Imisebenzi engundoqo kunye neMingeni yoGcino lweSSD yeServer
Njengoko iiseva zedatha ye-AI ziba yindawo ekugxilwe kuyo kwi-IT hardware landscape, iinkqubo zabo zokugcina ziya ziba nzima kwaye zibaluleke kakhulu. Ukuhlangabezana neemfuno zokusetyenzwa kwedatha enkulu, ii-SSD (i-Solid-State Drives) ziye zaba yinxalenye engundoqo. I-SSD ayifuni kuphela ukubonelela ngokufanelekileyo ukufunda / ukubhala ngesantya kunye ne-ultra-low latency kodwa ifuna ubuninzi bokugcina obuphezulu kunye noyilo oludibeneyo. Ukongeza, iindlela ezikrelekrele zokukhusela ilahleko yamandla zibalulekile ukuqinisekisa ukuthembeka kwedatha kwiimeko ezingxamisekileyo. Ke ngoko, xa ukhetha i-capacitors, iingqwalasela eziphambili zibandakanya ukuxinana komthamo omkhulu, ukuthembeka okuphezulu, i-miniaturization, kunye nokuchasana nokutshintsha ama-surges.
01 Indima ephambili yeI-Conductive Polymer Hybrid Aluminium Electrolytic CapacitorskwiiNkqubo zokuGcina
Indima ebalulekileyo yeI-Conductive Polymer Hybrid Aluminium Electrolytic CapacitorskuLawulo lwaMandla eSeva kunye noLawulo lweVolthage
I-Hybrid solid-liquid capacitors idlala indima ebalulekileyo kulawulo lwamandla eseva kunye nolawulo lombane, inika ezi zibonelelo zilandelayo:
- Ukhuseleko lokuLahla kwamandla: Kwizicelo zeshishini kunye neemeko apho ukhuseleko lwedatha lubaluleke kakhulu, umsebenzi wokukhusela ukulahleka kwamandla we-hybrid capacitors kubaluleke kakhulu. Ezi capacitors ngokuqhelekileyo zibonelela ngokuthembeka okuphezulu kunye nokuzinza, ukuqinisekisa ukhuseleko lwedatha kunye nokusebenza kakuhle kweenkqubo ezibalulekileyo zoshishino.
- Ukuxinana koMmandla oPhezulu: Bangakwazi ukubonelela ngokukhawuleza ama-currents amakhulu, ukuhlangabezana neemfuno eziphezulu zangoku zangoku ze-SSD, ngokukodwa ukugqwesa ukuphatha imiqulu emikhulu yemisebenzi yokufunda / ukubhala ngokungaqhelekanga.
- Uyilo olubambeneyo: Ubungakanani babo obuncinci buxhasa iimfuno zeprofayili ezincinci zee-SSD.
- Ukutshintsha Ukumelana ne-Surgery: Baqinisekisa ukuzinza kwe-SSD ngexesha lemisebenzi yokutshintsha amandla rhoqo kwiseva.
YMIN'sNGYuthothoI-Conductive Polymer Hybrid Aluminium Electrolytic Capacitorszinika ubuninzi bomthamo ophezulu kunye nokuphucula ukuguquguquka kokumelana nokunyuka, okusebenzayo kwi-105 ° C ukuya kwiiyure ze-10,000, ukunciphisa iimfuno zokugcinwa kunye nokuphucula ukuthembeka kwenkqubo yeseva. II-NHTuthothoiicapacitors ezixubileyoibonakalisa ukuchasana nobushushu obuphezulu, iqinisekisa ukusebenza kakuhle kweenkqubo zokugcina iseva kwiindawo ezinobushushu obuphezulu.
I-Conductive Polymer Hybrid Aluminium Electrolytic Capacitors
| Uthotho | IVolt(V) | Isakhono(uF) | Ubungakanani(mm) | Umsebenzi wobomi | Iinzuzo zemveliso kunye neempawu |
| NGY | 35 | 100 | 5*11 | 105℃/10000H | Ukumelana nokungcangcazela, ukuvuza okuphantsi kwangoku Dibana neemfuno ze-AEC-Q200, uzinzo lwexesha elide lobushushu obuphezulu, uzinzo lweqondo lobushushu elibanzi, kunye nokumelana ne-300,000 yentlawulo kunye nemijikelo yokukhupha |
| 100 | 8*8 | ||||
| 180 | 5*15 | ||||
| I-NHT | 35 | 1800 | 12.5*20 | 125℃/4000H |
02 Ukusetyenziswa okuBuchule kweMultilayer Polymer Aluminiyam eSolid Electrolytic Capacitor kwiiNkqubo zoGcino
I-Multilayer Polymer Aluminium Solid Electrolytic Capacitor, kunye nobuninzi bayo obuphezulu, i-ESR ephantsi, kunye nobukhulu be-compact, zisetyenziswa ngokukodwa kwiisekethe ze-SSD ze-buffer kunye neesekethe zamandla ezigcina amandla. Banikezela ngezi ncedo zilandelayo:
- UkuSetyenziswa kweNdawo okuLungileyo: Uyilo olugciniweyo lunika amandla amakhulu, ukuxhasa i-SSD miniaturization.
- Ulawulo oluzinzileyo lwamandla ombane: Ukuphucula ukuzinza kwe-SSD kunye nokuthembeka ngexesha lokudluliselwa kwedatha ebalulekileyo.
- Ukhuseleko lokuLahla kwamandla: Inika amandla okugcina ngexesha lokucima, iqinisekisa ukhuseleko lwedatha.
I-YMIN's Multilayer Polymer Aluminium Solid Electrolytic Capacitor ibonakalisa uyilo oluncinci olunomthamo ophezulu wokuxinana kunye ne-ESR ephantsi (eyona nto i-ESR ingaphantsi kwe-20mΩ), eyenza uyilo oluhlangeneyo nolusebenzayo kwiinkqubo zokugcina iseva yedatha ye-AI.
I-Multilayer Polymer Aluminiyam eSolid Electrolytic Capacitor
| Uthotho | IVolt(V) | Isakhono(uF) | Ubungakanani(mm) | Umsebenzi wobomi | Iinzuzo zemveliso kunye neempawu |
| MPD19 | 35 | 33 | 7.3*4.3*1.9 | 105℃/2000H | I-voltage ephezulu yokumelana / i-ESR ephantsi / i-ripple yangoku ephezulu |
| MPD28 | 35 | 47 | 7.3*4.3*2.8 | Ukumelana nombane ophezulu / umthamo omkhulu / i-ESR ephantsi |
03 Ukusetyenziswa kwePolymer eqhubayo yeTantalum Electrolytic Capacitors kwiiNkqubo zokuGcina
Iipolymer eziqhubayo tantalum electrolytic capacitorszibonelela ngezibonelelo zokusebenza ezibalulekileyo kwiinkqubo zokugcina, ngakumbi malunga nokuthembeka, ukuphendula rhoqo, ubungakanani, kunye nokulingana kwamandla.
- Umthamo ophezulu: Ibonelela ngomthamo omkhulu kwishishini lobungakanani obufanayo.
- Uyilo oluNcinci kakhulu: Ukulungelelanisa neendlela zokuvelisa zasekhaya, zisebenza njengokutshintshwa kwezinto zePanasonic.
- High Ripple yangoku: Iyakwazi ukumelana nemisinga enkulu yeripple ukuqinisekisa ukuphuma kwamandla ombane okuzinzileyo.
- Ukuxinana koMmandla oPhezulu: Inikezela ngenkxaso ye-DC ezinzileyo kunye ne-ultra-slim form factor.
YMIN'siipolymer conductive tantalum electrolytic capacitorsbonisa ukuxinana komthamo okhokelayo kwishishini kunye noyilo olubhityileyo kakhulu, oluhlangabezana nentsingiselo yokutshintshwa kwasekhaya. Unyamezelo lwabo oluphezulu lwangoku luqinisekisa ukuphuma kwamandla ombane okuzinzileyo, kunye nenkxaso ebalaseleyo yeDC kunye nokuxinana komthamo ophezulu.
| Uthotho | IVolt(V) | Isakhono(uF) | Ubungakanani(mm) | Umsebenzi wobomi | Iinzuzo zemveliso kunye neempawu |
| TPD15 | 35 | 47 | 7.3*4.3*1.5 | 105℃/2000H | I-Ultra-thin / umthamo ophezulu / i-ripple yangoku ephezulu |
| TPD19 | 35 | 47 | 7.3*4.3*1.9 | Inkangeleko ebhityileyo/umthamo ophezulu/umsinga ophezulu wangoku | |
| 68 | 7.3*4.3*1.9 |
Isishwankathelo
Ii-capacitors ezahlukeneyo ze-YMIN zisebenza njengamacandelo abalulekileyo kwiinkqubo zokugcina iseva yedatha ye-AI, ebonisa ukusebenza okugqwesileyo kulawulo lwamandla, ukuzinza kwedatha, kunye nokukhuselwa kokulahlekelwa kwamandla. Njengoko izicelo ze-AI ziba nzima ngakumbi, obu buchwepheshe be-capacitor buya kuqhubeka nokuguquka, ukuqinisekisa ukuba ii-SSD zigcina ukuthembeka kunye nokusebenza kakuhle kwi-computing yokusebenza okuphezulu kunye nokucubungula idatha enkulu.
Ixesha lokuposa: Oct-23-2024