I-Thermosetting pneumatic steam solenoid valve lead ikhoyili engu-MP-C-011
Imininingwane
Izimboni Ezisebenzayo:Izitolo Zezinto Zokwakha, Izitolo Zokulungisa Imishini, Imboni Yokukhiqiza, Amapulazi, Izitolo, Imisebenzi yokwakha , Inkampani Yokukhangisa
Igama lomkhiqizo:Ikhoyili ye-Solenoid
Amandla kagesi ajwayelekile:I-RAC220V RDC110V DC24V
Amandla Ajwayelekile (RAC):28VA
Amandla Ajwayelekile (DC):30W
I-Insulation Class: H
Uhlobo Lokuxhumana:Uhlobo lokuhola
Enye i-voltage ekhethekile:Yenza ngokwezifiso
Amanye amandla akhethekile:Yenza ngokwezifiso
Inombolo yomkhiqizo:I-SB401
Uhlobo Lomkhiqizo:I-MP-C-011
Supply Amandla
Amayunithi Athengisa: Into eyodwa
Usayizi wephakheji elilodwa: 7X4X5 cm
Isisindo esisodwa esiphelele: 0.300 kg
Isingeniso somkhiqizo
Umsebenzi we-inductor
1. Ukumelana nokugeleza kwekhoyili okuguquguqukayo:I-self-indused electromotive force ku-inductor force ihlale imelana noshintsho lwamanje lwekhoyili. Ikhoyili ye-inductance inomphumela wokuvimba ku-AC yamanje, futhi usayizi womphumela wokuvimba ubizwa ngokuthi i-inductance XL, kanti iyunithi ithi ohm. Ubudlelwano bayo ne-inductance L kanye ne-AC frequency F yi-XL=2mfL. Ama-inductors angahlukaniswa kakhulu abe amakhoyili okuklinywa anemvamisa ephezulu kanye namakhoyili okuminyanisa anemvamisa ephansi. Umsebenzi we-inductor
2. Ukushuna nokukhetha imvamisa:Ikhoyili ye-inductance kanye ne-capacitor ingaxhunywa ngokuhambisana ukuze yakhe isekethe yokulungisa i-LC. Okusho ukuthi, imvamisa yemvelo ye-oscillation f0 yesekethe ilingana nemvamisa yesiginali engashintshisani, ngakho-ke ukusabela kwe-inductive kanye nokusabela kwe-capacitive kwesekethe nakho kuyalingana, ngakho amandla kazibuthe kagesi azulazula emuva naphambili ku-inductance kanye ne-capacitance. , okuyi-resonance phenomenon yesekethe ye-LC. Ku-resonance, ukusabela kwe-inductive kanye ne-capacitive reactance yesekethe kuyalingana futhi kuyahlehla, futhi ukusabela kwe-inductive kwesamba se-loop yamanje kuncane kakhulu futhi okwamanje kukhulu (kubhekiselwa kusignali ye-AC nge-f="fO "). I-LC resonant circuit inomsebenzi wokukhetha imvamisa, engakhetha isignali ye-AC ngefrikhwensi ethile. Umsebenzi we-inductor
3. Ama-inductors nawo anemisebenzi yokuhlola amasignali,ukuhlunga umsindo, ukuzinza kwamanje kanye nokucindezela ukuphazamiseka kwe-electromagnetic. Umsebenzi we-inductor
4. Emishinini kagesi, sivame ukubona izindandatho kazibuthe.
Iyini imisebenzi yalezi zinto ezincane? Le ndandatho kazibuthe kanye nekhebula lokuxhuma kwenza i-inductor (izintambo ezikukhebula zizungeze indandatho kazibuthe izikhathi eziningana), okuyisici esivamile sokulwa nokuphazamiseka kumasekhethi kagesi futhi enomthelela omuhle wokuvikela umsindo we-high-frequency, ibizwa ngokuthi yindandatho kazibuthe yokumuncwa, futhi ngokuvamile yenziwa ngezinto ze-ferrite, ezaziwa nangokuthi yindandatho kazibuthe ye-ferrite (okubhekiselwa kuyo njengendandatho kazibuthe). Ingxenye engenhla iyindandatho kazibuthe ehlanganisiwe enekliphu yokukhweza. Amaringi kazibuthe anezici ezihlukene zokuvimba kumafrikhwensi ahlukene. I-impedance incane kakhulu emazingeni aphansi, futhi i-impedance yendandatho kazibuthe ikhula kakhulu lapho imvamisa yesignali ikhula. Njengoba sonke sazi, lapho imvamisa yesignali iphezulu, yilapho iphuma khona kakhulu. Kodwa-ke, yonke imigqa yesiginali ayinaso isendlalelo esivikelayo, ngakho-ke le migqa yesiginali iba yizimpondo ezinhle zokwamukela zonke izinhlobo zezimpawu ezingcolile zemvamisa ephezulu endaweni ezungezile, futhi lezi zimpawu zibekwe phezulu kumasignali adlulisiwe, azoshintsha ngisho namasiginali awusizo. , iphazamisa kakhulu umsebenzi ojwayelekile wezinto zikagesi futhi inciphise ukuphazamiseka kwe-electromagnetic (EM) yezinto zikagesi. Ngaphansi kwesenzo sendandatho kazibuthe, ngisho noma amasiginali ajwayelekile futhi awusizo adlula kahle, amasiginali wokuphazamiseka wemvamisa ephezulu angacindezelwa kahle futhi izindleko ziphansi.
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