Muva nje, iwebhusayithi eyinhloko yokushaja ihlakaze ibhange lamandla le-Xiaomi 33W 5000mAh lamandla amathathu kokukodwa. Umbiko we-teardown uveze ukuthi kokubili i-capacitor yokufaka (400V 27μF) kanye ne-capacitor ephumayo (25V 680μF) zisebenzisa ama-capacitor athembeke kakhulu e-YMIN.
Ukukhetha ama-capacitor wesitifiketi se-3C
Ibhekene nezidingo eziqinile zesitifiketi se-3C sikazwelonke, imakethe ibeka izidingo eziphakeme ekuphepheni, ekuzinzeni, nasekuthembekeni kwamabhange kagesi. Ukukhetha kuka-Xiaomi kwama-YMIN capacitor akuyona ingozi.
Ngokusekelwe ekuqondeni kwayo okujulile kobuchwepheshe bebhange lamandla nolwazi lwemboni, i-YMIN yethule izixazululo ze-capacitor ezinokwethenjelwa okuphezulu ezihamba phambili ekuthuthukiseni ukuphepha, ukusebenza, nenkululeko yokuklama, ukusiza amadivayisi ahlukahlukene ukuhlangabezana nezinselele zemithetho emisha nokudala isizukulwane esilandelayo semikhiqizo yekhwalithi ephezulu.
I-YMIN High-Performance Capacitor Solutions
Okokufaka: I-Liquid Aluminium Electrolytic Capacitors
Ama-capacitor e-aluminium e-electrolytic ewuketshezi enza ukulungisa nokuhlunga ekufakweni kwe-voltage ephezulu yamabhange kagesi, abhekane nezidingo eziyinhloko zokuguqulwa okuphumelelayo kwe-AC-DC nokuthembeka kwesikhathi eside. Njengetshe legumbi lokuhlunga okokufaka okuphephile, okuzinzile, futhi okungabizi, kuyizingxenye ezibalulekile zokuqinisekisa ukuqina kwedivayisi kukonke kanye nokusebenza kahle kokuguqulwa.
· High Capacitance Density:Uma kuqhathaniswa nama-capacitor afanayo emakethe, i-YMIN liquid aluminium electrolytic capacitor inikeza ububanzi obuncane nobude obuphansi. Lokhu kuvumela amandla aphezulu ngaphakathi kosayizi ofanayo. Lokhu kusizakala okumbaxambili kuthuthukisa kakhulu ukusetshenziswa kwendawo, okuvumela onjiniyela ukuguquguquka okukhulu kwesakhiwo futhi bazivumelanise nezikhala zangaphakathi ezihlangene ezikhulayo zamabhange kagesi.
Impilo ende:Ukuqina okukhethekile kwezinga lokushisa eliphezulu nempilo yesevisi ende ngendlela emangalisayo (amahora angu-3000 ku-105°C) imelana ngempumelelo nezinga lokushisa eliphezulu kanye nokushajwa okuvamisile nokucindezeleka kokukhishwa kwamabhange kagesi, okuqinisekisa ukwethembeka nokuphepha kwesikhathi eside, okunciphisa ngokuphawulekayo amazinga okuhluleka.
Ukuphazamiseka Okuphansi:I-impedance ye-low-frequency enhle kakhulu iqinisekisa ukumuncwa okusebenzayo kanye nokuhlunga kwe-ripple-frequency ripple ngemva kokulungiswa kwe-voltage ephezulu, ukuthuthukisa ukusebenza kahle kokuguqulwa nokuhlinzeka ngokufaka okuhlanzekile kwe-DC kumasekhethi.
- Amamodeli Anconyiwe -
Okukhiphayo:I-Polymer Hybrid Aluminium Electrolytic Capacitor
Idizayinelwe ngokuqondile ukuhlunga okukhiphayo kwebhange lamandla, le divayisi ibhekana nezindawo zobuhlungu eziyinhloko kuzimo zokushaja okusheshayo. Njengenketho ekahle yokuhlunga okukhiphayo okuphephile, okusebenzayo, nokulahlekelwa okuncane, kuyingxenye ebalulekile yolwazi oluthembekile lokushaja okusheshayo.
· I-ESR ephansi kakhulu kanye nokukhuphuka kwezinga lokushisa eliphansi kakhulu:Ngisho ne-ripple yamanje ephezulu ngesikhathi sokushaja okusheshayo, le capacitor ikhiqiza ukushisa okuncane kakhulu (okuphakeme kakhulu kunama-capacitor avamile), ukunciphisa kakhulu izinga lokushisa ezingxenyeni ezibucayi zokukhipha, ukuthuthukisa ukusebenza kahle nokuqeda ingozi yokuqhuma nomlilo obangelwa ukushisa kwe-capacitor, ukuhlinzeka ngokuzivikela okuqinile kokushaja okusheshayo okuphephile.
· Ukuvuza Okuphansi Kakhulu Kwamanje (≤5μA):Icindezela ngokuphumelelayo ukuzikhipha ngokwakho ngesikhathi semodi yokulinda, isusa umuzwa ongeyinhle wokuphelelwa ngamandla kwebhethri ngemva kwezinsuku ezimbalwa zokungasebenzi. Lokhu kuqinisekisa ukuthi ibhange lamandla lihlala litholakala kalula futhi ligcina ukusebenza okuhlala isikhathi eside, okuthuthukisa kakhulu ukwaneliseka kwabasebenzisi.
· High Capacitance Density:Le divayisi iletha umthamo osebenza kahle ophakeme (u-5% -10% ngaphezulu kune-polymer solid aluminium electrolytic capacitor) ngaphakathi kwetheminali ehlangene yokuphumayo, okuvumela amakhasimende ukuthi afinyelele imiklamo yebhange lamandla emincane, elula, futhi ephathekayo ngenkathi egcina amandla okukhiphayo.
- Imodeli Enconyiwe -
Thuthukisa Nokumiselela:I-Multilayer Polymer Solid Aluminium Electrolytic Capacitors
I-Multilayer polymer solid aluminium electrolytic capacitor ifaneleka ukuhlunga izindawo lapho okokufaka noma okukhiphayo kwamabhange kagesi, lapho izidingo zesikhala, ukujiya, nomsindo ziqinile. Ngenkathi kugcinwa izinzuzo zohlelo lokusebenza ze-ultra-low ESR (5mΩ) kanye nokuvuza okuphansi kakhulu kwamanje (≤5μA), zinikeza izinzuzo ezibalulekile ezintathu, okuvumela amakhasimende ukuthi akhethe ngokusekelwe ezidingweni zawo zedizayini.
· Ukushintshwa Kwe-Ceramic Capacitor:Ibhekana nenkinga ye-"whine" yama-ceramic capacitor ngaphansi kwamagagasi aphezulu, isusa umsindo wokudlidliza we-high-frequency obangelwa umphumela we-piezoelectric.
· Ukushintshwa kwe-Tantalum Capacitor:Izindleko Ezengeziwe: Uma kuqhathaniswa nama-polymer tantalum capacitor, ama-multilayer polymer solid aluminium electrolytic capacitor anikeza isisombululo sokuhlunga esingabizi kakhulu, esisebenza kahle kakhulu. I-ultra-low ESR yabo ihlinzeka ngamabhange kagesi ngamakhono aphakeme wokunqamula imvamisa ephezulu namandla okumunca amanje. Ziphinde zehlise izingozi ezingaba khona zokuhluleka kwesifunda esifushane zama-polymer tantalum capacitor, zinikeze ukuphepha okungeziwe.
· Ukushintshwa kwe-Solid Capacitor:Amakheli amabhodlela emvamisa ephezulu: Ngaphansi kwezimo zokusebenza zokushaja okusheshayo kanye nemvamisa ephezulu, anikeza ukusebenza okuphakeme kakhulu kunama-capacitor aqinile endabuko, angahlangabezana nezinkinga zokusebenza. I-ultra-low ESR (5mΩ) nezici ezinhle kakhulu zemvamisa ephezulu ziqinisekisa ukuhlunga okusebenzayo nokuzinzile.
- Izincomo zokukhetha -
PHELA
I-YMIN ivikela ukuphepha ngobuciko futhi ishayela ukwethembeka ngekhwalithi. Ukukhetha kukaXiaomi ama-YMIN capacitor ebhange layo lamandla angu-3-in-1 kuwubufakazi bokuthembeka kwethu okuphezulu kanye nekhwalithi ephakeme.
Sinikeza ukukhethwa okuphelele kwama-capacitor athembeke kakhulu, afaka izimo eziyinhloko zohlelo lokusebenza njengamatheminali okufakwayo kwebhange lamandla/okukhiphayo. Lokhu kusiza amakhasimende abhekane kalula nezinselelo zedizayini futhi ahlangabezane nezimfuneko eziqinile zesitifiketi se-3C.
Isikhathi sokuthumela: Aug-07-2025