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 lapha:http://informat.ymin.com:281/surveyweb/0/l4dkx8sf9ns6eny8f137e
Isikhathi sokuthumela: Oct-30-2024