Ukuthembeka okuphezulu kunye nokusetyenziswa kwamandla aphantsi - iimpawu ezibalulekileyo zeeseva zedijithali. Ii-capacitor ze-electrolytic ze-aluminium eqinileyo ze-laminated ze-YMIN ziyahlangabezana ngokupheleleyo neemfuno.

Ukwenziwa kwedijithali kube yinto eqhelekileyo kuluntu lwanamhlanje, kwaye amaziko edatha kunye neeseva zidlala indima ebalulekileyo. Iiseva zedijithali kufuneka zibe nokuthembeka okuphezulu kunye nokusetyenziswa kwamandla okuphantsi ukuhlangabezana neemfuno zokucubungula idatha eninzi ngokukhawuleza nangokuchanekileyo. Ngotshintsho lwedijithali lwamashishini kunye nokwanda kobuchwepheshe bekhompyutha yelifu, kunye nophuhliso olukhawulezayo lweetekhnoloji ezintsha ezifana nedatha enkulu, i-5G, ubukrelekrele bokwenziwa kunye ne-Intanethi yezinto, imfuno yemarike yeeseva ibonise ukwanda okukhulu. Ubungakanani bemarike yeeseva zedijithali zehlabathi buza kuqhubeka bukhula kwiminyaka embalwa ezayo. Gcina ukukhula okuzinzileyo.

Xa iseva isebenza, iya kuvelisa umbane omkhulu kakhulu (umatshini omnye unokufikelela ngaphezulu kwe-130A). Phakathi kwazo, ii-capacitors eziqinileyo ezibekwe elaminated ezijikeleze ii-CPU zeseva kunye namakhadi emizobo zidlala indima ebalulekileyo ekugcineni nasekuhluzeni amandla. I-capacitor ye-polymer ebekwe elaminated inokufunxa ngokupheleleyo i-voltage ephezulu kwaye iphephe ukuphazamiseka kwisekethe, ngaloo ndlela iqinisekisa ukuphuma okubushelelezi nokuzinzileyo kweseva. I-capacitor ye-polymer ebekwe elaminated ikwanayo ne-super strong ripple current resistance kunye ne-low self-heating, ukuqinisekisa ukuba wonke umatshini usebenzisa amandla aphantsi.

I-capacitor ye-polymer elaminethiweyo ye-YMINI-MPSuthotho lunexabiso eliphantsi kakhulu le-ESR (ubuninzi be-3mΩ) kwaye luhambelana ngokupheleleyo nothotho lwePanasonic GX.

Ii-capacitor ze-polymer ezifakwe i-laminated ze-YMIN ziqinile kwaye zithembekile kakhulu, zibonelela ngenkxaso enamandla yophuhliso olukhawulezayo lweshishini le-server yedijithali.