Prìomh pharaimearan teicnigeach
| Pròiseact | caractar | ||||||||
| Raon teòthachd obrachaidh | ≤100V-55~+105C;160~400V-40~+105'C | ||||||||
| Raon bholtachd ainmichte | 6.3 ~ 400V | ||||||||
| Fulangas comas | +20% (25+2°C120Hz) | ||||||||
| Sruth aoidionach (uA) | 6.3 ~ 100WV I0.01CV no 3uA ge bith dè as motha C: Comas ainmichte (F) V: bholtaids ìre (V) 2 mhionaid a’ leughadh | ||||||||
| 160 ~ 400WV I0.02CV + 10 (uA) C: comas ainmichte (uF) V: bholtadh ìre (V) 2 mhionaid a’ leughadh | |||||||||
| Tangent call (25 ± 2 ℃ 120Hz) | Bholtaids air a mheas (V) | 6.3 | 10 | 16 | 25 | 35 | 50 | 63 | |
| tg 6 | 0.32 | 0.28 | 0.24 | 0.2 | 0.16 | 0.14 | 0.14 | ||
| Bholtaids air a mheas (V) | 80 | 100 | 160 | 200 | 250 | 350 | 400 | ||
| tg 6 | 0.12 | 0.12 | 0.15 | 0.15 | 0.15 | 0.15 | 0.15 | ||
| Ma tha an comas ainmichte nas àirde na 1000uF, àrdaichidh luach tangent call le 0.02 airson gach àrdachadh de 1000uF | |||||||||
| Feartan Teòthachd (120Hz) | Bholtaids air a mheas (V) | 6.3 | 10 | 16 | 25 | 35 | 50 | 63 | |
| Co-mheas bacadh Z (-40 ℃) / Z (20 ℃) | 14 | 12 | 8 | 6 | 4 | 4 | 4 | ||
| Bholtaids air a mheas (V) | 80 | 100 | 160 | 200 | 250 | 350 | 400 | ||
| Co-mheas bacadh Z (-40 ℃) / Z (20 ℃) | 4 | 4 | 5 | 5 | 5 | 7 | 7 | ||
| Seasmhachd | Bu chòir coileanadh an capacitor coinneachadh ris na riatanasan a leanas Ann an àmhainn aig 105 ° C, cuir a-steach bholtadh ìre le sruth ripple ìre airson ùine sònraichte, an uairsin cuir e aig teòthachd an t-seòmair airson 16 uairean mus dèan thu deuchainn, teòthachd deuchainn: 25 ± 2 ° C. | ||||||||
| Ìre atharrachaidh comas | Taobh a-staigh 30% den luach tùsail | ||||||||
| tangent call | Nas lugha na 300% den luach ainmichte | ||||||||
| sruth aoidionachd | Fon luach ainmichte | ||||||||
| beatha luchdadh | Φ5 | 4000 uair | |||||||
| 6.3 | 5000 uair | ||||||||
| mu 8\ 10 | 6000 uair | ||||||||
| stòradh teòthachd àrd | Bu chòir coileanadh an capacitor na riatanasan a leanas a choileanadh.Bùth aig 105 ° C airson 1000 uair, agus dèan deuchainn air às deidh 16 uairean aig teòthachd an t-seòmair.Is e an teòthachd deuchainn 25 + 2 ° C. | ||||||||
| Ìre atharrachaidh comas | Taobh a-staigh 30% den luach tùsail | ||||||||
| tangent call | Nas lugha na 300% den luach ainmichte | ||||||||
| sruth aoidionachd | Fon luach ainmichte | ||||||||
Dealbh meud toraidh
Co-èifeachd ceartachaidh tricead gnàthach Ripple
| Tricead (Hz) | 50 | 120 | 1K | 310K |
| co-èifeachd | 0.65 | 1 | 1.37 | 1.5 |
Tha an Aonad Gnìomhachasan Beaga Liquid air a bhith an sàs ann an R&D agus saothrachadh bho 2001. Le sgioba R&D agus saothrachaidh eòlach, tha e air a bhith a’ dèanamh measgachadh de inneal-lìonaidh electrolytic miniaturized alùmanum àrd-inbhe gus coinneachadh ri feumalachdan ùr-ghnàthach luchd-ceannach airson luchd-toraidh electrolytic alùmanum.Tha dà phacaid aig an aonad gnìomhachais beag leaghaidh: capacitors electrolytic alùmanum SMD leaghaidh agus co-innealan electrolytic alùmanum luaidhe leaghaidh.Tha na buannachdan aig na toraidhean aige airson miniaturization, àrd seasmhachd, comas àrd, bholtadh àrd, strì an aghaidh teòthachd àrd, bacadh ìosal, ripple àrd, agus beatha fhada.Air a chleachdadh gu farsaing ann anelectronics càraichean lùth ùr, solar cumhachd àrd-chumhachd, solais tùrail, cosgais luath gallium nitride, innealan dachaigh, voltaics dhealbhan agus gnìomhachasan eile.
Uile mu dheidhinnAluminium Electrolytic Capacitorfeumaidh tu fios
Is e seòrsa cumanta de capacitor a thathas a ’cleachdadh ann an innealan dealanach a th’ ann an capacitors electrolytic alùmanum.Ionnsaich bunaitean mar a tha iad ag obair agus na tagraidhean aca san stiùireadh seo.A bheil thu fiosrach mu dheidhinn capacitor electrolytic alùmanum?Tha an artaigil seo a’ còmhdach bunaitean nan capacitor alùmanum sin, a’ toirt a-steach an togail agus an cleachdadh.Ma tha thu ùr do choillearan electrolytic alùmanum, tha an iùl seo na àite math airson tòiseachadh.Faigh a-mach bunaitean nan capacitors alùmanum sin agus mar a bhios iad ag obair ann an cuairtean dealanach.Ma tha ùidh agad ann am pàirt capacitor dealanach, is dòcha gu bheil thu air cluinntinn mu dheidhinn capacitor alùmanum.Tha na co-phàirtean capacitor sin air an cleachdadh gu farsaing ann an innealan dealanach agus tha àite cudromach aca ann an dealbhadh chuairtean.Ach dè dìreach a th’ annta agus ciamar a tha iad ag obair?San iùl seo, nì sinn sgrùdadh air bunaitean luchd-toraidh electrolytic alùmanum, a’ toirt a-steach an togail agus an cleachdadh.Co-dhiù a tha thu nad neach-tòiseachaidh no eòlach air electronics, tha an artaigil seo na ghoireas math airson na pàirtean cudromach sin a thuigsinn.
1.What a th 'ann an aluminium electrolytic capacitor?Is e seòrsa de capacitor a th ’ann an capacitor electrolytic alùmanum a bhios a’ cleachdadh electrolyte gus capacitance nas àirde a choileanadh na seòrsaichean capacitors eile.Tha e air a dhèanamh suas de dhà foil alùmanum air an sgaradh le pàipear bog ann an electrolyte.
2.How tha e ag obair?Nuair a thèid bholtadh a chuir a-steach don capacitor dealanach, bidh an electrolyte a ’giùlan dealan agus a’ leigeil leis an dealanach capacitor lùth a stòradh.Bidh na foilichean alùmanum ag obair mar na dealanan, agus tha am pàipear bog ann an electrolyte ag obair mar an dielectric.
3.Dè na buannachdan a th ’ann a bhith a’ cleachdadh capacitors electrolytic alùmanum?Tha comas àrd aig capacitors electrolytic alùmanum, a tha a’ ciallachadh gun urrainn dhaibh tòrr lùth a stòradh ann an àite beag.Tha iad cuideachd gu ìre mhath saor agus is urrainn dhaibh bholtaids àrd a làimhseachadh.
4.Dè na h-eas-bhuannachdan a th’ ann a bhith a’ cleachdadh capacitor electrolytic alùmanum?Is e aon ana-cothrom a bhith a’ cleachdadh capacitors electrolytic alùmanum gu bheil beatha cuibhrichte aca.Faodaidh an electrolyte tiormachadh a-mach thar ùine, agus faodaidh seo fàiligeadh air na pàirtean capacitor.Tha iad cuideachd mothachail air teòthachd agus faodar am milleadh ma bhios iad fosgailte do theodhachd àrd.
5.What tha cuid de thagraidhean cumanta de alùmanum electrolytic capacitors?Bithear a ’cleachdadh capacitor electrolytic alùmanum gu cumanta ann an solar cumhachd, uidheamachd claisneachd, agus innealan dealanach eile a dh’ fheumas comas àrd.Bidh iad cuideachd air an cleachdadh ann an tagraidhean chàraichean, leithid san t-siostam lasachaidh.
6.How a thaghas tu an capacitor electrolytic alùmanum ceart airson an tagradh agad?Nuair a bhios tu a 'taghadh capacitors electrolytic alùmanum, feumaidh tu beachdachadh air an ìre capacitance, bholtaids agus teòthachd.Feumaidh tu cuideachd beachdachadh air meud agus cumadh an capacitor, a bharrachd air na roghainnean sreap.
7.How do chùram airson aluminium electrolytic capacitor?Gus cùram a thoirt do cho-innealan electrolytic alùmanum, bu chòir dhut a sheachnadh a bhith ga nochdadh gu teòthachd àrd agus bholtachd àrd.Bu chòir dhut cuideachd a sheachnadh fo chuideam meacanaigeach no crith.Mura tèid an capacitor a chleachdadh gu tric, bu chòir dhut bholtadh a chuir a-steach bho àm gu àm gus an electrolyte a chumail bho bhith a ’tiormachadh.
Buannachdan agus Eas-bhuannachdan aCapacitors electrolytic alùmanum
Tha an dà chuid buannachdan agus eas-bhuannachdan aig capacitor electrolytic alùmanum.Air an taobh dheimhinneach, tha co-mheas àrd capacitance-to-volume aca, gan dèanamh feumail ann an tagraidhean far nach eil mòran rùm ann.Tha cosgais an ìre mhath ìosal aig an alùmanum Electrolytic Capacitor an taca ri seòrsachan eile de capacitors.Ach, tha beatha-beatha cuibhrichte aca agus faodaidh iad a bhith mothachail air caochlaidhean teodhachd is bholtachd.A bharrachd air an sin, dh’ fhaodadh gum bi aodion no fàilligeadh aig Capacitors Alùmanum Electrolytic mura tèid an cleachdadh gu ceart.Air an taobh dheimhinneach, tha co-mheas àrd capacitance-to-volum aig Aluminium Electrolytic Capacitors, gan dèanamh feumail ann an tagraidhean far a bheil àite cuibhrichte.Ach, tha beatha-beatha cuibhrichte aca agus faodaidh iad a bhith mothachail air caochlaidhean teodhachd is bholtachd.A bharrachd air an sin, faodaidh Aluminium Electrolytic Capacitor a bhith buailteach aoidionachd agus a bhith nas àirde an aghaidh sreath co-ionann an coimeas ri seòrsachan eile de luchd-gleidhidh dealanach.
| Bholtaids(V) | 6.3 | 10 | 16 | |||
| pròiseict | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) |
| Comas (uF) | ||||||
| 2.2 | ||||||
| 2.7 | ||||||
| 3.3 | ||||||
| 3.9 | ||||||
| 4.7 | ||||||
| 5.6 | ||||||
| 6.8 | ||||||
| 8.2 | ||||||
| 10 | 5×7.9 | 55 | 5×7.9 | 55 | 5×7.9 | 55 |
| 12 | 5×7.9 | 55 | 5×7.9 | 55 | 5×7.9 | 55 |
| 15 | 5×7.9 | 60 | 5×7.9 | 60 | 5×7.9 | 60 |
| 18 | 5×7.9 | 60 | 5×7.9 | 60 | 5×7.9 | 60 |
| 22 | 5×7.9 | 60 | 5×7.9 | 70 | 5×7.9 | 70 |
| 27 | 5×7.9 | 70 | 5×7.9 | 70 | 5×7.9 | 70 |
| 33 | 5×7.9 | 80 | 5×7.9 | 80 | 5×7.9 | 80 |
| 39 | 5×7.9 | 80 | 5×7.9 | 80 | 5×7.9 | 80 |
| 47 | 5×7.9 | 90 | 5×7.9 | 90 | 5×7.9 | 90 |
| 56 | 5×7.9 | 90 | 5×7.9 | 90 | 5×7.9 | 90 |
| 68 | 5×7.9 | 90 | 5×7.9 | 90 | 5×7.9 | 90 |
| 82 | 5×7.9 | 100 | 5×7.9 | 98 | 6.3 × 77 | 105 |
| 100 | 5×7.9 | 105 | 6.3 × 77 | 115 | 6.3 × 77 | 115 |
| 120 | 5×7.9 | 110 | 6.3 × 77 | 115 | 6.3 × 77 | 128 |
| 150 | 6.3 × 77 | 115 | 6.3 × 77 | 135 | 8 × 7.9 | 140 |
| 180 | 6.3 × 77 | 135 | 8 × 7.9 | 160 | 8 × 7.9 | 170 |
| 220 | 6.3 × 77 | 160 | 8 × 7.9 | 170 | 8 × 7.9 | 190 |
| 270 | 8 × 7.9 | 170 | 8 × 7.9 | 190 | 10 × 8.4 | 220 |
| 330 | 8 × 7.9 | 180 | 10 × 8.4 | 220 | 10 × 8.4 | 240 |
| 390 | 8 × 7.9 | 190 | 10 × 8.4 | 240 | 10 × 8.4 | 260 |
| 470 | 8 × 7.9 | 200 | 10 × 8.4 | 260 | ||
| 560 | 10 × 8.4 | 240 | ||||
| 680 | 10 × 8.4 | 280 | ||||
| Bholtaids(V) | 25 | 35 | 50 | |||
| pròiseict | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) |
| Comas (uF) | ||||||
| 2.2 | 5×7.9 | 31 | ||||
| 2.7 | 5×7.9 | 31 | ||||
| 3.3 | 5×7.9 | 31 | ||||
| 3.9 | 5×7.9 | 31 | ||||
| 4.7 | 5×7.9 | 50 | 5×7.9 | 50 | 5×7.9 | 31 |
| 5.6 | 5×7.9 | 50 | 5×7.9 | 50 | 5×7.9 | 31 |
| 6.8 | 5×7.9 | 55 | 5×7.9 | 50 | 5×7.9 | 31 |
| 8.2 | 5×7.9 | 55 | 5×7.9 | 50 | 5×7.9 | 31 |
| 10 | 5×7.9 | 60 | 5×7.9 | 50 | 5×7.9 | 31 |
| 12 | 5×7.9 | 60 | 5×7.9 | 60 | 5×7.9 | 37 |
| 15 | 5×7.9 | 60 | 5×7.9 | 60 | 5×7.9 | 44 |
| 18 | 5×7.9 | 60 | 5×7.9 | 60 | 6.3 × 77 | 55 |
| 22 | 5×7.9 | 60 | 5×7.9 | 70 | 6.3 × 77 | 65 |
| 27 | 5×7.9 | 70 | 6.3 × 77 | 80 | 6.3 × 77 | 78 |
| 33 | 5×7.9 | 85 | 6.3 × 77 | 90 | 8 × 7.9 | 85 |
| 39 | 5×7.9 | 85 | 6.3 × 77 | 98 | 8 × 7.9 | 100 |
| 47 | 5×7.9 | 90 | 6.3 × 77 | 105 | 8 × 7.9 | 120 |
| 56 | 6.3 × 77 | 98 | 8 × 7.9 | 115 | 8 × 7.9 | 125 |
| 68 | 6.3 × 77 | 105 | 8 × 7.9 | 125 | 10 × 8.4 | 140 |
| 82 | 6.3 × 77 | 115 | 8 × 7.9 | 140 | 10 × 8.4 | 160 |
| 100 | 8 × 7.9 | 125 | 8 × 7.9 | 170 | 10 × 8.4 | 180 |
| 120 | 8 × 7.9 | 140 | 10 × 8.4 | 180 | ||
| 150 | 8 × 7.9 | 170 | 10 × 8.4 | 210 | ||
| 180 | 10 × 8.4 | 190 | ||||
| 220 | 10 × 8.4 | 220 | ||||
| 270 | ||||||
| 330 | ||||||
| 390 | ||||||
| 470 | ||||||
| 560 | ||||||
| 680 | ||||||
| Bholtaids(V) | 63 | 80 | 100 | |||
| pròiseict | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) |
| Comas (uF) | ||||||
| 1 | ||||||
| 1.2 | ||||||
| 1.5 | ||||||
| 1.8 | ||||||
| 2.2 | 5×7.9 | 30 | 5×7.9 | 30 | 5×7.9 | 28 |
| 2.7 | 5×7.9 | 30 | 5×7.9 | 30 | 5×7.9 | 28 |
| 3.3 | 5×7.9 | 30 | 5×7.9 | 30 | 5×7.9 | 28 |
| 3.9 | 5×7.9 | 30 | 5×7.9 | 30 | 5×7.9 | 28 |
| 4.7 | 5×7.9 | 30 | 5×7.9 | 30 | 5×7.9 | 28 |
| 5.6 | 5×7.9 | 30 | 5×7.9 | 30 | 5×7.9 | 28 |
| 6.8 | 5×7.9 | 30 | 5×7.9 | 30 | 6.3 × 77 | 30 |
| 8.2 | 5×7.9 | 30 | 5×7.9 | 30 | 6.3 × 77 | 40 |
| 10 | 5×7.9 | 30 | 6.3 × 77 | 50 | 6.3 × 77 | 50 |
| 12 | 6.3 × 77 | 50 | 6.3 × 77 | 55 | 8 × 7.9 | 75 |
| 15 | 6.3 × 77 | 56 | 6.3 × 77 | 70 | 8 × 7.9 | 85 |
| 18 | 6.3 × 77 | 70 | 6.3 × 77 | 75 | 8 × 7.9 | 100 |
| 22 | 8 × 7.9 | 75 | 8 × 7.9 | 85 | 8 × 7.9 | 120 |
| 27 | 8 × 7.9 | 85 | 8 × 7.9 | 100 | 10 × 8.4 | 130 |
| 33 | 8 × 7.9 | 100 | 8 × 7.9 | 120 | 10 × 8.4 | 150 |
| 39 | 8 × 7.9 | 120 | 10 × 8.4 | 130 | ||
| 47 | 10 × 8.4 | 130 | 10 × 8.4 | 150 | ||
| 56 | 10 × 8.4 | 150 | 10 × 8.4 | 160 | ||
| 68 | 10 × 8.4 | 160 | ||||
| Bholtaids(V) | 160 | 200 | 250 | |||
| pròiseict | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) |
| Comas (uF) | ||||||
| 1 | 5×7.9 | 20 | 5×7.9 | 20 | ||
| 1.2 | 5×7.9 | 20 | 5×7.9 | 20 | ||
| 1.5 | 5×7.9 | 22 | 5×7.9 | 22 | ||
| 1.8 | 5×7.9 | 22 | 5×7.9 | 22 | ||
| 2.2 | 5×7.9 | 20 | 6.3 × 77 | 25 | 6.3 × 77 | 25 |
| 2.7 | 5×7.9 | 20 | 6.3 × 77 | 35 | 6.3 × 77 | 35 |
| 3.3 | 6.3 × 77 | 22 | 6.3 × 77 | 40 | 6.3 × 77 | 40 |
| 3.9 | 6.3 × 77 | 22 | 8 × 7.9 | 50 | 8 × 7.9 | 50 |
| 4.7 | 6.3 × 77 | 22 | 8 × 7.9 | 55 | 8 × 7.9 | 55 |
| 5.6 | 8 × 7.9 | 50 | 8 × 7.9 | 65 | 8 × 7.9 | 65 |
| 6.8 | 8 × 7.9 | 55 | 8 × 7.9 | 72 | 10 × 8.4 | 80 |
| 8.2 | 8 × 7.9 | 60 | 10 × 8.4 | 95 | 10 × 8.4 | 95 |
| 10 | 8 × 7.9 | 65 | 10 × 8.4 | 108 | 10 × 8.4 | 108 |
| 12 | 10 × 8.4 | 95 | ||||
| 15 | 10 × 8.4 | 115 | ||||
| 18 | ||||||
| 22 | ||||||
| 27 | ||||||
| 33 | ||||||
| 39 | ||||||
| 47 | ||||||
| 56 | ||||||
| 68 | ||||||
| Bholtaids(V) | 350 | 400 | ||
| pròiseict | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) | Meud Φ DxL(mm) | bacadh (Ωmax / 100kHz 25 ± 2 ℃) |
| Comas (uF) | ||||
| 1 | 6.3 × 77 | 25 | 6.3 × 77 | 25 |
| 1.2 | 6.3 × 77 | 30 | 6.3 × 77 | 30 |
| 1.5 | 6.3 × 77 | 35 | 6.3 × 77 | 35 |
| 1.8 | 6.3 × 77 | 40 | 6.3 × 77 | 40 |
| 2.2 | 8 × 7.9 | 50 | 8 × 7.9 | 50 |
| 2.7 | 8 × 7.9 | 55 | 8 × 7.9 | 55 |
| 3.3 | 8 × 7.9 | 70 | 8 × 7.9 | 70 |
| 3.9 | 10 × 8.4 | 80 | 10 × 8.4 | 80 |
| 4.7 | 10 × 8.4 | 95 | 10 × 8.4 | 95 |
| 5.6 | 10 × 8.4 | 108 | ||
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