Ukwenziwa kwedijithali sekuyinto evamile emphakathini wanamuhla, futhi izikhungo zedatha namaseva adlala indima ebalulekile. Amaseva edijithali adinga ukuthembeka okuphezulu kanye nokusetshenziswa kwamandla okuphansi ukuze ahlangabezane nezidingo zokucubungula idatha eningi ngokushesha nangokunembile. Ngokuguqulwa kwedijithali kwamabhizinisi kanye nokwanda kobuchwepheshe be-cloud computing, kanye nentuthuko esheshayo yobuchwepheshe obusha njenge-big data, i-5G, ubuhlakani bokwenziwa kanye ne-Internet of Things, isidingo semakethe yamaseva sibonise ukwanda okukhulu. Ubukhulu bemakethe yamaseva edijithali yomhlaba wonke buzoqhubeka nokukhula eminyakeni embalwa ezayo. Gcina ukukhula okuzinzile.
Uma iseva isebenza, izokhiqiza ugesi omkhulu kakhulu (umshini owodwa ungafinyelela ngaphezu kuka-130A). Phakathi kwawo, ama-capacitor aqinile abekwe elaminated azungeze ama-CPU eseva namakhadi ehluzo adlala indima ebalulekile ekugcineni nasekuhlungeni amandla. I-capacitor ye-polymer ebekwe elaminated ingamunca ngokuphelele i-voltage ephezulu futhi igweme ukuphazamiseka kwesekethe, ngaleyo ndlela iqinisekise ukuphuma okubushelelezi nokuzinzile kweseva. I-capacitor ye-polymer ebekwe elaminated nayo inokumelana okunamandla kakhulu kwe-ripple current kanye nokuzifudumeza okuphansi, okuqinisekisa ukuthi wonke umshini usebenzisa amandla aphansi.
I-capacitor ye-polymer elaminethiwe ye-YMINI-MPSuchungechunge lunenani eliphansi kakhulu le-ESR (ubuningi obungu-3mΩ) futhi luhambisana ngokugcwele nochungechunge lwe-Panasonic GX.
Ama-capacitor e-polymer alaminated e-YMIN aqinile futhi athembekile kakhulu, anikeza ukwesekwa okuqinile kwentuthuko esheshayo yemboni yeseva yedijithali.
Isikhathi sokuthunyelwe: Juni-19-2024