Ukunikezwa kwamandla kagesi kwe-DC okuvame kakhulu kusekelwe kuma-IGBT angenisiwe asezingeni eliphezulu njengedivayisi yamandla eyinhloko, kanye nezinto ezithambile ze-alloy ze-ultra-microcrystalline (ezaziwa nangokuthi yi-nanocrystalline) njenge-core transformer eyinhloko. Uhlelo lokulawula oluyinhloko lusebenzisa ubuchwepheshe bokulawula obunama-multi-loop, futhi isakhiwo asimelani nosawoti, sinezilinganiso zokufaka i-asidi enkungu. Ukunikezwa kwamandla kunesakhiwo esifanele kanye nokuthembeka okuqinile. Lolu hlobo lokunikezwa kwamandla selube umkhiqizo obuyekeziwe wokunikezwa kwamandla kwe-SCR ngenxa yobukhulu bawo obuncane, isisindo esilula, ukusebenza kahle okuphezulu kanye nokuthembeka okuphezulu.
Zisetshenziswa kabanzi ezitshalweni ezinkulu zamandla, ezitshalweni zamandla kagesi, ezitshalweni zamandla kagesi aphezulu kakhulu, ezitshalweni ezinganakiwe njengokulawula, isignali, ukuvikela, ukusebenza kokuvala okuzenzakalelayo, ukukhanyisa okuphuthumayo, ipompo kawoyela ye-DC, ukuhlola, i-oxidation, i-electrolysis, i-zinc plating, i-nickel plating, i-tin plating, i-Chrome plating, i-photoelectric, i-smelting, ukuguqulwa kwamakhemikhali, ukugqwala kanye nezinye izindawo zokwelapha ubuso ngokunemba. E-anodizing, i-vacuum coating, i-electrolysis, i-electrophoresis, ukwelashwa kwamanzi, ukuguga komkhiqizo we-elekthronikhi, ukushisa kukagesi, i-electrochemistry, njll., ithandwa futhi ngabasebenzisi abaningi. Ikakhulukazi embonini ye-electroplating kanye ne-electrolysis, isibe ukukhetha kokuqala kwamakhasimende amaningi.
Izici eziyinhloko:
1. Usayizi omncane nesisindo esilula:
Umthamo nesisindo kuyi-1/5-1/10 yomthombo wamandla we-SCR, okulula ukuthi uhlele, unwebe, uhambise, unakekele futhi ufake.
2. Amafomu wesekethe ayaguquguquka futhi ahlukahlukene, futhi angahlukaniswa abe ububanzi obulungisiwe, imvamisa eguquliwe, imvamisa eyodwa kanye nemvamisa ephindwe kabili. Amandla kagesi e-DC asebenza ngemvamisa ephezulu afanele izimo zohlelo lokusebenza angaklanywa ngokwesimo sangempela.
3. Umphumela omuhle wokonga amandla:
Ukunikezwa kwamandla okushintsha kusebenzisa i-transformer evame kakhulu, ukusebenza kahle kokuguqulwa kuthuthuka kakhulu. Ngaphansi kwezimo ezivamile, ukusebenza kahle kuphakeme kunokwemishini ye-SCR ngaphezu kuka-10%, futhi uma izinga lomthwalo lingaphansi kuka-70%, ukusebenza kahle kuphakeme kunokwemishini ye-SCR ngaphezu kuka-30%.
4. Ukuqina kokukhipha okuphezulu:
Ngenxa yesivinini sokuphendula esisheshayo sohlelo (izinga le-microsecond), luyakwazi ukuzivumelanisa nezimo namandla enethiwekhi kanye nokushintsha komthwalo, futhi ukunemba kokukhipha kungaba ngcono kuno-1%. Ukunikezwa kwamandla okushintsha kusebenza kahle kakhulu, ngakho-ke ukunemba kokulawula kuphezulu, okuzuzisayo ukuthuthukisa ikhwalithi yomkhiqizo.
5. Kulula ukuguqula isimo segagasi lokukhipha:
Ngenxa yemvamisa yokusebenza ephezulu, izindleko zokucubungula ezihambisanayo zokulungiswa kwe-waveform yokukhipha ziphansi kakhulu, futhi i-waveform yokukhipha ingashintshwa kalula ngokuya ngezidingo zenqubo yomsebenzisi. Lokhu kunomthelela omkhulu ekuthuthukiseni ukusebenza kahle kwendawo yokusebenza kanye nokuthuthukisa ikhwalithi yemikhiqizo ecutshungulwayo.
Isikhathi sokuthunyelwe: Jan-26-2021