Ukuhlangabezana nezidingo zokuphepha zemithethonqubo emisha ye-3C: Ukuhlaziya indima ebalulekile yama-capacitor e-electrolytic e-YMIN polymer hybrid aluminum ezimpahleni zamandla eselula

Ukuhlangabezana nezidingo zokuphepha zemithethonqubo emisha ye-3C: Ukuhlaziya indima ebalulekile yama-capacitor e-electrolytic e-YMIN polymer hybrid aluminum ezimpahleni zamandla eselula

Muva nje, i-State Administration for Market Regulation iqalise uhlelo olukhulu lokuhoxisa izinsiza zikagesi eziphathwayo ezingenazo izimpawu ze-3C/ama-logo angacacile, kanti imikhiqizo engaphezu kuka-500,000 isusiwe emashalofini ngenxa yezingozi zokuphepha.

Abakhiqizi basebenzisa amaseli ebhethri aphansi, okuvame ukuholela ezinkingeni ezifana nokushisa ngokweqile, amandla angamanga, kanye nokuncipha okukhulu kokuphila kwamandla kagesi eselula. Ngakho-ke, izingxenye ezinokwethenjelwa okuphezulu ezihlangabezana nemithethonqubo emisha ye-3C ziba yisici esiyinhloko ekuphepheni nasekusebenzeni kahle kwamandla kagesi eselula.

Ama-capacitor e-electrolytic e-aluminium hybrid polymer angu-01 YMIN

Enkathini yeselula yokuphishekela ukuphatheka okukhulu kanye nokuphila kwebhethri okuhlala isikhathi eside, izinsiza zamandla eselula sezibe ngumlingani obalulekile. Kodwa-ke, izinsiza zamandla eselula zisasebenzisa amandla amaningi, ukushisa, kanye nokuphazamiseka ekuthwaleni, okuthinta ulwazi lomsebenzisi ngisho nokuphepha.

Ama-capacitor e-electrolytic e-aluminium hybrid polymer e-YMINukuxazulula lezi zinkinga ngokunembile futhi udale inani elibalulekile lezinto ezisetshenziswayo zamandla eselula:

Ukuvuza okuphansi kwamanje:

Amandla kagesi weselula alahleka buthule uma engasebenzi futhi elindile, futhi amandla awanele uma esetshenziswa. Ama-capacitor e-YMIN polymer hybrid aluminium electrolytic anezici zamanje zokuvuza eziphansi kakhulu (zingaba ngaphansi kuka-5μA), okucindezela ngempumelelo ukuzikhipha kwedivayisi uma ingasetshenziswa. Iqaphela ngempela "ukuyithatha bese uyisebenzisa, isikhathi eside" kwamandla eselula.

I-ESR ephansi kakhulu:

Ama-capacitor e-electrolytic e-aluminium e-YMIN polymer ane-ESR ephansi kakhulu kanye nezici zokuzifudumeza eziphansi kakhulu. Ngisho nangaphansi kwezimo zamanje ezinkulu ezibangelwa ukushaja okusheshayo, kungcono kakhulu kunenkinga enkulu yokuzifudumeza yama-capacitor avamile ngaphansi kwe-ripple ephezulu. Kunciphisa kakhulu ukukhiqizwa kokushisa lapho kusetshenziswa amandla eselula, futhi kunciphisa ingozi yokukhukhumala nomlilo.

Ubuningi bomthamo ophezulu:

Uma uklama amandla eselula ukuze kufinyelelwe umthamo ophezulu, kuvame ukuholela kumthamo oweqile, okuba umthwalo wokuhamba. Ngaphansi komthamo ofanayo, inani lomthamo wama-capacitor e-polymer hybrid aluminum electrolytic lingakhushulwa ngo-5% ~ 10% uma kuqhathaniswa nama-capacitor e-polymer solid aluminum electrolytic endabuko; noma ngaphansi kwesisekelo sokunikeza umthamo ofanayo, umthamo we-capacitor wehliswa kakhulu. Yenza kube lula ukufeza amandla eselula amancane kanye nokuncane. Abasebenzisi akudingeki bavumelane phakathi komthamo kanye nokuphatheka kalula, futhi bahambe ngaphandle komthwalo.

02 Isincomo sokukhetha

Isiphetho

I-YMIN polymer hybrid aluminium electrolytic capacitorubuchwepheshe buletha inani eliyinhloko ekuhlinzekweni kwamandla eselula ngobuningi bawo obuphezulu, ukusebenza kahle kokushabalalisa ukushisa kanye nomsinga wokuvuza ophansi kakhulu. Ukukhetha ikhambi elihlonyiswe ngama-capacitor e-polymer hybrid aluminum electrolytic akugcini nje ngokukhetha ingxenye ebalulekile, kodwa futhi nokukhetha ukunikeza abasebenzisi bamandla eselula ulwazi oluphephile, olulula noluhlala isikhathi eside.