Oku kulandelayo yinkcazo yokusetyenziswa kwee-capacitors kwintsimi yokukhanyisa:
1. Ukulungiswa kwezinto zamandla: Ngethuba lokusetyenziswa kwezibane, kunokubakho ingxaki yombane ophantsi kwisiphaluka sezibane, okuya kuchaphazela ubomi benkonzo kunye nomphumo wokukhanyisa izibane.Kule nto, ukulungiswa kwezinto zamandla usebenzisa i-capacitors kuyadingeka.Sebenzisa iimpawu ze-capacitors ukuguqula amandla asebenzayo abe ngamandla asebenzayo, ukuphucula amandla ombane wezibane, kunye nokunciphisa ukulahleka kwamandla ngexesha elinye.Ukulungiswa kwe-Capacitor yezinto zamandla kuyinyathelo eliphambili lokuphucula ukusetyenziswa kwamandla kwezibane kunye nokuqinisekisa umphumo ongcono wokukhanyisa kunye nokuzinza kwezibane.
2. Unyango lokuhambelana kwe-electromagnetic: Kunokubakho imiqondiso yokuphazamiseka kwe-electromagnetic kwisekethe yesibane, eya kuchaphazela ubomi benkonzo kunye nokukhanya kwesibane.Ngesi sizathu, ii-capacitors kufuneka zisetyenziselwe ukusetyenzwa kwe-EMC.IiCapacitors zinokufunxa kwaye ziphelise amaza e-electromagnetic kwisekethe ukuqinisekisa ukuzinza kunye nobomi benkonzo yezibane.
3. Ukulawulwa kokukhanya: IiCapacitors zikwasetyenziswa ngokubanzi ekulawuleni ukukhanya kwezibane.Kwisiphaluka sesibane, i-capacitor inokulawula ukukhanya kwesibane ngokulungelelanisa i-voltage kunye nekhoyo kwisibane.Ukusebenzisa iimpawu ze-capacitors, ukuhamba kwangoku kunye ne-voltage kwisiphaluka kunokutshintshwa ukulawula ukunyuka kunye nokunciphisa ukukhanya.
4. Isihluzi: Ii-Capacitors nazo zingasetyenziswa njengezihluzi kwiisekethe zesibane kwaye zidlala indima ebalulekileyo.Ukusebenzisa iimpawu ze-capacitors, iimpawu ze-clutter kunye neempawu zokuphazamiseka kwisiphaluka zingasuswa ukuze kuqinisekiswe umphumo wokukhanyisa kunye nokuzinza kwezibane.Ekusetyenzisweni kwesiphaluka sesibane, i-capacitor iyinxalenye ebalulekileyo yokucoca kwaye idlala indima ebalulekileyo ekuqinisekiseni ukusebenza okuzinzile kwesiphaluka.
Ngokuqhelekileyo, ii-capacitors zidlala indima ebalulekileyo kwintsimi yokukhanyisa kwaye ziyinxalenye ebalulekileyo yokuqinisekisa ukusebenza okuqhelekileyo kwezibane.IiCapacitors zisetyenziswa ikakhulu kwiimeko eziphambili zesicelo ezifana nokulungiswa kwezinto zamandla, ukusetyenzwa kokuhambelana kwe-electromagnetic, ulawulo lokukhanya kunye nezihluzi.Ngokuqhubela phambili okuqhubekayo kobuchwepheshe bokukhanyisa, ukusetyenziswa kwee-capacitors kuya kwandiswa ngakumbi, kuzisa ulutsha oluninzi kunye nenkqubela phambili yezobuchwepheshe kushishino lokukhanyisa.
Umbane ophezulu wokutshintsha umbane wokukhanyisa uneenzuzo zobunzima bokukhanya, umthamo omkhulu, ukusebenza kakuhle, kunye nobukhulu obuncinci, kodwa ukunikezelwa kwamandla okutshintsha kuya kuvelisa ii-spikes ezinkulu kunye ne-ripples ngexesha lokusebenza.Ukuba i-capacitor yonikezelo lwamandla ayikwazi ukubonelela ngenkxaso eqinile kwimodyuli yamandla, akuyi kuba nzima ukuphepha i-spikes kunye ne-ripples, okubangelwa umonakalo.Ukuze ukusombulula le ngxaki, i-YMIN iqalise iindidi ze-capacitors kunye ne-voltage ephezulu kunye nokuzinza okuphezulu kunye ne-ultra. -iqondo lokushisa eliphantsi kunye nokuzinza okuphezulu, okunokuphucula impembelelo kubomi bokunikezelwa kwamandla okubangelwa ukuphazamiseka okuphezulu kunye ne-ripple enkulu yokutshintshwa kombane ngexesha lokusebenza.
Iimveliso ezinxulumeneyo
Uhlobo lwe-SMD lweAluminium Electrolytic Capacitors
I-Radial Lead Uhlobo lweAluminium Electrolytic Capacitors
IiCapacitors zoMbane ezinomaleko kabini (iiCapacitors eziPhezulu)
Uhlobo lwe-SMD oluqhuba iPolymer Aluminium Solid Electrolytic Capacitors
I-Radial Lead Type Conductive Polymer Aluminium Solid Electrolytic Capacitors
Multilayer Polymer Aluminiyam Solid Electrolytic Capacitors
Uhlobo lwe-SMD oluqhubayo lwePolymer Hybrid Aluminium Electrolytic Capacitors
Uhlobo lweRadial Lead Conductive Polymer Hybrid Aluminium Electrolytic Capacitors
Multilayer Ceramic Capacitors