I-SLF 4.0V 4500F hybrid supercapacitor inika ukhuseleko oluqinileyo lwenqanaba le-millisecond kumbane ogciniweyo we-AI..i-rack yeseva i-BBU.

 

1. Iingenelo: Amandla aphezulu okukhupha

 

Umbuzo Ophambili: I-hybrid supercapacitor iqinisekisa njani uzinzo lwe-voltage yebhasi ye-DC kwaye ithintela njani ukungasebenzi kwenkqubo xa i-AI.Ngaba iserver GPU load ifumana utshintsho olukhawulezileyo kwinqanaba le-millisecond okanye utshintsho lwegridi yamandla?

 

Umbuzo Ovela Kuyo: Umthwalo weGPU weseva ye-AI unokunyuka nge-150% ngaphakathi kwee-milliseconds, kwaye iibhetri zemveli ze-lead-acid azikwazi ukuqhubeka. Lithini ixesha elithile lokuphendula le-Yongming's hybrid supercapacitor, kwaye iyifumana njani le nkxaso ikhawulezayo?

 

Uhlobo lombuzo: Ezobugcisa

 

Impendulo: I-Yongming's hybrid supercapacitor (SLF 4.0V 4500F) ixhomekeke kwimigaqo yokugcina amandla omzimba kwaye inokumelana okuphantsi kakhulu kwangaphakathi (≤0.8mΩ), okuvumela ukukhutshwa kwesantya esiphezulu ngoko nangoko kwinqanaba le-1-50 millisecond. Xa utshintsho olukhawulezileyo kumthwalo we-GPU lubangela ukwehla okukhulu kwe-voltage yebhasi ye-DC, inokukhupha umsinga omkhulu phantse kwangoko ukuze ibuyisele ngokuthe ngqo ibhasi ngenxa yokulahleka kwamandla. Oku kuthenga ixesha lokuba umbane we-backend BBU uvuke kwaye uthathe indawo, ukuqinisekisa utshintsho oluthambileyo lwe-voltage kunye nokuthintela iimpazamo zokubala okanye iingozi zehardware ezibangelwa kukwehla kwe-voltage.

 

Umbuzo Ovela Kuyo: Kwisakhiwo se-hybrid se-"supercapacitor + BBU," ii-Yongming supercapacitors kunye nee-BBU zisebenzisana njani ukujongana nokucinywa kombane okanye ukuguquguquka kwimilinganiselo yexesha eyahlukeneyo ukusuka kwi-milliseconds ukuya kwimizuzu?

 

Uhlobo lombuzo: Ezobugcisa

 

Impendulo: Kolu lwakhiwo, imodyuli ye-hybrid supercapacitor kaYongming iqhagamshelwe ngaxeshanye nebhasi ye-DC yeseva njenge "layer ye-buffer ekufutshane," eyenzelwe ngokukodwa ukujongana nokunyuka kwamandla ngoko nangoko kwi-millisecond ukuya kwisikali sesibini (njengotshintsho olukhawulezileyo kumthwalo we-GPU okanye ukutshintshatshintsha kwegridi yamandla ngoko nangoko). Yenza imbuyekezo yokuqala ngoko nangoko, izinzisa i-voltage yebhasi. Emva koko, umbane we-backup we-BBU uyavuswa kwaye uthatha indawo, ubonelela ngenkxaso yamandla eqhubekayo imizuzu embalwa, ukuqinisekisa ukuba inkqubo inexesha elaneleyo lokugcina idatha okanye ukutshintshela kumbane we-backup. I-UPS/HVDC yangaphambili inoxanduva lombane ongaphazanyiswa ixesha elide. Ezi zinto zintathu zisebenza ngendlela edibeneyo, zigubungela umbane wemini yonke ukusuka ekusebenzeni ngoko nangoko ukuya ekusebenzeni okuqhubekayo.

2.Iingenelo: Ubungakanani kunye noLungiso loBunzima

 

Umbuzo Ophambili: Ukuze kuphuculwe uxinano lwamandla ekhompyutha kwirakhi enye, kufuneka kuncitshiswe ubungakanani kunye nobunzima bombane we-BBU backup. Ingakanani indawo kunye nobunzima obunokunciphisa i-hybrid supercapacitor xa kuthelekiswa nezisombululo zemveli?

 

Umbuzo Ovela Kuwo: Iirakhi zethu zeseva ye-AI enamandla aphezulu zinendawo encinci, kwaye iipakethe zebhetri ze-BBU zemveli zikhulu kakhulu kwaye zinzima. Kungakanani ukuphuculwa kwendawo kunye nobunzima okunokufezekiswa ngokusebenzisa iimodyuli ze-capacitor ze-lithium-ion zesikwere se-Yongming?

 

Uhlobo lombuzo: Ezobugcisa

 

Impendulo: Ngokwedatha yovavanyo lokwenyani, ngelixa kunikezelwa ngenqanaba elifanayo lamandla okugcina amandla, ukusebenzisa iimodyuli ze-Yongming square hybrid supercapacitor (ezifana neemodyuli ezakhiwe nge-SLF 4.0V 4500F) ukutshintsha iipakethi zebhetri ze-lead-acid okanye ze-lithium zemveli kunokunciphisa umthamo opheleleyo weyunithi yamandla okugcina amandla e-BBU malunga ne-50% ukuya kwi-70% kunye nobunzima obupheleleyo malunga ne-50% ukuya kwi-60%. Oku kukhulula ngokuthe ngqo indawo exabisekileyo ye-rack (ii-U bays) kwaye kunciphisa umthwalo we-rack, okukuvumela ukuba udibanise ii-nodes ezingaphezulu ze-compute okanye uphucule ukusasazwa kobushushu ngaphakathi kwendawo encinci, ukuphucula ngempumelelo iindleko ezipheleleyo zobunini (TCO) kunye nokusetyenziswa kweziseko.

 

Umbuzo Ovela Kuwo: Siceba isizukulwana esitsha see-racks ze-AI server, sijonge ukwandisa uxinano lwe-GPU nge-rack nganye. Nangona kunjalo, izixhobo zamandla ze-BBU backup (ezisebenzisa iibhetri ze-lead-acid okanye i-lithium) zinkulu kakhulu kwaye zinzima, zinciphisa inani lee-servers ezinokungena kwi-rack enye. Ngaba kukho isisombululo samandla esingasemva esinokunciphisa kakhulu ubungakanani kunye nobunzima? Kungenziwa ukuya kuthi ga phi?

 

Uhlobo lombuzo: Ukuthengwa

 

Impendulo: Ewe. Ukwamkela uyilo lokugcina amandla oluxutyiweyo olusekelwe kwi-hybrid supercapacitors kunokuphucula kakhulu ubungakanani kunye nobunzima bezixhobo zamandla ze-BBU backup. Ngelixa zibonelela ngenqanaba elifanayo lamandla okuxhasa, iimodyuli ze-hybrid supercapacitor zinokunciphisa ivolumu iyonke malunga ne-50% ukuya kwi-70% kunye nobunzima malunga ne-50% ukuya kwi-60% xa kuthelekiswa nezisombululo zebhetri ze-lead-acid okanye ze-lithium. Oku kuthetha ukuba kugcina indawo enkulu ye-rack kwaye kunciphisa umthwalo we-rack, okukuvumela ukuba usebenzise iiseva okanye ii-GPU ezingaphezulu kwi-rack enye ngexesha lokucwangcisa, ukuphucula ngokuthe ngqo imveliso yamandla ekhompyutha ye-single-rack kunye nokusetyenziswa kweziseko.

 

3. Iingenelo: Isantya sokutshaja esiphuculweyo

Umbuzo oPhambili: Amaziko edatha e-AI afuna iinkqubo ze-BBU ukuba zitshaje ngokukhawuleza emva kokukhutshwa ukuze kufinyezwe isithuba sobuthathaka benkqubo. Isantya sokutshaja see-supercapacitors ze-hybrid sikhawuleza kangakanani xa sithelekiswa neebhetri zemveli?

 

Umbuzo Ovela Kuyo: Emva kokucima kombane okwethutyana okanye ukunyuka komthwalo, sifuna ukuba iiyunithi zokugcina amandla kwinkqubo ye-BBU zitshajwe ngokupheleleyo ngokukhawuleza ukuze kulungiselelwe isiganeko esilandelayo. Kuthatha ixesha elingakanani ukuba i-Yongming's hybrid supercapacitor itshajwe kwakhona?

 

Uhlobo lombuzo: Ezobugcisa

 

Impendulo: I-Yongming's hybrid supercapacitor ineempawu zamandla ezibalaseleyo, itshaja ngaphezu kwezihlandlo ezi-5 ngokukhawuleza kuneebhetri ze-lead-acid okanye i-lithium zemveli. Kwiimeko eziqhelekileyo zesicelo se-AI server BBU, emva kokukhupha okuhlawulelwayo, inokuphinda itshaje ngokukhawuleza ifikelele kwimeko esebenzisekayo kwimizuzu elishumi. Oku kunciphisa kakhulu "ixesha lokubuyisela amandla" kwenkqubo yamandla exhasayo, kunciphisa iingozi zenkqubo ezibangelwa kukungabikho kwamandla aneleyo kwiiyunithi zokugcina amandla ngexesha leengxakeko eziqhubekayo, kwaye kuphucula ukufumaneka kunye nokuqina kwenkqubo yokubonelela ngombane iyonke.

 

4. Iingenelo: Ubomi obude boMjikelo

Umbuzo oPhambili: Amaziko edatha e-AI asebenza iiyure ezingama-24 ngosuku, iintsuku ezisixhenxe ngeveki, nto leyo ebangela iindleko eziphezulu zokugcinwa kweenkqubo zamandla okuxhasa. Ubomi bomjikelo omde kakhulu bee-hybrid supercapacitors buzinciphisa njani iindleko zokugcinwa komjikelo wobomi bonke?

 

Umbuzo Ovela Kwimvelaphi: Indawo yethu yeziko ledatha inobushushu obuphezulu kunye nokuguquguquka komthwalo rhoqo, ngelixa iibhetri ze-BBU zemveli zinexesha elifutshane lokuphila. Ingakanani ixesha lokuphila elilindelekileyo le-Yongming hybrid supercapacitors phantsi kweemeko ezinzima zobushushu obuphezulu kunye nokutshaja/ukukhupha rhoqo?

 

Uhlobo lombuzo: Ezobugcisa

 

Impendulo: Ixesha lokuphila kweYongming hybrid supercapacitors lisekelwe kwiimpawu zazo zefiziksi, ezibonisa ukunyamezelana okuhle kakhulu nobushushu obuphezulu kunye neemeko zokutshaja/zokukhupha amandla rhoqo. Ubomi bazo bomjikelo bunokufikelela kwimijikelo engaphezulu kwesigidi, kwaye phantsi kweemeko eziqhelekileyo zesicelo sedatha ye-AI, ubomi bazo boyilo budlula iminyaka emi-6. Oku kuthetha ukuba ngexesha lomjikelo oqhelekileyo wokuphucula iseva, ukutshintshwa kweyunithi yokugcina amandla okugcina ngenxa yokuwohloka kokusebenza akufuneki, nto leyo eyenza ukuba ifaneleke ngakumbi njengeyunithi ye-buffer yesikhashana ye-BBU kwiindawo ezinzima ezinokutshaja nokukhupha amandla rhoqo kwiindawo zokubala ze-AI.

 

Umbuzo Ovela Kuwo: Ngokwembono yeendleko zotyalo-mali zizonke, nangona iindleko zokuqala zokuthenga ii-supercapacitors ze-hybrid zinokuba phezulu, kunokubonakaliswa njani ukuba zinoqoqosho ngakumbi ekuhambeni kwexesha kwizicelo ze-AI server BBU?

 

Uhlobo lombuzo: Ukuthengwa

 

Impendulo: Ukusuka kuhlalutyo lweendleko zobunini (i-TCO), iingenelo zoqoqosho zibonakala kwiinkalo ezintathu: Okokuqala, ubomi benkonzo obude kakhulu (ngaphezulu kweminyaka emi-6, amaxesha angama-200 kuneebhetri zemveli), ezifuna phantse ukuba zingatshintshwa kulo lonke ixesha lobomi beseva, zisonga iindleko zokuthenga izixhobo ezingasetyenziswanga; okwesibini, ukusebenza ngaphandle kokugcinwa, zisonga iindleko zokuhlola ngesandla kunye nokugcinwa; kwaye okwesithathu, ukuthembeka okuphezulu, kunciphisa umngcipheko wokuphazamiseka kweshishini kunye nokulahlekelwa ngenxa yokusilela kwenkqubo yamandla exhasayo. Nangona utyalo-mali lokuqala luphezulu, xa lusasazwa kwixesha lokusetyenziswa kweminyaka emininzi kwaye kuqwalaselwa ukonga kokugcinwa kunye nokunciphisa umngcipheko, ukusebenza kwayo ngokubanzi kwezoqoqosho kungcono kakhulu kunezisombululo zebhetri zemveli.

 

5. Iingenelo: Ukutshintshwa kwendlu

 

Umbuzo oPhambili: Kwii-supercapacitors ezixutyiweyo zehlabathi ezisetyenziswa kwiiseva ze-AI eziphezulu njenge-NVIDIA GB300, ngaba zikhona ezinye iindlela eziveliswe apha ekhaya ezinentsebenzo efanayo okanye ephezulu?

 

Umbuzo Ovela Kwimvelaphi: Sisebenzisa iqela leseva elinoyilo lwereferensi olusebenzisa ii-supercapacitors ezixutyiweyo ezivela eMusashi, eJapan. Xa ucinga ngokhuseleko lwekhonkco lokubonelela kunye nokwenza ngcono iindleko, yeyiphi imveliso onokuyicebisa?

 

Uhlobo lombuzo: Ezobugcisa

 

Impendulo: Sicebisa i-Yongming SLF 4.0V 4500F hybrid supercapacitor, imveliso yasekhaya esebenza kakuhle eyenzelwe iimfuno ze-transient buffering ze-AI server BBUs eziphezulu. Xa kuthelekiswa ne-Musashi CCP3300SC (3.8V 3000F) esetyenziswa kuyilo lwereferensi ye-GB300, imveliso ye-Yongming ifezekisa ukulinganiswa kunye nokuphuculwa kwezalathisi eziphambili: i-voltage ephezulu (4.0V), umthamo omkhulu (4500F), kunye nokwanda okukhulu koxinano lwamandla eseli enye. Igcina ukuhambelana kwizalathisi eziphambili zokuthembeka ezifana nokumelana kwangaphakathi (zombini≤0.8mΩ) kunye nobomi bomjikelo (zombini ngaphezulu kweminyaka eli-10), ezimisela isantya sokuphendula. Xa zisetyenziswa kumaqela kwiinkqubo ze-48V, amandla ayo aphezulu aqhubekayo (17kW) kunye nokukwazi kwayo ukukhupha (umz., 18s@15kW) ziyahlangabezana kwaye zidlula kancinci iimfuno zeemeko ezifanayo zokusetyenziswa, nto leyo eyenza ukuba ibe sisisombululo esithembekileyo sokutshintshwa kwekhaya.

 

Umbuzo Ovela Kuwo: Sinethemba lokutshintsha izinto ezibalulekileyo zokugcina amandla kumbane ogciniweyo we-BBU kwiiseva ze-AI zeziko ledatha kunye nezinto eziveliswe apha ekhaya, kodwa sixhalabile malunga nokusebenza kunye nokuhambelana kwenkqubo. Ngaba kukho isisombululo esinokuqinisekisa ukuhlanganiswa okungenamthungo kwemodyuli yonke kunye noyilo olukhoyo lwe-"supercapacitor + BBU" hybrid?

 

Uhlobo lombuzo: Ukuthengwa

 

Impendulo: Yumzuzu inokubonelela ngezisombululo ezipheleleyo zenqanaba le-module ye-lithium-ion capacitor. Ukuthatha imveliso ye-SLF 4.0V 4500F njengomzekelo, imodyuli yayo isebenzisa uyilo oluqhelekileyo lwe-rack ye-intshi ezili-19 (umz., uqwalaselo lwe-12S1P), kwaye uluhlu lwayo lwe-voltage yokuphuma (48-30V) luyahambelana ne-voltage yebhasi ye-DC efumaneka rhoqo kwiiseva ze-AI. Imodyuli inokumelana okuphantsi kwangaphakathi (4.8m)Ω) kunye neendawo zombane ezichazwe ngokucacileyo, ubungakanani boomatshini, kunye neemfuno zolawulo lobushushu. Oku kuthetha ukuba inokuqhagamshelwa ngokuthe ngqo ngaxeshanye nebhasi ye-DC yeseva njenge "layer ye-buffer ekufutshane," eyenza uyilo lokugcina amandla oluhlanganisiweyo kunye ne-BBU yomntu wesithathu, ifezekisa ukuhlanganiswa okungenamthungo kufakelo loomatshini, uqhagamshelo lombane, kunye ne-logic yolawulo. Sinikezela ngamaxwebhu eenkcukacha zobuchwephesha kunye nenkxaso ukuqinisekisa inkqubo yokutshintsha egudileyo kunye nokuthembeka kwenkqubo iyonke.

 

6. Iingenelo: Ukuthembeka kobushushu obuphezulu kunye nobuchule bolawulo lobushushu

 

Umbuzo Oyintloko: Iirakhi zeseva ye-AI zisebenza kwindawo enobushushu obuphezulu be-45–55℃unyaka wonke, kunye neeGPU ezinamandla aphezulu ezibangela ukuxhathisa rhoqo kobushushu. Ngaba i-hybrid supercapacitor ingasebenza ngokuzinzileyo ixesha elide? Ngaba ukwehla kokusebenza kuya kukhawuleziswa?

 

Umbuzo Ovela Kuyo: Njengoko ubushushu bangaphakathi beerakhi zeseva ye-AI buhlala buyi-45~55℃, lingakanani izinga lokuwohloka kokusebenza kwe-Yongming's hybrid supercapacitor? Ngaba kufuneka ukusasazwa kobushushu okongezelelweyo?

 

Uhlobo lombuzo: Ezobugcisa

 

Impendulo: I-supercapacitor ye-SLF yesikwere se-hybrid kaYongming isebenzisa izixhobo ze-electrode ezimelana nobushushu obuphezulu kunye nenkqubo ye-diaphragm edibeneyo. Nokuba sele ikwi-55℃, ingakwazi ukugcina≥Umthamo wokuphuma kwama-85%, kunye ne-coefficient yokunyuka kobushushu be-ESR engaphantsi kwe-0.1%/℃, kwaye ukusebenza kwayo okuqhubekayo kokukhupha umoya ngoko nangoko akuyi kuncipha. Kwimeko eqhelekileyo yokuhamba komoya "ukusuka phambili ukuya ngasemva" yeerakhi zeseva ze-AI, inokusebenza ngokuzinzileyo iminyaka emi-6-8 ngaphandle kwezakhiwo ezongezelelweyo zokupholisa, nto leyo eyenza ukuba ibe sisisombululo esifanelekileyo sokubuyisela amandla ngoko nangoko kuneebhetri zamaziko edatha anobushushu obuphezulu.

 

7. Iingenelo: Ukuhambelana kwenkqubo kunye nokhuseleko lombane

 

Umbuzo Ophambili: Emva kokuba i-supercapacitor iqhagamshelwe ngaxeshanye nebhasi ye-48V DC njengeyunithi ye-buffer ekhawulezileyo, ngaba iya kubangela ukutshaja okungasemva, ukunyuka kwamandla ombane, okanye ibeke umngcipheko kwinkqubo yamandla ekhoyo ye-BBU/power?

 

Umbuzo Ovela Kuyo: Emva kokuba i-supercapacitor exutyiweyo iqhagamshelwe ngaxeshanye nebhasi, ngaba iya kubangela ukutshaja okungasemva, ukubuya kwamandla kagesi, okanye ukunyuka kweenkqubo ngokukhawuleza?

 

Uhlobo lombuzo: Ezobugcisa

 

Impendulo: Iimodyuli ze-Yongming supercapacitor zineesekethe zokutshaja ezakhelwe ngaphakathi + umda wangoku + umda we-voltage + i-soft-start logic. Xa iqhagamshelwe ngaxeshanye nebhasi, ingena "kwimo yokutshaja kwangaphambili," inyusa kancinci i-voltage ukuze kuthintelwe ukunyuka. Ikwabandakanya uqhagamshelo lwangaphakathi olubuyela umva kunye neesekethe zokuthintela ukuhamba emva, ngoko ke ukutshaja okubuyela umva akuyi kwenzeka. Kwangaxeshanye, imodyuli inokhuseleko olupheleleyo lwe-OVP/OCP, iyahambelana nombane okhoyo/i-BBU yeseva, kwaye ayizukubangela umngcipheko wokukhuphuka kombane.

 

8. Iingenelo: Ukumelana nokubetha kwentliziyo kunye nexesha elide lokusebenzisa impembelelo ephindaphindayo

 

Umbuzo Ophambili: Ngaba imithwalo ye-pulse ephezulu evela kwi-GPUs inokubangela ukwaluphala ngokukhawuleza kwee-supercapacitors? Ngaba ubomi bufikelela kwiminyaka emininzi ngokwenene?

 

Umbuzo Ovela Kuyo: Kwiimeko eziqhelekileyo "zokukhupha i-pulse" (ezifana nokunyuka kwamandla e-GPU ngoko nangoko), ngaba ubomi be-Yongming supercapacitors buya kuchaphazeleka?

 

Uhlobo lombuzo: Ezobugcisa

 

Impendulo: Hayi. Olu luhlu lwe-SLF luyilwe ngokukodwa kwiimpembelelo ze-frequency ephezulu, kunye nobomi bomjikelo weseli enye > imijikelo eyi-1,000,000, efanelekileyo ekukhutshweni okuphezulu kuluhlu lwe-microsecond ukuya kwi-millisecond. Nokuba ngaphantsi kwamakhulu ukuya kumawaka okuguquguquka komthwalo ngosuku kwiikluster ze-AI, lusenokufikelela kubomi boyilo obungaphezulu kweminyaka eyi-6-8, obungcono kakhulu kunengxaki yokonakala rhoqo kweebhetri zemveli.

 

9. Iingenelo: Ixabiso lilonke elincitshisiweyo lobunini (i-TCO)

 

Umbuzo oPhambili: Ngaba ii-supercapacitors ze-hybrid zingavumela ukuncitshiswa kweenkcukacha ze-BBU ukunciphisa iindleko zizonke zenkqubo yamandla okuxhasa?

 

Umbuzo Ovela Kuyo: Ukuba indawo ye-rack incinci, ngaba ukusetyenziswa kwee-supercapacitors ze-hybrid kunokunciphisa umthamo we-BBU kwaye kwehlise i-TCO iyonke ukunciphisa inani leebhetri ezixhasayo? Uhlobo Lombuzo: Ukuthengwa

 

Impendulo: Ewe. Ii-supercapacitors zeYongming zijongana nazo zonke ii-"millisecond-level peak power" surges, zisusa imfuneko yokuba ii-BBU zenzelwe amandla aphezulu, zinciphise umthamo nge-15-30% okanye zivumele ukusetyenziswa kweenkqubo zebhetri ezisezantsi. Ngee-supercapacitors, i-TCO iyonke yenkqubo yamandla okuxhasa iyancipha, kubandakanya iibhetri ezimbalwa, iindawo ezimbalwa zokutshintsha, kunye neendleko zokulungisa eziphantsi.

 

10. Iingenelo: Uzinzo lokutshintsha i-UPS oluphuculweyo

 

Umbuzo oPhambiliKwimeko apho ixesha lokutshintsha i-UPS lingazinzile, okanye lisuka kwi-8ms ukuya kwi-12ms, ngaba ii-supercapacitors zingalungisa izikhewu zamandla?

 

Umbuzo Ovela Kwimvelaphi: Ezinye iinkqubo ze-UPS ezindala zinefestile ezitshintsha ixesha elide. Ukuba ixesha lokutshintsha i-UPS landisiwe (umz., i-12ms okanye i-15ms), ngaba ii-supercapacitors ze-Yongming zingabonelela ngembuyekezo eyongezelelweyo ye-voltage?

 

Uhlobo lombuzo: Ezobugcisa

 

Impendulo: Ii-supercapacitors zeYongming zinexesha lokuphendula kwinqanaba le-microsecond, zigubungela ngokupheleleyo ifestile yokutshintsha i-UPS. Xa i-UPS ifumana ukulibaziseka kwe-12-15ms, inokubuyisela ngokuzenzekelayo ukuhla kwevolthi yonke, iqinisekise uzinzo lwebhasi kwaye ingachaphazeli ukusebenza okuqhelekileyo kwee-GPU/SSD.

 

11. Iingenelo: Ukuqina kweZiko leDatha okuphuculweyo

 

Umbuzo oPhambili: Iiseva ze-AI zihlala zihlangabezana nemingcipheko emininzi efana nokunyuka ngesiquphe komthwalo we-GPU, ukuguquguquka kwegridi yamandla, kunye nokucinywa kombane kwi-UPS. Ngaba kukho isixhobo esinye esinokuphucula ukuqina kwayo yonke into?

 

Umbuzo Ovela Kuwo: Abasebenzi bokusebenza kunye nolondolozo bafuna ukongeza "umaleko we-safety buffer." Ii-Yongming supercapacitors zinokuyiphucula njani "ukuqina kwamandla" kwiziko ledatha le-AI server lonke? Ngaba i-buffering emininzi ingafezekiswa?

 

Uhlobo lombuzo: Ezobugcisa

 

Impendulo: Ii-Yongming supercapacitors zinokusebenza "njengomaleko we-power buffer okhawulezileyo," zifunxa ngokuzenzekelayo kwaye zihlawulele ukuguquguquka kwe-voltage kwinqanaba le-millisecond, ziphucula kakhulu uzinzo lwebhasi kwaye zinciphise inani leempembelelo eziphezulu kwi-BBU kunye ne-UPS, ngaloo ndlela ziphucula "ukuqina kwamandla" kwekhonkco lonke lombane ngokwembono yenkqubo. Le yindima engenakudlala iibhetri, nto leyo eyenza ukuba ifaneleke ngakumbi kwiimeko ze-AI ezisebenzisa iikhompyutha ezininzi.