Iimbonakalo:
- Ukwahlula Okuphezulu
- Ilahleko yokuFaka ephantsi
-
+ 86-28-6115-4929 -
sales@qualwave.com
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I-Cryogenic Coaxial Circulators RF Microwave Millimeter Wave
IiCryogenic Coaxial Circulators
I-Cryogenic Coaxial Circulators zizixhobo ezikhethekileyo ze-microwave ezingatshintshiyo ezenzelwe ukusebenza kumaqondo obushushu aphantsi kakhulu (amaqondo obushushu e-helium elulwelo, i-4K okanye ngaphantsi). Iisetyhulayitha zizixhobo eziziizibuko ezithathu okanye ezine ezalathisa imiqondiso yemicrowave kwipatheni ethile esetyhula (umzekelo, iZibuko loku-1 → iZibuko lesi-2 → iZibuko lesi-3 → iZibuko loku-1), zibonelela ngokwahlulwa phakathi kwamazibuko. Kwiindawo ze-cryogenic, ezi zixhobo ziyimfuneko kwizicelo ezifana ne-quantumcomputing, i-electronics superconducting, kunye neemvavanyo zokushisa okuphantsi, apho umgaqo ochanekileyo kunye nokuhlukaniswa kubalulekile.
Iimbonakalo:
1. Ukusebenza kweCryogenic: I-Millimeter wave cryogenic coaxial circulators eyenzelwe ukusebenza ngokuthembekileyo kumaqondo okushisa e-cryogenic (umzekelo, i-4K, i-1K, okanye nangaphantsi). Yakhiwe kusetyenziswa izinto ezigcina iimpawu zazo zemagneti kunye nombane kumaqondo aphantsi, njenge-ferrites kunye ne-superconductors.
2. Ilahleko yokuNgena okuPhantsi: Iqinisekisa ukuthotywa kwesignali encinci kwindlela eya phambili, eyona nto ibalulekileyo ekugcineni ukunyaniseka komqondiso kwizicelo ezinobuthathaka.
3. Ukwahlukaniswa okuphezulu: Ibonelela ngokwahlula okugqwesileyo phakathi kwamazibuko ukuthintela ukuvuza komqondiso kunye nokuphazamiseka.
4. I-Wide Frequency Range: I-Microwave cryogenic coaxial circulators isekela uluhlu olubanzi lwee-frequencies, ngokuqhelekileyo ukusuka kwi-MHz ezimbalwa ukuya kwii-GHz ezininzi, kuxhomekeke kuyilo kunye nesicelo.
5. I-Compact and Lightweight Design: Ilungiselelwe ukudityaniswa kwiinkqubo ze-cryogenic, apho indawo kunye nobunzima buhlala bulinganiselwe.
6. Umthwalo ophantsi we-Thermal: Unciphisa ukuhanjiswa kobushushu kwindawo ye-cryogenic, iqinisekisa ukusebenza okuzinzile kwenkqubo yokupholisa.
7. Ukuphathwa kwamandla aphezulu: Ukukwazi ukuphatha amanqanaba abalulekileyo amandla ngaphandle kokuthotywa kokusebenza, okubalulekileyo kwizicelo ezifana ne-quantum computing kunye ne-astronomy yerediyo.
Usetyenziso:
1. I-Quantum Computing: Ii-RF cryogenic coaxial circulators ezisetyenziswa kwi-superconducting quantum processors ukuze zihambise ulawulo lwe-microwave kunye nemiqondiso yokufunda, iqinisekisa ukuhanjiswa komqondiso ococekileyo kunye nokunciphisa ingxolo enokuthi ihlukanise iqubits. Idityaniswe kwizikhenkcisi zokunyibilikisa ukugcina ubunyulu bophawu kumaqondo obushushu e-millikelvin.
2. I-Superconducting Electronics: Baqeshwe kwiisekethe ze-superconducting kunye ne-sensor kwiimpawu zendlela kunye nokubonelela ngokuzimeleyo, ukuqinisekisa ukusetyenzwa kwesignali echanekileyo kunye nokulinganisa.
3. Iimvavanyo zokushisa okuphantsi: Isetyenziswe kwi-setups zophando lwe-cryogenic, njengezifundo ze-super conductivity okanye i-quantum phenomena, ukugcina ukucaca komqondiso kunye nokunciphisa ingxolo.
4. I-Radio Astronomy: Isetyenziswa kwi-cryogenic receivers of radio telescopes ukuhambisa imiqondiso yendlela kunye nokuphucula ubuntununtunu bokuphononongwa kweenkwenkwezi.
5. I-Medical Imaging: Isetyenziswe kwiinkqubo ze-imaging eziphambili ezifana ne-MRI (i-Magnetic Resonance Imaging) esebenza kumaqondo okushisa e-cryogenic ukuphucula umgangatho womqondiso.
6. Unxibelelwano lwe-Space kunye neSatellite: Uqeshwe kwiinkqubo zokupholisa i-cryogenic zezixhobo ezisekelwe kwindawo yokulawula izibonakaliso kunye nokuphucula ukusebenza kakuhle konxibelelwano.
Qualwaveibonelela ngee-cryogenic coaxial circulators kuluhlu olubanzi ukusuka kwi-4GHz ukuya kwi-8GHz. Ii-cryogenic coaxial circulators zethu zisetyenziswa ngokubanzi kwiindawo ezininzi.
| IiCryogenic Coaxial Circulators | ||||||||||
|---|---|---|---|---|---|---|---|---|---|---|
| Inombolo yendawo | Ukuphindaphinda (GHz) | Ubungakanani bobubanzi (MHz Ubukhulu.) | IL (dB max.) | Ukwahlukaniswa (dB Min.) | I-VSWR (ubuninzi.) | Amandla oMndilili (W max.) | Umnxibelelanisi | Ubushushu(K) | Ubungakanani (mm) | Ixesha lokukhokela (iiveki) |
| 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 yendawo | Ukuphindaphinda (GHz) | Ubungakanani bobubanzi (MHz Ubukhulu.) | IL (dB max.) | Ukwahlukaniswa (dB Min.) | I-VSWR (ubuninzi.) | Amandla oMndilili (W max.) | Umnxibelelanisi | Ubushushu(K) | Ubungakanani (mm) | Ixesha lokukhokela (iiveki) |
| 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 yendawo | Ukuphindaphinda (GHz) | Ubungakanani bobubanzi (MHz Ubukhulu.) | IL (dB max.) | Ukwahlukaniswa (dB Min.) | I-VSWR (ubuninzi.) | Amandla oMndilili (W max.) | Umnxibelelanisi | Ubushushu(K) | Ubungakanani (mm) | Ixesha lokukhokela (iiveki) |
| 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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