netcdf enawsacrvpthrcC1.a1.20180809.103021 { dimensions: time = UNLIMITED ; // (161 currently) range = 480 ; sweep = 1 ; group_pulse_number = 5 ; string_length_22 = 22 ; frequency = 1 ; r_calib = 1 ; variables: int base_time ; base_time:string = "2018-08-09 10:30:21 0:00" ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; base_time:ancillary_variables = "time_offset" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2018-08-09 10:30:21 0:00" ; time_offset:ancillary_variables = "base_time" ; double time(time) ; time:long_name = "time_in_seconds_since_volume_start" ; time:units = "seconds since 2018-08-09T10:30:21Z" ; time:standard_name = "time" ; time:calendar = "gregorian" ; float range(range) ; range:long_name = "range_to_measurement_volume" ; range:units = "meters" ; range:spacing_is_constant = "true" ; range:meters_to_center_of_first_gate = -674.6829f ; range:meters_between_gates = 12.49135f ; range:axis = "radial_range_coordinate" ; range:standard_name = "projection_range_coordinate" ; char time_coverage_start(string_length_22) ; time_coverage_start:long_name = "data_volume_start_time_utc" ; time_coverage_start:units = "unitless" ; time_coverage_start:standard_name = "data_volume_start_time_utc" ; char time_coverage_end(string_length_22) ; time_coverage_end:long_name = "data_volume_end_time_utc" ; time_coverage_end:units = "unitless" ; time_coverage_end:standard_name = "data_value_end_time_utc" ; float azimuth(time) ; azimuth:long_name = "azimuth_angle_from_true_north" ; azimuth:units = "degrees" ; azimuth:axis = "radial_azimuth_coordinate" ; azimuth:standard_name = "ray_azimuth_angle" ; float elevation(time) ; elevation:long_name = "elevation_angle_from_horizontal_plane" ; elevation:units = "degrees" ; elevation:axis = "radial_elevation_coordinate" ; elevation:standard_name = "ray_elevation_angle" ; float scan_rate(time) ; scan_rate:long_name = "target_scan_rate_for_sweep" ; scan_rate:units = "degrees per second" ; byte antenna_transition(time) ; antenna_transition:long_name = "antenna_is_in_transition_between_sweeps" ; antenna_transition:units = "unitless" ; antenna_transition:standard_name = "antenna_transition" ; antenna_transition:flag_values = 0b, 1b ; antenna_transition:flag_meanings = "scanning in_transition" ; antenna_transition:flag_0_description = "antenna is scanning" ; antenna_transition:flag_1_description = "antenna is in transition" ; antenna_transition:comment = "A nonzero value indicates antenna is in transition." ; float reflectivity(time, range) ; reflectivity:long_name = "Equivalent reflectivity factor" ; reflectivity:units = "dBZ" ; reflectivity:standard_name = "equivalent_reflectivity_factor" ; reflectivity:missing_value = -9999.f ; reflectivity:_FillValue = -9999.f ; reflectivity:coordinates = "elevation azimuth range" ; float mean_doppler_velocity(time, range) ; mean_doppler_velocity:long_name = "Radial mean Doppler velocity, positive for motion away from the instrument" ; mean_doppler_velocity:units = "m s-1" ; mean_doppler_velocity:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ; mean_doppler_velocity:missing_value = -9999.f ; mean_doppler_velocity:_FillValue = -9999.f ; mean_doppler_velocity:coordinates = "elevation azimuth range" ; float uncorrected_mean_doppler_velocity_h(time, range) ; uncorrected_mean_doppler_velocity_h:long_name = "Radial mean Doppler velocity from horizontal channel, positive for motion away from the instrument, uncorrected" ; uncorrected_mean_doppler_velocity_h:units = "m s-1" ; uncorrected_mean_doppler_velocity_h:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ; uncorrected_mean_doppler_velocity_h:missing_value = -9999.f ; uncorrected_mean_doppler_velocity_h:_FillValue = -9999.f ; uncorrected_mean_doppler_velocity_h:coordinates = "elevation azimuth range" ; float uncorrected_mean_doppler_velocity_v(time, range) ; uncorrected_mean_doppler_velocity_v:long_name = "Radial mean Doppler velocity from vertical channel, positive for motion away from the instrument, uncorrected" ; uncorrected_mean_doppler_velocity_v:units = "m s-1" ; uncorrected_mean_doppler_velocity_v:standard_name = "radial_velocity_of_scatterers_away_from_instrument" ; uncorrected_mean_doppler_velocity_v:missing_value = -9999.f ; uncorrected_mean_doppler_velocity_v:_FillValue = -9999.f ; uncorrected_mean_doppler_velocity_v:coordinates = "elevation azimuth range" ; float spectral_width(time, range) ; spectral_width:long_name = "Spectral width" ; spectral_width:units = "meters per second" ; spectral_width:missing_value = -9999.f ; spectral_width:_FillValue = -9999.f ; spectral_width:coordinates = "elevation azimuth range" ; spectral_width:standard_name = "doppler_spectrum_width" ; float signal_to_noise_ratio_co_polar_h(time, range) ; signal_to_noise_ratio_co_polar_h:long_name = "Signal-to-noise ratio, horizontal channel" ; signal_to_noise_ratio_co_polar_h:units = "dB" ; signal_to_noise_ratio_co_polar_h:missing_value = -9999.f ; signal_to_noise_ratio_co_polar_h:_FillValue = -9999.f ; signal_to_noise_ratio_co_polar_h:coordinates = "elevation azimuth range" ; signal_to_noise_ratio_co_polar_h:standard_name = "signal_to_noise_ratio" ; float signal_to_noise_ratio_cross_polar_h(time, range) ; signal_to_noise_ratio_cross_polar_h:long_name = "Signal-to-noise ratio, Cross-pol for horizontal channel" ; signal_to_noise_ratio_cross_polar_h:units = "dB" ; signal_to_noise_ratio_cross_polar_h:missing_value = -9999.f ; signal_to_noise_ratio_cross_polar_h:_FillValue = -9999.f ; signal_to_noise_ratio_cross_polar_h:coordinates = "elevation azimuth range" ; signal_to_noise_ratio_cross_polar_h:standard_name = "signal_to_noise_ratio_cross_polar_h" ; float signal_to_noise_ratio_co_polar_v(time, range) ; signal_to_noise_ratio_co_polar_v:long_name = "Signal-to-noise ratio, vertical channel" ; signal_to_noise_ratio_co_polar_v:units = "dB" ; signal_to_noise_ratio_co_polar_v:missing_value = -9999.f ; signal_to_noise_ratio_co_polar_v:_FillValue = -9999.f ; signal_to_noise_ratio_co_polar_v:coordinates = "elevation azimuth range" ; signal_to_noise_ratio_co_polar_v:standard_name = "signal_to_noise_ratio" ; float signal_to_noise_ratio_cross_polar_v(time, range) ; signal_to_noise_ratio_cross_polar_v:long_name = "Signal-to-noise ratio, Cross-pol for vertical channel" ; signal_to_noise_ratio_cross_polar_v:units = "dB" ; signal_to_noise_ratio_cross_polar_v:missing_value = -9999.f ; signal_to_noise_ratio_cross_polar_v:_FillValue = -9999.f ; signal_to_noise_ratio_cross_polar_v:coordinates = "elevation azimuth range" ; signal_to_noise_ratio_cross_polar_v:standard_name = "signal_to_noise_ratio_cross_polar_v" ; float linear_depolarization_ratio_h(time, range) ; linear_depolarization_ratio_h:long_name = "Linear depolarization ratio, horizontal channel" ; linear_depolarization_ratio_h:units = "dB" ; linear_depolarization_ratio_h:missing_value = -9999.f ; linear_depolarization_ratio_h:_FillValue = -9999.f ; linear_depolarization_ratio_h:coordinates = "elevation azimuth range" ; linear_depolarization_ratio_h:standard_name = "log_linear_depolarization_ratio_h" ; float linear_depolarization_ratio_v(time, range) ; linear_depolarization_ratio_v:long_name = "Linear depolarization ratio, vertical channel" ; linear_depolarization_ratio_v:units = "dB" ; linear_depolarization_ratio_v:missing_value = -9999.f ; linear_depolarization_ratio_v:_FillValue = -9999.f ; linear_depolarization_ratio_v:coordinates = "elevation azimuth range" ; linear_depolarization_ratio_v:standard_name = "log_linear_depolarization_ratio_v" ; float differential_reflectivity(time, range) ; differential_reflectivity:long_name = "Differential reflectivity" ; differential_reflectivity:units = "dB" ; differential_reflectivity:missing_value = -9999.f ; differential_reflectivity:_FillValue = -9999.f ; differential_reflectivity:coordinates = "elevation azimuth range" ; differential_reflectivity:standard_name = "log_differential_reflectivity_hv" ; float copol_correlation_coeff(time, range) ; copol_correlation_coeff:long_name = "Copolar correlation coefficient (also known as rhohv)" ; copol_correlation_coeff:units = "unitless" ; copol_correlation_coeff:missing_value = -9999.f ; copol_correlation_coeff:_FillValue = -9999.f ; copol_correlation_coeff:standard_name = "cross_correlation_ratio_hv" ; copol_correlation_coeff:coordinates = "elevation azimuth range" ; float co_to_crosspol_correlation_coeff_h(time, range) ; co_to_crosspol_correlation_coeff_h:long_name = "Copol to cross-polar correlation coefficient (also known as rhoxh)" ; co_to_crosspol_correlation_coeff_h:units = "unitless" ; co_to_crosspol_correlation_coeff_h:missing_value = -9999.f ; co_to_crosspol_correlation_coeff_h:_FillValue = -9999.f ; co_to_crosspol_correlation_coeff_h:standard_name = "cross_correlation_ratio_xh" ; co_to_crosspol_correlation_coeff_h:coordinates = "elevation azimuth range" ; float co_to_crosspol_correlation_coeff_v(time, range) ; co_to_crosspol_correlation_coeff_v:long_name = "Copol to cross-polar correlation coefficient (also known as rhoxv)" ; co_to_crosspol_correlation_coeff_v:units = "unitless" ; co_to_crosspol_correlation_coeff_v:missing_value = -9999.f ; co_to_crosspol_correlation_coeff_v:_FillValue = -9999.f ; co_to_crosspol_correlation_coeff_v:standard_name = "cross_correlation_ratio_xv" ; co_to_crosspol_correlation_coeff_v:coordinates = "elevation azimuth range" ; float differential_phase(time, range) ; differential_phase:long_name = "Differential propagation phase shift" ; differential_phase:units = "degrees" ; differential_phase:missing_value = -9999.f ; differential_phase:_FillValue = -9999.f ; differential_phase:standard_name = "differential_phase_hv" ; differential_phase:coordinates = "elevation azimuth range" ; float cross_polar_differential_phase_h(time, range) ; cross_polar_differential_phase_h:long_name = "Cross-polar propagation phase shift" ; cross_polar_differential_phase_h:units = "degrees" ; cross_polar_differential_phase_h:missing_value = -9999.f ; cross_polar_differential_phase_h:_FillValue = -9999.f ; cross_polar_differential_phase_h:standard_name = "differential_phase_xh" ; cross_polar_differential_phase_h:coordinates = "elevation azimuth range" ; float cross_polar_differential_phase_v(time, range) ; cross_polar_differential_phase_v:long_name = "Cross-polar propagation phase shift" ; cross_polar_differential_phase_v:units = "degrees" ; cross_polar_differential_phase_v:missing_value = -9999.f ; cross_polar_differential_phase_v:_FillValue = -9999.f ; cross_polar_differential_phase_v:standard_name = "differential_phase_xv" ; cross_polar_differential_phase_v:coordinates = "elevation azimuth range" ; float unthresholded_power_co_polar_h(time, range) ; unthresholded_power_co_polar_h:long_name = "Received copolar power, h channel, without thresholding." ; unthresholded_power_co_polar_h:units = "mW" ; unthresholded_power_co_polar_h:missing_value = -9999.f ; unthresholded_power_co_polar_h:_FillValue = -9999.f ; unthresholded_power_co_polar_h:coordinates = "elevation azimuth range" ; unthresholded_power_co_polar_h:standard_name = "linear_power_co_polar_h" ; float unthresholded_power_co_polar_v(time, range) ; unthresholded_power_co_polar_v:long_name = "Received copolar power, v channel, with thresholding" ; unthresholded_power_co_polar_v:units = "mW" ; unthresholded_power_co_polar_v:missing_value = -9999.f ; unthresholded_power_co_polar_v:_FillValue = -9999.f ; unthresholded_power_co_polar_v:coordinates = "elevation azimuth range" ; unthresholded_power_co_polar_v:standard_name = "linear_power_co_polar_v" ; float unthresholded_power_cross_polar_h(time, range) ; unthresholded_power_cross_polar_h:long_name = "Received cross polar power, h channel, without thresholding" ; unthresholded_power_cross_polar_h:units = "mW" ; unthresholded_power_cross_polar_h:missing_value = -9999.f ; unthresholded_power_cross_polar_h:_FillValue = -9999.f ; unthresholded_power_cross_polar_h:coordinates = "elevation azimuth range" ; unthresholded_power_cross_polar_h:standard_name = "linear_power_cross_polar_h" ; float unthresholded_power_cross_polar_v(time, range) ; unthresholded_power_cross_polar_v:long_name = "Received cross polar power, v channel, without thresholding" ; unthresholded_power_cross_polar_v:units = "mW" ; unthresholded_power_cross_polar_v:missing_value = -9999.f ; unthresholded_power_cross_polar_v:_FillValue = -9999.f ; unthresholded_power_cross_polar_v:coordinates = "elevation azimuth range" ; unthresholded_power_cross_polar_v:standard_name = "linear_power_cross_polar_v" ; float prt(time) ; prt:long_name = "pulse_repetition_frequency" ; prt:units = "seconds" ; prt:meta_group = "instrument_parameters" ; float pulse_width(time) ; pulse_width:long_name = "transmitter_pulse_width" ; pulse_width:units = "seconds" ; pulse_width:meta_group = "instrument_parameters" ; float nyquist_velocity(time) ; nyquist_velocity:long_name = "unambiguous_doppler_velocity" ; nyquist_velocity:units = "meters per second" ; nyquist_velocity:comment = "Refers to unfolded nyquist velocity if staggered PRT. Otherwise refers to standard velocity." ; nyquist_velocity:meta_group = "instrument_parameters" ; float frequency(frequency) ; frequency:long_name = "radiation_frequency" ; frequency:units = "s-1" ; frequency:meta_group = "instrument_parameters" ; int sweep_number(sweep) ; sweep_number:long_name = "sweep_index_number_0_based" ; sweep_number:units = "unitless" ; sweep_number:comment = "A -1 value corresponds to an antenna transition" ; char sweep_mode(sweep, string_length_22) ; sweep_mode:long_name = "scan_mode_for_sweep" ; sweep_mode:units = "unitless" ; sweep_mode:comment = "possible values: sector, coplane, rhi, vertical_pointing, idle, azimuth_surveillance, elevation_surveillance, sunscan, pointing, manual_ppi, manual_rhi" ; char prt_mode(sweep, string_length_22) ; prt_mode:long_name = "transmit_pulse_mode" ; prt_mode:units = "unitless" ; prt_mode:meta_group = "instrument_parameters" ; prt_mode:options = "fixed, staggered, dual" ; prt_mode:standard_name = "transmit_pulse_mode" ; char polarization_mode(sweep, string_length_22) ; polarization_mode:long_name = "polarization_mode_for_sweep" ; polarization_mode:units = "unitless" ; polarization_mode:meta_group = "instrument_parameters" ; polarization_mode:options = "horizontal, vertical, hv_alt, hv_sim, circular" ; polarization_mode:standard_name = "transmit_receive_polarization_mode" ; float fixed_angle(sweep) ; fixed_angle:long_name = "ray_target_fixed_angle" ; fixed_angle:units = "degrees" ; int sweep_start_ray_index(sweep) ; sweep_start_ray_index:long_name = "index_of_first_ray_in_sweep" ; sweep_start_ray_index:units = "count" ; int sweep_end_ray_index(sweep) ; sweep_end_ray_index:long_name = "index_of_last_ray_in_sweep" ; sweep_end_ray_index:units = "count" ; float radar_beam_width_h ; radar_beam_width_h:long_name = "half_power_radar_beam_width_h_channel" ; radar_beam_width_h:units = "degrees" ; radar_beam_width_h:meta_group = "radar_parameters" ; float radar_beam_width_v ; radar_beam_width_v:long_name = "half_power_radar_beam_width_v_channel" ; radar_beam_width_v:units = "degrees" ; radar_beam_width_v:meta_group = "radar_parameters" ; float sky_noise_h(time) ; sky_noise_h:long_name = "Measured sky noise, horizontal channel" ; sky_noise_h:units = "dBm" ; sky_noise_h:missing_value = -9999.f ; float sky_noise_v(time) ; sky_noise_v:long_name = "Measured sky noise, vertical channel" ; sky_noise_v:units = "dBm" ; sky_noise_v:missing_value = -9999.f ; float radar_measured_transmit_power(time) ; radar_measured_transmit_power:long_name = "radar_measured_transmit_power" ; radar_measured_transmit_power:units = "dBm" ; radar_measured_transmit_power:meta_group = "radar_parameters" ; radar_measured_transmit_power:standard_name = "radar_transmit_power_channel" ; char platform_type(string_length_22) ; platform_type:long_name = "platform_type" ; platform_type:units = "unitless" ; platform_type:standard_name = "platform_type" ; char instrument_type(string_length_22) ; instrument_type:long_name = "type_of_instrument" ; instrument_type:units = "unitless" ; instrument_type:standard_name = "type_of_instrument" ; float group_intra_pulse_prt(group_pulse_number) ; group_intra_pulse_prt:long_name = "Prt between group pulses" ; group_intra_pulse_prt:units = "seconds" ; byte r_calib_index(time) ; r_calib_index:long_name = "calibration_data_array_index_per_ray" ; r_calib_index:units = "unitless" ; r_calib_index:comment = "This is the index for the calibration which applies to this ray" ; r_calib_index:meta_group = "radar_calibration" ; float r_calib_two_way_radome_loss_h(r_calib) ; r_calib_two_way_radome_loss_h:long_name = "radar_calibration_two_way_radome_loss_h_channel" ; r_calib_two_way_radome_loss_h:units = "dB" ; r_calib_two_way_radome_loss_h:meta_group = "radar_calibration" ; r_calib_two_way_radome_loss_h:standard_name = "radar_calibration_two_way_radome_loss_h_channel" ; float r_calib_receiver_gain_hc(r_calib) ; r_calib_receiver_gain_hc:long_name = "calibrated_radar_receiver_gain_v_co_polar_channel" ; r_calib_receiver_gain_hc:units = "dB" ; r_calib_receiver_gain_hc:meta_group = "radar_calibration" ; r_calib_receiver_gain_hc:standard_name = "calibrated_radar_receiver_gain_co_polar_channel" ; float r_calib_receiver_gain_vc(r_calib) ; r_calib_receiver_gain_vc:long_name = "calibrated_radar_receiver_gain_v_cross_polar_channel" ; r_calib_receiver_gain_vc:units = "dB" ; r_calib_receiver_gain_vc:meta_group = "radar_calibration" ; r_calib_receiver_gain_vc:standard_name = "calibrated_radar_receiver_gain_v_cross_polar_channel" ; float r_calib_radar_constant_h(r_calib) ; r_calib_radar_constant_h:long_name = "calibrated_radar_constant_h_channel" ; r_calib_radar_constant_h:units = "dB" ; r_calib_radar_constant_h:meta_group = "radar_calibration" ; r_calib_radar_constant_h:standard_name = "calibrated_radar_constant_h_channel" ; float r_calib_radar_constant_v(r_calib) ; r_calib_radar_constant_v:long_name = "calibrated_radar_constant_v_channel" ; r_calib_radar_constant_v:units = "dB" ; r_calib_radar_constant_v:meta_group = "radar_calibration" ; r_calib_radar_constant_v:standard_name = "calibrated_radar_constant_v_channel" ; float r_calib_tx_path_loss_h(r_calib) ; r_calib_tx_path_loss_h:long_name = "calibrated_radar_tx_path_loss_h_channel" ; r_calib_tx_path_loss_h:units = "dB" ; r_calib_tx_path_loss_h:standard_name = "calibrated_radar_tx_path_loss_h_channel" ; r_calib_tx_path_loss_h:comment = "See instrument handbook for help in interpreting all calibration values." ; r_calib_tx_path_loss_h:missing_value = -9999.f ; float r_calib_tx_path_loss_v(r_calib) ; r_calib_tx_path_loss_v:long_name = "calibrated_radar_tx_path_loss_v_channel" ; r_calib_tx_path_loss_v:units = "dB" ; r_calib_tx_path_loss_v:standard_name = "calibrated_radar_tx_path_loss_v_channel" ; r_calib_tx_path_loss_v:comment = "See instrument handbook for help in interpreting all calibration values." ; r_calib_tx_path_loss_v:missing_value = -9999.f ; float r_calib_probert_jones_correction(r_calib) ; r_calib_probert_jones_correction:long_name = "calibrated_radar_probert_jones_correction_factor" ; r_calib_probert_jones_correction:units = "dB" ; r_calib_probert_jones_correction:standard_name = "calibrated_radar_probert_jones_correction_factor" ; r_calib_probert_jones_correction:comment = "See instrument handbook for help in interpreting all calibration values." ; r_calib_probert_jones_correction:missing_value = -9999.f ; float r_calib_finite_bandwidth_loss_h(r_calib) ; r_calib_finite_bandwidth_loss_h:long_name = "calibrated_radar_finite_bandwidth_loss_h_channel" ; r_calib_finite_bandwidth_loss_h:units = "dB" ; r_calib_finite_bandwidth_loss_h:standard_name = "calibrated_radar_finite_bandwidth_loss_h_channel" ; r_calib_finite_bandwidth_loss_h:comment = "See instrument handbook for help in interpreting all calibration values." ; r_calib_finite_bandwidth_loss_h:missing_value = -9999.f ; float r_calib_finite_bandwidth_loss_v(r_calib) ; r_calib_finite_bandwidth_loss_v:long_name = "radar_calibrated_finite_bandwidth_loss_v_channel" ; r_calib_finite_bandwidth_loss_v:units = "dB" ; r_calib_finite_bandwidth_loss_v:standard_name = "radar_calibrated_finite_bandwidth_loss_v_channel" ; r_calib_finite_bandwidth_loss_v:comment = "See instrument handbook for help in interpreting all calibration values." ; r_calib_finite_bandwidth_loss_v:missing_value = -9999.f ; float r_calib_rx_path_loss_h(r_calib) ; r_calib_rx_path_loss_h:long_name = "calibrated_radar_rx_path_loss_h_channel" ; r_calib_rx_path_loss_h:units = "dB" ; r_calib_rx_path_loss_h:standard_name = "calibrated_radar_rx_path_loss_h_channel" ; r_calib_rx_path_loss_h:comment = "See instrument handbook for help in interpreting all calibration values." ; r_calib_rx_path_loss_h:missing_value = -9999.f ; float r_calib_rx_path_loss_v(r_calib) ; r_calib_rx_path_loss_v:long_name = "calibrated_radar_rx_path_loss_v_channel" ; r_calib_rx_path_loss_v:units = "dB" ; r_calib_rx_path_loss_v:standard_name = "calibrated_radar_rx_path_loss_v_channel" ; r_calib_rx_path_loss_v:comment = "See instrument handbook for help in interpreting all calibration values." ; r_calib_rx_path_loss_v:missing_value = -9999.f ; float r_calib_dielectric_constant(r_calib) ; r_calib_dielectric_constant:long_name = "calibrated_radar_dielectric_constant_in_use" ; r_calib_dielectric_constant:units = "unitless" ; r_calib_dielectric_constant:standard_name = "calibrated_radar_dielectric_constant_in_use" ; r_calib_dielectric_constant:comment = "See instrument handbook for help in interpreting all calibration values." ; r_calib_dielectric_constant:missing_value = -9999.f ; int volume_number ; volume_number:long_name = "data_volume_index_number" ; volume_number:units = "count" ; volume_number:standard_name = "volume_number" ; double latitude ; latitude:long_name = "latitude" ; latitude:units = "degrees_north" ; latitude:standard_name = "latitude" ; double longitude ; longitude:long_name = "longitude" ; longitude:units = "degrees_east" ; longitude:standard_name = "longitude" ; double altitude ; altitude:long_name = "altitude" ; altitude:units = "meters" ; altitude:standard_name = "altitude" ; double altitude_agl ; altitude_agl:long_name = "altitude_above_ground_level" ; altitude_agl:units = "meters" ; altitude_agl:standard_name = "altitude_above_ground_level" ; float lat ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:standard_name = "latitude" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; float lon ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:standard_name = "longitude" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; float alt ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; alt:standard_name = "altitude" ; // global attributes: :command_line = "sacr3_ingest -n wsacr -R -F -s ena -f C1" ; :Conventions = "CF/Radial instrument_parameters radar_parameters radar_calibration" ; :process_version = "ingest-sacr3-1.10-0.el6" ; :dod_version = "wsacrvpthrc-a1-3.6" ; :site_id = "ena" ; :platform_id = "wsacrvpthrc" ; :facility_id = "C1" ; :data_level = "a1" ; :location_description = "Eastern North Atlantic (ENA), Graciosa Island, Azores" ; :datastream = "enawsacrvpthrcC1.a1" ; :antenna_altitude = "4.67 m" ; :antenna_diameter = "1.82 m" ; :input_source = "/data/collection/ena/enawsacrC1.00/W_MOMENTS_20180809-103020.vpthrc.dat" ; :title = "ARM WSACR Moments" ; :institution = "Department of Energy Atmospheric Radiation Measurement Program" ; :radar_version = "SACR-2" ; :scan_mode = "vertical_pointing" ; :processing_mode = 3 ; :processing_mode_description = "1=Pulse-pair moments,H-pol transmit only, 3=FFT moments, H-pol transmit only, 16=Polarimetric pulse-pair moments, 17=Polarimetric FFT moments, 18=Fully polarimetric" ; :clutter_filter_enabled = "False" ; :fft_len = 512 ; :post_avg_len = 1 ; :block_avg_len = 59 ; :comment = "Number of samples changes per variable. See instrument handbook for details." ; :doi = "10.5439/1224850" ; :references = "See Instrument Handbook" ; :source = "SACR software version: 1.6.9" ; :instrument_name = "WSACR" ; :history = "created by user dsmgr on machine chalk at 2018-08-09 12:46:30, using ingest-sacr3-1.10-0.el6" ; }