Ngokuthuthukiswa kwezimoto zamandla amasha, okokusebenza kwezimboni, neminye imikhiqizo ye-elekthronikhi enamandla amakhulu, ubuchwepheshe bokushaja okungenantambo obusebenzayo nobuzinzile obunamandla amakhulu sebuphenduke indawo yocwaningo. I-YMIN Technology ibambe lo mkhuba ngokwethula uchungechunge lwe-Q high-voltage high-Q ceramic multilayer capacitor (MLCC). Le mikhiqizo, enamamethrikhi ayo okusebenza avelele kanye nomklamo ohlangene, ibonise imiphumela emihle kakhulu yohlelo lokusebenza kumasistimu wokushaja okungenantambo anamandla aphezulu.
Amandla kagesi aphezulu kanye nokupakishwa okuhlukahlukene
Uchungechunge lwe-YMIN MLCC-Q luklanyelwe ngokukhethekile amamojula wamandla wokushaja okungenantambo wamandla aphezulu, aqhosha ngokukhuthazela kwe-voltage ephezulu ukusuka ku-1kV ukuya ku-3kV futhi amboze osayizi bephakheji abahlukene ukusuka ku-1206 kuya ku-2220 (impahla ye-NPO). Lawa ma-capacitor ahlose ukufaka esikhundleni sama-capacitor amafilimu amancane ajwayelekile anezincazelo ezifanayo, athuthukise ngokuphawulekayo ukuhlanganiswa nokuzinza kwezinhlelo zokushaja okungenantambo. Izinzuzo zabo eziyinhloko zihlanganisa i-ultra-low ESR, izici zokushisa ezinhle kakhulu, i-miniaturization, kanye nomklamo ongasindi.
Inani eliphakeme kakhulu lama-ESR
Kuziguquli zamanje ze-LLC zokushaja okungenantambo zamandla aphezulu, ubuchwepheshe obuthuthukisiwe be-Pulse Frequency Modulation (PFM) busetshenziswa esikhundleni se-Pulse Width Modulation (PWM) evamile. Kulesi sakhiwo, indima ye-resonant capacitor ibalulekile; abadingi nje kuphela ukugcina i-capacitance ezinzile phezu kwebanga lokushisa elibanzi lokusebenza kodwa futhi badinga ukumelana nemithamo ephezulu yokusebenza ngenkathi begcina i-ESR ephansi ngaphansi kwe-high-frequency, izimo eziphezulu zamanje. Lokhu kuqinisekisa ukusebenza kahle nokuthembeka kwalo lonke uhlelo.
I-Superior Temperature Characters
Uchungechunge lwe-YMIN Q lwe-MLCC lwenzelwe lezi zidingo eziqinile, ezinezici zokushisa eziphakeme. Ngisho nasezinguqukweni ezidlulele zokushisa ukusuka ku -55°C kuya ku-+125°C, izinga lokushisa lingalawulwa libe ngu-0ppm/°C omangalisayo, ngokubekezelela okungu-±30ppm/°C kuphela, okubonisa ukuzinza okungavamile. Ukwengeza, i-voltage elinganiselwe yokumelana nomkhiqizo ifinyelela izikhathi ezingaphezu kwezingu-1.5 zevelu elishiwo, futhi inani le-Q lidlula u-1000, okulenza lisebenze kahle kakhulu ezimeni zokushaja okungenantambo zamandla aphezulu.
I-Miniaturization kanye ne-Lightweight Design
Izimo ezisebenzayo zohlelo lokusebenza zibonisa ukuthi uma zisetshenziswa kusistimu yokushaja okungenantambo kazibuthe yamabhethri emoto kagesi (EV), uchungechunge lwe-YMIN Q.I-MLCCithathelwe indawo ngempumelelo ama-capacitor asekuqaleni acwebile. Ngokwesibonelo, multipleYMINAma-MLCC ochungechunge lwe-Q asetshenziswe ochungechungeni futhi ahambisanayo ukuze amiselele i-20nF, AC2kVrms i-capacitor yefilimu ezacile. Umphumela waba ukuncishiswa okucishe kube ngama-50% esikhaleni sokukhweza esiplaniwe futhi ukuphakama kokufakwa kwehliswe kwaba ingxenye eyodwa kwezinhlanu zesixazululo sokuqala. Lokhu kwathuthukisa kakhulu ukusetshenziswa kwesikhala sohlelo kanye nokusebenza kahle kokuphatha okushisayo, kwafinyelela ukuminyana okuphezulu kanye nesixazululo esithembeke kakhulu sokushaja okungenantambo.
Ifanele Izicelo Ezinembe Kakhulu
Ngokungeziwe ezinhlelweni zokushaja okungenantambo, uchungechunge lwe-YMIN Q lwe-MLCC luphinde lufanelekele izimo ezidinga ukunemba okuphezulu, njengamasekhethi esikhathi angashintshi, amasekhethi okuhlunga, namasekhethi e-oscillator. Iqinisekisa ukusebenza okunembayo okuphezulu ngenkathi ihlangabezana nezidingo ze-miniaturization kanye nobuchwepheshe bokukhweza komhlaba (i-SMT), iqhubekisela phambili ukuphromotha ukuthuthukiswa kobuchwepheshe bamandla besimanje ekuqondeni kwe-lightweight kanye ne-miniaturization.
Kafushane, uchungechunge lwe-YMIN Q lwe-MLCC, olunezici zalo eziyingqayizivele zomkhiqizo, alubonisi nje kuphela izinzuzo ezingenakuqhathaniswa ezinhlelweni zokushaja okungenantambo zamandla aphezulu kodwa futhi lwandisa imingcele yohlelo lokusebenza lwama-capacitor asebenza kahle kumadizayini wesekethe ahlukahlukene. Kube namandla abalulekile ekuthuthukiseni ubuchwepheshe bokushaja okungenantambo obunamandla amakhulu.
Isikhathi sokuthumela: Jun-11-2024