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VPH

Imago VPH Praecipua
  • VPH

Descriptio Brevis:

Condensatores Electrolytici Solidi Aluminii Polymeri Conductivi
Typus SMD

Alta fides, ESR humilis, alta undulatio permissa,

Garantitum per 2000 horas ad 105℃, Obtemperatum Directivae RoHS, Typus superficiei affixus altae tensionis


Detalia Producti

index productorum numerus

Etiquettae Productarum

Parametri technici principales

proiectum

proprius

ambitus temperaturae operativae

-55~+105℃

Tensio operativa aestimata

125-250V

capacitatis spatium

1 - 82 microF 120Hz 20℃

Tolerantia capacitatis

±20% (120Hz 20℃)

tangens damni

120Hz 20℃ infra valorem in indice productorum ordinariorum

Fluxus electricus※

Duo minuta ad tensionem nominalem infra valorem in indice productorum normalium ad 20°C imple.

Resistentia Seriei Aequivalentis (ESR)

100kHz 20°C infra valorem in indice productorum normalium

 

 

Durabilitas

Productum temperaturae 105°C satisfacere debet, tensione operativa aestimata per 2000 horas adhibenda est, et post 16 horas ad 20°C.

Ratio mutationis capacitatis

±20% valoris initialis

Resistentia Seriei Aequivalentis (ESR)

≤150% valoris specificationis initialis

tangens damni

≤150% valoris specificationis initialis

fluxus electricus

≤Valor specificationis initialis

 

 

Alta temperatura et humiditas

Productum temperaturae 60°C et humiditatis RH 90%~95% sine tensione applicata satisfacere debet; per horas 1000 collocare, et ad 20°C per horas 16 collocare.

Ratio mutationis capacitatis

±20% valoris initialis

Resistentia Seriei Aequivalentis (ESR)

≤150% valoris specificationis initialis

tangens damni

≤150% valoris specificationis initialis

fluxus electricus

≤Valor specificationis initialis

 

Delineatio Dimensionalis Producti

ΦD B C A H E K a
5 5.3 5.3 2.1 0.70±0.20 1.3 0.5MAX ±0.5
6.3 6.6 6.6 2.6 0.70±0.20 1.8 0.5MAX
8 8.3 8.3 3 0.90±0.20 3.1 0.5MAX
10 10.3 10.3 3.5 0.90±0.20 4.6 0.7±0.2
12.5 12.8 12.8 4.7 0.90±0.30 4.4 0.7±0.3

Coefficiens Correctionis Frequentiae Currentis Undulati

factor correctionis frequentiae

Frequentia (Hz) 120Hz 1kHz 10kHz 100kHz 500kHz
factor correctionis 0.05 0.3 0.7 1 1

Condensatores Electrolytici Aluminii Solidi Polymeri Conductivi: Partes Provectae pro Electronicis Modernis

Condensatores Electrolytici Aluminii Solidi Polymeri Conductivi progressum magnum in technologia condensatorum repraesentant, praestantiorem efficaciam, firmitatem, et diuturnitatem offerentes comparatione cum condensatoribus electrolyticis traditis. In hoc articulo, proprietates, utilitates, et applicationes horum elementorum innovativorum explorabimus.

Proprietates

Condensatores Electrolytici Aluminii Solidi Polymeri Conductivi utilitates condensatorum electrolyticorum aluminii traditionalium cum proprietatibus auctis materiarum polymericarum conductivarum coniungunt. Electrolytum in his condensatoribus est polymerum conductivum, quod electrolytum liquidum vel gelatinosum traditionalem, qui in condensatoribus electrolyticis aluminii conventionalibus invenitur, substituit.

Una ex praecipuis proprietatibus Condensatorum Electrolyticorum Aluminii Solidi Polymeri Conductivi est resistentia seriei aequivalentis (ESR) humilis et facultas tractandi currentem undulatam altam. Hoc efficientiam auctam, iacturas potentiae imminutas, et firmitatem auctam, praesertim in applicationibus altae frequentiae, efficit.

Praeterea, hi condensatores stabilitatem excellentem per latum ambitum temperaturarum offerunt et vitam operationalem longiorem habent comparati cum condensatoribus electrolyticis traditionalibus. Constructio eorum solida periculum effusionis vel exsiccationis electrolyti eliminat, efficientiam constantem etiam in condicionibus operationis asperis praebens.

Beneficia

Adoptio materiarum polymericarum conductivarum in capacitoribus electrolyticis aluminii solidi plura commoda systematibus electronicis affert. Primo, earum ESR humilis et aestimationes undulationis currentis altae eas ideales reddunt ad usum in unitatibus potentiae electricae, regulatoribus tensionis, et convertoribus DC-DC, ubi adiuvant ad tensiones productas stabiliendas et efficientiam augendam.

Deinde, Condensatores Electrolytici Aluminii Solidi Polymeri Conductivi auctam firmitatem et diuturnitatem offerunt, ita ut apti sint ad usus criticos in industriis sicut autocinetica, aerospatialis, telecommunicationis, et automationis industrialis. Eorum facultas tolerandi altas temperaturas, vibrationes, et tensiones electricas efficaciam diuturnam praestat et periculum defectus praematurae minuit.

Praeterea, hi condensatores impedantiae humilis proprietates exhibent, quae ad meliorem filtrationem strepitus et integritatem signorum in circuitibus electronicis conferunt. Hoc eos pretiosos componentes in amplificatoribus audio, apparatu audio, et systematibus audio altae fidelitatis facit.

Applicationes

Condensatores electrolytici aluminii solidi polymeri conductivi applicationes inveniunt in ampla varietate systematum et instrumentorum electronicorum. Vulgo adhibentur in unitatibus potentiae, regulatoribus tensionis, impulsoribus motorum, luminibus LED, apparatu telecommunicationis, et electronicis autocineticis.

In unitatibus fontis potentiae, hi condensatores adiuvant ad tensiones egressas stabiliendas, undulationem minuendam, et responsum transitorium emendandum, operationem fidam et efficientem praebentes. In electronicis autocineticis, ad efficaciam et diuturnitatem systematum in vehiculo conferunt, ut unitates moderationis machinae (ECU), systemata infotainment, et instrumenta salutis.

Conclusio

Condensatores electrolytici ex aluminio solido polymero conductivo progressum magnum in technologia capacitorum repraesentant, praestantes efficaciam, firmitatem, et diuturnitatem superiores systematibus electronicis modernis. Propter ESR humilem, facultates tractandi currentem undulatam altam, et diuturnitatem auctam, apti sunt ad amplam applicationum varietatem in variis industriis.

Dum instrumenta et systemata electronica pergunt evolvere, exspectatur crescere postulationem capacitorum magnae efficaciae, ut Condensatores Electrolyticos Aluminii Solidi Polymeri Conductivi. Eorum facultas occurrendi requisitis strictis electronicarum modernarum eos facit partes indispensabiles in hodiernis designis electronicis, conferentes ad efficientiam, firmitatem, et efficaciam augendam.

  • Praecedens:
  • Deinde:
    • Codex Productorum Temperatura (℃) Tensio Aestimata (V.DC) Capacitas (µF) Diameter (mm) Altitudo (mm) Fluxus fluxus (uA) ESR/Impedentia [Ωmax] Vita (Horae)
    VPHC0582B1R5MVTM -55~105 125 1.5 6.3 5.8 trecenti 0.4 MM
    VPHC0582B2R2MVTM -55~105 125 2.2 6.3 5.8 trecenti 0.4 MM
    VPHC0772B2R7MVTM -55~105 125 2.7 6.3 7.7 trecenti 0.35 MM
    VPHC0772B3R3MVTM -55~105 125 3.3 6.3 7.7 trecenti 0.35 MM
    VPHC1002B4R7MVTM -55~105 125 4.7 6.3 10 trecenti 0.25 MM
    VPHC1002B5R6MVTM -55~105 125 5.6 6.3 10 trecenti 0.25 MM
    VPHD0772B5R6MVTM -55~105 125 5.6 8 7.7 trecenti 0.2 MM
    VPHC1202B6R8MVTM -55~105 125 6.8 6.3 12 trecenti 0.2 MM
    VPHD0772B6R8MVTM -55~105 125 6.8 8 7.7 trecenti 0.2 MM
    VPHC1202B8R2MVTM -55~105 125 8.2 6.3 12 trecenti 0.2 MM
    VPHD0952B8R2MVTM -55~105 125 8.2 8 9.5 trecenti 0.08 MM
    VPHD0952B100MVTM -55~105 125 10 8 9.5 trecenti 0.08 MM
    VPHD1252B120MVTM -55~105 125 12 8 12.5 trecenti 0.08 MM
    VPHE0852B120MVTM -55~105 125 12 10 8.5 trecenti 0.1 MM
    VPHD1252B150MVTM -55~105 125 15 8 12.5 375 0.08 MM
    VPHE1002B150MVTM -55~105 125 15 10 10 375 0.08 MM
    VPHD1302B180MVTM -55~105 125 18 8 13.5 450 0.08 MM
    VPHE1052B180MVTM -55~105 125 18 10 10.5 450 0.08 MM
    VPHD1602B220MVTM -55~105 125 22 8 16 550 0.06 MM
    VPHE1202B220MVTM -55~105 125 22 10 12 550 0.08 MM
    VPHD1702B270MVTM -55~105 125 27 8 17 DCCLXXV 0.06 MM
    VPHE1402B270MVTM -55~105 125 27 10 14 DCCLXXV 0.08 MM
    VPHE1652B330MVTM -55~105 125 33 10 16.5 DCCCXXV 0.06 MM
    VPHE1802B390MVTM -55~105 125 39 10 18 975 0.06 MM
    VPHL1302B390MVTM -55~105 125 39 12.5 13 975 0.08 MM
    VPHE1902B470MVTM -55~105 125 47 10 19 1175 0.06 MM
    VPHL1402B470MVTM -55~105 125 47 12.5 14 1175 0.08 MM
    VPHE2202B560MVTM -55~105 125 56 10 22 1400 0.06 MM
    VPHL1702B560MVTM -55~105 125 56 12.5 17 1400 0.06 MM
    VPHL1702B680MVTM -55~105 125 68 12.5 17 MDCC 0.06 MM
    VPHL2102B820MVTM -55~105 125 82 12.5 21 2050 0.06 MM
    VPHB0582C1R0MVTM -55~105 CLX 1 5 5.8 trecenti 0.5 MM
    VPHB0582C1R2MVTM -55~105 CLX 1.2 5 5.8 trecenti 0.5 MM
    VPHC0582C1R5MVTM -55~105 CLX 1.5 6.3 5.8 trecenti 0.4 MM
    VPHC0772C2R2MVTM -55~105 CLX 2.2 6.3 7.7 trecenti 0.35 MM
    VPHC1002C3R3MVTM -55~105 CLX 3.3 6.3 10 trecenti 0.25 MM
    VPHD0772C3R3MVTM -55~105 CLX 3.3 8 7.7 trecenti 0.2 MM
    VPHC1202C4R7MVTM -55~105 CLX 4.7 6.3 12 trecenti 0.2 MM
    VPHD0852C4R7MVTM -55~105 CLX 4.7 8 8.5 trecenti 0.15 MM
    VPHC1202C5R6MVTM -55~105 CLX 5.6 6.3 12 trecenti 0.2 MM
    VPHD0772C5R6MVTM -55~105 CLX 5.6 8 7.7 trecenti 0.2 MM
    VPHC1202C6R8MVTM -55~105 CLX 6.8 6.3 12 trecenti 0.2 MM
    VPHD0952C6R8MVTM -55~105 CLX 6.8 8 9.5 trecenti 0.08 MM
    VPHD0952C8R2MVTM -55~105 CLX 8.2 8 9.5 trecenti 0.08 MM
    VPHE0852C8R2MVTM -55~105 CLX 8.2 10 8.5 trecenti 0.1 MM
    VPHD1252C100MVTM -55~105 CLX 10 8 12.5 320 0.08 MM
    VPHE1002C100MVTM -55~105 CLX 10 10 10 320 0.08 MM
    VPHD1252C120MVTM -55~105 CLX 12 8 12.5 384 0.08 MM
    VPHE1002C120MVTM -55~105 CLX 12 10 10 384 0.08 MM
    VPHD1302C150MVTM -55~105 CLX 15 8 13.5 480 0.08 MM
    VPHE1202C150MVTM -55~105 CLX 15 10 12 480 0.08 MM
    VPHD1602C180MVTM -55~105 CLX 18 8 16 576 0.06 MM
    VPHE1202C180MVTM -55~105 CLX 18 10 12 576 0.08 MM
    VPHD1802C220MVTM -55~105 CLX 22 8 18 DCCIV 0.06 MM
    VPHE1402C220MVTM -55~105 CLX 22 10 14 DCCIV 0.08 MM
    VPHD1802C270MVTM -55~105 CLX 27 8 18 DCCCLXIV 0.06 MM
    VPHE1552C270MVTM -55~105 CLX 27 10 15.5 DCCCLXIV 0.06 MM
    VPHE1802C330MVTM -55~105 CLX 33 10 18 1056 0.06 MM
    VPHE1902C390MVTM -55~105 CLX 39 10 19 1248 0.06 MM
    VPHL1402C390MVTM -55~105 CLX 39 12.5 14 1248 0.08 MM
    VPHL1702C470MVTM -55~105 CLX 47 12.5 17 MDIV 0.08 MM
    VPHL1702C560MVTM -55~105 CLX 56 12.5 17 MDCCXCII 0.06 MM
    VPHL2102C680MVTM -55~105 CLX 68 12.5 21 2176 0.06 MM
    VPHC0582D1R0MVTM -55~105 ducenti 1 6.3 5.8 trecenti 0.4 MM
    VPHC0772D1R5MVTM -55~105 ducenti 1.5 6.3 7.7 trecenti 0.35 MM
    VPHC1002D2R2MVTM -55~105 ducenti 2.2 6.3 10 trecenti 0.25 MM
    VPHD0772D3R3MVTM -55~105 ducenti 3.3 8 7.7 trecenti 0.2 MM
    VPHD0952D3R9MVTM -55~105 ducenti 3.9 8 9.5 trecenti 0.1 MM
    VPHD0952D4R7MVTM -55~105 ducenti 4.7 8 9.5 trecenti 0.08 MM
    VPHE0852D4R7MVTM -55~105 ducenti 4.7 10 8.5 trecenti 0.1 MM
    VPHD1252D5R6MVTM -55~105 ducenti 5.6 8 12.5 trecenti 0.08 MM
    VPHD1252D6R8MVTM -55~105 ducenti 6.8 8 12.5 trecenti 0.08 MM
    VPHE1002D6R8MVTM -55~105 ducenti 6.8 10 10 trecenti 0.08 MM
    VPHD1452D8R2MVTM -55~105 ducenti 8.2 8 14.5 328 0.08 MM
    VPHE1002D8R2MVTM -55~105 ducenti 8.2 10 10 328 0.08 MM
    VPHD1702D100MVTM -55~105 ducenti 10 8 17 quadringenti 0.06 MM
    VPHE1302D100MVTM -55~105 ducenti 10 10 13 quadringenti 0.08 MM
    VPHE1402D150MVTM -55~105 ducenti 15 10 14 DC 0.08 MM
    VPHE1652D180MVTM -55~105 ducenti 18 10 16.5 DCCXX 0.06 MM
    VPHL1302D180MVTM -55~105 ducenti 18 12.5 13 DCCXX 0.06 MM
    VPHL1402D220MVTM -55~105 ducenti 22 12.5 14 DCCCLXXX 0.08 MM
    VPHD1252E4R7MVTM -55~105 250 4.7 8 12.5 trecenti 0.08 MM
    VPHD1452E6R8MVTM -55~105 250 6.8 8 14.5 340 0.08 MM
    VPHE1302E6R8MVTM -55~105 250 6.8 10 13 340 0.08 MM
    VPHD1702E8R2MVTM -55~105 250 8.2 8 17 410 0.06 MM
    VPHE1302E8R2MVTM -55~105 250 8.2 10 13 410 0.08 MM
    VPHE1302E100MVTM -55~105 250 10 10 13 quingenti 0.08 MM

    PRODUCTA CONNEXA