I-TQD42:
◆Iprofayili encinci (L7.3×W4.3×H4.2)
◆Iitheminali ezisezantsi, i-ESL ephantsi
◆Iyakwazi ukumelana nombane ophezulu (ubuninzi be-100V)
◆I-RoHS iyahambelana (2011/65/EU)
Kwiiseva ze-AI, ii-SSD zezona zinto ziphambili zokugcina nokubuyisa idatha, kwaye ukusebenza kwazo kuchaphazela ngqo uqeqesho kunye nokusebenza kakuhle kwe-inference. Ngokusetyenziswa ngokubanzi kwe-PCIe 5.0/6.0 interfaces, ukusetyenziswa kwamandla e-SSD kunye neemfuno zangoku ezikhawulezileyo kuye kwanda kakhulu, okwenza ukukhethwa kwee-capacitors ze-Power Loss Protection (PLP) kubaluleke kakhulu kuzinzo lwenkqubo.
Ingakumbi phantsi kweemeko zobushushu obuphezulu, umthwalo ophezulu, kunye nokusebenza rhoqo iiyure ezingama-24/7, ii-capacitors kufuneka zihlangabezane neemfuno ezininzi ngaxeshanye, kubandakanya i-ESR ephantsi, uxinano oluphezulu lwe-capacitance, ubomi obude, kunye nokuzinza kobushushu obuphezulu. Ngaphandle koko, ilahleko yedatha, ukonakala kwe-firmware, okanye ukuphahlazeka kwenkqubo kunokwenzeka.
Kutheni Ukukhethwa kweCapacitor Kuchaphazela Ngokuthe Tye Ukusebenza kweSSD kunye Nobude Bobomi
Xa i-SSD ifumana ukucima kombane ngequbuliso, i-PLP capacitor kufuneka ikhuphe amandla ayo agciniweyo ngaphakathi kwee-millisecond ukuqinisekisa ukubhalwa kwedatha ngokukhuselekileyo kwi-NAND flash memory. Ukuba i-ESR ye-capacitor iphezulu kakhulu, kuya kubakho ukwehla okukhulu kwe-voltage ngexesha lokukhupha, okunokukhokelela ekusileleni kokubhala. Ukuba i-capacitance ayonelanga okanye ixabiso le-capacitance libola kakhulu kumaqondo obushushu aphezulu, ayinakubonelela ngexesha elaneleyo lokubamba. Ngaphezu koko, kwii-SSD ezincinci ze-M.2 (umz., ubukhulu obuyi-5mm), ukuphakama kwe-capacitor kudla ngokukhawulelwa ngaphantsi kwe-1.9mm, kwaye ukusebenza kakuhle kwe-volumetric (ixabiso le-CV) kumisela ngokuthe ngqo ukuba ukugcinwa kwamandla okwaneleyo kunokufezekiswa kwindawo elinganiselweyo.
Izisombululo ze-YMIN Capacitor
Ukuqhekeza imiqobo yokugcina izinto ukuze kuhlangatyezwane neemfuno zexesha le-AI
Isisombululo A: Ii-Conductive Polymer Tantalum Electrolytic Capacitors – Uphawu Lokusebenza Kwesithuba Esiphezulu
Ii-capacitor ze-polymer tantalum electrolytic ze-YMIN ze-TQD series conductive polymer tantalum electrolytic, ezinoyilo lwazo oluncinci kakhulu (1.5mm), zilungele ngokupheleleyo ii-SSD ze-M.2 ezincinci kakhulu, zisombulula ingxaki yokunqongophala kwendawo. Ixabiso eliphezulu le-CV (1.0μF/mm³) kunye nokuzinza kobushushu obuphezulu kwee-capacitors ze-tantalum kuqinisekisa ukuba nokuba zincinci kakhulu, zinokubonelela ngamandla okukhusela ukucima umbane kwi-SSD, ukuqinisekisa ukusebenza kwayo okuzinzileyo ixesha elide phantsi kobushushu obuphezulu kunye neendawo ezinomthwalo ophezulu.
Ibhityile kakhulu kwaye inobuninzi obuphezulu:Uthotho lwe-TQDingaba nobude obuphantsi obuyi-1.5mm kwaye inexabiso le-CV elifikelela kwi-1.0μF/mm³, nto leyo eyenza ukuba ibe lolona khetho lufanelekileyo kwii-SSD ze-M.2 ezincinci kakhulu.
Iqinile kwaye Ihlala Ixesha Elide: Isakhiwo esitsha esiqinileyo, esinobukhulu obupheleleyo esinobomi obungaphezulu kweeyure ezili-100,000 kwi-75°C, kwaye siphumelele uvavanyo oluqinileyo lwe-85°C oluphindwe kabini, sigcina uzinzo phantsi kweemeko zobushushu obuphezulu kunye nokufuma kwexesha elide.
Ukusebenza Okuzinzileyo: Idatha yetshathi ibonisa utshintsho oluncinci kwi-capacitance (C) kunye nokumelana nochungechunge olulinganayo (ESR) ngexesha kunye nobushushu, okubonelela ngokhuseleko oluqhubekayo noluthembekileyo.
Ixesha Elide Lokuphila Nokumelana Nemozulu Ephakamileyo: Isakhiwo esiqinileyo esinobomi obulindelekileyo obudlula iiyure ezili-100,000 kwi-75°C. Amanyathelo amaninzi okumelana nokufuma aqinisekisa ukuba imveliso idlula uvavanyo oluphindwe kabini lobushushu obungaguqukiyo kunye nokufuma kwe-85°C, olufanele ukusetyenziswa ngokuzinzileyo phantsi kwemithwalo yobushushu obuphezulu bexesha elide.
Umfanekiso 1: Utshintsho lwe-LC lwe-35V 68μF Tantalum Capacitor ngokuhamba kwexesha
Umfanekiso 2: Utshintsho lwe-ESR lwe-35V 68μF tantalum capacitor ngokuhamba kwexesha
Umfanekiso 3: Utshintsho lwe-ΔC/Co ngokuhamba kwexesha kwi-35V 68μF tantalum capacitor
Ukhetho B: Ii-Polymer Hybrid Aluminium Electrolytic Capacitors – Ukhetho Oluphezulu Lokuthembeka Okuphezulu Nokusebenza Kakuhle Ngeendleko
Kwii-SSD zezinga leshishini ezifuna amandla amakhulu, ii-capacitor ze-electrolytic ze-ymin ze-polymer hybrid aluminum zilukhetho olufanelekileyo ngenxa yokuba zisebenza kakuhle kakhulu. Zibonelela ngobomi obude kakhulu beeyure ezili-10,000 kwi-105℃, zigcina i-ESR ephantsi kunye nozinzo olufanelekileyo lomthamo nakwiindawo ezinotshintsho olukhulu lobushushu.
Ihlala ixesha elide kwaye ihlala ixesha elide: Ibonelela ngeeyure zokusebenza ezingaphezulu kwe-10,000 kwi-105℃, ihlangabezana neemfuno zokusebenza zexesha elide zeeseva.
Ilungele inkqubo: Imo yokusilela "yi-open circuit," enika ukhuseleko olukhulu kwiinkqubo zokugcina idatha ezixabisa kakhulu xa kuthelekiswa nemo ye-short-circuit.
Inzuzo yeendleko: Ukuphucula kakhulu iindleko ze-BOM ngelixa kufezekisa ukusebenza okufanayo, okwenza ukuba ibe lukhetho oluhle kakhulu kwii-SSD eziqhelekileyo nezinomthamo omkhulu weshishini.
I-ymin Conductive Polymer Tantalum vs. I-Solid-Liquid Hybrid Aluminium Electrolytic Capacitors
Ukujongana nemingeni engentla, i-ymin inikezela ngezisombululo ezimbini eziphambili ze-PLP capacitor. Oku kulandelayo kukuthelekisa okucwangcisiweyo okusekelwe kwidatha elinganisiweyo:
Itheyibhile 1: I-Conductive Polymer Tantalum kunye ne-Solid-Liquid Hybrid Aluminium Electrolytic Capacitor Iimpawu zeMveliso
| Ubukhulu beempawu | I-Conductive Polymer Tantalum Electrolytic Capacitor | I-Polymer Hybrid Power Aluminium Electrolytic Capacitor | Ixabiso loYilo lwe-SSD |
| Ukusebenza kakuhle komthamo (Ixabiso leCV) | Iphezulu Kakhulu (1.0μF/mm³) | Phezulu (0.46μF/mm³) | Ii-capacitors zeTantalum zezona zikhetho zokuqala kuyilo oluncinci kakhulu |
| Ukuphakama kweMveliso | Ibhityile kakhulu, ingaba ngaphantsi kwe-1.5mm | Ububanzi obuncinci, obufakwe kumphezulu obumalunga ne-3.55mm | Ii-capacitor zeTantalum azifuni ukufakwa kwe-PCB; ii-capacitor ze-aluminium electrolytic zifuna uyilo lwe-PCB slotting |
| Ukumelana nothotho olulinganayo (ESR) | Iphantsi | Iphantsi Kakhulu | Ii-capacitor ze-electrolytic ze-aluminium ezixutyiweyo zinamandla okukhupha ngokukhawuleza kunye nempendulo engcono |
| Ubomi beNkonzo | Inde Kakhulu (Imeko eqinileyo) | I-Long (Inkqubo yeHybrid eqinileyo yolwelo) | Zombini ziyahlangabezana neemfuno zobomi obude benkonzo, kwaye ubomi benkonzo yethiyori ye-tantalum capacitors bungcono |
| Iimpawu zobushushu | Igqibelele, ixabiso le-capacitance/ESR alitshintshi kangako ngobushushu | Ilungile, ixabiso le-capacitance/ESR alitshintshi kangako ngobushushu | Zombini zisebenza ngokuzinzileyo kwiindawo ezinobushushu obuphezulu |
| Imo Yokusilela | I-short-circuit (Uyilo lokukhusela i-circuit luyafuneka) | Isekethe evulekileyo | Indlela yokusilela kwee-capacitors ze-aluminium electrolytic ezixutyiweyo ikhuselekile, kwaye umngcipheko wenkqubo uphantsi. |
| Ixabiso | Phezulu | Inezibonelelo ezibalulekileyo | Ii-capacitors ze-electrolytic ze-aluminium ze-hybrid zinokuphucula kakhulu iindleko zizonke |
Itheyibhile 2: Uthelekiso lweeNkcukacha eziqhelekileyo zeConductive Polymer Tantalum kunye neeSolid-Liquid Hybrid Aluminium Electrolytic Cells
| Ipharamitha yesitshixo / Ixabiso lobuchule | I-YMIN Aluminium Electrolytic Capacitor TQD 35V47μF (7.3 * 4.3 * 1.5) | I-Solid Hybrid Aluminium Electrolytic Capacitor NGY 35V100μF (5 * 11) |
| I-Voltage yokunyuka | 41V | 41V |
| I-Peak Withstand Voltage (Encinci) | 47.3V | 55V |
| I-Voltage yokusebenza exhaswayo | 35V | 35V |
| Uluhlu lokunyamezelana koMbane | ± 20% | ± 10% |
| Ixabiso eliqhelekileyo loMbane | Malunga ne-42μF | Malunga ne-105μF |
| Ubukhulu obuthile | 7.3x4.3x1.5mm, Ukuphakama kweCapacitor: 1.5mm | φ5.0x11.5mm, Ukubeka iCapacitor - phantsi Ukuphakama: 5.0mm (Ixhasa ukubeka - phantsi, kufuneka uyilo lwe-PCB slot) |
| Uluhlu lobushushu bokusebenza | -55℃~ +105℃ | -55℃~ +105℃ |
| Ubomi Obulindelekileyo | >iiyure ezingama-2000 @ 105℃ | >10000 iiyure @ 105℃ |
| >100000 iiyure @ 75℃ | >80000 iiyure @ 75℃ | |
| Umda ophantsi woMbane ekupheleni koBomi obuLinganisiweyo | Ngaphezulu kwe-90% yexabiso lokuqala le-capacitance | Ngaphezulu kwe-85% yexabiso lokuqala le-capacitance |
| Utshintsho lweCapacitance kunye nobushushu | -5%~ +20% uluhlu (-55℃~ +105℃) | Uluhlu lwe-±7% (-55℃ ~ +105℃) |
| Itshaja - Ukukhupha Itshaja Ukumelana Nobuchule | Emva kwemijikelo yokukhupha itshaja engama-20,000, amandla ombane ahlala engaphezulu kwama-90% exabiso lokuqala | Emva kwemijikelo yokukhupha itshaja engama-20,000, amandla ombane ahlala engaphezulu kwama-90% exabiso lokuqala |
| Uthelekiso lweendleko | 100% (Uphawu lokulinganisa) | Malunga ne-15% (Iindleko zezinto + iindleko zenkqubo, ukwehla okulindelweyo okupheleleyo malunga ne-85%) |
Ukuthelekiswa kwezisombululo ze-YMIN Capacitor: Ezilungelelaniswe ngokugqibeleleyo neemfuno ezahlukeneyo zesicelo se-SSD
Itheyibhile 3: Iingcebiso zoKhetho lwe-YMIN Capacitor kwii-SSD ezahlukeneyo
| Imizekelo yeSicelo se-SSD | Isisombululo Esicetyiswayo | Isizathu Esiphambili | Isalathiso seNkcazelo eqhelekileyo ye-YMIN |
| I-SSD ye-M.2 encinci kakhulu (ubude obuyi-5mm) | I-Conductive Polymer Tantalum Electrolytic Capacitor | Isisombululo sodwa esinokubonelela nge-capacitance ephezulu kubude be-millimeter | I-TQD 35V 47μF (ukuphakama kwe-1.5mm) |
| I-SSD ye-AI Server esebenza kakuhle | I-Conductive Polymer Tantalum Electrolytic Capacitor | Ixesha elide lokuphila, ukuthembeka okuphezulu, ukufanisa ixesha lewaranti yeseva | I-TQD 35V 47/68μF |
| I-SSD ye-SATA eyintloko/yexabiso - enovelwano | I-Polymer Hybrid Power Aluminium Electrolytic Capacitor | Eyona ndleko ilungileyo - umlinganiselo wokusebenza, oqinisekisa ukuthembeka okusisiseko kunye nobomi | NGY 35V 100μF |
| I-SSD enkulu enomthamo omkhulu yeShishini - inqanaba le-U.2 | Izisombululo ezimbini ziyafumaneka | Ukusebenza okuphezulu: Ixabiso eliphezulu - ukusebenza kwee-capacitors ze-tantalum; Ii-capacitors ze-aluminium ezixutyiweyo | Yenzelwe ngokweendleko zabathengi kunye neenjongo zokusebenza |
Icandelo le-Q&A
Q: Ungakhetha njani phakathi kweentlobo ezimbini zee-capacitors?
A: Ukhetho luxhomekeke kwiimfuno zakho eziphambili.
Ukuba uyilo lwakho lujongene nemida yendawo engqongqo (njenge-M.2 encinci kakhulu) kwaye lufuna uzinzo oluphezulu lobushushu obuphezulu kunye nobomi obude, ii-ymin conductive polymer tantalum electrolytic capacitors zezona zikhetho zakho zifanelekileyo.
Ukuba uyilo lwakho lunendawo ethile yoyilo kwaye lufuna ibhalansi engcono phakathi kokuthembeka kunye neendleko zenkqubo iyonke, ngelixa ukhetha imo yokusilela "yesekethe evulekileyo" ekhuselekileyo, ii-Ymin polymer hybrid aluminum electrolytic capacitors zisisombululo esingcono.
Isiphelo
Khetha i-ymin ukuqinisekisa uzinzo kunye nokusebenza kwenkqubo yakho yokugcina iseva ye-AI.
I-ymin inikezela ngemigca emibini ephambili yemveliso kwicandelo le-capacitor—ii-capacitor ze-polymer tantalum electrolytic eziqhubayo kunye nee-capacitor ze-polymer hybrid aluminium electrolytic. Nokuba zeze-SSD ezixineneyo kakhulu okanye ii-SSD zezinga leshishini ezifuna amandla aphezulu kunye nenkxaso yamandla aphezulu, singabonelela ngeengcebiso zobungcali nezithembekileyo zokukhetha ii-capacitor, sinceda abathengi bafumane ibhalansi engcono phakathi kokusebenza, iindleko, kunye nokuthembeka. Ukuze ufumane iinkcukacha ezineenkcukacha, iingxelo zovavanyo, iitafile zokukhetha, okanye ukucela iisampulu, nceda undwendwele iwebhusayithi ye-ymin okanye unxibelelane nenkxaso yethu yobugcisa. Singabonelela ngenkxaso yokukhetha umntu ngamnye kwiprojekthi yakho ethile.
Ixesha lokuthumela: Feb-05-2026