Iifrikhwensi zikanomathotholo (RF) kunye nobuchwepheshe be-microwave budlala indima ephambili kunxibelelwano lwale mihla, ezonyango, emkhosini kunye namanye amacandelo. Njengoko itekhnoloji iqhubela phambili, obu buchwepheshe buhlala buguquka. Eli nqaku liza kwazisa ngokufutshane inkqubela phambili yamva nje kwirediyo yerediyo kunye netekhnoloji ye-microwave kunye nokusetyenziswa kwayo.
Isishwankathelo seRF kunye neMicrowave Technology
Itekhnoloji yefrikhwensi yerediyo ibandakanya amaza ombane kuluhlu lwamaza phakathi kwe-3kHz kunye ne-300GHz kwaye isetyenziswa ngokubanzi kunxibelelwano olungenazingcingo, usasazo kunye neenkqubo zerada. IiMicrowaves ikakhulu zijolisa kumaza ombane anamaza phakathi kwe-1GHz kunye ne-300GHz, kwaye aqhele ukusetyenziswa kwizixhobo ezifana nonxibelelwano ngesathelayithi, iirada kunye nee-oveni zemicrowave.
Inkqubela phambili yetekhnoloji yamva nje
Ukusetyenziswa kwezixhobo ze-gallium nitride (GaN).
I-Gallium nitride ifanelekile kwi-RF kunye ne-microwave amplifiers ngenxa yoxinano lwamandla aphezulu kunye namandla ombane aphezulu. Kwiminyaka yakutshanje, i-GaN high electron mobility transistors (HEMTs) kunye neesekethe ezidibeneyo ze-microwave ze-monolithic (MMICs) zenze inkqubela phambili ebonakalayo ngokubhekiselele ekusebenzeni okuphezulu, i-bandwidth ebanzi, kunye namandla aphezulu.
UIY
Itekhnoloji yokudibanisa ye-3D
Ukuze kuhlangatyezwane neemfuno zoxinaniso oluphezulu, imisebenzi emininzi kunye noguquko oluguquguqukayo, itekhnoloji yokudibanisa i-3-dimensional (3D) isetyenziswa ngokubanzi kumaza kanomathotholo kunye neesekethe ze-microwave. Itekhnoloji ye-silicon-based transfer board (TSV) isetyenziselwa ukuqonda ukudityaniswa kobuthathu berediyo kunye neesekethe ze-microwave, ukuphucula ukusebenza kunye nokuthembeka kwenkqubo.
IYunivesithi yeSayensi yoMbane kunye neTekhnoloji yaseTshayina
Inkqubela phambili yeetshiphusi zeRF zasekhaya
Ngophuhliso lonxibelelwano lwe-5G, uphando kunye nophuhliso lweechips zerediyo zasekhaya zenze inkqubela phambili enkulu. Iinkampani zasekhaya ezifana neZhuosheng Micro kunye neMajie Technology zifezekise imveliso yobuninzi bee-chips zerediyo ze-5G kwaye zandisa ukulawulwa kwazo okuzimeleyo.
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Iindawo zesicelo
Inkalo yonxibelelwano
Ubuxhakaxhaka berediyo kunye nobuchwepheshe be-microwave ngundoqo wonxibelelwano lwe-5G, ukuxhasa ukuhanjiswa kwedatha ngesantya esiphezulu kunye nonxibelelwano oluphantsi-latency. Ngokukhuthazwa kweenethiwekhi ze-5G, imfuno yetekhnoloji yerediyo yerediyo iyaqhubeka nokukhula.
Intsimi yezonyango
Itekhnoloji ye-imaging ye-Microwave inezicelo ezibalulekileyo ekuxilongweni kwezonyango, ezifana nokufumanisa umhlaza kunye nokucinga kwengqondo. Iimpawu zayo ezingabonakaliyo kunye nesisombululo esiphezulu zenza ukuba kube yinto entsha yokujonga unyango.
Ibala lomkhosi
Itekhnoloji ye-Microwave idlala indima ephambili kwizicelo zomkhosi ezifana ne-radar, unxibelelwano kunye nemilinganiselo yokumelana ne-elektroniki. Uxinaniso lwamandla aphezulu kunye neempawu eziphezulu zefrikhwensi zinika izibonelelo ezizodwa kwintsimi yomkhosi.
Imbono yekamva
Kwixesha elizayo, iifrikhwensi zikanomathotholo kunye netekhnoloji ye-microwave iya kuqhubeka iphuhlisa ukuya kumaza omoya aphezulu, amandla aphezulu kunye nokusebenza okuphezulu. Indibaniselwano yetekhnoloji yequantum kunye nobukrelekrele bokwenziwa bunokuzisa impumelelo entsha kwirediyo yerediyo kunye netekhnoloji ye-microwave kwaye ikhuthaze ukusetyenziswa kwayo kwiinkalo ezahlukeneyo.
Ixesha lokuposa: Dec-03-2024
