Ukunikezwa kwamandla kwe-DC yemvamisa ephezulu kusekelwe kuma-IGBT angenisiwe ekhwalithi ephezulu njengedivayisi yamandla eyinhloko, kanye ne-ultra-microcrystalline (eyaziwa nangokuthi i-nanocrystalline) izinto ezithambile zikamagnetic alloy njengomongo we-transformer oyinhloko.Uhlelo oluyinhloko lokulawula lusebenzisa ubuchwepheshe bokulawula i-loop eminingi, futhi isakhiwo siwubufakazi bosawoti, izinyathelo ze-acidification yenkungu.Ukunikezwa kwamandla kunesakhiwo esinengqondo nokuthembeka okuqinile.Lolu hlobo lokunikezwa kwamandla seluphenduke umkhiqizo obuyekeziwe we-SCR kagesi ngenxa yobukhulu bayo obuncane, isisindo esilula, ukusebenza kahle okuphezulu nokuthembeka okuphezulu.
Zisetshenziswa kabanzi ezitshalweni ezinkulu zikagesi, izitshalo eziphehla amandla kagesi, iziteshi zamandla kagesi we-Ultra-high, iziteshi ezingagadiwe njengokulawula, isignali, ukuvikelwa, ukuvala kabusha okuzenzakalelayo, ukukhanyisa okuphuthumayo, iphampu kawoyela ye-DC, ukuhlolwa, i-oxidation, i-electrolysis, i-zinc plating, i-nickel plating, i-tin plating, i-Chrome plating, ugesi wezithombe, ukuncibilikisa, ukuguqulwa kwamakhemikhali, ukugqwala nezinye izindawo zokwelashwa ezinembayo.Ku-anodizing, vacuum coating, electrolysis, electrophoresis, ukwelashwa kwamanzi, ukuguga komkhiqizo we-elekthronikhi, ukushisisa ngogesi, i-electrochemistry, njll., kuphinde kuthandeke abasebenzisi abaningi ngokwengeziwe.Ikakhulukazi ezimbonini ze-electroplating kanye ne-electrolysis, isibe yisinqumo sokuqala kumakhasimende amaningi.
Izici eziyinhloko:
1. Usayizi omncane nesisindo esincane:
Ivolumu nesisindo yi-1/5-1/10 yokunikezwa kwamandla e-SCR, ekulungele ukuthi uhlele, unwebe, uhambise, unakekele futhi ufake.
2. Amafomu wesifunda aguquguqukayo futhi ahlukahlukene, futhi angahlukaniswa abe ububanzi obulungiswayo, i-frequency-modulated, i-single-end futhi iphindwe kabili.Amandla kagesi we-DC asezingeni eliphezulu afanele izimo zohlelo lokusebenza angaklanywa ngokuya ngesimo sangempela.
3. Umphumela omuhle wokonga amandla:
Ukushintsha ukunikezwa kwamandla kusebenzisa i-high frequency transformer, ukusebenza kahle kokuguqulwa kuthuthukiswa kakhulu.Ngaphansi kwezimo ezijwayelekile, ukusebenza kahle kungaphezulu kwalokho kwemishini ye-SCR ngaphezu kuka-10%, futhi lapho izinga lomthwalo lingaphansi kuka-70%, ukusebenza kahle kungaphezu kwalokho kwemishini ye-SCR ngaphezu kuka-30%.
4. Ukuzinza okuphezulu kokukhiphayo:
Ngenxa yesivinini sokuphendula esisheshayo sesistimu (izinga le-microsecond), inokuguquguquka okuqinile kumandla wenethiwekhi nezinguquko zomthwalo, futhi ukunemba kokukhipha kungaba ngcono kuno-1%.Ukunikezwa kwamandla okushintshwa kunokusebenza kahle okuphezulu, ngakho-ke ukunemba kokulawula kuphezulu, okuzuzisa ukuthuthukisa ikhwalithi yomkhiqizo.
5. Ifomu lamagagasi okukhiphayo kulula ukulishintsha:
Ngenxa yemvamisa yokusebenza ephezulu, izindleko zokucubungula okuhlobene zokulungiswa kwe-waveform okukhiphayo ziphansi uma kuqhathaniswa, futhi i-waveform yokuphumayo ingashintshwa kalula ngokuya ngezidingo zenqubo yomsebenzisi.Lokhu kunomthelela oqinile ekuthuthukiseni ukusebenza kahle kwendawo yokusebenza kanye nokwenza ngcono izinga lemikhiqizo ecutshunguliwe.
Isikhathi sokuthumela: Jan-26-2021