I-Technical Deep Dive | Ama-anti-vibration capacitor e-YMIN azixazulula kanjani izinselele zokudlidliza zamasistimu okulawula imoto endizayo enobude obuphansi?
Isingeniso
Amasistimu okulawula imoto endizayo enobude obuphansi ngokuvamile ayahluleka ngenxa yokudlidliza kwemvamisa ephezulu phakathi nendiza, okuholela ekuphenduleni okungavamile kwesistimu yokulawula, ukusebenza kokuhlunga okonakele, ngisho nezingozi zendiza. Ama-capacitor endabuko anokumelana nokudlidliza okunganele (5-10g), okuwenza angakwazi ukuhlangabezana nezimfuneko zokwethenjelwa ezindaweni ezidlulele.
Isixazululo se-YMIN
Ngokusabalala kwamadivayisi we-SiC kanye nokwenyuka kwamafrikhwensi okushintsha, ama-capacitor kumamojula we-OBC kufanele amelane namaza agelezayo aphezulu kanye nezingcindezi ezishisayo. Ama-capacitor e-aluminium electrolytic ajwayelekile ajwayele ukushisa ngokweqile futhi anesikhathi esifushane sokuphila. Ukuthola amandla aphezulu, i-voltage ephezulu yokumelana, i-ESR ephansi, nempilo ende ephaketheni elihlangene sekuyiphuzu eliyinhloko lobuhlungu ekwakhiweni kwe-OBC.
- Imbangela Ukuhlaziywa Kobuchwepheshe -
Endaweni edlidlizayo, isakhiwo sangaphakathi se-capacitor sijwayele ukukhathala kwemishini, okuholela ekuvuzeni kwe-electrolyte, ukuqhekeka kwe-solder joint, i-capacitance drift, nokwanda kwe-ESR. Lezi zinkinga ziphinde zandise umsindo wokuphakelwa kwamandla kanye ne-voltage ripple, okunomthelela ekusebenzeni okufanele kwezingxenye ezibalulekile njenge-MCU nezinzwa.
- Izixazululo ze-YMIN kanye Nezinzuzo Zenqubo -
I-YMIN's liquid-type, anti-vibration baseplate chip aluminium electrolytic capacitor ithuthukisa ukwethembeka ngokusebenzisa imiklamo elandelayo:
Isakhiwo esiqinile sokulwa nokudlidliza: Isisekelo esiqinisiwe kanye nezinto zangaphakathi ezithuthukisiwe zinikeza ukumelana nokushaqeka kwe-10-30g;
Isistimu ye-electrolyte ewuketshezi: Ihlinzeka ngokusebenza kukagesi okuzinzile kanye nokuchithwa kokushisa;
Ukumelana ne-ripple ephezulu kanye nokuvuza okuphansi kwamanje: Ifanele izimo zokunikezwa kwamandla okushintshwa kwemvamisa ephezulu, ithuthukisa ukusebenza kahle kwesistimu.
Ukuqinisekiswa Kwedatha Okuthembekile & Izincomo Zokukhetha
Ukuhlola kubonisa ukuthi ngemva kwamahora angu-500 okusebenza endaweni yokudlidliza engu-30g, izinga lokushintsha amandla e-capacitor lingaphansi kuka-5%, futhi i-ESR yayo ihlala izinzile. Ukubambezeleka kwempendulo yesistimu phakathi nokuhlolwa kokudlidliza kwehliswe kakhulu, futhi ukunemba kokulawula indiza kuyathuthukiswa, ikakhulukazi esimweni sezulu esingesihle.
Izinga Lokushisa Lokusebenza: -55°C kuya +125°C (Ukonakaliswa kwamandla ngaphansi kuka -10% ku -40°C, okuqinisekisa ukugcinwa kwamandla okuzinzile nokusebenza kokuhlunga).
Isikhathi sokuphila: amahora angu-2000
Ukumelana Nokudlidliza: 30G
Ukuphazamiseka: ≤0.25Ω @100kHz
I-Ripple Yamanje: Kufika ku-400mA @100kHz ngaphansi kwezimo zokuhlola izinga lokushisa eliphezulu elingu-125°C
- Isimo sohlelo lokusebenza namamodeli anconyiwe -
Isetshenziswa kakhulu ekulawuleni i-elekthronikhi yemoto endizayo enezinga eliphansi, izixazululo ze-OBC capacitor, kanye nokuphathwa kwamandla emotweni.
Imodeli Enconyiwe:I-VKL(T) 50V, 220μF, 10*10-20%-+20%, Izindlu Ze-Aluminium Ehlanganiswe, 2K, Ipuleti Lesihlalo Elingazweli Ukudlidliza, CG
Le modeli isetshenziswe kuzinhlelo zokusebenza zomhlaba wangempela.
Isiphetho
I-YMIN Capacitors, enobuchwepheshe bayo obuqinile nokuqinisekiswa kwedatha okuqinile, inikeza ukwethembeka okuphezulu kumasistimu kagesi wezimoto ezisezingeni eliphezulu. Ngezinselele zohlelo lokusebenza lwe-capacitor, xhumana no-YMIN—sizimisele ukusebenzisana nonjiniyela bethu ukuze sinqobe izindawo eziyingozi kakhulu.
Isikhathi sokuthumela: Sep-18-2025