Ngophuhliso olukhawulezayo lolungiselelo lwekhonkco elibandayo, inkqubo yonikezelo lwamandla kwizikhongozeli ezifakwe efrijini ibeke phambili iimfuno eziphezulu zozinzo, ukumelana nemozulu kunye nokhuseleko.
I-YMIN capacitors ibonelela ngezisombululo ezisebenzayo zolawulo lwamandla kwizikhongozeli ezifakwe efrijini kunye noxinzelelo lwazo oluphezulu, i-ESR ephantsi (ukumelana nochungechunge olulinganayo), ukuxhathisa okuphezulu kwangoku, ubomi obude kunye nokuguquguquka okubanzi kobushushu, kunceda ukufezekisa ulawulo oluchanekileyo lobushushu kunye nokusetyenziswa kakuhle kwamandla.
1. Ukuphucula ukuzinza konikezelo lwamandla kunye nokuqinisekisa ukusebenza kwenkqubo yefriji
Isikhenkcezisi esingundoqo sesikhongozeli sefriji kufuneka siqhubeke kwaye sinikwe amandla ngokuzinzileyo ukuze kugcinwe indawo yokushisa ephantsi. I-YMIN's substrate-based self-supporting aluminium electrolytic capacitors (ezifana ne-CW3 / CW6 series) zine-voltage ephezulu yokumelana kunye ne-ESR ephantsi (iimpawu, ezinokuthatha ngokufanelekileyo ukuguquguquka kombane kunye ne-spikes zangoku, ukuqinisekisa ukusebenza okuzinzile kweyunithi yesikhenkcisi ngexesha lokumisa rhoqo okanye utshintsho lomthwalo.
2. Ukumelana nemozulu kunye nobomi obude, ukulungelelanisa kwiindawo ezinzima
Izikhongozeli ezifakwe efrijini zihlala zijongana nemingeni efana nobushushu obuphezulu, ukufuma kunye nokungcangcazela. I-YMIN's conductive polymer tantalum capacitors zisebenzisa izinto ezikwaziyo ukumelana nomhlwa, zixhasa ukusebenza kobushushu obubanzi, kwaye zinobomi obungaphezu kweeyure ezingama-2,000.
Kwangaxeshanye, i-laminated polymer capacitors eqinile inciphisa ukulahleka kwamandla kwi-high-frequency switching circuit kwibhokisi ngokusebenzisa i-ultra-low ESR kunye neempawu zokumelana ne-ripple yangoku, ukuphepha ukuthotywa kokusebenza okubangelwa ukunyuka kwamaqondo obushushu, kunye nokulungelelanisa kwimodyuli yokulawula ubushushu obukrelekrele bebhokisi yesokhethi yamandla efriji.
3. Ukuxhasa ulawulo olukrelekrele kunye nokhuseleko lokhuseleko
Izikhongozeli zale mihla ezifrijiweyo zidibanisa izinzwa ze-IoT kwaye kufuneka zibeke iliso kubushushu, ukufuma kunye nezinye iiparamitha ngexesha lokwenyani. Ii-capacitors zefilimu ze-YMIN zine-voltage ephezulu yokumelana kunye neempawu eziphantsi zokuvuza zangoku, ukubonelela ngokucofa okuzinzile kwisiphaluka sokulawula kunye nokuqinisekisa ukuthembeka kokufunyanwa kwedatha kunye nokuhanjiswa.
Ukongeza, i-aluminium electrolytic capacitor yayo engamanzi inobomi beeyure ezingama-10,000 kwi-105°C. Ngoyilo lokhuseleko lomthwalo ogqithisiweyo, inokuthintela iingozi zokhuseleko ezibangelwa yisekethe emfutshane okanye ukuvuza, ukuhlangabezana neemfuno ezifunekayo zokhuseleko lombane kwizikhongozeli ezifakwe efrijini.
4. Ukwandisa indawo kunye nokusebenza kakuhle kwamandla ukukhuthaza ukuhanjiswa kohlaza
Idizayini encinci ye-YMIN capacitor ilungelelanisa ukucwangciswa kombane odibeneyo webhokisi efrijini, ngelixa unciphisa inani lamacandelo angenayo kunye nokusetyenziswa kwamandla kwenkqubo ngokusebenzisa ubuninzi bomthamo ophezulu.
Kwicala lokugcina amandla, imodyuli ye-supercapacitor isekela ukutshaja ngokukhawuleza kunye nokukhutshwa, okunokugcina ukusebenza kwenkqubo yefriji ngexesha lokuguquguquka kwegridi okanye ukuphuma kwamandla okufutshane, ukuphepha umonakalo wempahla, kunye nokuphucula ukusebenza kakuhle kwamandla.
Isishwankathelo
I-YMIN capacitor inikezela ngesisombululo esipheleleyo kwiibhokisi zefriji ezivela kwigalelo lamandla, i-buffer yokugcina amandla kulawulo oluhlakaniphile ngokusebenzisa i-synergy yeemveliso ezininzi zeemveliso, ukuphucula kakhulu ukuthembeka, ukulungelelaniswa kokusingqongileyo kunye nokusebenza kwamandla kwezixhobo.
Ixesha lokuposa: May-09-2025