I-Digitalization ibe yinto eqhelekileyo kuluntu lwanamhlanje, kwaye amaziko edatha kunye neeseva zidlala indima ebalulekileyo. Iiseva zeDijithali kufuneka zibe nokuthembeka okuphezulu kunye nokusetyenziswa kwamandla aphantsi ukuhlangabezana neemfuno zokusetyenzwa kweedatha ezininzi ngokukhawuleza nangokuchanekileyo. Ngotshintsho lwedijithali lwamashishini kunye nokuthandwa kobuchwepheshe bekhompyutha yefu, kunye nophuhliso olukhawulezayo lobuchwepheshe obuvelayo obufana nedatha enkulu, i-5G, i-intelligence yokwenziwa kunye ne-Intanethi yeZinto, imfuno yemarike yomncedisi ibonise ukunyuka okubukhali. Ubungakanani bemarike yeseva yedijithali yehlabathi iya kuqhubeka ikhula kwiminyaka embalwa ezayo. Gcina ukukhula okuzinzileyo.
Xa umncedisi esebenza, uya kuvelisa ngoku ngokugqithisileyo kakhulu (umatshini omnye unokufikelela ngaphezu kwe-130A). Phakathi kwazo, i-laminated capacitors eqinileyo ejikeleze ii-CPU zeseva kunye namakhadi emizobo adlala indima ebalulekileyo ekugcineni amandla kunye nokucoca. I-capacitor ye-polymer elaminethiweyo inokuthatha ngokupheleleyo i-voltage ephezulu kwaye igweme ukuphazamiseka kwisekethe, ngaloo ndlela iqinisekisa ukuphuma okugudileyo kunye nokuzinza komncedisi. I-capacitor yepolymer elaminethiweyo nayo inokumelana ne-ripple eyomeleleyo yangoku kunye nokuzifudumeza okuphantsi, iqinisekisa ukuba umatshini wonke unosetyenziso oluphantsi lwamandla.
YMIN elaminethiweyo polymer capacitorMPSuchungechunge lunexabiso eliphantsi le-ESR (ubuninzi be-3mΩ) kwaye lihambelana ngokupheleleyo nochungechunge lwe-Panasonic GX.
I-YMIN elaminethiweyo i-polymer capacitors inokuqina okuphezulu kunye nokuthembeka, inika inkxaso eyomeleleyo kuphuhliso olukhawulezayo lweshishini leseva yedijithali.
Ixesha lokuposa: Jun-19-2024