Kwiiseva zedatha ze-AI, ii-capacitors zisetyenziswa kakhulu kulawulo lwamandla, ukucoca, kunye nokugcina amandla ukuqinisekisa uzinzo kunye nokusebenza kakuhle. Ii-capacitors ezisebenzayo kakhulu zinokunciphisa ingxolo yokunikezelwa kwamandla, ziphucule umgangatho wamandla, zixhase ukutshaja kunye nokukhupha ngokukhawuleza, kwaye zihlangabezane neemfuno ze-AI computing ye-bandwidth ephezulu kunye ne-latency ephantsi. Kwixesha elizayo, njengoko imfuno yokusebenza kakuhle kwamandla kunye nezinto ezincinci zisanda, ii-capacitors ziya kukhula kwicala le-frequency ephezulu, ubushushu obuphezulu, i-ESR ephantsi (ukumelana nochungechunge olulinganayo), kunye nobomi obude. Ukusetyenziswa kwezixhobo ezintsha kunye nobuchwepheshe boyilo kuya kuphucula ngakumbi ukusebenza kunye nokuthembeka kwee-capacitors kwiiseva zedatha ze-AI.
Isisombululo soNikezelo lwaMandla seSeva se-YMIN kunye neNavitas GaN esiBambiseneyo se-8.5KW
Uphuculo Lokusebenza
Ukusebenza kakuhle komthamo: Kwi-voltage efanayo elinganisiweyo (umz., 500Vdc), amandla ombane wemveliso eqhelekileyo ye-φ30 * 85mm anyuswa aye kwi-1400μF (xa kuthelekiswa ne-820μF kwiimveliso zesiqhelo, uphuculo olumalunga ne-70%).
Ukuphucula ubungakanani: Ifezekisa ukunciphisa ubungakanani bemodyuli iyonke ngaphezulu kwama-55%, okanye yonyusa amandla esiseko senkqubo ngama-63% ngaphandle kokutshintsha ubungakanani.
Ixesha Lokuphila Lobushushu Obuphezulu: Kwi-105℃, ixesha lobomi bomthwalo kwi-voltage elinganisiweyo lidlula iiyure ezili-10,000, kunye nokwehla komthamo ≤8%.
I-Ripple Current: Ngenxa yoyilo lwayo oluphantsi lwe-ESR, i-ripple current elinganisiweyo enokumelana ne-105℃ inyuswe ukuya kwi-19Arms @100kHz, ihlangabezana neemfuno zokutshintsha rhoqo.
Igcina indawo yoyilo, iphucula ubomi benkqubo kunye nokuthembeka kwayo, iqinisekisa ukusebenza okuzinzileyo phantsi kweemeko zobushushu obuphezulu, kwaye ihlangabezana neemfuno ezingqongqo zokusetyenziswa.
Ii-capacitors ze-YMIN SLF ezimiselweyo kunye nesisombululo samandla esigciniweyo se-NVIDIA AI server GB300 BBU
Ubungakanani nobunzima obuncitshisiweyo, ukuPhuculwa kokuSebenza ngokuTshaja/ukukhupha iTyhubhu: Umthamo uncitshiswe ngama-50%-70% kwaye ubunzima buncitshiswe ngama-50%-60% xa kuthelekiswa nesisombululo sokuqala. Ukusebenza ngokuTshaja/ukukhupha iTyhubhu kuphuculwe ngaphezu kwezihlandlo ezi-5, kuxhasa ukutshaja/ukukhupha iTyhubhu ngokukhawuleza ukusuka kwimizuzwana eli-10 ukuya kwimizuzu eli-10.
Imveliso Yamandla Enamandla kunye Nobomi Obude: Imodyuli enye ixhasa imveliso yamandla eyi-15-21kW, ihambelana ngokugqibeleleyo neemfuno zokusetyenziswa kwamandla okuphezulu kwe-GB300, kwaye inobomi bomjikelo obungaphezulu kwe-1 yezigidi zeerandi, iqinisekisa ukusebenza okuthembekileyo iminyaka engaphezu kwe-6.
Uyilo Lokugcina Amandla Olutsha: Isebenzisa ii-supercapacitors zokuhlawula amandla ngokukhawuleza kwinqanaba le-millisecond, i-BBU iphatha ukugcinwa kwamandla kwexesha elide kwinqanaba lemizuzu, isombulula iindawo ezibuhlungu zezisombululo zemveli ezifana nokubambezeleka kwempendulo, ubomi bomjikelo omfutshane, kunye neendleko eziphezulu zokulungisa.