IkhathaloguIIsihluzi se-LTCCyi-3D multi-layer edibeneyoIsihluzi seRFkwaye yinxalenye ephambili kunxibelelwano lwanamhlanje kunye nezicelo ze-IoT. Ibonelela ngeenzuzo ezifana nobukhulu obuncinci, ukugubungela amaza amaninzi, kunye nokuthembeka okuphezulu.
▸ Incinci kakhulu: Isebenzisa i-multi-layer ceramic co-fireing, nto leyo eyenza ibe ncinci kakhulu kune-LC kunye ne-discreteizihluzi ze-microstrip, kwaye ifanelekile kwii-front-ends ze-RF ezinoxinano oluphezulu.
▸ Uluhlu olubanzi lweefrikhwensi: Ixhasa amaza ukusuka kwi-80 MHz ukuya kwi-40 GHz, igubungela i-5G/4G, i-Wi-Fi, i-millimeter wave, kunye nezinye iinkqubo eziqhelekileyo.
▸ Ukusebenza okuzinzileyo: Ibonisa ukushukuma okuphantsi kobushushu, kunye nokumelana nokungcangcazela kunye nokufuma, ihlangabezana neemfuno ezingqongqo zokusingqongileyo zemoto kunye nezemizi-mveliso.
▸ Inkqubo ethandekayo: Iyahambelana nee-conductor zesilivere/zobhedu, ixhasa ukhuselo olwakhelwe ngaphakathi, kwaye ifanelekile kwimveliso yobuninzi be-SMD.
▸ I-bandwidth eguquguqukayo: Ifikelela kwi-bandwidth ehambelanayo ye-2% ukuya kwi-60%, enokulungiselelwa zombini uyilo lwe-narrowband kunye ne-broadband.
Esi sihluzo sisebenza kakuhle sisetyenziswa kakhulu kwiindawo ezahlukeneyo, kuquka:
▸ Izixhobo ze-elektroniki zabathengi:Ii-RF front-ends zee-terminals ezincinci ezifana nee-smartphones, ii-smart watches, kunye nee-earphone ze-TWS.
▸ I-intanethi yeZithuthi kunye nokuqhuba ngokuZimeleyo:Iimodyuli zonxibelelwano lwezithuthi kunye neesensa zeradar ezifuna ukuhluzwa okumelana nokungcangcazela kunye nobushushu.
▸ Unxibelelwano lwe-IoT kunye neMizi-mveliso:Iimitha ezikrelekrele kunye neengcango zemizi-mveliso, eziqinisekisa ubunyulu besignali kwiindawo ezinzima nezintsonkothileyo ze-electromagnetic.
▸ Isathelayithi kunye nokuHamba:Iiterminal zeGPS kunye neemodyuli zonxibelelwano lwesathelayithi ze-LEO, ezifezekisa ukuhluzwa okuncinci kwiibhendi zefrikhwensi ephezulu.
Isihluzi seCeramic kunye nesihluzi seDielectric zizisombululo ezimbini eziqhelekileyo zesihluzi seRF ezisekwe kwi-ceramic, ezinomahluko omkhulu kwimigaqo kunye nokusebenza ngolu hlobo lulandelayo:
| Into yokuthelekisa | Isihluzi se-LTCC | Isihluzi seDielectric |
| Umgaqo Wokusebenza | Isandi se-Electromagnetic | Isandi se-Electromagnetic |
| Ibhendi yeFrequency esebenzayo | I-frequency ephantsi nephakathi (ukuya kuthi ga kwi-millimeter wave) | Isantya esiPhakathi nesiPhezulu / 5G |
| Ibhendiwidth | Iguquguqukayo (Imxinwa/Ibanzi, 2%~60%) | Iyaguquguquka (Imxinwa/Ibanzi) |
| Ixabiso le-Q | Phezulu | Phezulu kakhulu |
| Amandla oMbane | Encinci | Enkulu |
| Uzinzo lobushushu | Jikelele | Igqwesile |
| Ukwaliwa ngaphandle kwebhendi | Jikelele | Unamandla kakhulu |
Xa kuthelekiswa nezihluzi ze-dielectric, izihluzi ze-LTCC zibonelela ngeenzuzo ngobukhulu kunye nokudibanisa, nto leyo ezenza zibe zilungele ukusetyenziswa kwinqanaba lesiphelo kunye nelemodyuli. Izihluzi ze-dielectric, kwelinye icala, zifanelekile ngakumbi kwiimeko zamandla aphezulu kunye ne-Q ephezulu njengezikhululo zesiseko.
Njengomsebenzi oqeqeshiweyoUmthengisi wecandelo le-RF elingasebenziyo, I-APEXigxile kwi-R&D kunye nokuveliswa kwezihluzi ezisebenza kakuhle, inikezela ngeemveliso ezisemgangathweni kunyeizisombululo ezenzelwe wenaNgolawulo oluqinileyo lomgangatho kunye neenkqubo zemveliso eziphambili, iimveliso zethu zibonelela ngokusebenza okuzinzileyo nokugqwesileyo kwiimeko ezifana ne-elektroniki yabathengi, i-Intanethi yeZithuthi, ukuhamba ngesathelayithi kunye nonxibelelwano lwe-5G. I-APEX yamkela imibuzo yakho.
Ixesha leposi: Matshi-25-2026
