Enkathini yezikhukhula zedatha, yiziphi izivivinyo zokuphila nokufa abashayeli bezinga lebhizinisi eliqinile ababhekana nazo?
Kumagagasi okwenziwa kwedijithali, amadrayivu e-solid state level yebhizinisi afana “ne-digital granary” yezikhungo zedatha, ephethe idatha yebhizinisi ewumongo nezimfihlo zezentengiselwano.
Nokho:
Ukunqamuka kukagesi kuyizinhlekelele - ukuphela kukagesi kungazelelwe kungase kubangele ukulahleka kwedatha yenqolobane kanye nokuphazamiseka kwebhizinisi;
Ukushintshashintsha kwamanje kufana namadwala - ukushaqeka kwamanje ngesikhathi sokufunda nokubhala okunemvamisa ephezulu kusongela impilo yehadiwe nokuzinza;
Izinselele ezinzima zemvelo - izinga lokushisa eliphezulu, ukudlidliza, kanye nemithwalo ephakeme yesikhathi eside kusheshisa ukuwohloka kokusebenza kwengxenye;
Konke lokhu kungase kubeke idatha eyigugu engozini "yenhlekelele".
Ama-Tantalum capacitor, “njengabaphelezeli abanokwethenjelwa” bezinga lebhizinisi lokushayela okuqinile, akha ulayini wokuvikela ongashabalali wokuvikela idatha ngesitoreji sawo samandla esihle kakhulu, ukuqina kwamandla kagesi kanye namandla okulwa nokuphazanyiswa.
Bona ukuthi i-YMIN tantalum capacitor iba kanjani "onogada bokuphepha" bezinga lebhizinisi le-solid state drives
Amakhono amathathu abalulekile athinta ngqo amaphuzu obuhlungu embonini:
01 Ukuvikelwa kokucisha kunquma ukunqoba
Iphuzu lobuhlungu: Ama-capacitor endabuko anesitoreji samandla esinganele, futhi ukuhlenga idatha ye-cache kwehluleka ngesikhathi sokuhamba kwamandla;
YMIN tantalum capacitorskhulula amandla anele kumzuzu wokuvala amandla we-millisecond ukuze uqinisekise ukuthi idatha ibhalwe ngokugcwele kumemori ye-flash ye-NAND, ukugwema inhlekelele "yesekhondi lokugcina".
02 Ukuqiniswa kwamandla kagesi nokuhlunga, ukulawula “isilo samanje”
Iphuzu lobuhlungu: I-chip yokulawula eyinhloko ye-SSD kanye nenqolobane ye-DRAM ihlangabezana nokushaqeka kwamanje kwe-high-frequency current, futhi ukushintshashintsha kwe-voltage kubangela ukudideka kwedatha;
I-YMIN tantalum capacitor ine-ESR ephansi, engacindezela ngokuphumelelayo umsindo wokunikezwa kwamandla futhi inikeze amandla kagesi "abushelelezi" ezingxenyeni ezibalulekile; ubuchwepheshe bayo be-polymer be-conductive bungahlunga ngokunembile ukuphazamiseka ngesivinini sokuphendula se-high-frequency, ukufanisa nezidingo zokufunda nokubhala kwe-ultra-high-high-high zamadrayivu e-solid state ebhizinisi.
03 Ihlala isikhathi eside futhi inokwethenjelwa, engesabi izinselele ezinkulu
Iphuzu lobuhlungu: Ukuphila kwama-capacitor avamile wendabuko kuncishiswa kakhulu ngaphansi kokushisa okuphezulu nokudlidliza, okudonsela phansi ukuzinza kwe-SSD;
Ama-capacitor e-YMIN tantalum athembeke kakhulu, amelana ne-voltage ephezulu kakhulu, futhi anamandla amakhulu. Banomthamo ozinzile ngaphansi kokushaja nokukhishwa njalo, ukujwayela indawo enzima yezikhungo zedatha, futhi banokukhipha okuzinzile amahora angu-7 × 24; ukuminyana okuphezulu konga u-70% wesikhala, kusiza ukuthuthukiswa kwe-SSD miniaturization; ngomoya ophansi ubhekane nokucisha ugesi njalo futhi unciphise izindleko zokusebenza nezokulungisa.
I-YMIN conductive polymer tantalum capacitor isincomo sokukhetha
Ukuthembeka okuphezulu: Imelana namazinga okushisa aphezulu ukuze kuqinisekiswe ukusebenza okuzinzile kwesikhathi eside kwemishini yezinga lebhizinisi ngaphansi komthwalo omkhulu; inokudlidliza okuhle kakhulu nokumelana nokushaqeka, ivumelana kalula nesimo esinzima sezikhungo zedatha, futhi yenza iminikelo ebalulekile ejubaneni lokucubungula idatha nokuthembeka kwama-SSD.
I-ESR ephezulu ye-ripple yamanje nephansi: I-Ultra-high ukumelana ne-voltage engu-100V max ingamelana nomthamo omkhulu wamanje ukuze kuqinisekiswe ukuphuma kwamandla kagesi okuzinzile; low equivalent series resistance (ESR) kuhlanganiswe nezici ze-high-frequency kunciphisa ngempumelelo ukulahlekelwa kwamandla, kuthuthukisa ukusebenza kahle kokuhlunga, futhi kuhlunga ngokunembile umsindo we-high-frequency, ehlangabezana nezidingo zokucubungula idatha ye-SSD ngesivinini esikhulu.
Ubuningi bomthamo ophezulu kanye nempilo ende: Ihlinzeka ngenani elikhulu le-capacitance endaweni encane kunazo zonke, ithuthukisa ukuhlanganiswa nokusetshenziswa kwesikhala kwawo wonke umshini; inokushaja okude nempilo yomjikelezo wokuphuma, futhi ingabhekana ngokuzolile nokucisha kukagesi okuvamile.
Kungani i-tantalum capacitor iyadingeka ukuze igcinwe esikhathini esizayo
Ngokuqhuma kwamandla ekhompiyutha ye-AI, amadrayivu e-solid-state aleveli yebhizinisi abhekene nezinselelo ezidlulele zokusetshenziswa kwamandla okuphezulu kanye nesivinini esisheshayo.
Ama-capacitor e-Tantalum asebenzisa ukwethembeka njengesihlangu nokusebenza njengomkhonto ukuze akhe ulayini wokuvikela wedatha "ongalokothi ungaxhunyiwe ku-inthanethi" wezikhungo zedatha, okwenza ukusebenza kahle kwesitoreji nokuvikeleka kube yinzuzo yokuncintisana ngempela yamabhizinisi!YMIN tantalum capacitorshhayi kuphela ukuxazulula ngokuphelele izinkinga zokunikezwa kwamandla ezibhekene nezinga lebhizinisi eliqinile lokushayela, kodwa futhi faka i-booster ekusebenzeni okuzinzile kwezikhungo zedatha.
Isikhathi sokuthumela: Jun-07-2025