Isithombe Esivelele Se-Microstrip Cirulator

Isiyingi se-Microstrip

I-Microstrip Circulator iyidivayisi ye-RF microwave esetshenziswa kakhulu esetshenziselwa ukudlulisa isignali kanye nokuhlukanisa kumasekethe. Isebenzisa ubuchwepheshe befilimu encane ukudala isekethe phezu kwe-ferrite ejikelezayo yamagnetic, bese ingeza insimu yamagnetic ukuze ifeze lokho. Ukufakwa kwamadivayisi e-microstrip annular ngokuvamile kusebenzisa indlela yokugoqa ngesandla noma ukubopha ucingo lwegolide ngemicu yethusi. Isakhiwo sama-circulator e-microstrip silula kakhulu, uma siqhathaniswa nama-circulator e-coaxial kanye nama-embedded. Umehluko osobala kakhulu ukuthi akukho mgodi, futhi umqhubi we-microstrip Circulator wenziwa ngokusebenzisa inqubo yefilimu encane (i-vacuum sputtering) ukudala iphethini eklanyelwe ku-ferrite ejikelezayo. Ngemuva kokufaka i-electroplating, umqhubi okhiqizwayo unamathiselwe ku-substrate ye-ferrite ejikelezayo. Namathisela ungqimba lwe-insulating medium phezulu kwegrafu, bese ulungisa insimu yamagnetic ku-medium. Ngesakhiwo esilula kangaka, kwenziwe i-microstrip circulator.

Ibanga lemvamisa lisuka ku-2.7 kuya ku-40GHz.

Izinhlelo zokusebenza zezempi, zesikhala nezentengiselwano.

Ukulahlekelwa okuphansi kokufakwa, ukuhlukaniswa okuphezulu, ukuphathwa kwamandla aphezulu.

Idizayini eyenziwe ngokwezifiso iyatholakala uma iceliwe.

Sithumelele i-imeyili sales@rftyt.com

Imininingwane Yomkhiqizo

Amathegi Omkhiqizo

Ishidi le-data

Ukucaciswa kwe-RFTYT Microstrip Cirulator
Imodeli	Ibanga lokuvama (GHz)	Ububanzi bomkhawulo Ubuningi	Faka ukulahlekelwa (dB)(Ubuningi)	Ukuzihlukanisa (dB) (Okuncane)	I-VSWR (Ubuningi)	Izinga lokushisa lokusebenza (℃)	Amandla aphezulu (W), Umjikelezo womsebenzi 25%	Ubukhulu (mm)	Imininingwane
MH1515-10	2.0～6.0	Okugcwele	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	Okugcwele	0.8	14	1.45	-55~+85	40W CW	15.015.00.9	I-PDF
MH1515-10	2.7～6.2	Okugcwele	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	Okugcwele	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	Okugcwele	0.5	17.5	1.3	-45~+85	10W CW	5.05.03.5	I-PDF
MH0505-08	8.0-11.0	Okugcwele	0.6	17	1.35	-40~+85	10W CW	5.05.03.5	I-PDF
MH0606-07	8.0-11.0	Okugcwele	0.7	16	1.4	-30~+75	15W CW	6.06.03.2	I-PDF
MH0606-07	8.0-12.0	Okugcwele	0.6	15	1.4	-55~+85	40	6.06.03.0	I-PDF
MH0505-08	10.0-15.0	Okugcwele	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	Okugcwele	0.4	20	1.25	-45~+75	10W CW	5.05.03.0	I-PDF
MH0606-04	17.3-17.48	Okugcwele	0.7	20	1.3	-55~+85	2W CW	9.09.04.5	I-PDF
MH0505-07	24.5-26.5	Okugcwele	0.5	18	1.25	-55~+85	10W CW	5.05.03.5	I-PDF
MH3535-07	24.0～41.5	Okugcwele	1.0	18	1.4	-55~+85	10	3.53.53.0	I-PDF
MH0404-00	25.0-27.0	Okugcwele	1.1	18	1.3	-55~+85	2W CW	4.04.02.5	I-PDF

Ukubuka konke

Izinzuzo zama-microstrip circulators zifaka phakathi usayizi omncane, isisindo esincane, ukungaqhubeki okuncane kwendawo uma kuhlanganiswa nama-microstrip circuits, kanye nokuthembeka okuphezulu kokuxhumeka. Okubi kakhulu amandla alo aphansi kanye nokumelana okuncane nokuphazamiseka kwe-electromagnetic.

Izimiso zokukhetha ama-microstrip circulators:
1. Uma kuhlanganiswa futhi kufaniswa phakathi kwamasekethe, kungakhethwa ama-microstrip circulator.
2. Khetha imodeli yomkhiqizo ehambisanayo ye-microstrip Circulator ngokusekelwe kububanzi bemvamisa, usayizi wokufakwa, kanye nesiqondiso sokudlulisela esisetshenzisiwe.
3. Uma imvamisa yokusebenza yobukhulu obubili be-microstrip circulators ingahlangabezana nezidingo zokusetshenziswa, imikhiqizo enevolumu enkulu ngokuvamile inomthamo wamandla aphezulu.

Ukuxhumeka kwesekethe ye-microstrip circulator:
Ukuxhuma kungenziwa ngokusebenzisa ukugoqa ngesandla ngemichilo yethusi noma i-gold wire bonding.
1. Uma uthenga imichilo yethusi yokuxhumanisa ukushisela ngesandla, imichilo yethusi kufanele yenziwe ibe yisimo se-Ω, futhi i-solder akufanele ingene endaweni yokwakha yomuchilo wethusi. Ngaphambi kokushisela, izinga lokushisa lobuso be-Circulator kufanele ligcinwe phakathi kuka-60 no-100 ° C.
2. Uma usebenzisa ukuxhumana kwe-gold wire bonding, ububanzi be-gold strip kufanele bube buncane kunobubanzi besekethe ye-microstrip, futhi i-composite bonding ayivunyelwe.

I-RF Microstrip Circulator iyidivayisi ye-microwave enamachweba amathathu esetshenziswa ezinhlelweni zokuxhumana ezingenantambo, eyaziwa nangokuthi i-ringer noma i-circulator. Inesici sokudlulisa amasignali e-microwave kusuka kwelinye ichweba kuya kwamanye amachweba amabili, futhi ayinawo amandla okushintshana, okusho ukuthi amasignali angadluliselwa ohlangothini olulodwa kuphela. Le divayisi inezinhlelo zokusebenza eziningi ezinhlelweni zokuxhumana ezingenantambo, njengakuma-transceivers okuhambisa amasignali nokuvikela ama-amplifier emiphumeleni yamandla angemuva.
I-RF Microstrip Circulator ikakhulukazi yakhiwe izingxenye ezintathu: i-central junction, i-input port, kanye ne-output port. I-central junction iyi-conductor enenani eliphezulu lokumelana elixhumanisa ama-input kanye nama-output port ndawonye. Eduze kwe-central junction kunemigqa emithathu yokudlulisa ama-microwave, okungukuthi umugqa wokufaka, umugqa wokukhipha, kanye nomugqa wokuhlukanisa. Le migqa yokudlulisa iwuhlobo lomugqa we-microstrip, onezinkundla zikagesi kanye nezama-magnetic ezisatshalaliswa endizeni.

Umgomo wokusebenza we-RF Microstrip Circulator usekelwe ezicini zemigqa yokudlulisa ye-microwave. Uma isignali ye-microwave ingena isuka echwebeni lokufaka, iqala idlulisele ngomugqa wokufaka iye echwebeni eliphakathi. Echwebeni eliphakathi, isignali ihlukaniswe yaba izindlela ezimbili, enye idluliselwa ngomugqa wokukhipha iye echwebeni lokukhipha, kanti enye idluliselwa ngomugqa wokuhlukanisa. Ngenxa yezici zemigqa yokudlulisa ye-microwave, lezi zimpawu ezimbili ngeke ziphazamisane ngesikhathi sokudlulisa.

Izinkomba zokusebenza eziyinhloko ze-RF Microstrip Circulator zifaka phakathi ububanzi bemvamisa, ukulahlekelwa kokufakwa, ukuhlukaniswa, isilinganiso samagagasi okuma kwe-voltage, njll. Ububanzi bemvamisa bubhekisela kububanzi bemvamisa lapho idivayisi ingasebenza khona ngokujwayelekile, ukulahlekelwa kokufakwa kubhekisela ekulahlekelweni kokudluliswa kwesignali kusuka echwebeni lokufaka kuya echwebeni lokukhipha, izinga lokuhlukaniswa libhekisela ezingeni lokuhlukaniswa kwesignali phakathi kwamachweba ahlukene, kanye nesilinganiso samagagasi okuma kwe-voltage sibhekisela kusayizi we-coefficient yokubonakaliswa kwesignali yokufaka.

Lapho uklama futhi usebenzisa i-RF Microstrip Circulator, izici ezilandelayo zidinga ukucatshangelwa:
Ububanzi bemvamisa: Kuyadingeka ukukhetha ububanzi bemvamisa efanele yamadivayisi ngokuya ngesimo sohlelo lokusebenza.
Ukulahlekelwa kokufakwa: Kuyadingeka ukukhetha amadivayisi anokulahlekelwa okuncane kokufakwa ukuze kuncishiswe ukulahleka kokudluliselwa kwesiginali.
Izinga lokuhlukaniswa: Kuyadingeka ukukhetha amadivayisi anezinga eliphezulu lokuhlukaniswa ukuze kuncishiswe ukuphazamiseka phakathi kwamachweba ahlukene.
Isilinganiso segagasi elime ngogesi: Kuyadingeka ukukhetha amadivayisi anesilinganiso segagasi elime ngogesi eliphansi ukuze kuncishiswe umthelela wokubonakaliswa kwesignali yokufaka ekusebenzeni kwesistimu.
Ukusebenza kwemishini: Kuyadingeka ukucabangela ukusebenza kwemishini kwedivayisi, njengosayizi, isisindo, amandla emishini, njll., ukuze uzivumelanise nezimo ezahlukene zokusetshenziswa.