This radar was originally a National Weather Service local warning radar installed in 1977. It was refurbished and upgraded to Pulse-Doppler capabilities in 1991. When the NEXRAD network replaced previous NWS radars, it was donated to the UAH Department of Atmospheric Science in 2002 and upgraded to dual-polarimetry using the SIGMET Antenna Mounted Receiver in the fall 2004. Baron Radar division of Baron Services, Inc., Huntsville, AL, upgraded the transmitter in 2005 to a 350 kW solid state VHDD-350C transmitter. In the fall of 2006, a high performance Seavey dual-polarization antenna and Orbit pedestal were purchased for ARMOR by the same company and made fully functional by the end of October. ARMOR is the first dual polarimetric radar used in broadcast television news, and one of the first systems of its type open for educational use to a public university, The University of Alabama in Huntsville.
Description
ARMOR is a modified WSR-74 C-Band radar with a 0.5 - 1.0° resolution in azimuth and a spatial resolution varying from 60 to 500 meters, with a typical resolution of 150m. ARMOR sits 206 meters above sea level. The pulse length can vary from 0.4 to 4 microseconds and its peak power is 350 kW. ARMOR's antenna is 3.7 m, or 12 feet, in diameter, and its typical PRF ranges from 250 to 2000 Hz. At its maximum, its rotation rate is 36 degrees/second. It transmits and receives vertical and horizontal polarized signals and operates with a SIGMET RVP8 signal processor. ARMOR is capable of area-specific sector scans, and unlike the NEXRAD Network, can be manually operated.
Usages
The following is information about the radar and its advanced systems:
One-of-a-kind technology transfer via real-time use of ARMOR in the broadcast meteorology domain.
Real-time operational feed to NWS for nowcasting and training at NWS WFO Huntsville
Supports basic thunderstorm, cloud physics, cloud electrification and precipitation research within the UAH/NASA Severe Thunderstorm Observations and Research Meteorological NETwork
Source for Satellite precipitation mission ground truth and physical validation via precipitation microphysics retrieval and kinematic measurements
Operational meteorological decision support tool development and data assimilation
Detailed cloud kinematic, microphysical, electrification, and lightning studies using the NASA Northern Alabama Lightning Mapping Array, ARMOR polarimetric variables and real-time dual-Doppler capability.
Potential hydrological data input for assimilation into local distributed runoff models, regional flood plain studies/planning
Near surface wind retrievals for assimilation into pollutant dispersion models
Boundary layer studies including identification of biological flyers
Users
In a unique partnership, this research radar is used by meteorologists at WHNT-TV for forecasting and on airsevere weather coverage. ARMOR was the first dual polarimetric capable radar installed by a television station. The data received from the radar is continuously archived at the National Space Science and Technology Center at UAH for full volumetric and surveillance scans. ARMOR also deploys a live feed to the Huntsville National Weather Service Office making it one of the first NWS offices to gain first hand experience with dual-pole radar. Currently, as of 2017, the entirety of the National NEXRAD network operates with dual-polarimetric capabilities.