Umbukiso we-ODCC Uphethwe Ngempumelelo
Ingqungquthela ye-ODCC Open Data Center ka-2025 yaphothulwa eBeijing ngoSepthemba 11. I-YMIN Electronics, inkampani kazwelonke yobuchwepheshe obuphezulu egxile ocwaningweni nasekuthuthukisweni nasekukhiqizeni ama-capacitor asebenza kahle kakhulu, ibonise izixazululo zayo ezibanzi ze-capacitor zezikhungo zedatha ye-AI ku-booth C10. Lo mbukiso wezinsuku ezintathu uhehe inqwaba yezivakashi ezingochwepheshe, futhi indlela yawo yezingoma ezimbili zokusungula izinto ezintsha ezizimele kanye nokushintshwa okusezingeni eliphezulu kwamazwe ngamazwe kudonse ukunaka kwezinkampani eziningi.
Izingxoxo ezisezindaweni zazigxile ezidingweni ezingokoqobo, futhi kwaqashelwa indlela yayo enezingoma ezimbili.
Kuwo wonke lo mbukiso, idokodo le-YMIN Electronics ligcine isimo esihle sokushintshana kwezobuchwepheshe. Sibambe imizuliswano eminingi yezingxoxo ezisebenzayo nabamele ubuchwepheshe bezinkampani ezifana neHuawei, Inspur, Great Wall, kanye neMegmeet mayelana namabhodlela kanye nezidingo zezicelo ze-capacitor ezimweni zesikhungo sedatha ye-AI, sigxile kulezi zindawo ezilandelayo:
Imikhiqizo ethuthukiswe ngokuzimela: Isibonelo, uchungechunge lwe-IDC3 lwama-capacitor ophondo oluwuketshezi, oluthuthukiswe ngokukhethekile ukunikezwa kwamandla kweseva yamandla aphezulu, lubonisa amakhono azimele e-YMIN e-R&D ekushayeleni okusha emasegimentini athile anokumelana kwawo nogesi okuphezulu, ukuminyana kwamandla aphezulu, nempilo ende.
Ukushintshwa kwebhentshimakhi yamazwe omhlaba esezingeni eliphezulu: Lokhu kufaka phakathi imikhiqizo emakwe ngokumelene ne-Musashi's SLF/SLM lithium-ion supercapacitor yaseJapan (yezinhlelo eziyisipele ze-BBU), kanye nochungechunge lwe-Panasonic's MPD multilayer solid-state capacitor kanye nochungechunge lwe-NPC/VPC ama-solid state capacitor, amboza inhlobonhlobo yezinhlelo zokusebenza ezihlanganisa amabhodi womama, ukuvikela, izinto zokubeka amandla.
Amamodeli okubambisana avumelana nezimo: I-YMIN inikeza amakhasimende kokubili okuhambisanayo kwephini-to-pin kanye ne-R&D eyenziwe ngokwezifiso, iwasiza ngempela ukuthuthukisa ukusebenza kahle kochungechunge lokuhlinzeka nokusebenza komkhiqizo.
Umugqa ogcwele womkhiqizo uhlanganisa izimo zesikhungo sedatha ye-AI.
I-YMIN Electronics isebenzisa imodeli yokuthuthukisa enamathrekhi amabili ehlanganisa i-R&D ezimele nokumakwa kwamazwe ngamazwe okusezingeni eliphezulu ukuze inikeze izixazululo ezibanzi ze-capacitor zezimo ezine eziyinhloko zesikhungo sedatha ye-AI, ehlanganisa lonke uchungechunge lwezidingo kusukela ekuguqulweni kwamandla, ukwenza isiqiniseko samandla ngekhompyutha, kuya ekuvikelekeni kwedatha.
Ukunikezwa Amandla Eseva: Ukuguqulwa Okuphumelelayo Nokwesekwa Okuzinzile
① Ngokwakhiwa kokuphakelwa kwamandla kweseva okusekelwe kwimvamisa ephezulu ye-GaN, i-YMIN yethule uchungechunge lwe-IDC3 lwama-capacitor ophondo oluwuketshezi (450-500V/820-2200μF). Nakuba ithuthukisa ngokuphawulekayo i-voltage yokufakwayo nokumelana nokushaqeka, idizayini yazo ehlangene, enobubanzi obungaphansi kuka-30mm, iqinisekisa isikhala esanele kuma-server racks futhi inikeza ukuguquguquka okukhulu kwezakhiwo zokuphakelwa kwamandla aphezulu.
② Uchungechunge lwe-VHT lwe-polymer hybrid aluminium electrolytic capacitor lusetshenziselwa ukuhlunga okukhiphayo, kunciphisa kakhulu i-ESR nokuthuthukisa ukusebenza kahle kohlelo lonke kanye nokuminyana kwamandla.
③LKL uchungechunge lwe-LKL liquid aluminium electrolytic capacitor (35-100V/0.47-8200μF) lunikeza ububanzi bamandla kagesi kanye namandla aphezulu, ajwayelana nemiklamo yokuphakelwa kwamandla amaleveli wamandla ahlukahlukene.
④Q uchungechunge lwe-multilayer ceramic chip capacitor (630-1000V/1-10nF) lunikeza izici ezinhle kakhulu zemvamisa ephezulu kanye nokumelana nomthamo kagesi ophezulu, kucindezela ngempumelelo umsindo we-EMI, okuwenza abe yinketho efanelekile yama-capacitor anomsindo.
Ukunikezwa kwamandla okusekela iseva ye-BBU: Ukuthembeka okuphezulu nempilo ende ngendlela emangalisayo
Ama-supercapacitor e-lithium-ion e-SLF (3.8V/2200–3500F) anikeza izikhathi zokuphendula ze-millisecond nempilo yomjikelezo engaphezu kwemijikelezo eyisigidi esingu-1. Zincane ngaphezu kuka-50% kunezixazululo zendabuko, zishintsha ngempumelelo i-UPS nezinhlelo zokusekela ibhethri futhi zithuthukisa ukuthembeka kokunikezwa kwamandla.
Lolu chungechunge lusekela ububanzi obubanzi bokushisa bokusebenza (-30 ° C kuya ku-+80 ° C), impilo yesevisi engaphezu kweminyaka engu-6, kanye nesivinini sokushaja ngokushesha izikhathi ezingu-5, ngokuphumelelayo ukunciphisa izindleko eziphelele zobunikazi kanye nokunikeza ukuminyana kwamandla aphezulu namandla ayisipele azinzile kakhulu wezikhungo zedatha ye-AI.
Amabhodi Omama Weseva: Amandla Amsulwa Nomsindo Ophansi Kakhulu
① Ama-MPS ochungechunge lwama-multilayer capacitor aqinile anikezela nge-ESR ephansi njengo-3mΩ, ecindezela ngempumelelo umsindo wefrikhwensi ephezulu futhi igcina ukushintshashintsha kwamandla kagesi we-CPU/GPU ngaphakathi kokungu-±2%.
② Uchungechunge lwe-TPB lwe-polymer tantalum capacitor luthuthukisa impendulo yesikhashana, luhlangabezana nezidingo zamanje ezinomthwalo omkhulu wokuqeqeshwa kwe-AI nezinye izinhlelo zokusebenza.
③ I-VPW uchungechunge lwe-polymer eqinile ye-aluminium electrolytic capacitor (2-25V/33-3000μF) igcina ukusebenza okuzinzile ngisho emazingeni okushisa afika ku-105°C, inikela isikhathi eside sempilo eside samahora angu-2000-15000, okuwenza abe enye indlela ekahle yemikhiqizo yaseJapane nokuqinisekisa ukuthembeka okuphezulu kwesistimu ye-motherboard.
Isitoreji Seseva: Ukuvikelwa Kwedatha kanye ne-High-Speed Read/Write
① I-NGY polymer hybrid aluminium electrolytic capacitor kanye ne-LKF liquid aluminium electrolytic capacitor ahlinzeka ngo-≥10ms wehardware-leveli yokuvikelwa kokulahlekelwa kwamandla (PLP) ukuze kuvinjelwe ukulahleka kwedatha.
② Ukuqinisekisa ukuzinza kwe-voltage ngesikhathi sokusebenza kokufunda/ukubhala ngesivinini esikhulu kuma-NVMe SSD, uchungechunge lwe-MPX lwe-multilayer polymer solid aluminium electrolytic capacitor lunikeza isisombululo esihle kakhulu. Le capacitor ine-ESR ephansi kakhulu (i-4.5mΩ kuphela) futhi iphila isikhathi eside esingafika emahoreni angu-3,000, ngisho nasezindaweni ezinezinga lokushisa eliphezulu elingu-125°C.
Le mikhiqizo ikhiqizwe ngobuningi kumaphrojekthi amaningi omhlaba wangempela, ihlangabezana nezidingo eziqinile zamandla aphezulu, ukuqina okuphezulu, nokuminyana okuphezulu.
I-Industrial Trend Insight: I-AI Ishayela Ukuthuthukiswa Kwe-Capacitor Technology
Njengoba ukusetshenziswa kwamandla kweseva ye-AI kuqhubeka nokubhodloka, amandla kagesi, amabhodi omama, nezinhlelo zokugcina zibeka izidingo eziqinile kuma-capacitor anemvamisa ephezulu, i-voltage ephezulu, amandla aphezulu, kanye ne-ESR ephansi. I-YMIN Electronics izoqhubeka nokutshala imali ku-R&D futhi yethule eminye imikhiqizo ye-capacitor ephezulu ehlangabezana nezidingo zenkathi ye-AI, esiza ukukhiqiza okuhlakaniphile kwaseShayina ukufinyelela esigabeni somhlaba.
Ukunika amandla ubuchwepheshe kudlulela ngale kwemibukiso, ngesevisi ye-inthanethi eqhubekayo.
Wonke umbukiso uletha umvuzo; konke ukushintshana kuletha ukwethembana. I-YMIN Electronics ibambelela kufilosofi yesevisi ethi “Xhumana ne-YMIN ngezinhlelo zokusebenza ze-capacitor” futhi izibophezele ekunikezeni amakhasimende izisombululo ze-capacitor ezinokwethenjelwa, eziphumelelayo, neziqhudelana namanye amazwe. Sibonga wonke umuntu ovakashele i-booth C10 ngezingxoxo. I-YMIN Electronics izoqhubeka nokugxila ekusungulweni okuzimele kanye nokushintshwa kwamazwe ngamazwe, futhi isebenzisane nabalingani bemboni ukuze kuthuthukiswe ukwenziwa kwasendaweni kwengqalasizinda yesikhungo sedatha ye-AI ngemikhiqizo yekhwalithi ephezulu nezinsizakalo zobuchwepheshe.
Isikhathi sokuthumela: Sep-15-2025