Harbour Industries is the leading supplier of QPL approved MIL-DTL-17 cables. All 50 Ohm constructions are swept for VSWR to ensure product quality. To meet demanding customer requirements, Harbour manufactures special versions of MIL-DTL-17 cables. Harbour's MIL-DTL-17 cables are used in wireless and cellular communication systems and antenna systems around the world.
Harbour also manufactures special RF Microwave cables used for numerous military and commercial aerospace applications, radio communication systems, internal RF transmission lines, and antenna distribution systems. These special series of cables include LL Low Loss coax with high velocity PTFE dielectrics and composite shields for high frequency and high power applications. Flat strip braids are also used in Harbour's SB Coax series, and spiral shields are used in Harbour's SS Coax series.
Download a Coaxial Cable Data Sheet outlining Harbour's Coaxial Cables series.
Download a Coaxial Cable Data Sheet outlining Harbour's High Frequency Coaxial Cables series.
Download the entire Coaxial Catalog.
Download the entire Coaxial Catalog (Chinese).
Compare typical attenuation values of coax at any operating frequency using the Attenuation Calculator under the Resources header on the right.
• Expanded PTFE tape dielectrics and composite braided shields
• Performance guaranteed to frequencies as high as 40GHz
• For use in higher flexing applications. Also uses expanded PTFE tape dielectrics and composite braided shields
• Expanded PTFE tape dielectrics and composite braided shields
• Performance guaranteed to frequencies as high as 40GHz
• Solid PTFE dielectrics and composite braided shields
• Performance guaranteed to frequencies as high as 26GHz
• Solid PTFE dielectrics and spiral strip shield shields
• Performance guaranteed to frequencies as high as 40GHz
• More flexible and supple versions of SS spiral strip coax
• QPL approved constructions
• Incorporates braids with high break strength
• Incorporates braids that are isolated from each other by an intermediate FEP layer