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Jagorar Rage Fitarwa Masu Hana Ragewa RF Microwave Millimeter Rage mm Rage
Na'urar da aka gyara ta Waveguide na'ura ce mai aiki da kanta wacce ake amfani da ita sosai a fannin fasahar microwave.
An tsara shi ne don rage siginar microwave da ake watsawa a cikin jagororin raƙuman ruwa a wani ƙayyadadden rabo. Misali, lokacin da siginar microwave ta ratsa ta na'urar rage ƙarfin wutar lantarki mai gyarawa, wani ɓangare na makamashin yana sha ko kuma ya ɓace, ta haka yana rage ƙarfin siginar fitarwa.
Jagorar Wave wani nau'in tsarin jagorar wave ne da ake amfani da shi wajen watsa microwaves. Mai hana ruwa tsayawa na jagorar wave ya dogara ne akan tsarin jagorar wave kuma yana cimma matsakaicin adadin ragewa ta hanyar kayan aiki na musamman ko ƙirar tsari. Yawanci yana amfani da kayan juriya ko tsarin lantarki na musamman don shan makamashin microwave.
Manufa:
1. Rage Sigina: Ana amfani da na'urorin rage siginar RF don rage ƙarfin siginar RF da microwave daidai don kare kayan aiki masu mahimmanci da matakan siginar sarrafawa.
2. Daidaita Wutar Lantarki: Ana iya amfani da na'urorin rage zafi na microwave don daidaita matakin wutar lantarki na tsarin, ta haka rage haske da raƙuman ruwa masu tsayawa da kuma inganta aikin tsarin.
3. Daidaita Tsarin: Ana amfani da na'urorin rage ƙarfin raƙuman milimita don daidaita da gwada tsarin RF da microwave don tabbatar da ingantaccen aikin tsarin a matakan wutar lantarki daban-daban.
Aikace-aikace:
1. Tsarin Radar: A cikin tsarin radar, ana amfani da na'urorin rage gudu na jagora don daidaitawa da sarrafa ƙarfin siginar da aka watsa da kuma waɗanda aka karɓa. Wannan yana taimakawa wajen inganta ƙwarewar ganowa da daidaiton tsarin radar.
2. Sadarwar Tauraron Dan Adam: A cikin tsarin sadarwa ta tauraron dan adam, ana amfani da na'urorin rage sigina masu ƙarfi don daidaita ƙarfin sigina don tabbatar da aminci da kwanciyar hankali na hanyar sadarwa. Ana iya amfani da su don watsa sigina tsakanin tashoshin ƙasa da tauraron dan adam.
3. Sadarwar Microwave: A cikin tsarin sadarwa ta microwave, ana amfani da na'urorin rage zafi na microwave don daidaitawa da sarrafa ƙarfin sigina don inganta aiki da amincin hanyoyin sadarwa.
4. Gwaji da Aunawa: A cikin tsarin gwaji da aunawa na RF da microwave, ana amfani da na'urorin rage ƙarfin sigina na milimita don sarrafa ƙarfin sigina daidai don gwaje-gwaje da daidaitawa daban-daban. Wannan yana da mahimmanci don tabbatar da aikin kayan aikin ku da tsarin ku.
5. Rediyo da Talabijin: A tsarin rediyo da talabijin, ana amfani da na'urorin rage ƙarfin sigina na mm don daidaita ƙarfin sigina da inganta ingancin sigina da ɗaukar hoto. Wannan yana taimakawa wajen samar da siginar sauti da bidiyo mai haske.
6. Binciken Kimiyya: A cikin ayyukan bincike na kimiyya, ana amfani da na'urorin rage radadi na jagorar raƙuman ruwa don daidaita da kuma sarrafa ƙarfin siginar RF da microwave a cikin gwaje-gwaje. Waɗannan nazarin na iya haɗawa da ilmin taurari, kimiyyar lissafi, da sauran fannoni.
QualwaveYana samar da ƙarancin VSWR da kuma babban lanƙwasawa daga 3.94 zuwa 500GHz. Matsakaicin ragewa shine 0 ~ 40dB.
Lambar Sashe | Mita(GHz, Matsakaici)  | Mita(GHz, matsakaicin.) | Ƙarfi(W) | Nisan Rage Ragewa(dB) | VSWR(Mafi girma) | Girman Jagoran Raƙuman Ruwa | Flange | Lokacin Gabatarwa(makonni) |
|---|---|---|---|---|---|---|---|---|
| QWFA2.2 | 325 | 500 | - | 5, 10, 20, 30, 40 | 1.4 | WR-2.2 | UG-387/U | 2~6 |
| QWFA3.4 | 220 | 325 | - | 5, 10, 20, 30, 40 | 1.4 | WR-3.4 | UG-387/U | 2~6 |
| QWFA 5.1 | 140 | 220 | - | 5, 10, 20, 30, 40 | 1.4 | WR-5.1 | UG-387/U | 2~6 |
| QWFA10-R5 | 73.8 | 110 | 0.5 | 3, 5, 6, 9, 10, 15, 20, 30, 40 | 1.25 | WR-10 (BJ900) | UG-387/UM | 2~6 |
| QWFA10-5 | 73.8 | 112 | 5 | 10±1, 20±1, 30±1 | 1.2 | WR-10 (BJ900) | UG-387/UM | 2~6 |
| QWFA12-R5 | 60.5 | 91.9 | 0.5 | 10±2.5, 20±5, 30±5 | 1.25 | WR-12 (BJ740) | UG-387/U | 2~6 |
| QWFA15-5 | 49.8 | 75.8 | 5 | 10±1, 20±1 | 1.2 | WR-15 (BJ620) | UG-383/U | 2~6 |
| QWFA22-K1 | 32.9 | 50 | 100 | 30±1.5, 40±1.5 | 1.2 | WR-22 (BJ400) | FUGP400 | 2~6 |
| QWFA28-K1 | 26.3 | 40 | 100 | 30±1, 40±1 | 1.2 | WR-28 (BJ320) | FBP320 | 2~6 |
| QWFA28-K2 | 26.3 | 40 | 200 | 40 | 1.2 | WR-28 (BJ320) | FBP320 | 2~6 |
| QWFA28-K5 | 26.5 | 40 | 500 | 40 | 1.2 | WR-28 (BJ320) | FBP320 | 2~6 |
| QWFA28-1K5 | 26.5 | 40 | 1500 | 40±1 | 1.2 | WR-28 (BJ320) | FBP320 | 2~6 |
| QWFA42-60 | 18 | 26.5 | 60 | 30±1.5 | 1.2 | WR-42 (BJ220) | FBP220 | 2~6 |
| QWFA42-1K | 17.6 | 26.7 | 1000 | 40±1 | 1.2 | WR-42 (BJ220) | FBP220 | 2~6 |
| QWFA51-K2 | 14.5 | 22 | 200 | 40 | 1.2 | WR-51 (BJ180) | FBP180 | 2~6 |
| QWFA51-K26 | 15 | 22 | 260 | 30 | 1.15 | WR-51 (BJ180) | FBP180 | 2~6 |
| QWFA62-60 | 12.4 | 18 | 60 | 30 | 1.2 | WR-62 (BJ140) | FBP140 | 2~6 |
| QWFA62-1K | 11.9 | 18 | 1000 | 40±1 | 1.2 | WR-62 (BJ140) | FBP140 | 2~6 |
| QWFA90-60 | 8.2 | 12.4 | 60 | 30±1.5 | 1.2 | WR-90 (BJ100) | FBP100 | 2~6 |
| QWFA112-25 | 6.57 | 10 | 25 | 15±1.5, 30±1.5 | 1.2 | WR-112 (BJ84) | FBP84/FDP84 | 2~6 |
| QWFA187-1K5 | 3.94 | 5.99 | 1500 | 30 | 1.2 | WR-187 (BJ48) | FAM48 | 2~6 |
| QWFAD180-K2 | 18 | 40 | 200 | 30±1.5 | 1.2 | WRD-180 | FPWRD180 | 2~6 |
| QWFAD180-1K | 18 | 40 | 1000 | 30±1.5 | 1.2 | WRD-180 | FPWRD180 | 2~6 |
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