SHOP FOR
http://base-store.storehippo.com/
# 2514/U, 7th 'A' Main Road, Opp. to BBMP Swimming Pool, Hampinagar, Vijayanagar 2nd Stage. 560104 Bangalore IN
Tenettech E-Store
# 2514/U, 7th 'A' Main Road, Opp. to BBMP Swimming Pool, Hampinagar, Vijayanagar 2nd Stage. Bangalore, IN
+918023404924 https://cdn1.storehippo.com/s/59c9e4669bd3e7c70c5f5e6c/ms.settings/5256837ccc4abf1d39000001/webp/59dafe26aef6e1d20402c4c3-480x480.png" info@tenettech.com
604b480f8d89fc4dbdbf6e60 RF Cable Assemblies MaxGain 200 CabAssy K(m) to K(m), 2.0 m https://cdn1.storehippo.com/s/59c9e4669bd3e7c70c5f5e6c/604b480f8d89fc4dbdbf6e62/webp/mg160_200-series_dsl.png

MaxGain® Flexible Microwave Coaxial Cables

Amphenol Times Microwave Systems MaxGain® Flexible Microwave Coaxial Cables offer a 50Ω impedance rating, DC to 40Hz insertion range, and up to 80% velocity of propagation. MaxGain cables feature stainless steel connectors and are extremely flexible with a low minimum bend radius. The connectors are available in a wide range of precision interfaces including: Type N, TNC SMA, 2.92mm (k), 2.4mm, SMP, and MMP. Amphenol MaxGain Flexible Microwave Coaxial Cables are ideal for applications where lowest loss and good stability over flexure is required.

TT-MU-523-MG200-KMKM-2.00M
in stock INR 46688.12544
Amphenol Times Microwave Systems
1 1

RF Cable Assemblies MaxGain 200 CabAssy K(m) to K(m), 2.0 m

Sku: TT-MU-523-MG200-KMKM-2.00M
₹46,688.13


Sold By: tenettech
Features
  • Shipping in 10-12 Working Days

Description of product

MaxGain® Flexible Microwave Coaxial Cables

Amphenol Times Microwave Systems MaxGain® Flexible Microwave Coaxial Cables offer a 50Ω impedance rating, DC to 40Hz insertion range, and up to 80% velocity of propagation. MaxGain cables feature stainless steel connectors and are extremely flexible with a low minimum bend radius. The connectors are available in a wide range of precision interfaces including: Type N, TNC SMA, 2.92mm (k), 2.4mm, SMP, and MMP. Amphenol MaxGain Flexible Microwave Coaxial Cables are ideal for applications where lowest loss and good stability over flexure is required.