 390 391 12.5 × 13.5 0.12 900 8 × 10 0.16 600 8 × 10 0.16 600 8 × 10 0.16 600 10 × 13.5 0.08 950 470 471 10 × 10 0.08 850 16 × 16.5 0.073 1610 10 × 7.7 0.18 600 10 × 7.7 0.18 600 10 × 7.7 0.18 600 12.5 × 13.5 0.08 1100 8 × 10 0.16 600 680 681 10 × 10 0.08 850 10 × 10 0.08 850 10 × 13.5 0.08 950 12.5 × 13.5 0.08 1100 16 × 16.5 0.073 1610 10 × 7.7 0.18 600 1000 102 8 × 10 0.16 600 10 × 10 0.08 850 10 × 13.5 0.08 950 12.5 × 13.5 0.08 1100 16 × 16.5 0.035 1800 1500 152 10 × 10 0.08 850 10 × 13.5 0.08 950 12.5 × 13.5 0.08 1100 2200 222 10 × 13.5 0.08 950 12.5 × 13.5 0.08 1100 16 × 16.5 0.035 1800 Case size Rated φD × L Impedance ripple 3300 332 12.5 × 13.5 0.08 1100 (mm) V 63 80 100 Cap. (µF) Code 1J 1K 2A 3.3 3R3 5 × 5.8 5.00 25 4.7 4R7 5 × 5.8 3.00 50 6.3 × 5.8 3.00 40 6.3 × 7.7 2.40 60 10 100 6.3 × 5.8 1.50 80 8 × 6.2 2.40 60 6.3 × 7.7 1.20 120 22 220 8 × 10 1.30 130 8 × 10 1.30 130 8 × 6.2 1.20 120 33 330 8 × 10 0.65 250 8 × 10 1.30 130 10 × 10 0.70 200 47 470 8 × 10 0.65 250 10 × 10 0.70 200 12.5 × 13.5 0.32 500 68 680 10 × 10 0.35 400 12.5 × 13.5 0.32 500 12.5 × 13.5 0.32 500 100 101 10 × 10 0.35 400 12.5 × 13.5 0.32 500 16 × 16.5 0.17 793 150 151 12.5 × 13.5 0.16 800 12.5 × 13.5 0.32 500 16 × 16.5 0.17 793 220 221 12.5 × 13.5 0.16 800 18 × 16.5 0.15 917 330 331 16 × 16.5 0.17 793 18 × 16.5 0.15 917 467800 467811 1168 ×× 1166..55 00.0.0882 11461900 18 × 16.5 0.15 917 Cφa(Dsme ×m s L)iz e Impedance Rripapteled Max. Impedance (Ω) at 20°C 100kHz, Rated ripple current (mArms) at 105°C 100kHz : In this case, 6 will be put at 12th digit of type numbering system. Taping specifications are given in page 23. Recommended land size, soldering by refrow are given Frequency coefficient of rated ripple current in page 18, 19. Frequency 50Hz 120Hz 300Hz 1kHz 10kHz or more Please refer to page 3 for the minimum order quantity. Coefficient 0.35 0.50 0.64 0.83 1.00 147