Imisebenzi Eyisisekelo Nezinselele Zesitoreji Seseva Se-SSD
Njengoba amaseva wedatha ye-AI eba indawo okugxilwe kuyo ku-IT hardware landscape, izinhlelo zabo zokugcina ziya ngokuya ziba yinkimbinkimbi futhi zibucayi. Ukuze kuhlangatshezwane nezidingo zokucutshungulwa kwedatha okukhulu, ama-SSD (Ama-Solid-State Drives) abe ingxenye ewumgogodla. Ama-SSD awadingi nje kuphela ukunikeza isivinini esisebenzayo sokufunda/sokubhala nokubambezeleka okuphansi kakhulu kodwa futhi adinga ukuminyana okuphezulu kwesitoreji kanye nomklamo ohlangene. Ukwengeza, izindlela ezihlakaniphile zokuvikela ukulahleka kwamandla zibalulekile ukuze kuqinisekiswe ubuqotho bedatha ezimeni eziphuthumayo. Ngakho-ke, lapho ukhetha ama-capacitor, ukucatshangelwa okubalulekile kufaka phakathi umthamo omkhulu, ukuthembeka okuphezulu, i-miniaturization, nokumelana nokushintsha ama-surges.
01 Indima ebalulekile yama-capacitor e-aluminium e-electrolytic ewuketshezi ezinhlelweni zokugcina
I-aluminium electrolytic capacitor ewuketshezi inikeza umthamo omkhulu wokugcina ukushaja, okubalulekile ezinhlelweni zokugcina ezidinga ukugcinwa kwedatha okukhulu. Iqinisekisa ukufunda/ukubhala idatha esheshayo kanye nokugcinwa kwesikhashana. Izinzuzo zayo zimi kanje:
- I-Compact Design: Izacile futhi incane ngosayizi, ihlangabezana nezidingo zama-SSD azacile.
- Ukumelana Nokwethuka: Iyakwazi ukumelana nemijikelezo yokushaqeka engaphezu kuka-3,000 ku-105°C cishe izinsuku ezingama-50, iqinisekisa ukuzinza kwe-SSD.
- Ukuminyana Okuphezulu: I-high-density capacitance ye-electrolytic capacitor kusekethe yokuvikela ukulahlekelwa kwamandla e-SSD ibalulekile. Ama-capacitor anomthamo omkhulu anganikeza isitoreji samandla esikhulu endaweni elinganiselwe, aqinisekise ukuthi kunikezwa amandla anele ku-chip yesilawuli se-SSD ngesikhathi sokucima kukagesi, okuvumela idatha yenqolobane ukuthi ibhalwe ngokugcwele futhi kuvimbele ukulahleka kwedatha. Lokhu kuphumela ekusebenzeni okuphakeme ekuvikelweni kokulahlekelwa kwamandla nokuthembeka kwedatha, okuyenza ifaneleke ikakhulukazi izimo ezinezidingo zokugcinwa kwedatha zokuphepha okuphezulu.
Lezi zici zama-capacitor e-aluminium e-electrolytic ewuketshezi zinikeza izinzuzo eziningi njengokuzinza okuphezulu, ukuminyana okuphezulu, ukumelana nokushaqeka, nokubumbana, okuqinisekisa ukusebenza kahle, okuzinzile, nokuvikelekile kwezinhlelo zokugcina iseva.
| Uchungechunge | I-Volt | Amandla (uF) | Ubukhulu (mm) | Impilo | Imikhiqizo Izinzuzo kanye nezici |
| LK | 35 | 470 | 6.3*23 | 105℃/8000H | Imvamisa ephezulu kanye nokumelana okukhulu kwe-ripple yamanje, imvamisa ephezulu kanye nokumelana okuphansi |
| I-LKF | 35 | 1800 | 10*30 | 105℃/10000H | |
| 1800 | 12.5*25 | ||||
| 2200 | 10*30 | ||||
| I-LKM | 35 | 2700 | 12.5*30 | ||
| 3300 | 12.5*30 |
02 Iqhaza Elibalulekile leI-Conductive Polymer Hybrid Aluminium Electrolytic CapacitorsEzinhlelweni Zokugcina
Iqhaza Elibalulekile leI-Conductive Polymer Hybrid Aluminium Electrolytic CapacitorsEkulawuleni Amandla Eseva kanye Nokulawulwa Kwegesi
Ama-capacitor e-Hybrid solid-liquid adlala indima ebalulekile ekulawuleni amandla eseva kanye nokulawulwa kwamandla kagesi, anikeza lezi zinzuzo ezilandelayo:
- Ukuvikelwa Kokulahlekelwa Amandla: Kuzinhlelo zokusebenza zebhizinisi nezimo lapho ukuphepha kwedatha kubaluleke kakhulu, umsebenzi wokuvikela ukulahleka kwamandla wama-hybrid capacitor ubaluleke kakhulu. Lawa ma-capacitor ngokuvamile anikeza ukuthembeka okuphezulu nokuzinza, okuqinisekisa ukuphepha kwedatha nokusebenza kahle kwezinhlelo ezibucayi zebhizinisi.
- Ukuminyana Okuphezulu: Angakwazi ukuhlinzeka ngokushesha ngamaza amakhulu, ahlangabezane nezidingo zamanje eziphezulu ezisheshayo zama-SSD, ikakhulukazi ahamba phambili ekuphatheni amavolumu amakhulu okusebenza kokufunda/ukubhala okungahleliwe.
- I-Compact Design: Usayizi wabo omncane usekela izidingo zephrofayili emincane yama-SSD.
- Ukushintsha i-Surge Resistance: Baqinisekisa ukuzinza kwe-SSD ngesikhathi sokusebenza kokushintsha kwamandla eseva njalo.
I-YMIN'sNGYuchungechungeI-Conductive Polymer Hybrid Aluminium Electrolytic Capacitorszinikeza ukuminyana okuphezulu komthamo kanye nokuthuthukiswa kokumelana nokukhuphuka kokushintsha, okusebenza ku-105°C kuze kufike emahoreni angu-10,000, kunciphisa izidingo zokunakekela kanye nokuthuthukisa ukwethembeka kwesistimu yeseva. II-NHTuchungechungei-hybrid capacitorsifaka ukumelana nezinga lokushisa eliphezulu, iqinisekisa ukusebenza kahle kwezinhlelo zesitoreji seseva ezindaweni ezinezinga lokushisa eliphezulu.
I-Conductive Polymer Hybrid Aluminium Electrolytic Capacitors
| Uchungechunge | I-Volt(V) | Amandla (uF) | Ubukhulu(mm) | I-LifeSpan | Izinzuzo nezici zomkhiqizo |
| NGY | 35 | 100 | 5*11 | 105℃/10000H | Ukumelana nokudlidliza, ukuvuza okuphansi kwamanje Hlangana nezidingo ze-AEC-Q200, ukuzinza kwezinga lokushisa eliphakeme lesikhathi eside, ukuqina kwamandla okushisa okubanzi, nokumelana nemijikelezo yokushaja engu-300,000 nokukhipha |
| 100 | 8*8 | ||||
| 180 | 5*15 | ||||
| I-NHT | 35 | 1800 | 12.5*20 | 125℃/4000H |
03 Ukusetshenziswa Okuhlakaniphile Kwe-Multilayer Polymer Aluminium Solid Electrolytic Capacitor Ezinhlelweni Zokugcina
I-Multilayer Polymer Aluminium Solid Electrolytic Capacitor, enomthamo omkhulu wokuminyana, i-ESR ephansi, nosayizi ohlangene, isetshenziswa ngokuyinhloko kumasekhethi e-SSD buffer kanye namasekethe wamandla ayisipele. Banikeza izinzuzo ezilandelayo:
- Ukusetshenziswa Kwesikhala Okulungiselelwe: Idizayini estakiwe inikeza amandla amakhulu, isekela ukwenziwa kancane kwe-SSD.
- I-Stable Voltage Regulation: Ithuthukisa ukuzinza nokuthembeka kwe-SSD phakathi nokudluliswa kwedatha ebalulekile.
- Ukuvikelwa Kokulahlekelwa Amandla: Inikeza amandla ayisipele ngesikhathi sokucisha, iqinisekisa ukuphepha kwedatha.
I-YMIN's Multilayer Polymer Aluminium Solid Electrolytic Capacitor ifaka idizayini encane enomthamo omkhulu wokuminyana kanye ne-ESR ephansi (i-ESR yangempela ingaphansi kuka-20mΩ), enika amandla imiklamo ehlangene nesebenza kahle kakhulu yezinhlelo zokugcina idatha ye-AI.
I-Multilayer Polymer Aluminium Solid Electrolytic Capacitor
| Uchungechunge | I-Volt(V) | Amandla (uF) | Ubukhulu(mm) | Impilo | Izinzuzo nezici zomkhiqizo |
| I-MPD19 | 35 | 33 | 7.3*4.3*1.9 | 105℃/2000H | Ukumelana ne-voltage ephezulu/i-ESR ephansi/i-ripple ephezulu yamanje |
| 6.3 | 220 | 7.3*4.3*1.9 | |||
| MPD28 | 35 | 47 | 7.3*4.3*2.8 | Ukumelana ne-voltage ephezulu/umthamo omkhulu/i-ESR ephansi | |
| I-MPX | 2 | 470 | 7.3*4.3*1.9 | 125℃/3000H | Izinga lokushisa eliphezulu nempilo ende / i-ultra-low ESR / high ripple current / AEC-Q200 iyahambisana / isikhathi eside izinga lokushisa eliphakeme ukuzinza |
| 2.5 | 390 | 7.3*4.3*1.9 |
04 Ukusetshenziswa Kwe-Conductive Polymer Tantalum Electrolytic Capacitors Ezinhlelweni Zokugcina
Conductive polymer tantalum electrolytic capacitorsinikeza izinzuzo ezibalulekile zokusebenza ezinhlelweni zesitoreji, ikakhulukazi mayelana nokuthembeka, impendulo yemvamisa, usayizi, kanye nebhalansi yomthamo.
- Amandla aphezulu: Ihlinzeka ngomthamo omkhulu embonini ngosayizi ofanayo.
- I-Ultra-Slim Design: Iqondana namathrendi okukhiqiza asekhaya, isebenza njengokungena esikhundleni sezingxenye zePanasonic.
- I-High Ripple yamanje: Iyakwazi ukumelana namaza amakhulu ukuze kuqinisekiswe ukuphuma kwamandla kagesi okuzinzile.
- Ukuminyana Okuphezulu Komthamo: Inikeza amandla okusekela e-DC azinzile kanye ne-ultra-slim form factor.
I-YMIN'sconductive polymer tantalum electrolytic capacitorsifaka ukuminyana kwamandla ahamba phambili embonini kanye nedizayini ezacile kakhulu, ehlangabezana nethrendi yokushintshwa kwasekhaya. Ukubekezelela okuphezulu kwe-ripple kwamanje kuqinisekisa ukuphuma kwamandla kagesi okuzinzile, kanye nekhono elihle lokusekela le-DC kanye nokuminyana okuphezulu.
| Uchungechunge | I-Volt(V) | Amandla (uF) | Ubukhulu(mm) | I-LifeSpan | Izinzuzo nezici zomkhiqizo |
| TPD15 | 35 | 47 | 7.3*4.3*1.5 | 105℃/2000H | I-Ultra-thin / high capacity / high ripple current |
| I-TPD19 | 35 | 47 | 7.3*4.3*1.9 | Iphrofayili ezacile/umthamo ophezulu/i-ripple yamanje ephezulu | |
| 68 | 7.3*4.3*1.9 |
Isifinyezo
Ama-capacitor ahlukahlukene e-YMIN asebenza njengezingxenye ezibalulekile ezinhlelweni zokugcinwa kweseva yedatha ye-AI, abonisa ukusebenza okuvelele ekuphathweni kwamandla, ukuzinza kwedatha, nokuvikelwa kokulahlekelwa amandla. Njengoba izinhlelo zokusebenza ze-AI ziba nzima kakhulu, lobu buchwepheshe be-capacitor buzoqhubeka nokuvela, buqinisekise ukuthi ama-SSD agcina ukwethembeka nokusebenza kahle kumakhompuyutha asebenza kahle kakhulu kanye nokucubungula idatha enkulu.
Shiya umlayezo wakho:http://informat.ymin.com:281/surveyweb/0/l4dkx8sf9ns6eny8f137e
Isikhathi sokuthumela: Oct-23-2024