Ukuhlangabezana neemfuno zokhuseleko zemigaqo emitsha ye-3C: Ukuhlalutya indima ephambili yee-capacitors ze-electrolytic ze-YMIN polymer hybrid aluminium kwizixhobo zamandla eziphathwayo
Kutshanje, i-State Administration for Market Regulation iqalise ukukhupha amandla amakhulu ngaphandle kweelogo ze-3C/iilogo ezingacacanga, kwaye iimveliso ezingaphezu kwama-500,000 zisusiwe kwiishelufu ngenxa yeengozi zokhuseleko.
Abavelisi basebenzisa iiseli zebhetri eziphantsi, nto leyo edla ngokukhokelela kwiingxaki ezifana nokushisa kakhulu, amandla obuxoki, kunye nokuncipha okukhulu kobomi bezixhobo zamandla eziphathwayo. Ke ngoko, izinto ezinokuthembeka okuphezulu ezihlangabezana nemigaqo emitsha ye-3C ziba yeyona nto iphambili ekukhuselekeni nasekusebenzeni kakuhle kwezixhobo zamandla eziphathwayo.
Ii-capacitor ze-electrolytic ze-aluminium ze-polymer ze-YMIN 01
Kwixesha leefowuni eziphathwayo apho kufuneka zithwalwe lula kwaye zihlale ixesha elide, izixhobo zamandla eziphathwayo ziye zaba liqabane elibalulekileyo. Nangona kunjalo, izixhobo zamandla eziphathwayo zisasebenzisa amandla amaninzi, ubushushu, kunye nobunzima ekuthwaleni, nto leyo echaphazela amava omsebenzisi kwanokhuseleko.
Ii-capacitor ze-electrolytic ze-aluminium ze-polymer ze-YMIN polymerukusombulula ezi ngxaki ngokuchanekileyo kwaye wenze ixabiso elibalulekileyo kwizixhobo zamandla eziphathwayo:
Umsinga wokuvuza ophantsi:
Amandla ombane ophathwayo alahleka kancinci xa engasebenzi kwaye elindile, kwaye amandla awonelanga xa esetyenziswa. Ii-capacitor ze-YMIN polymer hybrid aluminium electrolytic zineempawu zamandla okuvuza aphantsi kakhulu (zinokuba ngaphantsi kwe-5μA okanye ngaphantsi), nto leyo ethintela ngokufanelekileyo ukuzikhupha kwesixhobo xa singasetyenziswa. Iyaziqonda ngokwenene "ukuyithatha kwaye uyisebenzise, i-standby ehlala ixesha elide" yamandla ophathwayo.
I-ESR esezantsi kakhulu:
Ii-capacitor ze-aluminium ze-YMIN polymer hybrid electrolytic zine-ESR ephantsi kakhulu kunye neempawu zokuzifudumeza eziphantsi kakhulu. Kwanaphantsi kweemeko zamandla amakhulu e-ripple ezibangelwa kukutshaja ngokukhawuleza, ingcono kakhulu kunengxaki enkulu yokuzifudumeza yee-capacitors eziqhelekileyo phantsi kwe-ripple ephezulu. Inciphisa kakhulu ukuveliswa kobushushu xa kusetyenziswa umbane ophathwayo, kwaye inciphisa umngcipheko wokudumba nomlilo.
Uxinano oluphezulu lomthamo:
Xa kuyilwa amandla eselula ukuze kufezekiswe amandla aphezulu, oku kudla ngokukhokelela kumthamo omkhulu, nto leyo eba ngumthwalo wokuhamba. Phantsi komthamo ofanayo, ixabiso lomthamo wee-capacitors ze-polymer hybrid aluminum electrolytic linokwandiswa nge-5% ~ 10% xa kuthelekiswa nee-capacitors ze-polymer solid aluminum electrolytic zemveli; okanye phantsi kwengcamango yokubonelela ngomthamo ofanayo, umthamo we-capacitor uncitshiswa kakhulu. Yenza kube lula ukuba amandla eselula afikelele kwi-miniaturization kunye ne-thin. Abasebenzisi akufuneki bavumelane phakathi komthamo kunye nokuthwaleka, kwaye bahambe ngaphandle komthwalo.
02 Ingcebiso yokukhetha
Isiphelo
I-YMIN polymer hybrid aluminium electrolytic capacitorItekhnoloji izisa ixabiso eliphambili kumbane ophathwayo ngenxa yobuninzi bawo obuphezulu bomthamo, ukusebenza kakuhle kokusasaza ubushushu kunye nomsinga wokuvuza ophantsi kakhulu. Ukukhetha isisombululo esixhotyiswe ngee-capacitors ze-polymer hybrid aluminium electrolytic akukokukhetha nje kuphela into ephambili, kodwa nokukhetha ukubonelela abasebenzisi bamandla ophathwayo ngamava akhuselekileyo, alula ngakumbi kwaye ahlala ixesha elide.
Ixesha leposi: Julayi-21-2025