01 Umkhuba wokuthuthukiswa kwamandla amasha uqhuba isidingo esiqinile semakethe ye-OBC
Njengemboni ebalulekile ekhulayo ezweni lakithi, imboni yezimoto ezintsha zamandla ibilokhu ihlonishwa kakhulu nguhulumeni isikhathi eside. Uhulumeni wethule uchungechunge lwezinqubomgomo zokukhuthaza nokusekela ukuthuthukiswa kwemboni yezimoto ezintsha zamandla, okudlale indima ebalulekile ekukhuthazeni ukuthuthukiswa kwezimoto ezintsha zamandla kanye nezingxenye ezibalulekile.
Uhlelo lwe-elekthronikhi olusebenzisa amandla lwezimoto ezintsha zamandla ngokuvamile luhlanganisa izingxenye ezintathu: ishaja yemoto kagesi ebhodini (i-AC-DC), i-inverter (i-DC-AC) kanye ne-converter ye-DC-DC. Ishaja ebhodini ngokuvamile isebenzisa imodi yokushaja yemoto eyodwa-eyodwa, kanti okokufaka kungu-220V AC. Ngokusho kwedatha, usayizi wemakethe wemboni ye-OBC yezwe lami ngo-2022 ungaba yi-yuan eyizigidigidi ezingama-206.6, ukwanda konyaka nonyaka okungu-95.6%.
Ishaja esebhodini (i-OBC) ibhekisela kushaja efakwe ngokuqinile emotweni kagesi, enekhono lokushaja ibhethri lamandla lemoto kagesi ngokuphepha nangokuzenzakalela. Ishaja ingalungisa ngokuguquguqukayo amapharamitha wamanje noma we-voltage ngokusekelwe kudatha enikezwe uhlelo lokuphatha ibhethri (i-BMS), yenze izenzo ezihambisanayo, futhi iqedele inqubo yokushaja.
Ishaja Ebhodini
02 Ama-capacitor endabuko anqunyelwe yonke indawo futhi abhajwe enkingeni. Ungawuqeda kanjani lo bunzima?
Njengamanje, izimoto ezintsha zamandla sezibe yindaba eshisayo embonini yezimoto yomhlaba wonke. Nakuba izimoto ezintsha zamandla zenze intuthuko enkulu, kusenezinkinga eziningi okusamele zixazululwe, njengokukhathazeka ngebanga, ukulula kokushaja, ukushaja okusheshayo, kanye nokufaneleka kwamadivayisi endabuko kanye nobuchwepheshe obusha.
Ingqikithi eyinhloko yokuxazulula ubuchwepheshe bokushaja okusheshayo be-OBC ebhodini ukuthi ungawandisa kanjani amandla okushaja emoto yonke. Indlela yobuchwepheshe yokwandisa amandla okushaja ukuthi ungawandisa kanjani amandla kagesi noma kagesi. Uma amandla kagesi enyuka, kumele abe nzima kakhulu. Izindleko zokwandisa ukusetshenziswa kwamandla kanye nemishini eyengeziwe yokusiza kumele zisetshenziswe. Ngakho-ke, abakhiqizi abakhulu bazosuka epulatifomu yamandla kagesi angu-400V baye epulatifomu yamandla kagesi angu-800V noma ngaphezulu.
Kodwa-ke, le nqubo ibeka phambili izidingo ze-voltage ephezulu kakhulu kumadivayisi kagesi endabuko, ikakhulukazi ama-capacitor e-DC ebhasi. Ngenxa ye-voltage ephezulu yokukhishwa kwamandla kagesi aphezulu, ama-capacitor endabuko ngokuvamile angamelana ne-voltage ephansi kuphela. Izinto ze-dielectric ezingaphakathi kwe-capacitor zizolimala ngaphansi kwe-voltage ephezulu, okuholela ekuqhekekeni. Uma i-capacitor yebhasi ingakwazi ukumelana ne-voltage eyanele, kulula ukuba ne-breakdown, burnout kanye nezinye izinkinga, okuthinta ukusebenza okuvamile kwesistimu yonke.
Ukuze kuxazululwe izinkinga ezisetshenziswayo zokushaja ezisetshenziswayo njengamanje, ama-capacitor e-aluminium snap-in e-YMIN aqalise uchungechunge lwemikhiqizo emibili emisha: i-CW3H kanye ne-CW6H ukuze kuhlangatshezwane nezinselele ezisetshenziswayo ze-OBC ezisetshenziswayo futhi kuhlangatshezwane nezidingo zezimakethe ezahlukene.
03 Xazulula izinkinga ezindala futhi uhlangabezane nezidingo ezintsha, i-YMIN ihlala isendleleni
Uma kuqhathaniswa nama-capacitor endabuko, ama-capacitor e-aluminium electrolytic e-YMIN snap-in anokumelana okuphezulu kwamandla kagesi futhi angasebenza ezindaweni zokushisa okuphezulu, ukucindezela okuphezulu kanye nemvamisa ephezulu, athuthukise ukuthembeka kohlelo, futhi anciphise ingozi yokwehluleka njengokuphazamiseka nokusha; i-ESR ephansi inganikeza umphumela omkhulu wamanje nobushelelezi we-ripple we-OBC esebhodini; ukunyuka kwezinga lokushisa eliphansi, ngomklamo okhethekile wesakhiwo sama-capacitor e-Yongming kanye nohlelo lokusabalalisa ukushisa olusebenzayo, kunganciphisa ngempumelelo izinga lokushisa langaphakathi lomkhiqizo, futhi kungasebenza ngokuzinzile ngaphansi kwezimo zokusebenza eziyinkimbinkimbi kakhulu.
Izinto zikagesi ze-aluminium ze-YMIN snap-in azigcini nje ngokuba namandla aphezulu kanye nesakhiwo esikhethekile kanye nomklamo wezinto ezibonakalayo, kodwa futhi zinempilo yesevisi ende, okuvumela abasebenzisi ukuthi basebenzise ishaja isikhathi eside. Ngaphezu kwalokho, umkhiqizo uhlolwe ngokuqinile futhi waqinisekiswa, impilo yawo kanye nokuthembeka kwawo kuqinisekisiwe, futhi ubonise izinzuzo ezinhle kakhulu zomkhiqizo ekuhlolweni komshini wangempela weklayenti, futhi ukusebenza kwawo kokuphepha kungcono futhi. Ifaneleka kakhulu ukusetshenziswa kumashaja ezimoto ezintsha zamandla nakwezinye izinkambu.
| I-Liquid Snap ku-Aluminium Electrolytic Capacitor | Uchungechunge | I-Volt | Umthamo | Izinga lokushisa | Isikhathi Sokuphila |
| CW3H | 350~600V | 120~560uF | -40~+105℃ | 3000H | |
| CW6H | 400~600V | 120~470uF | -40~+105℃ | 6000H |
Ngokwanda okuqhubekayo kwemakethe yezimoto ezintsha zamandla, ubuchwepheshe bokushaja ngaphakathi kwebhodi buhlala buthuthuka futhi buthuthuka. Njengomkhiqizo omusha, ama-capacitor e-aluminium electrolytic e-YMIN adlale indima ebalulekile ekuthuthukiseni izinga lobuchwepheshe lamashaja ngaphakathi kwebhodi. Sikholelwa ukuthi ngokuthuthuka okuqhubekayo nokuvuthwa kobuchwepheshe obuhlukahlukene be-OBC ngaphakathi kwebhodi, ukubambisana okuseduze kwama-capacitor e-liquid horn ahambisanayo, athembekile kakhulu, kanye ne-high-voltage liquid horn ahlala isikhathi eside, ukusebenza kahle kokushaja ngaphakathi kwebhodi kuzokhula kakhulu, futhi isivinini sokushaja sizoba ngokushesha futhi ngokushesha!
Isikhathi sokuthunyelwe: Julayi-25-2024