| Izindawo Zokufaka Isicelo | Uhlobo lwe-Capacitor | Isithombe | Inketho enconyiwe |
| I-Motherboard Yeseva | I-Multilayer polymer eqinile ye-aluminium electrolytic capacitor |  | MPS,I-MPD19,MPD28,MPU41 |
| Conductive polymer tantalum electrolytic capacitors |  | I-TPB19TPD19,TPD40 | |
| I-polymer eqinile ye-aluminium electrolytic capacitor |  | VPC, VPW | |
 | I-NPC |
Ukuqinisekisa ukusebenza okuzinzile kwamaseva ngaphansi kwezimo zomthwalo ophezulu, amabhodi omama adinga ama-capacitor ane-ESR ephansi, ukwethembeka okuphezulu, ukumelana nokushisa, nempilo ende.
- I-Polymer Solid Aluminium Electrolytic Capacitors Estakiwe: Ifaka i-ESR ephansi kakhulu ye-3mΩ, lawa ma-capacitor asiza ukwehlisa ukulahleka kwamandla ngesikhathi sokuguqulwa kwamandla, ngaleyo ndlela athuthukise ukusebenza kahle kwamandla. Ama-capacitor astakiwe ahlunga kahle i-ripple nomsindo ophuma esiphakelini samandla, ehlinzeka ngomthombo wamandla ohlanzekile futhi ozinzile wamabhodi omama weseva.
- I-Conductive Polymer Tantalum Capacitors: Aziwa ngokuphendula kwawo kwemvamisa esheshayo, lawa ma-capacitor alungele ukugcinwa kwamandla nokuhlunga kumasekhethi ama-high-frequency. Zisiza ukunciphisa umthelela womsindo wemvamisa ephezulu kusekethe, zithuthukise ukunemba kokudluliswa kwedatha nokuzinza.
- I-Polymer Solid Aluminium Electrolytic Capacitors: Nge-ESR ephansi, lawa ma-capacitor aphendula ngokushesha ezidingweni zamanje ezivela ezingxenyeni zeseva, aqinisekisa ukuphuma okuzinzile phakathi nokushintshashintsha komthwalo. I-ESR ephansi iphinde yehlise ukulahleka kwamandla futhi ithuthukise ukusebenza kahle kokuguqulwa kwamandla, isekela ukusebenza okuqhubekayo, nokusebenza okuphezulu kwamaseva ezindaweni ezinomthwalo omkhulu.
INGXENYE 02 Ukunikezwa Amandla Eseva
| Izindawo Zokufaka Isicelo | Uhlobo lwe-Capacitor | Isithombe | Inketho enconyiwe |
| Ukunikezwa kwamandla eseva | I-Liquid Snap-in Aluminium Electrolytic Capacitor |  | CW3 |
| I-Polymer Hybrid Aluminium Electrolytic Capacitors |  | I-VHT | |
 | I-NHT | ||
| I-polymer eqinile ye-aluminium electrolytic capacitor |  | I-NPC | |
| I-polymer esebenzayoi-tantalum electrolytic capacitors |  | TPD40 | |
| I-Multilayer polymer eqinile ye-aluminium electrolytic capacitor |  | I-MPD19,MPD28 |
Ukusetshenziswa kwamandla okukhulayo kwezingxenye zeseva ezifana namaphrosesa nama-GPU kudinga ukunikezwa kwamandla okukwazi ukusebenza isikhathi eside, okungenaphutha, okokufaka kwamandla kagesi abanzi, okukhiphayo kwamanje okuzinzile, nokuphatha ukugcwala kakhulu ngesikhathi sokuguquguquka kwezibalo. Ukusetshenziswa kwezinto ze-semiconductor yesizukulwane sesithathu (i-SiC, i-GaN) kune-miniaturization yeseva ethuthuke kakhulu futhi kwathuthukisa kakhulu ukusebenza kahle kokusebenza. NgoJulayi, i-Navitas ikhiphe isisombululo sayo samandla seseva yesikhungo sedatha ye-CRPS185 4.5kW AI entsha, i-YMIN ihlinzeka ngezixazululo eziphezulu, i-compact capacitor. Ukusebenza okuphezulu kwe-CW3 liquid can capacitor kanyeI-LKMama-capacitor e-liquid plug-in anconyiwe ohlangothini lokufakwayo kwamandla eseva, kuyilapho ezinzile futhi ethembekile.I-NPXama-capacitor aqinile ayaphakanyiswa ohlangothini lokuphumayo. I-YMIN isebenzisana nabahlinzeki bezixazululo zengxenye esebenzayo ukushayela intuthuko yesikhungo sedatha.
INGXENYE 03 Isitoreji Seseva
| Izindawo Zokufaka Isicelo | Uhlobo lwe-Capacitor | Isithombe | Inketho enconyiwe |
| Isitoreji Seseva | Conductive polymer tantalum electrolytic capacitors |  | TPD15, TPD19 |
| I-Multilayer polymer eqinile ye-aluminium electrolytic capacitor |  | I-MPX,I-MPD19,MPD28 | |
| I-polymer hybrid aluminium electrolytic capacitors |  | NGY,I-NHT | |
| Uketshezii-aluminium electrolytic capacitors |  | I-LKM,I-LKF |
Njengengxenye eyinhloko, ama-SSD kufanele abe nesivinini esikhulu sokufunda/sokubhala, ukubambezeleka okuphansi, ukuminyana kwesitoreji esiphezulu, nomklamo ohlangene, kuyilapho eqinisekisa ubuqotho bedatha phakathi nokulahlekelwa amandla.
- I-Polymer Hybrid Aluminium Electrolytic Capacitors: Ngobuningi bawo be-capacitance ephezulu, lawa ma-capacitor angaphendula ngokushesha futhi anikeze okwamanje adingekayo, aqinisekise ukusebenza okushelelayo kwe-SSD ngaphansi kwemithwalo ephezulu futhi avimbele ukuwohloka kokusebenza noma ukulahleka kwedatha ngenxa yokungatholakali kwamanje okwanele.
- Multilayer Polymer Solid Aluminium Electrolytic Capacitors: Ifaka i-ESR ephansi (I-Equivalent Series Resistance), lawa ma-capacitor asiza ukunciphisa ukulahleka kwamandla ngesikhathi sokushaja nokukhipha, ngaleyo ndlela anikeze ukuphuma kwamandla kagesi okuzinzile.
-Conductive Polymer Tantalum Electrolytic Capacitors: Aziwa ngobuningi bawo be-ultra-high capacitance, lawa ma-capacitor agcina ukushaja okwengeziwe endaweni elinganiselwe, enikeza ukwesekwa kwamandla okuqinile kwesitoreji seseva. Inhlanganisela yokusekelwa kwe-DC okuzinzile kanye nomthamo omkhulu we-capacitance ivumela i-SSD ukuthi iphendule ngokushesha ezidingweni zamandla asheshayo, iqinisekise ukudluliswa kwedatha okuqhubekayo nokugcinwa.
INGXENYE 04 Ukushintsha Kweseva
| Izindawo Zokufaka Isicelo | Uhlobo lwe-Capacitor | Isithombe | Inketho enconyiwe |
| Ukushintsha Kweseva | I-Multilayer polymer eqinile ye-aluminium electrolytic capacitor | | MPS,I-MPD19,MPD28 |
| I-polymer eqinile ye-aluminium electrolytic capacitor | | I-NPC |
Ukuze unikeze umkhawulokudonsa ophezulu nokubambezeleka okuphansi, ukuhlangabezana nokusebenza kahle kokudluliselwa kwedatha kanye nezidingo zokulinganisa ezivundlile zemisebenzi yekhompyutha ye-AI, amaseva adinga ukushintshwa ukuze kube nokusebenza okuphezulu, ukwethembeka okuphezulu, ukucushwa okuguquguqukayo, nokwanda okuhle.
- I-Polymer Solid Aluminium Electrolytic Capacitors: Ngamandla abo okumelana nemisinga emikhulu ye-ripple, lawa ma-capacitor angakwazi ukuphatha ukuhlukahluka komthwalo wamanje okuyinkimbinkimbi, ukusiza ukushintshashintsha ukugcina ukuzinza lapho kubhekene nokushintsha ngokushesha kwethrafikhi yenethiwekhi. Ukwengeza, lawa ma-capacitor anokumelana okuqinile nama-surges amanje, avikela ngokuphumelelayo ama-circuits ekulimaleni phakathi nemithelela emikhulu yamanje. Lokhu kuvimbela ukwehluleka kwesifunda ngenxa yamagagasi aphezulu asheshayo, okuqinisekisa ukusebenza okuzinzile kokushintsha ngaphansi kwezimo ezinzima.
- I-Polymer Solid Aluminium Electrolytic Capacitors Estakiwe: Ifaka i-ultra-low ESR (ngaphansi kuka-3mΩ) kanye nomthamo wamanje we-ripple ongu-10A, lawa ma-capacitor anciphisa ukulahlekelwa amandla futhi athuthukise ukusebenza kahle kwamandla kwamaswishi. Ukubekezelelana okuphezulu kwamanje kuqinisekisa ukuthi ama-capacitor astakiwe agcina okukhiphayo kwamanje okuzinzile lapho iswishi icubungula inani elikhulu ledatha, iqinisekisa ukudluliswa kwethrafikhi yenethiwekhi ebushelelezi.
INGXENYE 05 Isango Leseva
| Izindawo Zokufaka Isicelo | Uhlobo lwe-Capacitor | Isithombe | Inketho enconyiwe |
| Isango leseva | I-Multilayer polymer eqinile ye-aluminium electrolytic capacitor | | MPS,I-MPD19,MPD28 |
Njengehabhu elibalulekile lokudluliswa kwedatha, amasango eseva athuthukela ekusebenzeni okuphezulu, ukusetshenziswa kwamandla okuphansi, nokuhlanganiswa okuphezulu. Kodwa-ke, amasango akhona asabhekene nezinselele ekuphathweni kwamandla, amandla okuhlunga, ukuqeda ukushisa, kanye nesakhiwo sendawo.
- I-Multilayer Polymer Solid Aluminium Electrolytic Capacitors: I-ultra-low ESR (ngaphansi kuka-3mΩ) yalawa ma-capacitor isho ukuthi ukulahlekelwa kwamandla kumafrikhwensi aphezulu kuncane, okusiza ukunciphisa ukulahleka kwamandla ngesikhathi senqubo yokuguqulwa kwamandla kanye nokuthuthukisa ukusebenza kahle kwamandla. Ukwengeza, amandla abo okuhlunga anamandla kanye nezinga lokushisa eliphansi kakhulu le-ripple licindezela ngempumelelo ukuguquguquka kwamandla nomsindo onyakazayo. Lokhu kwehliswa kokuphazamiseka komsindo kuthuthukisa kakhulu ukunemba kokudluliswa kwedatha nokuzinza lapho kusingathwa ukuxhumana kwedatha okunesivinini esikhulu.
Isiphetho
Kusukela kuma-motherboard kuya ezintweni zamandla, ukusuka endaweni yokugcina kuya emasangweni, namaswishi, ama-YMIN capacitor, ane-ESR yawo ephansi, ukuminyana okuphezulu kwamandla, ukumelana namaza amakhulu agelezayo, nokubekezelela izinga lokushisa eliphezulu, sekuphenduke izingxenye ezibalulekile ezisekela ukusebenza kahle nokuzinzile kwe amaseva. Banikela ngokugcwele ekwakhiweni okusha kwezobuchwepheshe kanye nasekuthuthukisweni kokusebenza kwemishini yeseva ebalulekile. Khetha ama-YMIN capacitor ukuze wakhe indawo yokusebenza ezinzile futhi enokwethenjelwa yamaseva akho.
Isikhathi sokuthumela: Nov-11-2024