Muva nje, iwebhusayithi yekhanda lokushaja ihlukanise i-Xiaomi 33W 5000mAh three-in-one power bank. Umbiko wokudiliza uveze ukuthi kokubili i-input capacitor (400V 27μF) kanye ne-output capacitor (25V 680μF) zisebenzisa ama-capacitor anokwethenjelwa okuphezulu e-YMIN.
Ukukhetha ama-capacitor ukuze kuqinisekiswe i-3C
Njengoba ibhekene nezidingo zesitifiketi se-3C sikazwelonke eziqinile, imakethe ibeka izidingo eziphakeme ekuphepheni, ekuzinzeni, nasekuthembekeni kwamabhange kagesi. Ukukhetha kwe-Xiaomi ama-capacitor e-YMIN akuyona ingozi.
Ngokusekelwe ekuqondeni kwayo okujulile ubuchwepheshe bebhange lamandla kanye nolwazi lwemboni, i-YMIN yethule izixazululo ze-capacitor ezinokwethenjelwa okuphezulu ezivelele ekuthuthukiseni ukuphepha, ukusebenza, kanye nenkululeko yokuklama, esiza amadivayisi ahlukahlukene ukuhlangabezana nezinselele zemithetho emisha futhi adale isizukulwane esilandelayo semikhiqizo esezingeni eliphezulu.
Izixazululo ze-YMIN High-Performance Capacitor
Okufakiwe: Ama-Capacitors e-Liquid Aluminium Electrolytic
Ama-capacitor e-electrolytic e-aluminium acwebezelayo enza ukulungiswa nokuhlunga ekufakweni kwamandla kagesi aphezulu kwamabhange kagesi, ebhekana nezidingo eziyinhloko zokuguqulwa kwe-AC-DC okuphumelelayo kanye nokuthembeka kwesikhathi eside. Njengesisekelo sokuhlunga kokufaka okuphephile, okuzinzile, nokungabizi kakhulu, ayizingxenye ezibalulekile zokuqinisekisa ukuqina kwedivayisi kanye nokusebenza kahle kokuguqulwa.
· Ubuningi be-Capacitance Ephakeme:Uma kuqhathaniswa nama-capacitor afanayo emakethe, ama-capacitor e-electrolytic e-YMIN liquid aluminium anikeza ububanzi obuncane nokuphakama okuphansi. Lokhu kuvumela amandla aphezulu ngaphakathi kosayizi ofanayo. Le nzuzo ephindwe kabili ithuthukisa kakhulu ukusetshenziswa kwesikhala, okuvumela onjiniyela ukuthi bahlele ukuguquguquka okukhulu futhi bazivumelanise nezikhala zangaphakathi zamabhange kagesi ezikhula kancane.
Impilo Ende:Ukuqina okumangalisayo kokushisa okuphezulu kanye nokuphila isikhathi eside kakhulu (amahora angu-3000 ku-105°C) kumelana ngempumelelo nokushisa okuphezulu kanye nokucindezeleka kokushaja nokukhipha njalo kwamabhange kagesi, kuqinisekisa ukuthembeka nokuphepha kwesikhathi eside, kunciphisa kakhulu amazinga okuhluleka.
Ukuphazamiseka Okuphansi:Ukuphazamiseka okuhle kakhulu kwemvamisa ephansi kuqinisekisa ukumuncwa kanye nokuhlunga kahle kwe-power-frequency ripple ngemuva kokulungiswa kwe-high-voltage, ukuthuthukisa ukusebenza kahle kokuguqulwa kanye nokunikeza okokufaka kwe-DC okumsulwa kwamasekethe.
- Amamodeli Anconyiwe -
Umphumela:I-Polymer Hybrid Aluminium Electrolytic Capacitor
Yakhelwe ngqo ukuhlunga okuphumayo kwebhange lamandla, le divayisi ibhekana nezindawo ezibalulekile ezibuhlungu ezimweni zokushaja okusheshayo. Njengesinqumo esifanele sokuhlunga okuphumayo okuphephile, okusebenzayo, nokungalahleki kakhulu, iyingxenye ebalulekile yesipiliyoni sokushaja okusheshayo esithembekile.
· I-ESR ephansi kakhulu kanye nokwenyuka kwezinga lokushisa eliphansi kakhulu:Ngisho noma kunokuqhuma okukhulu kwamandla kagesi ngesikhathi sokushaja okusheshayo, le capacitor ikhiqiza ukushisa okuncane kakhulu (okungcono kakhulu kune-capacitor evamile), kunciphisa kakhulu ukukhuphuka kwezinga lokushisa ezingxenyeni ezibalulekile zokukhipha, kuthuthukisa ukusebenza kahle futhi kuqede ingozi yokuqhuma nomlilo okubangelwa ukushisa ngokweqile kwe-capacitor, okuhlinzeka ngokuzivikela okuqinile kokushaja okusheshayo okuphephile.
· Ukuvuza Okuphansi Kakhulu Kwamanje (≤5μA):Iqeda ngempumelelo ukuzikhipha amandla ngesikhathi semodi yokulinda, isuse umuzwa ongemuhle wokuphelelwa yibhethri ngokuzumayo ngemva kwezinsuku ezimbalwa zokungasebenzi. Lokhu kuqinisekisa ukuthi ibhange lamandla lihlala litholakala kalula futhi ligcina ukusebenza okuhlala isikhathi eside, okuthuthukisa kakhulu ukwaneliseka komsebenzisi.
· Ubuningi be-Capacitance Ephakeme:Le divayisi inikeza amandla asebenza kahle kakhulu (5%-10% aphezulu kune-polymer solid aluminium electrolytic capacitors yendabuko) ngaphakathi kwe-compact output footprint, okwenza amakhasimende akwazi ukufeza imiklamo yebhange lamandla elincane, elilula, neliphathekayo ngenkathi egcina amandla okukhipha.
- Imodeli Enconyiwe -
Ukuthuthukiswa Nokushintshwa:Ama-Capacitors e-Electrolytic e-Polymer Aluminium Aqinile Anezingqimba Eziningi
Ama-capacitor e-electrolytic e-polymer solid aluminium electrolytic anezingqimba eziningi afanelekela ukuhlunga ama-node ekungeneni noma ekuphumeni kwamabhange kagesi, lapho isikhala, ukujiya, kanye nezidingo zomsindo ziqinile. Ngenkathi egcina izinzuzo zokusetshenziswa kwe-ESR ephansi kakhulu (5mΩ) kanye nomsinga wokuvuza ophansi kakhulu (≤5μA), anikeza izinzuzo ezintathu ezibalulekile, okuvumela amakhasimende ukuthi akhethe ngokusekelwe ezidingweni zawo zomklamo.
· Ukufakwa Kwe-Ceramic Capacitor:Ibhekana nenkinga "yokukhala" kwama-capacitor e-ceramic ngaphansi kwemisinga ephezulu, isusa umsindo wokudlidliza ovame kakhulu obangelwa umphumela we-piezoelectric.
· Ukufakwa esikhundleni kwe-Tantalum Capacitor:Izindleko Ezingcono Kakhulu: Uma kuqhathaniswa nama-capacitor e-polymer tantalum, ama-capacitor e-electrolytic e-polymer solid aluminium anezingqimba eziningi anikeza isisombululo sokuhlunga esingabizi kakhulu nesisebenza kahle kakhulu. I-ESR yabo ephansi kakhulu inikeza amabhange kagesi amandla aphezulu okuhlukanisa amaza aphezulu kanye nokumunca ugesi we-ripple. Aphinde anciphise izingozi zokuhluleka kwe-short-circuit zama-capacitor e-polymer tantalum, anikeze ukuphepha okwengeziwe.
· Ukufakwa Kwe-Solid Capacitor:Ibhekana nezingqinamba zemvamisa ephezulu: Ngaphansi kwezimo zokusebenza zokushaja okusheshayo kanye nezimvamisa ephezulu, inikeza ukusebenza okuphezulu kakhulu kuma-capacitor aqinile endabuko, angaba nezinkinga zokusebenza. I-ESR yayo ephansi kakhulu (5mΩ) kanye nezici zayo ezinhle kakhulu zemvamisa ephezulu ziqinisekisa ukuhlunga okusebenzayo nokuzinzile njalo.
- Izincomo Zokukhetha -
ISIPHETHO
I-YMIN ivikela ukuphepha ngobuciko futhi iqhuba ukuthembeka ngekhwalithi. Ukukhetha kwe-Xiaomi ama-capacitor e-YMIN ebhange layo lamandla angu-3-in-1 kuwubufakazi bokuthembeka kwethu okuphezulu kanye nekhwalithi ephezulu.
Sinikeza ukukhetha okuphelele kwama-capacitor athembeke kakhulu, ahlanganisa izimo ezibalulekile zohlelo lokusebenza njengezindawo zokufaka/zokukhipha amandla ebhange lamandla. Lokhu kusiza amakhasimende ukuthi abhekane kalula nezinselele zokuklama futhi ahlangabezane nezidingo eziqinile zesitifiketi se-3C.
Isikhathi sokuthunyelwe: Agasti-07-2025