RFTYT 60MHz-18.0GHz RF Dual / Multi Junction Coaxial Isolator | ||||||||||
Modél | Rentang Frékuénsi | Bandwidth (maks) | Leungitna sisipan (dB) | Isolasi (dB) | VSWR (maks) | Daya Maju (W) | Daya Balikkeun (W) | Diménsi W × L × H (mm) | SMA Lembar data | N Lembar data |
TG12060E | 80-230MHz | 5~30% | 1.2 | 40 | 1.25 | 150 | 10-100 | 120,0 * 60,0 * 25,5 | SMA PDF | N PDF |
TG9662H | 300-1250MHz | 5~20% | 1.2 | 40 | 1.25 | 300 | 10-100 | 96.0*62.0*26.0 | SMA PDF | N PDF |
TG9050X | 300-1250MHz | 5~20% | 1.0 | 40 | 1.25 | 300 | 10-100 | 90,0 * 50,0 * 18,0 | SMA PDF | N PDF |
TG7038X | 400-1850MHz | 5~20% | 0.8 | 45 | 1.25 | 300 | 10-100 | 70,0 * 38,0 * 15,0 | SMA PDF | N PDF |
TG5028X | 700-4200MHz | 5~20% | 0.6 | 45 | 1.25 | 200 | 10-100 | 50,8 * 28,5 * 15,0 | SMA PDF | N PDF |
TG7448H | 700-4200MHz | 5~20% | 0.6 | 45 | 1.25 | 200 | 10-100 | 73,8 * 48,4 * 22,5 | SMA PDF | N PDF |
TG14566K | 1.0-2.0GHz | Pinuh | 1.4 | 35 | 1.40 | 150 | 100 | 145.2*66.0*26.0 | SMA PDF | / |
TG6434A | 2.0-4.0GHz | Pinuh | 1.2 | 36 | 1.30 | 100 | 10-100 | 64.0*34.0*21.0 | SMA PDF | / |
TG5028C | 3.0-6.0GHz | Pinuh | 1.0 | 40 | 1.25 | 100 | 10-100 | 50,8 * 28,0 * 14,0 | SMA PDF | N PDF |
TG4223B | 4.0-8.0GHz | Pinuh | 1.2 | 34 | 1.35 | 30 | 10 | 42,0 * 22,5 * 15,0 | SMA PDF | / |
TG2619C | 8.0-12.0GHz | Pinuh | 1.0 | 36 | 1.30 | 30 | 10 | 26,0 * 19,0 * 12,7 | SMA PDF | / |
RFTYT 60MHz-18.0GHz RF Dual / Multi simpang serelek-di Isolator | ||||||||||
Modél | Rentang Frékuénsi | Bandwidth (maks) | Leungitna sisipan (dB) | Isolasi (dB) | VSWR (maks) | Daya Maju (W) | Daya Balikkeun (W) | Diménsi W × L × H (mm) | Jalur jalur Lembar data | |
WG12060H | 80-230MHz | 5~30% | 1.2 | 40 | 1.25 | 150 | 10-100 | 120,0 * 60,0 * 25,5 | / | |
WG9662H | 300-1250MHz | 5~20% | 1.2 | 40 | 1.25 | 300 | 10-100 | 96.0*48.0*24.0 | / | |
WG9050X | 300-1250MHz | 5~20% | 1.0 | 40 | 1.25 | 300 | 10-100 | 96,0 * 50,0 * 26,5 | / | |
WG5025X | 350-4300MHz | 5~15% | 0.8 | 45 | 1.25 | 250 | 10-100 | 50,8 * 25,0 * 10,0 | / | |
WG7038X | 400-1850MHz | 5~20% | 0.8 | 45 | 1.25 | 300 | 10-100 | 70,0 * 38,0 * 13,0 | / | |
WG4020X | 700-2700MHz | 5~20% | 0.8 | 45 | 1.25 | 100 | 10-100 | 40,0 * 20,0 * 8,6 | / | |
WG4027X | 700-4000MHz | 5~20% | 0.8 | 45 | 1.25 | 100 | 10-100 | 40,0 * 27,5 * 8,6 | / | |
WG6434A | 2.0-4.0GHz | Pinuh | 1.2 | 36 | 1.30 | 100 | 10-100 | 64.0*34.0*21.0 | / | |
WG5028C | 3.0-6.0GHz | Pinuh | 1.0 | 40 | 1.25 | 100 | 10-100 | 50,8 * 28,0 * 14,0 | / | |
WG4223B | 4.0-8.0GHz | Pinuh | 1.2 | 34 | 1.35 | 30 | 10 | 42,0 * 22,5 * 15,0 | / | |
WG2619C | 8.0 - 12.0 GHz | Pinuh | 1.0 | 36 | 1.30 | 30 | 5-30 | 26,0 * 19,0 * 13,0 | / |
Salah sahiji ciri konci isolator simpang ganda nyaéta isolasi, nu ngagambarkeun darajat isolasi sinyal antara port input jeung port output.Biasana, isolasi diukur dina (dB), sarta isolasi tinggi hartina isolasi sinyal hadé.Isolasi tina isolator simpang ganda biasana bisa ngahontal puluhan desibel atawa leuwih.Tangtosna, nalika ngasingkeun peryogi waktos langkung ageung, isolator multi-simpang ogé tiasa dianggo.
Parameter penting séjén tina isolator ganda-simpang nyaéta leungitna sisipan (Insertion Loss), nu nujul kana leungitna sinyal ti port input ka port output.Leungitna sisipan handap hartina sinyal bisa ngarambat leuwih éfisién ngaliwatan isolator nu.Isolator simpang ganda umumna kaleungitan sisipan anu handap pisan, biasana sahandapeun sababaraha desibel.
Salaku tambahan, isolator simpang ganda ogé gaduh rentang frekuensi anu lega sareng kamampuan penanganan kakuatan.Isolator béda bisa dilarapkeun dina pita frékuénsi béda, kayaning pita frékuénsi gelombang mikro (0,3 GHz - 30 GHz) jeung pita frékuénsi gelombang milimeter (30 GHz - 300 GHz).Dina waktos anu sami, éta tiasa tahan tingkat kakuatan anu cukup luhur, mimitian ti sababaraha watt dugi ka puluhan watt.
Desain jeung pabrik isolator simpang ganda merlukeun tinimbangan sababaraha faktor kayaning rentang frékuénsi operasi, syarat isolasi, leungitna sisipan, konstrain ukuran, jsb Ilaharna, insinyur ngagunakeun simulasi médan éléktromagnétik jeung métode optimasi pikeun nangtukeun struktur cocog jeung parameter.Prosés manufaktur isolator simpang ganda biasana ngalibatkeun téknik machining sareng rakitan canggih pikeun mastikeun réliabilitas sareng kinerja alat.
Gemblengna, isolator simpang ganda mangrupikeun alat pasip penting anu seueur dianggo dina gelombang mikro sareng sistem gelombang milimeter pikeun ngasingkeun sareng ngajagi sinyal tina pantulan sareng gangguan silih.Cai mibanda ciri isolasi tinggi, leungitna sisipan low, rentang frékuénsi lega sarta kapasitas penanganan kakuatan tinggi, nu boga dampak penting dina kinerja sarta stabilitas sistem.Kalayan pamekaran kontinyu komunikasi nirkabel sareng téknologi radar, paménta sareng panalitian isolator simpang ganda bakal terus dilegakeun sareng langkung jero.