Qualcomm MRSAT LSAT Satellite Phone Antenna Cable and Iridium Extreme® with US Made LMR-400 - (35 FT, 11M)
Product Description
Qualcomm MRSAT LSAT Satellite Phone Antenna Cable and Iridium Extreme® with US Made LMR-400 - (35 FT, 11M)
- Times Microwave LMR-400 Cable Assembly configured and tested for lowest signal loss with Sat Phone use. Iridium satellite phones operate at Microwave frequencies. At 1600 MHz Cheap RG type coax can lose up to One DB Per Foot.
- 60 DAY RETURNS - plus a 1 YEAR EXCHANGE for defects on All MPD Digital Cable Assemblies
- It is critical that your antenna system be water tight. Included with the cable system is 3M Water Proofing mastic for sealing connections. Outer Jacket Material: Flexible UV Proof FR-PE, Outer Diameter: .400 (10.3mm) nom., SRL: per MIL-C-17/74
- Microwave Satellite Phone antenna cable is configured with two TNC male connectors used by most Sat Phone antennas. If your system requires a different connector configuration simply request it using Amazon Messaging. Double Shielded 99% Copper Clad Center conductor.
- For use with Iridium 9500, 9505, 9505A Satellite Phone, VaD, ComCenter, MariTrack or Docking Station. Impedance 50 Ohms Frequency Range DC ~ 11 GHz
Using high quality Satellite certified Microwave coax is critical for the success of your antenna run. An externally mounted antenna provides an ideal solution for many applications. If you have or plan to install an external antenna, it is very important that the cables used meet the Iridium guidelines established for proper performance. For optimal performance, we recommend using the shortest length of cable and the fewest number of connectors possible.
All wireless devices, including satellite telephones, are susceptible to RF (radio frequency) interference from other electronic devices. This problem is more evident when numerous antennas and broadcasting devices are located within close proximity to each other. The Iridium Phone Antenna cable as configured contains extra layers of shielding to prevent acquisition of induced interference.
