Izici:
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- Ukulahlekelwa Kokufaka Okuphansi
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I-Cryogenic Coaxial Circulators RF Microwave Millimeter Wave
I-Cryogenic Coaxial Circulators
Ama-Cryogenic Coaxial Circulator angamadivayisi akhethekile ama-microwave angahosheli aklanyelwe ukusebenza emazingeni okushisa aphansi kakhulu (ngokuvamile amazinga okushisa e-helium ewuketshezi, angu-4K noma ngaphansi). Amasekhethi angamadivayisi anezimbobo ezintathu noma ezine aqondisa amasiginali we-microwave ngephethini ethile eyindilinga (isb., Imbobo 1 → Imbobo 2 → Imbobo yesi-3 → Imbobo 1), ehlinzeka ngokuhlukaniswa phakathi kwezimbobo. Ezimweni ze-cryogenic, lawa madivayisi abalulekile ezinhlelweni zokusebenza ezifana ne-quantumcomputing, i-superconducting electronics, nokuhlolwa kwethempelesha ephansi, lapho umzila onembile kanye nokuzihlukanisa kubalulekile.
Izici:
1. Ukusebenza Kwe-Cryogenic: Ama-Millimeter wave ama-cryogenic coaxial circulator aklanyelwe ukusebenza ngokuthembekile emazingeni okushisa e-cryogenic (isb, 4K, 1K, noma ngisho nangaphansi). Yakhiwe kusetshenziswa izinto ezigcina izakhiwo zazo zikazibuthe nezikagesi emazingeni okushisa aphansi, njengama-ferrites nama-superconductors.
2. Ukulahlekelwa Kokufaka Okuphansi: Iqinisekisa ukuncishwa kwesignali okuncane ekuqondeni phambili, okubalulekile ekugcineni ubuqotho besignali ezinhlelweni ezibucayi.
3. Ukuhlukaniswa Okuphezulu: Inikeza ukuhlukaniswa okuhle kakhulu phakathi kwamachweba ukuvimbela ukuvuza kwesignali kanye nokuphazamiseka.
4. I-Wide Frequency Range: Ama-Microwave cryogenic coaxial circulators asekela ububanzi obubanzi befrikhwensi, ngokuvamile ukusuka ku-MHz embalwa ukuya kuma-GHz amaningana, kuye ngomklamo nokusebenza.
5. Idizayini Ehlangene Nesindo Esilula: Kwenzelwe ukuhlanganiswa ezinhlelweni ze-cryogenic, lapho isikhala nesisindo kuvame ukukhawulelwa.
6. Umthwalo Oshisayo Ophansi: Yehlisa ukudluliswa kokushisa endaweni ye-cryogenic, iqinisekise ukusebenza okuzinzile kwesistimu yokupholisa.
7. Ukuphatha Amandla Aphezulu: Iyakwazi ukuphatha amazinga abalulekile amandla ngaphandle kokuwohloka kokusebenza, okubalulekile ezinhlelweni zokusebenza ezifana ne-quantum computing kanye ne-radio astronomy.
Izicelo:
1. I-Quantum Computing: Ama-RF cryogenic coaxial circulators asetshenziswa ekwenzeni ama-superconducting quantum processors ukuze ahambise amasiginali we-microwave namasignali afundwayo, aqinisekise ukudluliswa kwesignali okuhlanzekile kanye nokunciphisa umsindo ongahlukanisa ama-qubits. Kuhlanganiswe eziqandisini zokuhlanza ukuze kugcinwe ubumsulwa besignali emazingeni okushisa e-millikelvin.
2. I-Superconducting Electronics: Iqashwe kumasekhethi e-superconducting nezinzwa kumasiginali womzila futhi inikeze ukuhlukaniswa, iqinisekisa ukucubungula kwesignali okunembile kanye nokulinganisa.
3. Ukuhlolwa Kwezinga Eliphansi Lokushisa: Kusetshenziswa ekusetheni ucwaningo lwe-cryogenic, njengocwaningo lwe-super conductivity noma i-quantum phenomena, ukuze kugcinwe ukucaca kwesignali nokunciphisa umsindo.
4. I-Radio Astronomy: Isetshenziswa kuma-cryogenic receives of radio telescopes ukuhambisa amasiginali nokuthuthukisa ukuzwela kokubhekwa kwezinkanyezi.
5. Ukufanekisa Kwezokwelapha: Kusetshenziswa ezinhlelweni zokuthwebula ezithuthukisiwe njenge-MRI (I-Magnetic Resonance Imaging) esebenza kumazinga okushisa e-cryogenic ukuze kuthuthukiswe ikhwalithi yesignali.
6. Ukuxhumana Kwendawo kanye Nesathelayithi: Kuqashwe ezinhlelweni zokupholisa i-cryogenic zezinsimbi ezisekelwe emkhathini ukuze kuphathwe amasignali futhi kuthuthukiswe ukusebenza kahle kokuxhumana.
Qualwaveinikeza ama-cryogenic coaxial circulators ebangeni elibanzi ukusuka ku-4GHz ukuya ku-8GHz. Ama-circulator ethu e-cryogenic coaxial asetshenziswa kabanzi ezindaweni eziningi.
| I-Cryogenic Coaxial Circulators | ||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
| Inombolo Yengxenye | Imvamisa (GHz) | Umkhawulokudonsa (MHz Max.) | I-IL (dB max.) | Isolation (dB Min.) | I-VSWR (ubuningi.) | Amandla Amaphakathi (W max.) | I-Conenector | Izinga lokushisa(K) | Usayizi (mm) | Isikhathi Sokuhola (amaviki) |
| I-QCCC-4000-8000-04-S | 4~8 | 4000 | 0.2 | 20 | 1.3 | - | I-SMA | 4 (-269.15℃) | 24.2*25.5*13.7 | 2~4 |
| I-Cryogenic Dual Junction Coaxial Circulators | ||||||||||
| Inombolo Yengxenye | Imvamisa (GHz) | Umkhawulokudonsa (MHz Max.) | I-IL (dB max.) | Isolation (dB Min.) | I-VSWR (ubuningi.) | Amandla Amaphakathi (W max.) | I-Conenector | Izinga lokushisa(K) | Usayizi (mm) | Isikhathi Sokuhola (amaviki) |
| I-QCDCC-4000-8000-04-S | 4~8 | 4000 | 0.4 | 40 | 1.3 | - | I-SMA | 4 (-269.15℃) | 47*25.5*13.7 | 2~4 |
| I-Cryogenic Triple Junction Coaxial Circulators | ||||||||||
| Inombolo Yengxenye | Imvamisa (GHz) | Umkhawulokudonsa (MHz Max.) | I-IL (dB max.) | Isolation (dB Min.) | I-VSWR (ubuningi.) | Amandla Amaphakathi (W max.) | I-Conenector | Izinga lokushisa(K) | Usayizi (mm) | Isikhathi Sokuhola (amaviki) |
| I-QCTCC-4000-8000-04-S | 4~8 | 4000 | 0.6 | 60 | 1.3 | - | I-SMA | 4 (-269.15℃) | 47*25.5*13.7 | 2~4 |
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