Main Technical parametri
Technica modularis
♦ Ultra-High Capacity, Minimum Imminedance et Miniatrized V-Chip Products praestati MM horas
♦ apta summus density automatic superficiem mons summus temperatus reflows
♦ Conforming ad AEC-Q200 Rohs Directive, quaeso Contact Us Details
Pelagus technica parametri
| Project | proprium | |||||||||||
| Operating temperatus rhoncus | -55 ~ + CV ℃ | |||||||||||
| Nominal voltage range | 6.3-35v | |||||||||||
| Capacitas tolerantia | 2700uf CCXX | |||||||||||
| Leakage Current (UA) | ± XX% (120Hz XXV ℃) | |||||||||||
| I≤0.01 CV vel 3UA quicquid sit maior C: nominis capacitatem UF) V: rated voltage (v) II minutes Lectio | ||||||||||||
| Damnum Tangent (XXV ± II ℃ 120Hz) | Rating voltage (V) | 6,3 | 10 | 16 | 25 | 35 |
|
|
| |||
| TG VI | 0,26 | 0,19 | 0.16 | 0,14 | 0.12 |
|
|
| ||||
| Si nominis facultatem excedit 1000, damnum tangens valorem et crescat per 0,02 ad invicem incremento de 1000 | ||||||||||||
| Temperature characteres (120hz) | Rating voltage (V) | 6,3 | 10 | 16 | 25 | 35 | ||||||
| Impedance Ratio max Z (-40 ℃) / Z (XX ℃) | 3 | 3 | 3 | 3 | 3 | |||||||
| Diuturnitas | In clibano ad CV ° C, applicare ad rated voltage pro MM horas, et test est locus temperatus pro XVI horas. Test temperatus est XX ° C. In perficientur de capacitor debet occurrit sequenti requisitis | |||||||||||
| Facultatem mutatio rate | In initial valorem in VII% | |||||||||||
| damnum tangentem | Infra CCC% de certa pretii | |||||||||||
| Leakage Current | Infra valorem certa | |||||||||||
| summus temperatus repono | Store ad CV ° C ad M horas, test post XVI horas ad locus temperatus, in test temperatus est XXV ± II ° C, in perficientur de capacitor ut dignum sequenti requisitis | |||||||||||
| Facultatem mutatio rate | In initial% XX in initial valorem | |||||||||||
| damnum tangentem | Infra CC% de certa pretii | |||||||||||
| Leakage Current | Infra CC% de certa pretii | |||||||||||
Product Dimensional Drawing
Dimensionem (Unit: mm)
| Φdxl | A | B | C | E | H | K | a |
| 6.3x77 | 2.6 | 6.6 | 6.6 | 1.8 | 0,75 ± 0.10 | 0.7Max | ± 0.4 |
| 8x10 | 3.4 | 8,3 | 8,3 | 3,1 | 0.90 ± 0.20 | 0.7Max | ± 0.5 |
| 10x10 | 3.5 | 10,3 | 10,3 | 4.4 | 0.90 ± 0.20 | 0.7Max | ± 0.7 |
Ripple Current Frequency correptio coefficientem
| Frequency (HZ) | 50 | CXX | 1K | 310K |
| coefficient | 0,35 | 0,5 | 0,83 | 1 |
Aluminium electrolytic capacitors: late usus electronic components
Aluminium electrolytic capacitors sunt communia electronic components in agro electronics, et habent amplis de applications in variis circuitus. Ut genus capacitor, aluminium electrolytic capacitors potest reponunt et dimittere causam, propter filtering, coopllantes, et industria repono functions. Hoc articulus erit inducere opus principle, applications et pros et cons de aluminium electrolytic capacitors.
Opus
Aluminium electrolytic capacitors ex duobus aluminium ffoyle electrodes et electrolytici. Unum aluminium ffoyle est oxidized ad fiet anode, cum alia aluminium ffoyle serves ut cathode cum electrolytici plerumque in liquido vel gel forma. Cum autem voltage applicantur, iones in electrolyte moventur inter positivum et negativum electrodes, formans electrica agro, ita thesaurizantes crimen. Hoc concedit aluminium electrolytic capacitors agere ut industria repono cogitationes vel cogitationes qui respondent mutantur voltages in circuits.
Applications
Aluminium electrolytic capacitors habere lateque applications in variis electronic cogitationes et circuitus. Sunt communiter in potentia systems, amplifiers, odio, DC-DC Converters, motor agitet, et alias circuitus. In potentia systems, aluminium electrolytic capacitors sunt typice solebat lenis output intentione et reducere voltage fluctuations. In amplifiers, sunt usus ad coupling et filtering ad amplio audio qualitas. Praeterea, aluminium electrolytic capacitors potest etiam esse ut tempus shifters, gradus responsum cogitationes, et magis in AC circuits.
Pros et Cons
Aluminium electrolytic capacitors habent plures commoda, ut relative princeps capacitance, humilis sumptus et amplis applications. Tamen, etiam habent aliquam limitations. Uno modo sunt polarized cogitationes et connected recte vitare damnum. Secundo, eorum lifespan est relative brevi et ut deficere debitum ad electrolytici siccatio e vel leakage. Praeterea, in perficientur aluminium electrolytic capacitors potest limited in summus frequency applications, ita alia genera capacitors potest postulo ut considerari ad propria applications.
Conclusio
In conclusione, aluminium electrolytic capacitors ludere an maximus munus ut communis electronic components in agro electronics. Eorum simplex opus principium et amplis applications faciunt ea necessaria components in multis electronic cogitationes et circuitus. Licet aluminium electrolytic capacitors habent quidam limitations, sunt tamen efficax electio pro multis humilis-frequency circuits et applications, occurrens necessitates maxime electronic systems.
| Products Number | Operating temperatus (℃) | Voltage (V.DC) | Capacitance (UF) | Diameter (mm) | Longitudo (mm) | Leakage Current (UA) | Rated Ripple Current [MA / RMS] | ESR / Impedance [ωmage] | Vita (HRS) | Certification |
| V3mcc00001000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 | -55 ~ CV | 6,3 | DCCCXX | 6,3 | 7.7 | 51.66 | DCX | 0,24 | MM | - |
| V3mcc0770j821mvtm | -55 ~ CV | 6,3 | DCCCXX | 6,3 | 7.7 | 51.66 | DCX | 0,24 | MM | AEC-Q200 |
| V3mcd1000j192mv | -55 ~ CV | 6,3 | MDCCC | 8 | 10 | 113,4 | DCCCLX | 0.12 | MM | - |
| V3mcd1000j182mvtm | -55 ~ CV | 6,3 | MDCCC | 8 | 10 | 113,4 | DCCCLX | 0.12 | MM | AEC-Q200 |
| V3mce1000j272mv | -55 ~ CV | 6,3 | MMDCC | 10 | 10 | 170.1 | MCC | 0,09 | MM | - |
| V3mce1000j272mvtm | -55 ~ CV | 6,3 | MMDCC | 10 | 10 | 170.1 | MCC | 0,09 | MM | AEC-Q200 |
| V3mcc0771a561mv | -55 ~ CV | 10 | DLX | 6,3 | 7.7 | 56 | DCX | 0,24 | MM | - |
| V3mcc0771a561mvtm | -55 ~ CV | 10 | DLX | 6,3 | 7.7 | 56 | DCX | 0,24 | MM | AEC-Q200 |
| V3mcd1001a122mv | -55 ~ CV | 10 | MCC | 8 | 10 | CXX | DCCCLX | 0.12 | MM | - |
| V3mcd1001a122mvtm | -55 ~ CV | 10 | MCC | 8 | 10 | CXX | DCCCLX | 0.12 | MM | AEC-Q200 |
| V3mce1001a222mv | -55 ~ CV | 10 | MMCC | 10 | 10 | CCXX | MCC | 0,09 | MM | - |
| V3mce1001a222mvtm | -55 ~ CV | 10 | MMCC | 10 | 10 | CCXX | MCC | 0,09 | MM | AEC-Q200 |
| V3mcc0771c471mv | -55 ~ CV | 16 | CDLXX | 6,3 | 7.7 | 75,2 | DCX | 0,24 | MM | - |
| V3mcc0771c471mvtm | -55 ~ CV | 16 | CDLXX | 6,3 | 7.7 | 75,2 | DCX | 0,24 | MM | AEC-Q200 |
| V3mcd1001c821mv | -55 ~ CV | 16 | DCCCXX | 8 | 10 | 131.2 | DCCCLX | 0.12 | MM | - |
| V3mcd1001c821mvtm | -55 ~ CV | 16 | DCCCXX | 8 | 10 | 131.2 | DCCCLX | 0.12 | MM | AEC-Q200 |
| V3mce1001c152mv | -55 ~ CV | 16 | MD | 10 | 10 | CCXL | MCC | 0,09 | MM | - |
| V3mce1001c152mvtm | -55 ~ CV | 16 | MD | 10 | 10 | CCXL | MCC | 0,09 | MM | AEC-Q200 |
| V3mcc0771e331mv | -55 ~ CV | 25 | CCCXXX | 6,3 | 7.7 | 82.5 | DCX | 0,24 | MM | - |
| V3mcc0771e331mvtm | -55 ~ CV | 25 | CCCXXX | 6,3 | 7.7 | 82.5 | DCX | 0,24 | MM | AEC-Q200 |
| V3mcd1001e561mv | -55 ~ CV | 25 | DLX | 8 | 10 | CXL | DCCCLX | 0.12 | MM | - |
| V3mcd1001e561mvtm | -55 ~ CV | 25 | DLX | 8 | 10 | CXL | DCCCLX | 0.12 | MM | AEC-Q200 |
| V3mce1001e102mv | -55 ~ CV | 25 | M | 10 | 10 | CCL | MCC | 0,09 | MM | - |
| V3mce1001e102mvtm | -55 ~ CV | 25 | M | 10 | 10 | CCL | MCC | 0,09 | MM | AEC-Q200 |
| V3mcc0771v221mv | -55 ~ CV | 35 | CCXX | 6,3 | 7.7 | 77 | DCX | 0,24 | MM | - |
| V3mcc0771v221mvtm | -55 ~ CV | 35 | CCXX | 6,3 | 7.7 | 77 | DCX | 0,24 | MM | AEC-Q200 |
| V3mcd1001v471mv | -55 ~ CV | 35 | CDLXX | 8 | 10 | 164,5 | DCCCLX | 0.12 | MM | - |
| V3mcd1001v471mvtm | -55 ~ CV | 35 | CDLXX | 8 | 10 | 164,5 | DCCCLX | 0.12 | MM | AEC-Q200 |
| V3mce1001v681mv | -55 ~ CV | 35 | DCLXXX | 10 | 10 | CCXXXVIII | MCC | 0,09 | MM | - |
| V3mce1001v681mvtm | -55 ~ CV | 35 | DCLXXX | 10 | 10 | CCXXXVIII | MCC | 0,09 | MM | AEC-Q200 |
