Commscope-Andrew Base Station Antennas

Viewing Commscope-Andrew Base Station Antennas products.
654DG90T3A-C
654DG90T3A-C
DualPol® Antenna, 410–500 MHz, 90° horizontal beamwidth, fixed electrical tilt
GENERAL SUMMARY:
Rugged, durable design
Strong upper side lobe suppression
Air dielectric feed system for exceptional low noise performance
721DD65ESXM
721DD65ESXM
DualPol Dual Band Antenna
GENERAL SUMMARY:
-Small, compact package with integrated mounts for wall installation
-Invert mountable
-Integrated array design reduces cable runs from 4 to 2, saving cost and wind load
744G65V1ASXM
744G65V1ASXM
Andrew Base Station Antennas
Minimizes network performance risks by allowing quick duplication of existing coverage
Excellent azimuth rolloff in both bands, reducing sector-to-sector interference and hand-offs
State of the art construction methods assure a long life of trouble free service
774G80V1ESXM
774G80V1ESXM
Andrew Base Station Antennas
GENERAL SUMMARY:
-Strong first upper side lobe suppression
-Excellent gain per unit length of antenna
-No fasteners, rivets, soldering or welding in critical element-to-transformer circuit
774G90V1ESXM
774G90V1ESXM
Andrew Base Station Antennas
GENERAL SUMMARY:
-Strong first upper side lobe suppression
-Excellent gain per unit length of antenna
-No fasteners, rivets, soldering or welding in critical element-to-transformer circuit
778G90VTAXM
778G90VTAXM
Andrew Base Station Antennas
GENERAL SUMMARY:
-Low profile for ease of zoning approval
-Linear phase shifter design assures reliable, repeatable adjustments
-Independent field adjustable electrical downtilt
778X105M85V1
778X105M85V1
Andrew Base Station Antennas
GENERAL SUMMARY:
-Low profile for ease of zoning approval
-Strong first upper side lobe suppression
-Field adjustable electrical downtilt in 1850-1990 MHz band
844G45VTZASX
844G45VTZASX
Andrew Directed Dipole Antenna, 806–941 MHz, 45 horizontal beamwidth, variable electrical tilt
GENERAL SUMMARY:Outstanding first upper side lobe suppression
Air dielectric feed system, no screws, rivets, welds or solder in RF element feed path
Excellent azimuth pattern shaping, 15-20% reduction in cell-to-cell overlap
Field adjustable electrical downtilt, featuring linear phase shifter, no wheels or gears
844G65T6ZAXY
844G65T6ZAXY
Andrew Base Station Antennas
GENERAL SUMMARY:
-Strong upper side lobe suppression
-Low profile appearance and low wind loading for easier zoning approvals
-Air dielectric feed system, no screws, rivets, welds or solder in RF element feed path
844G65VTZASX
844G65VTZASX
Andrew Base Station Antennas
GENERAL SUMMARY:
-Outstanding first upper side lobe suppression
-Air dielectric feed system, no screws, rivets, welds or solder in RF element feed path
-Excellent azimuth pattern shaping, 15-20% reduction in cell-to-cell overlap
844G80VTA-SX
844G80VTA-SX
Andrew Base Station Antennas
GENERAL SUMMARY:
-Outstanding first upper side lobe suppression
-Air dielectric feed system, no screws, rivets, welds or solder in RF element feed path
-Excellent azimuth pattern shaping, 15-20% reduction in cell-to-cell overlap
844G90VTA-SX
844G90VTA-SX
Andrew Base Station Antennas
GENERAL SUMMARY:
-Outstanding first upper side lobe suppression
-Air dielectric feed system, no screws, rivets, welds or solder in RF element feed path
-Excellent azimuth pattern shaping, 15-20% reduction in cell-to-cell overlap
844H80T6E-XY
844H80T6E-XY
Andrew Base Station Antennas
GENERAL SUMMARY:
-Low profile, low wind load for easy zoning
-Outstanding field record, with thousands of units deployed, world wide
-Superior front to back ratio
844H90T6E-XY
844H90T6E-XY
Andrew Base Station Antennas
GENERAL SUMMARY:
-Low profile, low wind load for easy zoning
-Outstanding field record, with thousands of units deployed, world wide
-Superior front to back ratio
848F65T5E-SX
848F65T5E-SX
Andrew Base Station Antennas
GENERAL SUMMARY:
-Extremely rugged, reliable design yet lightweight for low tower loading
-Strong null filling for below horizon RF penetration
-Exceptional azimuth roll-off reducing soft hand-offs and improving capacity