NgoNovemba, iGigaDevice yethule isixazululo esisha senqwaba yokushaja engu-3.5kW DC esekelwe ku-MCU ye-GD32G5 esezingeni eliphezulu. Uhlelo lusebenzisa i-MCU eyodwa ukulawula i-PFC ye-totem pole yesigaba sangaphambili kanye ne-topology yesigaba sangemuva esigcwele i-LLC enezigaba ezimbili, ifinyelela ukusebenza kahle okuphezulu okungu-96.2% kanye ne-THD ephansi njengo-2.7%, ihlangabezana nezidingo zokusebenza kahle kakhulu nokuzinza kwamanqwaba amasha okushaja amandla. Ngokuthuthukiswa kwesixazululo senqwaba yokushaja, izidingo zokusebenza kwezingxenye zangaphakathi ziye zaba nzima kakhulu. Ngemva kokuxhumana okujulile neGigaDevice kanye nokuqonda okuningiliziwe kwezidingo zayo ezithile,I-YMINithuthukise ngempumelelo ama-capacitor asebenza kahle kakhulu ahlangabezana nezidingo zesisombululo senqwaba yokushaja esingu-3.5kW DC futhi isetshenziswe ngempumelelo. Ngekhwalithi enhle kakhulu, iyasiza ekudaleni uhlelo lokushaja olusebenza kahle noluthembekile.
Isixazululo senqwaba yokushaja engu-3.5kW DC esekelwe ku-MCU yochungechunge lwe-GD32G5 olusebenza kahle kakhulu
Isixazululo:I-YMIN Snap-in Aluminium Electrolytic Capacitor
| Uchungechunge | I-Volt (V) | Umthamo (uF) | Ubukhulu (mm) | Impilo | Izinzuzo nezici zomkhiqizo |
| CW6 | 475 | 560 | 35*45 | 105℃ 6000H | Usayizi omncane/ukuthembeka okuphezulu/izinga lokushisa eliphansi kakhulu |
| 500 | 390 | 35*45 |
UketsheziI-Aluminium Electrolytic Capacitor efakwe ngaphakathiI-CW6 Series ikhombisa ukusebenza okuvelele kwisisombululo sephayiphu yokushaja se-GigaDevice esingu-3.5kW DC. Amandla ayo okumelana nogesi ogelezayo ophezulu kanye nokuthembeka kwayo okumangalisayo kuyenza ifanelane kahle nezimo zokusebenza ezidingayo zamaphayiphu okushaja. Isiza ekuthuthukiseni ukusebenza kahle kanye nobude besikhathi sezinhlelo zokushaja, ihlinzeka ngokusekelwa okuqinile kwentuthuko eqhubekayo yobuchwepheshe obusha bokushaja amandla.
- Ukubekezelelana Kwamanje Okuphezulu Kwe-Ripple: Kumasekethe e-PFC kanye ne-LLC ama-pile okushaja, ahlangabezana ngempumelelo nezidingo zokuguqulwa kwamandla ngaphansi kwemithwalo yamandla aphezulu, anciphise ukulahlekelwa kwamanje kwe-ripple kusekethe, athuthukise ukusebenza kahle kohlelo lonke, futhi afinyelele ukusebenza kahle okuphezulu okungu-96.2%.
- Isikhathi Eside Sokuphila: I-Liquid Snap-in Aluminium Electrolytic Capacitor yenzelwe ukusebenza ngokuthembekile ngaphansi kwezimo zomthwalo ophezulu kanye ne-voltage ephezulu (250VDC ~ 450VDC), ihlangabezana nezidingo zokusebenza okuzinzile kwesikhathi eside kwama-pile okushaja kanye nokusekela ukuthembeka ngenkathi ithuthukisa izindleko zokulungisa.
- Izici Zokuvama: Ngemvamisa engu-70kHz, i-Liquid Snap-in Aluminium Electrolytic Capacitor ibonisa i-ESR ephansi, ivumela ukuhlunga okusebenzayo, iqinisekisa ukusebenza okuzinzile kwama-pile okushaja kuma-topology aphezulu, futhi ithuthukisa ukusebenza nokuthembeka kwezinhlelo zabo zamandla.
Isixazululo: I-YMIN Radial Lead Aluminium Electrolytic Capacitor
| Uchungechunge | I-Volt (V) | Umthamo (uF) | Ubukhulu (mm) | Impilo | Izinzuzo nezici zomkhiqizo |
| LK | 500 | 100 | 18*45 | 105℃/8000H | Usayizi omncane/ukumelana kwamanje okune-ripple ephezulu/imvamisa ephezulu kanye ne-impedance ephansi |
Ama-Capacitors e-Aluminium Electrolytic e-YMIN's LK Serieshhayi nje kuphela ukuthuthukisa ukusebenza okuphelele kwama-pile okushaja kodwa futhi kunikeza ukuguquguquka okukhulu kanye nokuthembeka kokuklama uhlelo.
- Usayizi Omncane: Umklamo omncane unikeza ukusebenza okuphezulu ngenkathi usindisa isikhala se-PCB ngempumelelo. Lokhu kuhlangabezana nezidingo zobuningi bamandla aphezulu ezinqwaba zokushaja, okuvumela amathuba engeziwe emiklamo yesistimu elula neye-modular.
- Ukumelana Kwamanje Okukhulu Kokuqubuka Kwemvamisa: Kuma-topology e-PFC kanye ne-LLC, ibhekana ngempumelelo nezidingo zokusebenza kwamandla aphezulu, inciphisa ukulahleka kwamandla okubangelwa amandla kagesi agelezayo. Lokhu kuthuthukisa ukusebenza kahle kohlelo, kufinyelela ukusebenza kahle okuphezulu okungu-96.2%.
- Impedance Ephansi Kumaza Aphezulu: Ama-capacitor asabela ngokushesha ezidingweni zesekethe ezindaweni ezivame kakhulu, anciphisa ukulahleka kokushisa kanye nokuguquguquka kwamandla kagesi okubangelwa yimisinga yemvamisa ephezulu. Lokhu kuqinisekisa ukuzinza kwesekethe kanye nokuthembeka ngenkathi kuhlangatshezwana nezidingo zekhwalithi yamandla eqinile yama-pile okushaja.
Isixazululo: YMINAma-Capacitors e-Ceramic amaningi
| Uchungechunge | I-Volt (V) | Umthamo (uF) | Ubukhulu (mm) | Impilo | Izinzuzo nezici zomkhiqizo |
| Q | 1000 | 10 | 2220 | -55~125 | I-Q Ephakeme/Imelana nokucindezela okuphezulu kanye nokushisa okuphezulu |
Ama-Multilayer Ceramic Chip Capacitors (MLCCs) asetshenziswa kakhulu kumasekethe ukuze kuhlukaniswe imvamisa ephezulu kanye nokunciphisa umsindo, okuvumela impendulo esheshayo ezidingweni zamanje zemvamisa ephezulu kanye nokuthuthukisa ukuhambisana kwe-electromagnetic (EMC).
- Ukuhlunga Okukhulu Okungavamile: Kunciphisa ngempumelelo ukuphazamiseka kwe-harmonic, kuthuthukisa ukuzinza kwesekethe.
- Ukugcinwa Nokukhululwa Kwamandla Okusheshayo: Kunciphisa ukuguquguquka kwamandla kagesi okuguqukayo ngesikhathi sokushintsha komthwalo okungazelelwe, kuvikela ezinye izingxenye emiphumeleni yemvamisa ephezulu. Lokhu kuqinisekisa ukusebenza kahle kwezingxenye ezibucayi njenge-MCUs nama-driver chips, kuthuthukisa ubuqotho besiginali kanye nokuthembeka kohlelo.
Isiphetho
I-YMIN izinikele ekuhlinzekeni amakhasimende ngemikhiqizo ye-capacitor esezingeni eliphezulu nesebenza kahle kakhulu. Sizoqhubeka nokutshala imali ku-R&D, sithuthukisa njalo ukusebenza komkhiqizo ukuze sinikeze izixazululo ze-capacitor ezithembekile kubahlinzeki bezixazululo ze-chip. Uma udinga ukuhlolwa kwesampula noma unemibuzo eminye, sicela uskene ikhodi ye-QR engezansi, futhi ithimba lethu lizokusiza ngokushesha!
Isikhathi sokuthunyelwe: Disemba-20-2024