An haɗa nauyin coaxial na Inset zuwa kayan aikin gwaji ko tsarin ta amfani da masu haɗa coaxial.Masu haɗin haɗin haɗin gwiwa na yau da kullum sun haɗa da nau'in N-type, nau'in SMA, da dai sauransu, waɗanda ke da alaƙa da dacewa da haɗin kai mai kyau.Babban ɓangaren haɗin ginin coaxial shine nau'in kaya, wanda ke da alhakin ɗaukarwa da watsawa a cikin kewaye.Abubuwan ɗora nauyi yawanci suna amfani da madaidaicin resistors waɗanda zasu iya jure wani adadin ƙarfi kuma su canza shi zuwa zafi.Inset coaxial load kuma an sanye shi da tsarin rushewar thermal, wanda ake amfani da shi yadda ya kamata don watsar da zafin da aka samar da kayan aikin don tabbatar da kwanciyar hankali na dogon lokaci na kaya.Tsarin dumama zafi gama gari.
Saboda amfani da madaidaicin kayan aiki na kayan aiki da tsarin watsar da zafi, Inset coaxial lodi na iya jure babban matakan wutar lantarki, yawanci yana aiki a cikin kewayon ƴan zuwa dubun watts.Load ɗin coaxial na Inset na iya rufe kewayo mai yawa daga ƙananan mitar zuwa babban mitar, wanda ya dace da gwaji da kuma lalata hanyoyin RF da tsarin a cikin nau'ikan mitar mitar daban-daban.Inset coaxial load an tsara shi da kyau kuma an ƙera shi, tare da ingantaccen kwanciyar hankali da aminci, kuma yana iya aiki da ƙarfi na dogon lokaci, yana tabbatar da daidaiton bayanan gwaji.A lokaci guda, nauyin Inset yawanci yana da fa'idodi na ƙananan girman da ƙananan nauyi lokacin da aka tsara shi, saboda yana buƙatar haɗawa da haɗuwa a cikin kayan aiki.
Load ɗin coaxial na Inset yana taka muhimmiyar rawa a cikin gwaji da kuma lalata hanyoyin RF da tsarin.Ta hanyar haɗawa da kewayawa ko tsarin da za a gwada, zai iya kwatanta lodi a ƙarƙashin yanayin aiki na ainihi, kimanta aikin da'irar da tsarin, da kuma taimakawa injiniyoyi a cikin matsala da inganta ƙira.Saboda haka, Inset coaxial lodi da ake amfani da ko'ina a cikin bincike da samar da hanyoyin sadarwa, rediyo, radar, tauraron dan adam, da sauran filayen.
RFTRFTYT DC-18GHz RF Inset Ƙarshe | |||||
Ƙarfi | Mai haɗawaNau'in | Impedance(Ω) | VSWRmax | Freq.Range & Takardar bayanaiM Nau'i | Freq.Range & Takardar bayanaiNau'in F |
7W | Bayani na SMP | 50Ω | 1.35 | Nau'in 18G-M | Nau'in 18G-F |
10W | SMA | 50Ω | 1.30 | 3G 4G 6G 8G 12.4G 18G | 3G 4G 6G 8G 12.4G 18G |
N | 50Ω | 1.35 | 3G 4G 6G 8G 12.4G 18G | 3G 4G 6G 8G 12.4G 18G | |
20W | SMA | 50Ω | 1.25 | 3G 4G 6G 8G 12.4G 18G | 3G 4G 6G 8G 12.4G 18G |
N | 50Ω | 1.30 | 3G 4G 6G 8G 12.4G 18G | 3G 4G 6G 8G 12.4G 18G | |
30W | SMA | 50Ω | 1.40 | 3G 4G 6G 8G 12.4G 18G | 3G 4G 6G 8G 12.4G 18G |
N | 50Ω | 1.40 | 3G 4G 6G 8G 12.4G 18G | 3G 4G 6G 8G 12.4G 18G | |
50W | SMA | 50Ω | 1.40 | 3G 4G 6G 8G 12.4G 18G | 3G 4G 6G 8G 12.4G 18G |
N | 50Ω | 1.40 | 3G 4G 6G 8G 12.4G 18G | 3G 4G 6G 8G 12.4G 18G | |
100W | SMA | 50Ω | 1.40 | 3G 4G 6G 8G 12.4G 18G | 3G 4G 6G 8G 12.4G 18G |
N | 50Ω | 1.40 | 3G 4G 6G 8G 12.4G 18G | 3G 4G 6G 8G 12.4G 18G | |
150W | N | 50Ω | 1.40 | 3G 4G 6G 8G 12.4G 18G | 3G 4G 6G 8G 12.4G 18G |
200W | N | 50Ω | 1.40 | 3G 4G 6G 8G | 3G 4G 6G 8G |
250W | N | 50Ω | 1.40 | 3G 4G 6G 8G | 3G 4G 6G 8G |
300W | N | 50Ω | 1.40 | 3G 4G 6G 8G | 3G 4G 6G 8G |