Thermosetting DIN43650A uqhagamshelo coil electromagnetic SB254/A044
Iinkcukacha
Imizi-mveliso eSebenzayo:iiVenkile zeMathiriyeli yokwakha, iiVenkile zokuLungisa oomatshini, Iplanti yokuVelisa, iiFama, iiVenkile, imisebenzi yolwakhiwo , iNkampani yeNtengiso
Igama lemveliso:Ikhoyili ye-Solenoid
Umbane oqhelekileyo:AC220V AC110V DC24V DC12V
Amandla aQhelekileyo (AC):20VA
Amandla aqhelekileyo (DC):21W
Iklasi yokuKhusela: H
Uhlobo loQhagamshelwano:I-DIN43650A
Olunye umbane okhethekileyo:Customizable
Amanye amandla akhethekileyo:Customizable
Inombolo yeMveliso:SB254
Uhlobo lweMveliso:A044
Supply Ability
Iiyunithi ezithengisayo: Into enye
Ubungakanani bephakheji enye: 7X4X5 cm
Ubunzima obunye: 0.300 kg
Intshayelelo yemveliso
Umgangatho we-q wekhoyili ye-inductance
1.I-factor q yiparameter ebalulekileyo yokuvakalisa umgangatho wekhoyili. Ubungakanani be-Q bubonisa ukulahleka kwekhoyili ye-inductance. Inkulu i-Q, encinci ilahleko yekhoyili. Ngokuchasene noko, ilahleko inkulu.
2.Umgangatho we-Q uchazwa njengomlinganiselo we-inductance yekhoyili kwi-DC ukuxhathisa i-coil xa i-coil isebenza kwi-voltage ethile ye-AC. Inokubonakaliswa ngefomula ngolu hlobo lulandelayo:
3.Kuphi: I-W-ukusebenza i-angular frequency L-coil inductance R-itotali yelahleko ukumelana nekhoyili
4.Ngokwezihlandlo ezahlukeneyo, iimfuno zomgangatho we-Q nazo zahlukile. Kwikhoyili ye-inductance kwi-loop yokulungisa, ixabiso elingu-q liphezulu, kuba ixabiso eliphezulu le-q, ilahleko encinci ye-loop kunye nokusebenza kakuhle kwe-loop; Kwikhoyili yokudibanisa, ixabiso elingu-q linokuba ngaphantsi; Kwi-low-frequency okanye i-high-frequency chokes, akukho mfuneko.
5. Enyanisweni, ukuphuculwa kwexabiso le-Q kudla ngokulinganiselwe ngezinye izinto, ezifana nokuchasana kwe-DC ye-conductor, ilahleko ye-dielectric ye-bobbin, ilahleko ebangelwa ngumbindi kunye nekhaka, kunye nefuthe lesikhumba xa usebenza. amaza aphezulu. Ke ngoko, akunakwenzeka ukwenza ixabiso le-Q lekhoyili liphezulu kakhulu. Ngesiqhelo, ixabiso le-Q lingamashumi aliqela ukuya kwikhulu, kwaye elona liphezulu ngama-500 kuphela.
6.Xa ukhetha i-core magnetic, iimfuno ze-frequency yokusebenza kunye nexabiso le-Q kufuneka liqwalaselwe ngokukodwa. Xa i-frequency yokusebenza ngokubanzi ingaphantsi kwe-1MHz, undoqo wemagnethi eyenziwe nge-manganese-zinc ferrite kufuneka isetyenziswe ngokufanelekileyo; Xa i-frequency yokusebenza iphezulu kune-1MHz, i-core magnetic eyenziwe ye-Ni-Zn-Fe-O impahla kufuneka ikhethwe. Ngaphantsi kwemeko yexabiso eliphezulu le-Q kunye ne-frequency ephantsi yokusebenza, ubukhulu obukhulu bemagnetic core kufuneka bukhethwe.
7.Xa ukhetha i-core magnetic, iimfuno ze-frequency yokusebenza kunye nexabiso le-Q kufuneka liqwalaselwe ngokukodwa. Xa i-frequency yokusebenza ngokubanzi ingaphantsi kwe-1MHz, undoqo wemagnethi eyenziwe nge-manganese-zinc ferrite kufuneka isetyenziswe ngokufanelekileyo; Xa i-frequency yokusebenza iphezulu kune-1MHz, i-core magnetic eyenziwe ye-Ni-Zn-Fe-O impahla kufuneka ikhethwe. Ngaphantsi kwemeko yexabiso eliphezulu le-Q kunye ne-frequency ephantsi yokusebenza, i-spool enkulu yesayizi kufuneka
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