Ngokuthuthuka okusheshayo kwe-cold chain logistics, uhlelo lokunikezwa kwamandla kagesi weziqukathi eziqandisiwe selubeke phambili izidingo eziphakeme zokuzinza, ukumelana nesimo sezulu kanye nokuphepha.
Ama-capacitor e-YMIN ahlinzeka ngezixazululo eziphumelelayo zokuphathwa kwamandla eziqukathi eziqandisiwe ezinomthamo wazo omkhulu wokuminyana, i-ESR ephansi (ukumelana nochungechunge olulinganayo), ukumelana nokunyuka kwamanje, impilo ende kanye nokuguquguquka kwezinga lokushisa okubanzi, okusiza ukufeza ukulawulwa okunembile kwezinga lokushisa kanye nokusetshenziswa kwamandla ngendlela efanele.
1. Thuthukisa ukuqina kokunikezwa kwamandla futhi uqinisekise ukusebenza kwesistimu yesiqandisi
Isistimu yesiqandisi eyinhloko yesitsha esiqandisiwe idinga ukuqhutshwa ngokuqhubekayo futhi inikwe amandla ngokuzinzile ukuze kugcinwe indawo yokushisa ephansi. I-YMIN's substrate-based self-supporting aluminium electrolytic capacitor (efana ne-CW3/CW6 series) inevoltheji ephezulu yokubekezelela kanye ne-ESR ephansi (izici, ezikwazi ukumunca ngempumelelo uguquko lwamandla kagesi nezipikhi zamanje, iqinisekise ukusebenza okuzinzile kweyunithi yesiqandisi phakathi noshintsho oluvamile lokumisa noma ukulayisha.
2. Ukumelana nesimo sezulu nokuphila isikhathi eside, ukuzivumelanisa nezimo ezinzima
Iziqukathi ezifakwe esiqandisini zivame ukubhekana nezinselele ezifana nezinga lokushisa eliphezulu, umswakama kanye nokudlidliza. I-YMIN's conductive polymer tantalum capacitor isebenzisa izinto ezimelana nokugqwala, isekela ukusebenza okubanzi kwezinga lokushisa, futhi iphila amahora angaphezu kuka-2,000.
Ngesikhathi esifanayo, ama-capacitor aqinile e-polymer elamine anciphisa ukulahlekelwa kwamandla kumjikelezo we-high-frequency switching circuit ebhokisini ngokusebenzisa i-ultra-low ESR nezici zokumelana ne-ripple yamanje, gwema ukuwohloka kokusebenza okubangelwa ukunyuka kwezinga lokushisa, futhi uvumelane nemojula yokulawula izinga lokushisa ehlakaniphile yebhokisi lebhokisi lamandla esiqandisini.
3. Sekela ukuphathwa okuhlakaniphile nokuvikela ukuphepha
Iziqukathi zesimanje eziqandisiwe zihlanganisa izinzwa ze-IoT futhi zidinga ukuqapha izinga lokushisa, umswakama kanye neminye imingcele ngesikhathi sangempela. Ama-capacitor wefilimu we-YMIN anamandla okumelana ne-voltage aphezulu kanye nezici zamanje zokuvuza okuphansi, ahlinzeka ngokuhlunga okuzinzile kwesifunda sokulawula nokuqinisekisa ukwethembeka kokutholwa nokudluliswa kwedatha.
Ngaphezu kwalokho, i-aluminium electrolytic capacitor yayo ewuketshezi inokuphila amahora angu-10,000 ku-105°C. Ngomklamo wokuvikela ukugcwala ngokweqile, inganqanda izingozi zokuphepha ezibangelwa isifunda esifushane noma ukuvuza, ukuhlangabezana nezidingo ezidingekayo zokuphepha zikagesi zeziqukathi eziqandisiwe.
4. Lungiselela isikhala nokusebenza kahle kwamandla ukuze ukhuthaze ukuhlelwa kwezinto eziluhlaza
Idizayini encane ye-YMIN capacitor ivumelana nesakhiwo samandla ahlangene webhokisi lesiqandisi, kuyilapho yehlisa inani lezingxenye ezingenzi lutho kanye nokusetshenziswa kwamandla esistimu ngomthamo omkhulu wokuminyana.
Ohlangothini lokugcina amandla, imojula ye-supercapacitor isekela ukushaja okusheshayo nokukhipha, okungagcina ukusebenza kwesistimu yesiqandisi ngesikhathi sokuguquguquka kwegridi noma ukuphela kwamandla amafushane, ukugwema ukulimala kwempahla, futhi kuthuthukise ukusebenza kahle kwamandla.
Isifinyezo
I-YMIN capacitor inikeza isisombululo esiphelele samabhokisi afakwe esiqandisini kusukela ekufakweni kwamandla, isilondolozi sesitoreji samandla kuya ekulawuleni okuhlakaniphile ngokusebenzisa i-synergy yochungechunge oluningi lwemikhiqizo, ukuthuthukisa kakhulu ukuthembeka, ukuguquguquka kwemvelo kanye nokusebenza kahle kwamandla kwemishini.
Isikhathi sokuthumela: May-09-2025