netcdf nexrad/level2/S3/2016/03/22/KBGM/KBGM20160322_053913_V06.gz {
  dimensions:
    scanD = 1;
    gateD = 1192;
    radialD = 120;
    scanC = 1;
    gateC = 1192;
    radialC = 120;
    scanP = 1;
    gateP = 1192;
    radialP = 120;
  variables:
    ubyte DifferentialReflectivity(scanD=1, radialD=120, gateD=1192);
      :units = "dB";
      :long_name = "Differential Reflectivity";
      :missing_value = 1B, 0B; // byte
      :signal_below_threshold = 0B; // byte
      :scale_factor = 0.0625f; // float
      :add_offset = -8.0f; // float
      :range_folding_threshold = 50S; // short
      :_CoordinateAxes = "timeD elevationD azimuthD distanceD";

    int timeD(scanD=1, radialD=120);
      :long_name = "time of each ray";
      :units = "msecs since 2016-03-22T00:00:00Z";
      :missing_value = -9999; // int
      :_CoordinateAxisType = "Time";

    float elevationD(scanD=1, radialD=120);
      :units = "degrees";
      :long_name = "elevation angle in degres: 0 = parallel to pedestal base, 90 = perpendicular";
      :missing_value = NaNf; // float
      :_CoordinateAxisType = "RadialElevation";

    float azimuthD(scanD=1, radialD=120);
      :units = "degrees";
      :long_name = "azimuth angle in degrees: 0 = true north, 90 = east";
      :missing_value = NaNf; // float
      :_CoordinateAxisType = "RadialAzimuth";

    float distanceD(gateD=1192);
      :units = "m";
      :long_name = "radial distance to start of gate";
      :_CoordinateAxisType = "RadialDistance";

    int numRadialsD(scanD=1);
      :long_name = "number of valid radials in this scan";

    int numGatesD(scanD=1);
      :long_name = "number of valid gates in this scan";

    ubyte CorrelationCoefficient(scanC=1, radialC=120, gateC=1192);
      :units = "N/A";
      :long_name = "Correlation Coefficient";
      :missing_value = 1B, 0B; // byte
      :signal_below_threshold = 0B; // byte
      :scale_factor = 0.0033333334f; // float
      :add_offset = 0.20166667f; // float
      :range_folding_threshold = 50S; // short
      :_CoordinateAxes = "timeC elevationC azimuthC distanceC";

    int timeC(scanC=1, radialC=120);
      :long_name = "time of each ray";
      :units = "msecs since 2016-03-22T00:00:00Z";
      :missing_value = -9999; // int
      :_CoordinateAxisType = "Time";

    float elevationC(scanC=1, radialC=120);
      :units = "degrees";
      :long_name = "elevation angle in degres: 0 = parallel to pedestal base, 90 = perpendicular";
      :missing_value = NaNf; // float
      :_CoordinateAxisType = "RadialElevation";

    float azimuthC(scanC=1, radialC=120);
      :units = "degrees";
      :long_name = "azimuth angle in degrees: 0 = true north, 90 = east";
      :missing_value = NaNf; // float
      :_CoordinateAxisType = "RadialAzimuth";

    float distanceC(gateC=1192);
      :units = "m";
      :long_name = "radial distance to start of gate";
      :_CoordinateAxisType = "RadialDistance";

    int numRadialsC(scanC=1);
      :long_name = "number of valid radials in this scan";

    int numGatesC(scanC=1);
      :long_name = "number of valid gates in this scan";

    ushort DifferentialPhase(scanP=1, radialP=120, gateP=1192);
      :units = "deg";
      :long_name = "Differential Phase";
      :missing_value = 1B, 0B; // byte
      :signal_below_threshold = 0B; // byte
      :scale_factor = 0.35259685f; // float
      :add_offset = -0.7051937f; // float
      :range_folding_threshold = 50S; // short
      :_CoordinateAxes = "timeP elevationP azimuthP distanceP";

    int timeP(scanP=1, radialP=120);
      :long_name = "time of each ray";
      :units = "msecs since 2016-03-22T00:00:00Z";
      :missing_value = -9999; // int
      :_CoordinateAxisType = "Time";

    float elevationP(scanP=1, radialP=120);
      :units = "degrees";
      :long_name = "elevation angle in degres: 0 = parallel to pedestal base, 90 = perpendicular";
      :missing_value = NaNf; // float
      :_CoordinateAxisType = "RadialElevation";

    float azimuthP(scanP=1, radialP=120);
      :units = "degrees";
      :long_name = "azimuth angle in degrees: 0 = true north, 90 = east";
      :missing_value = NaNf; // float
      :_CoordinateAxisType = "RadialAzimuth";

    float distanceP(gateP=1192);
      :units = "m";
      :long_name = "radial distance to start of gate";
      :_CoordinateAxisType = "RadialDistance";

    int numRadialsP(scanP=1);
      :long_name = "number of valid radials in this scan";

    int numGatesP(scanP=1);
      :long_name = "number of valid gates in this scan";

  // global attributes:
  :Station = "KBGM";
  :StationName = "Binghamton,NY,US";
  :StationLatitude = 42.19972222222222; // double
  :StationLongitude = -75.98472222222222; // double
  :StationElevationInMeters = 490.0; // double
  :geospatial_lat_min = 39.50073026535427; // double
  :geospatial_lat_max = 44.89871417909017; // double
  :geospatial_lon_min = -79.62803127517934; // double
  :geospatial_lon_max = -72.3414131692651; // double
  :Conventions = "_Coordinates";
  :format = "AR2V0006";
  :cdm_data_type = "RADIAL";
  :base_date = "2016-03-22";
  :time_coverage_start = "2016-03-22T05:39:27Z";
  :time_coverage_end = "2016-03-22T05:39:38Z";
  :history = "Direct read of Nexrad Level 2 file into CDM";
  :DataType = "Radial";
  :Title = "Nexrad Level 2 Station KBGM from 2016-03-22T05:39:13Z to 2016-03-22T05:39:38Z";
  :Summary = "Weather Surveillance Radar-1988 Doppler (WSR-88D) Level II data are the three meteorological base data quantities: reflectivity, mean radial velocity, and spectrum width.";
  :keywords = "WSR-88D; NEXRAD; Radar Level II; reflectivity; mean radial velocity; spectrum width";
  :VolumeCoveragePatternName = "8 elevation scans every 10 mins";
  :VolumeCoveragePattern = 31; // int
  :HorizontalBeamWidthInDegrees = 1.5; // double
}