Umfanekiso oBonisiweyo weMicrostrip Circulator

Isijikelezi seMicrostrip

I-Microstrip Circulator sisixhobo se-microwave esisetyenziswa rhoqo kwi-RF esisetyenziselwa ukudlulisa isignali kunye nokwahlulwa kwiisekethe. Isebenzisa ubuchwepheshe befilimu encinci ukwenza isekethe phezu kwe-ferrite yemagnethi ejikelezayo, ize yongeze intsimi yemagnethi ukuze ifezekise oko. Ukufakelwa kwezixhobo ze-microstrip annular ngokuqhelekileyo kusebenzisa indlela yokutshiza ngesandla okanye i-gold wire bonding eneziqwenga zobhedu. Ulwakhiwo lwee-microstrip circulators lulula kakhulu, xa luthelekiswa nee-coaxial kunye nee-embedded circulators. Umahluko ocacileyo kukuba akukho mgodi, kwaye umqhubi we-microstrip Circulator wenziwa ngokusebenzisa inkqubo yefilimu encinci (i-vacuum sputtering) ukwenza ipateni eyilwe kwi-ferrite ejikelezayo. Emva kokufakelwa nge-electroplating, umqhubi ovelisiweyo uncamathiselwa kwi-substrate ye-rotary ferrite. Ncamathisela umaleko we-insulating medium phezu kwegrafu, kwaye ulungise intsimi yemagnethi kwi-medium. Ngesakhiwo esilula kangaka, kwenziwe i-microstrip circulator.

Uluhlu lweefrikhwensi ukusuka kwi-2.7 ukuya kwi-40GHz.

Usetyenziso lwezomkhosi, lwendawo kunye nolwezorhwebo.

Ukulahleka okuphantsi kokufakwa, ukwahlulwa okuphezulu, ukuphathwa kwamandla aphezulu.

Uyilo olucwangcisiweyo luyafumaneka xa luceliwe.

Thumela i-imeyile kuthi sales@rftyt.com

Iinkcukacha zeMveliso

Iithegi zeMveliso

Ishiti yedatha

Inkcazelo yeRFTYT Microstrip Cirulator
Imodeli	Uluhlu lwefrikhwensi (GHz)	Ibhendiwidth Ubuninzi	Faka ilahleko (dB)(Ubuninzi)	Ukubekwa wedwa (dB) (Ubuncinane)	I-VSWR (Ubuninzi)	Ubushushu bokusebenza (℃)	Amandla encochoyi (W), Umjikelo womsebenzi 25%	Ubukhulu (mm)	Inkcazo
MH1515-10	2.0～6.0	Igcwele	1.3(1.5)	11(10)	1.7(1.8)	-55~+85	50	15.015.03.5	I-PDF
MH1515-09	2.6-6.2	Igcwele	0.8	14	1.45	-55~+85	40W CW	15.015.00.9	I-PDF
MH1515-10	2.7～6.2	Igcwele	1.2	13	1.6	-55~+85	50	13.013.03.5	I-PDF
MH1212-10	2.7～8.0	66%	0.8	14	1.5	-55~+85	50	12.012.03.5	I-PDF
MH0909-10	5.0～7.0	18%	0.4	20	1.2	-55~+85	50	9.09.03.5	I-PDF
MH0707-10	5.0～13.0	Igcwele	1.0(1.2)	13(11)	1.6(1.7)	-55~+85	50	7.07.03.5	I-PDF
MH0606-07	7.0～13.0	20%	0.7(0.8)	16(15)	1.4(1.45)	-55~+85	20	6.06.03.0	I-PDF
MH0505-08	8.0-11.0	Igcwele	0.5	17.5	1.3	-45~+85	10W CW	5.05.03.5	I-PDF
MH0505-08	8.0-11.0	Igcwele	0.6	17	1.35	-40~+85	10W CW	5.05.03.5	I-PDF
MH0606-07	8.0-11.0	Igcwele	0.7	16	1.4	-30~+75	15W CW	6.06.03.2	I-PDF
MH0606-07	8.0-12.0	Igcwele	0.6	15	1.4	-55~+85	40	6.06.03.0	I-PDF
MH0505-08	10.0-15.0	Igcwele	0.6	16	1.4	-55~+85	10	5.05.03.0	I-PDF
MH0505-07	11.0～18.0	20%	0.5	20	1.3	-55~+85	20	5.05.03.0	I-PDF
MH0404-07	12.0～25.0	40%	0.6	20	1.3	-55~+85	10	4.04.03.0	I-PDF
MH0505-07	15.0-17.0	Igcwele	0.4	20	1.25	-45~+75	10W CW	5.05.03.0	I-PDF
MH0606-04	17.3-17.48	Igcwele	0.7	20	1.3	-55~+85	2W CW	9.09.04.5	I-PDF
MH0505-07	24.5-26.5	Igcwele	0.5	18	1.25	-55~+85	10W CW	5.05.03.5	I-PDF
MH3535-07	24.0～41.5	Igcwele	1.0	18	1.4	-55~+85	10	3.53.53.0	I-PDF
MH0404-00	25.0-27.0	Igcwele	1.1	18	1.3	-55~+85	2W CW	4.04.02.5	I-PDF

Isishwankathelo

Iingenelo zee-microstrip circulators ziquka ubungakanani obuncinci, ubunzima obulula, ukungahlali kakuhle kwendawo xa zidityaniswe nee-microstrip circuits, kunye nokuthembeka okuphezulu koqhagamshelo. Iingxaki zayo kukuba amandla aphantsi kunye nokungaxhathisi kakuhle kuphazamiseko lwe-electromagnetic.

Imigaqo yokukhetha ii-microstrip circulators:
1. Xa kususwa kwaye kudityaniswa iisekethe, ii-microstrip circulators zinokukhethwa.
2. Khetha imodeli yemveliso ehambelanayo ye-microstrip Circulator ngokusekelwe kuluhlu lweefrikhwensi, ubungakanani bofakelo, kunye nesikhokelo sothumelo esisetyenzisiweyo.
3. Xa iifrequencies zokusebenza zombini ubungakanani be-microstrip circulators zinokuhlangabezana neemfuno zokusetyenziswa, iimveliso ezinomthamo omkhulu zihlala zinamandla aphezulu.

Uqhagamshelo lwesekethe ye-microstrip circulator:
Uqhagamshelo lungenziwa ngokusebenzisa i-soldering ngesandla enemicu yobhedu okanye i-gold wire bonding.
1. Xa uthenga imicu yobhedu yokudibanisa ukuwelda ngesandla, imicu yobhedu kufuneka yenziwe ibe yimo ye-Ω, kwaye i-solder mayingangeni kwindawo yokwenza umcu wobhedu. Ngaphambi kokuwelda, ubushushu bomphezulu we-Circulator kufuneka bugcinwe phakathi kwama-60 kunye nama-100 ° C.
2. Xa usebenzisa i-gold wire bonding interconnection, ububanzi be-gold strip kufuneka bube buncinci kunobubanzi be-microstrip circuit, kwaye i-composite bonding ayivumelekanga.

I-RF Microstrip Circulator sisixhobo se-microwave esineechweba ezintathu esisetyenziswa kwiinkqubo zonxibelelwano ezingenazingcingo, esaziwa ngokuba yi-ringer okanye i-circulator. Sineempawu zokudlulisa imiqondiso ye-microwave ukusuka kwelinye ichweba ukuya kwelinye iichweba ezimbini, kwaye asinayo i-reciprocity, oko kuthetha ukuba imiqondiso inokudluliselwa kwicala elinye kuphela. Esi sixhobo sineendlela ezininzi zokusetyenziswa kwiinkqubo zonxibelelwano ezingenazingcingo, ezifana nee-transceivers zokuhambisa imiqondiso kunye nokukhusela ii-amplifier kwimiphumo yamandla angasemva.
I-RF Microstrip Circulator ikakhulu inamacandelo amathathu: i-central junction, i-input port, kunye ne-output port. I-central junction yi-conductor enexabiso eliphezulu lokumelana elidibanisa i-input kunye ne-output ports. Ejikeleze i-central junction kukho imigca emithathu yokudlulisela i-microwave, oko kukuthi i-input line, i-output line, kunye ne-isolation line. Le migca yokudlulisela luhlobo lomgca we-microstrip, kunye ne-electric fields kunye ne-magnetic streaming kwi-plane.

Umgaqo osebenzayo we-RF Microstrip Circulator usekelwe kwiimpawu zemigca yokudlulisela i-microwave. Xa isignali ye-microwave ingena kwi-port yokungenisa, iqala idlulisele kumgca wokungenisa ukuya kwi-interface ephakathi. Kwi-interface ephakathi, isignali yahlulwe yaba ziindlela ezimbini, enye idluliselwa kumgca wokukhupha ukuya kwi-port yokukhupha, kwaye enye idluliselwa kumgca wokwahlukanisa. Ngenxa yeempawu zemigca yokudlulisela i-microwave, ezi zibonakaliso zimbini aziyi kuphazamisana ngexesha lokudlulisela.

Izalathisi zokusebenza eziphambili zeRF Microstrip Circulator ziquka uluhlu lwamaza okujikeleza, ukulahleka kokufakwa, ukwahlulwa, umlinganiselo wamaza okujikeleza, njl. Uluhlu lwamaza okujikeleza lubhekisa kuluhlu lwamaza okujikeleza apho isixhobo sinokusebenza khona ngokuqhelekileyo, ukulahleka kokufakwa kubhekisa ekulahlekelweni kokudluliselwa kwesiginali ukusuka kwizibuko lokufaka ukuya kwizibuko lokukhupha, inqanaba lokuhlukaniswa libhekisa kumlinganiselo wokuhlukaniswa kwesiginali phakathi kwamazibuko ahlukeneyo, kwaye umlinganiselo wamaza okujikeleza okujikelezayo ubhekisa kubungakanani bomlinganiselo wokubonakalisa isiginali yokungenisa.

Xa uyila kwaye usebenzisa i-RF Microstrip Circulator, kufuneka kuqwalaselwe ezi zinto zilandelayo:
Uluhlu lweefrikhwensi: Kubalulekile ukukhetha uluhlu lweefrikhwensi ezifanelekileyo zezixhobo ngokwemeko yesicelo.
Ukulahleka kokufakwa: Kuyimfuneko ukukhetha izixhobo ezinokulahleka okuphantsi kokufakwa ukuze kuncitshiswe ukulahleka kokudluliselwa kwesiginali.
Isidanga sokuzihlukanisa: Kuyimfuneko ukukhetha izixhobo ezinezinga eliphezulu lokuzihlukanisa ukuze kuncitshiswe ukuphazamiseka phakathi kweechweba ezahlukeneyo.
Umlinganiselo wamaza okuma kwevolthi: Kubalulekile ukukhetha izixhobo ezinomlinganiselo wamaza okuma kwevolthi ephantsi ukuze kuncitshiswe impembelelo yokubonakaliswa kwesignali yokufaka ekusebenzeni kwenkqubo.
Ukusebenza koomatshini: Kubalulekile ukuqwalasela ukusebenza koomatshini kwesixhobo, njengobukhulu, ubunzima, amandla oomatshini, njl.njl., ukuze sizivumelanise neemeko ezahlukeneyo zokusetyenziswa.