I-ESR ephantsi kakhulu, ukumelana okunamandla kwe-ripple, kunye nokumelana nemisinga yokuphuma kwamandla engaphezulu kwe-20A—Ii-YMIN Capacitors ziba yintsika ephambili yeenkqubo zamandla zesikhululo se-5G.
Kwixesha le-5G, iinkqubo zamandla ezikhululo ezisisiseko zijongene nemingeni engakaze ibonwe ngaphambili: ukuguquguquka kwamandla aphindaphindayo, ukunyuka kwamandla aphezulu ngoko nangoko, kunye neemfuno ezingqongqo zokusingqongileyo. Le mingeni ifuna izixhobo ze-elektroniki ezinamandla ngakumbi, kwaye ii-capacitors, njenge "zinzisa" inkqubo yamandla, zimisela ngokuthe ngqo ukuthembeka nokusebenza kakuhle kwezikhululo ezisisiseko ze-5G.
Ii-capacitors ze-aluminium eziqinileyo ze-YMIN (uthotho lwe-VPL) kunye nee-capacitors ze-aluminium eziqinileyo ze-aluminium ezixutyiweyo (uthotho lwe-VHT), ezine-ESR yazo ephantsi kakhulu, ukumelana okunamandla kwe-ripple, kunye nokukwazi ukumelana nomsinga we-surge ophezulu kakhulu, zihlangabezana ngokugqibeleleyo neemfuno zezikhululo zesiseko ze-5G.
Iingenelo ezintlanu eziphambili zee-capacitors ze-YMIN zizenza zivelele kwizicelo zamandla ze-5G: i-ESR yochungechunge lwe-VPL kunye ne-VHT inokuba phantsi njenge-6 milliohms, igcina ngokufanelekileyo ukunyuka kobushushu obuphantsi kakhulu kwaye inike amandla okucoca anamandla. Ii-capacitors zayo ngazinye zinokumelana nemisinga yokuvuza engaphezulu kwe-20A, zikhusela ngokufanelekileyo izitishi zesiseko kumonakalo obangelwa kukuvuza kombane ngephanyazo.
Ezi capacitors zinobomi obungaphezulu kweeyure ezingama-4000 kwi-105℃, zihlangabezana neemfuno zokusebenza kweminyaka engaphezu kweshumi kwizicelo ezisebenzayo, ziqinisekisa ukusebenza okuzinzileyo kwexesha elide kwezikhululo zesiseko. Nokuba emva kokusebenza ixesha elide, izinga lokutshintsha kwamandla azo alidluli kwi--10%, kwaye utshintsho lwe-ESR lwazo aludluli kwi-1.2 yexabiso lokuqala.
Ii-capacitor ze-YMIN zikwanobuninzi be-capacitance density kunye nobukhulu obuncinci kakhulu, nto leyo eyenza ukuba zilungele iimfuno zoyilo oluncinci lwezikhululo zesiseko ze-5G ngaphakathi kwendawo encinci.
Uvavanyo lokuthelekisa olwenziwe ngumsebenzisi othile lubonisa ukuba izikhululo zesiseko ze-5G ezisebenzisa ii-capacitors ze-aluminium electrolytic eziqinileyo zibonisa ukwehla okuphakathi kwe-15% kwi-latency yesiginali kunye nokunyuka kwe-22% kwisantya sokuxhumanisa kubasebenzisi abakwindawo efanayo yokugubungela. Oku akuphuculi nje kuphela amava omsebenzisi kodwa kukwabonelela ngesiseko sonxibelelwano esithembekileyo kwizicelo eziphezulu ezifana ne-Industrial Internet kunye nokuqhuba ngokuzimela.
Njengoko iinethiwekhi ze-5G ziphuhla zisiya kwiibhendi eziphezulu zefrikhwensi kunye nokufakwa kwenethiwekhi exineneyo, ii-capacitors ze-YMIN ziya kuqhubeka nokubonelela ngenkuthazo enamandla ekwakhiweni kwesikhululo sesiseko se-5G ngeempawu zazo zombane eziphezulu kunye nomgangatho othembekileyo, zibe yinxalenye ebalulekileyo kwicandelo lonikezelo lwamandla lwe-5G.
Ixesha leposi: Novemba-07-2025