| Iindawo zoSetyenziso | Uhlobo lweCapacitor | Umfanekiso | Ukhetho olucetyiswayo |
| Ibhodi yoMama yoMncedisi | I-capacitor ye-electrolytic ye-polymer enezingqimba ezininzi |  | I-MPS,I-MPD19,MPD28,MPU41 |
| Ii-capacitor ze-polymer tantalum electrolytic eziqhubayo |  | TPB19,TPD19,I-TPD40 | |
| I-capacitor ye-electrolytic ye-aluminium eqinileyo ye-polymer |  | I-VPC, i-VPW | |
 | I-NPC |
Ukuqinisekisa ukusebenza okuzinzileyo kweeseva phantsi kweemeko zomthwalo ophezulu, iibhodi zomama zifuna ii-capacitors ezine-ESR ephantsi, ukuthembeka okuphezulu, ukumelana nobushushu, kunye nobomi obude.
- Ii-Capacitors ze-Electrolytic ze-Stacked Polymer Solid Aluminium: Zine-ESR ephantsi kakhulu ye-3mΩ, ezi capacitors zinceda ekunciphiseni ukulahleka kwamandla ngexesha lokuguqulwa kwamandla, ngaloo ndlela ziphucula ukusebenza kakuhle kwamandla. Ii-capacitors ezihlanganisiweyo zihluza ngokufanelekileyo i-ripple kunye nengxolo evela kumbane, zibonelela ngomthombo wamandla ococekileyo nozinzileyo kwiibhodi zee-motherboard zeseva.
- Ii-Capacitors zePolymer Tantalum eziqhubayo: Zaziwa ngokuphendula kwazo ngokukhawuleza rhoqo, ezi capacitors zilungele ukugcina amandla kunye nokucoca kwiisekethe ezisebenzisa i-frequency ephezulu. Zinceda ukunciphisa impembelelo yengxolo esebenzisa i-frequency ephezulu kwisekethe, ziphucula ukuchaneka kokudluliselwa kwedatha kunye nozinzo.
- Ii-Capacitors ze-Electrolytic zePolymer Solid Aluminium: Nge-ESR ephantsi, ezi capacitors ziphendula ngokukhawuleza kwiimfuno zangoku ezivela kumacandelo eseva, ziqinisekisa ukuphuma okuzinzileyo ngexesha lokuguquguquka komthwalo. I-ESR ephantsi ikwanciphisa ukulahleka kwamandla kwaye iphucula ukusebenza kakuhle kokuguqulwa kwamandla, ixhasa ukusebenza okuqhubekayo nokusebenza okuphezulu kweeseva kwiindawo ezinomthwalo ophezulu.
ICANDELO 02 Ubonelelo lwaMandla eSeva
| Iindawo zoSetyenziso | Uhlobo lweCapacitor | Umfanekiso | Ukhetho olucetyiswayo |
| Ubonelelo lwaMandla eSeva | I-Aluminium Electrolytic Capacitor yoLwandiso lwe-Liquid Snap-in |  | IDC3 |
| Ii-capacitors ze-polymer Hybrid Aluminium Electrolytic |  | I-VHT | |
 | I-NHT | ||
| Ii-capacitor ze-electrolytic ze-aluminium eqinileyo ye-polymer |  | I-NPC | |
| I-polymer eqhubayoii-capacitors ze-electrolytic ze-tantalum |  | I-TPD40 | |
| Ii-capacitor ze-electrolytic ze-polymer ezinee-multilayer polymer solid aluminium electrolytic |  | I-MPD19,MPD28 |
Ukusetyenziswa kwamandla okwandayo kwezixhobo zeseva ezifana neeprosesa kunye neeGPU kufuna izixhobo zamandla ezikwaziyo ukusebenza ixesha elide, ngaphandle kwempazamo, ukufakelwa kwe-voltage ebanzi, ukuphuma kwamandla okuzinzileyo, kunye nokuphathwa kokugqithisa ngexesha lokuguquguquka kwezibalo. Ukusetyenziswa kwezixhobo ze-semiconductor zesizukulwana sesithathu (iSiC, iGaN) kuye kwaphucula kakhulu i-server miniaturization kwaye kwaphucula kakhulu ukusebenza kakuhle. NgoJulayi, iNavitas ikhuphe isisombululo sayo esitsha samandla seseva yedatha yeCRPS185 4.5kW AI, kunye neYMIN ebonelela ngezisombululo ze-capacitor ezikumgangatho ophezulu, eziqinileyo. Ii-capacitor ze-CW3 zolwelo ezisebenza kakuhle kunyeI-LKMIi-capacitor ze-plug-in ezingamanzi ziyacetyiswa kwicala lokufaka umbane kwiseva, ngelixa zizinzile kwaye zithembekileI-NPXIi-capacitors eziqinileyo ziyacetyiswa kwicala lemveliso. I-YMIN isebenzisana nababoneleli bezisombululo zecandelo elisebenzayo ukuqhuba uphuhliso lweziko ledatha.
ICANDELO 03 Ugcino lweSeva
| Iindawo zoSetyenziso | Uhlobo lweCapacitor | Umfanekiso | Ukhetho olucetyiswayo |
| Indawo yokugcina iseva | Ii-capacitor ze-polymer tantalum electrolytic eziqhubayo |  | I-TPD15,TPD19 |
| Ii-capacitor ze-electrolytic ze-polymer ezinee-multilayer polymer solid aluminium electrolytic |  | I-MPX,I-MPD19,MPD28 | |
| Ii-capacitor ze-electrolytic ze-aluminium ezixutyiweyo ze-polymer |  | I-NGY,I-NHT | |
| Ulweloii-capacitors ze-aluminium electrolytic |  | I-LKM,I-LKF |
Njengenxalenye ephambili, ii-SSD kufuneka zibe nesantya esiphezulu sokufunda/ukubhala, i-latency ephantsi, uxinano oluphezulu lokugcina idatha, kunye noyilo oluncinci, ngelixa ziqinisekisa ukuthembeka kwedatha ngexesha lokulahleka kombane.
- Ii-capacitors ze-polymer Hybrid Aluminium Electrolytic: Ngenxa yokuba zinamandla aphezulu ombane, ezi capacitors zinokuphendula ngokukhawuleza kwaye zibonelele ngombane ofunekayo, ziqinisekisa ukusebenza kakuhle kwe-SSD phantsi kwemithwalo ephezulu kwaye zithintele ukonakala kokusebenza okanye ukulahleka kwedatha ngenxa yokungabikho kombane owaneleyo.
- Ii-Capacitors ze-Electrolytic ze-Multilayer Polymer Solid Aluminium Electrolytic: Zine-ESR ephantsi (Equivalent Series Resistance), ezi capacitors zinceda ekunciphiseni ukulahleka kwamandla ngexesha lokutshaja nokukhupha, ngaloo ndlela zibonelela ngemveliso ye-voltage ezinzileyo ngakumbi.
Ii-Capacitors ze-Conductive Polymer Tantalum Electrolytic: Zaziwa ngobuninzi bazo be-capacitance obuphezulu kakhulu, ezi capacitors zigcina itshaja eninzi kwindawo encinci, zibonelela ngenkxaso yamandla enamandla yokugcina iseva. Ukudibanisa inkxaso ye-DC ezinzileyo kunye nobuninzi be-capacitance obuphezulu kuvumela i-SSD ukuba iphendule ngokukhawuleza kwiimfuno zamandla ezikhawulezileyo, iqinisekisa ukuhanjiswa kwedatha okuqhubekayo kunye nokugcinwa kwayo.
ICANDELO 04 Iiswitshi zeSeva
| Iindawo zoSetyenziso | Uhlobo lweCapacitor | Umfanekiso | Ukhetho olucetyiswayo |
| Utshintsho lweSeva | Ii-capacitor ze-electrolytic ze-polymer ezinee-multilayer polymer solid aluminium electrolytic | | I-MPS,I-MPD19,MPD28 |
| Ii-capacitor ze-electrolytic ze-aluminium eqinileyo ye-polymer | | I-NPC |
Ukubonelela nge-bandwidth ephezulu kunye ne-latency ephantsi, ukuhlangabezana nokusebenza kakuhle kokudluliselwa kwedatha kunye neemfuno zokukhula ngokuthe tye kwimisebenzi yekhompyutha ye-AI, iiseva zifuna iiswitshi ukuba zibe nokusebenza okuphezulu, ukuthembeka okuphezulu, uqwalaselo oluguquguqukayo, kunye nokwandiswa okuhle.
- Ii-Capacitors ze-Electrolytic zePolymer Solid Aluminium: Ngenxa yokuba zikwazi ukumelana nemisinga emikhulu ye-ripple, ezi capacitors zinokusingatha utshintsho oluntsonkothileyo lomthwalo wamandla, zinceda iiswitshi zigcine uzinzo xa zijongene nethrafikhi yenethiwekhi etshintsha ngokukhawuleza. Ukongeza, ezi capacitors zinokumelana okunamandla nokunyuka kombane ophezulu, zikhusela ngempumelelo iisekethe ekonakalisweni ngexesha leempembelelo ezinkulu zamandla. Oku kuthintela ukungaphumeleli kweesekethe ngenxa yemisinga ephezulu ekhawulezileyo, ukuqinisekisa ukusebenza okuzinzileyo kweeswitshi phantsi kweemeko ezinzima.
- Ii-Capacitors ze-Electrolytic ze-Stacked Polymer Solid Aluminium: Zine-ESR ephantsi kakhulu (ngaphantsi kwe-3mΩ) kunye nomthamo omnye wamandla e-ripple we-10A, ezi capacitors zinciphisa ukulahleka kwamandla kwaye ziphucula ukusebenza kakuhle kwamandla eeswitshi. Ukunyamezelana kwamandla e-ripple ephezulu kuqinisekisa ukuba ii-capacitors ezihlanganisiweyo zigcina imveliso yamandla ezinzileyo xa iswitshi icubungula idatha eninzi, okuqinisekisa ukuhanjiswa kwethrafikhi yenethiwekhi okugudileyo.
ICANDELO 05 Isango leSeva
| Iindawo zoSetyenziso | Uhlobo lweCapacitor | Umfanekiso | Ukhetho olucetyiswayo |
| Isango leSeva | I-capacitor ye-electrolytic ye-polymer enezingqimba ezininzi | | I-MPS,I-MPD19,MPD28 |
Njengesikhungo esibalulekileyo sokudluliselwa kwedatha, ii-server gateways ziyaguquka ziye ekusebenzeni okuphezulu, ukusetyenziswa kwamandla aphantsi, kunye nokudibanisa okuphezulu. Nangona kunjalo, ii-gateways ezikhoyo zisajongene nemingeni kulawulo lwamandla, amandla okucoca, ukusasazwa kobushushu, kunye noyilo lwendawo.
- Ii-Capacitors ze-Electrolytic ze-Polymer eziMaleko amaninzi: I-ESR ephantsi kakhulu (ngaphantsi kwe-3mΩ) yezi capacitors ithetha ukuba ukulahleka kwamandla kumaza aphezulu kuncinci, okunceda ukunciphisa ukulahleka kwamandla ngexesha lenkqubo yokuguqula amandla kunye nokuphucula ukusebenza kakuhle kwamandla. Ukongeza, amandla azo okuhluza anamandla kunye nokunyuka kobushushu obuphantsi kakhulu kuthintela ngokufanelekileyo ukuguquguquka kwamandla kunye nengxolo ye-ripple. Oku kunciphisa ukuphazamiseka kwengxolo kuphucula kakhulu ukuchaneka kokudluliselwa kwedatha kunye nozinzo xa kusingathwa unxibelelwano lwedatha olukhawulezayo.
Isiphelo
Ukususela kwiibhodi zomama ukuya kwizixhobo zombane, ukusuka kwindawo yokugcina ukuya kwiingcango, kunye neeswitshi, ii-capacitors ze-YMIN, ezine-ESR ephantsi, uxinano oluphezulu lwe-capacitance, ukumelana nemisinga emikhulu ye-ripple, kunye nokunyamezelana nobushushu obuphezulu, ziye zaba zizinto ezibalulekileyo ezixhasa ukusebenza kakuhle nokuzinzileyo kweeseva. Zinegalelo ngokupheleleyo kubuchule bokuyila kunye nokuphucula ukusebenza kwezixhobo ezibalulekileyo zeeseva. Khetha ii-capacitors ze-YMIN ukwakha indawo yokusebenza ezinzileyo nethembekileyo kwiiseva zakho.
Ixesha leposi: Novemba-11-2024