Imboni yeseva ye-IDC e-China ihlangabezane nokukhula okusheshayo eminyakeni embalwa edlule. Ngokuthuthuka kwezinguquko zedijithali zaseShayina, isidingo sokucutshungulwa nokugcinwa kwedatha evela emabhizinisini nasezikhungweni zikahulumeni siye sakhula ngokuqhubekayo, okuqhubekisela phambili intuthuko yemakethe yamaseva e-IDC. Njengoba i-cloud computing kanye nezinhlelo zokusebenza zedatha ezinkulu zikhula ngokushesha, isidingo sezikhungo zedatha e-China siyanda.
Ama-Capacitor—Izingxenye Ezibalulekile Zamaseva e-IDC
Ngesikhathi sokusebenza kweseva, ama-capacitor abalulekile ekuhlinzekeni ukuhlinzekwa kwamandla okuzinzile, ukuhlunga, nokuhlukanisa. Kumaseva, ama-capacitor abekwe eduze nendawo yokugcina amandla yama-chips ukuze kuqinisekiswe ukuzinza kwamandla aqondile (owaziwa nangokuthi ukwesekwa kwe-DC noma ukulondoloza amandla okusekelayo). Futhi zisiza ukususa umsindo wefrikhwensi ephezulu ekunikezeni amandla (okwaziwa ngokuthi ukuhlunga nokuhlukanisa). Lokhu kunciphisa ngempumelelo ukuguquguquka okudlulele kwamanje kanye namandla kagesi okubangelwa imithwalo yesikhashana kumaseva, kunikeza isiqinisekiso esithembekile sokuhlinzekwa kwamandla okuzinzile.
Izinzuzo zeI-Conductive Polymer Tantalum Capacitorskanye Nemibandela Yokukhetha
Ukuthembeka Okuphezulu Nozinzo:
Ama-capacitor e-polymer tantalum e-conductive aziwa ngokuthembeka kwawo okuhle kakhulu nokuzinza. Zinikeza impilo ende yokusebenza futhi zigcina ukusebenza ngendlela efanayo ngaphansi kwezimo ezihlukahlukene, okuzenza zilungele izinhlelo zokusebenza ezibucayi njengamaseva e-IDC.
I-Low Equivalent Series Resistance (ESR):
Lawa ma-capacitor ane-ESR ephansi, eqinisekisa ukudluliswa kwamandla okuphumelelayo futhi inciphise ukulahleka kwamandla. Lesi sici sibalulekile ezinhlelweni ezidinga ukusebenza okuphezulu nokuzinza, njengoba sehlisa ukukhiqizwa kokushisa futhi sithuthukisa ukusebenza kahle kukonke.
Amandla aphezulu kanye nosayizi omncane:
Ama-capacitor e-polymer tantalum e-conductive anikeza amandla aphezulu ngosayizi ohlangene. Lokhu kuvumela imiklamo yokonga isikhala kumaseva, okubalulekile ekugcineni izikhungo zedatha eziminyana kakhulu nezisebenza kahle.
Ukusebenza Okuhle Kakhulu Kwe-Thermal:
Babonisa ukusebenza okushisayo okuphakeme, ukumelana namazinga okushisa aphezulu kanye nokugcina amandla abo kanye namanani e-ESR. Lokhu kubenza bafanelekele izindawo ezinezidingo eziqinile ezishisayo.
I-Superior Frequency Characters:
Lawa ma-capacitor anikeza izici ezinhle kakhulu zokuvama, okuwenza alungele ukuhlunga nokuhlukanisa umsindo we-high-frequency kumpahla yamandla. Lokhu kuqinisekisa ukulethwa kwamandla okuzinzile nokuhlanzekile ezingxenyeni ezibucayi kumaseva.
Imibandela Yokukhetha Ye-Conductive Polymer Tantalum Capacitors
Inani Lamandla:
Khetha inani le-capacitance ngokusekelwe kuzidingo ezithile zamandla zeseva. Amanani aphezulu omthamo afanele izinhlelo zokusebenza ezidinga ukugcinwa kwamandla okubalulekile namandla okuhlunga.
Isilinganiso samandla kagesi:
Qinisekisa ukuthi isilinganiso se-voltage ye-capacitor sifana noma sidlula i-voltage yokusebenza yesekethe yeseva. Lokhu kuvimbela ukwehluleka kwe-capacitor ngenxa yezimo ze-over-voltage.
Isilinganiso se-ESR:
Khetha ama-capacitor ane-ESR ephansi yokulethwa kwamandla asebenza kahle kakhulu kanye nokukhiqiza ukushisa okuncane. Ama-capacitor e-ESR aphansi abalulekile ezinhlelweni zokusebenza ezinokushintshwa kwemvamisa ephezulu kanye nezimo zomthwalo wesikhashana.
Usayizi kanye Nesici Sefomu:
Cabangela usayizi womzimba kanye nefomu yesici se-capacitor ukuze uqinisekise ukuthi ilingana ngaphakathi kwemikhawulo yedizayini yeseva. Ama-compact capacitor ayakhethwa ekucushweni kweseva exinene kakhulu.
Ukuqina Kokushisa:
Hlola ukuqina kokushisa kwe-capacitor, ikakhulukazi uma iseva isebenza ezindaweni ezinezinga lokushisa eliphezulu. Ama-Capacitor anokuqina okuhle kakhulu kokushisa aqinisekisa ukwethembeka nokusebenza kwesikhathi eside.
Isithunzi Somkhiqizi kanye Nezitifiketi:
Khetha ama-capacitor kubakhiqizi abathembekile abanekhwalithi efakazelwe kanye nokwethembeka. Izitifiketi ezifana ne-AEC-Q200 yezinhlelo zokusebenza zezimoto zingaphinda zibonise amazinga aphezulu ekhwalithi nokuqina.
Ngokucabangela lezi zinzuzo nezindlela zokukhetha, amaseva e-IDC angahlonyiswa ngama-capacitor e-polymer tantalum ahlinzeka ngogesi onokwethenjelwa futhi ozinzile, okunikela ekusebenzeni okuphelele nokusebenza kahle kwezikhungo zedatha.
Ukuqinisekisa Ukusebenza Kweseva Okuzinzile Nge-Conductive Polymer Tantalum Capacitors
I-YMIN's conductive polymer tantalum capacitor inikezela ngezinzuzo eziningi ezinikela ekunikezeni amandla okuzinzile kwamaseva e-IDC. Lawa ma-capacitor abonakala ngosayizi wawo ohlangene namandla aphezulu, i-ESR ephansi, ukuzifudumeza okuncane, kanye nekhono lokumelana namaza amakhulu okugeleza. Ukumelana kwazo nokugqwala, izakhiwo zokuziphilisa, ukuzinza okuphezulu, kanye nezinga lokushisa elibanzi lokusebenza elingu -55°C kuya ku-+105°C kuzenza zibe ukukhetha okuhle kakhulu kwezinhlelo zokusebenza zeseva ye-IDC.
Ngokuhlanganisa lawa ma-capacitor, amaseva e-IDC angakwazi ukugcina ukunikezwa kwamandla kagesi okuzinzile, anikeze ukusekelwa okuqinile kokusebenza kweseva nokuqinisekisa ukusebenza okuthembekile ezindaweni ezidinga kakhulu.
Ukuze uthole imininingwane eyengeziwe, sicela uvakashelewww.ymin.cn.
Isikhathi sokuthumela: Jun-15-2024