SABIC, jagora a duniya a masana'antar sinadarai, ya gabatar da wani sinadari na LNP Thermocomp OFC08V, wani abu da ya dace da eriya na dipole na tashar 5G da sauran aikace-aikacen lantarki/lantarki.
Wannan sabon tsari zai iya taimaka wa masana'antar ƙirƙirar ƙirar eriya mai sauƙi, mai araha, mai amfani da filastik wanda ke sauƙaƙa aiwatar da kayayyakin more rayuwa na 5G. A cikin wannan zamani na karuwar birane da birane masu wayo, akwai buƙatar gaggawa don samar da hanyoyin sadarwa na 5G don samar da haɗin kai mai sauri da aminci ga miliyoyin mazauna.
"Domin taimakawa wajen cimma alƙawarin saurin sauri na 5G, ƙarin nauyin bayanai, da kuma ƙarancin latency, masana'antun eriya na RF suna yin juyin juya hali kan ƙirarsu, kayan aiki da hanyoyin aikinsu," in ji mutumin.
"Muna taimaka wa abokan cinikinmu su sauƙaƙa samar da eriya ta RF, waɗanda ake amfani da su a cikin ɗaruruwan jeri a cikin na'urorin eriya masu aiki. Sabbin mahaɗan LNP Thermocomp ɗinmu masu aiki mai kyau suna taimakawa ba kawai ta hanyar guje wa samar da bayan sarrafawa ba, har ma da samar da ingantaccen aiki a manyan fannoni da dama. Ta hanyar ci gaba da haɓaka sabbin kayayyaki don kayayyakin more rayuwa na 5G, SABIC yana da nufin hanzarta faɗaɗa wannan fasahar hanyar sadarwa ta zamani."
LNP Thermocomp OFC08V wani abu ne da aka ƙarfafa da zare na gilashi bisa resin polyphenylene sulfide (PPS). Yana da kyawawan kaddarorin electroplating ta amfani da tsarin laser direct structuring (LDS), manne mai ƙarfi na Layer, kyakkyawan sarrafa warpage, juriya mai zafi, da kuma kaddarorin dielectric da mitar rediyo mai ɗorewa (RF). Wannan haɗin keɓaɓɓen kaddarorin yana ba da damar sabbin ƙira na eriya dipole mai iya canzawa waɗanda ke ba da fa'idodi fiye da haɗuwa na gargajiya na allon da'ira da aka buga (PCB) da kuma zaɓaɓɓen plating na filastik.
Fa'idodin aiki masu cikakken bayani
An ƙera sabon mahaɗin LNP Thermocomp OFC08V don amfani a cikin faranti na ƙarfe ta amfani da LDS. Kayan yana da taga mai faɗi na sarrafa laser, wanda ke sauƙaƙe faranti kuma yana tabbatar da daidaiton faɗin layin faranti, yana taimakawa wajen tabbatar da aiki mai ƙarfi da daidaito na eriya. Mannewa mai ƙarfi tsakanin filastik da yadudduka na ƙarfe yana hana ɓarna, koda bayan tsufa mai zafi da sake haɗawa da sinadarai ba tare da gubar ba. Ingantaccen kwanciyar hankali da ƙarancin warpage idan aka kwatanta da matakan PPS masu ƙarfi da aka ƙarfafa da zare na gilashi suna taimakawa wajen daidaita ƙarfe yayin LDS, da kuma haɗa shi daidai.
Saboda waɗannan kaddarorin, kamfanin samar da mafita na laser na Jamus LPKF Laser & Electronics ya lissafa mahaɗin LNP Thermocomp OFC08V a matsayin ingantaccen thermoplastic ga LDS a cikin fayil ɗin kayan kamfanin.
"Eriya-eriya-petrolastic dipole da aka yi da PPS mai ƙarfafa gilashi suna maye gurbin zane-zane na gargajiya saboda suna iya rage nauyi, sauƙaƙe haɗuwa, da kuma samar da daidaiton plating mafi girma," in ji mutumin. "Duk da haka, PPS na gargajiya Kayan yana buƙatar tsari mai rikitarwa na ƙarfe. Don magance wannan ƙalubalen, kamfanin ya ƙera sabon, wani sinadari na musamman da ke tushen PPS tare da ƙarfin LDS da haɗin gwiwa mai ƙarfi."
Tsarin zaɓaɓɓen electroplating na robobi wanda ake amfani da shi sosai a yau ya ƙunshi matakai da yawa, kuma mahaɗin LNP Thermocomp OFC08V mai ƙarfin LDS yana ba da sauƙi da yawan aiki mai yawa. Bayan an yi allurar allurar, LDS yana buƙatar ƙirƙirar laser da plating mara lantarki kawai.
Bugu da ƙari, sabon mahaɗin LNP Thermocomp OFC08V yana ba da duk fa'idodin aiki na PPS mai cike da gilashi, gami da juriya mai ƙarfi ga haɗa PCB ta amfani da fasahar hawa saman, da kuma jinkirin harshen wuta (UL-94 V0 a 0.8 mm). Ƙarancin ƙimar dielectric (ma'aunin dielectric: 4.0; ma'aunin dissipation: 0.0045) da kuma kaddarorin dielectric masu ƙarfi, da kuma kyakkyawan aikin RF a ƙarƙashin yanayi mai wahala, suna taimakawa wajen inganta watsawa da tsawaita rayuwar sabis.
Mutumin ya ƙara da cewa, "Fitowar wannan ingantaccen mahaɗin LNP Thermocomp OFC08V zai iya sauƙaƙe inganta ƙirar eriya da aiki mai ɗorewa a fagen, yana sauƙaƙa tsarin ƙarafa da rage farashin tsarin ga abokan cinikinmu," in ji mutumin.
Lokacin Saƙo: Afrilu-25-2022
