Ngokuthuthuka okusheshayo kobuchwepheshe be-AI, izidingo zokusebenza zezikhungo zedatha namaseva ziyanda. Njengengxenye ebalulekile yengqalasizinda yeseva ye-AI, indima yokushintsha iya ngokuya ibaluleka. Ukushintsha akukwazi nje ukuthuthukisa ukusebenza kwenethiwekhi, kodwa futhi kuthuthukise ngempumelelo ukudluliswa kwedatha, ukuhlinzeka ngosekelo oluqinile lwemisebenzi yekhompuyutha ye-AI.
Lapho usebenzelana nemisebenzi ye-AI, izakhiwo zenethiwekhi zendabuko ngokuvamile azikwazi ukuhlangabezana nebhodlela lomkhawulokudonsa wokudluliswa kwedatha, izidingo ze-latency ephansi, nezidingo zokulinganisa okuvundlile;
Ukushintsha okusebenzayo kuthuthukisa izindlela zokudluliswa kwedatha, kuhlinzeka ngomkhawulokudonsa ophezulu kanye nemvelo yenethiwekhi ye-latency ephansi, futhi inikeza isisekelo esiqinile samaseva edatha ye-AI.
(isithombe esivela ku-NVIDIA)
Izinzuzo Zokusebenza Eziyinhloko Zohlobo Lokuhola lwe-YMINI-Conductive Polymer Aluminium Solid Electrolytic Capacitorskuma-Switch
Ama-capacitor aqinile ohlobo lwe-YMIN aklanyelwe ukusebenza ngokuthembekile ezindaweni ezinezinga lokushisa eliphezulu kufika ku-105°C, alethe ukusebenza okuzinzile amahora angafika kwangu-2000, ngisho nangaphansi kwezimo ezimbi kakhulu. Nge-ESR ephansi kakhulu (Equivalent Series Resistance), athuthukisa ukusebenza kahle kwamandla futhi anciphise ukulahleka kwamandla, awenze asebenze kahle kakhulu ezinhlelweni zokusebenza zamafrikhwensi aphezulu. Lawa ma-capacitor ayakwazi futhi ukuphatha ama-ripple currents aphezulu, avumelane nokwehluka kwemithwalo eyinkimbinkimbi ukuze kugcinwe ukuzinza. Ngaphezu kwalokho, banikeza ukukhuthazela okuhle kakhulu ngokumelene nama-surges amanje aphezulu, avikela ngempumelelo amasekethe, okuwenza afanelekele ukufunwa kwezicelo zokushintshwa.
Izincomo zokukhetha ze-YMINI-Lead-Type Conductive Polymer Aluminium Solid Electrolytic Capacitorkuma-Switch
| Uchungechunge | I-Volt(V) | Amandla (uF) | Ubukhulu (mm) | Impilo | Izici nezinzuzo |
| I-NPC | 16 | 270 | 6.3*7 | 105℃/2000H | I-ESR ephansi kakhulu, ukumelana nokunyuka kwamanje okuphezulu, ukumelana nokushaqeka okuphezulu kwamanje Ukuzinza kwezinga lokushisa eliphezulu kwesikhathi eside |
| 470 | 6.3*9 | ||||
| 470 | 8*9 |
Izinzuzo Zokusebenza Eziyinhloko ze-YMINI-Multilayer Polymer Aluminium Solid Electrolytic Capacitorkuma-Switch
I-YMIN Multilayer Polymer Aluminium Solid Electrolytic Capacitor inikeza ukumelana nogesi ophezulu, usayizi ohlangene, i-ultra-low ESR, ukuminyana okuphezulu kwamandla, kanye nokubekezelela okukhulu kwamanje. Naphezu kokumelana kwawo namandla kagesi aphezulu, lawa ma-capacitor aklanyelwe ukuthi ahlale emancane, awenze alungele ukusetshenziswa okulinganiselwe kwesikhala ekushintsheni. Njengoba amandla azinzile kanye ne-ESR ebangeni lokushisa elibanzi -55°C kuya ku-105°C, afaneleka kahle ukuphatha ukushintshashintsha kwezinga lokushisa ngaphakathi kokushintsha. Lo mklamo usekela iyunithi eyodwa ye-ripple current ye-10A, iqinisekisa ukusebenza kahle kwamandla kanye nokulahlekelwa amandla okuncane, ukugcina amaswishi ezinzile ngisho nangaphansi kwemithwalo ephezulu. Ngaphezu kwalokho, ukungabikho kwe-electrolyte ewuketshezi kunciphisa ubungozi bokuvuza futhi kwenza lawa ma-capacitor avumelane nemvelo. Lezi zibaluli zizenza zibe nenzuzo ngokukhethekile ekushintsheni okusebenza kahle kakhulu, lapho zimisa khona amandla, zilawule ukuguquguquka komthwalo, futhi zigcine ubuqotho besignali.
Izincomo Zokukhetha Ze-YMIN Multilayer Polymer Aluminium Solid Electrolytic Capacitor Ekushintsheni
| Uchungechunge | I-Volt(V) | Amandla (uF) | Ubukhulu (mm) | Impilo | Izici nezinzuzo |
| MPS | 2.5 | 470 | 7.3*4.3*1.9 | 105℃/2000H | Ultra-low ESR 3mΩ max/high ripple ukumelana kwamanje |
| I-MPD19 | 2.5 | 470 | Ukumelana ne-voltage ephezulu/i-ESR ephansi/ukumelana okuphezulu kwe-ripple kwamanje | ||
| 6.3 | 220 | ||||
| 10 | 100 | ||||
| 16 | 100 | ||||
| MPD28 | 6.3 | 330 | 7.3*4.3*2.8 | Ukumelana ne-voltage ephezulu/umthamo omkhulu/i-ESR ephansi | |
| 20 | 100 | ||||
| 25 | 100 |
Isifinyezo
Ukuthuthukiswa okusheshayo kobuchwepheshe be-AI kuncike kakhulu ezinsizeni zekhompuyutha eziqinile, namaswishi, njengamadivayisi enethiwekhi ayinhloko axhuma amaqoqo amaseva, athinta ngokuqondile ukusebenza kahle nokunemba kwemisebenzi ye-AI. Ngokuthumela amaswishi asebenzayo futhi ahlakaniphile, amabhizinisi angathuthukisa kakhulu amandla enethiwekhi amaseva wedatha ye-AI, anikeze ukwesekwa okuqinile kokuqeqeshwa kwemodeli ye-AI kanye nokusho okuthile, ngaleyo ndlela azuze umkhawulo wokuncintisana emakethe enolaka.
Ukuthuthukiswa kwesikhathi esizayo kwamaseva e-AI kuncike ekusebenzeni okuthembekile kwamaswishi asebenza kahle kakhulu. Ukuguqula ikhompuyutha yakho ye-AI ibe inkathi entsha yokuxhumana ngesivinini esikhulu nokukhetha izixazululo zokushintshwa okufanele kuzoba isinyathelo esibalulekile esibheke empumelelweni yebhizinisi lakho.
Ama-capacitor e-YMIN awagcini nje ngokuhlangabezana nezidingo eziqinile zokushintshwa kokuthembeka, ukuqina, nokuzinza kodwa futhi azivumelanisa nezimo zamanje eziyinkimbinkimbi kanye nezinguquko ezivamile zomthwalo, okubeka isisekelo sokusebenza kahle kwesikhathi eside kokushintsha.
Shiya umlayezo wakho:http://informat.ymin.com:281/surveyweb/0/l4dkx8sf9ns6eny8f137e
Isikhathi sokuthumela: Oct-30-2024