Uma usebenzisa ikhompuyutha ephathekayo yakho ukuze uhlele kahle amavidiyo e-4K futhi udlale imidlalo ye-3A enencazelo ephezulu, ingabe wake wazibuza ukuthi ubani oqinisekisa buthule ukuqina kwamandla ngemuva kwezigcawu? Namuhla, ngomzimba omncane kanye nokusebenza okunamandla, ama-laptops abhekene nezinselele ezimbili "zamandla amancane kakhulu futhi alula, namandla anamandla". Kusukela ekuphathweni kwamandla kuya ekusebenzeni kwemvamisa ephezulu, kusukela ezinkingeni zokukhipha ukushisa kuya ekukhawulweni kwesikhala, sonke isixhumanisi sihlola ukusebenza kwezingxenye eziyinhloko.
Umkhuzi ngemuva kwalokhu yi-tantalum capacitor enobude obungamamilimitha ambalwa kuphela.
Ama-capacitor e-Tantalum, “njengenhliziyo kagesi” yamakhompuyutha aphathekayo, abe ikhodi ebalulekile yokuvula amakhompyutha aphathekayo asebenza kahle ngokuzinza kwawo okuhle kakhulu, ukwenza okuncane ngokwedlulele kanye nokuvumelana nezimo kwemvelo okuqinile.
Bona ukuthi i-tantalum capacitor iba kanjani “injini eyi-stealth super” yamabhuku okubhalela
I-YMIN i-polymer conductivetantalum capacitorssebenzisa ubuchwepheshe obuthathu obuqinile ukuze bakhe kabusha ukuzinza kwesistimu yamandla:
Ubuchwepheshe 1: Ukuqina kwamandla kagesi okwedlulele, ukulawula i-CPU
Amaphuzu obuhlungu: Ukushintsha komthwalo kungazelelwe ngesikhathi sokuhlela/imidlalo kubangela i-voltage jitter, ukuklebhuka kwesikrini, nokuphahlazeka kohlelo; Ukusebenza kwe-CPU ephezulu-frequency kukhiqiza "ukungcoliswa kwe-electromagnetic" futhi kuphazamise ukuhlanzeka kwesignali.
Ama-capacitor e-YMIN tantalum asebenzisa izici eziphansi ze-ESR ukuze afinyelele impendulo yezinga le-millisecond ukuze ashintshe izinguquko, alawule ngokunembile okwamanje ngesikhathi sokuguqulwa komthwalo, futhi athole amandla amsulwa okunikezwa kohlaka ngalunye; ngesikhathi esifanayo, idizayini yayo yokumelana nomthamo ophezulu we-ultra-high iba “ungqimba lwamanje lwebhafa”, olungamelana nangaphezulu kuka-50% womthelela wamanje osheshayo, futhi kuqede ngokuphelele ukungingiza nokuklebhuka ngesikhathi sokunikezwa kwekhwalithi ephezulu. Futhi isebenzisa izici zokuhlunga ze-Ultra-wideband ukuze kuqedwe ukuphazamiseka kozibuthe okukhiqizwa yi-CPU ngesikhathi sangempela, inikeze ukuhlinzekwa kwamandla okuzinzile nokumsulwa kwe-CPU.
Ubuchwepheshe 2: Ukupakishwa kweleveli yemilimitha, cindezela yonke iyintshi yesikhala sebhodi lomama
Iphuzu lobuhlungu: Ama-capacitor endabuko athatha indawo eningi kakhulu, avimbela ukwakheka kokunciphisa nokushisa kwama-laptops;
Ama-capacitor e-YMIN tantalum anomklamo omncane kakhulu ongu-1.9mm: 40% mancane kunama-polymer aluminium capacitor, futhi angashumekwa kalula kuma-ultrabooks/amadivayisi asongekayo wesikrini; nakuba zincane, zingakwazi ukumelana nokuhlolwa, futhi ukubola kwamandla kuncane kakhulu ezindaweni zokushisa eziphakeme zesikhathi eside, ezinzile futhi ezinokwethenjelwa.
Ubuchwepheshe 3: Akukho ukwesaba ukushisa okuphezulu
Iphuzu lobuhlungu: Izinga lokushisa langaphakathi lencwajana yokudlala likhuphukela ku-90℃+, futhi ama-capacitor ajwayelekile ahluleka ukuvuza futhi abangele izikrini eziluhlaza okwesibhakabhaka;
YMIN tantalum capacitorssebenza ngokuqhubekayo ku-105℃ izinga lokushisa eliphezulu: inhlanganisela yezinto zokwakha ze-tantalum + polymer, futhi ukumelana nokushisa kuchoboza ama-electrolytic capacitor endabuko.
Ama-YMIN tantalum capacitor, inhliziyo yamandla yamakhompuyutha aphathekayo, ayanconywa ukuthi akhethwe
Izinzuzo zomkhiqizo:
I-ESR Ephansi: Lungiselela ukuhlunga phakathi namabhendi emvamisa ephezulu, lungisa ngokushesha okwamanje lapho umthwalo ushintsha ngokuzumayo, futhi ungamelana namaza amakhulu okunyakazisa ukuze uqinisekise ukuzinza kwe-voltage; donsa i-peak voltage ukunciphisa ukuphazamiseka kumjikelezo.
Idizayini emincane kakhulu kanye nokuminyana komthamo omkhulu: Amandla amakhulu angafinyelelwa ngevolumu yeyunithi ngayinye, ehlangabezana nezidingo zamalaptops ama-miniaturized, umthamo omkhulu, ama-capacitor asebenza kakhulu, okwenza kube ukukhetha okukhangayo.
Ukuzifudumeza okuphansi nokuzinza okuphezulu: Ibanga lokushisa elibanzi -55℃- +105℃, uhlobo lwamanje lokuvuza oluphansi kanye nohlobo olumelana nokugqwala. Ezimweni ezishisa kakhulu ezifana nama-laptops amageyimu, ama-tantalum capacitor athembele ekumelaneni nokushisa okuphezulu kanye nezici zokuziphilisa ukuze kuqinisekiswe ukuzinza kwepharamitha ezindaweni zokushisa okuphezulu nokwandisa impilo yesevisi yemishini.
Isifinyezo
Njengoba amakhompyutha aphathekayo eqhubeka nokuguqukela ekubeni mncane nokusebenza okuphezulu, ama-tantalum capacitor abehlale esebenzisa ubuchwepheshe obusha ukuze aphule izingqinamba zemboni. Kungakhathaliseki ukuthi ixazulula ukuphazamiseka komsindo wemvamisa ephezulu, ukulinganisa ukungqubuzana phakathi kokusetshenziswa kwamandla namandla, noma ukugcina ukuzinza ezindaweni zokushisa okuphezulu, ama-tantalum capacitor abonise izinzuzo ezingenakubuyiseleka.
Umncintiswano wokusebenza kwe-notebook ungene enkathini "ye-nano-level power supply". Ama-capacitor e-YMIN tantalum achaza kabusha imingcele yokwethembeka yesistimu yamandla okwenza konke ukunikezwa kanye nalo lonke uhlaka lwegeyimu luqine njengetshe, lijova umfudlana wamandla oqhubekayo kumakhompyutha aphathekayo ngesimo "senhliziyo yamandla", okuqhubezela ulwazi lobuchwepheshe endaweni entsha.
Isikhathi sokuthumela: May-28-2025