SGP Site Power Outage Due to Winter Storm

On Saturday and Sunday, December 26 and 27th a powerful winter storm (Goliath) brought 
sleet and freezing rain to much of Oklahoma with wind gusts of 45 MPH at times. The result 
was very very slick roads and mass power outages.
 
The SGP central facility lost power at 8:55 PM CDT on Sunday, December 27th.  
The power was restored on 7:56 PM CDT on Wednesday, December 30th
 
Site Emergency procedures were activated and Technicians drained water out of instrument 
reservoirs and other measures as needed, early Monday morning.
 
On Wednesdays as roads and power started was restored to much of the areas east of I-35 , 
Site Technicians performed maintenance on several Extended Facilities.

During this period, data are potentially missing, incorrect, or suspect.  Carefully 
inspect the data before use.

• Azimuth of Radar Ray(azimuth)
• time_in_seconds_since_volume_start(time)
• -180.0 - +180.0(alt)
• Radial velocity(radial_velocity)
• lon(lon)
• North Latitude(lat)
• Attenuated backscatter(attenuated_backscatter)
• Time offset from base_time(time_offset)
• base time in epoch(base_time)
• Beam Elevation Angle(elevation)
• Intensity (signal to noise ratio + 1)(intensity)
• Distance to the center of the corresponding range bin(range)

• Soil temperature 4 (resistance ratio)(soil_temp_4_rr)
• base time in epoch(base_time)
• Reference temperature in enclosure (resistance ratio)(temp_reference_rr)
• Soil temperature 3 (resistance ratio)(soil_temp_3_rr)
• AEM position indicator(home_signal)
• Soil moisture 5 (resistance ratio)(soil_moisture_5_rr)
• Right relative humidity (mV)(rh_right_mv)
• Soil heat flow 1 (mV)(soil_heat_flow_1_mv)
• Net radiation (mV)(net_radiation_mv)
• Soil temperature 5 (resistance ratio)(soil_temp_5_rr)
• Soil moisture 4 (resistance ratio)(soil_moisture_4_rr)
• Wind speed arithmetic mean(wspd_arith_mean)
• -180.0 - +180.0(alt)
• Soil heat flow 2 (mV)(soil_heat_flow_2_mv)
• Right T/RH sensor temperature (resistance ratio)(temp_trh_right_rr)
• Soil heat flow 3 (mV)(soil_heat_flow_3_mv)
• Left T/RH sensor temperature (resistance ratio)(temp_trh_left_rr)
• Left air temperature(temp_air_left)
• time_in_seconds_since_volume_start(time)
• Soil moisture 3 (resistance ratio)(soil_moisture_3_rr)
• Battery voltage(battery_voltage)
• North Latitude(lat)
• lon(lon)
• Soil heat flow 4 (mV)(soil_heat_flow_4_mv)
• Atmospheric pressure (mV)(atmos_pressure_mv)
• Soil moisture 4 (resistance)(soil_moisture_4_r)
• Soil temperature 2 (resistance ratio)(soil_temp_2_rr)
• Soil moisture 1 (resistance ratio)(soil_moisture_1_rr)
• Time offset from base_time(time_offset)
• Soil moisture 5 (resistance)(soil_moisture_5_r)
• Soil moisture 2 (resistance ratio)(soil_moisture_2_rr)
• Soil moisture 2 (resistance)(soil_moisture_2_r)
• Right air temperature(temp_air_right)
• Soil heat flow 5 (mV)(soil_heat_flow_5_mv)
• Soil moisture 3 (resistance)(soil_moisture_3_r)
• Soil temperature 1 (resistance ratio)(soil_temp_1_rr)
• Wind direction vector mean (mV)(wdir_vec_mean_mv)
• Soil moisture 1 (resistance)(soil_moisture_1_r)
• Left relative humidity (mV)(rh_left_mv)

• (Raw data stream - documentation not supported)

• Sky Infra-Red Temperature(sky_ir_temp)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• Sky Infra Red Temperature Maxima(sky_ir_temp_max)
• Sky Infra-Red Temperature Minima(sky_ir_temp_min)
• Time offset from base_time(time_offset)
• Number of averaged samples(samples_in_average)
• North Latitude(lat)
• lon(lon)
• Sky infrared temperature, standard deviation(sky_ir_temp_std)
• Internal Reference Infra Red Temperature(ref_ir_temp)
• time_in_seconds_since_volume_start(time)

• (Raw data stream - documentation not supported)

• Battery voltage(battery_voltage)
• Soil heat flow 2 (mV)(soil_heat_flow_2_mv)
• Soil heat flow 3 (mV)(soil_heat_flow_3_mv)
• Net radiation (mV)(net_radiation_mv)
• Time offset from base_time(time_offset)
• Right T/RH sensor temperature (resistance ratio)(temp_trh_right_rr)
• Soil heat flow 4 (mV)(soil_heat_flow_4_mv)
• Right relative humidity (mV)(rh_right_mv)
• Soil heat flow 5 (mV)(soil_heat_flow_5_mv)
• Atmospheric pressure (mV)(atmos_pressure_mv)
• Soil temperature 4 (resistance ratio)(soil_temp_4_rr)
• time_in_seconds_since_volume_start(time)
• Soil moisture 2 (resistance ratio)(soil_moisture_2_rr)
• Soil temperature 5 (resistance ratio)(soil_temp_5_rr)
• Left T/RH sensor temperature (resistance ratio)(temp_trh_left_rr)
• Left relative humidity (mV)(rh_left_mv)
• AEM position indicator(home_signal)
• Soil moisture 1 (resistance ratio)(soil_moisture_1_rr)
• North Latitude(lat)
• lon(lon)
• Left air temperature(temp_air_left)
• -180.0 - +180.0(alt)
• Soil moisture 5 (resistance ratio)(soil_moisture_5_rr)
• Soil temperature 2 (resistance ratio)(soil_temp_2_rr)
• Soil moisture 2 (resistance)(soil_moisture_2_r)
• Soil moisture 1 (resistance)(soil_moisture_1_r)
• Soil temperature 3 (resistance ratio)(soil_temp_3_rr)
• Soil moisture 4 (resistance ratio)(soil_moisture_4_rr)
• Soil moisture 3 (resistance)(soil_moisture_3_r)
• Soil moisture 4 (resistance)(soil_moisture_4_r)
• Soil moisture 5 (resistance)(soil_moisture_5_r)
• Reference temperature in enclosure (resistance ratio)(temp_reference_rr)
• Soil moisture 3 (resistance ratio)(soil_moisture_3_rr)
• base time in epoch(base_time)
• Wind speed arithmetic mean(wspd_arith_mean)
• Soil heat flow 1 (mV)(soil_heat_flow_1_mv)
• Wind direction vector mean (mV)(wdir_vec_mean_mv)
• Soil temperature 1 (resistance ratio)(soil_temp_1_rr)
• Right air temperature(temp_air_right)

• Instantaneous Downwelling Pyrgeometer Case Thermistor Resistance, Shaded
  Pyrgeometer(inst_down_long_shaded_case_resist)
• North Latitude(lat)
• Instantaneous Upwelling Pyrgeometer Case Thermistor Resistance, Pyrgeometer(inst_up_long_case_resist)
• Instantaneous uncorrected downwelling shortwave diffuse, shaded pyranometer
  thermopile voltage(inst_diffuse)
• lon(lon)
• Instantaneous direct normal shortwave irradiance, pyrheliometer thermopile
  voltage(inst_direct_normal)
• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)
• Time offset from base_time(time_offset)
• Instantaneous downwelling pyrgeometer dome thermistor resistance, shaded
  pyrgeometer(inst_down_long_shaded_dome_resist)
• -180.0 - +180.0(alt)
• Instantaneous downwelling pyrgeometer thermopile voltage, shaded pyrgeometer(inst_down_long_hemisp_shaded_tp)
• Instantaneous Upwelling Pyrgeometer Thermopile Pyrgeometer(inst_up_long_hemisp_tp)
• base time in epoch(base_time)
• Instantaneous Upwelling Pyrgeometer Dome Thermistor Resistance Pyrgeometer(inst_up_long_dome_resist)
• Instantaneous Downwelling Hemispheric Shortwave, Pyranometer Thermopile Voltage(inst_global)

• (Raw data stream - documentation not supported)

• Beam Elevation Angle(elevation)
• -180.0 - +180.0(alt)
• Attenuated backscatter(attenuated_backscatter)
• Radial velocity(radial_velocity)
• Beam azimuth relative to Lidar home point(relative_azimuth)
• time_in_seconds_since_volume_start(time)
• Time offset from base_time(time_offset)
• Distance to the center of the corresponding range bin(range)
• base time in epoch(base_time)
• Intensity (signal to noise ratio + 1)(intensity)
• lon(lon)
• North Latitude(lat)

• Cosine correction, west to east, filter5(cosine_correction_we_filter5)
• Cosine correction, west to east, filter4(cosine_correction_we_filter4)
• cosine correction, west to east, filter3(cosine_correction_we_filter3)
• cosine correction, west to east, filter2(cosine_correction_we_filter2)
• cosine correction, west to east, filter6(cosine_correction_we_filter6)
• Cosine correction, west to east, filter1(cosine_correction_we_filter1)
• Alltime hemispheric broadband irradiance(alltime_hemisp_broadband)
• Normalized filter function data, filter 6, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter6)
• Normalized filter function data, filter 5, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter5)
• Normalized filter function data, filter 4, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter4)
• Normalized filter function data, filter 3, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter3)
• Normalized filter function data, filter 2, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter2)
• Normalized filter function data, filter 1, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter1)
• Quality check results on field: Alltime Hemispheric Broadband Irradiance(qc_alltime_hemisp_broadband)
• Quality check results on field: Narrowband direct horizontal irradiance, filter
  6, cosine corrected(qc_direct_horizontal_narrowband_filter6)
• Quality check results on field: Narrowband Direct Horizontal Irradiance, Filter
  5(qc_direct_horizontal_narrowband_filter5)
• Quality check results on field: Narrowband Direct Horizontal Irradiance, Filter
  4(qc_direct_horizontal_narrowband_filter4)
• Quality check results on field: Direct horizontal narrowband irradiance, filter
  3(qc_direct_horizontal_narrowband_filter3)
• Quality check results on field: Direct horizontal narrowband irradiance, filter
  2(qc_direct_horizontal_narrowband_filter2)
• Quality check results on field: Narrowband Direct Horizontal Irradiance, Filter
  1, cosine corrected(qc_direct_horizontal_narrowband_filter1)
• Quality check results on field: Narrowband diffuse hemispheric irradiance,
  filter 2, offset and cosine corrected(qc_diffuse_hemisp_narrowband_filter2)
• Quality check results on field: Narrowband diffuse hemispheric irradiance,
  filter 3, offset and cosine corrected(qc_diffuse_hemisp_narrowband_filter3)
• Quality check results on field: Narrowband Diffuse Hemispheric Irradiance,
  Filter 1, offset and cosine corrected(qc_diffuse_hemisp_narrowband_filter1)
• Quality check results on field: Narrowband diffuse hemispheric irradiance,
  filter 6, offset and cosine corrected(qc_diffuse_hemisp_narrowband_filter6)
• Quality check results on field: Narrowband Diffuse Hemispheric Irradiance,
  Filter 4, offset and cosine corrected(qc_diffuse_hemisp_narrowband_filter4)
• Quality check results on field: Narrowband Diffuse Hemispheric Irradiance,
  Filter 5, offset and cosine corrected(qc_diffuse_hemisp_narrowband_filter5)
• Diffuse Hemispheric Broadband Irradiance, offset corrected(diffuse_hemisp_broadband)
• Cosine correction applied to direct_horizontal_broadband(computed_cosine_correction_broadband)
• Solar zenith angle(solar_zenith_angle)
• Ratio of direct_normal_filter1 to diffuse_hemisp_filter1(direct_diffuse_ratio_filter1)
• Ratio of direct_normal_filter2 to diffuse_hemisp_filter2(direct_diffuse_ratio_filter2)
• Ratio of direct_normal_filter5 to diffuse_hemisp_filter5(direct_diffuse_ratio_filter5)
• Ratio of direct_normal_narrowband_filter6 to diffuse_hemisp_narrowband_filter6(direct_diffuse_ratio_filter6)
• Ratio of direct_normal_narrowband_filter3 to diffuse_hemisp_narrowband_filter3(direct_diffuse_ratio_filter3)
• Ratio of direct_normal_filter4 to diffuse_hemisp_filter4(direct_diffuse_ratio_filter4)
• Logger temperature(logger_temperature)
• time_in_seconds_since_volume_start(time)
• Quality check results on field: Diffuse hemispheric broadband irradiance, offset
  subtracted, cosine corrected, broadband scale applied(qc_diffuse_hemisp_broadband)
• Quality check results on field: Ratio of direct_normal_broadband to
  diffuse_hemisp_broadband(qc_direct_diffuse_ratio_broadband)
• lon(lon)
• Cosine correction of filter6 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter6)
• Cosine correction of filter4 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter4)
• Cosine correction of filter5 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter5)
• Cosine correction of filter2 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter2)
• Cosine correction of filter3 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter3)
• Cosine correction of filter1 diffuse, assuming Rayleigh sky at 45 degree zenith
  angle(diffuse_correction_filter1)
• Time offset from base_time(time_offset)
• North Latitude(lat)
• Quality check results on field: Direct horizontal broadband irradiance, cosine
  corrected(qc_direct_horizontal_broadband)
• Cosine correction applied to direct_horizontal_filter1(computed_cosine_correction_filter1)
• Cosine correction applied to direct_horizontal_narrowband_filter2(computed_cosine_correction_filter2)
• Cosine correction applied to direct_horizontal_narrowband_filter3(computed_cosine_correction_filter3)
• Cosine correction applied to direct_horizontal_narrowband_filter4(computed_cosine_correction_filter4)
• Cosine correction applied to direct_horizontal_filter5(computed_cosine_correction_filter5)
• Cosine correction applied to direct_horizontal_filter6(computed_cosine_correction_filter6)
• Ratio of direct_normal_broadband to diffuse_hemisp_broadband(direct_diffuse_ratio_broadband)
• angle of incidence during cosine bench measurements(bench_angle)
• Air mass(airmass)
• Second detector temperature(head_temp2)
• Quality check results on field: Detector Temperature(qc_head_temp)
• Quality check results on field: Ratio of direct_normal_filter3 to
  diffuse_hemisp_filter3(qc_direct_diffuse_ratio_filter3)
• Quality check results on field: Ratio of direct_normal_filter2 to
  diffuse_hemisp_filter2(qc_direct_diffuse_ratio_filter2)
• Quality check results on field: Ratio of direct_normal_narrowband_filter5 to
  diffuse_hemisp_narrowband_filter5(qc_direct_diffuse_ratio_filter5)
• Quality check results on field: Ratio of direct_normal_filter4 to
  diffuse_hemisp_filter4(qc_direct_diffuse_ratio_filter4)
• Quality check results on field: Ratio of direct_normal_narrowband_filter1 to
  diffuse_hemisp_narrowband_filter1(qc_direct_diffuse_ratio_filter1)
• Quality check results on field: Ratio of direct_normal_narrowband_filter6 to
  diffuse_hemisp_narrowband_filter6(qc_direct_diffuse_ratio_filter6)
• Narrowband diffuse hemispheric irradiance, filter 5, offset and cosine corrected(diffuse_hemisp_narrowband_filter5)
• Diffuse Narrowband Hemispheric Irradiance, Filter 6, offset corrected(diffuse_hemisp_narrowband_filter6)
• Diffuse Narrowband Hemispheric Irradiance, Filter 3(diffuse_hemisp_narrowband_filter3)
• Diffuse Narrowband Hemispheric Irradiance, Filter 4(diffuse_hemisp_narrowband_filter4)
• Diffuse Narrowband Hemispheric Irradiance, Filter 1, offset corrected(diffuse_hemisp_narrowband_filter1)
• Diffuse Narrowband Hemispheric Irradiance, Filter 2, offset corrected(diffuse_hemisp_narrowband_filter2)
• Normalized filter function data, filter 6, wavelength value obtained during
  bench calibrations(wavelength_filter6)
• Normalized filter function data, filter 5, wavelength value obtained during
  bench calibrations(wavelength_filter5)
• Normalized filter function data, filter 4, wavelength value obtained during
  bench calibrations(wavelength_filter4)
• Normalized filter function data, filter 3, wavelength value obtained during
  bench calibrations(wavelength_filter3)
• Normalized filter function data, filter 2, wavelength value obtained during
  bench calibrations(wavelength_filter2)
• Normalized filter function data, filter 1, wavelength value obtained during
  bench calibrations(wavelength_filter1)
• Offset subtracted from hemispheric and diffuse filter6 data(offset_filter6)
• Offset subtracted from direct normal filter4 data(offset_filter4)
• Offset subtracted from upwelling hemispheric filter5 data(offset_filter5)
• Offset subtracted from upwelling hemispheric filter2 data(offset_filter2)
• Offset subtracted from direct normal filter3 data(offset_filter3)
• Offset subtracted from hemispheric filter1 data(offset_filter1)
• cosine correction, south to north, broadband channel(cosine_correction_sn_broadband)
• Detector temperature(head_temp)
• Offset subtracted from hemispheric and diffuse broadband data(offset_broadband)
• Nominal calibration factor, applied to broadband data(nominal_calibration_factor_broadband)
• Hemispheric broadband irradiance(hemisp_broadband)
• Direct normal narrowband irradiance, filter 2, offset corrected(direct_normal_narrowband_filter2)
• Narrowband Direct Normal Irradiance, Filter 1(direct_normal_narrowband_filter1)
• Direct normal narrowband irradiance, filter 4, offset corrected(direct_normal_narrowband_filter4)
• Narrowband Direct Normal Irradiance, Filter 3, cosine corrected(direct_normal_narrowband_filter3)
• Direct normal narrowband irradiance, filter 6, offset corrected(direct_normal_narrowband_filter6)
• Narrowband Direct Normal Irradiance, Filter 5(direct_normal_narrowband_filter5)
• cosine correction, south to north, filter6(cosine_correction_sn_filter6)
• cosine correction, south to north, filter5(cosine_correction_sn_filter5)
• Cosine correction, south to north, filter2(cosine_correction_sn_filter2)
• cosine correction, south to north, filter1(cosine_correction_sn_filter1)
• Cosine correction, south to north, filter4(cosine_correction_sn_filter4)
• Cosine correction, south to north, filter3(cosine_correction_sn_filter3)
• Alltime narrowband hemispheric irradiance, filter 2(alltime_hemisp_narrowband_filter2)
• Alltime narrowband hemispheric irradiance, filter 1(alltime_hemisp_narrowband_filter1)
• Alltime Narrowband Hemispheric Irradiance, Filter 4(alltime_hemisp_narrowband_filter4)
• Alltime Narrowband Hemispheric Irradiance, Filter 3(alltime_hemisp_narrowband_filter3)
• Alltime Narrowband Hemispheric Irradiance, Filter 6(alltime_hemisp_narrowband_filter6)
• Alltime narrowband hemispheric irradiance, filter 5(alltime_hemisp_narrowband_filter5)
• Direct Normal Broadband Irradiance, cosine corrected, broadband scale applied(direct_normal_broadband)
• base time in epoch(base_time)
• Cosine correction of broadband diffuse, assuming Rayleigh sky at 45 degree
  zenith angle(diffuse_correction_broadband)
• Azimuth angle(azimuth_angle)
• Narrowband Direct Horizontal Irradiance, Filter 4, cosine corrected(direct_horizontal_narrowband_filter4)
• Narrowband Direct Horizontal Irradiance, Filter 5, cosine corrected(direct_horizontal_narrowband_filter5)
• Narrowband Direct Horizontal Irradiance, Filter 2, cosine corrected(direct_horizontal_narrowband_filter2)
• Direct Horizontal Narrowband Irradiance, Filter 3(direct_horizontal_narrowband_filter3)
• Direct horizontal narrowband irradiance, filter 1(direct_horizontal_narrowband_filter1)
• Narrowband Direct Horizontal Irradiance, Filter 6, cosine corrected(direct_horizontal_narrowband_filter6)
• Quality check results on field: Second detector temperature(qc_head_temp2)
• Quality check results on field: Hemispheric Broadband Irradiance, offset and
  cosine corrected, broadband scale factor applied(qc_hemisp_broadband)
• Elevation angle(elevation_angle)
• Data logger supply voltage(logger_volt)
• Quality check results on field: Alltime Narrowband Hemispheric Irradiance,
  Filter 1(qc_alltime_hemisp_narrowband_filter1)
• Quality check results on field: Alltime narrowband hemispheric irradiance,
  filter 3(qc_alltime_hemisp_narrowband_filter3)
• Quality check results on field: Alltime Narrowband Hemispheric Irradiance,
  Filter 2(qc_alltime_hemisp_narrowband_filter2)
• Quality check results on field: Alltime Narrowband Hemispheric Irradiance,
  Filter 5(qc_alltime_hemisp_narrowband_filter5)
• Quality check results on field: Alltime narrowband hemispheric irradiance,
  filter 4(qc_alltime_hemisp_narrowband_filter4)
• Quality check results on field: Alltime narrowband hemispheric irradiance,
  filter 6(qc_alltime_hemisp_narrowband_filter6)
• Nominal calibration factor, applied to filter2 data(nominal_calibration_factor_filter2)
• Nominal calibration factor, applied to filter3 data(nominal_calibration_factor_filter3)
• Nominal calibration factor, applied to filter1 data(nominal_calibration_factor_filter1)
• Nominal calibration factor, applied to filter6 data(nominal_calibration_factor_filter6)
• Nominal calibration factor, applied to filter4 data(nominal_calibration_factor_filter4)
• Nominal calibration factor, applied to filter5 data(nominal_calibration_factor_filter5)
• Quality check results on field: Narrowband hemispheric irradiance, filter 2,
  offset and cosine corrected(qc_hemisp_narrowband_filter2)
• Quality check results on field: Narrowband Hemispheric Irradiance, Filter 1,
  offset and cosine corrected(qc_hemisp_narrowband_filter1)
• Quality check results on field: Narrowband Hemispheric Irradiance, Filter 6,
  offset and cosine corrected(qc_hemisp_narrowband_filter6)
• Quality check results on field: Narrowband hemispheric irradiance, filter 5,
  offset and cosine corrected(qc_hemisp_narrowband_filter5)
• Quality check results on field: Narrowband hemispheric irradiance, filter 4,
  offset and cosine corrected(qc_hemisp_narrowband_filter4)
• Quality check results on field: Narrowband Hemispheric Irradiance, Filter 3,
  offset and cosine corrected(qc_hemisp_narrowband_filter3)
• Quality check results on field: Data Logger Supply Voltage(qc_logger_volt)
• Quality check results on field: Internal logger temperature(qc_logger_temperature)
• cosine correction, west to east, broadband channel(cosine_correction_we_broadband)
• Cosine solar zenith angle(cosine_solar_zenith_angle)
• Quality check results on field: Narrowband Direct Normal Irradiance, Filter 2(qc_direct_normal_narrowband_filter2)
• Quality check results on field: Narrowband direct normal irradiance, filter 3,
  cosine corrected(qc_direct_normal_narrowband_filter3)
• Quality check results on field: Direct normal narrowband irradiance, filter 1(qc_direct_normal_narrowband_filter1)
• Quality check results on field: Direct normal narrowband irradiance, filter 6(qc_direct_normal_narrowband_filter6)
• Quality check results on field: Narrowband direct normal irradiance, filter 4,
  cosine corrected(qc_direct_normal_narrowband_filter4)
• Quality check results on field: Narrowband Direct Normal Irradiance, Filter 5,
  cosine corrected(qc_direct_normal_narrowband_filter5)
• Direct Horizontal Broadband Irradiance(direct_horizontal_broadband)
• Narrowband hemispheric irradiance, filter 6, nominal wavelength is 935 nm(hemisp_narrowband_filter6)
• Narrowband hemispheric irradiance, filter 4, offset and cosine corrected(hemisp_narrowband_filter4)
• Narrowband Hemispheric Irradiance, Filter 5, offset corrected(hemisp_narrowband_filter5)
• Narrowband Hemispheric Irradiance, Filter 2(hemisp_narrowband_filter2)
• Narrowband hemispheric irradiance, filter 3, offset and cosine corrected(hemisp_narrowband_filter3)
• Narrowband Hemispheric Irradiance, Filter 1, offset corrected(hemisp_narrowband_filter1)
• Quality check results on field: Direct Normal Broadband Irradiance broadband
  scale applied(qc_direct_normal_broadband)
• -180.0 - +180.0(alt)

• Sweep number, zero-based count(sweep_number)
• data_volume_index_number(volume_number)
• Differential reflectivity(differential_reflectivity)
• Clutter filtered reflectivity in horizontal polarization(reflectivity_horizontal)
• Differential propagation phase shift(differential_phase)
• altitude(altitude)
• transmit_pulse_mode(prt_mode)
• Scan mode for sweep(sweep_mode)
• Doppler spectrum width(doppler_spectrum_width)
• Beam Elevation Angle(elevation)
• Index of first ray in sweep, 0-based(sweep_start_ray_index)
• Specific differential phase (KDP)(specific_differential_phase)
• Azimuth of Radar Ray(azimuth)
• North latitude(latitude)
• Normalized coherent power(normalized_coherent_power)
• pulse_repetition_frequency(prt)
• Cross correlation ratio (RhoHV)(cross_correlation_ratio)
• Time index of last ray in sweep, 0-based(sweep_end_ray_index)
• File status(file_status)
• Mean doppler velocity(mean_doppler_velocity)
• Unambiguous range(unambiguous_range)
• ray_target_fixed_angle(fixed_angle)
• East longitude(longitude)
• time_in_seconds_since_volume_start(time)
• data_volume_start_time_utc(time_coverage_start)
• Total power(total_power)
• Unambiguous Doppler velocity(nyquist_velocity)
• Distance to the center of the corresponding range bin(range)
• Time corresponding to last radial in file(time_coverage_end)

• Instantaneous uncorrected downwelling shortwave diffuse, shaded pyranometer
  thermopile voltage(inst_diffuse)
• North Latitude(lat)
• lon(lon)
• Instantaneous Downwelling Pyrgeometer Case Thermistor Resistance, Shaded
  Pyrgeometer(inst_down_long_shaded_case_resist)
• Instantaneous direct normal shortwave irradiance, pyrheliometer thermopile
  voltage(inst_direct_normal)
• Instantaneous downwelling pyrgeometer thermopile voltage, shaded pyrgeometer(inst_down_long_hemisp_shaded_tp)
• Instantaneous downwelling pyrgeometer dome thermistor resistance, shaded
  pyrgeometer(inst_down_long_shaded_dome_resist)
• -180.0 - +180.0(alt)
• Instantaneous Upwelling Pyrgeometer Case Thermistor Resistance, Pyrgeometer(inst_up_long_case_resist)
• Instantaneous Downwelling Hemispheric Shortwave, Pyranometer Thermopile Voltage(inst_global)
• Time offset from base_time(time_offset)
• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)
• Instantaneous Upwelling Pyrgeometer Thermopile Pyrgeometer(inst_up_long_hemisp_tp)
• Instantaneous Upwelling Pyrgeometer Dome Thermistor Resistance Pyrgeometer(inst_up_long_dome_resist)
• base time in epoch(base_time)

• (Raw data stream - documentation not supported)

• Interpulse period(ipp)
• base time in epoch(base_time)
• time_in_seconds_since_volume_start(time)
• lon(lon)
• North Latitude(lat)
• Time offset from base_time(time_offset)
• Mean atmospheric vertical velocity(mdf)
• Pulse repetition frequency(prf)
• -180.0 - +180.0(alt)
• Delay Time to 1st Gate(dly)
• Spectral Width: vert velocity(specw)
• Individual Spectrum Integration Time(sitime)
• Number of Individual Spectra/Average Spectrum(nspc)
• Number of Valid Heights(nheight)
• Rx Bandwidth Switch Code(bswitch)
• Sample Rate(sampr)
• Height Index(range_gate)
• Ave Time per Average Spectra. Also known as dwell.(spcavetime)
• Array of heights for each sample time(height_t)
• Time Domain Integration Time(tditime)
• Vertical FFT Bandwidth(vband)
• Height of center of last range gate(rgl)
• Height of Center of First Range Gate(rgf)
• Range gate spacing(rgs)
• Signal-to-noise-ratio(snr)
• Number of pulse code bits(pcbits)
• 1000 * log10(noise signal level)(noise)
• Pulse length(plen)
• Radial Velocity Spectral Resolution(vsr)
• Number of Coherent Samples/Spectral Point(ncoh)

• Radial velocity(radial_velocity)
• Beam azimuth relative to Lidar home point(relative_azimuth)
• -180.0 - +180.0(alt)
• Attenuated backscatter(attenuated_backscatter)
• time_in_seconds_since_volume_start(time)
• Time offset from base_time(time_offset)
• Intensity (signal to noise ratio + 1)(intensity)
• lon(lon)
• North Latitude(lat)
• base time in epoch(base_time)
• Beam Elevation Angle(elevation)
• Distance to the center of the corresponding range bin(range)

• Retrieved pressure profile(pres)
• -180.0 - +180.0(alt)
• Ascent rate(asc)
• Dry Bulb Temperature(tdry)
• Time offset from base_time(time_offset)
• Wind Direction(deg)
• base time in epoch(base_time)
• North Latitude(lat)
• lon(lon)
• Wind status(wstat)
• Wind Speed(wspd)
• Dewpoint Temperature(dp)
• Relative Humidity (hybrid-b grid)(rh)

• Reference Thermistor Temperature(tref)
• base time in epoch(base_time)
• Fractional water index, west profile(fwi_w)
• Fractional water index, east profile(fwi_e)
• Quality check results on field: Volumetric water content, east profile(qc_watcont_e)
• Quality check results on field: Volumetric water content, west profile(qc_watcont_w)
• West profile sensor serial numbers(serial_numbers_w)
• East profile sensor serial numbers(serial_numbers_e)
• Reference sensor temperature rise, west profile(trise_ref_w)
• Reference sensor temperature rise, east profile(trise_ref_e)
• Soil water potential, west profile(soilwatpot_w)
• Quality check results on field: Reference sensor temperature rise, west profile(qc_trise_ref_w)
• Quality check results on field: Reference sensor temperature rise, east profile(qc_trise_ref_e)
• Soil water potential, east profile(soilwatpot_e)
• Quality check results on field: Soil water potential, east profile(qc_soilwatpot_e)
• Quality check results on field: Soil water potential, west profile(qc_soilwatpot_w)
• Quality check results on field: Sensor temperature rise, west profile(qc_trise_w)
• Quality check results on field: Sensor temperature rise, east profile(qc_trise_e)
• Quality check results on field: Reference thermistor temperature(qc_tref)
• Volumetric water content, west profile(watcont_w)
• Volumetric water content, east profile(watcont_e)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Quality check results on field: Soil temperature, west profile(qc_tsoil_w)
• Quality check results on field: Soil temperature, east profile(qc_tsoil_e)
• time_in_seconds_since_volume_start(time)
• Soil temperature, east profile(tsoil_e)
• Soil temperature, west profile(tsoil_w)
• depth(depth)
• Sensor temperature rise, west profile(trise_w)
• Sensor temperature rise, east profile(trise_e)
• North Latitude(lat)
• Quality check results on field: Fractional water index, west profile(qc_fwi_w)
• Quality check results on field: Fractional water index, east profile(qc_fwi_e)
• lon(lon)

• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• North Latitude(lat)
• lon(lon)
• Beam azimuth relative to Lidar home point(relative_azimuth)
• Attenuated backscatter(attenuated_backscatter)
• Distance to the center of the corresponding range bin(range)
• time_in_seconds_since_volume_start(time)
• Intensity (signal to noise ratio + 1)(intensity)
• Beam Elevation Angle(elevation)
• Time offset from base_time(time_offset)
• Radial velocity(radial_velocity)

• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter1(barnard_good_fraction_filter1)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter6(barnard_good_fraction_filter6)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter3(barnard_good_fraction_filter3)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter2(barnard_good_fraction_filter2)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter5(barnard_good_fraction_filter5)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter4(barnard_good_fraction_filter4)
• base time in epoch(base_time)
• error in final linear fit for the Direct Narrowband Filter4(barnard_error_fit_filter4)
• error in final linear fit for the Direct Narrowband Filter5(barnard_error_fit_filter5)
• error in final linear fit for the Direct Narrowband Filter6(barnard_error_fit_filter6)
• error in final linear fit for the Direct Narrowband Filter1(barnard_error_fit_filter1)
• error in final linear fit for the Direct Narrowband Filter2(barnard_error_fit_filter2)
• error in final linear fit for the Direct Narrowband Filter3(barnard_error_fit_filter3)
• percentage of initial points used in final linear fit for the Direct Broadband(barnard_good_fraction_broadband)
• Michalsky computed sun to earth distance(michalsky_sun_earth_distance)
• number of points used in final linear fit for the Direct Narrowband Filter6(michalsky_number_points_filter6)
• number of points used in final linear fit for the Direct Narrowband Filter4(michalsky_number_points_filter4)
• number of points used in final linear fit for the Direct Narrowband Filter5(michalsky_number_points_filter5)
• number of points used in final linear fit for the Direct Narrowband Filter2(michalsky_number_points_filter2)
• number of points used in final linear fit for the Direct Narrowband Filter3(michalsky_number_points_filter3)
• number of points used in final linear fit for the Direct Narrowband Filter1(michalsky_number_points_filter1)
• Langley regression Io, Michalsky, Direct BroadBand(michalsky_solar_constant_broadband)
• -180.0 - +180.0(alt)
• solar constant corrected for solar distance for the Direct Broadband(michalsky_solar_constant_sdist_broadband)
• rejection flag for Direct Broadband(michalsky_badflag_broadband)
• error in final linear fit for the Direct BroadBand(barnard_error_fit_broadband)
• number of points used in final linear fit for the Direct Broadband(michalsky_number_points_broadband)
• Barnard computed sun to earth distance(barnard_sun_earth_distance)
• number of points used in final linear fit for the Direct Broadband(barnard_number_points_broadband)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter5(michalsky_good_fraction_filter5)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter6(michalsky_good_fraction_filter6)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter3(michalsky_good_fraction_filter3)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter4(michalsky_good_fraction_filter4)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter1(michalsky_good_fraction_filter1)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter2(michalsky_good_fraction_filter2)
• optical depth for the Direct Narrowband Filter1(barnard_optical_depth_filter1)
• optical depth for the Direct Narrowband Filter4(barnard_optical_depth_filter4)
• optical depth for the Direct Narrowband Filter5(barnard_optical_depth_filter5)
• optical depth for the Direct Narrowband Filter2(barnard_optical_depth_filter2)
• optical depth for the Direct Narrowband Filter3(barnard_optical_depth_filter3)
• optical depth for the Direct Narrowband Filter6(barnard_optical_depth_filter6)
• standard deviation around regression line for the Direct BroadBand(michalsky_standard_deviation_broadband)
• rejection flag for Direct Broadband(barnard_badflag_broadband)
• number of points used in final linear fit for the Direct Narrowband Filter2(barnard_number_points_filter2)
• number of points used in final linear fit for the Direct Narrowband Filter1(barnard_number_points_filter1)
• number of points used in final linear fit for the Direct Narrowband Filter4(barnard_number_points_filter4)
• number of points used in final linear fit for the Direct Narrowband Filter3(barnard_number_points_filter3)
• number of points used in final linear fit for the Direct Narrowband Filter6(barnard_number_points_filter6)
• number of points used in final linear fit for the Direct Narrowband Filter5(barnard_number_points_filter5)
• optical depth for the Direct BroadBand(michalsky_optical_depth_broadband)
• rejection flag for Direct Narrowband Filter5(barnard_badflag_filter5)
• rejection flag for Direct Narrowband Filter6(barnard_badflag_filter6)
• rejection flag for Direct Narrowband Filter3(barnard_badflag_filter3)
• rejection flag for Direct Narrowband Filter4(barnard_badflag_filter4)
• rejection flag for Direct Narrowband Filter1(barnard_badflag_filter1)
• rejection flag for Direct Narrowband Filter2(barnard_badflag_filter2)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter6(barnard_error_slope_filter6)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter3(barnard_error_slope_filter3)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter2(barnard_error_slope_filter2)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter5(barnard_error_slope_filter5)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter4(barnard_error_slope_filter4)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter1(barnard_error_slope_filter1)
• lon(lon)
• solar constant corrected for solar distance for the Direct Narrowband Filter6(michalsky_solar_constant_sdist_filter6)
• solar constant corrected for solar distance for the Direct Narrowband Filter5(michalsky_solar_constant_sdist_filter5)
• solar constant corrected for solar distance for the Direct Narrowband Filter4(michalsky_solar_constant_sdist_filter4)
• solar constant corrected for solar distance for the Direct Narrowband Filter3(michalsky_solar_constant_sdist_filter3)
• solar constant corrected for solar distance for the Direct Narrowband Filter2(michalsky_solar_constant_sdist_filter2)
• solar constant corrected for solar distance for the Direct Narrowband Filter1(michalsky_solar_constant_sdist_filter1)
• North Latitude(lat)
• time_in_seconds_since_volume_start(time)
• percentage of initial points used in final linear fit for the Direct Broadband(michalsky_good_fraction_broadband)
• Langley regression Io, adjusted to 1AU, Barnard, Direct BroadBand(barnard_solar_constant_sdist_broadband)
• error in optical depth (slope) of final linear fit for the Direct Broadband(barnard_error_slope_broadband)
• optical depth for the Direct BroadBand(barnard_optical_depth_broadband)
• rejection flag for Direct Narrowband Filter3(michalsky_badflag_filter3)
• rejection flag for Direct Narrowband Filter2(michalsky_badflag_filter2)
• rejection flag for Direct Narrowband Filter1(michalsky_badflag_filter1)
• rejection flag for Direct Narrowband Filter6(michalsky_badflag_filter6)
• rejection flag for Direct Narrowband Filter5(michalsky_badflag_filter5)
• rejection flag for Direct Narrowband Filter4(michalsky_badflag_filter4)
• Langley regression Io, Michalsky, Direct Narrowband Filter2(michalsky_solar_constant_filter2)
• solar constant for the Direct Narrowband Filter1(michalsky_solar_constant_filter1)
• Langley regression Io, Michalsky, Direct Narrowband Filter4(michalsky_solar_constant_filter4)
• solar constant for the Direct Narrowband Filter3(michalsky_solar_constant_filter3)
• solar constant for the Direct Narrowband Filter6(michalsky_solar_constant_filter6)
• Langley regression Io, Michalsky, Direct Narrowband Filter5(michalsky_solar_constant_filter5)
• optical depth for the Direct Narrowband Filter6(michalsky_optical_depth_filter6)
• optical depth for the Direct Narrowband Filter5(michalsky_optical_depth_filter5)
• optical depth for the Direct Narrowband Filter4(michalsky_optical_depth_filter4)
• optical depth for the Direct Narrowband Filter3(michalsky_optical_depth_filter3)
• optical depth for the Direct Narrowband Filter2(michalsky_optical_depth_filter2)
• optical depth for the Direct Narrowband Filter1(michalsky_optical_depth_filter1)
• standard deviation around regression line for the Direct Narrowband Filter1(michalsky_standard_deviation_filter1)
• standard deviation around regression line for the Direct Narrowband Filter4(michalsky_standard_deviation_filter4)
• standard deviation around regression line for the Direct Narrowband Filter5(michalsky_standard_deviation_filter5)
• standard deviation around regression line for the Direct Narrowband Filter2(michalsky_standard_deviation_filter2)
• standard deviation around regression line for the Direct Narrowband Filter3(michalsky_standard_deviation_filter3)
• standard deviation around regression line for the Direct Narrowband Filter6(michalsky_standard_deviation_filter6)
• Langley regression Io, adjusted to 1AU, Barnard, Direct Narrowband Filter4(barnard_solar_constant_sdist_filter4)
• solar constant corrected for solar distance for the Direct Narrowband Filter5(barnard_solar_constant_sdist_filter5)
• solar constant corrected for solar distance for the Direct Narrowband Filter6(barnard_solar_constant_sdist_filter6)
• solar constant corrected for solar distance for the Direct Narrowband Filter1(barnard_solar_constant_sdist_filter1)
• solar constant corrected for solar distance for the Direct Narrowband Filter2(barnard_solar_constant_sdist_filter2)
• solar constant corrected for solar distance for the Direct Narrowband Filter3(barnard_solar_constant_sdist_filter3)

• 10 meter Narrowband Upwelling Hemispheric Irradiance, Filter 6(up_hemisp_narrowband_filter6)
• 3 meter upwelling narrowband hemispheric irradiance, filter 4(up_hemisp_narrowband_filter4)
• 25 meter upwelling narrowband hemispheric irradiance, filter 5, offset corrected(up_hemisp_narrowband_filter5)
• 3 meter upwelling narrowband hemispheric irradiance, filter 2, offset corrected(up_hemisp_narrowband_filter2)
• 3 meter upwelling narrowband hemispheric irradiance, filter 3, offset corrected(up_hemisp_narrowband_filter3)
• 10 meter upwelling narrowband hemispheric irradiance, filter 1(up_hemisp_narrowband_filter1)
• Cosine solar zenith angle(cosine_solar_zenith_angle)
• base time in epoch(base_time)
• Time offset from base_time(time_offset)
• North Latitude(lat)
• Fields flagged by callang: 0 = No Flag ,(callang_flags)
• Detector temperature(head_temp)
• lon(lon)
• 3 meter upwelling broadband hemispheric irradiance(up_hemisp_broadband)
• Data logger supply voltage(logger_volt)
• -180.0 - +180.0(alt)
• time_in_seconds_since_volume_start(time)

• Atmospheric pressure(atmos_pressure)
• Inner band orientation relative to nominal vertical(inner_band_angle_raw)
• Temperature of multi-IO box from MEMS sensor(mio_temperature_mems)
• time_in_seconds_since_volume_start(time)
• MIO relative humidity from TRH sensor(mio_rh)
• Standard deviation of collector tilt measured perpendicular to band axis.(collector_y_tilt_std)
• Band axis orientation with respect to azimuth limit switch(band_az_raw)
• Collector tilt perpendicular to band axis(collector_y_tilt)
• Step number in measurement sequence(tag)
• Spectrometer chiller internal RH(chiller_rh)
• Temperature of avantes AD board(avantes_ad_temperature)
• Spectrometer chiller internal dew point(chiller_dewpoint)
• Scattering angle occluded by point of inner band nearest to the solar position(inner_band_scat_ang)
• Shutter state(shutter_state)
• Band axis orientation with respect to north(band_azimuth)
• Chiller temperature during 1 minute interval.(chiller_temperature)
• Inner band orientation relative to operational vertical(inner_band_angle)
• Earth sun distance(earth_sun_dist)
• Integration time of individual spectrometer scans(spectrometer_integration_time)
• Collector internal dew point(collector_dewpoint)
• Scattering angle occluded by point of outer band nearest to the solar position(outer_band_scat_ang)
• -180.0 - +180.0(alt)
• Air mass(airmass)
• Solar azimuth angle relative to north(solar_azimuth)
• Outer band orientation relative to nominal vertical(outer_band_angle_raw)
• Temperature of multi-IO box from MEMS sensor in Fahrenheit(mio_temperature_mems_fahr)
• Time offset from base_time(time_offset)
• Solar zenith angle relative to vertical zenith.(solar_zenith)
• Spectrometer internal clock ticks(spectrometer_clock_ticks)
• Collector internal relative humidity from TRH sensor(collector_rh)
• Standard deviation of collector tilt measured along band axis.(collector_x_tilt_std)
• Outer band orientation relative to operational vertical(outer_band_angle)
• base time in epoch(base_time)
• Spectra(spectra)
• Temperature of MIO box from TRH sensor(mio_temperature_trh)
• Collector internal temperature from TRH sensor(collector_temperature)
• Top of atmosphere spectrum wavelengths(wavelength)
• North Latitude(lat)
• lon(lon)
• Collector tilt along band axis(collector_x_tilt)
• Number of spectrometer scans averaged for InGaAs NIR spectrometer(number_of_scans)
• Temperature of avantes optical bench(avantes_bench_temperature)

• base time in epoch(base_time)
• Soil Water Potential, West Profile(soilwatpot_W)
• Soil Water Potential, East Profile(soilwatpot_E)
• Soil Temperature, East Profile(tsoil_E)
• Soil Temperature, West Profile(tsoil_W)
• Sensor Temperature Rise, West Profile(trise_W)
• Sensor Temperature Rise, East Profile(trise_E)
• Reference Thermistor Temperature(tref)
• -180.0 - +180.0(alt)
• depth(depth)
• Volumetric Water Content, West Profile(watcont_W)
• Volumetric Water Content, East Profile(watcont_E)
• Time offset from base_time(time_offset)
• West profile sensor serial numbers(serial_numbers_W)
• East profile sensor serial numbers(serial_numbers_E)
• North Latitude(lat)
• lon(lon)

• base time in epoch(base_time)
• time_in_seconds_since_volume_start(time)
• Intensity (signal to noise ratio + 1)(intensity)
• Beam azimuth relative to Lidar home point(relative_azimuth)
• Radial velocity(radial_velocity)
• North Latitude(lat)
• lon(lon)
• Time offset from base_time(time_offset)
• Attenuated backscatter(attenuated_backscatter)
• Beam Elevation Angle(elevation)
• Distance to the center of the corresponding range bin(range)
• -180.0 - +180.0(alt)

• Time offset from base_time(time_offset)
• Soil heat flow 5, corrected for soil moisture(corr_soil_heat_flow_5)
• Soil heat flow 4, corrected for soil moisture(corr_soil_heat_flow_4)
• Soil heat flow 3, corrected for soil moisture(corr_soil_heat_flow_3)
• Soil heat flow 2, corrected for soil moisture(corr_soil_heat_flow_2)
• Soil heat flow 1, corrected for soil moisture(corr_soil_heat_flow_1)
• Soil temperature mean 3(soil_temp_3)
• Soil temperature 2(soil_temp_2)
• Half hour averaged soil temperature 5(soil_temp_5)
• Half hour averaged soil temperature 4(soil_temp_4)
• Soil temperature 1(soil_temp_1)
• Top T/RH sensor temperature(temp_trh_top)
• Net radiation(net_radiation)
• Top air temperature(temp_air_top)
• Surface soil heat flux 5(surface_soil_heat_flux_5)
• Surface soil heat flux 4(surface_soil_heat_flux_4)
• Surface soil heat flux 3(surface_soil_heat_flux_3)
• Surface soil heat flux 2(surface_soil_heat_flux_2)
• Surface soil heat flux 1(surface_soil_heat_flux_1)
• Change in energy storage 1, 0-5 cm soil layer(energy_storage_change_1)
• Change in energy storage 2, 0-5 cm soil layer(energy_storage_change_2)
• Change in energy storage 5, 0-5 cm soil layer(energy_storage_change_5)
• Change in energy storage 3, 0-5 cm soil layer(energy_storage_change_3)
• Change in energy storage 4, 0-5 cm soil layer(energy_storage_change_4)
• Top relative humidity (fractional)(rh_top_fraction)
• Top vapor pressure(vapor_pressure_top)
• Wind speed vector mean(wspd_vec_mean)
• Vegetation height outside fence(vegetation_height)
• Reference temperature in enclosure(temp_reference)
• -180.0 - +180.0(alt)
• Best estimate sensible heat flux(be_sensible_heat_flux)
• Soil heat capacity 5(soil_heat_capacity_5)
• Soil heat capacity 4(soil_heat_capacity_4)
• Soil heat capacity 3(soil_heat_capacity_3)
• Soil heat capacity 2(soil_heat_capacity_2)
• Soil heat capacity 1(soil_heat_capacity_1)
• Aerodynamic latent heat flux(aerodynamic_latent_heat_flux)
• Best estimate latent heat flux(be_latent_heat_flux)
• Wind direction vector mean standard deviation(wdir_vec_std)
• Wind speed arithmetic mean(wspd_arith_mean)
• Aerodynamic sensible heat flux(aerodynamic_sensible_heat_flux)
• Soil moisture 5, gravimetric(soil_moisture_5)
• Soil moisture 4, gravimetric(soil_moisture_4)
• Soil moisture 3, gravimetric(soil_moisture_3)
• Soil moisture 2, gravimetric(soil_moisture_2)
• Soil moisture 1, gravimetric(soil_moisture_1)
• base time in epoch(base_time)
• Wind direction vector mean(wdir_vec_mean)
• Solar radiation calculated from time of day, lat, and lon(solar_radiation)
• Bowen ratio(bowen_ratio)
• lon(lon)
• North Latitude(lat)
• Bottom T/RH sensor temperature(temp_trh_bottom)
• Bottom vapor pressure(vapor_pressure_bottom)
• Surface soil heat flux, average of fluxes 1-5(surface_soil_heat_flux_avg)
• Friction velocity(friction_velocity)
• Soil heat flow 5(soil_heat_flow_5)
• Soil heat flow 4(soil_heat_flow_4)
• Soil heat flow 3(soil_heat_flow_3)
• Soil heat flow 2(soil_heat_flow_2)
• Soil heat flow 1(soil_heat_flow_1)
• Bottom air temperature(temp_air_bottom)
• Surface sensible heat flux(sensible_heat_flux)
• Atmospheric pressure(atmos_pressure)
• AEM position indicator 15 to 30 mins(home_signal_30)
• AEM position indicator 0 to 15 mins(home_signal_15)
• Bottom relative humidity (fractional)(rh_bottom_fraction)
• Surface latent heat flux(latent_heat_flux)
• time_in_seconds_since_volume_start(time)

• Retrieved pressure profile(pres)
• V wind component(v_wind)
• Time offset from base_time(time_offset)
• lon(lon)
• North Latitude(lat)
• Dewpoint Temperature(dp)
• Easterly Wind Component(u_wind)
• Relative Humidity (hybrid-b grid)(rh)
• -180.0 - +180.0(alt)
• Ascent rate(asc)
• Wind Direction(deg)
• base time in epoch(base_time)
• Wind Speed(wspd)
• Dry Bulb Temperature(tdry)
• Wind status(wstat)

• Surface Infra-Red Temperature, Standard Deviation(sfc_ir_temp_std)
• -180.0 - +180.0(alt)
• Surface Infra-Red Temperature, Minima(sfc_ir_temp_min)
• Surface Infra-Red Temperature, Maxima(sfc_ir_temp_max)
• Time offset from base_time(time_offset)
• Internal voltage(internal_voltage)
• Surface infra-red temperature(sfc_ir_temp)
• Data Logger Temperature(logger_temp)
• lon(lon)
• North Latitude(lat)
• time_in_seconds_since_volume_start(time)
• base time in epoch(base_time)

• Intensity (signal to noise ratio + 1)(intensity)
• Radial velocity(radial_velocity)
• -180.0 - +180.0(alt)
• Distance to the center of the corresponding range bin(range)
• Azimuth of Radar Ray(azimuth)
• Time offset from base_time(time_offset)
• Beam Elevation Angle(elevation)
• lon(lon)
• North Latitude(lat)
• base time in epoch(base_time)
• Attenuated backscatter(attenuated_backscatter)
• time_in_seconds_since_volume_start(time)

• North Latitude(lat)
• lon(lon)
• Relative humidity observed by the Raman lidar(rh_mean)
• Quality check results on field: Relative humidity mean(qc_rh_mean)
• Wind direction vector mean(wdir_vec_mean)
• Atmospheric pressure(atmos_pressure)
• Results of quality checks on sample time(qc_time)
• Temperature mean(temp_mean)
• Time offset from base_time(time_offset)
• Wind speed arithmetic mean(wspd_arith_mean)
• Quality check results on field: Wind direction vector mean standard deviation(qc_wdir_vec_std)
• time_in_seconds_since_volume_start(time)
• Quality check results on field: Wind speed arithmetic mean(qc_wspd_arith_mean)
• Wind direction vector mean standard deviation(wdir_vec_std)
• Quality check results on field: Vapor pressure mean, calculated(qc_vapor_pressure_mean)
• Quality check results on field: TBRG precipitation total(qc_tbrg_precip_total)
• TBRG precipitation total, corrected(tbrg_precip_total_corr)
• Quality check results on field: Temperature mean(qc_temp_mean)
• Wind speed vector mean(wspd_vec_mean)
• base time in epoch(base_time)
• -180.0 - +180.0(alt)
• Vapor pressure mean, calculated(vapor_pressure_mean)
• TBRG precipitation total(tbrg_precip_total)
• Quality check results on field: TBRG precipitation total, corrected(qc_tbrg_precip_total_corr)
• Quality check results on field: Atmospheric pressure(qc_atmos_pressure)
• Quality check results on field: Wind direction vector mean(qc_wdir_vec_mean)
• Quality check results on field: Wind speed vector mean(qc_wspd_vec_mean)

• Equivolumetric sphere diameter(equivolumetric_sphere_diameter)
• Drop volume(drop_volume)
• Individual drop height as measured by camera A(drop_height_a)
• Individual drop height as measured by camera B(drop_height_b)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Oblateness(oblateness)
• Instrument effective measurement area(area)
• North Latitude(lat)
• lon(lon)
• time_in_seconds_since_volume_start(time)
• Individual drop width as measured by camera A(drop_width_a)
• Individual drop width as measured by camera B(drop_width_b)
• Fall speed(fall_speed)
• base time in epoch(base_time)

• (Raw data stream - documentation not supported)

• Sky infrared temperature, standard deviation(sky_ir_temp_std)
• base time in epoch(base_time)
• Sky Infra-Red Temperature(sky_ir_temp)
• North Latitude(lat)
• lon(lon)
• Internal Reference Infra Red Temperature(ref_ir_temp)
• Sky Infra Red Temperature Maxima(sky_ir_temp_max)
• Sky Infra-Red Temperature Minima(sky_ir_temp_min)
• time_in_seconds_since_volume_start(time)
• Time offset from base_time(time_offset)
• Number of averaged samples(samples_in_average)
• -180.0 - +180.0(alt)

• Pulse length(plen)
• Time Domain Integration Time(tditime)
• Delay Time to 1st Gate(dly)
• -180.0 - +180.0(alt)
• Number of values that passed consensus(ncns)
• Number of Coherent Samples/Spectral Point(ncoh)
• Height Index(range_gate)
• Power offset(power)
• Averaging interval(avgint)
• Time offset from base_time(time_offset)
• Radial wind speed(vel)
• Vertical FFT Bandwidth(vband)
• Number of Valid Heights(nheight)
• time_in_seconds_since_volume_start(time)
• Height of Center of First Range Gate(rgf)
• Height of center of last range gate(rgl)
• Range gate spacing(rgs)
• Number of Individual Spectra/Average Spectrum(nspc)
• Number of pulses/ave int, Beam 0(nrec)
• Number of Values Required for Consensus, Beam 0(nrcns)
• Signal-to-noise-ratio(snr)
• Pulse repetition frequency(prf)
• North Latitude(lat)
• lon(lon)
• Array of heights for each sample time(height_p)
• base time in epoch(base_time)
• Interpulse period(ipp)
• Sample Rate(sampr)

• Intensity (signal to noise ratio + 1)(intensity)
• -180.0 - +180.0(alt)
• Attenuated backscatter(attenuated_backscatter)
• time_in_seconds_since_volume_start(time)
• Radial velocity(radial_velocity)
• Beam Elevation Angle(elevation)
• Time offset from base_time(time_offset)
• lon(lon)
• base time in epoch(base_time)
• North Latitude(lat)
• Distance to the center of the corresponding range bin(range)
• Beam azimuth relative to Lidar home point(relative_azimuth)

• Signal to noise ratio, beam 4(snr4)
• Signal to Noise Ratio, Beam 3(snr3)
• Signal to noise ratio, beam 2(snr2)
• Ave snr*10 level, Beam 1(snr1)
• Signal to Noise Ratio, Beam 0(snr0)
• Vertical FFT Bandwidth(vband)
• Interpulse period(ipp)
• Horizontal wind direction(dir)
• Delay Time to 1st Gate(dly)
• Pulse length(plen)
• Number of Coherent Samples/Spectral Point(ncoh)
• Individual Spectrum Integration Time(sitime)
• V wind component(v_wind)
• Number of spectra/ave int, Beam 2(nrec2)
• Number of spectra/ave int, Beam 3(nrec3)
• Number of Spectra/ave int, Beam 4(nrec4)
• Pulse repetition frequency(prf)
• Number of pulses/ave int, Beam 0(nrec0)
• Number of spectra per averaging interval, beam 1(nrec1)
• Array of heights for each sample time(height_p)
• Number of values required for consensus, beam 4(nrcns4)
• Number of Values Required for Consensus, Beam 3(nrcns3)
• Number of Values Required for Consensus, Beam 2(nrcns2)
• Number of Values Required for Consensus, Beam 1(nrcns1)
• Number of values required for consensus, beam 0(nrcns0)
• Horizontal wind speed(spd)
• Height of center of last range gate(rgl)
• Height of Center of First Range Gate(rgf)
• Range gate spacing(rgs)
• Averaging interval(avgint)
• Vertical Velocity Spectral Resolution(vvsr)
• lon(lon)
• Rx Bandwidth Switch Code(bswitch)
• North Latitude(lat)
• Power offset(power)
• Azimuth of Beam 3 for WINDS data(azimuth3)
• Azimuth of Beam 2(azimuth2)
• Azimuth of Beam 1 for WINDS data(azimuth1)
• Azimuth of Beam 0(azimuth0)
• Azimuth of beam 4(azimuth4)
• Number of Valid Heights(nheight)
• Number of Individual Spectra/Average Spectrum(nspc)
• Oblique Velocity Spectral Resolution(ovsr)
• Time Domain Integration Time(tditime)
• Elevation angle of Beam 2 for WINDS data(elevation2)
• Elevation angle of beam 1(elevation1)
• Elevation angle of beam 4(elevation4)
• Elevation angle of beam 3(elevation3)
• Elevation angle of beam 0(elevation0)
• Number of pulse code bits(pcbits)
• Time offset from base_time(time_offset)
• Oblique FFT bandwidth(oband)
• Height Index(range_gate)
• -180.0 - +180.0(alt)
• Number of values that passed consensus, beam 3(ncns3)
• Number of values that passed consensus, beam 2(ncns2)
• Number of values that passed consensus, beam 4(ncns4)
• Number of values that passed consensus, beam 1(ncns1)
• Number of values that passed consensus, beam 0(ncns0)
• Easterly Wind Component(u_wind)
• Beam 1 radial wind speed(vel1)
• Beam 2 radial wind speed(vel2)
• Beam 3 radial wind speed(vel3)
• Beam 4 radial wind speed(vel4)
• Beam 0 radial wind speed(vel0)
• Ave Time per Average Spectra.(spcavetim)
• base time in epoch(base_time)
• Sample Rate(sampr)

• -180.0 - +180.0(alt)
• lon(lon)
• North Latitude(lat)
• Particle radius at logarithmic center of bin(bins)
• Range gate spacing(rgs)
• Sample Rate(sampr)
• base time in epoch(base_time)
• Height(height)
• Time offset from base_time(time_offset)
• Spectral Data(spc_amp)

• Downwelling longwave hemispheric irradiance, shaded pyrgeometer(down_long_hemisp_shaded)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_netir)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• North Latitude(lat)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)
• Instantaneous Downwelling Pyrgeometer Dome Thermistor Temperature, Shaded
  Pyrgeometer(inst_down_long_shaded_dome_temp)
• Instantaneous Dome Temperature(inst_up_long_dome_temp)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Instantaneous upwelling pyrgeometer case thermistor temperature, pyrgeometer(inst_up_long_case_temp)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• lon(lon)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)
• -180.0 - +180.0(alt)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Maxima(down_long_hemisp_shaded_max)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Minima(down_long_hemisp_shaded_min)
• Instantaneous downwelling pyrgeometer case thermistor temperature, shaded
  pyrgeometer(inst_down_long_shaded_case_temp)
• Downwelling longwave hemispheric net infrared(down_long_netir)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• base time in epoch(base_time)
• Time offset from base_time(time_offset)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Battery voltage(vBatt)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer, standard
  deviation(down_long_hemisp_shaded_std)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)

• Lag-0 co-polar correlation coefficient, clutter filtered(copol_coeff)
• Signal quality index(sig_qual_index)
• Mean doppler velocity(mean_doppler_velocity)
• Differential propagation phase shift(dp_phase_shift)
• Attenuation corrected reflectivity(reflectivity_corr)
• Attenuation corrected differential reflectivity(diff_reflectivity_corr)
• Unfiltered reflectivity(reflectivity_unf)
• reflectivity(reflectivity)
• Specific differential phase(diff_phase)
• Doppler spectral width, clutter filtered(doppler_spectral_width)
• Range gate(gate)
• time_in_seconds_since_volume_start(time)
• Differential reflectivity, clutter filtered(diff_reflectivity)

• Quality check results on field: Opaque sky cover for narrow field of view(qc_sky_cover_opaque_narrow)
• Quality check results on field: Thin sky cover for wide field of view(qc_sky_cover_thin_wide)
• Thin sky cover for wide field of view(sky_cover_thin_wide)
• Opaque sky cover for wide field of view(sky_cover_opaque_wide)
• Reference black body temperature, sensor 3(reference_bb_temperature_3)
• Reference black body temperature, sensor 2(reference_bb_temperature_2)
• Reference black body temperature, sensor 1(reference_bb_temperature_1)
• Quality check results on field: Enclosure temperature(qc_enclosure_temperature)
• Enclosure temperature(enclosure_temperature)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• Time offset from base_time(time_offset)
• Quality check results on field: Opaque sky cover for wide field of view(qc_sky_cover_opaque_wide)
• Camera temperature(camera_temperature)
• time_in_seconds_since_volume_start(time)
• Quality check results on field: Reference black body temperature, sensor 1(qc_reference_bb_temperature_1)
• Quality check results on field: Reference black body temperature, sensor 2(qc_reference_bb_temperature_2)
• Quality check results on field: Reference black body temperature, sensor 3(qc_reference_bb_temperature_3)
• Opaque sky cover for narrow field of view(sky_cover_opaque_narrow)
• Quality check results on field: Camera temperature(qc_camera_temperature)
• North Latitude(lat)
• lon(lon)
• Quality check results on field: Thin sky cover narrow field of view(qc_sky_cover_thin_narrow)
• Thin sky cover narrow field of view(sky_cover_thin_narrow)

• Airmasses(barnard_airmass)
• log(irradiance) for the Direct Narrowband Filter6, Michalsky(michalsky_lnI_filter6)
• log(irradiance) for the Direct Narrowband Filter5, Michalsky(michalsky_lnI_filter5)
• log(irradiance) for the Direct Narrowband Filter2, Michalsky(michalsky_lnI_filter2)
• log(irradiance) for the Direct Narrowband Filter1(michalsky_lnI_filter1)
• log(irradiance) for the Direct Narrowband Filter4, Michalsky(michalsky_lnI_filter4)
• log(irradiance) for the Direct Narrowband Filter3, Michalsky(michalsky_lnI_filter3)
• -180.0 - +180.0(alt)
• log(irradiance) for the Direct Broadband(barnard_lnI_broadband)
• base time in epoch(base_time)
• Time offset from base_time(time_offset)
• log(irradiance) for the Direct Narrowband Filter5(barnard_lnI_filter5)
• log(irradiance) for the Direct Narrowband Filter4(barnard_lnI_filter4)
• log(irradiance) for the Direct Narrowband Filter3, Barnard(barnard_lnI_filter3)
• log(irradiance) for the Direct Narrowband Filter2, Barnard(barnard_lnI_filter2)
• log(irradiance) for the Direct Narrowband Filter6(barnard_lnI_filter6)
• log(irradiance) for the Direct Narrowband Filter1, Barnard(barnard_lnI_filter1)
• North Latitude(lat)
• airmass(michalsky_airmass)
• rejected points for the final fit for the Direct Narrowband Filter3, Michalsky(michalsky_rejected_filter3)
• rejected points for the final fit for the Direct Narrowband Filter2(michalsky_rejected_filter2)
• rejected points for the final fit for the Direct Narrowband Filter1, Michalsky(michalsky_rejected_filter1)
• rejected points for the final fit for the Direct Narrowband Filter6, Michalsky(michalsky_rejected_filter6)
• rejected points for the final fit for the Direct Narrowband Filter5, Michalsky(michalsky_rejected_filter5)
• rejected points for the final fit for the Direct Narrowband Filter4, Michalsky(michalsky_rejected_filter4)
• rejected points for the final fit for the Direct Narrowband Filter3, Barnard(barnard_rejected_filter3)
• rejected points for the final fit for the Direct Narrowband Filter4, Barnard(barnard_rejected_filter4)
• rejected points for the final fit for the Direct Narrowband Filter5, Barnard(barnard_rejected_filter5)
• rejected points for the final fit for the Direct Narrowband Filter6(barnard_rejected_filter6)
• rejected points for the final fit for the Direct Narrowband Filter1(barnard_rejected_filter1)
• rejected points for the final fit for the Direct Narrowband Filter2(barnard_rejected_filter2)
• log(irradiance) for the Direct Broadband(michalsky_lnI_broadband)
• lon(lon)
• rejected points for the final fit for the Direct Broadband(michalsky_rejected_broadband)
• rejected points for the final fit for the Direct Broadband, Barnard(barnard_rejected_broadband)
• time_in_seconds_since_volume_start(time)

• AERI instrument hatch indicator (open, closed, neither)(hatchIndicator)
• Observation atmospheric pressure in AERI electronics(atmosphericPressure)
• Difference between the sky view\'s radiance variance and the hot black body
  view\'s variance(standard_dev_mean_rad)
• Hot blackbody temperature used in calibration(calibrationHBBtemp)
• Time at center of AERI sky observation period(Time)
• Ambient blackbody temperature - apex(ABBapexTemp)
• Hot blackbody temperature - rim bottom(HBBbottomTemp)
• Time offset from base_time(time_offset)
• Julian Day including day and fraction of day(JulianDay)
• Resistive temperature of 12 Kohm fixed resistor located in SCE-P3 shell(fixed12KohmResistor)
• Ingest computer temperature(computerTemp)
• Blackbody controller unit 2 power supply temperature(BBcontroller2temp)
• Electronics rack ambient temperature(rackAmbientTemp)
• Ambient air temperature at hatch opening(outsideAirTemp)
• Signal conditioning electronics inside air temperature(SCEtemp)
• Spare temperature sensor (location TBD)(spareTemp)
• Signal conditioning electronics inside air temperature(SCETemp)
• Mean of radiance spectra ensemble(mean_rad)
• AERI interferometer temperature at second port(interferometerSecondPortTemp)
• -180.0 - +180.0(alt)
• Time at center of AERI sky observation period(timeHHMMSS)
• Ambient air temperature near blackbodies(airNearBBsTemp)
• Hot blackbody temperature - rim top(HBBtopTemp)
• Scene mirror motor driver heat sink temperature(motorDriverTemp)
• wavenumbers for mean radiance spectra(wnum)
• Detector Temperature(detectorTemp)
• Resistive temperature of 97 Kohm fixed resistor located in SCE-P4 shell(fixed97KohmResistor)
• Time at end of interferometer data collection(rawTimeHHMMSS)
• Stirling cycle cooler expander temperature(coolerExpanderTemp)
• Relative humidity measured near Blackbodies. Use with air temperature near BBs
  only.(atmosphericRelativeHumidity)
• Ambient blackbody temperature(ABBbottomTemp)
• Logical flag indicating that a data record is missing (true/false)(missingDataFlag)
• Stirling cycle cooler current(coolerCurrent)
• Scene mirror motor case temperature(mirrorMotorTemp)
• Ambient temperature used in calibration(calibrationAmbientTemp)
• Observation latitude(Latitude)
• Wave number in reciprocal centimeters(wnum2)
• Blackbody controller Unit 2 power supply temperature(BBcontroller2Temp)
• Stirling cooler compressor temperature measured at compressor heatsink(coolerCompressorTemp)
• lon(lon)
• Observation longitude(Longitude)
• Ambient blackbody temperature - rim top(ABBtopTemp)
• base time in epoch(base_time)
• Observation altitude(Altitude)
• Blackbody controller Unit 1 power supply temperature(BBcontroller1Temp)
• Stirling cooler power supply temperature measured at power supply frame(coolerPowerSupplyTemp)
• Hot blackbody temperature - apex(HBBapexTemp)
• Blackbody controller unit 1 power supply temperature(BBcontroller1temp)
• Cold blackbody temperature used in calibration(calibrationCBBtemp)
• Resistive temperature of 2500 ohm fixed resistor - banana plug mounted(fixed2500ohmResistor)
• Scene mirror position encoder value(sceneMirPosEncoder)
• BB Support Structure Temperature(BBsupportStructureTemp)
• North Latitude(lat)

• Rx Bandwidth Switch Code(bswitch)
• -180.0 - +180.0(alt)
• Oblique FFT bandwidth(oband)
• Time offset from base_time(time_offset)
• Number of Individual Spectra/Average Spectrum(nspc)
• base time in epoch(base_time)
• Number of pulse code bits(pcbits)
• Beam elevation angle(beam_elevation)
• Sample Rate(sampr)
• time_in_seconds_since_volume_start(time)
• Height Index(range_gate)
• Interpulse period(ipp)
• Vertical FFT Bandwidth(vband)
• Delay Time to 1st Gate(dly)
• Time Domain Integration Time(tditime)
• Range gate spacing(rgs)
• Height of Center of First Range Gate(rgf)
• Height of center of last range gate(rgl)
• Spectral Data(spc_amp)
• Ave Time per Average Spectra.(spcavetim)
• Pulse repetition frequency(prf)
• North Latitude(lat)
• Number of Coherent Samples/Spectral Point(ncoh)
• Pulse length(plen)
• Individual Spectrum Integration Time(sitime)
• lon(lon)
• Number of Valid Heights(nheight)
• Particle radius at logarithmic center of bin(bins)
• Beam azimuth angle(beam_azimuth)
• Radial Velocity Spectral Resolution(vsr)
• Array of heights for each sample time(height_t)

• Distance to the center of the corresponding range bin(range)
• Width of range-bins calculated from range_bin_time(range_bin_width)
• North Latitude(lat)
• lon(lon)
• Repetition Rate, or Trigger Frequency of the laser(pulse_rep)
• Dead time correction flag(dead_time_corrected)
• Detector Temperature(detector_temp)
• Background signal standard deviation(background_signal_std)
• Height(height)
• Time offset from base_time(time_offset)
• Maximum altitude retrieved from multichannel scalar card.(max_altitude)
• Number of laser pulses summed during averaging interval(shots_per_avg)
• base time in epoch(base_time)
• -180.0 - +180.0(alt)
• time_in_seconds_since_volume_start(time)
• Number of bins stored in data block(num_bins)
• Laser Temperature(laser_temp)
• Background signal(background_signal)
• Number of detector channels(num_channels)
• Polarization control voltage setting(polarization_control_voltage)
• Polarization control enabled flag(polarization_control)
• Laser output energy per pulse(energy_monitor)
• Distance from leading edge of first range bin to the center of each bin .(range_bins)
• Time in nanoseconds for each range bin of multichannel scalar card.(range_bin_time)
• Preliminary cloud base height above ground level(preliminary_cbh)
• Subtract from range_bins to yield range(range_offset)
• Telescope temperature(scope_temp)
• Attenuated backscatter(signal_return)

• (Raw data stream - documentation not supported)

• (Raw data stream - documentation not supported)

• (Raw data stream - documentation not supported)

• (Raw data stream - documentation not supported)

• (Raw data stream - documentation not supported)

• Relative Humidity (hybrid-b grid)(rh)
• Wind Direction(deg)
• Retrieved pressure profile(pres)
• V wind component(v_wind)
• Ascent rate(asc)
• -180.0 - +180.0(alt)
• Dewpoint Temperature(dp)
• Wind status(wstat)
• Wind Speed(wspd)
• Time offset from base_time(time_offset)
• base time in epoch(base_time)
• Easterly Wind Component(u_wind)
• Dry Bulb Temperature(tdry)
• lon(lon)
• North Latitude(lat)

• Net radiation(net radiation)
• Surface energy balance(surface_energy_balance)
• Quality check results on field: Surface longwave irradiance(qc_up_long)
• Net radiometer temperature(temp_net_radiometer)
• Quality check results on field: Surface energy balance(qc_surface_energy_balance)
• Quality check results on field: Soil heat flow 3, corrected for soil moisture(qc_corr_soil_heat_flow_3)
• Quality check results on field: Soil heat flow 2, corrected for soil moisture(qc_corr_soil_heat_flow_2)
• Quality check results on field: Soil heat flow 1, corrected for soil moisture(qc_corr_soil_heat_flow_1)
• cloud narrowband albedo(albedo)
• Quality check results on field: Net radiation(qc_net_radiation)
• Soil heat flow 3(soil_heat_flow_3)
• Soil heat flow 2(soil_heat_flow_2)
• Soil heat flow 1(soil_heat_flow_1)
• Quality check results on field: Wetness, rain detector(qc_wetness)
• Soil heat capacity 3(soil_heat_capacity_3)
• Soil heat capacity 1(soil_heat_capacity_1)
• Soil heat capacity 2(soil_heat_capacity_2)
• Results of quality checks on sample time(qc_time)
• time_in_seconds_since_volume_start(time)
• Wetness, rain detector(wetness)
• Soil temperature 1(soil_temp_1)
• Soil temperature 2(soil_temp_2)
• Soil temperature mean 3(soil_temp_3)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Surface soil heat flux 2(surface_soil_heat_flux_2)
• Surface soil heat flux 3(surface_soil_heat_flux_3)
• Surface soil heat flux 1(surface_soil_heat_flux_1)
• Quality check results on field: Battery voltage(qc_battery_voltage)
• Time offset from base_time(time_offset)
• Surface longwave irradiance(up_long)
• lon(lon)
• North Latitude(lat)
• base time in epoch(base_time)
• Quality check results on field: Change in energy storage 1, 0-5 cm soil layer(qc_energy_storage_change_1)
• Quality check results on field: Change in energy storage 2, 0-5 cm soil layer(qc_energy_storage_change_2)
• Quality check results on field: Change in energy storage 3, 0-5 cm soil layer(qc_energy_storage_change_3)
• Quality check results on field: Surface soil heat flux, average of fluxes 1-5(qc_surface_soil_heat_flux_avg)
• Soil heat flow 1, corrected for soil moisture(corr_soil_heat_flow_1)
• Soil heat flow 2, corrected for soil moisture(corr_soil_heat_flow_2)
• Soil heat flow 3, corrected for soil moisture(corr_soil_heat_flow_3)
• Quality check results on field: Downwelling shortwave hemispheric irradiance(qc_down_short_hemisp)
• Quality check results on field: Albedo(qc_albedo)
• Change in energy storage 3, 0-5 cm soil layer(energy_storage_change_3)
• Change in energy storage 1, 0-5 cm soil layer(energy_storage_change_1)
• Change in energy storage 2, 0-5 cm soil layer(energy_storage_change_2)
• Quality check results on field: Soil heat capacity 2(qc_soil_heat_capacity_2)
• Quality check results on field: Soil heat capacity 3(qc_soil_heat_capacity_3)
• Quality check results on field: Soil heat capacity 1(qc_soil_heat_capacity_1)
• Soil moisture 2, gravimetric(soil_moisture_2)
• Soil moisture 3, gravimetric(soil_moisture_3)
• Soil moisture 1, gravimetric(soil_moisture_1)
• Quality check results on field: Soil moisture 3, gravimetric(qc_soil_moisture_3)
• Quality check results on field: Soil moisture 2, gravimetric(qc_soil_moisture_2)
• Quality check results on field: Soil moisture 1, gravimetric(qc_soil_moisture_1)
• Battery voltage(battery_voltage)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• -180.0 - +180.0(alt)
• Sky longwave irradiance(down_long)
• Quality check results on field: Net radiometer temperature(qc_temp_net_radiometer)
• Quality check results on field: Soil heat flow 3(qc_soil_heat_flow_3)
• Quality check results on field: Soil heat flow 2(qc_soil_heat_flow_2)
• Quality check results on field: Soil heat flow 1(qc_soil_heat_flow_1)
• Quality check results on field: Surface soil heat flux 3(qc_surface_soil_heat_flux_3)
• Quality check results on field: Surface soil heat flux 2(qc_surface_soil_heat_flux_2)
• Quality check results on field: Surface soil heat flux 1(qc_surface_soil_heat_flux_1)
• Quality check results on field: Soil temperature 1(qc_soil_temp_1)
• Quality check results on field: Soil temperature 2(qc_soil_temp_2)
• Quality check results on field: Soil temperature 3(qc_soil_temp_3)
• Surface soil heat flux, average of fluxes 1-5(surface_soil_heat_flux_avg)
• Quality check results on field: Upwelling Shortwave Hemispheric Irradiance(qc_up_short_hemisp)
• Quality check results on field: Sky longwave irradiance(qc_down_long)

• (Raw data stream - documentation not supported)

• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• -180.0 - +180.0(alt)
• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer(down_long_hemisp_shaded)
• Battery voltage(vBatt)
• Instantaneous downwelling pyrgeometer case thermistor temperature, shaded
  pyrgeometer(inst_down_long_shaded_case_temp)
• Time offset from base_time(time_offset)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• base time in epoch(base_time)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Minima(down_long_hemisp_shaded_min)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Maxima(down_long_hemisp_shaded_max)
• Downwelling longwave hemispheric net infrared(down_long_netir)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer, standard
  deviation(down_long_hemisp_shaded_std)
• Instantaneous Downwelling Pyrgeometer Dome Thermistor Temperature, Shaded
  Pyrgeometer(inst_down_long_shaded_dome_temp)
• North Latitude(lat)
• lon(lon)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_netir)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Instantaneous Dome Temperature(inst_up_long_dome_temp)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• Instantaneous upwelling pyrgeometer case thermistor temperature, pyrgeometer(inst_up_long_case_temp)

• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• Battery voltage(vBatt)
• lon(lon)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• North Latitude(lat)
• -180.0 - +180.0(alt)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Downwelling longwave hemispheric irradiance, pyrgeometer(down_long_hemisp)
• Time offset from base_time(time_offset)
• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• base time in epoch(base_time)
• Downwelling Longwave Hemispheric Irradiance, Pyrgeometer, Maxima(down_long_hemisp_max)
• Downwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(down_long_hemisp_min)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Downwelling Longwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_long_hemisp_std)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)

• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Instantaneous Dome Temperature(inst_up_long_dome_temp)
• Instantaneous upwelling pyrgeometer case thermistor temperature, pyrgeometer(inst_up_long_case_temp)
• Battery voltage(vBatt)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)
• Downwelling longwave hemispheric net infrared(down_long_netir)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer(down_long_hemisp_shaded)
• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• Instantaneous downwelling pyrgeometer case thermistor temperature, shaded
  pyrgeometer(inst_down_long_shaded_case_temp)
• Instantaneous Downwelling Pyrgeometer Dome Thermistor Temperature, Shaded
  Pyrgeometer(inst_down_long_shaded_dome_temp)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• North Latitude(lat)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_netir)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Maxima(down_long_hemisp_shaded_max)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Minima(down_long_hemisp_shaded_min)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)
• base time in epoch(base_time)
• lon(lon)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer, standard
  deviation(down_long_hemisp_shaded_std)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)

• Soil temperature 3 (resistance ratio)(soil_temp_3_rr)
• Right air temperature(temp_air_right)
• Soil heat flow 5 (mV)(soil_heat_flow_5_mv)
• base time in epoch(base_time)
• Right relative humidity (mV)(rh_right_mv)
• Soil moisture 2 (resistance ratio)(soil_moisture_2_rr)
• Soil heat flow 4 (mV)(soil_heat_flow_4_mv)
• Soil moisture 5 (resistance)(soil_moisture_5_r)
• Atmospheric pressure (mV)(atmos_pressure_mv)
• Soil moisture 1 (resistance ratio)(soil_moisture_1_rr)
• time_in_seconds_since_volume_start(time)
• Battery voltage(battery_voltage)
• AEM position indicator(home_signal)
• Right T/RH sensor temperature (resistance ratio)(temp_trh_right_rr)
• Soil heat flow 3 (mV)(soil_heat_flow_3_mv)
• North Latitude(lat)
• Soil temperature 4 (resistance ratio)(soil_temp_4_rr)
• Soil moisture 1 (resistance)(soil_moisture_1_r)
• Left T/RH sensor temperature (resistance ratio)(temp_trh_left_rr)
• Left air temperature(temp_air_left)
• Soil moisture 2 (resistance)(soil_moisture_2_r)
• Time offset from base_time(time_offset)
• Soil heat flow 2 (mV)(soil_heat_flow_2_mv)
• Soil moisture 3 (resistance)(soil_moisture_3_r)
• Soil moisture 4 (resistance)(soil_moisture_4_r)
• Soil heat flow 1 (mV)(soil_heat_flow_1_mv)
• -180.0 - +180.0(alt)
• Soil temperature 2 (resistance ratio)(soil_temp_2_rr)
• Soil temperature 1 (resistance ratio)(soil_temp_1_rr)
• Left relative humidity (mV)(rh_left_mv)
• Net radiation (mV)(net_radiation_mv)
• Reference temperature in enclosure (resistance ratio)(temp_reference_rr)
• lon(lon)
• Soil moisture 5 (resistance ratio)(soil_moisture_5_rr)
• Soil temperature 5 (resistance ratio)(soil_temp_5_rr)
• Soil moisture 4 (resistance ratio)(soil_moisture_4_rr)
• Wind direction vector mean (mV)(wdir_vec_mean_mv)
• Soil moisture 3 (resistance ratio)(soil_moisture_3_rr)
• Wind speed arithmetic mean(wspd_arith_mean)

• log(irradiance) for the Direct Broadband(barnard_lnI_broadband)
• log(irradiance) for the Direct Narrowband Filter1(michalsky_lnI_filter1)
• log(irradiance) for the Direct Narrowband Filter2, Michalsky(michalsky_lnI_filter2)
• log(irradiance) for the Direct Narrowband Filter3, Michalsky(michalsky_lnI_filter3)
• log(irradiance) for the Direct Narrowband Filter4, Michalsky(michalsky_lnI_filter4)
• log(irradiance) for the Direct Narrowband Filter5, Michalsky(michalsky_lnI_filter5)
• log(irradiance) for the Direct Narrowband Filter6, Michalsky(michalsky_lnI_filter6)
• Time offset from base_time(time_offset)
• rejected points for the final fit for the Direct Narrowband Filter6, Michalsky(michalsky_rejected_filter6)
• rejected points for the final fit for the Direct Narrowband Filter4, Michalsky(michalsky_rejected_filter4)
• rejected points for the final fit for the Direct Narrowband Filter5, Michalsky(michalsky_rejected_filter5)
• rejected points for the final fit for the Direct Narrowband Filter2(michalsky_rejected_filter2)
• rejected points for the final fit for the Direct Narrowband Filter3, Michalsky(michalsky_rejected_filter3)
• rejected points for the final fit for the Direct Narrowband Filter1, Michalsky(michalsky_rejected_filter1)
• Airmasses(barnard_airmass)
• North Latitude(lat)
• lon(lon)
• rejected points for the final fit for the Direct Narrowband Filter6(barnard_rejected_filter6)
• rejected points for the final fit for the Direct Narrowband Filter5, Barnard(barnard_rejected_filter5)
• rejected points for the final fit for the Direct Narrowband Filter4, Barnard(barnard_rejected_filter4)
• rejected points for the final fit for the Direct Narrowband Filter3, Barnard(barnard_rejected_filter3)
• rejected points for the final fit for the Direct Narrowband Filter2(barnard_rejected_filter2)
• rejected points for the final fit for the Direct Narrowband Filter1(barnard_rejected_filter1)
• airmass(michalsky_airmass)
• time_in_seconds_since_volume_start(time)
• log(irradiance) for the Direct Broadband(michalsky_lnI_broadband)
• rejected points for the final fit for the Direct Broadband, Barnard(barnard_rejected_broadband)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• log(irradiance) for the Direct Narrowband Filter1, Barnard(barnard_lnI_filter1)
• log(irradiance) for the Direct Narrowband Filter3, Barnard(barnard_lnI_filter3)
• log(irradiance) for the Direct Narrowband Filter2, Barnard(barnard_lnI_filter2)
• log(irradiance) for the Direct Narrowband Filter5(barnard_lnI_filter5)
• log(irradiance) for the Direct Narrowband Filter4(barnard_lnI_filter4)
• log(irradiance) for the Direct Narrowband Filter6(barnard_lnI_filter6)
• rejected points for the final fit for the Direct Broadband(michalsky_rejected_broadband)

• Direct-beam normal solar irradiance(nip)
• lon(lon)
• Down-welling pyrgeometer dome thermistor resistance(down_long_dome_resist)
• Up-welling pyrgeometer dome thermistor resistance(up_long_dome_resist)
• Shaded pyranometer voltage(short_diffuse)
• North Latitude(lat)
• Time offset from base_time(time_offset)
• Up-welling pyrgeometer case thermistor resistance(up_long_case_resist)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Down-welling pyrgeometer case thermistor resistance(down_long_case_resist)
• base time in epoch(base_time)
• -180.0 - +180.0(alt)
• Downwelling longwave hemispheric irradiance, pyrgeometer(down_long_hemisp)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)

• vector averaged wind direction(wind_dir)
• rotation to zero v(phi)
• Status of source for latent heat of vaporization(real_lv)
• Number of c samples removed due to spikes(n_spk_c)
• Status of source for mixing ratio(real_mr)
• moist air density(rho)
• 0=real or 1=dummy value of cp(real_cp)
• Number of bad or out of range c samples(n_bad_c)
• Number of bad or out of range q samples(n_bad_q)
• number of bad or out of range u samples(n_bad_u)
• Number of bad or out of range t samples(n_bad_t)
• number of bad or out of range w samples(n_bad_w)
• number of bad or out of range v samples(n_bad_v)
• Number of q samples removed due to spikes(n_spk_q)
• number of w samples removed due to spikes(n_spk_w)
• number of v samples removed due to spikes(n_spk_v)
• Number of u samples removed due to spikes(n_spk_u)
• number of t samples removed due to spikes(n_spk_t)
• Atmospheric pressure(atm_pres)
• number of samples with \IRGA hardware problem\ flag(n_bad_irga)
• base time in epoch(base_time)
• corrected sensible heat flux(h)
• momentum flux (dynamic)(k)
• Rotated covariance uq(cvar_rot_uq)
• rotated covariance uw(cvar_rot_uw)
• rotated covariance uv(cvar_rot_uv)
• Rotated covariance ut(cvar_rot_ut)
• rotated covariance uc(cvar_rot_uc)
• rotated covariance wt(cvar_rot_wt)
• rotated covariance wq(cvar_rot_wq)
• Rotated covariance wc(cvar_rot_wc)
• rotated covariance vq(cvar_rot_vq)
• rotated covariance vw(cvar_rot_vw)
• Rotated covariance vt(cvar_rot_vt)
• Rotated covariance vc(cvar_rot_vc)
• vertical (elevation) wind angle(elev)
• Standard deviation of wind direction(std_wind_dir)
• lon(lon)
• North Latitude(lat)
• number of samples with IRGA optical path blocked flag(n_bad_irga_light)
• skewness of variable t(skew_t)
• skewness of variable u(skew_u)
• Skewness of variable mean_v(skew_v)
• skewness of variable w(skew_w)
• skewness of variable q(skew_q)
• skewness of variable c(skew_c)
• specific heat of moist air(cp)
• CO2 flux(fc)
• Latent heat of vaporization(lv)
• Water vapor mixing ratio observed by the Raman lidar(mr)
• rotated variance w(var_rot_w)
• Rotated variance u(var_rot_u)
• variance of v(var_rot_v)
• Mean value of "spike" u samples(mean_spk_u)
• Mean value of "spike" t samples(mean_spk_t)
• mean value of \spike\ w samples(mean_spk_w)
• Mean value of "spike" v samples(mean_spk_v)
• mean value of out of range values and spikes of c -9999 if no spikes(mean_spk_c)
• mean value of out of range values and spikes of q -9999 if no spikes(mean_spk_q)
• kurtosis of variable c(kurt_c)
• kurtosis of variable q(kurt_q)
• kurtosis of variable v(kurt_v)
• kurtosis of variable w(kurt_w)
• Kurtosis of variable mean_t(kurt_t)
• kurtosis of variable u(kurt_u)
• Vector averaged wind speed(wind_spd)
• -180.0 - +180.0(alt)
• Average temperature (IGRA internal sensor)(temp_irga)
• number of valid c samples(n_good_c)
• number of valid t samples(n_good_t)
• Number of valid u samples(n_good_u)
• number of valid v samples(n_good_v)
• Number of valid w samples(n_good_w)
• number of valid q samples(n_good_q)
• mean co2 concentration (c)(mean_c)
• Cross-boom wind velocity (v)(mean_v)
• Down-boom wind velocity (u)(mean_u)
• Vertical wind velocity (w)(mean_w)
• mean water vapor concentration (q)(mean_q)
• mean sonic temperature (t), i.e. virtual temperature(mean_t)
• Standard deviation of wind elevation angle(std_elev)
• variance of c(var_c)
• variance of t(var_t)
• variance of q(var_q)
• variance of variable w(var_w)
• Variance of variable mean_v(var_v)
• variance of variable u(var_u)
• number of samples with bad sonic status flag(n_bad_son_ic)
• average voltage of IRGA cooler(mean_cooler)
• time_in_seconds_since_volume_start(time)
• rotated mean w(mean_rot_w)
• rotated mean v(mean_rot_v)
• Rotated mean u(mean_rot_u)
• 0=real or 1=dummy value of rho(real_rho)
• Time offset from base_time(time_offset)
• latent heat flux(lv_e)
• friction velocity(ustar)
• Covariance qc(cvar_qc)
• Covariance tc(cvar_tc)
• covariance of tq(cvar_tq)
• covariance uw(cvar_uw)
• covariance ut(cvar_ut)
• Covariance uv(cvar_uv)
• covariance vc(cvar_vc)
• Covariance uc(cvar_uc)
• covariance uq(cvar_uq)
• Covariance vt(cvar_vt)
• Covariance vw(cvar_vw)
• Covariance wc(cvar_wc)
• Covariance vq(cvar_vq)
• covariance wq(cvar_wq)
• covariance wt(cvar_wt)

• (Raw data stream - documentation not supported)

• Sky error(sky_error)
• North Latitude(lat)
• Last processing date(last_processing_date)
• Column volume size distribution (dV/dlnr)(size)
• Alm Type(alm_type)
• lon(lon)
• Time offset from base_time(time_offset)
• Solar ZenithAngle(zenith)
• Particle Size Distribution Tail Screening 1(tail1)
• Particle Size Distribution Tail Screening 2(tail2)
• Sun error(sun_error)
• Tau 440 (measured)(tau440)
• Particle radius at logarithmic center of bin(bins)
• Tail Level(tail_level)
• -180.0 - +180.0(alt)
• Time of observation(timeObs)
• Size index(siz_index)
• base time in epoch(base_time)
• Number of angles(num_of_angles)
• time_in_seconds_since_volume_start(time)
• Alpha 440-870(alpha440_870)

• Atmospheric pressure(atmos_pressure)
• Net radiation(net_radiation)
• Top vapor pressure(vapor_pressure_top)
• Wind speed vector mean(wspd_vec_mean)
• Top air temperature(temp_air_top)
• AEM position indicator(home_signal)
• Top relative humidity (fractional)(rh_top_fraction)
• time_in_seconds_since_volume_start(time)
• Wind speed arithmetic mean(wspd_arith_mean)
• Time offset from base_time(time_offset)
• -180.0 - +180.0(alt)
• Wind direction vector mean standard deviation(wdir_vec_std)
• Wind direction vector mean(wdir_vec_mean)
• Bottom relative humidity (fractional)(rh_bottom_fraction)
• North Latitude(lat)
• lon(lon)
• Bottom vapor pressure(vapor_pressure_bottom)
• Bottom T/RH sensor temperature(temp_trh_bottom)
• base time in epoch(base_time)
• Bottom air temperature(temp_air_bottom)
• Top T/RH sensor temperature(temp_trh_top)
• Reference temperature in enclosure(temp_reference)

• Specific differential phase(diff_phase)
• Differential propagation phase shift(dp_phase_shift)
• Mean doppler velocity(mean_doppler_velocity)
• Lag-0 co-polar correlation coefficient, clutter filtered(copol_coeff)
• Differential reflectivity, clutter filtered(diff_reflectivity)
• Attenuation corrected reflectivity(reflectivity_corr)
• Doppler spectral width, clutter filtered(doppler_spectral_width)
• Attenuation corrected differential reflectivity(diff_reflectivity_corr)
• reflectivity(reflectivity)
• time_in_seconds_since_volume_start(time)
• Range gate(gate)
• Unfiltered reflectivity(reflectivity_unf)
• Signal quality index(sig_qual_index)

• base time in epoch(base_time)
• Antenna relative humidity(rh_antenna)
• Radar calibration constant, channel 2, copolar(cal_constant_ch2_copol)
• Time of last detected TWTA fault.(twta_latest_fault_time_epoch)
• Noise source, channel 2(noise_source_ch2)
• Noise source, channel 1(noise_source_ch1)
• Instrument fault flags(fault_flags)
• TWTA status state(twta_status_state)
• Transmit power(tx_power)
• Receiver noise, channel 2(rx_noise_ch2)
• Receiver noise, channel 1(rx_noise_ch1)
• +5 V power supply voltage on radar control board(power_supply_5V)
• Current reported by the TWTA helix.(helix_current)
• +12 V power supply voltage(input_12V)
• +15 V power supply voltage(input_15V)
• Component plate temperature(temp_component_plate)
• +5.2 V power supply voltage on radar control board(power_supply_5p2V)
• DC power supply temperature(temp_power_supply)
• KAZR timing mode(timing_mode)
• Physical temperature of noise diode(temp_noise_diode)
• time_in_seconds_since_volume_start(time)
• Status of the TWTA monitored values.(twta_status_is_valid)
• Receiver gain, channel 1(rx_gain_ch1)
• Receiver gain, channel 2(rx_gain_ch2)
• Lock alarms for 360 MHz oscillator.(lock_alarm_360)
• Radar calibration constant, channel 2, cross-polar(cal_constant_ch2_xpol)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Lock alarms for 16560 MHz oscillator.(lock_alarm_16560)
• Lock alarms for 120 MHz oscillator.(lock_alarm_120)
• 4-port circulator temperature(temp_circulator)
• Voltage reported by the TWTA cathode.(cathode_voltage)
• Antenna feedhorn temperature(temp_antenna_feedhorn)
• -5 V power supply voltage(input_minus5V)
• Heater filament voltage, inside the TWTA.(filament_voltage)
• LNA temperature(temp_lna)
• +28 V power supply voltage on radar control board(power_supply_28V)
• Radar calibration constant, channel 1, cross-polar(cal_constant_ch1_xpol)
• RF detector temperature(temp_rf_detector)
• KAZR processing mode(processing_mode)
• lon(lon)
• North Latitude(lat)
• Voltage reported by the TWTA collector.(collector_voltage)
• Outside air temperature(temp_outside_air)
• On/Off state(is_powered_on)
• Antenna temperature(temp_antenna)
• Reverse power termination temperature(temp_reverse_power)
• Remote control enabled (0/1)(remote_control_enabled)
• Radar calibration constant, channel 1, copolar(cal_constant_ch1_copol)
• Relative humidity measured by sensor on radar control board(rh_local)
• +5 V power supply voltage(input_5V)
• +8 V power supply voltage(input_8V)
• Lock alarms for 1620 MHz oscillator.(lock_alarm_1620)
• Temperature measured by sensor on radar control board(temp_local)
• Taper factor added to fast fourier transform.(fft_taper_type)

• Observation longitude(Longitude)
• Standard deviation of AERI relative humidity in counts(countsStdDevRelativeHumidity)
• Engineering channel 2 raw counts(engineeringChannel2Counts)
• Engineering channel 0 raw counts(engineeringChannel0Counts)
• Engineering channel 2 data(engineeringChannel2Data)
• Engineering channel 2 data(engineeringChannel2data)
• Standard deviation of AERI pressure in counts(countsStdDevPressure)
• Temperature standard deviation for thermistor channel 0(tempStdDevThermistor0)
• Temperature standard deviation for thermistor channel 1(tempStdDevThermistor1)
• Temperature standard deviation for thermistor channel 8(tempStdDevThermistor8)
• Temperature standard deviation for thermistor channel 9(tempStdDevThermistor9)
• Temperature standard deviation for thermistor channel 6(tempStdDevThermistor6)
• Temperature standard deviation for thermistor channel 7(tempStdDevThermistor7)
• Temperature standard deviation for thermistor channel 4(tempStdDevThermistor4)
• Temperature standard deviation for thermistor channel 5(tempStdDevThermistor5)
• Temperature standard deviation for thermistor channel 2(tempStdDevThermistor2)
• Temperature standard deviation for thermistor channel 3(tempStdDevThermistor3)
• lon(lon)
• Observation latitude(Latitude)
• Spare temperature sensor (location TBD)(spareTemp)
• Time offset from base_time(time_offset)
• Time at end of interferometer data collection(rawTimeHHMMSS)
• Julian Day including day and fraction of day(JulianDay)
• Thermistor input channel number 20 (counting from 0) equivalent temperature(thermistor20)
• Thermistor input channel number 21 (counting from 0) equivalent temperature(thermistor21)
• Thermistor input channel number 22 (counting from 0) equivalent temperature(thermistor22)
• Thermistor input channel number 23 (counting from 0) equivalent temperature(thermistor23)
• Thermistor input channel number 15 (counting from 0) equivalent temperature(thermistor15)
• Thermistor input channel number 16 (counting from 0) equivalent temperature(thermistor16)
• Thermistor input channel number 17 (counting from 0) equivalent temperature(thermistor17)
• Thermistor input channel number 18 (counting from 0) equivalent temperature(thermistor18)
• Thermistor input channel number 19 (counting from 0) equivalent temperature(thermistor19)
• Hatch Closed Indicator(thermistor10)
• Thermistor input channel number 11 (counting from 0) equivalent temperature(thermistor11)
• Thermistor input channel number 12 (counting from 0) equivalent temperature(thermistor12)
• Spare #2(thermistor13)
• Thermistor input channel number 14 (counting from 0) equivalent temperature(thermistor14)
• Barometric pressure at site(rawAtmosphericPressure)
• Observation altitude(Altitude)
• Reflected Temperature(thermistor2)
• Thermistor input channel number 3 (counting from 0) equivalent temperature(thermistor3)
• Ambient Air near BBs(thermistor0)
• Thermistor input channel number 1 (counting from 0) equivalent temperature(thermistor1)
• Thermistor input channel number 6 (counting from 0) equivalent temperature(thermistor6)
• Thermistor input channel number 7 (counting from 0) equivalent temperature(thermistor7)
• Thermistor input channel number 4 (counting from 0) equivalent temperature(thermistor4)
• ABB #1(thermistor5)
• Electronics Air(thermistor8)
• Thermistor input channel number 9 (counting from 0) equivalent temperature(thermistor9)
• Mirror position encoder value(rawMirrorPositionEncoder)
• Engineering channel 1 raw counts(engineeringChannel1Counts)
• North Latitude(lat)
• -180.0 - +180.0(alt)
• Time at center of AERI sky observation period(Time)
• Logical flag indicating that a data record is missing (true/false)(missingDataFlag)
• Resistive temperature of 97 Kohm fixed resistor located in SCE-P4 shell(fixed97KohmResistor)
• Engineering channel 0 data(engineeringChannel0Data)
• base time in epoch(base_time)
• Engineering channel 0 data(engineeringChannel0data)
• Engineering channel 0 raw counts(engineeringChannel0counts)
• Engineering channel 1 raw counts(engineeringChannel1counts)
• Resistive temperature of 12 Kohm fixed resistor located in SCE-P3 shell(fixed12KohmResistor)
• Time at center of AERI sky observation period(timeHHMMSS)
• Relative humidity at site(rawAtmosphericRelativeHumidity)
• Engineering channel 1 data(engineeringChannel1Data)
• Engineering channel 2 raw counts(engineeringChannel2counts)
• Temperature standard deviation for thermistor channel 14(tempStdDevThermistor14)
• Temperature standard deviation for thermistor channel 13(tempStdDevThermistor13)
• Temperature standard deviation for thermistor channel 16(tempStdDevThermistor16)
• Temperature standard deviation for thermistor channel 15(tempStdDevThermistor15)
• Temperature standard deviation for thermistor channel 10(tempStdDevThermistor10)
• Temperature standard deviation for thermistor channel 12(tempStdDevThermistor12)
• Temperature standard deviation for thermistor channel 11(tempStdDevThermistor11)
• Engineering channel 1 data(engineeringChannel1data)
• Temperature standard deviation for thermistor channel 21(tempStdDevThermistor21)
• Temperature standard deviation for thermistor channel 20(tempStdDevThermistor20)
• Temperature standard deviation for thermistor channel 23(tempStdDevThermistor23)
• Temperature standard deviation for thermistor channel 22(tempStdDevThermistor22)
• Temperature standard deviation for thermistor channel 18(tempStdDevThermistor18)
• Temperature standard deviation for thermistor channel 17(tempStdDevThermistor17)
• Temperature standard deviation for thermistor channel 19(tempStdDevThermistor19)

• (Raw data stream - documentation not supported)

• (Raw data stream - documentation not supported)

• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)
• Instantaneous uncorrected downwelling shortwave diffuse, shaded pyranometer
  thermopile voltage(inst_diffuse)
• Instantaneous downwelling pyrgeometer dome thermistor resistance, shaded
  pyrgeometer(inst_down_long_shaded_dome_resist)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• Instantaneous Upwelling Pyrgeometer Case Thermistor Resistance, Pyrgeometer(inst_up_long_case_resist)
• Instantaneous Downwelling Hemispheric Shortwave, Pyranometer Thermopile Voltage(inst_global)
• Time offset from base_time(time_offset)
• Instantaneous Upwelling Pyrgeometer Thermopile Pyrgeometer(inst_up_long_hemisp_tp)
• Instantaneous Downwelling Pyrgeometer Case Thermistor Resistance, Shaded
  Pyrgeometer(inst_down_long_shaded_case_resist)
• Instantaneous downwelling pyrgeometer thermopile voltage, shaded pyrgeometer(inst_down_long_hemisp_shaded_tp)
• lon(lon)
• North Latitude(lat)
• Instantaneous direct normal shortwave irradiance, pyrheliometer thermopile
  voltage(inst_direct_normal)
• Instantaneous Upwelling Pyrgeometer Dome Thermistor Resistance Pyrgeometer(inst_up_long_dome_resist)

• Instantaneous Upwelling Pyrgeometer Dome Thermistor Resistance Pyrgeometer(inst_up_long_dome_resist)
• base time in epoch(base_time)
• Instantaneous uncorrected downwelling shortwave diffuse, shaded pyranometer
  thermopile voltage(inst_diffuse)
• Instantaneous Upwelling Pyrgeometer Thermopile Pyrgeometer(inst_up_long_hemisp_tp)
• Instantaneous downwelling pyrgeometer dome thermistor resistance, shaded
  pyrgeometer(inst_down_long_shaded_dome_resist)
• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Instantaneous Downwelling Pyrgeometer Case Thermistor Resistance, Shaded
  Pyrgeometer(inst_down_long_shaded_case_resist)
• Instantaneous Downwelling Hemispheric Shortwave, Pyranometer Thermopile Voltage(inst_global)
• Instantaneous Upwelling Pyrgeometer Case Thermistor Resistance, Pyrgeometer(inst_up_long_case_resist)
• lon(lon)
• North Latitude(lat)
• Instantaneous downwelling pyrgeometer thermopile voltage, shaded pyrgeometer(inst_down_long_hemisp_shaded_tp)
• Instantaneous direct normal shortwave irradiance, pyrheliometer thermopile
  voltage(inst_direct_normal)

• Time offset from base_time(time_offset)
• TBRG precipitation total(tbrg_precip_total)
• Quality check results on field: Wind direction vector mean standard deviation(qc_wdir_vec_std)
• Results of quality checks on sample time(qc_time)
• Vapor pressure mean, calculated(vapor_pressure_mean)
• TBRG precipitation total, corrected(tbrg_precip_total_corr)
• Wind direction vector mean standard deviation(wdir_vec_std)
• Relative humidity observed by the Raman lidar(rh_mean)
• Quality check results on field: Temperature mean(qc_temp_mean)
• Temperature mean(temp_mean)
• base time in epoch(base_time)
• Quality check results on field: Vapor pressure mean, calculated(qc_vapor_pressure_mean)
• Wind speed arithmetic mean(wspd_arith_mean)
• Quality check results on field: TBRG precipitation total, corrected(qc_tbrg_precip_total_corr)
• Quality check results on field: TBRG precipitation total(qc_tbrg_precip_total)
• Quality check results on field: Relative humidity mean(qc_rh_mean)
• -180.0 - +180.0(alt)
• Atmospheric pressure(atmos_pressure)
• time_in_seconds_since_volume_start(time)
• Quality check results on field: Wind speed vector mean(qc_wspd_vec_mean)
• Quality check results on field: Wind direction vector mean(qc_wdir_vec_mean)
• Wind direction vector mean(wdir_vec_mean)
• Wind speed vector mean(wspd_vec_mean)
• Quality check results on field: Wind speed arithmetic mean(qc_wspd_arith_mean)
• Quality check results on field: Atmospheric pressure(qc_atmos_pressure)
• North Latitude(lat)
• lon(lon)

• Easterly Wind Component(u_wind)
• lon(lon)
• Retrieved pressure profile(pres)
• North Latitude(lat)
• Wind Direction(deg)
• Ascent rate(asc)
• -180.0 - +180.0(alt)
• Wind Speed(wspd)
• Wind status(wstat)
• base time in epoch(base_time)
• V wind component(v_wind)
• Dry Bulb Temperature(tdry)
• Time offset from base_time(time_offset)
• Dewpoint Temperature(dp)
• Relative Humidity (hybrid-b grid)(rh)

• Soil temperature, east profile(tsoil_e)
• Soil temperature, west profile(tsoil_w)
• -180.0 - +180.0(alt)
• time_in_seconds_since_volume_start(time)
• Reference Thermistor Temperature(tref)
• depth(depth)
• Sensor temperature rise, west profile(trise_w)
• Sensor temperature rise, east profile(trise_e)
• East profile sensor serial numbers(serial_numbers_e)
• West profile sensor serial numbers(serial_numbers_w)
• Reference sensor temperature rise, east profile(trise_ref_e)
• Reference sensor temperature rise, west profile(trise_ref_w)
• Quality check results on field: Sensor temperature rise, east profile(qc_trise_e)
• Quality check results on field: Sensor temperature rise, west profile(qc_trise_w)
• Quality check results on field: Soil water potential, east profile(qc_soilwatpot_e)
• Quality check results on field: Soil water potential, west profile(qc_soilwatpot_w)
• Time offset from base_time(time_offset)
• Quality check results on field: Soil temperature, east profile(qc_tsoil_e)
• Quality check results on field: Soil temperature, west profile(qc_tsoil_w)
• Quality check results on field: Reference sensor temperature rise, east profile(qc_trise_ref_e)
• Quality check results on field: Reference sensor temperature rise, west profile(qc_trise_ref_w)
• Quality check results on field: Reference thermistor temperature(qc_tref)
• Quality check results on field: Fractional water index, west profile(qc_fwi_w)
• Quality check results on field: Fractional water index, east profile(qc_fwi_e)
• base time in epoch(base_time)
• North Latitude(lat)
• Fractional water index, west profile(fwi_w)
• Fractional water index, east profile(fwi_e)
• lon(lon)
• Soil water potential, west profile(soilwatpot_w)
• Soil water potential, east profile(soilwatpot_e)
• Quality check results on field: Volumetric water content, east profile(qc_watcont_e)
• Quality check results on field: Volumetric water content, west profile(qc_watcont_w)
• Volumetric water content, east profile(watcont_e)
• Volumetric water content, west profile(watcont_w)

• Temperature at 25 m(temp_25m)
• Vapor pressure at 60m(vap_pres_60m)
• Air temperature at 60m(temp_60m)
• Standard Deviation of 60 m Vapor Pressure(sd_vap_pres_60m)
• base time in epoch(base_time)
• -180.0 - +180.0(alt)
• Standard Deviation of 60 m Temperature(sd_temp_60m)
• Time offset from base_time(time_offset)
• 25 m Vapor Pressure(vap_pres_25m)
• Standard Deviation of 60 m Relative Humidity(sd_rh_60m)
• lon(lon)
• Standard Deviation of 25 m Temperature(sd_temp_25m)
• Standard Deviation of 25 m Relative Humidity(sd_rh_25m)
• North Latitude(lat)
• Relative humidity at 60m(rh_60m)
• Standard Deviation of 25 m Vapor Pressure(sd_vap_pres_25m)
• Relative humidity at 25 m(rh_25m)

• optical depth for the Direct BroadBand(michalsky_optical_depth_broadband)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter6(michalsky_good_fraction_filter6)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter3(michalsky_good_fraction_filter3)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter2(michalsky_good_fraction_filter2)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter5(michalsky_good_fraction_filter5)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter4(michalsky_good_fraction_filter4)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter1(michalsky_good_fraction_filter1)
• Langley regression Io, Michalsky, Direct BroadBand(michalsky_solar_constant_broadband)
• time_in_seconds_since_volume_start(time)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter2(barnard_good_fraction_filter2)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter1(barnard_good_fraction_filter1)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter4(barnard_good_fraction_filter4)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter3(barnard_good_fraction_filter3)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter6(barnard_good_fraction_filter6)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter5(barnard_good_fraction_filter5)
• solar constant corrected for solar distance for the Direct Broadband(michalsky_solar_constant_sdist_broadband)
• Barnard computed sun to earth distance(barnard_sun_earth_distance)
• rejection flag for Direct Broadband(barnard_badflag_broadband)
• solar constant for the Direct Narrowband Filter3(michalsky_solar_constant_filter3)
• Langley regression Io, Michalsky, Direct Narrowband Filter2(michalsky_solar_constant_filter2)
• Langley regression Io, Michalsky, Direct Narrowband Filter5(michalsky_solar_constant_filter5)
• Langley regression Io, Michalsky, Direct Narrowband Filter4(michalsky_solar_constant_filter4)
• solar constant for the Direct Narrowband Filter6(michalsky_solar_constant_filter6)
• solar constant for the Direct Narrowband Filter1(michalsky_solar_constant_filter1)
• Langley regression Io, adjusted to 1AU, Barnard, Direct BroadBand(barnard_solar_constant_sdist_broadband)
• number of points used in final linear fit for the Direct Narrowband Filter6(michalsky_number_points_filter6)
• number of points used in final linear fit for the Direct Narrowband Filter5(michalsky_number_points_filter5)
• number of points used in final linear fit for the Direct Narrowband Filter2(michalsky_number_points_filter2)
• number of points used in final linear fit for the Direct Narrowband Filter1(michalsky_number_points_filter1)
• number of points used in final linear fit for the Direct Narrowband Filter4(michalsky_number_points_filter4)
• number of points used in final linear fit for the Direct Narrowband Filter3(michalsky_number_points_filter3)
• standard deviation around regression line for the Direct Narrowband Filter3(michalsky_standard_deviation_filter3)
• standard deviation around regression line for the Direct Narrowband Filter4(michalsky_standard_deviation_filter4)
• standard deviation around regression line for the Direct Narrowband Filter1(michalsky_standard_deviation_filter1)
• standard deviation around regression line for the Direct Narrowband Filter2(michalsky_standard_deviation_filter2)
• standard deviation around regression line for the Direct Narrowband Filter5(michalsky_standard_deviation_filter5)
• standard deviation around regression line for the Direct Narrowband Filter6(michalsky_standard_deviation_filter6)
• -180.0 - +180.0(alt)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter4(barnard_error_slope_filter4)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter3(barnard_error_slope_filter3)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter6(barnard_error_slope_filter6)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter5(barnard_error_slope_filter5)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter2(barnard_error_slope_filter2)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter1(barnard_error_slope_filter1)
• solar constant corrected for solar distance for the Direct Narrowband Filter3(barnard_solar_constant_sdist_filter3)
• Langley regression Io, adjusted to 1AU, Barnard, Direct Narrowband Filter4(barnard_solar_constant_sdist_filter4)
• solar constant corrected for solar distance for the Direct Narrowband Filter5(barnard_solar_constant_sdist_filter5)
• solar constant corrected for solar distance for the Direct Narrowband Filter6(barnard_solar_constant_sdist_filter6)
• solar constant corrected for solar distance for the Direct Narrowband Filter1(barnard_solar_constant_sdist_filter1)
• solar constant corrected for solar distance for the Direct Narrowband Filter2(barnard_solar_constant_sdist_filter2)
• number of points used in final linear fit for the Direct Broadband(michalsky_number_points_broadband)
• optical depth for the Direct BroadBand(barnard_optical_depth_broadband)
• number of points used in final linear fit for the Direct Narrowband Filter3(barnard_number_points_filter3)
• number of points used in final linear fit for the Direct Narrowband Filter2(barnard_number_points_filter2)
• number of points used in final linear fit for the Direct Narrowband Filter5(barnard_number_points_filter5)
• number of points used in final linear fit for the Direct Narrowband Filter4(barnard_number_points_filter4)
• number of points used in final linear fit for the Direct Narrowband Filter1(barnard_number_points_filter1)
• number of points used in final linear fit for the Direct Narrowband Filter6(barnard_number_points_filter6)
• standard deviation around regression line for the Direct BroadBand(michalsky_standard_deviation_broadband)
• solar constant corrected for solar distance for the Direct Narrowband Filter1(michalsky_solar_constant_sdist_filter1)
• solar constant corrected for solar distance for the Direct Narrowband Filter3(michalsky_solar_constant_sdist_filter3)
• solar constant corrected for solar distance for the Direct Narrowband Filter2(michalsky_solar_constant_sdist_filter2)
• solar constant corrected for solar distance for the Direct Narrowband Filter5(michalsky_solar_constant_sdist_filter5)
• solar constant corrected for solar distance for the Direct Narrowband Filter4(michalsky_solar_constant_sdist_filter4)
• solar constant corrected for solar distance for the Direct Narrowband Filter6(michalsky_solar_constant_sdist_filter6)
• error in final linear fit for the Direct BroadBand(barnard_error_fit_broadband)
• rejection flag for Direct Narrowband Filter6(barnard_badflag_filter6)
• rejection flag for Direct Narrowband Filter1(barnard_badflag_filter1)
• rejection flag for Direct Narrowband Filter5(barnard_badflag_filter5)
• rejection flag for Direct Narrowband Filter4(barnard_badflag_filter4)
• rejection flag for Direct Narrowband Filter3(barnard_badflag_filter3)
• rejection flag for Direct Narrowband Filter2(barnard_badflag_filter2)
• optical depth for the Direct Narrowband Filter1(michalsky_optical_depth_filter1)
• optical depth for the Direct Narrowband Filter4(michalsky_optical_depth_filter4)
• optical depth for the Direct Narrowband Filter5(michalsky_optical_depth_filter5)
• optical depth for the Direct Narrowband Filter2(michalsky_optical_depth_filter2)
• optical depth for the Direct Narrowband Filter3(michalsky_optical_depth_filter3)
• optical depth for the Direct Narrowband Filter6(michalsky_optical_depth_filter6)
• rejection flag for Direct Narrowband Filter1(michalsky_badflag_filter1)
• rejection flag for Direct Narrowband Filter2(michalsky_badflag_filter2)
• rejection flag for Direct Narrowband Filter3(michalsky_badflag_filter3)
• rejection flag for Direct Narrowband Filter4(michalsky_badflag_filter4)
• rejection flag for Direct Narrowband Filter5(michalsky_badflag_filter5)
• rejection flag for Direct Narrowband Filter6(michalsky_badflag_filter6)
• Michalsky computed sun to earth distance(michalsky_sun_earth_distance)
• optical depth for the Direct Narrowband Filter5(barnard_optical_depth_filter5)
• optical depth for the Direct Narrowband Filter6(barnard_optical_depth_filter6)
• optical depth for the Direct Narrowband Filter3(barnard_optical_depth_filter3)
• optical depth for the Direct Narrowband Filter4(barnard_optical_depth_filter4)
• optical depth for the Direct Narrowband Filter1(barnard_optical_depth_filter1)
• optical depth for the Direct Narrowband Filter2(barnard_optical_depth_filter2)
• percentage of initial points used in final linear fit for the Direct Broadband(barnard_good_fraction_broadband)
• percentage of initial points used in final linear fit for the Direct Broadband(michalsky_good_fraction_broadband)
• error in optical depth (slope) of final linear fit for the Direct Broadband(barnard_error_slope_broadband)
• lon(lon)
• North Latitude(lat)
• number of points used in final linear fit for the Direct Broadband(barnard_number_points_broadband)
• base time in epoch(base_time)
• rejection flag for Direct Broadband(michalsky_badflag_broadband)
• error in final linear fit for the Direct Narrowband Filter2(barnard_error_fit_filter2)
• error in final linear fit for the Direct Narrowband Filter1(barnard_error_fit_filter1)
• error in final linear fit for the Direct Narrowband Filter4(barnard_error_fit_filter4)
• error in final linear fit for the Direct Narrowband Filter3(barnard_error_fit_filter3)
• error in final linear fit for the Direct Narrowband Filter6(barnard_error_fit_filter6)
• error in final linear fit for the Direct Narrowband Filter5(barnard_error_fit_filter5)

• Internal Reference Infra Red Temperature(ref_ir_temp)
• Time offset from base_time(time_offset)
• North Latitude(lat)
• lon(lon)
• base time in epoch(base_time)
• time_in_seconds_since_volume_start(time)
• -180.0 - +180.0(alt)
• Sky Infra-Red Temperature(sky_ir_temp)

• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• Downwelling longwave hemispheric net infrared(down_long_netir)
• Instantaneous Downwelling Pyrgeometer Dome Thermistor Temperature, Shaded
  Pyrgeometer(inst_down_long_shaded_dome_temp)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Instantaneous downwelling pyrgeometer case thermistor temperature, shaded
  pyrgeometer(inst_down_long_shaded_case_temp)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Maxima(down_long_hemisp_shaded_max)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Minima(down_long_hemisp_shaded_min)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• lon(lon)
• North Latitude(lat)
• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• base time in epoch(base_time)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer(down_long_hemisp_shaded)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer, standard
  deviation(down_long_hemisp_shaded_std)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Time offset from base_time(time_offset)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_netir)
• -180.0 - +180.0(alt)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Instantaneous upwelling pyrgeometer case thermistor temperature, pyrgeometer(inst_up_long_case_temp)
• Instantaneous Dome Temperature(inst_up_long_dome_temp)
• Battery voltage(vBatt)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)

• Diffusion flow valve position(dilution_flow_valve_position)
• time_in_seconds_since_volume_start(time)
• lon(lon)
• North Latitude(lat)
• Flow setpoint(dilution_flow_setpoint)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Impactor setting in terms of aerodynamic diameter cut off(impactor_setting)
• Aerosol light absorption coefficient, nominal red wavelength at dry or reference
  RH(Ba_R_PSAP3W)
• Aerosol light absorption coefficient, nominal green wavelength at dry or
  reference RH(Ba_G_PSAP3W)
• Mass flow(mass_flow)
• base time in epoch(base_time)
• AOS Ba_R_CLAP3W transmittance, red channel(transmittance_R)
• AOS PSAP3W transmittance, green channel(transmittance_G)
• AOS Ba_B_CLAP3W transmittance, blue channel(transmittance_B)
• Dilution flow rate(dilution_flow)
• Aerosol light absorption coefficient, nominal blue wavelength at dry or
  reference RH(Ba_B_PSAP3W)

• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Doppler spectrum width (second moment of the doppler spectrum)(spectral_width)
• time_in_seconds_since_volume_start(time)
• Mean doppler velocity(mean_doppler_velocity)
• Spectra(spectra)
• Spectral velocity bins(velocity_bins)
• Signal-to-noise ratio(signal_to_noise_ratio)
• lon(lon)
• North Latitude(lat)
• base time in epoch(base_time)
• Locator Mask for Spectra(locator_mask)
• reflectivity(reflectivity)
• Distance to the center of the corresponding range bin(range)

• Condensation nuclei concentration number(N_CPC_1)
• Aerosol light absorption coefficient, green channel, 1 um particle diameter(Ba_G_Dry_1um_PSAP1W_1)
• Relative humidity, inside Humidograph nephelometer(RH_NephVol_Wet)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 1 um
  size cut, reference three wavelength nephelometer(Bbs_B_Dry_1um_Neph3W_1)
• Aerosol backwards-hemispheric light scattering coefficient, red channel, 10um(Bbs_R_Dry_10um_Neph3W_1)
• Aerosol backwards-hemispheric light scattering coefficient, Humidograph
  nephelometer green channel, 10 um particle diameter(Bbs_G_Wet_10um_Neph3W_2)
• Pressure inside humidified nephelometer(P_Neph_Wet)
• Wind Direction, relative to true North(WindDirection)
• Aerosol total light scattering coefficient, reference nephelometer red channel,
  1 um particle diameter(Bs_R_Dry_1um_Neph3W_1)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 10 um
  size cut, wet three wavelength nephelometer(Bbs_B_Wet_10um_Neph3W_2)
• Aerosol total light scattering coefficient, Humidograph nephelometer green
  channel, 10 um particle diameter(Bs_G_Wet_10um_Neph3W_2)
• Relative humidity of humidograph controller(RH_postHG)
• -180.0 - +180.0(alt)
• Relative humidity of humidograph preheater(RH_preHG)
• Absorption Coefficient Red, corrected for flow and sample area, 3 wavelength
  PSAP, 10 um size cut(Ba_R_Dry_10um_PSAP3W_1)
• Time offset from base_time(time_offset)
• Temperature inside of wet nephelometer inlet(T_NephVol_Wet)
• Relative humidity, Humidograph nephelometer inlet(RH_NephInlet_Wet)
• Temperature at reference nephelometer inlet(T_NephInlet_Dry)
• Aerosol total light scattering coefficient, Humidograph nephelometer green
  channel, 1 um particle diameter(Bs_G_Wet_1um_Neph3W_2)
• time_in_seconds_since_volume_start(time)
• Absorption coefficient, blue wavelength, 3 wavelength PSAP, low RH, 10 um size
  cut(Ba_B_Dry_10um_PSAP3W_1)
• Cloud condensation nuclei number density(N_CCN)
• Aerosol total light scattering coefficient, Humidograph nephelometer red
  channel, 10 um particle diameter(Bs_R_Wet_10um_Neph3W_2)
• Aerosol light absorption coefficient, green channel, 10 um particle diameter(Ba_G_Dry_10um_PSAP1W_1)
• base time in epoch(base_time)
• Aerosol backwards-hemispheric light scattering coefficient, reference
  nephelometer red channel, 1 um particle diameter(Bbs_R_Dry_1um_Neph3W_1)
• Aerosol backwards-hemispheric light scattering coefficient, Humidograph
  nephelometer blue channel, 1 um particle diameter(Bbs_B_Wet_1um_Neph3W_2)
• Temperature of humidograph controller(T_postHG)
• Back-scattering coefficient, green wavelength, low RH, 10 um size cut(Bbs_G_Dry_10um_Neph3W_1)
• AOS system status(flags_CMDL)
• Aerosol total light scattering coefficient, reference nephelometer green
  channel, 10 um particle diameter(Bs_G_Dry_10um_Neph3W_1)
• Aerosol total light scattering coefficient, red channel, 10 um particle size(Bs_R_Dry_10um_Neph3W_1)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 10um(Bbs_B_Dry_10um_Neph3W_1)
• Wind speed(WindSpeed)
• Aerosol total light scattering coefficient, blue channel, 10 um size cut, wet
  three wavelength nephelometer(Bs_B_Wet_10um_Neph3W_2)
• Absorption coefficient, blue wavelength, 3 wavelength PSAP, low RH, 1 um size
  cut(Ba_B_Dry_1um_PSAP3W_1)
• Relative humidity inside reference nephelometer inlet(RH_NephVol_Dry)
• Ambient air relative humidity(RH_Ambient)
• Absorption coefficient, green wavelength, 3 wavelength PSAP, low RH, 10 um size
  cut(Ba_G_Dry_10um_PSAP3W_1)
• Aerosol total light scattering coefficient, ref. humidograph nephelometer green
  channel, 1 um particle diameter(Bs_G_Dry_1um_Neph3W_1)
• Pressure inside reference nephelometer(P_Neph_Dry)
• Ambient air temperature(T_Ambient)
• lon(lon)
• Aerosol total light scattering coefficient, blue channel, 10 um size cut,
  reference three wavelength nephelometer(Bs_B_Dry_10um_Neph3W_1)
• North Latitude(lat)
• Absorption Coefficient Red, corrected for flow and sample area, 3 wavelength
  PSAP, 1 um size cut(Ba_R_Dry_1um_PSAP3W_1)
• Temperature at inlet(T_MainInlet)
• Aerosol total light scattering coefficient, Ref. Humidograph nephelometer blue
  channel, 1 um particle diameter(Bs_B_Dry_1um_Neph3W_1)
• Back-scattering coefficient, red wavelength, high RH, 1 um size cut(Bbs_R_Wet_1um_Neph3W_2)
• Aerosol backwards-hemispheric light scattering coefficient, humidograph
  nephelometer red channel, 10 um particle diameter(Bbs_R_Wet_10um_Neph3W_2)
• Relative humidity, reference nephelometer inlet(RH_NephInlet_Dry)
• Temperature at wet nephelometer inlet(T_NephInlet_Wet)
• Temperature inside reference nephelometer(T_NephVol_Dry)
• Pressure of ambient air(P_Ambient)
• Aerosol total light scattering coefficient, Humidograph nephelometer red
  channel, 1 um particle diameter(Bs_R_Wet_1um_Neph3W_2)
• Back-scattering coefficient, green wavelength, high RH, 1 um size cut(Bbs_G_Wet_1um_Neph3W_2)
• Aerosol backwards-hemispheric light scattering coefficient, green channel, 1 um
  size cut, reference three wavelength nephelometer(Bbs_G_Dry_1um_Neph3W_1)
• Aerosol total light scattering coefficient, humidograph nephelometer blue
  channel, 1 um particle diameter(Bs_B_Wet_1um_Neph3W_2)
• Absorption coefficient green, corrected for flow and sample area, 3 wavelength
  PSAP, 1 um size cut(Ba_G_Dry_1um_PSAP3W_1)
• Temperature of humidograph preheater(T_preHG)
• Relative humidity at inlet(RH_MainInlet)

• Number of Individual Spectra/Average Spectrum(nspc)
• Oblique Velocity Spectral Resolution(ovsr)
• Horizontal wind direction(dir)
• Delay Time to 1st Gate(dly)
• Easterly Wind Component(u_wind)
• Array of heights for each sample time(height_p)
• Interpulse period(ipp)
• lon(lon)
• North Latitude(lat)
• Sample Rate(sampr)
• Individual Spectrum Integration Time(sitime)
• V wind component(v_wind)
• Pulse repetition frequency(prf)
• Number of values that passed consensus, beam 2(ncns2)
• Number of values that passed consensus, beam 1(ncns1)
• Number of values that passed consensus, beam 4(ncns4)
• Number of values that passed consensus, beam 3(ncns3)
• Number of values that passed consensus, beam 0(ncns0)
• Number of values required for consensus, beam 4(nrcns4)
• Number of Values Required for Consensus, Beam 3(nrcns3)
• Number of Values Required for Consensus, Beam 2(nrcns2)
• Number of Values Required for Consensus, Beam 1(nrcns1)
• Number of values required for consensus, beam 0(nrcns0)
• Signal to noise ratio, beam 4(snr4)
• Signal to noise ratio, beam 2(snr2)
• Signal to Noise Ratio, Beam 3(snr3)
• Signal to Noise Ratio, Beam 0(snr0)
• Ave snr*10 level, Beam 1(snr1)
• Height of Center of First Range Gate(rgf)
• Height of center of last range gate(rgl)
• Range gate spacing(rgs)
• Number of Valid Heights(nheight)
• Vertical Velocity Spectral Resolution(vvsr)
• Averaging interval(avgint)
• Oblique FFT bandwidth(oband)
• Rx Bandwidth Switch Code(bswitch)
• Horizontal wind speed(spd)
• Number of Coherent Samples/Spectral Point(ncoh)
• base time in epoch(base_time)
• Vertical FFT Bandwidth(vband)
• Pulse length(plen)
• Time offset from base_time(time_offset)
• Power offset(power)
• Time Domain Integration Time(tditime)
• Elevation angle of beam 0(elevation0)
• Elevation angle of beam 1(elevation1)
• Elevation angle of beam 4(elevation4)
• Elevation angle of Beam 2 for WINDS data(elevation2)
• Elevation angle of beam 3(elevation3)
• -180.0 - +180.0(alt)
• Azimuth of beam 4(azimuth4)
• Azimuth of Beam 3 for WINDS data(azimuth3)
• Azimuth of Beam 2(azimuth2)
• Azimuth of Beam 1 for WINDS data(azimuth1)
• Azimuth of Beam 0(azimuth0)
• Beam 4 radial wind speed(vel4)
• Beam 3 radial wind speed(vel3)
• Beam 2 radial wind speed(vel2)
• Beam 1 radial wind speed(vel1)
• Beam 0 radial wind speed(vel0)
• Ave Time per Average Spectra.(spcavetim)
• Height Index(range_gate)
• Number of pulse code bits(pcbits)
• Number of spectra per averaging interval, beam 1(nrec1)
• Number of spectra/ave int, Beam 2(nrec2)
• Number of spectra/ave int, Beam 3(nrec3)
• Number of Spectra/ave int, Beam 4(nrec4)
• Number of pulses/ave int, Beam 0(nrec0)

• Data Logger Temperature(logger_temp)
• Cosine correction applied to direct_horizontal_narrowband_filter2(computed_cosine_correction_filter2)
• Cosine correction applied to direct_horizontal_narrowband_filter3(computed_cosine_correction_filter3)
• Cosine correction applied to direct_horizontal_filter1(computed_cosine_correction_filter1)
• Cosine correction applied to direct_horizontal_filter6(computed_cosine_correction_filter6)
• Cosine correction applied to direct_horizontal_narrowband_filter4(computed_cosine_correction_filter4)
• Cosine correction applied to direct_horizontal_filter5(computed_cosine_correction_filter5)
• angle of incidence during cosine bench measurements(bench_angle)
• cosine correction, south to north, broadband channel(cosine_correction_sn_broadband)
• Azimuth angle(azimuth_angle)
• Cosine solar zenith angle(cosine_solar_zenith_angle)
• Data logger supply voltage(logger_volt)
• cosine correction, west to east, filter2(cosine_correction_we_filter2)
• Cosine correction, west to east, filter1(cosine_correction_we_filter1)
• Cosine correction, west to east, filter4(cosine_correction_we_filter4)
• cosine correction, west to east, filter3(cosine_correction_we_filter3)
• cosine correction, west to east, filter6(cosine_correction_we_filter6)
• Cosine correction, west to east, filter5(cosine_correction_we_filter5)
• North Latitude(lat)
• lon(lon)
• Diffuse Hemispheric Broadband Irradiance, offset corrected(diffuse_hemisp_broadband)
• Alltime narrowband hemispheric irradiance, filter 5(alltime_hemisp_narrowband_filter5)
• Alltime Narrowband Hemispheric Irradiance, Filter 4(alltime_hemisp_narrowband_filter4)
• Alltime Narrowband Hemispheric Irradiance, Filter 6(alltime_hemisp_narrowband_filter6)
• Alltime narrowband hemispheric irradiance, filter 1(alltime_hemisp_narrowband_filter1)
• Alltime Narrowband Hemispheric Irradiance, Filter 3(alltime_hemisp_narrowband_filter3)
• Alltime narrowband hemispheric irradiance, filter 2(alltime_hemisp_narrowband_filter2)
• cosine correction, south to north, filter6(cosine_correction_sn_filter6)
• cosine correction, south to north, filter5(cosine_correction_sn_filter5)
• Cosine correction, south to north, filter4(cosine_correction_sn_filter4)
• Cosine correction, south to north, filter3(cosine_correction_sn_filter3)
• Cosine correction, south to north, filter2(cosine_correction_sn_filter2)
• cosine correction, south to north, filter1(cosine_correction_sn_filter1)
• Narrowband Direct Horizontal Irradiance, Filter 4, cosine corrected(direct_horizontal_narrowband_filter4)
• Direct Horizontal Narrowband Irradiance, Filter 3(direct_horizontal_narrowband_filter3)
• Narrowband Direct Horizontal Irradiance, Filter 2, cosine corrected(direct_horizontal_narrowband_filter2)
• Direct horizontal narrowband irradiance, filter 1(direct_horizontal_narrowband_filter1)
• Narrowband Direct Horizontal Irradiance, Filter 6, cosine corrected(direct_horizontal_narrowband_filter6)
• Narrowband Direct Horizontal Irradiance, Filter 5, cosine corrected(direct_horizontal_narrowband_filter5)
• Air mass(airmass)
• base time in epoch(base_time)
• Nominal calibration factor, applied to broadband data(nominal_calibration_factor_broadband)
• Cosine correction of filter3 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter3)
• Cosine correction of filter4 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter4)
• Cosine correction of filter5 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter5)
• Cosine correction of filter6 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter6)
• Cosine correction of filter1 diffuse, assuming Rayleigh sky at 45 degree zenith
  angle(diffuse_correction_filter1)
• Cosine correction of filter2 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter2)
• Normalized filter function data, filter 2, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter2)
• Normalized filter function data, filter 1, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter1)
• Normalized filter function data, filter 6, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter6)
• Normalized filter function data, filter 5, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter5)
• Normalized filter function data, filter 4, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter4)
• Normalized filter function data, filter 3, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter3)
• Diffuse Narrowband Hemispheric Irradiance, Filter 2, offset corrected(diffuse_hemisp_narrowband_filter2)
• Diffuse Narrowband Hemispheric Irradiance, Filter 3(diffuse_hemisp_narrowband_filter3)
• Diffuse Narrowband Hemispheric Irradiance, Filter 1, offset corrected(diffuse_hemisp_narrowband_filter1)
• Diffuse Narrowband Hemispheric Irradiance, Filter 6, offset corrected(diffuse_hemisp_narrowband_filter6)
• Diffuse Narrowband Hemispheric Irradiance, Filter 4(diffuse_hemisp_narrowband_filter4)
• Narrowband diffuse hemispheric irradiance, filter 5, offset and cosine corrected(diffuse_hemisp_narrowband_filter5)
• Direct Normal Broadband Irradiance, cosine corrected, broadband scale applied(direct_normal_broadband)
• Offset subtracted from hemispheric and diffuse broadband data(offset_broadband)
• Normalized filter function data, filter 6, wavelength value obtained during
  bench calibrations(wavelength_filter6)
• Normalized filter function data, filter 5, wavelength value obtained during
  bench calibrations(wavelength_filter5)
• Normalized filter function data, filter 4, wavelength value obtained during
  bench calibrations(wavelength_filter4)
• Normalized filter function data, filter 3, wavelength value obtained during
  bench calibrations(wavelength_filter3)
• Normalized filter function data, filter 2, wavelength value obtained during
  bench calibrations(wavelength_filter2)
• Normalized filter function data, filter 1, wavelength value obtained during
  bench calibrations(wavelength_filter1)
• time_in_seconds_since_volume_start(time)
• Alltime hemispheric broadband irradiance(alltime_hemisp_broadband)
• -180.0 - +180.0(alt)
• Nominal calibration factor, applied to filter1 data(nominal_calibration_factor_filter1)
• Nominal calibration factor, applied to filter2 data(nominal_calibration_factor_filter2)
• Nominal calibration factor, applied to filter3 data(nominal_calibration_factor_filter3)
• Nominal calibration factor, applied to filter4 data(nominal_calibration_factor_filter4)
• Nominal calibration factor, applied to filter5 data(nominal_calibration_factor_filter5)
• Nominal calibration factor, applied to filter6 data(nominal_calibration_factor_filter6)
• Ratio of direct_normal_broadband to diffuse_hemisp_broadband(direct_diffuse_ratio_broadband)
• Detector temperature(head_temp)
• Cosine correction of broadband diffuse, assuming Rayleigh sky at 45 degree
  zenith angle(diffuse_correction_broadband)
• Offset subtracted from hemispheric and diffuse filter6 data(offset_filter6)
• Offset subtracted from upwelling hemispheric filter5 data(offset_filter5)
• Offset subtracted from direct normal filter4 data(offset_filter4)
• Offset subtracted from direct normal filter3 data(offset_filter3)
• Offset subtracted from upwelling hemispheric filter2 data(offset_filter2)
• Offset subtracted from hemispheric filter1 data(offset_filter1)
• Second detector temperature(head_temp2)
• Narrowband Direct Normal Irradiance, Filter 5(direct_normal_narrowband_filter5)
• Direct normal narrowband irradiance, filter 4, offset corrected(direct_normal_narrowband_filter4)
• Direct normal narrowband irradiance, filter 6, offset corrected(direct_normal_narrowband_filter6)
• Narrowband Direct Normal Irradiance, Filter 1(direct_normal_narrowband_filter1)
• Narrowband Direct Normal Irradiance, Filter 3, cosine corrected(direct_normal_narrowband_filter3)
• Direct normal narrowband irradiance, filter 2, offset corrected(direct_normal_narrowband_filter2)
• Ratio of direct_normal_filter2 to diffuse_hemisp_filter2(direct_diffuse_ratio_filter2)
• Ratio of direct_normal_narrowband_filter3 to diffuse_hemisp_narrowband_filter3(direct_diffuse_ratio_filter3)
• Ratio of direct_normal_filter4 to diffuse_hemisp_filter4(direct_diffuse_ratio_filter4)
• Ratio of direct_normal_filter5 to diffuse_hemisp_filter5(direct_diffuse_ratio_filter5)
• Ratio of direct_normal_narrowband_filter6 to diffuse_hemisp_narrowband_filter6(direct_diffuse_ratio_filter6)
• Ratio of direct_normal_filter1 to diffuse_hemisp_filter1(direct_diffuse_ratio_filter1)
• Elevation angle(elevation_angle)
• Time offset from base_time(time_offset)
• Hemispheric broadband irradiance(hemisp_broadband)
• Direct Horizontal Broadband Irradiance(direct_horizontal_broadband)
• Narrowband Hemispheric Irradiance, Filter 5, offset corrected(hemisp_narrowband_filter5)
• Narrowband hemispheric irradiance, filter 6, nominal wavelength is 935 nm(hemisp_narrowband_filter6)
• Narrowband hemispheric irradiance, filter 3, offset and cosine corrected(hemisp_narrowband_filter3)
• Narrowband hemispheric irradiance, filter 4, offset and cosine corrected(hemisp_narrowband_filter4)
• Narrowband Hemispheric Irradiance, Filter 1, offset corrected(hemisp_narrowband_filter1)
• Narrowband Hemispheric Irradiance, Filter 2(hemisp_narrowband_filter2)
• Cosine correction applied to direct_horizontal_broadband(computed_cosine_correction_broadband)
• Solar zenith angle(solar_zenith_angle)
• cosine correction, west to east, broadband channel(cosine_correction_we_broadband)

• Absorption Coefficient Red, corrected for flow and sample area, 3 wavelength
  PSAP, 1 um size cut(Ba_R_Dry_1um_PSAP3W_1)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 10um(Bbs_B_Dry_10um_Neph3W_1)
• Back-scattering coefficient, green wavelength, high RH, 1 um size cut(Bbs_G_Wet_1um_Neph3W_2)
• Aerosol total light scattering coefficient, Ref. Humidograph nephelometer blue
  channel, 1 um particle diameter(Bs_B_Dry_1um_Neph3W_1)
• Wind speed(WindSpeed)
• Pressure of ambient air(P_Ambient)
• Aerosol total light scattering coefficient, Humidograph nephelometer green
  channel, 1 um particle diameter(Bs_G_Wet_1um_Neph3W_2)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 1 um
  size cut, reference three wavelength nephelometer(Bbs_B_Dry_1um_Neph3W_1)
• AOS system status(flags_CMDL)
• time_in_seconds_since_volume_start(time)
• Temperature inside of wet nephelometer inlet(T_NephVol_Wet)
• Ambient air temperature(T_Ambient)
• Aerosol total light scattering coefficient, red channel, 10 um particle size(Bs_R_Dry_10um_Neph3W_1)
• Aerosol total light scattering coefficient, blue channel, 10 um size cut,
  reference three wavelength nephelometer(Bs_B_Dry_10um_Neph3W_1)
• Absorption coefficient, blue wavelength, 3 wavelength PSAP, low RH, 1 um size
  cut(Ba_B_Dry_1um_PSAP3W_1)
• Aerosol light absorption coefficient, green channel, 10 um particle diameter(Ba_G_Dry_10um_PSAP1W_1)
• Condensation nuclei concentration number(N_CPC_1)
• Relative humidity at inlet(RH_MainInlet)
• Aerosol total light scattering coefficient, Humidograph nephelometer green
  channel, 10 um particle diameter(Bs_G_Wet_10um_Neph3W_2)
• Absorption coefficient, blue wavelength, 3 wavelength PSAP, low RH, 10 um size
  cut(Ba_B_Dry_10um_PSAP3W_1)
• Temperature at inlet(T_MainInlet)
• Aerosol backwards-hemispheric light scattering coefficient, Humidograph
  nephelometer blue channel, 1 um particle diameter(Bbs_B_Wet_1um_Neph3W_2)
• Aerosol total light scattering coefficient, ref. humidograph nephelometer green
  channel, 1 um particle diameter(Bs_G_Dry_1um_Neph3W_1)
• Pressure inside humidified nephelometer(P_Neph_Wet)
• Relative humidity, inside Humidograph nephelometer(RH_NephVol_Wet)
• Aerosol total light scattering coefficient, Humidograph nephelometer red
  channel, 10 um particle diameter(Bs_R_Wet_10um_Neph3W_2)
• Aerosol total light scattering coefficient, blue channel, 10 um size cut, wet
  three wavelength nephelometer(Bs_B_Wet_10um_Neph3W_2)
• Relative humidity, reference nephelometer inlet(RH_NephInlet_Dry)
• Aerosol backwards-hemispheric light scattering coefficient, reference
  nephelometer red channel, 1 um particle diameter(Bbs_R_Dry_1um_Neph3W_1)
• Relative humidity of humidograph preheater(RH_preHG)
• Aerosol backwards-hemispheric light scattering coefficient, red channel, 10um(Bbs_R_Dry_10um_Neph3W_1)
• Aerosol backwards-hemispheric light scattering coefficient, Humidograph
  nephelometer green channel, 10 um particle diameter(Bbs_G_Wet_10um_Neph3W_2)
• Absorption coefficient green, corrected for flow and sample area, 3 wavelength
  PSAP, 1 um size cut(Ba_G_Dry_1um_PSAP3W_1)
• Aerosol total light scattering coefficient, reference nephelometer green
  channel, 10 um particle diameter(Bs_G_Dry_10um_Neph3W_1)
• base time in epoch(base_time)
• Temperature at wet nephelometer inlet(T_NephInlet_Wet)
• Relative humidity of humidograph controller(RH_postHG)
• Temperature inside reference nephelometer(T_NephVol_Dry)
• Absorption coefficient, green wavelength, 3 wavelength PSAP, low RH, 10 um size
  cut(Ba_G_Dry_10um_PSAP3W_1)
• North Latitude(lat)
• lon(lon)
• Aerosol total light scattering coefficient, Humidograph nephelometer red
  channel, 1 um particle diameter(Bs_R_Wet_1um_Neph3W_2)
• Absorption Coefficient Red, corrected for flow and sample area, 3 wavelength
  PSAP, 10 um size cut(Ba_R_Dry_10um_PSAP3W_1)
• Back-scattering coefficient, red wavelength, high RH, 1 um size cut(Bbs_R_Wet_1um_Neph3W_2)
• Aerosol backwards-hemispheric light scattering coefficient, humidograph
  nephelometer red channel, 10 um particle diameter(Bbs_R_Wet_10um_Neph3W_2)
• Pressure inside reference nephelometer(P_Neph_Dry)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 10 um
  size cut, wet three wavelength nephelometer(Bbs_B_Wet_10um_Neph3W_2)
• Ambient air relative humidity(RH_Ambient)
• Aerosol backwards-hemispheric light scattering coefficient, green channel, 1 um
  size cut, reference three wavelength nephelometer(Bbs_G_Dry_1um_Neph3W_1)
• Cloud condensation nuclei number density(N_CCN)
• Aerosol total light scattering coefficient, reference nephelometer red channel,
  1 um particle diameter(Bs_R_Dry_1um_Neph3W_1)
• Temperature of humidograph controller(T_postHG)
• Time offset from base_time(time_offset)
• Wind Direction, relative to true North(WindDirection)
• Aerosol total light scattering coefficient, humidograph nephelometer blue
  channel, 1 um particle diameter(Bs_B_Wet_1um_Neph3W_2)
• Temperature of humidograph preheater(T_preHG)
• Temperature at reference nephelometer inlet(T_NephInlet_Dry)
• Relative humidity, Humidograph nephelometer inlet(RH_NephInlet_Wet)
• -180.0 - +180.0(alt)
• Relative humidity inside reference nephelometer inlet(RH_NephVol_Dry)
• Aerosol light absorption coefficient, green channel, 1 um particle diameter(Ba_G_Dry_1um_PSAP1W_1)
• Back-scattering coefficient, green wavelength, low RH, 10 um size cut(Bbs_G_Dry_10um_Neph3W_1)

• time_in_seconds_since_volume_start(time)
• Range gate spacing(rgs)
• Height of Center of First Range Gate(rgf)
• Height of center of last range gate(rgl)
• Sample Rate(sampr)
• Pulse repetition frequency(prf)
• Vertical FFT Bandwidth(vband)
• Time offset from base_time(time_offset)
• Interpulse period(ipp)
• North Latitude(lat)
• lon(lon)
• Individual Spectrum Integration Time(sitime)
• Number of Individual Spectra/Average Spectrum(nspc)
• -180.0 - +180.0(alt)
• Delay Time to 1st Gate(dly)
• Array of heights for each sample time(height_t)
• Particle radius at logarithmic center of bin(bins)
• Spectral Data(spc_amp)
• Rx Bandwidth Switch Code(bswitch)
• Ave Time per Average Spectra. Also known as dwell.(spcavetime)
• Number of Valid Heights(nheight)
• Height Index(range_gate)
• Time Domain Integration Time(tditime)
• Number of pulse code bits(pcbits)
• Number of Coherent Samples/Spectral Point(ncoh)
• Radial Velocity Spectral Resolution(vsr)
• Pulse length(plen)
• base time in epoch(base_time)

• DATA_TYPE(DATA_TYPE)
• Tail Level(tail_level)
• base time in epoch(base_time)
• time_in_seconds_since_volume_start(time)
• Sun error(sun_error)
• -180.0 - +180.0(alt)
• Alm Type(alm_type)
• Solar ZenithAngle(zenith)
• Tau 440 (measured)(tau440)
• Top of atmosphere spectrum wavelengths(wavelength)
• Last processing date(last_processing_date)
• Time of observation(timeObs)
• Scattering angle(angle)
• North Latitude(lat)
• lon(lon)
• Alpha 440-870(alpha440_870)
• Sky error(sky_error)
• Number of angles(num_of_angles)
• Particle Size Distribution Tail Screening 1(tail1)
• Particle Size Distribution Tail Screening 2(tail2)
• Time offset from base_time(time_offset)
• Size index(siz_index)
• Phase Functions, Total Mode(pfn_t)

• Scattering coefficient, 405 nm wavelength(scattering_coefficient_405nm)
• Absorption coefficient, 405 nm wavelength(absorption_coefficient_405nm)
• Laser Power, 532 nm wavelength(laser_power_532nm)
• Average background subtracted from absorption coefficient, 405nm(avg_background_subtracted_absorp_coef_405nm)
• Laser Power, 405 nm wavelength(laser_power_405nm)
• Uncertainty estimate for absorption coefficient, 532 nm wavelength(uncertainty_estimate_532nm)
• Running average indicator, 0=no, 1=yes(running_average)
• Resonance frequency(resonance_frequency)
• North Latitude(lat)
• Laser Power, 781 nm wavelength(laser_power_781nm)
• Temperature used for calculation(temperature)
• time_in_seconds_since_volume_start(time)
• Uncertainty estimate for absorption coefficient, 781nm wavelength(uncertainty_estimate_781nm)
• lon(lon)
• Average background subtracted from scattering coefficient, 532nm(avg_background_subtracted_scat_coef_532nm)
• -180.0 - +180.0(alt)
• Indicates occurrence of background zero(sample_measurement_flag)
• Average background subtracted from scattering coefficient, 781nm(avg_background_subtracted_scat_coef_781nm)
• base time in epoch(base_time)
• Acoustic pressure at resonance(acoustic_pressure)
• Time offset from base_time(time_offset)
• Relative Humidity (hybrid-b grid)(rh)
• Absorption coefficient, 781nm wavelength(absorption_coefficient_781nm)
• Dew point temperature(dew_point_temperature)
• Scattering coefficient, 532 nm wavelength(scattering_coefficient_532nm)
• Average background subtracted from absorption coefficient, 781nm(avg_background_subtracted_absorp_coef_781nm)
• Absorption, 532 nm wavelength(absorption_coefficient_532nm)
• Laser temperature(temperature_laser)
• Derived pressure(pressure)
• Uncertainty estimate for absorption coefficient, 405 nm wavelength(uncertainty_estimate_405nm)
• Scattering coefficient, 781 nm wavelength(scattering_coefficient_781nm)
• Average background subtracted from absorption coefficient, 532nm(avg_background_subtracted_absorp_coef_532nm)
• Average background subtracted from scattering coefficient, 405nm(avg_background_subtracted_scat_coef_405nm)

• Quality check results on field: TBRG precipitation total, corrected(qc_tbrg_precip_total_corr)
• TBRG precipitation total, corrected(tbrg_precip_total_corr)
• Time offset from base_time(time_offset)
• TBRG precipitation total(tbrg_precip_total)
• Relative humidity observed by the Raman lidar(rh_mean)
• Atmospheric pressure(atmos_pressure)
• Quality check results on field: Atmospheric pressure(qc_atmos_pressure)
• Results of quality checks on sample time(qc_time)
• Wind speed vector mean(wspd_vec_mean)
• time_in_seconds_since_volume_start(time)
• Temperature mean(temp_mean)
• Quality check results on field: Vapor pressure mean, calculated(qc_vapor_pressure_mean)
• Vapor pressure mean, calculated(vapor_pressure_mean)
• base time in epoch(base_time)
• Wind direction vector mean standard deviation(wdir_vec_std)
• lon(lon)
• North Latitude(lat)
• Quality check results on field: Wind speed arithmetic mean(qc_wspd_arith_mean)
• Wind direction vector mean(wdir_vec_mean)
• Quality check results on field: Wind speed vector mean(qc_wspd_vec_mean)
• Quality check results on field: Relative humidity mean(qc_rh_mean)
• Quality check results on field: Wind direction vector mean(qc_wdir_vec_mean)
• Quality check results on field: Wind direction vector mean standard deviation(qc_wdir_vec_std)
• -180.0 - +180.0(alt)
• Quality check results on field: TBRG precipitation total(qc_tbrg_precip_total)
• Wind speed arithmetic mean(wspd_arith_mean)
• Quality check results on field: Temperature mean(qc_temp_mean)

• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• Instantaneous Case Temperature(inst_case_temp)
• Instantaneous Dome Temperature(inst_dome_temp)
• Instantaneous Surface Infra-red Temperature(inst_sfc_ir_temp)
• base time in epoch(base_time)
• Surface Infra-Red Temperature, Maxima(sfc_ir_temp_max)
• Surface Infra-Red Temperature, Minima(sfc_ir_temp_min)
• Surface Infra-Red Temperature, Standard Deviation(sfc_ir_temp_std)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• North Latitude(lat)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• lon(lon)
• Surface infra-red temperature(sfc_ir_temp)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(inst_up_long_hemisp)
• -180.0 - +180.0(alt)
• Data Logger Temperature(logger_temp)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Internal voltage(internal_voltage)
• Instantaneous upwelling pyrgeometer case thermistor temperature, pyrgeometer(inst_up_long_case_temp)
• Time offset from base_time(time_offset)
• Instantaneous Dome Temperature(inst_up_long_dome_temp)

• Number of data points used in computation(Bbs_G_Dry_1um_PSAP1W_1_N)
• Number of data points used in computation(Bs_R_Dry_1um_PSAP1W_1_N)
• -180.0 - +180.0(alt)
• Aerosol total light scattering coefficient, Ref. Humidograph nephelometer blue
  channel, 1 um particle diameter(Bs_B_Dry_1um_Neph3W_1)
• Aerosol total light scattering coefficient, ref. humidograph nephelometer green
  channel, 1 um particle diameter(Bs_G_Dry_1um_Neph3W_1)
• Standard deviation of CN_control data this period(N_OPC_1_std)
• Number of data points used in computation(Bbs_B_Dry_10um_PSAP1W_1_N)
• Aerosol backwards-hemispheric light scattering coefficient, red channel, 10um(Bbs_R_Dry_10um_Neph3W_1)
• Number of data points used in computation(Bbs_G_Dry_10um_PSAP1W_1_N)
• Condensation nuclei concentration number(N_CPC_1)
• Number of data points used in computation(RH_NephVol_Dry_N)
• base time in epoch(base_time)
• lon(lon)
• Standard deviation of Bbs_G_1um data this period(Bbs_G_1um_PSAP1W_1_std)
• North Latitude(lat)
• Standard deviation of Bs_B data this period(Bs_B_Dry_10um_PSAP1W_1_std)
• Standard deviation of Bs_B_1um data this period(Bs_B_1um_PSAP1W_1_std)
• Number of data points used in computation(Bs_R_Dry_10um_PSAP1W_1_N)
• Number of data points used in computation(Bs_G_Dry_10um_PSAP1W_1_N)
• Standard deviation of Neph_RH data this period(RH_NephVol_Dry_std)
• Aerosol total light scattering coefficient, blue channel, 10 um size cut,
  reference three wavelength nephelometer(Bs_B_Dry_10um_Neph3W_1)
• Standard deviation of Bs_R_1um data this period(Bs_R_1um_PSAP1W_1_std)
• Aerosol total light scattering coefficient, reference nephelometer green
  channel, 10 um particle diameter(Bs_G_Dry_10um_Neph3W_1)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 1 um
  size cut, reference three wavelength nephelometer(Bbs_B_Dry_1um_Neph3W_1)
• Standard deviation of Bbs_G data this period(Bbs_G_Dry_10um_PSAP1W_1_std)
• Aerosol total light scattering coefficient, red channel, 10 um particle size(Bs_R_Dry_10um_Neph3W_1)
• Number of data points used in computation(N_OPC_1_N)
• Number of data points used in computation(Ba_G_Dry_10um_PSAP1W_1_N)
• Aerosol light absorption coefficient, green channel, 10 um particle diameter(Ba_G_Dry_10um_PSAP1W_1)
• Aerosol light absorption coefficient, green channel, 1 um particle diameter(Ba_G_Dry_1um_PSAP1W_1)
• Number of data points used in computation(Bs_B_Dry_10um_PSAP1W_1_N)
• Time offset from base_time(time_offset)
• Aerosol backwards-hemispheric light scattering coefficient, reference
  nephelometer red channel, 1 um particle diameter(Bbs_R_Dry_1um_Neph3W_1)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 10um(Bbs_B_Dry_10um_Neph3W_1)
• Standard deviation of Bbs_B data this period(Bbs_B_Dry_10um_PSAP1W_1_std)
• Back-scattering coefficient, green wavelength, low RH, 10 um size cut(Bbs_G_Dry_10um_Neph3W_1)
• Standard deviation of Bs_G data this period(Bs_G_Dry_10um_PSAP1W_1_std)
• Number of data points used in computation(Bs_G_Dry_1um_PSAP1W_1_N)
• Number of data points used in computation(Bbs_R_Dry_1um_PSAP1W_1_N)
• AOS system status(flags_CMDL)
• Standard deviation of Bbs_R data this period(Bbs_R_Dry_10um_PSAP1W_1_std)
• time_in_seconds_since_volume_start(time)
• Standard deviation of Bs_R data this period(Bs_R_Dry_10um_PSAP1W_1_std)
• Number of data points used in computation(Bbs_R_Dry_10um_PSAP1W_1_N)
• Standard deviation of Ba_G data this period(Ba_G_Dry_10um_PSAP1W_1_std)
• Number of data points used in computation(Bs_B_Dry_1um_PSAP1W_1_N)
• Number of data points used in Ba_G_Dry_1um_PSAP1W_1 computation(Ba_G_Dry_1um_PSAP1W_1_N)
• Standard deviation of Bs_G_1um data this period(Bs_G_1um_PSAP1W_1_std)
• Standard deviation of Bbs_R_1um data this period(Bbs_R_1um_PSAP1W_1_std)
• Standard deviation of N_CPC_1 data this period(N_CPC_1_std)
• Standard deviation of Bbs_B_1um data this period(Bbs_B_1um_PSAP1W_1_std)
• Number of data points used in computation(Bbs_B_Dry_1um_PSAP1W_1_N)
• Number of data points used in computation(N_CPC_1_N)
• Aerosol backwards-hemispheric light scattering coefficient, green channel, 1 um
  size cut, reference three wavelength nephelometer(Bbs_G_Dry_1um_Neph3W_1)
• Aerosol total light scattering coefficient, reference nephelometer red channel,
  1 um particle diameter(Bs_R_Dry_1um_Neph3W_1)
• Standard deviation of Ba_G_Dry_1um_PSAP1W_1 data this period(Ba_G_Dry_1um_PSAP1W_1_std)
• Relative humidity inside reference nephelometer inlet(RH_NephVol_Dry)
• Cloud condensation nuclei number density(N_CCN)

• Surface Infra-Red Temperature, Standard Deviation(sfc_ir_temp_std)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Internal voltage(internal_voltage)
• lon(lon)
• North Latitude(lat)
• Instantaneous Case Temperature(inst_case_temp)
• base time in epoch(base_time)
• Surface Infra-Red Temperature, Maxima(sfc_ir_temp_max)
• Surface Infra-Red Temperature, Minima(sfc_ir_temp_min)
• Data Logger Temperature(logger_temp)
• Instantaneous Dome Temperature(inst_dome_temp)
• -180.0 - +180.0(alt)
• Surface infra-red temperature(sfc_ir_temp)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• Time offset from base_time(time_offset)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• Instantaneous Surface Infra-red Temperature(inst_sfc_ir_temp)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(inst_up_long_hemisp)

• Back-scattering coefficient, green wavelength, low RH, 10 um size cut(Bbs_G_Dry_10um_Neph3W_1)
• Aerosol total light scattering coefficient, red channel, 10 um particle size(Bs_R_Dry_10um_Neph3W_1)
• Standard deviation of Bbs_G data this period(Bbs_G_Dry_10um_PSAP1W_1_std)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 1 um
  size cut, reference three wavelength nephelometer(Bbs_B_Dry_1um_Neph3W_1)
• Standard deviation of Bbs_G_1um data this period(Bbs_G_1um_PSAP1W_1_std)
• Aerosol backwards-hemispheric light scattering coefficient, green channel, 1 um
  size cut, reference three wavelength nephelometer(Bbs_G_Dry_1um_Neph3W_1)
• -180.0 - +180.0(alt)
• Aerosol light absorption coefficient, green channel, 1 um particle diameter(Ba_G_Dry_1um_PSAP1W_1)
• Number of data points used in computation(Bbs_G_Dry_10um_PSAP1W_1_N)
• Standard deviation of CN_control data this period(N_OPC_1_std)
• Aerosol total light scattering coefficient, reference nephelometer red channel,
  1 um particle diameter(Bs_R_Dry_1um_Neph3W_1)
• Number of data points used in computation(Bbs_B_Dry_10um_PSAP1W_1_N)
• Number of data points used in Ba_G_Dry_1um_PSAP1W_1 computation(Ba_G_Dry_1um_PSAP1W_1_N)
• Standard deviation of Bs_R_1um data this period(Bs_R_1um_PSAP1W_1_std)
• Standard deviation of Bbs_B data this period(Bbs_B_Dry_10um_PSAP1W_1_std)
• Number of data points used in computation(Bs_R_Dry_10um_PSAP1W_1_N)
• Standard deviation of Bs_B_1um data this period(Bs_B_1um_PSAP1W_1_std)
• Aerosol total light scattering coefficient, ref. humidograph nephelometer green
  channel, 1 um particle diameter(Bs_G_Dry_1um_Neph3W_1)
• AOS system status(flags_CMDL)
• Aerosol light absorption coefficient, green channel, 10 um particle diameter(Ba_G_Dry_10um_PSAP1W_1)
• Aerosol backwards-hemispheric light scattering coefficient, reference
  nephelometer red channel, 1 um particle diameter(Bbs_R_Dry_1um_Neph3W_1)
• Number of data points used in computation(Bbs_R_Dry_10um_PSAP1W_1_N)
• Number of data points used in computation(Bbs_R_Dry_1um_PSAP1W_1_N)
• Standard deviation of Ba_G_Dry_1um_PSAP1W_1 data this period(Ba_G_Dry_1um_PSAP1W_1_std)
• Number of data points used in computation(N_CPC_1_N)
• Aerosol total light scattering coefficient, reference nephelometer green
  channel, 10 um particle diameter(Bs_G_Dry_10um_Neph3W_1)
• Time offset from base_time(time_offset)
• Number of data points used in computation(Bs_B_Dry_1um_PSAP1W_1_N)
• time_in_seconds_since_volume_start(time)
• Relative humidity inside reference nephelometer inlet(RH_NephVol_Dry)
• Standard deviation of Neph_RH data this period(RH_NephVol_Dry_std)
• Aerosol total light scattering coefficient, Ref. Humidograph nephelometer blue
  channel, 1 um particle diameter(Bs_B_Dry_1um_Neph3W_1)
• Number of data points used in computation(RH_NephVol_Dry_N)
• Standard deviation of Bs_B data this period(Bs_B_Dry_10um_PSAP1W_1_std)
• Standard deviation of Bs_G_1um data this period(Bs_G_1um_PSAP1W_1_std)
• Aerosol total light scattering coefficient, blue channel, 10 um size cut,
  reference three wavelength nephelometer(Bs_B_Dry_10um_Neph3W_1)
• Standard deviation of N_CPC_1 data this period(N_CPC_1_std)
• North Latitude(lat)
• base time in epoch(base_time)
• Cloud condensation nuclei number density(N_CCN)
• lon(lon)
• Number of data points used in computation(Bs_R_Dry_1um_PSAP1W_1_N)
• Standard deviation of Bs_G data this period(Bs_G_Dry_10um_PSAP1W_1_std)
• Standard deviation of Bs_R data this period(Bs_R_Dry_10um_PSAP1W_1_std)
• Number of data points used in computation(Bbs_B_Dry_1um_PSAP1W_1_N)
• Standard deviation of Ba_G data this period(Ba_G_Dry_10um_PSAP1W_1_std)
• Condensation nuclei concentration number(N_CPC_1)
• Number of data points used in computation(Bs_G_Dry_10um_PSAP1W_1_N)
• Number of data points used in computation(N_OPC_1_N)
• Standard deviation of Bbs_R data this period(Bbs_R_Dry_10um_PSAP1W_1_std)
• Number of data points used in computation(Ba_G_Dry_10um_PSAP1W_1_N)
• Standard deviation of Bbs_B_1um data this period(Bbs_B_1um_PSAP1W_1_std)
• Number of data points used in computation(Bs_G_Dry_1um_PSAP1W_1_N)
• Number of data points used in computation(Bbs_G_Dry_1um_PSAP1W_1_N)
• Aerosol backwards-hemispheric light scattering coefficient, red channel, 10um(Bbs_R_Dry_10um_Neph3W_1)
• Standard deviation of Bbs_R_1um data this period(Bbs_R_1um_PSAP1W_1_std)
• Number of data points used in computation(Bs_B_Dry_10um_PSAP1W_1_N)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 10um(Bbs_B_Dry_10um_Neph3W_1)

• wavenumber average of standard deviation of spectral radiance between 985 cm-1
  and 990 cm-1(wave_num_avg_stan_dev_rad_985)
• wavenumber average of spectral radiance between 700 cm-1 and 705 cm-1(wave_num_avg_rad_700)
• wavenumber average of spectral radiance between 675 cm-1 and 680 cm-1(wave_num_avg_rad_675)
• wavenumber average of spectral radiance between 2510 cm-1 and 2515 cm-1
  converted to brightness temperature at mean wavenumber 2512.469 cm-1(wave_num_avg_BT_2510)
• -180.0 - +180.0(alt)
• wavenumber average of spectral radiance between 2295 cm-1 and 2300 cm-1(wave_num_avg_rad_2295)
• wavenumber average of standard deviation of spectral radiance between 675 cm-1
  and 680 cm-1(wave_num_avg_stan_dev_rad_675)
• wavenumber average of standard deviation of spectral radiance between 700 cm-1
  and 705 cm-1(wave_num_avg_stan_dev_rad_700)
• wavenumber average of spectral radiance between 985 cm-1 and 990 cm-1(wave_num_avg_rad_985)
• wavenumber average of spectral radiance between 2510 cm-1 and 2515 cm-1(wave_num_avg_rad_2510)
• Relative Humidity(humidity_relative)
• wavenumber average of spectral radiance between 2282 cm-1 and 2287 cm-1(wave_num_avg_rad_2282)
• wavenumber average of standard deviation of spectral radiance between 2282 cm-1
  and 2287 cm-1(wave_num_avg_stan_dev_rad_2282)
• wavenumber average of standard deviation of spectral radiance between 2295 cm-1
  and 2300 cm-1(wave_num_avg_stan_dev_rad_2295)
• wavenumber average of standard deviation of spectral radiance between 2510 cm-1
  and 2515 cm-1(wave_num_avg_stan_dev_rad_2510)
• wavenumber average of spectral radiance between 2282 cm-1 and 2287 cm-1
  converted to brightness temperature at mean wavenumber 2282.003 cm-1(wave_num_avg_BT_2282)
• wavenumber average of spectral radiance between 2295 cm-1 and 2300 cm-1
  converted to brightness temperature at mean wavenumber 2295.021 cm-1(wave_num_avg_BT_2295)
• Thermistor input channel number 9 (counting from 0) equivalent temperature(thermistor9)
• Electronics Air(thermistor8)
• ABB #1(thermistor5)
• Thermistor input channel number 4 (counting from 0) equivalent temperature(thermistor4)
• Thermistor input channel number 7 (counting from 0) equivalent temperature(thermistor7)
• Thermistor input channel number 6 (counting from 0) equivalent temperature(thermistor6)
• Thermistor input channel number 1 (counting from 0) equivalent temperature(thermistor1)
• Ambient Air near BBs(thermistor0)
• Thermistor input channel number 3 (counting from 0) equivalent temperature(thermistor3)
• Reflected Temperature(thermistor2)
• Time offset from base_time(time_offset)
• wavenumber average of spectral radiance between 985 cm-1 and 990 cm-1 converted
  to brightness temperature at mean wavenumber 987.438 cm-1(wave_num_avg_BT_985)
• wavenumber average of spectral radiance between 700 cm-1 and 705 cm-1 converted
  to brightness temperature at mean wavenumber 702.488 cm-1(wave_num_avg_BT_700)
• wavenumber average of spectral radiance between 675 cm-1 and 680 cm-1 converted
  to brightness temperature at mean wavenumber 677.417 cm-1(wave_num_avg_BT_675)
• base time in epoch(base_time)
• Initial data quality flag(dataType)
• Derived pressure(pressure)
• Hatch Closed Indicator(thermistor10)
• Thermistor input channel number 11 (counting from 0) equivalent temperature(thermistor11)
• lon(lon)
• North Latitude(lat)

• Overall data quality flag(dq_flag_overall)
• Flag indicating whether the hatch is open (0) or closed (1)(hatch_flag)
• Data quality flag for channel 1- 0 indicates ok, 1 indicates suspect, 2
  indicates noisy (do not use)(dq_flag_ch1)
• Data quality flag for channel 2- 0 indicates ok, 1 indicates suspect, 2
  indicates noisy (do not use)(dq_flag_ch2)
• Derived pressure(pressure)
• Time offset from base_time(time_offset)
• wavenumber average of spectral radiance between 985 cm-1 and 990 cm-1 converted
  to brightness temperature at mean wavenumber 987.438 cm-1(wave_num_avg_BT_985)
• wavenumber average of spectral radiance between 675 cm-1 and 680 cm-1 converted
  to brightness temperature at mean wavenumber 677.417 cm-1(wave_num_avg_BT_675)
• wavenumber average of spectral radiance between 700 cm-1 and 705 cm-1 converted
  to brightness temperature at mean wavenumber 702.488 cm-1(wave_num_avg_BT_700)
• Thermistor input channel number 11 (counting from 0) equivalent temperature(thermistor11)
• Hatch Closed Indicator(thermistor10)
• Ambient Air near BBs(thermistor0)
• Thermistor input channel number 1 (counting from 0) equivalent temperature(thermistor1)
• Reflected Temperature(thermistor2)
• Thermistor input channel number 3 (counting from 0) equivalent temperature(thermistor3)
• Thermistor input channel number 4 (counting from 0) equivalent temperature(thermistor4)
• ABB #1(thermistor5)
• Thermistor input channel number 6 (counting from 0) equivalent temperature(thermistor6)
• Thermistor input channel number 7 (counting from 0) equivalent temperature(thermistor7)
• Electronics Air(thermistor8)
• Thermistor input channel number 9 (counting from 0) equivalent temperature(thermistor9)
• wavenumber average of spectral radiance between 2510 cm-1 and 2515 cm-1(wave_num_avg_rad_2510)
• wavenumber average of spectral radiance between 985 cm-1 and 990 cm-1(wave_num_avg_rad_985)
• wavenumber average of spectral radiance between 2282 cm-1 and 2287 cm-1(wave_num_avg_rad_2282)
• wavenumber average of spectral radiance between 2295 cm-1 and 2300 cm-1(wave_num_avg_rad_2295)
• North Latitude(lat)
• lon(lon)
• wavenumber average of spectral radiance between 675 cm-1 and 680 cm-1(wave_num_avg_rad_675)
• wavenumber average of spectral radiance between 700 cm-1 and 705 cm-1(wave_num_avg_rad_700)
• base time in epoch(base_time)
• wavenumber average of spectral radiance between 2295 cm-1 and 2300 cm-1
  converted to brightness temperature at mean wavenumber 2295.021 cm-1(wave_num_avg_BT_2295)
• wavenumber average of spectral radiance between 2282 cm-1 and 2287 cm-1
  converted to brightness temperature at mean wavenumber 2282.003 cm-1(wave_num_avg_BT_2282)
• Initial data quality flag(dataType)
• -180.0 - +180.0(alt)
• wavenumber average of standard deviation of spectral radiance between 2295 cm-1
  and 2300 cm-1(wave_num_avg_stan_dev_rad_2295)
• wavenumber average of standard deviation of spectral radiance between 2282 cm-1
  and 2287 cm-1(wave_num_avg_stan_dev_rad_2282)
• wavenumber average of standard deviation of spectral radiance between 675 cm-1
  and 680 cm-1(wave_num_avg_stan_dev_rad_675)
• wavenumber average of spectral radiance between 2510 cm-1 and 2515 cm-1
  converted to brightness temperature at mean wavenumber 2512.469 cm-1(wave_num_avg_BT_2510)
• wavenumber average of standard deviation of spectral radiance between 700 cm-1
  and 705 cm-1(wave_num_avg_stan_dev_rad_700)
• wavenumber average of standard deviation of spectral radiance between 2510 cm-1
  and 2515 cm-1(wave_num_avg_stan_dev_rad_2510)
• Relative Humidity(humidity_relative)
• wavenumber average of standard deviation of spectral radiance between 985 cm-1
  and 990 cm-1(wave_num_avg_stan_dev_rad_985)

• (Raw data stream - documentation not supported)

• Sky infrared temperature, standard deviation(sky_ir_temp_std)
• Time offset from base_time(time_offset)
• lon(lon)
• North Latitude(lat)
• Internal Reference Infra Red Temperature(ref_ir_temp)
• base time in epoch(base_time)
• Sky Infra Red Temperature Maxima(sky_ir_temp_max)
• Sky Infra-Red Temperature Minima(sky_ir_temp_min)
• time_in_seconds_since_volume_start(time)
• -180.0 - +180.0(alt)
• Sky Infra-Red Temperature(sky_ir_temp)
• Number of averaged samples(samples_in_average)

• Cold noise, cross-polarization(cold_noise_xpol)
• -180.0 - +180.0(alt)
• Distance to the center of the corresponding range bin(range)
• Reflectivity, cross-polar(reflectivity_xpol)
• base time in epoch(base_time)
• Radar calibration constant, copolar(cal_constant_copol)
• Cold noise, copolar(cold_noise_copol)
• Sky noise, cross-polarization(sky_noise_xpol)
• Radar calibration constant, cross-polar(cal_constant_xpol)
• lon(lon)
• North Latitude(lat)
• Receiver noise(rx_noise)
• Mean doppler velocity, cross-polar(mean_doppler_velocity_xpol)
• Spectral width, co-polarization(spectral_width_copol)
• Hot noise, cross-polar(hot_noise_xpol)
• Spectral width, cross-polarization(spectral_width_xpol)
• time_in_seconds_since_volume_start(time)
• Sky noise, copolar(sky_noise_copol)
• Signal-to-noise ratio, copolar(signal_to_noise_ratio_copol)
• Hot noise, co-polarization(hot_noise_copol)
• Reflectivity, copolar(reflectivity_copol)
• Signal to noise ratio, cross-polarization(signal_to_noise_ratio_xpol)
• Mean doppler velocity, copolar, dealiased(mean_doppler_velocity_copol)
• Time offset from base_time(time_offset)

• Lag-0 co-polar correlation coefficient, clutter filtered(copol_coeff)
• Signal quality index(sig_qual_index)
• time_in_seconds_since_volume_start(time)
• reflectivity(reflectivity)
• Attenuation corrected differential reflectivity(diff_reflectivity_corr)
• Specific differential phase(diff_phase)
• Differential reflectivity, clutter filtered(diff_reflectivity)
• Unfiltered reflectivity(reflectivity_unf)
• Mean doppler velocity(mean_doppler_velocity)
• Doppler spectral width, clutter filtered(doppler_spectral_width)
• Attenuation corrected reflectivity(reflectivity_corr)
• Differential propagation phase shift(dp_phase_shift)
• Range gate(gate)

• -180.0 - +180.0(alt)
• Particle radius at logarithmic center of bin(bins)
• Number of pulse code bits(pcbits)
• base time in epoch(base_time)
• Beam Number(beam)
• Delay Time to 1st Gate(dly)
• Pulse length(plen)
• Vertical FFT Bandwidth(vband)
• Interpulse period(ipp)
• Time offset from base_time(time_offset)
• Rx Bandwidth Switch Code(bswitch)
• North Latitude(lat)
• Sample Rate(sampr)
• lon(lon)
• Number of Individual Spectra/Average Spectrum(nspc)
• Array of heights for each sample time(height_t)
• Pulse repetition frequency(prf)
• Range gate spacing(rgs)
• Height of center of last range gate(rgl)
• Height of Center of First Range Gate(rgf)
• Oblique FFT bandwidth(oband)
• Ave Time per Average Spectra.(spcavetim)
• Individual Spectrum Integration Time(sitime)
• Radial Velocity Spectral Resolution(vsr)
• Height Index(range_gate)
• Number of Valid Heights(nheight)
• Number of Coherent Samples/Spectral Point(ncoh)
• Spectral Data(spc_amp)
• Beam Elevation Angle(elevation)
• Time Domain Integration Time(tditime)

• Averaging interval(avgint)
• Signal to Noise Ratio, Beam 3(snr3)
• Signal to noise ratio, beam 2(snr2)
• Signal to noise ratio, beam 4(snr4)
• Ave snr*10 level, Beam 1(snr1)
• Signal to Noise Ratio, Beam 0(snr0)
• Vertical Velocity Spectral Resolution(vvsr)
• Number of pulse code bits(pcbits)
• Azimuth of Beam 3 for WINDS data(azimuth3)
• Azimuth of beam 4(azimuth4)
• Azimuth of Beam 0(azimuth0)
• Azimuth of Beam 1 for WINDS data(azimuth1)
• Azimuth of Beam 2(azimuth2)
• Number of Valid Heights(nheight)
• Ave Time per Average Spectra.(spcavetim)
• Number of pulses/ave int, Beam 0(nrec0)
• Number of spectra/ave int, Beam 2(nrec2)
• Number of spectra per averaging interval, beam 1(nrec1)
• Number of Spectra/ave int, Beam 4(nrec4)
• Number of spectra/ave int, Beam 3(nrec3)
• Elevation angle of beam 1(elevation1)
• Elevation angle of beam 0(elevation0)
• Elevation angle of beam 3(elevation3)
• Elevation angle of Beam 2 for WINDS data(elevation2)
• Elevation angle of beam 4(elevation4)
• Sample Rate(sampr)
• Pulse length(plen)
• Number of values that passed consensus, beam 1(ncns1)
• Number of values that passed consensus, beam 2(ncns2)
• Number of values that passed consensus, beam 0(ncns0)
• Number of values that passed consensus, beam 3(ncns3)
• Number of values that passed consensus, beam 4(ncns4)
• Height Index(range_gate)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Vertical FFT Bandwidth(vband)
• Number of Coherent Samples/Spectral Point(ncoh)
• Number of Values Required for Consensus, Beam 3(nrcns3)
• Number of values required for consensus, beam 4(nrcns4)
• Number of values required for consensus, beam 0(nrcns0)
• Number of Values Required for Consensus, Beam 1(nrcns1)
• Number of Values Required for Consensus, Beam 2(nrcns2)
• Horizontal wind direction(dir)
• Delay Time to 1st Gate(dly)
• Beam 4 radial wind speed(vel4)
• Beam 2 radial wind speed(vel2)
• Beam 3 radial wind speed(vel3)
• Beam 0 radial wind speed(vel0)
• Beam 1 radial wind speed(vel1)
• Rx Bandwidth Switch Code(bswitch)
• Individual Spectrum Integration Time(sitime)
• Interpulse period(ipp)
• North Latitude(lat)
• V wind component(v_wind)
• base time in epoch(base_time)
• lon(lon)
• Oblique FFT bandwidth(oband)
• Pulse repetition frequency(prf)
• Array of heights for each sample time(height_p)
• Power offset(power)
• Range gate spacing(rgs)
• Height of center of last range gate(rgl)
• Height of Center of First Range Gate(rgf)
• Time Domain Integration Time(tditime)
• Number of Individual Spectra/Average Spectrum(nspc)
• Oblique Velocity Spectral Resolution(ovsr)
• Horizontal wind speed(spd)
• Easterly Wind Component(u_wind)

• Number of Individual Spectra/Average Spectrum(nspc)
• -180.0 - +180.0(alt)
• Rx Bandwidth Switch Code(bswitch)
• Sample Rate(sampr)
• Vertical FFT Bandwidth(vband)
• Array of heights for each sample time(height_t)
• Ave Time per Average Spectra. Also known as dwell.(spcavetime)
• Delay Time to 1st Gate(dly)
• Time offset from base_time(time_offset)
• Individual Spectrum Integration Time(sitime)
• Interpulse period(ipp)
• North Latitude(lat)
• lon(lon)
• Pulse length(plen)
• Number of Coherent Samples/Spectral Point(ncoh)
• Mean atmospheric vertical velocity(mdf)
• Oblique FFT bandwidth(oband)
• Pulse repetition frequency(prf)
• Number of Valid Heights(nheight)
• Beam Elevation Angle(elevation)
• Range gate spacing(rgs)
• Height of center of last range gate(rgl)
• Height of Center of First Range Gate(rgf)
• base time in epoch(base_time)
• 1000 * log10(noise signal level)(noise)
• Time Domain Integration Time(tditime)
• Signal-to-noise-ratio(snr)
• Radial Velocity Spectral Resolution(vsr)
• Height Index(range_gate)
• Spectral Width: vert velocity(specw)
• Number of pulse code bits(pcbits)
• Beam Number(beam)

• Collector tilt along band axis(collector_x_tilt)
• Standard deviation of collector tilt measured along band axis.(collector_x_tilt_std)
• Temperature of avantes AD board for InGaAs NIR spectrometer(ad_temperature)
• Spectrometer chiller internal dew point(chiller_dewpoint)
• Time offset from base_time(time_offset)
• Number of spectrometer scans averaged for InGaAs NIR spectrometer(number_of_scans)
• Collector tilt perpendicular to band axis(collector_y_tilt)
• Spectral zenith radiance from InGaAs NIR spectrometer(zenith_radiance)
• Temperature of MIO box from TRH sensor(mio_temperature_trh)
• -180.0 - +180.0(alt)
• Standard deviation of collector tilt measured perpendicular to band axis.(collector_y_tilt_std)
• MIO relative humidity from TRH sensor(mio_rh)
• Temperature of multi-IO box from MEMS sensor(mio_temperature_mems)
• Collector internal relative humidity from TRH sensor(collector_rh)
• Solar zenith angle relative to vertical zenith.(solar_zenith)
• lon(lon)
• North Latitude(lat)
• Responsivity for InGaAs NIR spectrometer(responsivity)
• Top of atmosphere spectrum wavelengths(wavelength)
• time_in_seconds_since_volume_start(time)
• Temperature of avantes optical bench for Si VIS spectrometer(bench_temperature)
• Solar azimuth angle relative to north(solar_azimuth)
• Scattering angle occluded by point of inner band nearest to the solar position(inner_band_scattering_angle)
• Band axis orientation with respect to north(band_azimuth)
• Spectrometer chiller internal RH(chiller_rh)
• Chiller temperature during 1 minute interval.(chiller_temperature)
• base time in epoch(base_time)
• Collector internal dew point(collector_dewpoint)
• Inner band orientation relative to operational vertical(inner_band_angle)
• Collector internal temperature from TRH sensor(collector_temperature)
• Temperature of multi-IO box from MEMS sensor in Fahrenheit(mio_temperature_mems_fahr)
• Spectrometer internal clock ticks for InGaAs NIR spectrometer(clock_ticks)
• Integration time per scan for Si VIS spectrometer(integration_time)

• Outer band orientation relative to operational vertical(outer_band_angle)
• time_in_seconds_since_volume_start(time)
• -180.0 - +180.0(alt)
• Number of spectrometer scans averaged for InGaAs NIR spectrometer(number_of_scans)
• Temperature of MIO box from TRH sensor(mio_temperature_trh)
• MIO relative humidity from TRH sensor(mio_rh)
• Air mass(airmass)
• base time in epoch(base_time)
• Collector internal relative humidity from TRH sensor(collector_rh)
• Band axis orientation with respect to azimuth limit switch(band_az_raw)
• Collector tilt along band axis(collector_x_tilt)
• Temperature of avantes AD board(avantes_ad_temperature)
• Temperature of avantes optical bench(avantes_bench_temperature)
• Scattering angle occluded by point of outer band nearest to the solar position(outer_band_scat_ang)
• Standard deviation of collector tilt measured along band axis.(collector_x_tilt_std)
• Collector internal temperature from TRH sensor(collector_temperature)
• Outer band orientation relative to nominal vertical(outer_band_angle_raw)
• Scattering angle occluded by point of inner band nearest to the solar position(inner_band_scat_ang)
• Time offset from base_time(time_offset)
• Collector internal dew point(collector_dewpoint)
• Earth sun distance(earth_sun_dist)
• Spectra(spectra)
• Temperature of multi-IO box from MEMS sensor in Fahrenheit(mio_temperature_mems_fahr)
• Solar zenith angle relative to vertical zenith.(solar_zenith)
• Spectrometer chiller internal RH(chiller_rh)
• Inner band orientation relative to operational vertical(inner_band_angle)
• Inner band orientation relative to nominal vertical(inner_band_angle_raw)
• Top of atmosphere spectrum wavelengths(wavelength)
• Band axis orientation with respect to north(band_azimuth)
• lon(lon)
• North Latitude(lat)
• Solar azimuth angle relative to north(solar_azimuth)
• Spectrometer internal clock ticks(spectrometer_clock_ticks)
• Standard deviation of collector tilt measured perpendicular to band axis.(collector_y_tilt_std)
• Shutter state(shutter_state)
• Chiller temperature during 1 minute interval.(chiller_temperature)
• Atmospheric pressure(atmos_pressure)
• Integration time of individual spectrometer scans(spectrometer_integration_time)
• Temperature of multi-IO box from MEMS sensor(mio_temperature_mems)
• Collector tilt perpendicular to band axis(collector_y_tilt)
• Spectrometer chiller internal dew point(chiller_dewpoint)
• Step number in measurement sequence(tag)

• base time in epoch(base_time)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(inst_up_long_hemisp)
• Surface Infra-Red Temperature, Maxima(sfc_ir_temp_max)
• Surface Infra-Red Temperature, Minima(sfc_ir_temp_min)
• Surface Infra-Red Temperature, Standard Deviation(sfc_ir_temp_std)
• Time offset from base_time(time_offset)
• Instantaneous upwelling pyrgeometer case thermistor temperature, pyrgeometer(inst_up_long_case_temp)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• Internal voltage(internal_voltage)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• North Latitude(lat)
• Instantaneous Dome Temperature(inst_up_long_dome_temp)
• time_in_seconds_since_volume_start(time)
• lon(lon)
• Surface infra-red temperature(sfc_ir_temp)
• -180.0 - +180.0(alt)
• Instantaneous Surface Infra-red Temperature(inst_sfc_ir_temp)
• Data Logger Temperature(logger_temp)
• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)

• (Raw data stream - documentation not supported)

• Surface soil heat flux 2(surface_soil_heat_flux_2)
• Surface soil heat flux 3(surface_soil_heat_flux_3)
• Surface soil heat flux 4(surface_soil_heat_flux_4)
• Surface soil heat flux 5(surface_soil_heat_flux_5)
• Surface soil heat flux 1(surface_soil_heat_flux_1)
• Change in energy storage 1, 0-5 cm soil layer(energy_storage_change_1)
• Change in energy storage 2, 0-5 cm soil layer(energy_storage_change_2)
• Change in energy storage 3, 0-5 cm soil layer(energy_storage_change_3)
• Change in energy storage 4, 0-5 cm soil layer(energy_storage_change_4)
• Change in energy storage 5, 0-5 cm soil layer(energy_storage_change_5)
• Soil heat flow 4(soil_heat_flow_4)
• Soil heat flow 3(soil_heat_flow_3)
• Soil heat flow 5(soil_heat_flow_5)
• Soil heat flow 2(soil_heat_flow_2)
• Soil heat flow 1(soil_heat_flow_1)
• Bottom relative humidity (fractional)(rh_bottom_fraction)
• time_in_seconds_since_volume_start(time)
• Aerodynamic sensible heat flux(aerodynamic_sensible_heat_flux)
• AEM position indicator 15 to 30 mins(home_signal_30)
• AEM position indicator 0 to 15 mins(home_signal_15)
• Wind direction vector mean standard deviation(wdir_vec_std)
• Friction velocity(friction_velocity)
• Soil heat flow 1, corrected for soil moisture(corr_soil_heat_flow_1)
• Soil heat flow 4, corrected for soil moisture(corr_soil_heat_flow_4)
• Soil heat flow 5, corrected for soil moisture(corr_soil_heat_flow_5)
• Soil heat flow 2, corrected for soil moisture(corr_soil_heat_flow_2)
• Soil heat flow 3, corrected for soil moisture(corr_soil_heat_flow_3)
• Surface sensible heat flux(sensible_heat_flux)
• Time offset from base_time(time_offset)
• Wind direction vector mean(wdir_vec_mean)
• Wind speed arithmetic mean(wspd_arith_mean)
• Best estimate sensible heat flux(be_sensible_heat_flux)
• Surface soil heat flux, average of fluxes 1-5(surface_soil_heat_flux_avg)
• Best estimate latent heat flux(be_latent_heat_flux)
• Aerodynamic latent heat flux(aerodynamic_latent_heat_flux)
• Soil temperature mean 3(soil_temp_3)
• Soil temperature 2(soil_temp_2)
• Half hour averaged soil temperature 5(soil_temp_5)
• Half hour averaged soil temperature 4(soil_temp_4)
• Soil temperature 1(soil_temp_1)
• Bottom T/RH sensor temperature(temp_trh_bottom)
• Wind speed vector mean(wspd_vec_mean)
• -180.0 - +180.0(alt)
• Top relative humidity (fractional)(rh_top_fraction)
• Solar radiation calculated from time of day, lat, and lon(solar_radiation)
• Reference temperature in enclosure(temp_reference)
• Top air temperature(temp_air_top)
• Vegetation height outside fence(vegetation_height)
• Top T/RH sensor temperature(temp_trh_top)
• base time in epoch(base_time)
• Atmospheric pressure(atmos_pressure)
• North Latitude(lat)
• lon(lon)
• Bowen ratio(bowen_ratio)
• Surface latent heat flux(latent_heat_flux)
• Bottom vapor pressure(vapor_pressure_bottom)
• Bottom air temperature(temp_air_bottom)
• Net radiation(net_radiation)
• Soil moisture 3, gravimetric(soil_moisture_3)
• Soil moisture 2, gravimetric(soil_moisture_2)
• Soil moisture 5, gravimetric(soil_moisture_5)
• Soil moisture 4, gravimetric(soil_moisture_4)
• Soil moisture 1, gravimetric(soil_moisture_1)
• Top vapor pressure(vapor_pressure_top)
• Soil heat capacity 4(soil_heat_capacity_4)
• Soil heat capacity 3(soil_heat_capacity_3)
• Soil heat capacity 5(soil_heat_capacity_5)
• Soil heat capacity 2(soil_heat_capacity_2)
• Soil heat capacity 1(soil_heat_capacity_1)

• (Raw data stream - documentation not supported)

• Quality check results on field: Bottom relative humidity (fractional)(qc_rh_bottom_fraction)
• Quality check results on field: Corrected latent heat flux(qc_latent_heat_flux)
• Quality check results on field: Wind speed vector mean(qc_wspd_vec_mean)
• Top vapor pressure(vapor_pressure_top)
• Top relative humidity (fractional)(rh_top_fraction)
• Surface sensible heat flux(sensible_heat_flux)
• Quality check results on field: Wind direction vector mean standard deviation(qc_wdir_vec_std)
• Quality check results on field: Bowen ratio(qc_bowen_ratio)
• Quality check results on field: Sensible heat flux(qc_sensible_heat_flux)
• Quality check results on field: Soil heat flow 3(qc_soil_heat_flow_3)
• Quality check results on field: Soil heat flow 4(qc_soil_heat_flow_4)
• Quality check results on field: Soil heat flow 5(qc_soil_heat_flow_5)
• Quality check results on field: Soil heat flow 1(qc_soil_heat_flow_1)
• Quality check results on field: Soil heat flow 2(qc_soil_heat_flow_2)
• time_in_seconds_since_volume_start(time)
• -180.0 - +180.0(alt)
• Quality check results on field: AEM position indicator 15 to 30 mins(qc_home_signal_30)
• Quality check results on field: AEM position indicator 0 to 15 mins(qc_home_signal_15)
• AEM position indicator 0 to 15 mins(home_signal_15)
• Quality check results on field: Soil moisture 1, gravimetric(qc_soil_moisture_1)
• AEM position indicator 15 to 30 mins(home_signal_30)
• Quality check results on field: Soil moisture 4, gravimetric(qc_soil_moisture_4)
• Quality check results on field: Soil moisture 5, gravimetric(qc_soil_moisture_5)
• Quality check results on field: Soil moisture 2, gravimetric(qc_soil_moisture_2)
• Quality check results on field: Soil moisture 3, gravimetric(qc_soil_moisture_3)
• Quality check results on field: Soil heat flow 1, corrected for soil moisture(qc_corr_soil_heat_flow_1)
• Quality check results on field: Bottom air temperature(qc_temp_air_bottom)
• Quality check results on field: Soil heat flow 2, corrected for soil moisture(qc_corr_soil_heat_flow_2)
• Quality check results on field: Soil heat flow 3, corrected for soil moisture(qc_corr_soil_heat_flow_3)
• Quality check results on field: Soil heat flow 4, corrected for soil moisture(qc_corr_soil_heat_flow_4)
• Quality check results on field: Soil heat flow 5, corrected for soil moisture(qc_corr_soil_heat_flow_5)
• Atmospheric pressure(atmos_pressure)
• Wind direction vector mean standard deviation(wdir_vec_std)
• Bowen ratio(bowen_ratio)
• Soil moisture 2, gravimetric(soil_moisture_2)
• Soil moisture 1, gravimetric(soil_moisture_1)
• Soil moisture 4, gravimetric(soil_moisture_4)
• Soil moisture 3, gravimetric(soil_moisture_3)
• Soil moisture 5, gravimetric(soil_moisture_5)
• Quality check results on field: Wind direction vector mean(qc_wdir_vec_mean)
• Bottom air temperature(temp_air_bottom)
• Surface soil heat flux 1(surface_soil_heat_flux_1)
• Surface soil heat flux 2(surface_soil_heat_flux_2)
• Surface soil heat flux 3(surface_soil_heat_flux_3)
• Surface soil heat flux 4(surface_soil_heat_flux_4)
• Surface soil heat flux 5(surface_soil_heat_flux_5)
• Bottom vapor pressure(vapor_pressure_bottom)
• base time in epoch(base_time)
• Quality check results on field: Bottom vapor pressure(qc_vapor_pressure_bottom)
• Bottom T/RH sensor temperature(temp_trh_bottom)
• North Latitude(lat)
• Reference temperature in enclosure(temp_reference)
• Quality check results on field: Top T/RH sensor temperature(qc_temp_trh_top)
• lon(lon)
• Top T/RH sensor temperature(temp_trh_top)
• Net radiation(net_radiation)
• Surface soil heat flux, average of fluxes 1-5(surface_soil_heat_flux_avg)
• Quality check results on field: Reference temperature in enclosure(qc_temp_reference)
• Half hour averaged soil temperature 4(soil_temp_4)
• Soil temperature mean 3(soil_temp_3)
• Soil temperature 2(soil_temp_2)
• Soil temperature 1(soil_temp_1)
• Half hour averaged soil temperature 5(soil_temp_5)
• Quality check results on field: Soil heat capacity 1(qc_soil_heat_capacity_1)
• Quality check results on field: Soil heat capacity 2(qc_soil_heat_capacity_2)
• Quality check results on field: Soil heat capacity 5(qc_soil_heat_capacity_5)
• Quality check results on field: Soil heat capacity 3(qc_soil_heat_capacity_3)
• Quality check results on field: Soil heat capacity 4(qc_soil_heat_capacity_4)
• Wind speed vector mean(wspd_vec_mean)
• Top air temperature(temp_air_top)
• Quality check results on field: Wind speed arithmetic mean(qc_wspd_arith_mean)
• Bottom relative humidity (fractional)(rh_bottom_fraction)
• Quality check results on field: Atmospheric pressure(qc_atmos_pressure)
• Quality check results on field: Top vapor pressure(qc_vapor_pressure_top)
• Quality check results on field: Surface soil heat flux 1(qc_surface_soil_heat_flux_1)
• Quality check results on field: Surface soil heat flux 4(qc_surface_soil_heat_flux_4)
• Quality check results on field: Surface soil heat flux 5(qc_surface_soil_heat_flux_5)
• Quality check results on field: Surface soil heat flux 2(qc_surface_soil_heat_flux_2)
• Quality check results on field: Surface soil heat flux 3(qc_surface_soil_heat_flux_3)
• Quality check results on field: Change in energy storage 2, 0-5 cm soil layer(qc_energy_storage_change_2)
• Quality check results on field: Change in energy storage 1, 0-5 cm soil layer(qc_energy_storage_change_1)
• Quality check results on field: Change in energy storage 4, 0-5 cm soil layer(qc_energy_storage_change_4)
• Quality check results on field: Change in energy storage 3, 0-5 cm soil layer(qc_energy_storage_change_3)
• Quality check results on field: Change in energy storage 5, 0-5 cm soil layer(qc_energy_storage_change_5)
• Soil heat flow 2(soil_heat_flow_2)
• Soil heat flow 3(soil_heat_flow_3)
• Soil heat flow 1(soil_heat_flow_1)
• Soil heat flow 4(soil_heat_flow_4)
• Soil heat flow 5(soil_heat_flow_5)
• Soil heat flow 5, corrected for soil moisture(corr_soil_heat_flow_5)
• Soil heat flow 4, corrected for soil moisture(corr_soil_heat_flow_4)
• Soil heat flow 3, corrected for soil moisture(corr_soil_heat_flow_3)
• Soil heat flow 2, corrected for soil moisture(corr_soil_heat_flow_2)
• Soil heat flow 1, corrected for soil moisture(corr_soil_heat_flow_1)
• Quality check results on field: Top relative humidity (fractional)(qc_rh_top_fraction)
• Quality check results on field: Top air temperature(qc_temp_air_top)
• Quality check results on field: Bottom T/RH sensor temperature(qc_temp_trh_bottom)
• Wind direction vector mean(wdir_vec_mean)
• Surface latent heat flux(latent_heat_flux)
• Time range for the hourly averages, in time offset from midnight(time_bounds)
• Time offset from base_time(time_offset)
• Quality check results on field: Soil temperature 1(qc_soil_temp_1)
• Quality check results on field: Half hour averaged soil temperature 5(qc_soil_temp_5)
• Quality check results on field: Half hour averaged soil temperature 4(qc_soil_temp_4)
• Quality check results on field: Soil temperature 3(qc_soil_temp_3)
• Quality check results on field: Soil temperature 2(qc_soil_temp_2)
• Change in energy storage 1, 0-5 cm soil layer(energy_storage_change_1)
• Change in energy storage 5, 0-5 cm soil layer(energy_storage_change_5)
• Change in energy storage 4, 0-5 cm soil layer(energy_storage_change_4)
• Change in energy storage 3, 0-5 cm soil layer(energy_storage_change_3)
• Change in energy storage 2, 0-5 cm soil layer(energy_storage_change_2)
• Wind speed arithmetic mean(wspd_arith_mean)
• Quality check results on field: Surface soil heat flux, average of fluxes 1-5(qc_surface_soil_heat_flux_avg)
• Quality check results on field: Net radiation(qc_net_radiation)
• Soil heat capacity 1(soil_heat_capacity_1)
• Soil heat capacity 3(soil_heat_capacity_3)
• Soil heat capacity 2(soil_heat_capacity_2)
• Soil heat capacity 5(soil_heat_capacity_5)
• Soil heat capacity 4(soil_heat_capacity_4)

• Mean doppler velocity, cross-polar(mean_doppler_velocity_xpol)
• time_in_seconds_since_volume_start(time)
• Mean doppler velocity, copolar, dealiased(mean_doppler_velocity_copol)
• Spectral width, co-polarization(spectral_width_copol)
• Reflectivity, cross-polar(reflectivity_xpol)
• Sky noise, cross-polarization(sky_noise_xpol)
• Distance to the center of the corresponding range bin(range)
• Hot noise, cross-polar(hot_noise_xpol)
• Radar calibration constant, cross-polar(cal_constant_xpol)
• Spectral width, cross-polarization(spectral_width_xpol)
• Signal to noise ratio, cross-polarization(signal_to_noise_ratio_xpol)
• Radar calibration constant, copolar(cal_constant_copol)
• -180.0 - +180.0(alt)
• Sky noise, copolar(sky_noise_copol)
• Cold noise, cross-polarization(cold_noise_xpol)
• Receiver noise(rx_noise)
• Cold noise, copolar(cold_noise_copol)
• North Latitude(lat)
• base time in epoch(base_time)
• Time offset from base_time(time_offset)
• lon(lon)
• Reflectivity, copolar(reflectivity_copol)
• Signal-to-noise ratio, copolar(signal_to_noise_ratio_copol)
• Hot noise, co-polarization(hot_noise_copol)

• (Raw data stream - documentation not supported)

• Sky infrared temperature, standard deviation(sky_ir_temp_std)
• Time offset from base_time(time_offset)
• Internal Reference Infra Red Temperature(ref_ir_temp)
• lon(lon)
• North Latitude(lat)
• Sky Infra-Red Temperature(sky_ir_temp)
• time_in_seconds_since_volume_start(time)
• Number of averaged samples(samples_in_average)
• -180.0 - +180.0(alt)
• Sky Infra Red Temperature Maxima(sky_ir_temp_max)
• Sky Infra-Red Temperature Minima(sky_ir_temp_min)
• base time in epoch(base_time)

• -180.0 - +180.0(alt)
• Precipitation intensity(precip_rate)
• base time in epoch(base_time)
• Time range for the hourly averages, in time offset from midnight(time_bounds)
• Weight of accumulated precipitation in the gauge since the la st tare(total_weight)
• Voltage minimum(volt_min)
• time_in_seconds_since_volume_start(time)
• Temperature 3 inside the instrument enclosure(temp3)
• Temperature average, sensor 2(temp2)
• Temperature average, sensor 1(temp1)
• Total precipitation over one minute sampling period(precip)
• North Latitude(lat)
• lon(lon)
• The latch counter counts number of measurement scans within one minute.(scans_per_min)
• Millimeters of precipitation accumulated in the gauge since t he last tare.(total_mm)
• Record with error(error_latch)
• Sensor 2 maximum weight(weight2)
• Sensor 3 maximum weight(weight3)
• Sensor 1 maximum weight(weight1)
• Time offset from base_time(time_offset)
• Sensor status(stat_latch)
• Frequency average, sensor 1(frequency1)
• Frequency average, sensor 3(frequency3)
• Frequency average, sensor 2(frequency2)
• Total maintenance count(maintenance_cnt)
• Panel temperature average(ptemp)

• -180.0 - +180.0(alt)
• time_in_seconds_since_volume_start(time)
• Logical flag indicating that a data record is missing (true/false)(missingDataFlag)
• AERI instrument data channel number(channelNumber)
• Mean of radiance spectra ensemble(mean_rad)
• Observation date(dateYYMMDD)
• Character string containing instrument name(instrumentUnitNumber)
• Version number of Operational Software(systemReleaseNumber)
• wavenumbers for mean radiance spectra(wnum)
• Difference between the sky view\'s radiance variance and the hot black body
  view\'s variance(standard_dev_mean_rad)
• AERI instrument unit serial number(AERIunitNumber)
• Observation atmospheric pressure in AERI electronics(atmosphericPressure)
• Time offset from base_time(time_offset)
• Hot blackbody temperature used in calibration(calibrationHBBtemp)
• Time in decimal format at center of AERI sky observation period(Time_UTC_hours)
• Duration of scene view(sceneViewDuration)
• base time in epoch(base_time)
• Julian Day including day and fraction of day(JulianDay)
• North Latitude(lat)
• lon(lon)
• Cold blackbody temperature used in calibration(calibrationCBBtemp)
• Ambient air temperature at hatch opening(outsideAirTemp)
• Calibrated scene type identification(calibratedSceneID)
• Scene mirror view angle in non-negative degrees, measured clockwise from nadir
  looking into interferometer window(sceneMirrorAngle)
• Boolean with negative error conditions: 1:Open 0:Closed -1:Fault -2:Outside
  Valid Range -3:Neither Open Nor Closed(hatchOpen)
• Observation longitude(Longitude)
• Observation latitude(Latitude)
• BB Support Structure Temperature(BBsupportStructureTemp)
• Ambient temperature used in calibration(calibrationAmbientTemp)
• Observation altitude(Altitude)
• Wave number in reciprocal centimeters(wnum2)
• Relative humidity measured near Blackbodies. Use with air temperature near BBs
  only.(atmosphericRelativeHumidity)
• Time at center of AERI sky observation period(timeHHMMSS)
• Maximum departure from ideal of the mirror position over the course of all
  contributing views. Typically two hot, two ambient, and one scene view are
  examine(sceneMirPosEncoderMaxDrift)

• Narrowband hemispheric irradiance, filter 1(hemisp_narrowband_filter1_raw)
• Diffuse narrowband hemispheric irradiance, filter 1(diffuse_hemisp_narrowband_filter1_raw)
• Alltime narrowband hemispheric irradiance, filter 5(alltime_hemisp_narrowband_filter5)
• Alltime Narrowband Hemispheric Irradiance, Filter 6(alltime_hemisp_narrowband_filter6)
• Alltime narrowband hemispheric irradiance, filter 1(alltime_hemisp_narrowband_filter1)
• Alltime narrowband hemispheric irradiance, filter 2(alltime_hemisp_narrowband_filter2)
• Alltime Narrowband Hemispheric Irradiance, Filter 3(alltime_hemisp_narrowband_filter3)
• Alltime Narrowband Hemispheric Irradiance, Filter 4(alltime_hemisp_narrowband_filter4)
• Narrowband Hemispheric Irradiance, Filter 6(hemisp_narrowband_filter6_raw)
• Logger temperature(logger_temperature)
• Detector temperature(head_temp)
• Diffuse narrowband hemispheric irradiance, filter 6(diffuse_hemisp_narrowband_filter6_raw)
• Diffuse Narrowband Hemispheric Irradiance, Filter 6, offset corrected(diffuse_hemisp_narrowband_filter6)
• Narrowband diffuse hemispheric irradiance, filter 5, offset and cosine corrected(diffuse_hemisp_narrowband_filter5)
• Diffuse Narrowband Hemispheric Irradiance, Filter 2, offset corrected(diffuse_hemisp_narrowband_filter2)
• Diffuse Narrowband Hemispheric Irradiance, Filter 1, offset corrected(diffuse_hemisp_narrowband_filter1)
• Diffuse Narrowband Hemispheric Irradiance, Filter 4(diffuse_hemisp_narrowband_filter4)
• Diffuse Narrowband Hemispheric Irradiance, Filter 3(diffuse_hemisp_narrowband_filter3)
• Diffuse Hemispheric Broadband Irradiance(diffuse_hemisp_broadband_raw)
• Narrowband hemispheric irradiance, filter 5(hemisp_narrowband_filter5_raw)
• Hemispheric broadband irradiance(hemisp_broadband_raw)
• -180.0 - +180.0(alt)
• Hemispheric broadband irradiance(hemisp_broadband)
• Offset subtracted from hemispheric and diffuse filter6 data(offset_filter6)
• Offset subtracted from direct normal filter4 data(offset_filter4)
• Offset subtracted from upwelling hemispheric filter5 data(offset_filter5)
• Offset subtracted from upwelling hemispheric filter2 data(offset_filter2)
• Offset subtracted from direct normal filter3 data(offset_filter3)
• Offset subtracted from hemispheric filter1 data(offset_filter1)
• Offset subtracted from hemispheric and diffuse broadband data(offset_broadband)
• Diffuse Narrowband Hemispheric Irradiance, Filter 2(diffuse_hemisp_narrowband_filter2_raw)
• Alltime hemispheric broadband irradiance(alltime_hemisp_broadband)
• Direct Horizontal Broadband Irradiance(direct_horizontal_broadband)
• Narrowband Direct Horizontal Irradiance, Filter 6, cosine corrected(direct_horizontal_narrowband_filter6)
• Narrowband Direct Horizontal Irradiance, Filter 5, cosine corrected(direct_horizontal_narrowband_filter5)
• Narrowband Direct Horizontal Irradiance, Filter 4, cosine corrected(direct_horizontal_narrowband_filter4)
• Direct Horizontal Narrowband Irradiance, Filter 3(direct_horizontal_narrowband_filter3)
• Narrowband Direct Horizontal Irradiance, Filter 2, cosine corrected(direct_horizontal_narrowband_filter2)
• Direct horizontal narrowband irradiance, filter 1(direct_horizontal_narrowband_filter1)
• Second detector temperature(head_temp2)
• Diffuse narrowband hemispheric irradiance, filter 4(diffuse_hemisp_narrowband_filter4_raw)
• Diffuse narrowband hemispheric irradiance, filter 3(diffuse_hemisp_narrowband_filter3_raw)
• time_in_seconds_since_volume_start(time)
• lon(lon)
• North Latitude(lat)
• Diffuse Hemispheric Broadband Irradiance, offset corrected(diffuse_hemisp_broadband)
• Narrowband hemispheric irradiance, filter 4(hemisp_narrowband_filter4_raw)
• Diffuse Narrowband Hemispheric Irradiance, Filter 5(diffuse_hemisp_narrowband_filter5_raw)
• Time offset from base_time(time_offset)
• Narrowband hemispheric irradiance, filter 2(hemisp_narrowband_filter2_raw)
• Narrowband Hemispheric Irradiance, Filter 1, offset corrected(hemisp_narrowband_filter1)
• Narrowband hemispheric irradiance, filter 3, offset and cosine corrected(hemisp_narrowband_filter3)
• Narrowband Hemispheric Irradiance, Filter 2(hemisp_narrowband_filter2)
• Narrowband Hemispheric Irradiance, Filter 5, offset corrected(hemisp_narrowband_filter5)
• Narrowband hemispheric irradiance, filter 4, offset and cosine corrected(hemisp_narrowband_filter4)
• Narrowband hemispheric irradiance, filter 6, nominal wavelength is 935 nm(hemisp_narrowband_filter6)
• base time in epoch(base_time)
• Narrowband Hemispheric Irradiance, Filter 3(hemisp_narrowband_filter3_raw)
• Data logger supply voltage(logger_volt)

• base time in epoch(base_time)
• Surface infra-red temperature(sfc_ir_temp)
• Time offset from base_time(time_offset)
• Surface Infra-Red Temperature, Standard Deviation(sfc_ir_temp_std)
• Data Logger Temperature(logger_temp)
• lon(lon)
• Surface Infra-Red Temperature, Minima(sfc_ir_temp_min)
• Surface Infra-Red Temperature, Maxima(sfc_ir_temp_max)
• North Latitude(lat)
• -180.0 - +180.0(alt)
• Internal voltage(internal_voltage)

• Wind status(wstat)
• Wind Speed(wspd)
• lon(lon)
• North Latitude(lat)
• Dewpoint Temperature(dp)
• Relative Humidity (hybrid-b grid)(rh)
• base time in epoch(base_time)
• Time offset from base_time(time_offset)
• Dry Bulb Temperature(tdry)
• Wind Direction(deg)
• Retrieved pressure profile(pres)
• Ascent rate(asc)
• -180.0 - +180.0(alt)

• (Raw data stream - documentation not supported)

• lon(lon)
• North Latitude(lat)
• base time in epoch(base_time)
• Instantaneous direct normal shortwave irradiance, pyrheliometer thermopile
  voltage(inst_direct_normal)
• Instantaneous Downwelling Pyrgeometer Case Thermistor Resistance, Shaded
  Pyrgeometer(inst_down_long_shaded_case_resist)
• Instantaneous downwelling pyrgeometer thermopile voltage, shaded pyrgeometer(inst_down_long_hemisp_shaded_tp)
• Instantaneous Upwelling Pyrgeometer Case Thermistor Resistance, Pyrgeometer(inst_up_long_case_resist)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Instantaneous Downwelling Hemispheric Shortwave, Pyranometer Thermopile Voltage(inst_global)
• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)
• Instantaneous downwelling pyrgeometer dome thermistor resistance, shaded
  pyrgeometer(inst_down_long_shaded_dome_resist)
• Instantaneous Upwelling Pyrgeometer Dome Thermistor Resistance Pyrgeometer(inst_up_long_dome_resist)
• Instantaneous uncorrected downwelling shortwave diffuse, shaded pyranometer
  thermopile voltage(inst_diffuse)
• Instantaneous Upwelling Pyrgeometer Thermopile Pyrgeometer(inst_up_long_hemisp_tp)

• 0=real or 1=dummy value of rho(real_rho)
• friction velocity(ustar)
• vertical (elevation) wind angle(elev)
• kurtosis of variable c(kurt_c)
• kurtosis of variable q(kurt_q)
• kurtosis of variable w(kurt_w)
• kurtosis of variable u(kurt_u)
• kurtosis of variable v(kurt_v)
• Kurtosis of variable mean_t(kurt_t)
• vector averaged wind direction(wind_dir)
• Status of source for mixing ratio(real_mr)
• Status of source for latent heat of vaporization(real_lv)
• specific heat of moist air(cp)
• 0=real or 1=dummy value of cp(real_cp)
• Latent heat of vaporization(lv)
• Water vapor mixing ratio observed by the Raman lidar(mr)
• Time offset from base_time(time_offset)
• CO2 flux(fc)
• moist air density(rho)
• rotated mean w(mean_rot_w)
• rotated mean v(mean_rot_v)
• Rotated mean u(mean_rot_u)
• variance of c(var_c)
• variance of variable w(var_w)
• Variance of variable mean_v(var_v)
• variance of variable u(var_u)
• variance of t(var_t)
• variance of q(var_q)
• Average temperature (IGRA internal sensor)(temp_irga)
• rotation to zero v(phi)
• Cross-boom wind velocity (v)(mean_v)
• Vertical wind velocity (w)(mean_w)
• mean sonic temperature (t), i.e. virtual temperature(mean_t)
• Down-boom wind velocity (u)(mean_u)
• variance of v(var_rot_v)
• rotated variance w(var_rot_w)
• Rotated variance u(var_rot_u)
• mean co2 concentration (c)(mean_c)
• mean water vapor concentration (q)(mean_q)
• North Latitude(lat)
• lon(lon)
• Standard deviation of wind elevation angle(std_elev)
• Covariance qc(cvar_qc)
• average voltage of IRGA cooler(mean_cooler)
• mean value of out of range values and spikes of c -9999 if no spikes(mean_spk_c)
• mean value of out of range values and spikes of q -9999 if no spikes(mean_spk_q)
• Mean value of "spike" v samples(mean_spk_v)
• Mean value of "spike" u samples(mean_spk_u)
• Mean value of "spike" t samples(mean_spk_t)
• mean value of \spike\ w samples(mean_spk_w)
• covariance wt(cvar_wt)
• covariance wq(cvar_wq)
• covariance of tq(cvar_tq)
• Covariance tc(cvar_tc)
• covariance ut(cvar_ut)
• Covariance uv(cvar_uv)
• covariance uw(cvar_uw)
• covariance uq(cvar_uq)
• Covariance uc(cvar_uc)
• Covariance wc(cvar_wc)
• Covariance vt(cvar_vt)
• Covariance vw(cvar_vw)
• Covariance vq(cvar_vq)
• covariance vc(cvar_vc)
• Standard deviation of wind direction(std_wind_dir)
• base time in epoch(base_time)
• corrected sensible heat flux(h)
• momentum flux (dynamic)(k)
• skewness of variable c(skew_c)
• number of samples with \IRGA hardware problem\ flag(n_bad_irga)
• time_in_seconds_since_volume_start(time)
• Vector averaged wind speed(wind_spd)
• Number of c samples removed due to spikes(n_spk_c)
• number of t samples removed due to spikes(n_spk_t)
• Number of u samples removed due to spikes(n_spk_u)
• number of v samples removed due to spikes(n_spk_v)
• number of w samples removed due to spikes(n_spk_w)
• Number of q samples removed due to spikes(n_spk_q)
• number of valid c samples(n_good_c)
• number of valid q samples(n_good_q)
• number of valid t samples(n_good_t)
• number of valid v samples(n_good_v)
• Number of valid u samples(n_good_u)
• Number of valid w samples(n_good_w)
• -180.0 - +180.0(alt)
• skewness of variable w(skew_w)
• skewness of variable u(skew_u)
• Skewness of variable mean_v(skew_v)
• skewness of variable t(skew_t)
• skewness of variable q(skew_q)
• Rotated covariance wc(cvar_rot_wc)
• rotated covariance wq(cvar_rot_wq)
• rotated covariance wt(cvar_rot_wt)
• Rotated covariance vc(cvar_rot_vc)
• rotated covariance vq(cvar_rot_vq)
• Rotated covariance vt(cvar_rot_vt)
• rotated covariance vw(cvar_rot_vw)
• rotated covariance uc(cvar_rot_uc)
• Rotated covariance uq(cvar_rot_uq)
• Rotated covariance ut(cvar_rot_ut)
• rotated covariance uw(cvar_rot_uw)
• rotated covariance uv(cvar_rot_uv)
• latent heat flux(lv_e)
• Number of bad or out of range c samples(n_bad_c)
• Number of bad or out of range q samples(n_bad_q)
• Atmospheric pressure(atm_pres)
• number of bad or out of range w samples(n_bad_w)
• Number of bad or out of range t samples(n_bad_t)
• number of bad or out of range u samples(n_bad_u)
• number of bad or out of range v samples(n_bad_v)
• number of samples with bad sonic status flag(n_bad_son_ic)
• number of samples with IRGA optical path blocked flag(n_bad_irga_light)

• lon(lon)
• Total precipitation over one minute sampling period(precip)
• North Latitude(lat)
• Sensor status(stat_latch)
• Panel temperature average(ptemp)
• Weight of accumulated precipitation in the gauge since the la st tare(total_weight)
• Time offset from base_time(time_offset)
• Temperature average, sensor 1(temp1)
• Temperature average, sensor 2(temp2)
• Temperature 3 inside the instrument enclosure(temp3)
• Sensor 3 maximum weight(weight3)
• Sensor 2 maximum weight(weight2)
• Sensor 1 maximum weight(weight1)
• Precipitation intensity(precip_rate)
• Voltage minimum(volt_min)
• time_in_seconds_since_volume_start(time)
• Total maintenance count(maintenance_cnt)
• base time in epoch(base_time)
• The latch counter counts number of measurement scans within one minute.(scans_per_min)
• Millimeters of precipitation accumulated in the gauge since t he last tare.(total_mm)
• Frequency average, sensor 1(frequency1)
• Frequency average, sensor 2(frequency2)
• Frequency average, sensor 3(frequency3)
• -180.0 - +180.0(alt)
• Record with error(error_latch)

• Downwelling longwave hemispheric irradiance, shaded pyrgeometer, standard
  deviation(down_long_hemisp_shaded_std)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• base time in epoch(base_time)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• -180.0 - +180.0(alt)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Maxima(down_long_hemisp_shaded_max)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Minima(down_long_hemisp_shaded_min)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• Battery voltage(vBatt)
• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Instantaneous upwelling pyrgeometer case thermistor temperature, pyrgeometer(inst_up_long_case_temp)
• North Latitude(lat)
• lon(lon)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Instantaneous Dome Temperature(inst_up_long_dome_temp)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer(down_long_hemisp_shaded)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Downwelling longwave hemispheric net infrared(down_long_netir)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Time offset from base_time(time_offset)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_netir)
• Instantaneous Downwelling Pyrgeometer Dome Thermistor Temperature, Shaded
  Pyrgeometer(inst_down_long_shaded_dome_temp)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• Instantaneous downwelling pyrgeometer case thermistor temperature, shaded
  pyrgeometer(inst_down_long_shaded_case_temp)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)

• Scattering angle occluded by point of outer band nearest to the solar position(outer_band_scat_ang)
• Temperature of MIO box from TRH sensor(mio_temperature_trh)
• Time offset from base_time(time_offset)
• Inner band orientation relative to nominal vertical(inner_band_angle_raw)
• Spectrometer chiller internal RH(chiller_rh)
• Band axis orientation with respect to azimuth limit switch(band_az_raw)
• Temperature of avantes optical bench(avantes_bench_temperature)
• lon(lon)
• Collector tilt along band axis(collector_x_tilt)
• North Latitude(lat)
• Band axis orientation with respect to north(band_azimuth)
• Atmospheric pressure(atmos_pressure)
• Standard deviation of collector tilt measured along band axis.(collector_x_tilt_std)
• Collector internal dew point(collector_dewpoint)
• Spectrometer chiller internal dew point(chiller_dewpoint)
• Chiller temperature during 1 minute interval.(chiller_temperature)
• Spectra(spectra)
• base time in epoch(base_time)
• Outer band orientation relative to operational vertical(outer_band_angle)
• MIO relative humidity from TRH sensor(mio_rh)
• Solar zenith angle relative to vertical zenith.(solar_zenith)
• Step number in measurement sequence(tag)
• Shutter state(shutter_state)
• Spectrometer internal clock ticks(spectrometer_clock_ticks)
• Temperature of multi-IO box from MEMS sensor(mio_temperature_mems)
• Standard deviation of collector tilt measured perpendicular to band axis.(collector_y_tilt_std)
• Inner band orientation relative to operational vertical(inner_band_angle)
• Air mass(airmass)
• Temperature of avantes AD board(avantes_ad_temperature)
• Outer band orientation relative to nominal vertical(outer_band_angle_raw)
• Collector internal relative humidity from TRH sensor(collector_rh)
• Earth sun distance(earth_sun_dist)
• Solar azimuth angle relative to north(solar_azimuth)
• Integration time of individual spectrometer scans(spectrometer_integration_time)
• Top of atmosphere spectrum wavelengths(wavelength)
• -180.0 - +180.0(alt)
• Collector tilt perpendicular to band axis(collector_y_tilt)
• Scattering angle occluded by point of inner band nearest to the solar position(inner_band_scat_ang)
• Temperature of multi-IO box from MEMS sensor in Fahrenheit(mio_temperature_mems_fahr)
• Number of spectrometer scans averaged for InGaAs NIR spectrometer(number_of_scans)
• time_in_seconds_since_volume_start(time)
• Collector internal temperature from TRH sensor(collector_temperature)

• Instantaneous Upwelling Pyrgeometer Thermopile Pyrgeometer(inst_up_long_hemisp_tp)
• base time in epoch(base_time)
• Instantaneous Upwelling Pyrgeometer Case Thermistor Resistance, Pyrgeometer(inst_up_long_case_resist)
• Instantaneous Downwelling Pyrgeometer Case Thermistor Resistance, Shaded
  Pyrgeometer(inst_down_long_shaded_case_resist)
• Instantaneous uncorrected downwelling shortwave diffuse, shaded pyranometer
  thermopile voltage(inst_diffuse)
• -180.0 - +180.0(alt)
• Instantaneous Upwelling Pyrgeometer Dome Thermistor Resistance Pyrgeometer(inst_up_long_dome_resist)
• Instantaneous downwelling pyrgeometer dome thermistor resistance, shaded
  pyrgeometer(inst_down_long_shaded_dome_resist)
• Instantaneous downwelling pyrgeometer thermopile voltage, shaded pyrgeometer(inst_down_long_hemisp_shaded_tp)
• Instantaneous direct normal shortwave irradiance, pyrheliometer thermopile
  voltage(inst_direct_normal)
• Instantaneous Downwelling Hemispheric Shortwave, Pyranometer Thermopile Voltage(inst_global)
• Time offset from base_time(time_offset)
• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)
• lon(lon)
• North Latitude(lat)

• base time in epoch(base_time)
• Temperature of multi-IO box from MEMS sensor in Fahrenheit(mio_temperature_mems_fahr)
• Spectrometer internal clock ticks for InGaAs NIR spectrometer(clock_ticks)
• Band axis orientation with respect to north(band_azimuth)
• Collector tilt perpendicular to band axis(collector_y_tilt)
• MIO relative humidity from TRH sensor(mio_rh)
• Spectrometer chiller internal RH(chiller_rh)
• -180.0 - +180.0(alt)
• Number of spectrometer scans averaged for InGaAs NIR spectrometer(number_of_scans)
• North Latitude(lat)
• lon(lon)
• Collector tilt along band axis(collector_x_tilt)
• Responsivity for InGaAs NIR spectrometer(responsivity)
• Temperature of avantes optical bench for Si VIS spectrometer(bench_temperature)
• Spectral zenith radiance from InGaAs NIR spectrometer(zenith_radiance)
• Temperature of MIO box from TRH sensor(mio_temperature_trh)
• Temperature of avantes AD board for InGaAs NIR spectrometer(ad_temperature)
• Time offset from base_time(time_offset)
• Top of atmosphere spectrum wavelengths(wavelength)
• Standard deviation of collector tilt measured perpendicular to band axis.(collector_y_tilt_std)
• time_in_seconds_since_volume_start(time)
• Collector internal temperature from TRH sensor(collector_temperature)
• Standard deviation of collector tilt measured along band axis.(collector_x_tilt_std)
• Chiller temperature during 1 minute interval.(chiller_temperature)
• Collector internal dew point(collector_dewpoint)
• Inner band orientation relative to operational vertical(inner_band_angle)
• Solar azimuth angle relative to north(solar_azimuth)
• Spectrometer chiller internal dew point(chiller_dewpoint)
• Integration time per scan for Si VIS spectrometer(integration_time)
• Scattering angle occluded by point of inner band nearest to the solar position(inner_band_scattering_angle)
• Collector internal relative humidity from TRH sensor(collector_rh)
• Solar zenith angle relative to vertical zenith.(solar_zenith)
• Temperature of multi-IO box from MEMS sensor(mio_temperature_mems)

• V wind component(v_wind)
• Dry Bulb Temperature(tdry)
• Easterly Wind Component(u_wind)
• Wind Speed(wspd)
• Time offset from base_time(time_offset)
• Ascent rate(asc)
• -180.0 - +180.0(alt)
• Wind Direction(deg)
• Wind status(wstat)
• Dewpoint Temperature(dp)
• Relative Humidity (hybrid-b grid)(rh)
• North Latitude(lat)
• lon(lon)
• Retrieved pressure profile(pres)
• base time in epoch(base_time)

• Estimated 1-sigma uncertainty in pwv(pwverr)
• Rain accumulation(rain_accumulation)
• Ambient surface absolute temperature(surface_temperature)
• Wind direction average(wind_direction_avg)
• Rain intensity(rain_intensity)
• -180.0 - +180.0(alt)
• Beam Elevation Angle(elevation)
• time_in_seconds_since_volume_start(time)
• base time in epoch(base_time)
• Rain peak intensity(rain_peak_intensity)
• Estimated 1-sigma uncertainty in lwp(lwperr)
• Ambient surface relative humidity(surface_relative_humidity)
• North Latitude(lat)
• Liquid water path(lwp)
• Maximum 1s wind speed at the ground station in one minute, maxima(wind_speed_max)
• lon(lon)
• Hail duration(hail_duration)
• Wind speed minimum(wind_speed_min)
• Azimuth of Radar Ray(azimuth)
• Hail accumulation(hail_accumulation)
• Wind direction minimum(wind_direction_min)
• Wind direction maximum(wind_direction_max)
• Precipitable water vapor(pwv)
• surface pressure(surface_pressure)
• Wind speed average(wind_speed_avg)
• Zenith-pointing infrared temperature at 10um(infrared_temperature)
• Rain duration(rain_duration)
• Time offset from base_time(time_offset)
• Hail intensity(hail_intensity)
• 89.0 GHz sky brightness temperature(tbsky89)
• Mean 23.8 GHz sky brightness temperature(tbsky23)
• 30.0 GHz sky brightness temperature(tbsky30)

• Internal Reference Infra Red Temperature(ref_ir_temp)
• Time offset from base_time(time_offset)
• time_in_seconds_since_volume_start(time)
• North Latitude(lat)
• lon(lon)
• Sky Infra-Red Temperature(sky_ir_temp)
• base time in epoch(base_time)
• -180.0 - +180.0(alt)

• (Rundeck data stream - documentation not yet available)

• rejection flag for Direct Broadband(michalsky_badflag_broadband)
• error in final linear fit for the Direct BroadBand(barnard_error_fit_broadband)
• rejection flag for Direct Narrowband Filter6(michalsky_badflag_filter6)
• rejection flag for Direct Narrowband Filter2(michalsky_badflag_filter2)
• rejection flag for Direct Narrowband Filter3(michalsky_badflag_filter3)
• rejection flag for Direct Narrowband Filter4(michalsky_badflag_filter4)
• rejection flag for Direct Narrowband Filter5(michalsky_badflag_filter5)
• rejection flag for Direct Narrowband Filter1(michalsky_badflag_filter1)
• optical depth for the Direct Narrowband Filter2(michalsky_optical_depth_filter2)
• optical depth for the Direct Narrowband Filter1(michalsky_optical_depth_filter1)
• optical depth for the Direct Narrowband Filter4(michalsky_optical_depth_filter4)
• optical depth for the Direct Narrowband Filter3(michalsky_optical_depth_filter3)
• optical depth for the Direct Narrowband Filter6(michalsky_optical_depth_filter6)
• optical depth for the Direct Narrowband Filter5(michalsky_optical_depth_filter5)
• rejection flag for Direct Broadband(barnard_badflag_broadband)
• optical depth for the Direct BroadBand(barnard_optical_depth_broadband)
• Michalsky computed sun to earth distance(michalsky_sun_earth_distance)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter1(barnard_good_fraction_filter1)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter3(barnard_good_fraction_filter3)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter2(barnard_good_fraction_filter2)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter5(barnard_good_fraction_filter5)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter4(barnard_good_fraction_filter4)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter6(barnard_good_fraction_filter6)
• time_in_seconds_since_volume_start(time)
• error in final linear fit for the Direct Narrowband Filter6(barnard_error_fit_filter6)
• error in final linear fit for the Direct Narrowband Filter3(barnard_error_fit_filter3)
• error in final linear fit for the Direct Narrowband Filter2(barnard_error_fit_filter2)
• error in final linear fit for the Direct Narrowband Filter5(barnard_error_fit_filter5)
• error in final linear fit for the Direct Narrowband Filter4(barnard_error_fit_filter4)
• error in final linear fit for the Direct Narrowband Filter1(barnard_error_fit_filter1)
• base time in epoch(base_time)
• percentage of initial points used in final linear fit for the Direct Broadband(barnard_good_fraction_broadband)
• Langley regression Io, Michalsky, Direct Narrowband Filter2(michalsky_solar_constant_filter2)
• solar constant for the Direct Narrowband Filter1(michalsky_solar_constant_filter1)
• Langley regression Io, Michalsky, Direct Narrowband Filter4(michalsky_solar_constant_filter4)
• solar constant for the Direct Narrowband Filter3(michalsky_solar_constant_filter3)
• solar constant for the Direct Narrowband Filter6(michalsky_solar_constant_filter6)
• Langley regression Io, Michalsky, Direct Narrowband Filter5(michalsky_solar_constant_filter5)
• number of points used in final linear fit for the Direct Broadband(michalsky_number_points_broadband)
• solar constant corrected for solar distance for the Direct Broadband(michalsky_solar_constant_sdist_broadband)
• number of points used in final linear fit for the Direct Narrowband Filter4(barnard_number_points_filter4)
• number of points used in final linear fit for the Direct Narrowband Filter3(barnard_number_points_filter3)
• number of points used in final linear fit for the Direct Narrowband Filter6(barnard_number_points_filter6)
• number of points used in final linear fit for the Direct Narrowband Filter5(barnard_number_points_filter5)
• number of points used in final linear fit for the Direct Narrowband Filter2(barnard_number_points_filter2)
• number of points used in final linear fit for the Direct Narrowband Filter1(barnard_number_points_filter1)
• -180.0 - +180.0(alt)
• optical depth for the Direct BroadBand(michalsky_optical_depth_broadband)
• Langley regression Io, adjusted to 1AU, Barnard, Direct BroadBand(barnard_solar_constant_sdist_broadband)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter3(michalsky_good_fraction_filter3)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter4(michalsky_good_fraction_filter4)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter5(michalsky_good_fraction_filter5)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter6(michalsky_good_fraction_filter6)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter1(michalsky_good_fraction_filter1)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter2(michalsky_good_fraction_filter2)
• optical depth for the Direct Narrowband Filter1(barnard_optical_depth_filter1)
• optical depth for the Direct Narrowband Filter3(barnard_optical_depth_filter3)
• optical depth for the Direct Narrowband Filter2(barnard_optical_depth_filter2)
• Langley regression Io, Michalsky, Direct BroadBand(michalsky_solar_constant_broadband)
• optical depth for the Direct Narrowband Filter5(barnard_optical_depth_filter5)
• optical depth for the Direct Narrowband Filter4(barnard_optical_depth_filter4)
• optical depth for the Direct Narrowband Filter6(barnard_optical_depth_filter6)
• rejection flag for Direct Narrowband Filter3(barnard_badflag_filter3)
• rejection flag for Direct Narrowband Filter4(barnard_badflag_filter4)
• rejection flag for Direct Narrowband Filter5(barnard_badflag_filter5)
• rejection flag for Direct Narrowband Filter6(barnard_badflag_filter6)
• rejection flag for Direct Narrowband Filter1(barnard_badflag_filter1)
• rejection flag for Direct Narrowband Filter2(barnard_badflag_filter2)
• number of points used in final linear fit for the Direct Broadband(barnard_number_points_broadband)
• lon(lon)
• solar constant corrected for solar distance for the Direct Narrowband Filter2(barnard_solar_constant_sdist_filter2)
• solar constant corrected for solar distance for the Direct Narrowband Filter3(barnard_solar_constant_sdist_filter3)
• Langley regression Io, adjusted to 1AU, Barnard, Direct Narrowband Filter4(barnard_solar_constant_sdist_filter4)
• solar constant corrected for solar distance for the Direct Narrowband Filter5(barnard_solar_constant_sdist_filter5)
• solar constant corrected for solar distance for the Direct Narrowband Filter6(barnard_solar_constant_sdist_filter6)
• solar constant corrected for solar distance for the Direct Narrowband Filter1(barnard_solar_constant_sdist_filter1)
• percentage of initial points used in final linear fit for the Direct Broadband(michalsky_good_fraction_broadband)
• number of points used in final linear fit for the Direct Narrowband Filter1(michalsky_number_points_filter1)
• number of points used in final linear fit for the Direct Narrowband Filter6(michalsky_number_points_filter6)
• number of points used in final linear fit for the Direct Narrowband Filter2(michalsky_number_points_filter2)
• number of points used in final linear fit for the Direct Narrowband Filter3(michalsky_number_points_filter3)
• number of points used in final linear fit for the Direct Narrowband Filter4(michalsky_number_points_filter4)
• number of points used in final linear fit for the Direct Narrowband Filter5(michalsky_number_points_filter5)
• error in optical depth (slope) of final linear fit for the Direct Broadband(barnard_error_slope_broadband)
• standard deviation around regression line for the Direct Narrowband Filter2(michalsky_standard_deviation_filter2)
• standard deviation around regression line for the Direct Narrowband Filter3(michalsky_standard_deviation_filter3)
• standard deviation around regression line for the Direct BroadBand(michalsky_standard_deviation_broadband)
• standard deviation around regression line for the Direct Narrowband Filter1(michalsky_standard_deviation_filter1)
• standard deviation around regression line for the Direct Narrowband Filter6(michalsky_standard_deviation_filter6)
• standard deviation around regression line for the Direct Narrowband Filter4(michalsky_standard_deviation_filter4)
• standard deviation around regression line for the Direct Narrowband Filter5(michalsky_standard_deviation_filter5)
• Barnard computed sun to earth distance(barnard_sun_earth_distance)
• North Latitude(lat)
• solar constant corrected for solar distance for the Direct Narrowband Filter1(michalsky_solar_constant_sdist_filter1)
• solar constant corrected for solar distance for the Direct Narrowband Filter2(michalsky_solar_constant_sdist_filter2)
• solar constant corrected for solar distance for the Direct Narrowband Filter5(michalsky_solar_constant_sdist_filter5)
• solar constant corrected for solar distance for the Direct Narrowband Filter6(michalsky_solar_constant_sdist_filter6)
• solar constant corrected for solar distance for the Direct Narrowband Filter3(michalsky_solar_constant_sdist_filter3)
• solar constant corrected for solar distance for the Direct Narrowband Filter4(michalsky_solar_constant_sdist_filter4)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter5(barnard_error_slope_filter5)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter4(barnard_error_slope_filter4)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter6(barnard_error_slope_filter6)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter1(barnard_error_slope_filter1)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter3(barnard_error_slope_filter3)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter2(barnard_error_slope_filter2)

• Quality check results on field: Reference thermistor temperature(qc_tref)
• Quality check results on field: Fractional water index, west profile(qc_fwi_w)
• Quality check results on field: Fractional water index, east profile(qc_fwi_e)
• Sensor temperature rise, east profile(trise_e)
• Sensor temperature rise, west profile(trise_w)
• lon(lon)
• North Latitude(lat)
• Volumetric water content, east profile(watcont_e)
• Time offset from base_time(time_offset)
• Volumetric water content, west profile(watcont_w)
• Quality check results on field: Soil temperature, west profile(qc_tsoil_w)
• Quality check results on field: Soil temperature, east profile(qc_tsoil_e)
• Soil water potential, east profile(soilwatpot_e)
• Soil water potential, west profile(soilwatpot_w)
• Quality check results on field: Soil water potential, west profile(qc_soilwatpot_w)
• Quality check results on field: Soil water potential, east profile(qc_soilwatpot_e)
• East profile sensor serial numbers(serial_numbers_e)
• West profile sensor serial numbers(serial_numbers_w)
• depth(depth)
• Reference sensor temperature rise, east profile(trise_ref_e)
• Reference sensor temperature rise, west profile(trise_ref_w)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• Quality check results on field: Volumetric water content, west profile(qc_watcont_w)
• Quality check results on field: Volumetric water content, east profile(qc_watcont_e)
• Reference Thermistor Temperature(tref)
• Quality check results on field: Sensor temperature rise, west profile(qc_trise_w)
• Quality check results on field: Sensor temperature rise, east profile(qc_trise_e)
• Soil temperature, west profile(tsoil_w)
• Soil temperature, east profile(tsoil_e)
• Quality check results on field: Reference sensor temperature rise, east profile(qc_trise_ref_e)
• Quality check results on field: Reference sensor temperature rise, west profile(qc_trise_ref_w)
• Fractional water index, east profile(fwi_e)
• Fractional water index, west profile(fwi_w)
• time_in_seconds_since_volume_start(time)

• Vapor pressure at 60m(vap_pres_60m)
• Temperature at 25 m(temp_25m)
• base time in epoch(base_time)
• Air temperature at 60m(temp_60m)
• Standard Deviation of 25 m Vapor Pressure(sd_vap_pres_25m)
• Relative humidity at 25 m(rh_25m)
• -180.0 - +180.0(alt)
• Relative humidity at 60m(rh_60m)
• lon(lon)
• Standard Deviation of 60 m Temperature(sd_temp_60m)
• North Latitude(lat)
• Standard Deviation of 25 m Relative Humidity(sd_rh_25m)
• Time offset from base_time(time_offset)
• Standard Deviation of 60 m Vapor Pressure(sd_vap_pres_60m)
• Standard Deviation of 25 m Temperature(sd_temp_25m)
• Standard Deviation of 60 m Relative Humidity(sd_rh_60m)
• 25 m Vapor Pressure(vap_pres_25m)

• Sky Infra Red Temperature Maxima(sky_ir_temp_max)
• Sky Infra-Red Temperature Minima(sky_ir_temp_min)
• North Latitude(lat)
• lon(lon)
• Sky Infra-Red Temperature(sky_ir_temp)
• Sky infrared temperature, standard deviation(sky_ir_temp_std)
• Number of averaged samples(samples_in_average)
• Internal Reference Infra Red Temperature(ref_ir_temp)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• time_in_seconds_since_volume_start(time)
• Time offset from base_time(time_offset)

• time_in_seconds_since_volume_start(time)
• -180.0 - +180.0(alt)
• Absorption Coefficient Red, corrected for flow and sample area, 3 wavelength
  PSAP, 1 um size cut(Ba_R_Dry_1um_PSAP3W_1)
• Absorption coefficient, blue wavelength, 3 wavelength PSAP, low RH, 1 um size
  cut(Ba_B_Dry_1um_PSAP3W_1)
• AOS PSAP3W mass flow, mV(mass_flow_voltage)
• base time in epoch(base_time)
• Absorption coefficient, green wavelength, 3 wavelength PSAP, low RH, 10 um size
  cut(Ba_G_Dry_10um_PSAP3W_1)
• Time offset from base_time(time_offset)
• AOS PSAP3W transmittance, green channel(TrG)
• AOS PSAP3W transmittance, blue channel(TrB)
• AOS PSAP3W transmittance, red channel(TrR)
• Averaging time interval(averaging_time)
• Absorption coefficient, blue wavelength, 3 wavelength PSAP, low RH, 10 um size
  cut(Ba_B_Dry_10um_PSAP3W_1)
• Absorption Coefficient Red, corrected for flow and sample area, 3 wavelength
  PSAP, 10 um size cut(Ba_R_Dry_10um_PSAP3W_1)
• North Latitude(lat)
• lon(lon)
• AOS PSAP3W flags(psap_flags)
• Absorption coefficient green, corrected for flow and sample area, 3 wavelength
  PSAP, 1 um size cut(Ba_G_Dry_1um_PSAP3W_1)
• Mass flow(mass_flow)

• Top air temperature(temp_air_top)
• Half hour averaged soil temperature 5(soil_temp_5)
• Soil temperature mean 3(soil_temp_3)
• Half hour averaged soil temperature 4(soil_temp_4)
• Soil temperature 1(soil_temp_1)
• Soil temperature 2(soil_temp_2)
• Quality check results on field: Wind speed vector mean(qc_wspd_vec_mean)
• Time offset from base_time(time_offset)
• Quality check results on field: Bottom relative humidity (fractional)(qc_rh_bottom_fraction)
• Bottom air temperature(temp_air_bottom)
• Surface latent heat flux(latent_heat_flux)
• Quality check results on field: Wind speed arithmetic mean(qc_wspd_arith_mean)
• Bottom relative humidity (fractional)(rh_bottom_fraction)
• Quality check results on field: Surface soil heat flux, average of fluxes 1-5(qc_surface_soil_heat_flux_avg)
• time_in_seconds_since_volume_start(time)
• Bowen ratio(bowen_ratio)
• Quality check results on field: Surface soil heat flux 1(qc_surface_soil_heat_flux_1)
• Quality check results on field: Surface soil heat flux 2(qc_surface_soil_heat_flux_2)
• Quality check results on field: Surface soil heat flux 3(qc_surface_soil_heat_flux_3)
• Quality check results on field: Surface soil heat flux 4(qc_surface_soil_heat_flux_4)
• Quality check results on field: Surface soil heat flux 5(qc_surface_soil_heat_flux_5)
• Quality check results on field: Bottom air temperature(qc_temp_air_bottom)
• Quality check results on field: Corrected latent heat flux(qc_latent_heat_flux)
• Wind direction vector mean(wdir_vec_mean)
• Quality check results on field: Soil heat capacity 4(qc_soil_heat_capacity_4)
• Quality check results on field: Soil heat capacity 3(qc_soil_heat_capacity_3)
• Quality check results on field: Soil heat capacity 2(qc_soil_heat_capacity_2)
• Quality check results on field: Soil heat capacity 1(qc_soil_heat_capacity_1)
• Quality check results on field: Soil heat capacity 5(qc_soil_heat_capacity_5)
• Wind speed vector mean(wspd_vec_mean)
• lon(lon)
• Quality check results on field: Net radiation(qc_net_radiation)
• Quality check results on field: Soil moisture 4, gravimetric(qc_soil_moisture_4)
• Quality check results on field: Soil moisture 5, gravimetric(qc_soil_moisture_5)
• Quality check results on field: Soil moisture 2, gravimetric(qc_soil_moisture_2)
• Quality check results on field: Soil moisture 3, gravimetric(qc_soil_moisture_3)
• Quality check results on field: Soil moisture 1, gravimetric(qc_soil_moisture_1)
• Surface sensible heat flux(sensible_heat_flux)
• Top T/RH sensor temperature(temp_trh_top)
• Quality check results on field: Soil heat flow 3(qc_soil_heat_flow_3)
• Quality check results on field: Soil heat flow 4(qc_soil_heat_flow_4)
• Quality check results on field: Soil heat flow 1(qc_soil_heat_flow_1)
• Quality check results on field: Soil heat flow 2(qc_soil_heat_flow_2)
• Quality check results on field: Soil heat flow 5(qc_soil_heat_flow_5)
• Wind speed arithmetic mean(wspd_arith_mean)
• Change in energy storage 5, 0-5 cm soil layer(energy_storage_change_5)
• Change in energy storage 4, 0-5 cm soil layer(energy_storage_change_4)
• Change in energy storage 1, 0-5 cm soil layer(energy_storage_change_1)
• Change in energy storage 3, 0-5 cm soil layer(energy_storage_change_3)
• Change in energy storage 2, 0-5 cm soil layer(energy_storage_change_2)
• Quality check results on field: Reference temperature in enclosure(qc_temp_reference)
• Quality check results on field: Sensible heat flux(qc_sensible_heat_flux)
• AEM position indicator 0 to 15 mins(home_signal_15)
• AEM position indicator 15 to 30 mins(home_signal_30)
• Atmospheric pressure(atmos_pressure)
• Top relative humidity (fractional)(rh_top_fraction)
• Soil heat flow 3(soil_heat_flow_3)
• Soil heat flow 2(soil_heat_flow_2)
• Soil heat flow 5(soil_heat_flow_5)
• Soil heat flow 4(soil_heat_flow_4)
• Soil heat flow 1(soil_heat_flow_1)
• Soil heat flow 5, corrected for soil moisture(corr_soil_heat_flow_5)
• Soil heat flow 3, corrected for soil moisture(corr_soil_heat_flow_3)
• Soil heat flow 4, corrected for soil moisture(corr_soil_heat_flow_4)
• Soil heat flow 1, corrected for soil moisture(corr_soil_heat_flow_1)
• Soil heat flow 2, corrected for soil moisture(corr_soil_heat_flow_2)
• Quality check results on field: Top T/RH sensor temperature(qc_temp_trh_top)
• Bottom T/RH sensor temperature(temp_trh_bottom)
• Quality check results on field: Bowen ratio(qc_bowen_ratio)
• Quality check results on field: Wind direction vector mean standard deviation(qc_wdir_vec_std)
• Bottom vapor pressure(vapor_pressure_bottom)
• Top vapor pressure(vapor_pressure_top)
• Quality check results on field: Wind direction vector mean(qc_wdir_vec_mean)
• Surface soil heat flux, average of fluxes 1-5(surface_soil_heat_flux_avg)
• Wind direction vector mean standard deviation(wdir_vec_std)
• Quality check results on field: Half hour averaged soil temperature 5(qc_soil_temp_5)
• Quality check results on field: Half hour averaged soil temperature 4(qc_soil_temp_4)
• Quality check results on field: Soil temperature 3(qc_soil_temp_3)
• Quality check results on field: Soil temperature 2(qc_soil_temp_2)
• Quality check results on field: Soil temperature 1(qc_soil_temp_1)
• Quality check results on field: Top air temperature(qc_temp_air_top)
• base time in epoch(base_time)
• North Latitude(lat)
• Quality check results on field: Top vapor pressure(qc_vapor_pressure_top)
• Quality check results on field: AEM position indicator 15 to 30 mins(qc_home_signal_30)
• Quality check results on field: AEM position indicator 0 to 15 mins(qc_home_signal_15)
• Time range for the hourly averages, in time offset from midnight(time_bounds)
• Quality check results on field: Bottom T/RH sensor temperature(qc_temp_trh_bottom)
• Quality check results on field: Bottom vapor pressure(qc_vapor_pressure_bottom)
• Surface soil heat flux 5(surface_soil_heat_flux_5)
• Surface soil heat flux 4(surface_soil_heat_flux_4)
• Surface soil heat flux 3(surface_soil_heat_flux_3)
• Surface soil heat flux 2(surface_soil_heat_flux_2)
• Surface soil heat flux 1(surface_soil_heat_flux_1)
• Quality check results on field: Top relative humidity (fractional)(qc_rh_top_fraction)
• Quality check results on field: Change in energy storage 5, 0-5 cm soil layer(qc_energy_storage_change_5)
• Quality check results on field: Change in energy storage 1, 0-5 cm soil layer(qc_energy_storage_change_1)
• Quality check results on field: Change in energy storage 2, 0-5 cm soil layer(qc_energy_storage_change_2)
• Quality check results on field: Change in energy storage 3, 0-5 cm soil layer(qc_energy_storage_change_3)
• Quality check results on field: Change in energy storage 4, 0-5 cm soil layer(qc_energy_storage_change_4)
• -180.0 - +180.0(alt)
• Net radiation(net_radiation)
• Soil moisture 2, gravimetric(soil_moisture_2)
• Soil moisture 1, gravimetric(soil_moisture_1)
• Soil moisture 4, gravimetric(soil_moisture_4)
• Soil moisture 3, gravimetric(soil_moisture_3)
• Soil moisture 5, gravimetric(soil_moisture_5)
• Soil heat capacity 5(soil_heat_capacity_5)
• Soil heat capacity 4(soil_heat_capacity_4)
• Soil heat capacity 3(soil_heat_capacity_3)
• Soil heat capacity 2(soil_heat_capacity_2)
• Soil heat capacity 1(soil_heat_capacity_1)
• Quality check results on field: Soil heat flow 2, corrected for soil moisture(qc_corr_soil_heat_flow_2)
• Quality check results on field: Soil heat flow 3, corrected for soil moisture(qc_corr_soil_heat_flow_3)
• Quality check results on field: Soil heat flow 1, corrected for soil moisture(qc_corr_soil_heat_flow_1)
• Quality check results on field: Soil heat flow 4, corrected for soil moisture(qc_corr_soil_heat_flow_4)
• Quality check results on field: Soil heat flow 5, corrected for soil moisture(qc_corr_soil_heat_flow_5)
• Quality check results on field: Atmospheric pressure(qc_atmos_pressure)
• Reference temperature in enclosure(temp_reference)

• time_in_seconds_since_volume_start(time)
• Signal-to-noise-ratio(snr)
• Sample Rate(sampr)
• Array of heights for each sample time(height_t)
• Height of Center of First Range Gate(rgf)
• Range gate spacing(rgs)
• Height of center of last range gate(rgl)
• Time Domain Integration Time(tditime)
• Pulse repetition frequency(prf)
• lon(lon)
• Mean atmospheric vertical velocity(mdf)
• Number of Valid Heights(nheight)
• Rx Bandwidth Switch Code(bswitch)
• Individual Spectrum Integration Time(sitime)
• Vertical FFT Bandwidth(vband)
• Radial Velocity Spectral Resolution(vsr)
• Height Index(range_gate)
• -180.0 - +180.0(alt)
• Number of Coherent Samples/Spectral Point(ncoh)
• base time in epoch(base_time)
• Number of pulse code bits(pcbits)
• Spectral Width: vert velocity(specw)
• Ave Time per Average Spectra. Also known as dwell.(spcavetime)
• Pulse length(plen)
• North Latitude(lat)
• Time offset from base_time(time_offset)
• 1000 * log10(noise signal level)(noise)
• Interpulse period(ipp)
• Number of Individual Spectra/Average Spectrum(nspc)
• Delay Time to 1st Gate(dly)

• time_in_seconds_since_volume_start(time)
• Relative phase between microphone and laser power modulation, 781nm wavelength(relative_phase_781nm)
• Average background subtracted, 405nm wavelength(avg_phase_subtracted_405nm)
• Scattering coefficient calibration factor, 405nm wavelength(scat_coef_calib_405nm)
• Laser phase, 781 nm wavelength(laser_phase_781nm)
• Average background subtracted, 532nm wavelength(avg_phase_subtracted_532nm)
• Microphone calibration factor(microphone_calib_factor)
• Relative phase between microphone and laser power modulation, 532 nm wavelength(relative_phase_532nm)
• Laser phase, 532 nm wavelength(laser_phase_532nm)
• Scattering coefficient calibration factor, 781nm wavelength(scat_coef_calib_781nm)
• Accumulated absorption coefficient for 1 LPM, 405nm wavelength(accumulated_absorp_coef_lpm_405nm)
• Average background subtracted, 781nm wavelength(avg_phase_subtracted_781nm)
• Photo diode calibration factor for laser power measurement, 532 nm wavelength(photo_diode_calibration_factor_532nm)
• Scattering coefficient calibration factor, 532nm wavelength(scat_coef_calib_532nm)
• North Latitude(lat)
• lon(lon)
• Amplification range for preamplifier(amplification_range)
• Accumulated absorption coefficient for 1 LPM, 532nm wavelength(accumulated_absorp_coef_lpm_532nm)
• Laser phase, 405 nm wavelength(laser_phase_405nm)
• Photo diode calibration factor for laser power measurement, 781 nm wavelength(photo_diode_calibration_factor_781nm)
• Current average scattering coefficient, 781nm wavelength(current_avg_scat_coef_781nm)
• Current average scattering coefficient, 532nm wavelength(current_avg_scat_coef_532nm)
• Accumulated scattering coefficient for 1 LPM , 781nm wavelength(accumulated_scat_coef_lpm_781nm)
• Quality factor(qfactor)
• Difference in modulation frequencies between lasers(modulation_frequency_difference)
• Accumulated absorption coefficient for 1 LPM, 781nm wavelength(accumulated_absorp_coef_lpm_781nm)
• Current average absorption coefficient, 781nm wavelength(current_avg_absorp_coef_781nm)
• Time offset from base_time(time_offset)
• Photo diode calibration factor for laser power measurement, 405 nm wavelength(photo_diode_calibration_factor_405nm)
• Current average scattering coefficient, 405nm wavelength(current_avg_scat_coef_405nm)
• Accumulated scattering coefficient for 1 LPM , 405nm wavelength(accumulated_scat_coef_lpm_405nm)
• Current average absorption coefficient, 405nm wavelength(current_avg_absorp_coef_405nm)
• Amp gain(amp_gain)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• Relative phase between microphone and laser power modulation, 405 nm wavelength(relative_phase_405nm)
• Accumulated scattering coefficient for 1 LPM , 532nm wavelength(accumulated_scat_coef_lpm_532nm)
• Current average absorption coefficient, 532nm wavelength(current_avg_absorp_coef_532nm)

• Derived pressure(pressure)
• Mean of radiance spectra ensemble(mean_rad)
• North Latitude(lat)
• Thermistor input channel number 6 (counting from 0) equivalent temperature(thermistor6)
• Thermistor input channel number 7 (counting from 0) equivalent temperature(thermistor7)
• Electronics Air(thermistor8)
• Thermistor input channel number 9 (counting from 0) equivalent temperature(thermistor9)
• Reflected Temperature(thermistor2)
• Thermistor input channel number 3 (counting from 0) equivalent temperature(thermistor3)
• Thermistor input channel number 4 (counting from 0) equivalent temperature(thermistor4)
• ABB #1(thermistor5)
• Ambient Air near BBs(thermistor0)
• Thermistor input channel number 1 (counting from 0) equivalent temperature(thermistor1)
• lon(lon)
• base time in epoch(base_time)
• Bomem Time(timeBomemHHMM)
• Hot Blackbody Temperature(hotBBTemp)
• Difference between the sky view\'s radiance variance and the hot black body
  view\'s variance(standard_dev_mean_rad)
• Cold Blackbody Temperature(coldBBTemp)
• Initial data quality flag(dataType)
• Hatch Closed Indicator(thermistor10)
• Thermistor input channel number 11 (counting from 0) equivalent temperature(thermistor11)
• Thermistor input channel number 12 (counting from 0) equivalent temperature(thermistor12)
• Spare #2(thermistor13)
• -180.0 - +180.0(alt)
• Relative Humidity(humidity_relative)
• Wave number in reciprocal centimeters(wnum2)
• Original Record Number in CVI or RVI file(originalRecordNumber)
• wavenumbers for mean radiance spectra(wnum)
• Time offset from base_time(time_offset)
• Time at center of AERI sky observation period(timeHHMMSS)
• Reflected Temperature(reflectedTemp)

• (Raw data stream - documentation not supported)

• Derived pressure(pressure)
• North Latitude(lat)
• lon(lon)
• Hot Blackbody Temperature(hotBBTemp)
• Cold Blackbody Temperature(coldBBTemp)
• Original Record Number in CVI or RVI file(originalRecordNumber)
• Difference between the sky view\'s radiance variance and the hot black body
  view\'s variance(standard_dev_mean_rad)
• Thermistor input channel number 11 (counting from 0) equivalent temperature(thermistor11)
• Hatch Closed Indicator(thermistor10)
• Spare #2(thermistor13)
• Thermistor input channel number 12 (counting from 0) equivalent temperature(thermistor12)
• wavenumbers for mean radiance spectra(wnum)
• Time at center of AERI sky observation period(timeHHMMSS)
• Reflected Temperature(reflectedTemp)
• Mean of radiance spectra ensemble(mean_rad)
• Initial data quality flag(dataType)
• Bomem Time(timeBomemHHMM)
• base time in epoch(base_time)
• -180.0 - +180.0(alt)
• Relative Humidity(humidity_relative)
• Thermistor input channel number 9 (counting from 0) equivalent temperature(thermistor9)
• Electronics Air(thermistor8)
• Thermistor input channel number 7 (counting from 0) equivalent temperature(thermistor7)
• Thermistor input channel number 6 (counting from 0) equivalent temperature(thermistor6)
• ABB #1(thermistor5)
• Thermistor input channel number 4 (counting from 0) equivalent temperature(thermistor4)
• Thermistor input channel number 3 (counting from 0) equivalent temperature(thermistor3)
• Reflected Temperature(thermistor2)
• Thermistor input channel number 1 (counting from 0) equivalent temperature(thermistor1)
• Ambient Air near BBs(thermistor0)
• Wave number in reciprocal centimeters(wnum2)
• Time offset from base_time(time_offset)

• Normalized filter function data, filter 1, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter1)
• Normalized filter function data, filter 4, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter4)
• Normalized filter function data, filter 5, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter5)
• Normalized filter function data, filter 2, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter2)
• Normalized filter function data, filter 3, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter3)
• Normalized filter function data, filter 6, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter6)
• Normalized filter function data, filter 6, wavelength value obtained during
  bench calibrations(wavelength_filter6)
• Normalized filter function data, filter 2, wavelength value obtained during
  bench calibrations(wavelength_filter2)
• Normalized filter function data, filter 3, wavelength value obtained during
  bench calibrations(wavelength_filter3)
• Normalized filter function data, filter 4, wavelength value obtained during
  bench calibrations(wavelength_filter4)
• Normalized filter function data, filter 5, wavelength value obtained during
  bench calibrations(wavelength_filter5)
• Normalized filter function data, filter 1, wavelength value obtained during
  bench calibrations(wavelength_filter1)
• Quality check results on field: Narrowband Direct Normal Irradiance, Filter 5,
  cosine corrected(qc_direct_normal_narrowband_filter5)
• Quality check results on field: Narrowband direct normal irradiance, filter 4,
  cosine corrected(qc_direct_normal_narrowband_filter4)
• Quality check results on field: Narrowband direct normal irradiance, filter 3,
  cosine corrected(qc_direct_normal_narrowband_filter3)
• Quality check results on field: Narrowband Direct Normal Irradiance, Filter 2(qc_direct_normal_narrowband_filter2)
• Quality check results on field: Direct normal narrowband irradiance, filter 1(qc_direct_normal_narrowband_filter1)
• Quality check results on field: Direct normal narrowband irradiance, filter 6(qc_direct_normal_narrowband_filter6)
• -180.0 - +180.0(alt)
• Cosine correction of broadband diffuse, assuming Rayleigh sky at 45 degree
  zenith angle(diffuse_correction_broadband)
• Data logger supply voltage(logger_volt)
• Quality check results on field: Alltime narrowband hemispheric irradiance,
  filter 3(qc_alltime_hemisp_narrowband_filter3)
• Quality check results on field: Alltime Narrowband Hemispheric Irradiance,
  Filter 2(qc_alltime_hemisp_narrowband_filter2)
• Quality check results on field: Alltime Narrowband Hemispheric Irradiance,
  Filter 5(qc_alltime_hemisp_narrowband_filter5)
• Quality check results on field: Alltime narrowband hemispheric irradiance,
  filter 4(qc_alltime_hemisp_narrowband_filter4)
• Quality check results on field: Alltime Narrowband Hemispheric Irradiance,
  Filter 1(qc_alltime_hemisp_narrowband_filter1)
• Quality check results on field: Alltime narrowband hemispheric irradiance,
  filter 6(qc_alltime_hemisp_narrowband_filter6)
• Ratio of direct_normal_filter1 to diffuse_hemisp_filter1(direct_diffuse_ratio_filter1)
• Ratio of direct_normal_filter2 to diffuse_hemisp_filter2(direct_diffuse_ratio_filter2)
• Ratio of direct_normal_narrowband_filter3 to diffuse_hemisp_narrowband_filter3(direct_diffuse_ratio_filter3)
• Ratio of direct_normal_filter4 to diffuse_hemisp_filter4(direct_diffuse_ratio_filter4)
• Ratio of direct_normal_filter5 to diffuse_hemisp_filter5(direct_diffuse_ratio_filter5)
• Ratio of direct_normal_narrowband_filter6 to diffuse_hemisp_narrowband_filter6(direct_diffuse_ratio_filter6)
• Nominal calibration factor, applied to filter1 data(nominal_calibration_factor_filter1)
• Nominal calibration factor, applied to filter3 data(nominal_calibration_factor_filter3)
• Nominal calibration factor, applied to filter2 data(nominal_calibration_factor_filter2)
• Nominal calibration factor, applied to filter5 data(nominal_calibration_factor_filter5)
• Nominal calibration factor, applied to filter4 data(nominal_calibration_factor_filter4)
• Nominal calibration factor, applied to filter6 data(nominal_calibration_factor_filter6)
• Direct normal narrowband irradiance, filter 4, offset corrected(direct_normal_narrowband_filter4)
• Narrowband Direct Normal Irradiance, Filter 3, cosine corrected(direct_normal_narrowband_filter3)
• Direct normal narrowband irradiance, filter 6, offset corrected(direct_normal_narrowband_filter6)
• Narrowband Direct Normal Irradiance, Filter 5(direct_normal_narrowband_filter5)
• Direct normal narrowband irradiance, filter 2, offset corrected(direct_normal_narrowband_filter2)
• Narrowband Direct Normal Irradiance, Filter 1(direct_normal_narrowband_filter1)
• Cosine solar zenith angle(cosine_solar_zenith_angle)
• Narrowband hemispheric irradiance, filter 3, offset and cosine corrected(hemisp_narrowband_filter3)
• Narrowband Hemispheric Irradiance, Filter 2(hemisp_narrowband_filter2)
• Narrowband Hemispheric Irradiance, Filter 1, offset corrected(hemisp_narrowband_filter1)
• Narrowband hemispheric irradiance, filter 6, nominal wavelength is 935 nm(hemisp_narrowband_filter6)
• Narrowband Hemispheric Irradiance, Filter 5, offset corrected(hemisp_narrowband_filter5)
• Narrowband hemispheric irradiance, filter 4, offset and cosine corrected(hemisp_narrowband_filter4)
• Alltime narrowband hemispheric irradiance, filter 1(alltime_hemisp_narrowband_filter1)
• Alltime narrowband hemispheric irradiance, filter 2(alltime_hemisp_narrowband_filter2)
• Alltime Narrowband Hemispheric Irradiance, Filter 3(alltime_hemisp_narrowband_filter3)
• Alltime Narrowband Hemispheric Irradiance, Filter 4(alltime_hemisp_narrowband_filter4)
• Alltime narrowband hemispheric irradiance, filter 5(alltime_hemisp_narrowband_filter5)
• Alltime Narrowband Hemispheric Irradiance, Filter 6(alltime_hemisp_narrowband_filter6)
• lon(lon)
• North Latitude(lat)
• Cosine correction applied to direct_horizontal_broadband(computed_cosine_correction_broadband)
• Direct Horizontal Broadband Irradiance(direct_horizontal_broadband)
• Time offset from base_time(time_offset)
• Second detector temperature(head_temp2)
• Offset subtracted from hemispheric filter1 data(offset_filter1)
• Offset subtracted from direct normal filter4 data(offset_filter4)
• Offset subtracted from upwelling hemispheric filter5 data(offset_filter5)
• Offset subtracted from upwelling hemispheric filter2 data(offset_filter2)
• Offset subtracted from direct normal filter3 data(offset_filter3)
• angle of incidence during cosine bench measurements(bench_angle)
• Offset subtracted from hemispheric and diffuse filter6 data(offset_filter6)
• Quality check results on field: Hemispheric Broadband Irradiance, offset and
  cosine corrected, broadband scale factor applied(qc_hemisp_broadband)
• Quality check results on field: Internal logger temperature(qc_logger_temperature)
• Diffuse Hemispheric Broadband Irradiance, offset corrected(diffuse_hemisp_broadband)
• Azimuth angle(azimuth_angle)
• Quality check results on field: Detector Temperature(qc_head_temp)
• Quality check results on field: Alltime Hemispheric Broadband Irradiance(qc_alltime_hemisp_broadband)
• Quality check results on field: Diffuse hemispheric broadband irradiance, offset
  subtracted, cosine corrected, broadband scale applied(qc_diffuse_hemisp_broadband)
• Quality check results on field: Second detector temperature(qc_head_temp2)
• Solar zenith angle(solar_zenith_angle)
• cosine correction, west to east, broadband channel(cosine_correction_we_broadband)
• Quality check results on field: Narrowband Hemispheric Irradiance, Filter 6,
  offset and cosine corrected(qc_hemisp_narrowband_filter6)
• Quality check results on field: Narrowband hemispheric irradiance, filter 5,
  offset and cosine corrected(qc_hemisp_narrowband_filter5)
• Quality check results on field: Narrowband hemispheric irradiance, filter 2,
  offset and cosine corrected(qc_hemisp_narrowband_filter2)
• Quality check results on field: Narrowband Hemispheric Irradiance, Filter 1,
  offset and cosine corrected(qc_hemisp_narrowband_filter1)
• Quality check results on field: Narrowband hemispheric irradiance, filter 4,
  offset and cosine corrected(qc_hemisp_narrowband_filter4)
• Quality check results on field: Narrowband Hemispheric Irradiance, Filter 3,
  offset and cosine corrected(qc_hemisp_narrowband_filter3)
• Air mass(airmass)
• Hemispheric broadband irradiance(hemisp_broadband)
• base time in epoch(base_time)
• Narrowband Direct Horizontal Irradiance, Filter 6, cosine corrected(direct_horizontal_narrowband_filter6)
• Narrowband Direct Horizontal Irradiance, Filter 5, cosine corrected(direct_horizontal_narrowband_filter5)
• Narrowband Direct Horizontal Irradiance, Filter 4, cosine corrected(direct_horizontal_narrowband_filter4)
• Cosine correction of filter6 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter6)
• Cosine correction of filter3 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter3)
• Cosine correction of filter2 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter2)
• Cosine correction of filter5 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter5)
• Cosine correction of filter4 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter4)
• Cosine correction of filter1 diffuse, assuming Rayleigh sky at 45 degree zenith
  angle(diffuse_correction_filter1)
• Direct Horizontal Narrowband Irradiance, Filter 3(direct_horizontal_narrowband_filter3)
• Narrowband Direct Horizontal Irradiance, Filter 2, cosine corrected(direct_horizontal_narrowband_filter2)
• Direct horizontal narrowband irradiance, filter 1(direct_horizontal_narrowband_filter1)
• Elevation angle(elevation_angle)
• Direct Normal Broadband Irradiance, cosine corrected, broadband scale applied(direct_normal_broadband)
• Logger temperature(logger_temperature)
• Quality check results on field: Narrowband Direct Horizontal Irradiance, Filter
  1, cosine corrected(qc_direct_horizontal_narrowband_filter1)
• Quality check results on field: Direct horizontal narrowband irradiance, filter
  2(qc_direct_horizontal_narrowband_filter2)
• Quality check results on field: Narrowband Direct Horizontal Irradiance, Filter
  5(qc_direct_horizontal_narrowband_filter5)
• Quality check results on field: Narrowband direct horizontal irradiance, filter
  6, cosine corrected(qc_direct_horizontal_narrowband_filter6)
• Quality check results on field: Direct horizontal narrowband irradiance, filter
  3(qc_direct_horizontal_narrowband_filter3)
• Quality check results on field: Narrowband Direct Horizontal Irradiance, Filter
  4(qc_direct_horizontal_narrowband_filter4)
• Offset subtracted from hemispheric and diffuse broadband data(offset_broadband)
• Cosine correction applied to direct_horizontal_narrowband_filter2(computed_cosine_correction_filter2)
• Cosine correction applied to direct_horizontal_filter1(computed_cosine_correction_filter1)
• Cosine correction applied to direct_horizontal_filter6(computed_cosine_correction_filter6)
• Cosine correction applied to direct_horizontal_filter5(computed_cosine_correction_filter5)
• Cosine correction applied to direct_horizontal_narrowband_filter4(computed_cosine_correction_filter4)
• Cosine correction applied to direct_horizontal_narrowband_filter3(computed_cosine_correction_filter3)
• time_in_seconds_since_volume_start(time)
• Cosine correction, west to east, filter1(cosine_correction_we_filter1)
• cosine correction, west to east, filter3(cosine_correction_we_filter3)
• cosine correction, west to east, filter2(cosine_correction_we_filter2)
• Cosine correction, west to east, filter5(cosine_correction_we_filter5)
• Cosine correction, west to east, filter4(cosine_correction_we_filter4)
• cosine correction, west to east, filter6(cosine_correction_we_filter6)
• Alltime hemispheric broadband irradiance(alltime_hemisp_broadband)
• Quality check results on field: Direct Normal Broadband Irradiance broadband
  scale applied(qc_direct_normal_broadband)
• Detector temperature(head_temp)
• Cosine correction, south to north, filter2(cosine_correction_sn_filter2)
• cosine correction, south to north, filter1(cosine_correction_sn_filter1)
• cosine correction, south to north, filter6(cosine_correction_sn_filter6)
• cosine correction, south to north, filter5(cosine_correction_sn_filter5)
• Cosine correction, south to north, filter4(cosine_correction_sn_filter4)
• Cosine correction, south to north, filter3(cosine_correction_sn_filter3)
• Quality check results on field: Ratio of direct_normal_narrowband_filter6 to
  diffuse_hemisp_narrowband_filter6(qc_direct_diffuse_ratio_filter6)
• Quality check results on field: Ratio of direct_normal_filter4 to
  diffuse_hemisp_filter4(qc_direct_diffuse_ratio_filter4)
• Quality check results on field: Ratio of direct_normal_narrowband_filter5 to
  diffuse_hemisp_narrowband_filter5(qc_direct_diffuse_ratio_filter5)
• Quality check results on field: Ratio of direct_normal_filter2 to
  diffuse_hemisp_filter2(qc_direct_diffuse_ratio_filter2)
• Quality check results on field: Ratio of direct_normal_filter3 to
  diffuse_hemisp_filter3(qc_direct_diffuse_ratio_filter3)
• Quality check results on field: Ratio of direct_normal_narrowband_filter1 to
  diffuse_hemisp_narrowband_filter1(qc_direct_diffuse_ratio_filter1)
• Nominal calibration factor, applied to broadband data(nominal_calibration_factor_broadband)
• Quality check results on field: Ratio of direct_normal_broadband to
  diffuse_hemisp_broadband(qc_direct_diffuse_ratio_broadband)
• Quality check results on field: Narrowband Diffuse Hemispheric Irradiance,
  Filter 5, offset and cosine corrected(qc_diffuse_hemisp_narrowband_filter5)
• Quality check results on field: Narrowband Diffuse Hemispheric Irradiance,
  Filter 4, offset and cosine corrected(qc_diffuse_hemisp_narrowband_filter4)
• Quality check results on field: Narrowband diffuse hemispheric irradiance,
  filter 3, offset and cosine corrected(qc_diffuse_hemisp_narrowband_filter3)
• Quality check results on field: Narrowband diffuse hemispheric irradiance,
  filter 2, offset and cosine corrected(qc_diffuse_hemisp_narrowband_filter2)
• Quality check results on field: Narrowband diffuse hemispheric irradiance,
  filter 6, offset and cosine corrected(qc_diffuse_hemisp_narrowband_filter6)
• Quality check results on field: Narrowband Diffuse Hemispheric Irradiance,
  Filter 1, offset and cosine corrected(qc_diffuse_hemisp_narrowband_filter1)
• Quality check results on field: Data Logger Supply Voltage(qc_logger_volt)
• cosine correction, south to north, broadband channel(cosine_correction_sn_broadband)
• Ratio of direct_normal_broadband to diffuse_hemisp_broadband(direct_diffuse_ratio_broadband)
• Diffuse Narrowband Hemispheric Irradiance, Filter 6, offset corrected(diffuse_hemisp_narrowband_filter6)
• Narrowband diffuse hemispheric irradiance, filter 5, offset and cosine corrected(diffuse_hemisp_narrowband_filter5)
• Diffuse Narrowband Hemispheric Irradiance, Filter 2, offset corrected(diffuse_hemisp_narrowband_filter2)
• Diffuse Narrowband Hemispheric Irradiance, Filter 1, offset corrected(diffuse_hemisp_narrowband_filter1)
• Diffuse Narrowband Hemispheric Irradiance, Filter 4(diffuse_hemisp_narrowband_filter4)
• Diffuse Narrowband Hemispheric Irradiance, Filter 3(diffuse_hemisp_narrowband_filter3)
• Quality check results on field: Direct horizontal broadband irradiance, cosine
  corrected(qc_direct_horizontal_broadband)

• (Raw data stream - documentation not supported)

• time_in_seconds_since_volume_start(time)
• Wind speed vector mean(wspd_vec_mean)
• Quality check results on field: Wind direction vector mean(qc_wdir_vec_mean)
• North Latitude(lat)
• lon(lon)
• TBRG precipitation total, corrected(tbrg_precip_total_corr)
• Time offset from base_time(time_offset)
• Quality check results on field: Temperature mean(qc_temp_mean)
• Wind speed arithmetic mean(wspd_arith_mean)
• Quality check results on field: Wind direction vector mean standard deviation(qc_wdir_vec_std)
• Atmospheric pressure(atmos_pressure)
• Vapor pressure mean, calculated(vapor_pressure_mean)
• -180.0 - +180.0(alt)
• Quality check results on field: TBRG precipitation total(qc_tbrg_precip_total)
• Quality check results on field: TBRG precipitation total, corrected(qc_tbrg_precip_total_corr)
• Quality check results on field: Relative humidity mean(qc_rh_mean)
• TBRG precipitation total(tbrg_precip_total)
• Wind direction vector mean standard deviation(wdir_vec_std)
• base time in epoch(base_time)
• Quality check results on field: Wind speed arithmetic mean(qc_wspd_arith_mean)
• Temperature mean(temp_mean)
• Quality check results on field: Atmospheric pressure(qc_atmos_pressure)
• Quality check results on field: Vapor pressure mean, calculated(qc_vapor_pressure_mean)
• Results of quality checks on sample time(qc_time)
• Quality check results on field: Wind speed vector mean(qc_wspd_vec_mean)
• Wind direction vector mean(wdir_vec_mean)
• Relative humidity observed by the Raman lidar(rh_mean)

• Number of Valid Heights(nheight)
• Vertical FFT Bandwidth(vband)
• -180.0 - +180.0(alt)
• Spectral Data(spc_amp)
• Height Index(range_gate)
• Sample Rate(sampr)
• base time in epoch(base_time)
• Particle radius at logarithmic center of bin(bins)
• Delay Time to 1st Gate(dly)
• North Latitude(lat)
• time_in_seconds_since_volume_start(time)
• Interpulse period(ipp)
• Ave Time per Average Spectra. Also known as dwell.(spcavetime)
• Number of Individual Spectra/Average Spectrum(nspc)
• Rx Bandwidth Switch Code(bswitch)
• lon(lon)
• Height of Center of First Range Gate(rgf)
• Height of center of last range gate(rgl)
• Range gate spacing(rgs)
• Pulse repetition frequency(prf)
• Array of heights for each sample time(height_t)
• Number of pulse code bits(pcbits)
• Radial Velocity Spectral Resolution(vsr)
• Time Domain Integration Time(tditime)
• Time offset from base_time(time_offset)
• Individual Spectrum Integration Time(sitime)
• Number of Coherent Samples/Spectral Point(ncoh)
• Pulse length(plen)

• Offset subtracted from hemispheric and diffuse broadband data(offset_broadband)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• Diffuse Narrowband Hemispheric Irradiance, Filter 2(diffuse_hemisp_narrowband_filter2_raw)
• Narrowband hemispheric irradiance, filter 5(hemisp_narrowband_filter5_raw)
• Diffuse Hemispheric Broadband Irradiance(diffuse_hemisp_broadband_raw)
• Diffuse narrowband hemispheric irradiance, filter 1(diffuse_hemisp_narrowband_filter1_raw)
• Narrowband Hemispheric Irradiance, Filter 6(hemisp_narrowband_filter6_raw)
• Alltime Narrowband Hemispheric Irradiance, Filter 4(alltime_hemisp_narrowband_filter4)
• Alltime Narrowband Hemispheric Irradiance, Filter 3(alltime_hemisp_narrowband_filter3)
• Alltime Narrowband Hemispheric Irradiance, Filter 6(alltime_hemisp_narrowband_filter6)
• Alltime narrowband hemispheric irradiance, filter 5(alltime_hemisp_narrowband_filter5)
• Alltime narrowband hemispheric irradiance, filter 2(alltime_hemisp_narrowband_filter2)
• Alltime narrowband hemispheric irradiance, filter 1(alltime_hemisp_narrowband_filter1)
• Narrowband hemispheric irradiance, filter 6, nominal wavelength is 935 nm(hemisp_narrowband_filter6)
• Narrowband Hemispheric Irradiance, Filter 2(hemisp_narrowband_filter2)
• Narrowband hemispheric irradiance, filter 3, offset and cosine corrected(hemisp_narrowband_filter3)
• Narrowband hemispheric irradiance, filter 4, offset and cosine corrected(hemisp_narrowband_filter4)
• Narrowband Hemispheric Irradiance, Filter 5, offset corrected(hemisp_narrowband_filter5)
• Narrowband Hemispheric Irradiance, Filter 1, offset corrected(hemisp_narrowband_filter1)
• Narrowband hemispheric irradiance, filter 4(hemisp_narrowband_filter4_raw)
• time_in_seconds_since_volume_start(time)
• Offset subtracted from upwelling hemispheric filter2 data(offset_filter2)
• Offset subtracted from direct normal filter3 data(offset_filter3)
• Offset subtracted from hemispheric filter1 data(offset_filter1)
• Offset subtracted from hemispheric and diffuse filter6 data(offset_filter6)
• Offset subtracted from direct normal filter4 data(offset_filter4)
• Offset subtracted from upwelling hemispheric filter5 data(offset_filter5)
• Detector temperature(head_temp)
• North Latitude(lat)
• Diffuse narrowband hemispheric irradiance, filter 6(diffuse_hemisp_narrowband_filter6_raw)
• lon(lon)
• Diffuse Hemispheric Broadband Irradiance, offset corrected(diffuse_hemisp_broadband)
• Direct Horizontal Broadband Irradiance(direct_horizontal_broadband)
• Diffuse Narrowband Hemispheric Irradiance, Filter 5(diffuse_hemisp_narrowband_filter5_raw)
• Logger temperature(logger_temperature)
• Narrowband hemispheric irradiance, filter 2(hemisp_narrowband_filter2_raw)
• Narrowband Hemispheric Irradiance, Filter 3(hemisp_narrowband_filter3_raw)
• Hemispheric broadband irradiance(hemisp_broadband_raw)
• Diffuse narrowband hemispheric irradiance, filter 4(diffuse_hemisp_narrowband_filter4_raw)
• Second detector temperature(head_temp2)
• Narrowband hemispheric irradiance, filter 1(hemisp_narrowband_filter1_raw)
• Diffuse narrowband hemispheric irradiance, filter 3(diffuse_hemisp_narrowband_filter3_raw)
• Hemispheric broadband irradiance(hemisp_broadband)
• Direct horizontal narrowband irradiance, filter 1(direct_horizontal_narrowband_filter1)
• Narrowband Direct Horizontal Irradiance, Filter 5, cosine corrected(direct_horizontal_narrowband_filter5)
• Narrowband Direct Horizontal Irradiance, Filter 4, cosine corrected(direct_horizontal_narrowband_filter4)
• Direct Horizontal Narrowband Irradiance, Filter 3(direct_horizontal_narrowband_filter3)
• Narrowband Direct Horizontal Irradiance, Filter 2, cosine corrected(direct_horizontal_narrowband_filter2)
• Narrowband Direct Horizontal Irradiance, Filter 6, cosine corrected(direct_horizontal_narrowband_filter6)
• Narrowband diffuse hemispheric irradiance, filter 5, offset and cosine corrected(diffuse_hemisp_narrowband_filter5)
• Diffuse Narrowband Hemispheric Irradiance, Filter 6, offset corrected(diffuse_hemisp_narrowband_filter6)
• Diffuse Narrowband Hemispheric Irradiance, Filter 3(diffuse_hemisp_narrowband_filter3)
• Diffuse Narrowband Hemispheric Irradiance, Filter 4(diffuse_hemisp_narrowband_filter4)
• Diffuse Narrowband Hemispheric Irradiance, Filter 1, offset corrected(diffuse_hemisp_narrowband_filter1)
• Diffuse Narrowband Hemispheric Irradiance, Filter 2, offset corrected(diffuse_hemisp_narrowband_filter2)
• Alltime hemispheric broadband irradiance(alltime_hemisp_broadband)
• Data logger supply voltage(logger_volt)
• Time offset from base_time(time_offset)

• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Minima(down_long_hemisp_shaded_min)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)
• base time in epoch(base_time)
• Battery voltage(vBatt)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• Time offset from base_time(time_offset)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer, standard
  deviation(down_long_hemisp_shaded_std)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• Instantaneous Downwelling Pyrgeometer Dome Thermistor Temperature, Shaded
  Pyrgeometer(inst_down_long_shaded_dome_temp)
• Instantaneous downwelling pyrgeometer case thermistor temperature, shaded
  pyrgeometer(inst_down_long_shaded_case_temp)
• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Downwelling longwave hemispheric net infrared(down_long_netir)
• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer(down_long_hemisp_shaded)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• -180.0 - +180.0(alt)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_netir)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Instantaneous upwelling pyrgeometer case thermistor temperature, pyrgeometer(inst_up_long_case_temp)
• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• Instantaneous Dome Temperature(inst_up_long_dome_temp)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Maxima(down_long_hemisp_shaded_max)
• North Latitude(lat)
• lon(lon)

• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Downwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(down_long_hemisp_min)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Downwelling Longwave Hemispheric Irradiance, Pyrgeometer, Maxima(down_long_hemisp_max)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• base time in epoch(base_time)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)
• Battery voltage(vBatt)
• -180.0 - +180.0(alt)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Downwelling Longwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_long_hemisp_std)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• North Latitude(lat)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• lon(lon)
• Time offset from base_time(time_offset)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• Downwelling longwave hemispheric irradiance, pyrgeometer(down_long_hemisp)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)

• (Raw data stream - documentation not supported)

• Shaded pyranometer voltage(short_diffuse)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Up-welling pyrgeometer case thermistor resistance(up_long_case_resist)
• Up-welling pyrgeometer dome thermistor resistance(up_long_dome_resist)
• -180.0 - +180.0(alt)
• Down-welling pyrgeometer dome thermistor resistance(down_long_dome_resist)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• North Latitude(lat)
• lon(lon)
• Downwelling longwave hemispheric irradiance, pyrgeometer(down_long_hemisp)
• Direct-beam normal solar irradiance(nip)
• base time in epoch(base_time)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Down-welling pyrgeometer case thermistor resistance(down_long_case_resist)
• Time offset from base_time(time_offset)

• (Raw data stream - documentation not supported)

• Radiance standard deviation during sky view averaged over (985_990 cm^-1)(skyViewStdDevRadiance985_990)
• The noise equivalent radiance observed in the longwave channel during a sky view
  at 1000 cm-1(LWskyNEN)
• Maximum Standard Deviation in Thermistor Channels 0..7(maxSampleStdDev)
• Ambient temperature used in calibration(calibrationAmbientTemp)
• lon(lon)
• AERI instrument unit serial number(AERIunitNumber)
• North Latitude(lat)
• Observation altitude(Altitude)
• Maximum departure from ideal of the mirror position over the course of all
  contributing views. Typically two hot, two ambient, and one scene view are
  examine(sceneMirPosEncoderMaxDrift)
• AERI LW Scene Variability Spectral Averages (Ch1)(SkyUniformityCh1)
• AERI SW Scene Variability Spectral Averages (Ch2)(SkyUniformityCh2)
• Time at center of AERI sky observation period(timeHHMMSS)
• The noise equivalent radiance observed in the shortwave channel during a sky
  view at 2500 cm^-1(SWskyNEN)
• Averaged Wave number in inverse centimeters(wnumsum3)
• Averaged wave number for SW responsivity spectral averages(wnumsum2)
• Averaged wave number for LW responsivity spectral averages(wnumsum1)
• Averaged wave number for LW HBB 2min NESR estimate number 1 (ch1)(wnumsum7)
• Averaged wave number for SW scene NESR spectral averages (ch2)(wnumsum6)
• Wave number in reciprocal centimeters(wnumsum5)
• Averaged Wave number in inverse centimeters(wnumsum4)
• Averaged Wave number in inverse centimeters(wnumsum9)
• Averaged Wave number in inverse centimeters(wnumsum8)
• Logical flag indicating whether HBB temperature is stable (true) or not stable
  (false). Determined using HBBtempDrift and HBBtempDriftLimit.(HBBstable)
• Radiance standard deviation during sky view averaged over (675_680 cm-1)(skyViewStdDevRadiance675_680)
• Front end fan air temperature difference(frontEndFanAirTempDiff)
• Radiance standard deviation during sky view averaged over (2295_2300 cm^-1)(skyViewStdDevRadiance2295_2300)
• Shortwave elevated air brightness temperature from radiance average (2282_2287
  cm-1)(elevatedLayerAirTemp2282_2287)
• Shortwave surface air brightness temperature from radiance average (2295_2300
  cm-1)(surfaceLayerAirTemp2295_2300)
• Scene mirror view angle in non-negative degrees, measured clockwise from nadir
  looking into interferometer window(sceneMirrorAngle)
• Character string containing instrument name(instrumentUnitNumber)
• -180.0 - +180.0(alt)
• Shortwave radiance average (2295_2300 cm^-1) Surface Air(surfaceLayerRadiance2295_2300)
• Observation atmospheric pressure in AERI electronics(atmosphericPressure)
• Shortwave window brightness temperature from radiance average (2510_2515 cm-1)(shortwaveWindowAirTemp2510_2515)
• AERI SW Responsivity Spectral Averages (Ch2)(ResponsivitySpectralAveragesCh2)
• AERI LW responsivity spectral averages (ch1)(ResponsivitySpectralAveragesCh1)
• AERI LW Scene Radiance Spectral Averages (Ch1)(SkyRadianceSpectralAveragesCh1)
• AERI SW scene radiance spectral averages (ch2)(SkyRadianceSpectralAveragesCh2)
• Relative humidity measured near Blackbodies. Use with air temperature near BBs
  only.(atmosphericRelativeHumidity)
• Shortwave HBB Noise-equivalent Radiance(SW_HBB_NEN)
• Logical flag indicating whether any data is available at current time
  (true/false)(dataAvailable)
• Calibrated scene type identification(calibratedSceneID)
• time_in_seconds_since_volume_start(time)
• Shortwave window radiance average (2510_2515 cm^-1)(shortwaveWindowRadiance2510_2515)
• Time in decimal format at center of AERI sky observation period(Time_UTC_hours)
• Cold blackbody temperature used in calibration(calibrationCBBtemp)
• AERI LW HBB 2min NESR estimate #2 derived from sequential HBB views (ch1)(HBB2minNENestimateNo2Ch1)
• AERI SW HBB 2min NESR estimate #2 derived from sequential HBB views (ch2)(HBB2minNENestimateNo2Ch2)
• Observation latitude(Latitude)
• Julian Day including day and fraction of day(JulianDay)
• AERI LW scene brightness temp spectral averages (ch1)(SkyBrightnessTempSpectralAveragesCh1)
• AERI SW scene brightness temp spectral averages (ch2)(SkyBrightnessTempSpectralAveragesCh2)
• Radiance standard deviation during sky view averaged over (700_705 cm-1)(skyViewStdDevRadiance700_705)
• base time in epoch(base_time)
• Longwave radiance average (675-680 cm-1) Surface Air(surfaceLayerRadiance675_680)
• Logical flag indicating that a data record is missing (true/false)(missingDataFlag)
• Characteristic value representing overall shortwave channel responsivity(SWresponsivity)
• Ambient air temperature at hatch opening(outsideAirTemp)
• AERI LW scene NESR spectral averages (ch1)(SkyNENCh1)
• AERI SW Scene NESR Spectral Averages (Ch2)(SkyNENCh2)
• Longwave window brightness temperature from radiance average (985_990 cm^-1)(longwaveWindowAirTemp985_990)
• Maximum temperature difference between HBB thermistors(HBBmaxTempDiff)
• Longwave window radiance average (985_990 cm^-1)(longwaveWindowRadiance985_990)
• Shortwave radiance average (2282_2287 cm^-1) elevated air(elevatedLayerRadiance2282_2287)
• AERI instrument data channel number(channelNumber)
• Version number of Operational Software(systemReleaseNumber)
• Time offset from base_time(time_offset)
• Duration of scene view(sceneViewDuration)
• Longwave surface air brightness temperature from radiance average (675_680 cm-1)(surfaceLayerAirTemp675_680)
• Averaged wave number for SW HBB 2min NESR estimate number 2 (ch2)(wnumsum10)
• Radiance standard deviation during sky view averaged over (2282_2287 cm-1)(skyViewStdDevRadiance2282_2287)
• Averaged wave number for SW scene radiance spectral averages (ch2)(wnumsum12)
• Wave number in reciprocal centimeters(wnumsum11)
• Averaged wave number for SW scene brightness temp spectral averages (ch2)(wnumsum14)
• Averaged Wave number in inverse centimeters(wnumsum13)
• Hot blackbody temperature used in calibration(calibrationHBBtemp)
• Observation longitude(Longitude)
• Difference between actual and ideal motor encoder values for current view
  indicative of quality of the mirror positioning.(sceneMirPosEncoderDrift)
• Radiance standard deviation during sky view averaged over (2510_2515 cm^-1)(skyViewStdDevRadiance2510_2515)
• Observation date(dateYYMMDD)
• Longwave radiance average (700_705 cm^-1) elevated air(elevatedLayerRadiance700_705)
• Boolean with negative error conditions: 1:Open 0:Closed -1:Fault -2:Outside
  Valid Range -3:Neither Open Nor Closed(hatchOpen)
• Maximum temperature difference between ABB thermistors(ABBmaxTempDiff)
• Logical flag indicating whether longwave channel noise equivalent radiance is
  acceptable in sky view (true/false). Determined using LWskyNEN and
  LWskyNENlimit.(LWskyNENacceptable)
• Rain sensor analog output(rainSensorIntensity)
• Sun sensor intensity(sunSensorIntensity)
• AERI LW HBB 2min NESR Estimate #1 derived from variance during HBB view (Ch1)(HBB2minNENestimateNo1Ch1)
• AERI SW HBB 2min NESR Estimate #1 derived from variance during HBB view (Ch2)(HBB2minNENestimateNo1Ch2)
• Characteristic value representing overall longwave channel responsivity(LWresponsivity)
• Longwave HBB noise-equivalent radiance(LW_HBB_NEN)
• Logical flag indicating whether shortwave channel noise equivalent radiance is
  acceptable in sky view (true/false). Determined using SWskyNEN and
  SWskyNENlimit.(SWskyNENacceptable)
• Longwave elevated air brightness temperature from radiance average (700_705
  cm-1)(elevatedLayerAirTemp700_705)
• The maximum excursion of hot-blackbody temperature over 5 consecutive scenes,
  centered on the scene view(HBBtempDrift)

• Delay Time to 1st Gate(dly)
• -180.0 - +180.0(alt)
• Individual Spectrum Integration Time(sitime)
• Array of heights for each sample time(height_t)
• Particle radius at logarithmic center of bin(bins)
• Sample Rate(sampr)
• Number of Valid Heights(nheight)
• Height Index(range_gate)
• Number of Individual Spectra/Average Spectrum(nspc)
• Vertical FFT Bandwidth(vband)
• Radial Velocity Spectral Resolution(vsr)
• Rx Bandwidth Switch Code(bswitch)
• Ave Time per Average Spectra. Also known as dwell.(spcavetime)
• Range gate spacing(rgs)
• Height of Center of First Range Gate(rgf)
• Height of center of last range gate(rgl)
• time_in_seconds_since_volume_start(time)
• Pulse repetition frequency(prf)
• Time offset from base_time(time_offset)
• Time Domain Integration Time(tditime)
• Number of pulse code bits(pcbits)
• lon(lon)
• North Latitude(lat)
• Interpulse period(ipp)
• Pulse length(plen)
• base time in epoch(base_time)
• Spectral Data(spc_amp)
• Number of Coherent Samples/Spectral Point(ncoh)

• Signal conditioning electronics inside air temperature(SCETemp)
• Observation longitude(Longitude)
• Hot blackbody temperature - rim bottom(HBBbottomTemp)
• Stirling cycle cooler expander temperature(coolerExpanderTemp)
• Ambient blackbody temperature - rim top(ABBtopTemp)
• Radiance standard deviation during ambient blackbody view averaged over (675_680
  cm-1)(ABBViewStdDevRadiance675_680)
• AERI instrument hatch indicator (open, closed, neither)(hatchIndicator)
• Logical flag indicating whether HBB temperature is stable (true) or not stable
  (false). Determined using HBBtempDrift and HBBtempDriftLimit.(HBBstable)
• AERI SW Responsivity Spectral Averages (Ch2)(ResponsivitySpectraAveragesCh2)
• AERI LW Responsivity Spectral Averages (Ch1)(ResponsivitySpectraAveragesCh1)
• Shortwave surface air brightness temperature from radiance average (2295_2300
  cm-1)(surfaceLayerAirTemp2295_2300)
• Radiance standard deviation during ambient blackbody view averaged over (985_990
  cm-1)(ABBViewStdDevRadiance985_990)
• The noise equivalent radiance observed in the longwave channel during a sky view
  at 1000 cm-1(LWskyNEN)
• Averaged wave number for LW responsivity spectral averages(wnumsum1)
• Averaged wave number for LW HBB 2min NESR estimate number 1 (ch1)(wnumsum7)
• Averaged wave number for SW scene NESR spectral averages (ch2)(wnumsum6)
• Averaged Wave number in inverse centimeters(wnumsum9)
• Averaged Wave number in inverse centimeters(wnumsum8)
• Averaged Wave number in inverse centimeters(wnumsum3)
• Averaged wave number for SW responsivity spectral averages(wnumsum2)
• Wave number in reciprocal centimeters(wnumsum5)
• Averaged Wave number in inverse centimeters(wnumsum4)
• Signal conditioning electronics inside air temperature(SCEtemp)
• The noise equivalent radiance observed in the shortwave channel during a sky
  view at 2500 cm^-1(SWskyNEN)
• Longwave window radiance average (985_990 cm^-1)(longwaveWindowRadiance985_990)
• Radiance standard deviation during hot blackbody view averaged over (985_990
  cm-1)(HBBViewStdDevRadiance985_990)
• Ambient air temperature near blackbodies(airNearBBsTemp)
• Boolean with negative error conditions: 1:Open 0:Closed -1:Fault -2:Outside
  Valid Range -3:Neither Open Nor Closed(hatchOpen)
• AERI SW Scene NESR Spectral Averages (Ch2)(SkyNENCh2)
• AERI LW scene NESR spectral averages (ch1)(SkyNENCh1)
• Hot blackbody temperature - rim top(HBBtopTemp)
• Characteristic value representing overall shortwave channel responsivity(SWresponsivity)
• Ambient temperature used in calibration(calibrationAmbientTemp)
• Observation altitude(Altitude)
• Time at center of AERI sky observation period(Time)
• Logical flag indicating whether shortwave channel noise equivalent radiance is
  acceptable in sky view (true/false). Determined using SWskyNEN and
  SWskyNENlimit.(SWskyNENacceptable)
• Shortwave radiance average (2282_2287 cm^-1) elevated air(elevatedLayerRadiance2282_2287)
• Julian Day including day and fraction of day(JulianDay)
• AERI SW Scene Variability Spectral Averages (Ch2)(SkyUniformityCh2)
• AERI LW Scene Variability Spectral Averages (Ch1)(SkyUniformityCh1)
• base time in epoch(base_time)
• Two minute noise estimate factor(twoMinuteNoiseEstimateFactor)
• Radiance standard deviation during hot blackbody view averaged over (2295_2300
  cm-1)(HBBViewStdDevRadiance2295_2300)
• Longwave radiance average (675-680 cm-1) Surface Air(surfaceLayerRadiance675_680)
• Radiance standard deviation during sky view averaged over (2282_2287 cm-1)(skyViewStdDevRadiance2282_2287)
• Detector Temperature(detectorTemp)
• Radiance standard deviation during sky view averaged over (2295_2300 cm^-1)(skyViewStdDevRadiance2295_2300)
• Radiance standard deviation during sky view averaged over (2510_2515 cm^-1)(skyViewStdDevRadiance2510_2515)
• Stirling cooler power supply temperature measured at power supply frame(coolerPowerSupplyTemp)
• Radiance standard deviation during sky view averaged over (675_680 cm-1)(skyViewStdDevRadiance675_680)
• Electronics rack ambient temperature(rackAmbientTemp)
• Logical flag indicating whether longwave channel noise equivalent radiance is
  acceptable in sky view (true/false). Determined using LWskyNEN and
  LWskyNENlimit.(LWskyNENacceptable)
• ABB view radiance standard deviation (700_705 cm^-1)(ABBviewStdDevRadiance700_705)
• Radiance standard deviation during sky view averaged over (700_705 cm-1)(skyViewStdDevRadiance700_705)
• AERI LW Scene radiance spectral averages (ch1)(SkyRadianceSpectraAveragesCh1)
• AERI SW scene radiance spectral averages (ch2)(SkyRadianceSpectraAveragesCh2)
• Shortwave window radiance average (2510_2515 cm^-1)(shortwaveWindowRadiance2510_2515)
• Hot blackbody temperature used in calibration(calibrationHBBtemp)
• North Latitude(lat)
• AERI LW HBB 2min NESR estimate #2 derived from sequential HBB views (ch1)(HBB2minNENEstimateNo2Ch1)
• AERI SW HBB 2min NESR Estimate #2 derived from sequential HBB views (Ch2)(HBB2minNENEstimateNo2Ch2)
• Time at end of interferometer data collection(rawTimeHHMMSS)
• lon(lon)
• Time at center of AERI sky observation period(timeHHMMSS)
• ABB View Radiance Std Deviation (2295_2300 cm^-1)(ABBviewStdDevRadiance2295_2300)
• ABB view radiance standard deviation (2510_2515 cm^-1)(ABBviewStdDevRadiance2510_2515)
• Longwave radiance average (700_705 cm^-1) elevated air(elevatedLayerRadiance700_705)
• HBB view radiance standard deviation (985_990 cm^-1)(HBBviewStdDevRadiance985_990)
• ABB View Radiance Std Deviation (675_680 cm^-1)(ABBviewStdDevRadiance675_680)
• ABB View Radiance Std Deviation (2282_2287 cm^-1)(ABBviewStdDevRadiance2282_2287)
• Logical flag indicating whether HBB temperature is stable (true) or not stable
  (false)(HBBStable)
• The maximum excursion of hot-blackbody temperature over 5 consecutive scenes,
  centered on the scene view(HBBtempDrift)
• Characteristic value representing overall longwave channel responsivity(LWresponsivity)
• Hot blackbody temperature - apex(HBBapexTemp)
• Observation atmospheric pressure in AERI electronics(atmosphericPressure)
• Logical flag indicating whether shortwave channel noise equivalent radiance is
  acceptable in sky view (true/false)(SWskyNENAcceptable)
• HBB view radiance standard deviation (675_680 cm^-1)(HBBviewStdDevRadiance675_680)
• HBB View Radiance Std Deviation (2295_2300 cm^-1)(HBBviewStdDevRadiance2295_2300)
• Radiance standard deviation during hot blackbody view averaged over (2510_2515
  cm-1)(HBBViewStdDevRadiance2510_2515)
• Observation latitude(Latitude)
• HBB view radiance standard deviation (2282_2287 cm^-1)(HBBviewStdDevRadiance2282_2287)
• Blackbody controller unit 2 power supply temperature(BBcontroller2temp)
• AERI LW Scene Variability Spectral Averages (Ch1)(SkyVariabilityAveragesCh1)
• AERI SW Scene Variability Spectral Averages (Ch2)(SkyVariabilityAveragesCh2)
• Longwave elevated air brightness temperature from radiance average (700_705
  cm-1)(elevatedLayerAirTemp700_705)
• AERI SW HBB 2min NESR Estimate #1 derived from variance during HBB view (Ch2)(HBB2minNENEstimateNo1Ch2)
• AERI LW HBB 2min NESR Estimate #1 derived from variance during HBB view (Ch1)(HBB2minNENEstimateNo1Ch1)
• Radiance standard deviation during hot blackbody view averaged over (2282_2287
  cm-1)(HBBViewStdDevRadiance2282_2287)
• -180.0 - +180.0(alt)
• Scene mirror motor case temperature(mirrorMotorTemp)
• Longwave surface air brightness temperature from radiance average (675_680 cm-1)(surfaceLayerAirTemp675_680)
• Radiance standard deviation during sky view averaged over (985_990 cm^-1)(skyViewStdDevRadiance985_990)
• Radiance standard deviation during hot blackbody view averaged over (700_705
  cm-1)(HBBViewStdDevRadiance700_705)
• Ingest computer temperature(computerTemp)
• AERI SW scene brightness temp spectral averages (ch2)(SkyBrightnessTempSpectralAveragesCh2)
• AERI LW scene brightness temp spectral averages (ch1)(SkyBrightnessTempSpectralAveragesCh1)
• Shortwave elevated air brightness temperature from radiance average (2282_2287
  cm-1)(elevatedLayerAirTemp2282_2287)
• Radiance standard deviation during ambient blackbody view averaged over (700_705
  cm-1)(ABBViewStdDevRadiance700_705)
• Blackbody controller Unit 2 power supply temperature(BBcontroller2Temp)
• Longwave window brightness temperature from radiance average (985_990 cm^-1)(longwaveWindowAirTemp985_990)
• Blackbody controller unit 1 power supply temperature(BBcontroller1temp)
• Radiance standard deviation during hot blackbody view averaged over (675_680
  cm-1)(HBBViewStdDevRadiance675_680)
• Stirling cooler compressor temperature measured at compressor heatsink(coolerCompressorTemp)
• Shortwave radiance average (2295_2300 cm^-1) Surface Air(surfaceLayerRadiance2295_2300)
• Time offset from base_time(time_offset)
• HBB view radiance standard deviation (700_705 cm^-1)(HBBviewStdDevRadiance700_705)
• Resistive temperature of 2500 ohm fixed resistor - banana plug mounted(fixed2500ohmResistor)
• Averaged Wave number in inverse centimeters(wnumsum13)
• Averaged wave number for SW scene brightness temp spectral averages (ch2)(wnumsum14)
• Averaged wave number for SW HBB 2min NESR estimate number 2 (ch2)(wnumsum10)
• Wave number in reciprocal centimeters(wnumsum11)
• Averaged wave number for SW scene radiance spectral averages (ch2)(wnumsum12)
• AERI interferometer temperature at second port(interferometerSecondPortTemp)
• Radiance standard deviation during ambient blackbody view averaged over (985_990
  cm-1)(ABBviewStdDevRadiance985_990)
• Relative humidity measured near Blackbodies. Use with air temperature near BBs
  only.(atmosphericRelativeHumidity)
• BB Support Structure Temperature(BBsupportStructureTemp)
• Scene mirror motor driver heat sink temperature(motorDriverTemp)
• Ambient air temperature at hatch opening(outsideAirTemp)
• Shortwave window brightness temperature from radiance average (2510_2515 cm-1)(shortwaveWindowAirTemp2510_2515)
• Ambient blackbody temperature - apex(ABBapexTemp)
• Blackbody controller Unit 1 power supply temperature(BBcontroller1Temp)
• Cold blackbody temperature used in calibration(calibrationCBBtemp)
• Logical flag indicating whether longwave channel noise equivalent radiance is
  acceptable in sky view (true/false)(LWskyNENAcceptable)
• HBB view radiance standard deviation (2510_2515 cm^-1)(HBBviewStdDevRadiance2510_2515)
• Stirling cycle cooler current(coolerCurrent)
• Radiance standard deviation during ambient blackbody view averaged over
  (2510_2515 cm-1)(ABBViewStdDevRadiance2510_2515)
• Ambient blackbody temperature(ABBbottomTemp)
• Logical flag indicating that a data record is missing (true/false)(missingDataFlag)
• Radiance standard deviation during ambient blackbody view averaged over
  (2282_2287 cm-1)(ABBViewStdDevRadiance2282_2287)
• Scene mirror position encoder value(sceneMirPosEncoder)
• Radiance standard deviation during ambient blackbody view averaged over
  (2295_2300 cm-1)(ABBViewStdDevRadiance2295_2300)

• Instantaneous downwelling pyrgeometer case thermistor temperature, shaded
  pyrgeometer(inst_down_long_shaded_case_temp)
• Instantaneous Downwelling Pyrgeometer Dome Thermistor Temperature, Shaded
  Pyrgeometer(inst_down_long_shaded_dome_temp)
• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• Instantaneous Dome Temperature(inst_up_long_dome_temp)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• Instantaneous upwelling pyrgeometer case thermistor temperature, pyrgeometer(inst_up_long_case_temp)
• lon(lon)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)
• North Latitude(lat)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer(down_long_hemisp_shaded)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Maxima(down_long_hemisp_shaded_max)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_netir)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Minima(down_long_hemisp_shaded_min)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer, standard
  deviation(down_long_hemisp_shaded_std)
• Downwelling longwave hemispheric net infrared(down_long_netir)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)
• Battery voltage(vBatt)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• base time in epoch(base_time)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• Time offset from base_time(time_offset)
• -180.0 - +180.0(alt)

• North Latitude(lat)
• lon(lon)
• Airmasses(barnard_airmass)
• base time in epoch(base_time)
• rejected points for the final fit for the Direct Narrowband Filter1, Michalsky(michalsky_rejected_filter1)
• rejected points for the final fit for the Direct Narrowband Filter2(michalsky_rejected_filter2)
• rejected points for the final fit for the Direct Narrowband Filter3, Michalsky(michalsky_rejected_filter3)
• rejected points for the final fit for the Direct Narrowband Filter4, Michalsky(michalsky_rejected_filter4)
• rejected points for the final fit for the Direct Narrowband Filter5, Michalsky(michalsky_rejected_filter5)
• rejected points for the final fit for the Direct Narrowband Filter6, Michalsky(michalsky_rejected_filter6)
• rejected points for the final fit for the Direct Broadband(michalsky_rejected_broadband)
• rejected points for the final fit for the Direct Narrowband Filter1(barnard_rejected_filter1)
• rejected points for the final fit for the Direct Narrowband Filter6(barnard_rejected_filter6)
• rejected points for the final fit for the Direct Narrowband Filter3, Barnard(barnard_rejected_filter3)
• rejected points for the final fit for the Direct Narrowband Filter2(barnard_rejected_filter2)
• rejected points for the final fit for the Direct Narrowband Filter5, Barnard(barnard_rejected_filter5)
• rejected points for the final fit for the Direct Narrowband Filter4, Barnard(barnard_rejected_filter4)
• airmass(michalsky_airmass)
• -180.0 - +180.0(alt)
• time_in_seconds_since_volume_start(time)
• log(irradiance) for the Direct Broadband(barnard_lnI_broadband)
• log(irradiance) for the Direct Broadband(michalsky_lnI_broadband)
• Time offset from base_time(time_offset)
• rejected points for the final fit for the Direct Broadband, Barnard(barnard_rejected_broadband)
• log(irradiance) for the Direct Narrowband Filter1(michalsky_lnI_filter1)
• log(irradiance) for the Direct Narrowband Filter1, Barnard(barnard_lnI_filter1)
• log(irradiance) for the Direct Narrowband Filter2, Barnard(barnard_lnI_filter2)
• log(irradiance) for the Direct Narrowband Filter3, Barnard(barnard_lnI_filter3)
• log(irradiance) for the Direct Narrowband Filter4(barnard_lnI_filter4)
• log(irradiance) for the Direct Narrowband Filter5(barnard_lnI_filter5)
• log(irradiance) for the Direct Narrowband Filter6(barnard_lnI_filter6)
• log(irradiance) for the Direct Narrowband Filter6, Michalsky(michalsky_lnI_filter6)
• log(irradiance) for the Direct Narrowband Filter4, Michalsky(michalsky_lnI_filter4)
• log(irradiance) for the Direct Narrowband Filter5, Michalsky(michalsky_lnI_filter5)
• log(irradiance) for the Direct Narrowband Filter2, Michalsky(michalsky_lnI_filter2)
• log(irradiance) for the Direct Narrowband Filter3, Michalsky(michalsky_lnI_filter3)

• pulse_repetition_frequency(prt)
• Unambiguous range(unambiguous_range)
• Doppler spectrum width(doppler_spectrum_width)
• North latitude(latitude)
• Differential propagation phase shift(differential_phase)
• Scan mode for sweep(sweep_mode)
• Normalized coherent power(normalized_coherent_power)
• ray_target_fixed_angle(fixed_angle)
• Beam Elevation Angle(elevation)
• Sweep number, zero-based count(sweep_number)
• East longitude(longitude)
• Unambiguous Doppler velocity(nyquist_velocity)
• altitude(altitude)
• Azimuth of Radar Ray(azimuth)
• time_in_seconds_since_volume_start(time)
• Cross correlation ratio (RhoHV)(cross_correlation_ratio)
• transmit_pulse_mode(prt_mode)
• Total power(total_power)
• data_volume_start_time_utc(time_coverage_start)
• Differential reflectivity(differential_reflectivity)
• data_volume_index_number(volume_number)
• Mean doppler velocity(mean_doppler_velocity)
• Clutter filtered reflectivity in horizontal polarization(reflectivity_horizontal)
• File status(file_status)
• Distance to the center of the corresponding range bin(range)
• Time corresponding to last radial in file(time_coverage_end)
• Time index of last ray in sweep, 0-based(sweep_end_ray_index)
• Specific differential phase (KDP)(specific_differential_phase)
• Index of first ray in sweep, 0-based(sweep_start_ray_index)

• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• lon(lon)
• North Latitude(lat)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• -180.0 - +180.0(alt)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_netir)
• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• base time in epoch(base_time)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer, standard
  deviation(down_long_hemisp_shaded_std)
• Battery voltage(vBatt)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer(down_long_hemisp_shaded)
• Downwelling longwave hemispheric net infrared(down_long_netir)
• Instantaneous Dome Temperature(inst_up_long_dome_temp)
• Instantaneous upwelling pyrgeometer case thermistor temperature, pyrgeometer(inst_up_long_case_temp)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Maxima(down_long_hemisp_shaded_max)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Minima(down_long_hemisp_shaded_min)
• Time offset from base_time(time_offset)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Instantaneous Downwelling Pyrgeometer Dome Thermistor Temperature, Shaded
  Pyrgeometer(inst_down_long_shaded_dome_temp)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Instantaneous downwelling pyrgeometer case thermistor temperature, shaded
  pyrgeometer(inst_down_long_shaded_case_temp)

• Aerodynamic latent heat flux(aerodynamic_latent_heat_flux)
• Best estimate latent heat flux(be_latent_heat_flux)
• base time in epoch(base_time)
• Wind direction vector mean(wdir_vec_mean)
• Half hour averaged soil temperature 5(soil_temp_5)
• Soil temperature mean 3(soil_temp_3)
• Half hour averaged soil temperature 4(soil_temp_4)
• Soil temperature 1(soil_temp_1)
• Soil temperature 2(soil_temp_2)
• AEM position indicator 15 to 30 mins(home_signal_30)
• AEM position indicator 0 to 15 mins(home_signal_15)
• Top relative humidity (fractional)(rh_top_fraction)
• Soil heat flow 4, corrected for soil moisture(corr_soil_heat_flow_4)
• Soil heat flow 3, corrected for soil moisture(corr_soil_heat_flow_3)
• Soil heat flow 2, corrected for soil moisture(corr_soil_heat_flow_2)
• Soil heat flow 1, corrected for soil moisture(corr_soil_heat_flow_1)
• Soil heat flow 5, corrected for soil moisture(corr_soil_heat_flow_5)
• Solar radiation calculated from time of day, lat, and lon(solar_radiation)
• Top air temperature(temp_air_top)
• Bowen ratio(bowen_ratio)
• Surface soil heat flux, average of fluxes 1-5(surface_soil_heat_flux_avg)
• Time offset from base_time(time_offset)
• Soil moisture 5, gravimetric(soil_moisture_5)
• Soil moisture 2, gravimetric(soil_moisture_2)
• Soil moisture 1, gravimetric(soil_moisture_1)
• Soil moisture 4, gravimetric(soil_moisture_4)
• Soil moisture 3, gravimetric(soil_moisture_3)
• Bottom air temperature(temp_air_bottom)
• Bottom relative humidity (fractional)(rh_bottom_fraction)
• Reference temperature in enclosure(temp_reference)
• Friction velocity(friction_velocity)
• Best estimate sensible heat flux(be_sensible_heat_flux)
• Atmospheric pressure(atmos_pressure)
• time_in_seconds_since_volume_start(time)
• Surface soil heat flux 5(surface_soil_heat_flux_5)
• Surface soil heat flux 4(surface_soil_heat_flux_4)
• Surface soil heat flux 3(surface_soil_heat_flux_3)
• Surface soil heat flux 2(surface_soil_heat_flux_2)
• Surface soil heat flux 1(surface_soil_heat_flux_1)
• Top T/RH sensor temperature(temp_trh_top)
• lon(lon)
• North Latitude(lat)
• Net radiation(net_radiation)
• Wind speed vector mean(wspd_vec_mean)
• Bottom T/RH sensor temperature(temp_trh_bottom)
• Surface sensible heat flux(sensible_heat_flux)
• Aerodynamic sensible heat flux(aerodynamic_sensible_heat_flux)
• Wind speed arithmetic mean(wspd_arith_mean)
• Soil heat flow 4(soil_heat_flow_4)
• Soil heat flow 5(soil_heat_flow_5)
• Soil heat flow 2(soil_heat_flow_2)
• Soil heat flow 3(soil_heat_flow_3)
• Soil heat flow 1(soil_heat_flow_1)
• Soil heat capacity 1(soil_heat_capacity_1)
• Soil heat capacity 2(soil_heat_capacity_2)
• Soil heat capacity 3(soil_heat_capacity_3)
• Soil heat capacity 4(soil_heat_capacity_4)
• Soil heat capacity 5(soil_heat_capacity_5)
• Surface latent heat flux(latent_heat_flux)
• Wind direction vector mean standard deviation(wdir_vec_std)
• Top vapor pressure(vapor_pressure_top)
• Bottom vapor pressure(vapor_pressure_bottom)
• Change in energy storage 1, 0-5 cm soil layer(energy_storage_change_1)
• Change in energy storage 3, 0-5 cm soil layer(energy_storage_change_3)
• Change in energy storage 2, 0-5 cm soil layer(energy_storage_change_2)
• Change in energy storage 5, 0-5 cm soil layer(energy_storage_change_5)
• Change in energy storage 4, 0-5 cm soil layer(energy_storage_change_4)
• Vegetation height outside fence(vegetation_height)
• -180.0 - +180.0(alt)

• Detection status.(detection_status)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Third cloud base height(third_cbh)
• base time in epoch(base_time)
• North Latitude(lat)
• lon(lon)
• time_in_seconds_since_volume_start(time)
• Lowest cloud base height detected(first_cbh)
• Second lowest cloud base height(second_cbh)
• Number of samples averaged to calculate the current BL_HEIGHTs(sample_count)
• Quality index for first boundary layer height candidate(bl_index_1)
• Quality index for third boundary layer height candidate(bl_index_3)
• Quality index for second boundary layer height candidate(bl_index_2)
• Second boundary layer height candidate(bl_height_2)
• First boundary layer height candidate(bl_height_1)
• Third boundary layer height candidate(bl_height_3)

• (Raw data stream - documentation not supported)

• Aerodynamic Latent heat flux(ale)
• average surface soil heat flow(ave_shf)
• Top vapor pressure(vp_top)
• Temperature of the top humidity sensor chamber(thum_top)
• Change in energy storage 4(ces4)
• Change in energy storage 5(ces5)
• 0-5 cm change in soil heat storage with time, site 2(ces2)
• Change in energy storage 3(ces3)
• 0-5 cm change in soil heat storage with time, site 2(ces1)
• Resultant wind speed(res_ws)
• Friction velocity(austar)
• 5 cm soil heat flow corrected for soil moisture content, site 1(c_shf1)
• 5 cm soil heat flow corrected for soil moisture content, site 2(c_shf2)
• Corrected soil heat flow 3(c_shf3)
• Corrected soil heat flow 4(c_shf4)
• 5 cm soil heat flow corrected for soil moisture content, site 5(c_shf5)
• specific humidity(q)
• Latent heat flux(e)
• corrected sensible heat flux(h)
• ecomb
• Soil heat flow at the surface 3(g3)
• soil heat flow, site 2(g2)
• soil heat flow, site 5(g5)
• soil heat flow, site 4(g4)
• Soil heat flow at the surface 1(g1)
• Reference Thermistor Temperature(tref)
• Aerodynamic Sensible heat flux(ah)
• Best estimate Sensible heat flux(hcomb)
• Bowen ratio(bowen)
• Top relative humidity(hum_top)
• Soil heat capacity 5(cs5)
• Soil heat capacity 3(cs3)
• Soil heat capacity 4(cs4)
• Soil heat capacity 1(cs1)
• Soil heat capacity 2(cs2)
• Top air temperature(tair_top)
• Time offset from base_time(time_offset)
• -180.0 - +180.0(alt)
• 5 cm soil heat flow, site 5(shf5)
• 5 cm soil heat flow, site 4(shf4)
• 5 cm soil heat flow, site 1(shf1)
• Soil heat flow 3(shf3)
• 5 cm soil heat flow, site 2(shf2)
• Bottom vapor pressure(vp_bot)
• Temperature of the bottom humidity sensor chamber(thum_bot)
• Standard deviation of wind direction (sigma theta)(sigma_wd)
• lon(lon)
• North Latitude(lat)
• base time in epoch(base_time)
• Bottom relative humidity(hum_bot)
• Vegetation height outside fence(vegetation_height)
• Exchange Mechanism Position Indicator 0 to 15 mins(home_15)
• Exchange Mechanism Position Indicator 15 to 30 mins(home_30)
• 0-5 cm integrated soil temperature, site 4(ts4)
• 0-5 cm integrated soil temperature, site 5(ts5)
• Soil temperature 2(ts2)
• 0-5 cm integrated soil temperature, site 3(ts3)
• 0-5 cm integrated soil temperature, site 2(ts1)
• Retrieved pressure profile(pres)
• Bottom air temperature(tair_bot)
• volumetric soil moisture, site 5(sm5)
• volumetric soil moisture, site 3(sm3)
• volumetric soil moisture, site 4(sm4)
• Soil moisture 1 (mass water/mass dry soil)(sm1)
• volumetric soil moisture, site 2(sm2)
• Wind direction (relative to true north)(wind_d)
• Scalar Wind speed(wind_s)

• Pulse length(plen)
• Delay Time to 1st Gate(dly)
• Horizontal wind direction(dir)
• Rx Bandwidth Switch Code(bswitch)
• Vertical FFT Bandwidth(vband)
• -180.0 - +180.0(alt)
• Array of heights for each sample time(height_p)
• base time in epoch(base_time)
• Number of values that passed consensus, beam 2(ncns2)
• Number of values that passed consensus, beam 3(ncns3)
• Number of values that passed consensus, beam 0(ncns0)
• Number of values that passed consensus, beam 1(ncns1)
• Number of values that passed consensus, beam 4(ncns4)
• Sample Rate(sampr)
• Time offset from base_time(time_offset)
• Number of spectra per averaging interval, beam 1(nrec1)
• Number of pulses/ave int, Beam 0(nrec0)
• Number of spectra/ave int, Beam 3(nrec3)
• Number of spectra/ave int, Beam 2(nrec2)
• Number of Spectra/ave int, Beam 4(nrec4)
• Vertical Velocity Spectral Resolution(vvsr)
• Signal to Noise Ratio, Beam 0(snr0)
• Signal to Noise Ratio, Beam 3(snr3)
• Signal to noise ratio, beam 4(snr4)
• Ave snr*10 level, Beam 1(snr1)
• Signal to noise ratio, beam 2(snr2)
• Averaging interval(avgint)
• Time Domain Integration Time(tditime)
• Number of Coherent Samples/Spectral Point(ncoh)
• Elevation angle of Beam 2 for WINDS data(elevation2)
• Elevation angle of beam 1(elevation1)
• Elevation angle of beam 0(elevation0)
• Elevation angle of beam 4(elevation4)
• Elevation angle of beam 3(elevation3)
• Horizontal wind speed(spd)
• Number of Values Required for Consensus, Beam 2(nrcns2)
• Number of Values Required for Consensus, Beam 3(nrcns3)
• Number of values required for consensus, beam 4(nrcns4)
• Number of values required for consensus, beam 0(nrcns0)
• Number of Values Required for Consensus, Beam 1(nrcns1)
• Individual Spectrum Integration Time(sitime)
• Height Index(range_gate)
• Number of Valid Heights(nheight)
• Height of center of last range gate(rgl)
• Range gate spacing(rgs)
• Height of Center of First Range Gate(rgf)
• V wind component(v_wind)
• Ave Time per Average Spectra.(spcavetim)
• Pulse repetition frequency(prf)
• Power offset(power)
• Beam 3 radial wind speed(vel3)
• Beam 4 radial wind speed(vel4)
• Beam 0 radial wind speed(vel0)
• Beam 1 radial wind speed(vel1)
• Beam 2 radial wind speed(vel2)
• Oblique FFT bandwidth(oband)
• North Latitude(lat)
• lon(lon)
• Interpulse period(ipp)
• Easterly Wind Component(u_wind)
• Number of Individual Spectra/Average Spectrum(nspc)
• Oblique Velocity Spectral Resolution(ovsr)
• Azimuth of Beam 2(azimuth2)
• Azimuth of Beam 3 for WINDS data(azimuth3)
• Azimuth of beam 4(azimuth4)
• Azimuth of Beam 0(azimuth0)
• Azimuth of Beam 1 for WINDS data(azimuth1)
• Number of pulse code bits(pcbits)

• Radial velocity(radial_velocity)
• base time in epoch(base_time)
• Beam Elevation Angle(elevation)
• Distance to the center of the corresponding range bin(range)
• Intensity (signal to noise ratio + 1)(intensity)
• Beam azimuth relative to Lidar home point(relative_azimuth)
• -180.0 - +180.0(alt)
• time_in_seconds_since_volume_start(time)
• Time offset from base_time(time_offset)
• Attenuated backscatter(attenuated_backscatter)
• lon(lon)
• North Latitude(lat)

• Hemispheric broadband irradiance(hemisp_broadband_raw)
• Data Logger Temperature(logger_temp)
• -180.0 - +180.0(alt)
• Offset subtracted from hemispheric filter1 data(offset_filter1)
• Offset subtracted from direct normal filter3 data(offset_filter3)
• Offset subtracted from upwelling hemispheric filter2 data(offset_filter2)
• Offset subtracted from upwelling hemispheric filter5 data(offset_filter5)
• Offset subtracted from direct normal filter4 data(offset_filter4)
• Offset subtracted from hemispheric and diffuse filter6 data(offset_filter6)
• Diffuse Narrowband Hemispheric Irradiance, Filter 5(diffuse_hemisp_narrowband_filter5_raw)
• Narrowband hemispheric irradiance, filter 2(hemisp_narrowband_filter2_raw)
• Narrowband hemispheric irradiance, filter 1(hemisp_narrowband_filter1_raw)
• Second detector temperature(head_temp2)
• Narrowband hemispheric irradiance, filter 6, nominal wavelength is 935 nm(hemisp_narrowband_filter6)
• Narrowband Hemispheric Irradiance, Filter 2(hemisp_narrowband_filter2)
• Narrowband hemispheric irradiance, filter 3, offset and cosine corrected(hemisp_narrowband_filter3)
• Narrowband hemispheric irradiance, filter 4, offset and cosine corrected(hemisp_narrowband_filter4)
• Narrowband Hemispheric Irradiance, Filter 5, offset corrected(hemisp_narrowband_filter5)
• Narrowband Hemispheric Irradiance, Filter 1, offset corrected(hemisp_narrowband_filter1)
• Diffuse narrowband hemispheric irradiance, filter 6(diffuse_hemisp_narrowband_filter6_raw)
• Diffuse Narrowband Hemispheric Irradiance, Filter 1, offset corrected(diffuse_hemisp_narrowband_filter1)
• Diffuse Narrowband Hemispheric Irradiance, Filter 2, offset corrected(diffuse_hemisp_narrowband_filter2)
• Diffuse Narrowband Hemispheric Irradiance, Filter 3(diffuse_hemisp_narrowband_filter3)
• Diffuse Narrowband Hemispheric Irradiance, Filter 4(diffuse_hemisp_narrowband_filter4)
• Narrowband diffuse hemispheric irradiance, filter 5, offset and cosine corrected(diffuse_hemisp_narrowband_filter5)
• Diffuse Narrowband Hemispheric Irradiance, Filter 6, offset corrected(diffuse_hemisp_narrowband_filter6)
• Narrowband Hemispheric Irradiance, Filter 6(hemisp_narrowband_filter6_raw)
• Diffuse narrowband hemispheric irradiance, filter 1(diffuse_hemisp_narrowband_filter1_raw)
• Narrowband hemispheric irradiance, filter 5(hemisp_narrowband_filter5_raw)
• Narrowband Direct Horizontal Irradiance, Filter 6, cosine corrected(direct_horizontal_narrowband_filter6)
• Narrowband Direct Horizontal Irradiance, Filter 5, cosine corrected(direct_horizontal_narrowband_filter5)
• Narrowband Direct Horizontal Irradiance, Filter 4, cosine corrected(direct_horizontal_narrowband_filter4)
• Direct Horizontal Narrowband Irradiance, Filter 3(direct_horizontal_narrowband_filter3)
• Narrowband Direct Horizontal Irradiance, Filter 2, cosine corrected(direct_horizontal_narrowband_filter2)
• Direct horizontal narrowband irradiance, filter 1(direct_horizontal_narrowband_filter1)
• North Latitude(lat)
• lon(lon)
• Offset subtracted from hemispheric and diffuse broadband data(offset_broadband)
• Detector temperature(head_temp)
• base time in epoch(base_time)
• Diffuse Narrowband Hemispheric Irradiance, Filter 2(diffuse_hemisp_narrowband_filter2_raw)
• Hemispheric broadband irradiance(hemisp_broadband)
• Alltime hemispheric broadband irradiance(alltime_hemisp_broadband)
• Diffuse Hemispheric Broadband Irradiance(diffuse_hemisp_broadband_raw)
• Narrowband hemispheric irradiance, filter 4(hemisp_narrowband_filter4_raw)
• Diffuse narrowband hemispheric irradiance, filter 3(diffuse_hemisp_narrowband_filter3_raw)
• Narrowband Hemispheric Irradiance, Filter 3(hemisp_narrowband_filter3_raw)
• time_in_seconds_since_volume_start(time)
• Time offset from base_time(time_offset)
• Alltime narrowband hemispheric irradiance, filter 2(alltime_hemisp_narrowband_filter2)
• Alltime narrowband hemispheric irradiance, filter 1(alltime_hemisp_narrowband_filter1)
• Alltime Narrowband Hemispheric Irradiance, Filter 6(alltime_hemisp_narrowband_filter6)
• Alltime narrowband hemispheric irradiance, filter 5(alltime_hemisp_narrowband_filter5)
• Alltime Narrowband Hemispheric Irradiance, Filter 4(alltime_hemisp_narrowband_filter4)
• Alltime Narrowband Hemispheric Irradiance, Filter 3(alltime_hemisp_narrowband_filter3)
• Diffuse narrowband hemispheric irradiance, filter 4(diffuse_hemisp_narrowband_filter4_raw)
• Direct Horizontal Broadband Irradiance(direct_horizontal_broadband)
• Data logger supply voltage(logger_volt)
• Diffuse Hemispheric Broadband Irradiance, offset corrected(diffuse_hemisp_broadband)

• North Latitude(lat)
• lon(lon)
• Number of averaged samples(samples_in_average)
• Sky Infra-Red Temperature(sky_ir_temp)
• Time offset from base_time(time_offset)
• time_in_seconds_since_volume_start(time)
• Sky infrared temperature, standard deviation(sky_ir_temp_std)
• Internal Reference Infra Red Temperature(ref_ir_temp)
• -180.0 - +180.0(alt)
• Sky Infra-Red Temperature Minima(sky_ir_temp_min)
• Sky Infra Red Temperature Maxima(sky_ir_temp_max)
• base time in epoch(base_time)

• (Raw data stream - documentation not supported)

• Internal Reference Infra Red Temperature(ref_ir_temp)
• North Latitude(lat)
• Sky Infra-Red Temperature(sky_ir_temp)
• lon(lon)
• time_in_seconds_since_volume_start(time)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• Time offset from base_time(time_offset)

• Distance to the center of the corresponding range bin(range)
• base time in epoch(base_time)
• -180.0 - +180.0(alt)
• Attenuated backscatter(attenuated_backscatter)
• Time offset from base_time(time_offset)
• Beam Elevation Angle(elevation)
• Intensity (signal to noise ratio + 1)(intensity)
• time_in_seconds_since_volume_start(time)
• Radial velocity(radial_velocity)
• North Latitude(lat)
• Beam azimuth relative to Lidar home point(relative_azimuth)
• lon(lon)

• Soil temperature 1 (resistance ratio)(soil_temp_1_rr)
• Quality check results on field: Wind speed arithmetic mean(qc_wspd_arith_mean)
• Quality check results on field: Soil temperature 5 (resistance ratio)(qc_soil_temp_5_rr)
• Atmospheric pressure (mV)(atmos_pressure_mv)
• Quality check results on field: Soil heat flow 3 (mV)(qc_soil_heat_flow_3_mv)
• -180.0 - +180.0(alt)
• Soil moisture 3 (resistance)(soil_moisture_3_r)
• Left air temperature(temp_air_left)
• Soil moisture 1 (resistance)(soil_moisture_1_r)
• Quality check results on field: Soil heat flow 4 (mV)(qc_soil_heat_flow_4_mv)
• Soil moisture 2 (resistance)(soil_moisture_2_r)
• Quality check results on field: Right air temperature(qc_temp_air_right)
• Left T/RH sensor temperature(temp_trh_left)
• Soil moisture 5 (resistance)(soil_moisture_5_r)
• Reference temperature in enclosure (resistance ratio)(temp_reference_rr)
• base time in epoch(base_time)
• Soil moisture 4 (resistance)(soil_moisture_4_r)
• Right relative humidity (mV)(rh_right_mv)
• Time range for the hourly averages, in time offset from midnight(time_bounds)
• Quality check results on field: Left T/RH sensor temperature(qc_temp_trh_left)
• Quality check results on field: AEM position indicator(qc_home_signal)
• Quality check results on field: Left relative humidity (mV)(qc_rh_left_mv)
• Quality check results on field: Left air temperature(qc_temp_air_left)
• Quality check results on field: Soil heat flow 1 (mV)(qc_soil_heat_flow_1_mv)
• Wind speed arithmetic mean(wspd_arith_mean)
• Quality check results on field: Soil moisture 1 (resistance)(qc_soil_moisture_1_r)
• time_in_seconds_since_volume_start(time)
• Quality check results on field: Net radiation (mV)(qc_net_radiation_mv)
• Quality check results on field: Soil heat flow 2 (mV)(qc_soil_heat_flow_2_mv)
• Quality check results on field: Right T/RH sensor temperature(qc_temp_trh_right)
• Quality check results on field: Atmospheric pressure (mV)(qc_atmos_pressure_mv)
• Quality check results on field: Soil moisture 5 (resistance)(qc_soil_moisture_5_r)
• Soil heat flow 2 (mV)(soil_heat_flow_2_mv)
• Quality check results on field: Soil moisture 4 (resistance)(qc_soil_moisture_4_r)
• Quality check results on field: Soil moisture 3 (resistance)(qc_soil_moisture_3_r)
• Battery voltage(battery_voltage)
• Quality check results on field: Soil moisture 2 (resistance)(qc_soil_moisture_2_r)
• Net radiation (mV)(net_radiation_mv)
• Quality check results on field: Right relative humidity (mV)(qc_rh_right_mv)
• Right T/RH sensor temperature(temp_trh_right)
• Quality check results on field: Reference temperature in enclosure (resistance
  ratio)(qc_temp_reference_rr)
• Soil temperature 5 (resistance ratio)(soil_temp_5_rr)
• Soil heat flow 1 (mV)(soil_heat_flow_1_mv)
• Quality check results on field: Soil temperature 1 (resistance ratio)(qc_soil_temp_1_rr)
• Soil temperature 4 (resistance ratio)(soil_temp_4_rr)
• Quality check results on field: Soil heat flow 5 (mV)(qc_soil_heat_flow_5_mv)
• Time offset from base_time(time_offset)
• Quality check results on field: Battery voltage(qc_battery_voltage)
• Left relative humidity (mV)(rh_left_mv)
• Quality check results on field: Wind direction vector mean (mV)(qc_wdir_vec_mean_mv)
• Quality check results on field: Soil temperature 2 (resistance ratio)(qc_soil_temp_2_rr)
• Soil heat flow 5 (mV)(soil_heat_flow_5_mv)
• Right air temperature(temp_air_right)
• Soil temperature 3 (resistance ratio)(soil_temp_3_rr)
• Soil heat flow 3 (mV)(soil_heat_flow_3_mv)
• Wind direction vector mean (mV)(wdir_vec_mean_mv)
• Quality check results on field: Soil temperature 3 (resistance ratio)(qc_soil_temp_3_rr)
• North Latitude(lat)
• AEM position indicator(home_signal)
• Soil temperature 2 (resistance ratio)(soil_temp_2_rr)
• lon(lon)
• Quality check results on field: Soil temperature 4 (resistance ratio)(qc_soil_temp_4_rr)
• Soil heat flow 4 (mV)(soil_heat_flow_4_mv)

• (Raw data stream - documentation not supported)

• Vaisala probe 2 average temperature(temp_V2_avg)
• Rotronic probe 1 average temperature(temp_R1_avg)
• Vaisala probe 3 RH minimum(RH_V3_min)
• Vaisala probe 2 RH standard deviation(RH_V2_std)
• Sonde present bit flag(count)
• Rotronic probe 2 RH maximum(RH_R2_max)
• Vaisala probe 3 RH maximum(RH_V3_max)
• Rotronic probe 2 RH minimum(RH_R2_min)
• Rotronic probe 3 temperature standard deviation(temp_R3_std)
• Rotronic probe 1 RH standard deviation(RH_R1_std)
• Rotronic probe 1 RH minimum(RH_R1_min)
• Vaisala probe 1 average temperature(temp_V1_avg)
• Rotronic probe 3 temperature minimum(temp_R3_min)
• Rotronic probe 1 RH maximum(RH_R1_max)
• Rotronic probe 2 temperature standard deviation(temp_R2_std)
• Rotronic probe 3 temperature maximum(temp_R3_max)
• Vaisala probe 1 RH standard deviation(RH_V1_std)
• Vaisala probe 2 RH maximum(RH_V2_max)
• Vaisala probe 2 RH minimum(RH_V2_min)
• Time offset from base_time(time_offset)
• Rotronic probe 3 average RH(RH_R3_avg)
• Vaisala probe 3 temperature standard deviation(temp_V3_std)
• Rotronic probe 2 average RH(RH_R2_avg)
• base time in epoch(base_time)
• time_in_seconds_since_volume_start(time)
• Vaisala probe 3 average RH(RH_V3_avg)
• Vaisala probe 1 RH minimum(RH_V1_min)
• Vaisala probe 1 RH maximum(RH_V1_max)
• Vaisala probe 3 temperature maximum(temp_V3_max)
• Vaisala probe 2 temperature standard deviation(temp_V2_std)
• Vaisala probe 3 temperature minimum(temp_V3_min)
• Rotronic probe 2 temperature minimum(temp_R2_min)
• North Latitude(lat)
• Rotronic probe 1 temperature standard deviation(temp_R1_std)
• lon(lon)
• Rotronic probe 2 temperature maximum(temp_R2_max)
• Rotronic probe 1 temperature minimum(temp_R1_min)
• Rotronic probe 1 temperature maximum(temp_R1_max)
• Vaisala probe 2 average RH(RH_V2_avg)
• Data Logger Temperature(logger_temp)
• Rotronic probe 3 average temperature(temp_R3_avg)
• Rotronic probe 1 average RH(RH_R1_avg)
• Vaisala probe 2 temperature maximum(temp_V2_max)
• Vaisala probe 1 temperature standard deviation(temp_V1_std)
• Vaisala probe 2 temperature minimum(temp_V2_min)
• Rotronic probe 2 average temperature(temp_R2_avg)
• Rotronic probe 3 RH standard deviation(RH_R3_std)
• Rotronic probe 3 RH maximum(RH_R3_max)
• -180.0 - +180.0(alt)
• Rotronic probe 3 RH minimum(RH_R3_min)
• Rotronic probe 2 RH standard deviation(RH_R2_std)
• Vaisala probe 3 average temperature(temp_V3_avg)
• Vaisala probe 1 average RH(RH_V1_avg)
• Vaisala probe 1 temperature minimum(temp_V1_min)
• Vaisala probe 1 temperature maximum(temp_V1_max)
• Vaisala probe 3 RH standard deviation(RH_V3_std)

• (Raw data stream - documentation not supported)

• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• North Latitude(lat)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• lon(lon)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer(down_long_hemisp_shaded)
• base time in epoch(base_time)
• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• Instantaneous upwelling pyrgeometer case thermistor temperature, pyrgeometer(inst_up_long_case_temp)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Time offset from base_time(time_offset)
• Instantaneous Dome Temperature(inst_up_long_dome_temp)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Maxima(down_long_hemisp_shaded_max)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• -180.0 - +180.0(alt)
• Battery voltage(vBatt)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Minima(down_long_hemisp_shaded_min)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer, standard
  deviation(down_long_hemisp_shaded_std)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_netir)
• Instantaneous Downwelling Pyrgeometer Dome Thermistor Temperature, Shaded
  Pyrgeometer(inst_down_long_shaded_dome_temp)
• Instantaneous downwelling pyrgeometer case thermistor temperature, shaded
  pyrgeometer(inst_down_long_shaded_case_temp)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• Downwelling longwave hemispheric net infrared(down_long_netir)

• (Raw data stream - documentation not supported)

• Hot Blackbody Temperature(hotBBTemp)
• lon(lon)
• North Latitude(lat)
• Difference between the sky view\'s radiance variance and the hot black body
  view\'s variance(standard_dev_mean_rad)
• Relative Humidity(humidity_relative)
• Time offset from base_time(time_offset)
• Bomem Time(timeBomemHHMM)
• Thermistor input channel number 3 (counting from 0) equivalent temperature(thermistor3)
• Reflected Temperature(thermistor2)
• ABB #1(thermistor5)
• Thermistor input channel number 4 (counting from 0) equivalent temperature(thermistor4)
• Thermistor input channel number 7 (counting from 0) equivalent temperature(thermistor7)
• Thermistor input channel number 6 (counting from 0) equivalent temperature(thermistor6)
• Thermistor input channel number 9 (counting from 0) equivalent temperature(thermistor9)
• Electronics Air(thermistor8)
• Thermistor input channel number 1 (counting from 0) equivalent temperature(thermistor1)
• Ambient Air near BBs(thermistor0)
• base time in epoch(base_time)
• Hatch Closed Indicator(thermistor10)
• Thermistor input channel number 11 (counting from 0) equivalent temperature(thermistor11)
• Thermistor input channel number 12 (counting from 0) equivalent temperature(thermistor12)
• Spare #2(thermistor13)
• Initial data quality flag(dataType)
• Time at center of AERI sky observation period(timeHHMMSS)
• Original Record Number in CVI or RVI file(originalRecordNumber)
• Cold Blackbody Temperature(coldBBTemp)
• Wave number in reciprocal centimeters(wnum2)
• -180.0 - +180.0(alt)
• Derived pressure(pressure)
• Mean of radiance spectra ensemble(mean_rad)
• Reflected Temperature(reflectedTemp)
• wavenumbers for mean radiance spectra(wnum)

• Cold Blackbody Temperature(coldBBTemp)
• wavenumbers for mean radiance spectra(wnum)
• Time at center of AERI sky observation period(timeHHMMSS)
• Derived pressure(pressure)
• Mean of radiance spectra ensemble(mean_rad)
• Hatch Closed Indicator(thermistor10)
• Thermistor input channel number 11 (counting from 0) equivalent temperature(thermistor11)
• Thermistor input channel number 12 (counting from 0) equivalent temperature(thermistor12)
• Spare #2(thermistor13)
• Initial data quality flag(dataType)
• Reflected Temperature(reflectedTemp)
• Difference between the sky view\'s radiance variance and the hot black body
  view\'s variance(standard_dev_mean_rad)
• Time offset from base_time(time_offset)
• Relative Humidity(humidity_relative)
• -180.0 - +180.0(alt)
• Thermistor input channel number 1 (counting from 0) equivalent temperature(thermistor1)
• Reflected Temperature(thermistor2)
• Ambient Air near BBs(thermistor0)
• Thermistor input channel number 9 (counting from 0) equivalent temperature(thermistor9)
• Thermistor input channel number 7 (counting from 0) equivalent temperature(thermistor7)
• Electronics Air(thermistor8)
• ABB #1(thermistor5)
• Thermistor input channel number 6 (counting from 0) equivalent temperature(thermistor6)
• Thermistor input channel number 3 (counting from 0) equivalent temperature(thermistor3)
• Thermistor input channel number 4 (counting from 0) equivalent temperature(thermistor4)
• Wave number in reciprocal centimeters(wnum2)
• Original Record Number in CVI or RVI file(originalRecordNumber)
• lon(lon)
• North Latitude(lat)
• base time in epoch(base_time)
• Hot Blackbody Temperature(hotBBTemp)
• Bomem Time(timeBomemHHMM)

• Wind Direction, relative to true North(WindDirection)
• Pressure of ambient air(P_Ambient)
• Back-scattering coefficient, red wavelength, high RH, 1 um size cut(Bbs_R_Wet_1um_Neph3W_2)
• Ambient air relative humidity(RH_Ambient)
• Temperature of humidograph controller(T_postHG)
• Aerosol light absorption coefficient, green channel, 1 um particle diameter(Ba_G_Dry_1um_PSAP1W_1)
• Absorption coefficient, green wavelength, 3 wavelength PSAP, low RH, 10 um size
  cut(Ba_G_Dry_10um_PSAP3W_1)
• Wind speed(WindSpeed)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 10um(Bbs_B_Dry_10um_Neph3W_1)
• Back-scattering coefficient, green wavelength, low RH, 10 um size cut(Bbs_G_Dry_10um_Neph3W_1)
• Aerosol total light scattering coefficient, Humidograph nephelometer red
  channel, 1 um particle diameter(Bs_R_Wet_1um_Neph3W_2)
• Aerosol total light scattering coefficient, blue channel, 10 um size cut, wet
  three wavelength nephelometer(Bs_B_Wet_10um_Neph3W_2)
• Relative humidity, inside Humidograph nephelometer(RH_NephVol_Wet)
• Aerosol total light scattering coefficient, reference nephelometer green
  channel, 10 um particle diameter(Bs_G_Dry_10um_Neph3W_1)
• Pressure inside reference nephelometer(P_Neph_Dry)
• Ambient air temperature(T_Ambient)
• Aerosol backwards-hemispheric light scattering coefficient, reference
  nephelometer red channel, 1 um particle diameter(Bbs_R_Dry_1um_Neph3W_1)
• Aerosol light absorption coefficient, green channel, 10 um particle diameter(Ba_G_Dry_10um_PSAP1W_1)
• Absorption coefficient, blue wavelength, 3 wavelength PSAP, low RH, 10 um size
  cut(Ba_B_Dry_10um_PSAP3W_1)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 10 um
  size cut, wet three wavelength nephelometer(Bbs_B_Wet_10um_Neph3W_2)
• Temperature at inlet(T_MainInlet)
• lon(lon)
• Aerosol backwards-hemispheric light scattering coefficient, green channel, 1 um
  size cut, reference three wavelength nephelometer(Bbs_G_Dry_1um_Neph3W_1)
• Aerosol backwards-hemispheric light scattering coefficient, humidograph
  nephelometer red channel, 10 um particle diameter(Bbs_R_Wet_10um_Neph3W_2)
• North Latitude(lat)
• Aerosol backwards-hemispheric light scattering coefficient, Humidograph
  nephelometer blue channel, 1 um particle diameter(Bbs_B_Wet_1um_Neph3W_2)
• Relative humidity inside reference nephelometer inlet(RH_NephVol_Dry)
• AOS system status(flags_NOAA)
• Temperature at wet nephelometer inlet(T_NephInlet_Wet)
• Aerosol total light scattering coefficient, reference nephelometer red channel,
  1 um particle diameter(Bs_R_Dry_1um_Neph3W_1)
• Absorption coefficient green, corrected for flow and sample area, 3 wavelength
  PSAP, 1 um size cut(Ba_G_Dry_1um_PSAP3W_1)
• Aerosol total light scattering coefficient, Humidograph nephelometer green
  channel, 10 um particle diameter(Bs_G_Wet_10um_Neph3W_2)
• Aerosol total light scattering coefficient, humidograph nephelometer blue
  channel, 1 um particle diameter(Bs_B_Wet_1um_Neph3W_2)
• Temperature inside of wet nephelometer inlet(T_NephVol_Wet)
• Relative humidity, Humidograph nephelometer inlet(RH_NephInlet_Wet)
• Aerosol backwards-hemispheric light scattering coefficient, Humidograph
  nephelometer green channel, 10 um particle diameter(Bbs_G_Wet_10um_Neph3W_2)
• Absorption Coefficient Red, corrected for flow and sample area, 3 wavelength
  PSAP, 10 um size cut(Ba_R_Dry_10um_PSAP3W_1)
• -180.0 - +180.0(alt)
• Aerosol total light scattering coefficient, Ref. Humidograph nephelometer blue
  channel, 1 um particle diameter(Bs_B_Dry_1um_Neph3W_1)
• Aerosol total light scattering coefficient, ref. humidograph nephelometer green
  channel, 1 um particle diameter(Bs_G_Dry_1um_Neph3W_1)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 1 um
  size cut, reference three wavelength nephelometer(Bbs_B_Dry_1um_Neph3W_1)
• Back-scattering coefficient, green wavelength, high RH, 1 um size cut(Bbs_G_Wet_1um_Neph3W_2)
• base time in epoch(base_time)
• Aerosol total light scattering coefficient, Humidograph nephelometer red
  channel, 10 um particle diameter(Bs_R_Wet_10um_Neph3W_2)
• Aerosol total light scattering coefficient, red channel, 10 um particle size(Bs_R_Dry_10um_Neph3W_1)
• Absorption Coefficient Red, corrected for flow and sample area, 3 wavelength
  PSAP, 1 um size cut(Ba_R_Dry_1um_PSAP3W_1)
• Pressure inside humidified nephelometer(P_Neph_Wet)
• Relative humidity of humidograph controller(RH_postHG)
• Aerosol backwards-hemispheric light scattering coefficient, red channel, 10um(Bbs_R_Dry_10um_Neph3W_1)
• Condensation nuclei concentration number(N_CPC_1)
• Relative humidity at inlet(RH_MainInlet)
• Absorption coefficient, blue wavelength, 3 wavelength PSAP, low RH, 1 um size
  cut(Ba_B_Dry_1um_PSAP3W_1)
• time_in_seconds_since_volume_start(time)
• Temperature of humidograph preheater(T_preHG)
• Time offset from base_time(time_offset)
• Temperature at reference nephelometer inlet(T_NephInlet_Dry)
• Aerosol total light scattering coefficient, blue channel, 10 um size cut,
  reference three wavelength nephelometer(Bs_B_Dry_10um_Neph3W_1)
• Temperature inside reference nephelometer(T_NephVol_Dry)
• Relative humidity of humidograph preheater(RH_preHG)
• Particle Concentration Number from summation of Optical Particle Counter size
  bins(N_OPC_1)
• Aerosol total light scattering coefficient, Humidograph nephelometer green
  channel, 1 um particle diameter(Bs_G_Wet_1um_Neph3W_2)
• Relative humidity, reference nephelometer inlet(RH_NephInlet_Dry)

• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• -180.0 - +180.0(alt)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Downwelling Longwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_long_hemisp_std)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Battery voltage(vBatt)
• base time in epoch(base_time)
• Downwelling longwave hemispheric irradiance, pyrgeometer(down_long_hemisp)
• Time offset from base_time(time_offset)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• Downwelling Longwave Hemispheric Irradiance, Pyrgeometer, Maxima(down_long_hemisp_max)
• Downwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(down_long_hemisp_min)
• North Latitude(lat)
• lon(lon)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)

• TSI High RH Neph. 450 nm backscat. coef. at 10 um(BluBScatCoef_10um_HRH)
• PMS PCASP Chan. 19 (1.30 micrometers < Dp < 1.40)(pa130_p140conc)
• RH downstream of humidograph(HGdownstream_RH)
• TSI Low RH Neph. Sample Temperature(TSINephTSamp_LRH)
• PMS PCASP Chan. 31 (8.00 micrometers < Dp < 10.0)(pa800_p1000conc)
• Ozone concentration(Ozone)
• time_in_seconds_since_volume_start(time)
• Absorption Coefficient Green (corrected) at 1 um(PSAP3w_BapGrnCorrected_1um)
• PMS PCASP Chan. 0 (Dp > 10 micrometers)(Pa1000Conc)
• TSI Low RH Neph. Pressure(TSINephPres_LRH)
• Absorption Coefficient Blue (raw) at 10 um(PSAP3w_BapBluRaw_10um)
• PMS PCASP Chan. 4 (0.16 micrometers < Dp < 0.18)(pa16_p18conc)
• Absorption Coefficient Blue (corrected) at 1 um(PSAP3w_BapBluCorrected_1um)
• TSI High RH Neph. Sample Temperature(TSINephTSamp_HRH)
• TSI High RH Neph. 550 nm total scat. coef. at 1 um(GrnTScatCoef_1um_HRH)
• Absorption Coefficient Red (corrected) at 1 um(PSAP3w_BapRedCorrected_1um)
• Absorption Coefficient Green (corrected) at 10 um(PSAP3w_BapGrnCorrected_10um)
• PMS PCASP Chan. 3 (0.14 micrometers < Dp < 0.16)(pa14_p16conc)
• PMS PCASP Chan. 7 (0.23 micrometers < Dp < 0.26)(pa23_p26conc)
• PMS PCASP Chan. 15 (0.70 micrometers < Dp < 0.80)(pa70_p80conc)
• Radiance neph. temperature(Neph530Temp)
• PMS PCASP Chan. 14 (0.60 micrometers < Dp < 0.70)(pa60_p70conc)
• Absorption Coefficient Green (raw) at 10 um(PSAP3w_BapGrnRaw_10um)
• PMS PCASP Chan. 8 (0.26 micrometers < Dp < 0.30)(pa26_p30conc)
• PMS PCASP Chan. 30 (6.50 micrometers < Dp < 8.00)(pa650_p800conc)
• TSI Low RH Neph. 550 nm total scat. coef. at 1 um(GrnTScatCoef_1um_LRH)
• TSI High RH Neph. inlet temperature(TSINephTin_HRH)
• B_sp, at 530 nm from single wave. neph.(Bscat530nm)
• TSI High RH Neph. 700 nm total scat. coef. at 1 um(RedTScatCoef_1um_HRH)
• TSI Low RH Neph. 700 nm total scat. coef. at 10 um(RedTScatCoef_10um_LRH)
• TSI High RH Neph. 550 nm backscat. coef. at 1 um(GrnBScatCoef_1um_HRH)
• PMS PCASP Chan. 29 (5.00 micrometers < Dp < 6.50)(pa500_p650conc)
• PMS PCASP Chan. 12 (0.45 micrometers < Dp < 0.50)(pa45_p50conc)
• Outdoor air temperature(AmbTemp)
• TSI Low RH Neph. 450 nm backscat. coef. at 10 um(BluBScatCoef_10um_LRH)
• PMS PCASP Chan. 23 1/cm^3 (2.00 micrometers < Dp < 2.30)(pa200_p230conc)
• Absorption Coefficient Red (corrected) at 10 um(PSAP3w_BapRedCorrected_10um)
• PMS PCASP Chan. 25 (2.60 micrometers < Dp < 3.00)(pa260_p300conc)
• RH upstream of humidograph(HGupstream_RH)
• TSI High RH Neph. 700 nm total scat. coef. at 10 um(RedTScatCoef_10um_HRH)
• Relative humidity in sample line down. of heater(SampRH)
• PMS PCASP Chan. 20 (1.40 micrometers < Dp < 1.60)(pa140_p160conc)
• PMS PCASP Chan. 11 (0.35 micrometers < Dp < 0.40)(pa40_p45conc)
• Absorption Coefficient Blue (raw) at 1 um(PSAP3w_BapBluRaw_1um)
• Single wave Neph. pressure(Pres530nm)
• Single wave Neph. RH(RH530nm)
• Absorption Coefficient Green (raw) at 1 um(PSAP3w_BapGrnRaw_1um)
• CPC Particle concentration(CPCPartConc)
• TSI High RH Neph. 450 nm total scat. coef. at 1 um(BluTScatCoef_1um_HRH)
• PMS PCASP Chan. 5 (0.18 micrometers < Dp < 0.20)(pa18_p20conc)
• PMS PCASP Chan. 22 (1.80 micrometers < Dp < 2.00)(pa180_p200conc)
• TSI Low RH Neph. 700 nm backscat. coef. at 10 um(RedBScatCoef_10um_LRH)
• PMS PCASP Chan. 26 (3.00 micrometers < Dp < 3.50)(pa300_p350conc)
• TSI Low RH Neph. 550 nm total scat. coef. at 10 um(GrnTScatCoef_10um_LRH)
• PMS PCASP Chan. 1 1/cm^3 (0.10 micrometers < Dp < 0.12)(pa10_p12conc)
• TSI Low RH Neph. relative humidity(TSINephRHSamp_LRH)
• Temp. upstream of humidograph(HGupstream_T)
• PMS PCASP Chan. 28 (4.00 micrometers < Dp < 5.00)(pa400_p500conc)
• TSI High RH Neph. 700 nm backscat. coef. at 1 um(RedBScatCoef_1um_HRH)
• 1 um Absorption coefficient(Bap_I_1um)
• TSI Low RH Neph. 550 nm backscat. coef. at 1 um(GrnBScatCoef_1um_LRH)
• Absorption Coefficient Blue (corrected) at 10 um(PSAP3w_BapBluCorrected_10um)
• PMS PCASP Chan. 18 (1.00 micrometers < Dp < 1.30)(pa100_p130conc)
• TSI Low RH Neph. inlet temperature(TSINephTin_LRH)
• lon(lon)
• TSI Low RH Neph. 450 nm total scat. coef. at 1 um(BluTScatCoef_1um_LRH)
• TSI High RH Neph. 550 nm total scat. coef. at 10 um(GrnTScatCoef_10um_HRH)
• North Latitude(lat)
• TSI Low RH Neph. 700 nm total scat. coef. at 1 um(RedTScatCoef_1um_LRH)
• PMS PCASP Chan. 24 (2.30 micrometers < Dp < 2.60)(pa230_p260conc)
• PMS PCASP Chan. 27 (3.50 micrometers < Dp < 4.00)(pa350_p400conc)
• TSI Low RH Neph. 700 nm backscat. coef. at 1 um(RedBScatCoef_1um_LRH)
• PMS PCASP Chan. 16 (0.80 micrometers < Dp < 0.90)(pa80_p90conc)
• Absorption Coefficient Red (raw) at 1 um(PSAP3w_BapRedRaw_1um)
• PMS PCASP Chan. 13 (0.50 micrometers < Dp < 0.60)(pa50_p60conc)
• Temp. downstream of humidograph(HGdownstream_T)
• TSI Low RH Neph. 450 nm total scat. coef. at 10 um(BluTScatCoef_10um_LRH)
• Absorption Coefficient Red (raw) at 10 um(PSAP3w_BapRedRaw_10um)
• TSI Low RH Neph. 450 nm backscat. coef. at 1 um(BluBScatCoef_1um_LRH)
• base time in epoch(base_time)
• TSI High RH Neph. 550 nm backscat. coef. at 10 um(GrnBScatCoef_10um_HRH)
• PMS PCASP Chan. 2 (0.12 micrometers < Dp < 0.14)(pa12_p14conc)
• PMS PCASP Chan. 17 (0.90 micrometers < Dp < 1.00)(pa90_p100conc)
• -180.0 - +180.0(alt)
• PMS PCASP Chan. 10 (0.35 micrometers < Dp < 0.40)(pa35_p40conc)
• TSI High RH Neph. relative humidity(TSINephRHSamp_HRH)
• Time offset from base_time(time_offset)
• TSI High RH Neph. 700 nm backscat. coef. at 10 um(RedBScatCoef_10um_HRH)
• TSI High RH Neph. 450 nm backscat. coef. at 1 um(BluBScatCoef_1um_HRH)
• PMS PCASP Chan. 6 (0.20 micrometers < Dp < 0.23)(pa20_p23conc)
• PMS PCASP Chan. 9 (0.30 micrometers < Dp < 0.35)(pa30_p35conc)
• TSI High RH Neph. 450 nm total scat. coef. at 10 um(BluTScatCoef_10um_HRH)
• Temperature in sample line down of heater(SampTemp)
• PMS PCASP Chan. 21 (1.60 micrometers < Dp < 1.80)(pa160_p180conc)
• TSI Low RH Neph. 550 nm backscat. coef. at 10 um(GrnBScatCoef_10um_LRH)
• 10 um Absorption coefficient(Bap_I_10um)
• TSI High RH Neph. Pressure(TSINephPres_HRH)

• -180.0 - +180.0(alt)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• Battery voltage(vBatt)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Downwelling longwave hemispheric net infrared(down_long_netir)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Time offset from base_time(time_offset)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Ventilated Pyranometer(down_short_diffuse_hemisp)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyrgeometer, Minima(down_short_diffuse_hemisp_min)
• Downwelling shortwave diffuse hemispheric irradiance, pyranometer, maxima(down_short_diffuse_hemisp_max)
• Instantaneous Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_netir)
• Downwelling shortwave hemispheric irradiance, pyranometer, maxima(down_short_hemisp_max)
• Downwelling Shortwave Hemispheric Irradiance, Pyranometer, Minima(down_short_hemisp_min)
• Instantaneous downwelling pyrgeometer case thermistor temperature, shaded
  pyrgeometer(inst_down_long_shaded_case_temp)
• Instantaneous Downwelling Pyrgeometer Dome Thermistor Temperature, Shaded
  Pyrgeometer(inst_down_long_shaded_dome_temp)
• Upwelling shortwave hemispheric irradiance, pyranometer, minima(up_short_hemisp_min)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Pyranometer, Maxima(up_short_hemisp_max)
• Downwelling Shortwave Diffuse Hemispheric Irradiance, Pyranometer, Standard
  Deviation(down_short_diffuse_hemisp_std)
• Shortwave direct normal irradiance, pyrheliometer(short_direct_normal)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer, standard
  deviation(down_long_hemisp_shaded_std)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Minima(down_long_hemisp_shaded_min)
• Shortwave Direct Normal Irradiance, Pyrgeometer, Standard Deviation(short_direct_normal_std)
• Downwelling Longwave Hemispheric Irradiance, Shaded Pyrgeometer, Maxima(down_long_hemisp_shaded_max)
• lon(lon)
• Upwelling (10 meter) Shortwave Hemispheric Irradiance, Ventilated Pyranometer,
  Standard Deviation(up_short_hemisp_std)
• North Latitude(lat)
• Instantaneous Dome Temperature(inst_up_long_dome_temp)
• Upwelling (10 meter) Longwave Hemispheric Irradiance, Ventilated Pyrgeometer,
  Standard Deviation(up_long_hemisp_std)
• Instantaneous upwelling pyrgeometer case thermistor temperature, pyrgeometer(inst_up_long_case_temp)
• Shortwave Direct Normal Irradiance, Pyrheliometer, Maxima(short_direct_normal_max)
• Shortwave direct normal irradiance, pyrheliometer, minima(short_direct_normal_min)
• Downwelling longwave hemispheric irradiance, shaded pyrgeometer(down_long_hemisp_shaded)
• Upwelling Longwave Hemispheric Irradiance, Pyrgeometer, Minima(up_long_hemisp_min)
• Upwelling longwave hemispheric irradiance, pyrgeometer, maxima(up_long_hemisp_max)
• base time in epoch(base_time)

• Bottom air temperature(temp_air_bottom)
• Top relative humidity (fractional)(rh_top_fraction)
• AEM position indicator(home_signal)
• Time offset from base_time(time_offset)
• Wind direction vector mean standard deviation(wdir_vec_std)
• Bottom vapor pressure(vapor_pressure_bottom)
• Wind speed vector mean(wspd_vec_mean)
• Net radiation(net_radiation)
• Bottom relative humidity (fractional)(rh_bottom_fraction)
• base time in epoch(base_time)
• Top T/RH sensor temperature(temp_trh_top)
• -180.0 - +180.0(alt)
• Top air temperature(temp_air_top)
• Reference temperature in enclosure(temp_reference)
• Wind direction vector mean(wdir_vec_mean)
• time_in_seconds_since_volume_start(time)
• Bottom T/RH sensor temperature(temp_trh_bottom)
• Top vapor pressure(vapor_pressure_top)
• lon(lon)
• North Latitude(lat)
• Atmospheric pressure(atmos_pressure)
• Wind speed arithmetic mean(wspd_arith_mean)

• Mass concentration of ammonium, ambient aerosol in air(ammonium)
• lon(lon)
• Organic mass spectral matrix(org_mx)
• North Latitude(lat)
• Mass concentration of total organics, ambient aerosol in air(total_organics)
• Mass concentration of sulfate, ambient aerosol in air.(sulfate)
• Organic mass spectral error matrix(org_mx_err)
• base time in epoch(base_time)
• Time offset from base_time(time_offset)
• Mass to charge ratios of ion fragments(amus)
• Mass concentration of chloride, ambient aerosol in air.(chloride)
• Mass concentration of nitrate, ambient aerosol in air(nitrate)
• -180.0 - +180.0(alt)
• time_in_seconds_since_volume_start(time)

• Sky infrared temperature, standard deviation(sky_ir_temp_std)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• Internal Reference Infra Red Temperature(ref_ir_temp)
• Sky Infra-Red Temperature(sky_ir_temp)
• Sky Infra-Red Temperature Minima(sky_ir_temp_min)
• North Latitude(lat)
• Sky Infra Red Temperature Maxima(sky_ir_temp_max)
• lon(lon)
• Time offset from base_time(time_offset)
• time_in_seconds_since_volume_start(time)
• Number of averaged samples(samples_in_average)

• base time in epoch(base_time)
• North Latitude(lat)
• lon(lon)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• Downwelling longwave hemispheric irradiance, pyrgeometer(down_long_hemisp)
• 10 meter Upwelling Longwave Hemispheric Irradiance, Pyrgeometer(up_long_hemisp)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Time offset from base_time(time_offset)
• -180.0 - +180.0(alt)
• Up-welling pyrgeometer case thermistor resistance(up_long_case_resist)
• Up-welling pyrgeometer dome thermistor resistance(up_long_dome_resist)
• Down-welling pyrgeometer case thermistor resistance(down_long_case_resist)
• Down-welling pyrgeometer dome thermistor resistance(down_long_dome_resist)
• Shaded pyranometer voltage(short_diffuse)
• Direct-beam normal solar irradiance(nip)

• Temperature of multi-IO box from MEMS sensor(mio_temperature_mems)
• Standard deviation of collector tilt measured perpendicular to band axis.(collector_y_tilt_std)
• Temperature of multi-IO box from MEMS sensor in Fahrenheit(mio_temperature_mems_fahr)
• time_in_seconds_since_volume_start(time)
• Collector tilt perpendicular to band axis(collector_y_tilt)
• Earth sun distance(earth_sun_dist)
• Shutter state(shutter_state)
• Collector internal relative humidity from TRH sensor(collector_rh)
• Inner band orientation relative to operational vertical(inner_band_angle)
• -180.0 - +180.0(alt)
• North Latitude(lat)
• lon(lon)
• Scattering angle occluded by point of inner band nearest to the solar position(inner_band_scat_ang)
• Solar azimuth angle relative to north(solar_azimuth)
• Top of atmosphere spectrum wavelengths(wavelength)
• Spectrometer chiller internal RH(chiller_rh)
• Band axis orientation with respect to azimuth limit switch(band_az_raw)
• Time offset from base_time(time_offset)
• Collector internal temperature from TRH sensor(collector_temperature)
• Spectrometer chiller internal dew point(chiller_dewpoint)
• Step number in measurement sequence(tag)
• Outer band orientation relative to nominal vertical(outer_band_angle_raw)
• Temperature of MIO box from TRH sensor(mio_temperature_trh)
• Scattering angle occluded by point of outer band nearest to the solar position(outer_band_scat_ang)
• Temperature of avantes optical bench(avantes_bench_temperature)
• Collector internal dew point(collector_dewpoint)
• Collector tilt along band axis(collector_x_tilt)
• Spectra(spectra)
• MIO relative humidity from TRH sensor(mio_rh)
• base time in epoch(base_time)
• Solar zenith angle relative to vertical zenith.(solar_zenith)
• Spectrometer internal clock ticks(spectrometer_clock_ticks)
• Number of spectrometer scans averaged for InGaAs NIR spectrometer(number_of_scans)
• Chiller temperature during 1 minute interval.(chiller_temperature)
• Temperature of avantes AD board(avantes_ad_temperature)
• Atmospheric pressure(atmos_pressure)
• Integration time of individual spectrometer scans(spectrometer_integration_time)
• Inner band orientation relative to nominal vertical(inner_band_angle_raw)
• Air mass(airmass)
• Band axis orientation with respect to north(band_azimuth)
• Outer band orientation relative to operational vertical(outer_band_angle)
• Standard deviation of collector tilt measured along band axis.(collector_x_tilt_std)

• Normalized filter function data, filter 3, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter3)
• Normalized filter function data, filter 2, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter2)
• Normalized filter function data, filter 1, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter1)
• Normalized filter function data, filter 6, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter6)
• Normalized filter function data, filter 5, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter5)
• Normalized filter function data, filter 4, measured transmittance value obtained
  during bench calibrations(normalized_transmittance_filter4)
• Data Logger Temperature(logger_temp)
• angle of incidence during cosine bench measurements(bench_angle)
• base time in epoch(base_time)
• Elevation angle(elevation_angle)
• Data logger supply voltage(logger_volt)
• Offset subtracted from upwelling hemispheric filter5 data(offset_filter5)
• Offset subtracted from direct normal filter4 data(offset_filter4)
• Offset subtracted from hemispheric and diffuse filter6 data(offset_filter6)
• Offset subtracted from hemispheric filter1 data(offset_filter1)
• Offset subtracted from direct normal filter3 data(offset_filter3)
• Offset subtracted from upwelling hemispheric filter2 data(offset_filter2)
• cosine correction, west to east, broadband channel(cosine_correction_we_broadband)
• Air mass(airmass)
• Cosine correction of broadband diffuse, assuming Rayleigh sky at 45 degree
  zenith angle(diffuse_correction_broadband)
• time_in_seconds_since_volume_start(time)
• Normalized filter function data, filter 5, wavelength value obtained during
  bench calibrations(wavelength_filter5)
• Normalized filter function data, filter 4, wavelength value obtained during
  bench calibrations(wavelength_filter4)
• Normalized filter function data, filter 6, wavelength value obtained during
  bench calibrations(wavelength_filter6)
• Normalized filter function data, filter 1, wavelength value obtained during
  bench calibrations(wavelength_filter1)
• Normalized filter function data, filter 3, wavelength value obtained during
  bench calibrations(wavelength_filter3)
• Normalized filter function data, filter 2, wavelength value obtained during
  bench calibrations(wavelength_filter2)
• Narrowband hemispheric irradiance, filter 6, nominal wavelength is 935 nm(hemisp_narrowband_filter6)
• Narrowband hemispheric irradiance, filter 4, offset and cosine corrected(hemisp_narrowband_filter4)
• Narrowband Hemispheric Irradiance, Filter 5, offset corrected(hemisp_narrowband_filter5)
• Narrowband Hemispheric Irradiance, Filter 2(hemisp_narrowband_filter2)
• Narrowband hemispheric irradiance, filter 3, offset and cosine corrected(hemisp_narrowband_filter3)
• Narrowband Hemispheric Irradiance, Filter 1, offset corrected(hemisp_narrowband_filter1)
• Nominal calibration factor, applied to filter6 data(nominal_calibration_factor_filter6)
• Nominal calibration factor, applied to filter5 data(nominal_calibration_factor_filter5)
• Nominal calibration factor, applied to filter4 data(nominal_calibration_factor_filter4)
• Nominal calibration factor, applied to filter3 data(nominal_calibration_factor_filter3)
• Nominal calibration factor, applied to filter2 data(nominal_calibration_factor_filter2)
• Nominal calibration factor, applied to filter1 data(nominal_calibration_factor_filter1)
• Diffuse Hemispheric Broadband Irradiance, offset corrected(diffuse_hemisp_broadband)
• cosine correction, south to north, broadband channel(cosine_correction_sn_broadband)
• Detector temperature(head_temp)
• lon(lon)
• North Latitude(lat)
• Ratio of direct_normal_filter1 to diffuse_hemisp_filter1(direct_diffuse_ratio_filter1)
• Ratio of direct_normal_filter2 to diffuse_hemisp_filter2(direct_diffuse_ratio_filter2)
• Time offset from base_time(time_offset)
• Ratio of direct_normal_narrowband_filter3 to diffuse_hemisp_narrowband_filter3(direct_diffuse_ratio_filter3)
• Ratio of direct_normal_filter4 to diffuse_hemisp_filter4(direct_diffuse_ratio_filter4)
• Ratio of direct_normal_filter5 to diffuse_hemisp_filter5(direct_diffuse_ratio_filter5)
• Ratio of direct_normal_narrowband_filter6 to diffuse_hemisp_narrowband_filter6(direct_diffuse_ratio_filter6)
• Alltime hemispheric broadband irradiance(alltime_hemisp_broadband)
• Alltime narrowband hemispheric irradiance, filter 5(alltime_hemisp_narrowband_filter5)
• Alltime Narrowband Hemispheric Irradiance, Filter 6(alltime_hemisp_narrowband_filter6)
• Alltime Narrowband Hemispheric Irradiance, Filter 3(alltime_hemisp_narrowband_filter3)
• Alltime Narrowband Hemispheric Irradiance, Filter 4(alltime_hemisp_narrowband_filter4)
• Alltime narrowband hemispheric irradiance, filter 1(alltime_hemisp_narrowband_filter1)
• Alltime narrowband hemispheric irradiance, filter 2(alltime_hemisp_narrowband_filter2)
• Second detector temperature(head_temp2)
• Ratio of direct_normal_broadband to diffuse_hemisp_broadband(direct_diffuse_ratio_broadband)
• Direct Horizontal Broadband Irradiance(direct_horizontal_broadband)
• Cosine correction applied to direct_horizontal_broadband(computed_cosine_correction_broadband)
• Cosine correction, west to east, filter4(cosine_correction_we_filter4)
• Cosine correction, west to east, filter5(cosine_correction_we_filter5)
• cosine correction, west to east, filter2(cosine_correction_we_filter2)
• cosine correction, west to east, filter3(cosine_correction_we_filter3)
• cosine correction, west to east, filter6(cosine_correction_we_filter6)
• Cosine correction, west to east, filter1(cosine_correction_we_filter1)
• Cosine correction applied to direct_horizontal_narrowband_filter2(computed_cosine_correction_filter2)
• Cosine correction applied to direct_horizontal_filter1(computed_cosine_correction_filter1)
• Cosine correction applied to direct_horizontal_narrowband_filter4(computed_cosine_correction_filter4)
• Cosine correction applied to direct_horizontal_narrowband_filter3(computed_cosine_correction_filter3)
• Cosine correction applied to direct_horizontal_filter6(computed_cosine_correction_filter6)
• Cosine correction applied to direct_horizontal_filter5(computed_cosine_correction_filter5)
• Cosine solar zenith angle(cosine_solar_zenith_angle)
• Cosine correction of filter3 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter3)
• Cosine correction of filter2 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter2)
• Cosine correction of filter1 diffuse, assuming Rayleigh sky at 45 degree zenith
  angle(diffuse_correction_filter1)
• Cosine correction of filter6 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter6)
• Cosine correction of filter5 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter5)
• Cosine correction of filter4 diffuse, assuming Rayleigh sky at 45 deg zenith
  angle(diffuse_correction_filter4)
• Direct normal narrowband irradiance, filter 6, offset corrected(direct_normal_narrowband_filter6)
• Narrowband Direct Normal Irradiance, Filter 5(direct_normal_narrowband_filter5)
• Direct normal narrowband irradiance, filter 2, offset corrected(direct_normal_narrowband_filter2)
• Narrowband Direct Normal Irradiance, Filter 1(direct_normal_narrowband_filter1)
• Direct normal narrowband irradiance, filter 4, offset corrected(direct_normal_narrowband_filter4)
• Narrowband Direct Normal Irradiance, Filter 3, cosine corrected(direct_normal_narrowband_filter3)
• Solar zenith angle(solar_zenith_angle)
• Offset subtracted from hemispheric and diffuse broadband data(offset_broadband)
• Direct Normal Broadband Irradiance, cosine corrected, broadband scale applied(direct_normal_broadband)
• Azimuth angle(azimuth_angle)
• Hemispheric broadband irradiance(hemisp_broadband)
• Narrowband Direct Horizontal Irradiance, Filter 6, cosine corrected(direct_horizontal_narrowband_filter6)
• Nominal calibration factor, applied to broadband data(nominal_calibration_factor_broadband)
• Direct horizontal narrowband irradiance, filter 1(direct_horizontal_narrowband_filter1)
• Narrowband Direct Horizontal Irradiance, Filter 4, cosine corrected(direct_horizontal_narrowband_filter4)
• Narrowband Direct Horizontal Irradiance, Filter 5, cosine corrected(direct_horizontal_narrowband_filter5)
• Narrowband Direct Horizontal Irradiance, Filter 2, cosine corrected(direct_horizontal_narrowband_filter2)
• Direct Horizontal Narrowband Irradiance, Filter 3(direct_horizontal_narrowband_filter3)
• -180.0 - +180.0(alt)
• cosine correction, south to north, filter1(cosine_correction_sn_filter1)
• Cosine correction, south to north, filter2(cosine_correction_sn_filter2)
• Cosine correction, south to north, filter3(cosine_correction_sn_filter3)
• Cosine correction, south to north, filter4(cosine_correction_sn_filter4)
• cosine correction, south to north, filter5(cosine_correction_sn_filter5)
• cosine correction, south to north, filter6(cosine_correction_sn_filter6)
• Diffuse Narrowband Hemispheric Irradiance, Filter 1, offset corrected(diffuse_hemisp_narrowband_filter1)
• Diffuse Narrowband Hemispheric Irradiance, Filter 2, offset corrected(diffuse_hemisp_narrowband_filter2)
• Diffuse Narrowband Hemispheric Irradiance, Filter 3(diffuse_hemisp_narrowband_filter3)
• Diffuse Narrowband Hemispheric Irradiance, Filter 4(diffuse_hemisp_narrowband_filter4)
• Narrowband diffuse hemispheric irradiance, filter 5, offset and cosine corrected(diffuse_hemisp_narrowband_filter5)
• Diffuse Narrowband Hemispheric Irradiance, Filter 6, offset corrected(diffuse_hemisp_narrowband_filter6)

• AOS CCN sample saturation setpoint value reported by instrument(CCN_ss_set)
• Bin number of lowest channel of OPC include in summation of N_CCN(N_CCN_bin_number)
• North Latitude(lat)
• lon(lon)
• AOS CCN temperature of sample air at entrance to instrument(CCN_T_inlet)
• AOS CCN temperature of sample air entering the column(CCN_T_sample)
• CCN Proportional valve voltage(CCN_proportional_valve_voltage)
• AOS CCN temperature of the nafion humidifier(CCN_T_nafion)
• First stage monitor voltage(CCN_first_stage_monitor_voltage)
• base time in epoch(base_time)
• AOS CCN sample pressure(CCN_P_sample)
• AOS CCN volumetric flowrate of sheath air(CCN_Q_sheath)
• time_in_seconds_since_volume_start(time)
• AOS CCN logical value, indicating whether the instrument has reached thermal
  gradient stabilization and is within 0.4 degrees C of the set point(CCN_temp_unstable_flag)
• AOS CCN OPC laser current(CCN_laser_current)
• AOS CCN super saturation (calculated)(CCN_super_saturation_calculated)
• Time offset from base_time(time_offset)
• AOS CCN temperature of the optical particle counter(CCN_T_OPC)
• Temperature difference between CCN_t_set_TEC3 and CCN_t_set_TEC1(CCN_temperature_gradient)
• AOS CCN volumetric flowrate of sample air(CCN_Q_sample)
• AOS CCN number concentration by bin(N_CCN_dN)
• Cloud condensation nuclei number density(N_CCN)
• -180.0 - +180.0(alt)
• AOS CCN (read) temperature at bottom of column(CCN_t_read_TEC3)
• AOS CCN observed temperature at middle of column(CCN_t_read_TEC2)
• AOS CCN observed temperature at top of column(CCN_t_read_TEC1)
• Standard deviation of CCN temperature gradient (CCN_t_read_TEC3 -
  CCN_t_read_TEC1)(CCN_temperature_std)

• (Raw data stream - documentation not supported)

• (Raw data stream - documentation not supported)

• Pulse repetition frequency(prf)
• Time offset from base_time(time_offset)
• Number of Valid Heights(nheight)
• Height of Center of First Range Gate(rgf)
• Height of center of last range gate(rgl)
• Range gate spacing(rgs)
• Number of Individual Spectra/Average Spectrum(nspc)
• lon(lon)
• Oblique FFT bandwidth(oband)
• North Latitude(lat)
• Spectral Data(spc_amp)
• Array of heights for each sample time(height_t)
• Beam Elevation Angle(elevation)
• Ave Time per Average Spectra.(spcavetim)
• Time Domain Integration Time(tditime)
• base time in epoch(base_time)
• Radial Velocity Spectral Resolution(vsr)
• Individual Spectrum Integration Time(sitime)
• Rx Bandwidth Switch Code(bswitch)
• Height Index(range_gate)
• -180.0 - +180.0(alt)
• Vertical FFT Bandwidth(vband)
• Number of Coherent Samples/Spectral Point(ncoh)
• Pulse length(plen)
• Interpulse period(ipp)
• Beam Number(beam)
• Number of pulse code bits(pcbits)
• Delay Time to 1st Gate(dly)
• Particle radius at logarithmic center of bin(bins)
• Sample Rate(sampr)

• Quality check results on field: Soil heat flow 1, corrected for soil moisture(qc_corr_soil_heat_flow_1)
• Quality check results on field: Soil heat flow 3, corrected for soil moisture(qc_corr_soil_heat_flow_3)
• Quality check results on field: Soil heat flow 2, corrected for soil moisture(qc_corr_soil_heat_flow_2)
• Quality check results on field: Surface soil heat flux 1(qc_surface_soil_heat_flux_1)
• Quality check results on field: Net radiation(qc_net_radiation)
• Quality check results on field: Surface soil heat flux 3(qc_surface_soil_heat_flux_3)
• Quality check results on field: Surface soil heat flux 2(qc_surface_soil_heat_flux_2)
• Quality check results on field: Upwelling Shortwave Hemispheric Irradiance(qc_up_short_hemisp)
• Quality check results on field: Change in energy storage 3, 0-5 cm soil layer(qc_energy_storage_change_3)
• Quality check results on field: Change in energy storage 2, 0-5 cm soil layer(qc_energy_storage_change_2)
• Quality check results on field: Change in energy storage 1, 0-5 cm soil layer(qc_energy_storage_change_1)
• Quality check results on field: Surface longwave irradiance(qc_up_long)
• Wetness, rain detector(wetness)
• cloud narrowband albedo(albedo)
• Results of quality checks on sample time(qc_time)
• Quality check results on field: Downwelling shortwave hemispheric irradiance(qc_down_short_hemisp)
• Quality check results on field: Wetness, rain detector(qc_wetness)
• Surface longwave irradiance(up_long)
• Surface energy balance(surface_energy_balance)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Surface soil heat flux 2(surface_soil_heat_flux_2)
• Surface soil heat flux 1(surface_soil_heat_flux_1)
• Surface soil heat flux 3(surface_soil_heat_flux_3)
• Quality check results on field: Soil heat flow 1(qc_soil_heat_flow_1)
• Quality check results on field: Soil heat flow 2(qc_soil_heat_flow_2)
• Quality check results on field: Soil heat flow 3(qc_soil_heat_flow_3)
• Quality check results on field: Sky longwave irradiance(qc_down_long)
• Quality check results on field: Albedo(qc_albedo)
• time_in_seconds_since_volume_start(time)
• Quality check results on field: Surface energy balance(qc_surface_energy_balance)
• lon(lon)
• Quality check results on field: Net radiometer temperature(qc_temp_net_radiometer)
• Change in energy storage 1, 0-5 cm soil layer(energy_storage_change_1)
• Change in energy storage 3, 0-5 cm soil layer(energy_storage_change_3)
• Change in energy storage 2, 0-5 cm soil layer(energy_storage_change_2)
• Quality check results on field: Soil moisture 2, gravimetric(qc_soil_moisture_2)
• Quality check results on field: Soil moisture 3, gravimetric(qc_soil_moisture_3)
• Quality check results on field: Soil moisture 1, gravimetric(qc_soil_moisture_1)
• Battery voltage(battery_voltage)
• North Latitude(lat)
• Quality check results on field: Soil temperature 3(qc_soil_temp_3)
• Quality check results on field: Soil temperature 2(qc_soil_temp_2)
• Quality check results on field: Soil temperature 1(qc_soil_temp_1)
• Sky longwave irradiance(down_long)
• Soil heat flow 1(soil_heat_flow_1)
• Soil heat flow 3(soil_heat_flow_3)
• Soil heat flow 2(soil_heat_flow_2)
• base time in epoch(base_time)
• Quality check results on field: Soil heat capacity 1(qc_soil_heat_capacity_1)
• Quality check results on field: Soil heat capacity 2(qc_soil_heat_capacity_2)
• Quality check results on field: Soil heat capacity 3(qc_soil_heat_capacity_3)
• Quality check results on field: Battery voltage(qc_battery_voltage)
• Soil moisture 3, gravimetric(soil_moisture_3)
• Soil moisture 1, gravimetric(soil_moisture_1)
• Soil moisture 2, gravimetric(soil_moisture_2)
• Time offset from base_time(time_offset)
• Soil heat flow 1, corrected for soil moisture(corr_soil_heat_flow_1)
• Soil heat flow 2, corrected for soil moisture(corr_soil_heat_flow_2)
• Soil heat flow 3, corrected for soil moisture(corr_soil_heat_flow_3)
• Surface soil heat flux, average of fluxes 1-5(surface_soil_heat_flux_avg)
• Soil temperature mean 3(soil_temp_3)
• Soil temperature 2(soil_temp_2)
• Soil temperature 1(soil_temp_1)
• Net radiometer temperature(temp_net_radiometer)
• 25 meter Upwelling Shortwave Hemispheric Irradiance, Pyranometer(up_short_hemisp)
• -180.0 - +180.0(alt)
• Net radiation(net radiation)
• Soil heat capacity 2(soil_heat_capacity_2)
• Soil heat capacity 3(soil_heat_capacity_3)
• Soil heat capacity 1(soil_heat_capacity_1)
• Quality check results on field: Surface soil heat flux, average of fluxes 1-5(qc_surface_soil_heat_flux_avg)

• Instantaneous Upwelling Pyrgeometer Case Thermistor Resistance, Pyrgeometer(inst_up_long_case_resist)
• Instantaneous uncorrected downwelling shortwave diffuse, shaded pyranometer
  thermopile voltage(inst_diffuse)
• -180.0 - +180.0(alt)
• Instantaneous Downwelling Pyrgeometer Case Thermistor Resistance, Shaded
  Pyrgeometer(inst_down_long_shaded_case_resist)
• base time in epoch(base_time)
• Time offset from base_time(time_offset)
• Instantaneous direct normal shortwave irradiance, pyrheliometer thermopile
  voltage(inst_direct_normal)
• North Latitude(lat)
• lon(lon)
• Instantaneous Upwelling Pyrgeometer Dome Thermistor Resistance Pyrgeometer(inst_up_long_dome_resist)
• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)
• Instantaneous downwelling pyrgeometer dome thermistor resistance, shaded
  pyrgeometer(inst_down_long_shaded_dome_resist)
• Instantaneous Downwelling Hemispheric Shortwave, Pyranometer Thermopile Voltage(inst_global)
• Instantaneous downwelling pyrgeometer thermopile voltage, shaded pyrgeometer(inst_down_long_hemisp_shaded_tp)
• Instantaneous Upwelling Pyrgeometer Thermopile Pyrgeometer(inst_up_long_hemisp_tp)

• Instantaneous direct normal shortwave irradiance, pyrheliometer thermopile
  voltage(inst_direct_normal)
• Instantaneous downwelling pyrgeometer dome thermistor resistance, shaded
  pyrgeometer(inst_down_long_shaded_dome_resist)
• time_in_seconds_since_volume_start(time)
• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)
• Instantaneous Upwelling Pyrgeometer Dome Thermistor Resistance Pyrgeometer(inst_up_long_dome_resist)
• Instantaneous Upwelling Pyrgeometer Thermopile Pyrgeometer(inst_up_long_hemisp_tp)
• Instantaneous uncorrected downwelling shortwave diffuse, shaded pyranometer
  thermopile voltage(inst_diffuse)
• Instantaneous Downwelling Pyrgeometer Case Thermistor Resistance, Shaded
  Pyrgeometer(inst_down_long_shaded_case_resist)
• Instantaneous downwelling pyrgeometer thermopile voltage, shaded pyrgeometer(inst_down_long_hemisp_shaded_tp)
• Instantaneous Upwelling Pyrgeometer Case Thermistor Resistance, Pyrgeometer(inst_up_long_case_resist)
• -180.0 - +180.0(alt)
• Instantaneous Downwelling Hemispheric Shortwave, Pyranometer Thermopile Voltage(inst_global)
• lon(lon)
• North Latitude(lat)
• base time in epoch(base_time)
• Time offset from base_time(time_offset)

• Attenuation corrected differential reflectivity(diff_reflectivity_corr)
• Lag-0 co-polar correlation coefficient, clutter filtered(copol_coeff)
• Differential reflectivity, clutter filtered(diff_reflectivity)
• Doppler spectral width, clutter filtered(doppler_spectral_width)
• reflectivity(reflectivity)
• time_in_seconds_since_volume_start(time)
• Differential propagation phase shift(dp_phase_shift)
• Range gate(gate)
• Signal quality index(sig_qual_index)
• Unfiltered reflectivity(reflectivity_unf)
• Specific differential phase(diff_phase)
• Mean doppler velocity(mean_doppler_velocity)
• Attenuation corrected reflectivity(reflectivity_corr)

• error in final linear fit for the Direct Narrowband Filter1(barnard_error_fit_filter1)
• error in final linear fit for the Direct Narrowband Filter2(barnard_error_fit_filter2)
• error in final linear fit for the Direct Narrowband Filter5(barnard_error_fit_filter5)
• error in final linear fit for the Direct Narrowband Filter6(barnard_error_fit_filter6)
• error in final linear fit for the Direct Narrowband Filter3(barnard_error_fit_filter3)
• error in final linear fit for the Direct Narrowband Filter4(barnard_error_fit_filter4)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter4(michalsky_good_fraction_filter4)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter5(michalsky_good_fraction_filter5)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter6(michalsky_good_fraction_filter6)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter1(michalsky_good_fraction_filter1)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter2(michalsky_good_fraction_filter2)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter3(michalsky_good_fraction_filter3)
• error in optical depth (slope) of final linear fit for the Direct Broadband(barnard_error_slope_broadband)
• -180.0 - +180.0(alt)
• percentage of initial points used in final linear fit for the Direct Broadband(michalsky_good_fraction_broadband)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter1(barnard_good_fraction_filter1)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter2(barnard_good_fraction_filter2)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter3(barnard_good_fraction_filter3)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter4(barnard_good_fraction_filter4)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter5(barnard_good_fraction_filter5)
• percentage of initial points used in final linear fit for the Direct Narrowband
  Filter6(barnard_good_fraction_filter6)
• rejection flag for Direct Narrowband Filter5(barnard_badflag_filter5)
• rejection flag for Direct Narrowband Filter4(barnard_badflag_filter4)
• rejection flag for Direct Narrowband Filter6(barnard_badflag_filter6)
• rejection flag for Direct Narrowband Filter1(barnard_badflag_filter1)
• rejection flag for Direct Narrowband Filter3(barnard_badflag_filter3)
• rejection flag for Direct Narrowband Filter2(barnard_badflag_filter2)
• solar constant corrected for solar distance for the Direct Broadband(michalsky_solar_constant_sdist_broadband)
• Langley regression Io, Michalsky, Direct BroadBand(michalsky_solar_constant_broadband)
• Barnard computed sun to earth distance(barnard_sun_earth_distance)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter5(barnard_error_slope_filter5)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter6(barnard_error_slope_filter6)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter3(barnard_error_slope_filter3)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter4(barnard_error_slope_filter4)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter1(barnard_error_slope_filter1)
• error in optical depth (slope) of final linear fit for the Direct Narrowband
  Filter2(barnard_error_slope_filter2)
• number of points used in final linear fit for the Direct Broadband(barnard_number_points_broadband)
• standard deviation around regression line for the Direct Narrowband Filter1(michalsky_standard_deviation_filter1)
• standard deviation around regression line for the Direct Narrowband Filter2(michalsky_standard_deviation_filter2)
• standard deviation around regression line for the Direct Narrowband Filter5(michalsky_standard_deviation_filter5)
• standard deviation around regression line for the Direct Narrowband Filter6(michalsky_standard_deviation_filter6)
• standard deviation around regression line for the Direct Narrowband Filter3(michalsky_standard_deviation_filter3)
• standard deviation around regression line for the Direct Narrowband Filter4(michalsky_standard_deviation_filter4)
• number of points used in final linear fit for the Direct Narrowband Filter4(barnard_number_points_filter4)
• number of points used in final linear fit for the Direct Narrowband Filter5(barnard_number_points_filter5)
• number of points used in final linear fit for the Direct Narrowband Filter6(barnard_number_points_filter6)
• number of points used in final linear fit for the Direct Narrowband Filter1(barnard_number_points_filter1)
• number of points used in final linear fit for the Direct Narrowband Filter2(barnard_number_points_filter2)
• number of points used in final linear fit for the Direct Narrowband Filter3(barnard_number_points_filter3)
• rejection flag for Direct Broadband(barnard_badflag_broadband)
• number of points used in final linear fit for the Direct Broadband(michalsky_number_points_broadband)
• Langley regression Io, adjusted to 1AU, Barnard, Direct BroadBand(barnard_solar_constant_sdist_broadband)
• rejection flag for Direct Broadband(michalsky_badflag_broadband)
• solar constant corrected for solar distance for the Direct Narrowband Filter1(barnard_solar_constant_sdist_filter1)
• solar constant corrected for solar distance for the Direct Narrowband Filter2(barnard_solar_constant_sdist_filter2)
• solar constant corrected for solar distance for the Direct Narrowband Filter3(barnard_solar_constant_sdist_filter3)
• Langley regression Io, adjusted to 1AU, Barnard, Direct Narrowband Filter4(barnard_solar_constant_sdist_filter4)
• solar constant corrected for solar distance for the Direct Narrowband Filter5(barnard_solar_constant_sdist_filter5)
• solar constant corrected for solar distance for the Direct Narrowband Filter6(barnard_solar_constant_sdist_filter6)
• Michalsky computed sun to earth distance(michalsky_sun_earth_distance)
• number of points used in final linear fit for the Direct Narrowband Filter2(michalsky_number_points_filter2)
• number of points used in final linear fit for the Direct Narrowband Filter1(michalsky_number_points_filter1)
• number of points used in final linear fit for the Direct Narrowband Filter6(michalsky_number_points_filter6)
• number of points used in final linear fit for the Direct Narrowband Filter5(michalsky_number_points_filter5)
• number of points used in final linear fit for the Direct Narrowband Filter4(michalsky_number_points_filter4)
• number of points used in final linear fit for the Direct Narrowband Filter3(michalsky_number_points_filter3)
• solar constant corrected for solar distance for the Direct Narrowband Filter6(michalsky_solar_constant_sdist_filter6)
• solar constant corrected for solar distance for the Direct Narrowband Filter2(michalsky_solar_constant_sdist_filter2)
• solar constant corrected for solar distance for the Direct Narrowband Filter3(michalsky_solar_constant_sdist_filter3)
• solar constant corrected for solar distance for the Direct Narrowband Filter4(michalsky_solar_constant_sdist_filter4)
• solar constant corrected for solar distance for the Direct Narrowband Filter5(michalsky_solar_constant_sdist_filter5)
• solar constant corrected for solar distance for the Direct Narrowband Filter1(michalsky_solar_constant_sdist_filter1)
• optical depth for the Direct BroadBand(barnard_optical_depth_broadband)
• standard deviation around regression line for the Direct BroadBand(michalsky_standard_deviation_broadband)
• solar constant for the Direct Narrowband Filter1(michalsky_solar_constant_filter1)
• solar constant for the Direct Narrowband Filter3(michalsky_solar_constant_filter3)
• Langley regression Io, Michalsky, Direct Narrowband Filter2(michalsky_solar_constant_filter2)
• Langley regression Io, Michalsky, Direct Narrowband Filter5(michalsky_solar_constant_filter5)
• Langley regression Io, Michalsky, Direct Narrowband Filter4(michalsky_solar_constant_filter4)
• solar constant for the Direct Narrowband Filter6(michalsky_solar_constant_filter6)
• optical depth for the Direct Narrowband Filter6(barnard_optical_depth_filter6)
• optical depth for the Direct Narrowband Filter5(barnard_optical_depth_filter5)
• error in final linear fit for the Direct BroadBand(barnard_error_fit_broadband)
• optical depth for the Direct Narrowband Filter2(barnard_optical_depth_filter2)
• optical depth for the Direct Narrowband Filter1(barnard_optical_depth_filter1)
• optical depth for the Direct Narrowband Filter4(barnard_optical_depth_filter4)
• optical depth for the Direct Narrowband Filter3(barnard_optical_depth_filter3)
• base time in epoch(base_time)
• time_in_seconds_since_volume_start(time)
• lon(lon)
• rejection flag for Direct Narrowband Filter2(michalsky_badflag_filter2)
• rejection flag for Direct Narrowband Filter1(michalsky_badflag_filter1)
• rejection flag for Direct Narrowband Filter4(michalsky_badflag_filter4)
• rejection flag for Direct Narrowband Filter3(michalsky_badflag_filter3)
• rejection flag for Direct Narrowband Filter6(michalsky_badflag_filter6)
• rejection flag for Direct Narrowband Filter5(michalsky_badflag_filter5)
• North Latitude(lat)
• optical depth for the Direct BroadBand(michalsky_optical_depth_broadband)
• percentage of initial points used in final linear fit for the Direct Broadband(barnard_good_fraction_broadband)
• optical depth for the Direct Narrowband Filter1(michalsky_optical_depth_filter1)
• optical depth for the Direct Narrowband Filter2(michalsky_optical_depth_filter2)
• optical depth for the Direct Narrowband Filter3(michalsky_optical_depth_filter3)
• optical depth for the Direct Narrowband Filter4(michalsky_optical_depth_filter4)
• optical depth for the Direct Narrowband Filter5(michalsky_optical_depth_filter5)
• optical depth for the Direct Narrowband Filter6(michalsky_optical_depth_filter6)

• Total water vapor along LOS path(vap)
• Noise injection temp at 31.4 GHz adjusted to tkbb(tnd31)
• Noise injection temp at 23.8 GHz adjusted to tkbb(tnd23)
• Mean 31.4 GHz sky brightness temperature(tbsky31)
• Temperature correction coefficient at 31.4 GHz(tc31)
• Temperature correction coefficient at 23.8 GHz(tc23)
• Mean 23.8 GHz sky brightness temperature(tbsky23)
• Water on Teflon window (1=WET, 0=DRY)(wet_window)
• 31.4 GHz blac2body+noise injection signal(bbn31)
• 23.8 GHz blackbody+noise injection signal(bbn23)
• Sky Infra-Red Temperature(sky_ir_temp)
• Ambient temperature(tkair)
• Time offset from base_time(time_offset)
• lon(lon)
• Averaged total liquid water along LOS path(liq)
• North Latitude(lat)
• base time in epoch(base_time)
• -180.0 - +180.0(alt)
• 31.4 GHz blackbody(bb31)
• 23.8 GHz Blackbody signal(bb23)
• Noise injection temp at nominal temperature at 31.4 GHz(tnd_nom31)
• 23.8 GHz sky signal(sky23)
• 31.4 GHz sky signal(sky31)
• Noise injection temp at nominal temperature at 23.8 GHz(tnd_nom23)
• (tknd)
• Blackbody kinetic temperature(tkbb)
• Mixer kinetic (physical) temperature(tkxc)

• Wind direction vector mean standard deviation(wdir_vec_std)
• AEM position indicator(home_signal)
• Time offset from base_time(time_offset)
• Top relative humidity (fractional)(rh_top_fraction)
• lon(lon)
• North Latitude(lat)
• Bottom vapor pressure(vapor_pressure_bottom)
• time_in_seconds_since_volume_start(time)
• Atmospheric pressure(atmos_pressure)
• Net radiation(net_radiation)
• -180.0 - +180.0(alt)
• Bottom relative humidity (fractional)(rh_bottom_fraction)
• Wind speed arithmetic mean(wspd_arith_mean)
• base time in epoch(base_time)
• Top air temperature(temp_air_top)
• Top T/RH sensor temperature(temp_trh_top)
• Bottom T/RH sensor temperature(temp_trh_bottom)
• Wind direction vector mean(wdir_vec_mean)
• Reference temperature in enclosure(temp_reference)
• Bottom air temperature(temp_air_bottom)
• Top vapor pressure(vapor_pressure_top)
• Wind speed vector mean(wspd_vec_mean)

• Instantaneous direct normal shortwave irradiance, pyrheliometer thermopile
  voltage(inst_direct_normal)
• Instantaneous downwelling pyrgeometer dome thermistor resistance, shaded
  pyrgeometer(inst_down_long_shaded_dome_resist)
• Instantaneous uncorrected downwelling shortwave diffuse, shaded pyranometer
  thermopile voltage(inst_diffuse)
• Instantaneous Upwelling Pyrgeometer Dome Thermistor Resistance Pyrgeometer(inst_up_long_dome_resist)
• base time in epoch(base_time)
• -180.0 - +180.0(alt)
• Instantaneous Downwelling Hemispheric Shortwave, Pyranometer Thermopile Voltage(inst_global)
• Time offset from base_time(time_offset)
• Instantaneous Downwelling Pyrgeometer Case Thermistor Resistance, Shaded
  Pyrgeometer(inst_down_long_shaded_case_resist)
• Instantaneous Upwelling Pyrgeometer Case Thermistor Resistance, Pyrgeometer(inst_up_long_case_resist)
• Instantaneous downwelling pyrgeometer thermopile voltage, shaded pyrgeometer(inst_down_long_hemisp_shaded_tp)
• lon(lon)
• North Latitude(lat)
• Instantaneous Upwelling Pyrgeometer Thermopile Pyrgeometer(inst_up_long_hemisp_tp)
• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)

• Number of lidar pulses summed(shots_summed)
• lon(lon)
• Amount of time laser pulse lags behind the scalar trigger(laser_scalar_sync_offset)
• Instrument Temperature(instrument_temp)
• Angle of orientation with respect to true geographic north(transceiver_azimuth_angle)
• North Latitude(lat)
• Height(height)
• Time in nanoseconds for each range bin of multichannel scalar card.(range_bin_time)
• Distance to the center of the corresponding range bin(range)
• value represents earliest applicable date as yyyymmdd(property)
• Distance from leading edge of first range bin to the center of each bin .(range_bins)
• Subtract from range_bins to yield range(range_offset)
• Number of laser pulses summed during measurement interval(shots_sum)
• Background signal(background_signal)
• Assumed zero-range bin number(assumed_zero_range_bin)
• Sum of raw backscatter counts per bin prior to ANY corrections.(total_counts)
• Attenuated backscatter(detector_counts)
• base time in epoch(base_time)
• Voltage level which operates the A/D card and the detector(voltage_05)
• Voltage level which operates the energy monitor(voltage_15)
• Voltage level which operates the thermistor(voltage_10)
• Aerosol volume backscattering coefficient at 355 nm(backscatter)
• Amount of time the actual laser pulse lags behind the sync trigger(laser_sync_offset)
• Repetition rate, or Trigger Frequency of the laser(trigger_freq)
• -180.0 - +180.0(alt)
• Width of range-bins calculated from range_bin_time(range_bin_width)
• time_in_seconds_since_volume_start(time)
• Repetition Rate, or Trigger Frequency of the laser(pulse_rep)
• Detector Temperature(detector_temp)
• Amount of time the scalar lags behind the sync trigger(scalar_sync_offset)
• Time offset from base_time(time_offset)
• Filter Temperature(filter_temp)
• Laser output energy per pulse(energy_monitor)
• Preliminary cloud base height above ground level(preliminary_cbh)
• Maximum altitude retrieved from multichannel scalar card.(max_altitude)
• Laser Temperature(laser_temp)
• Angle of inclination with respect to horizontal(transceiver_altitude_angle)
• Deadtime correction factor(deadtime_correction)

• Filter Temperature(filter_temp)
• North Latitude(lat)
• Laser output energy per pulse(energy_monitor)
• Instrument electronics temperature(instrument_temperature)
• base time in epoch(base_time)
• Cloud base height (for first cloud above height threshold)(cloud_base_height)
• Number of lidar pulses summed(shots_summed)
• Laser Temperature(laser_temp)
• Detector Temperature(detector_temp)
• Height(height)
• lon(lon)
• Voltage level which operates the A/D card and the detector(voltage_05)
• Voltage level which operates the energy monitor(voltage_15)
• Voltage level which operates the thermistor(voltage_10)
• Instrument Temperature(instrument_temp)
• Time offset from base_time(time_offset)
• -180.0 - +180.0(alt)
• Binary data quality flag(cloud_base_height_dq_flag)
• Repetition Rate, or Trigger Frequency of the laser(pulse_rep)
• Aerosol volume backscattering coefficient at 355 nm(backscatter)
• Background signal(background_signal)

• Sky Infra Red Temperature Maxima(sky_ir_temp_max)
• Sky Infra-Red Temperature Minima(sky_ir_temp_min)
• Sky infrared temperature, standard deviation(sky_ir_temp_std)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Sky Infra-Red Temperature(sky_ir_temp)
• Number of averaged samples(samples_in_average)
• base time in epoch(base_time)
• lon(lon)
• North Latitude(lat)
• time_in_seconds_since_volume_start(time)
• Internal Reference Infra Red Temperature(ref_ir_temp)

• -180.0 - +180.0(alt)
• Instantaneous Upwelling Shortwave Hemispheric Irradiance, Pyranometer(inst_up_short_hemisp)
• Instantaneous Upwelling Pyrgeometer Case Thermistor Resistance, Pyrgeometer(inst_up_long_case_resist)
• base time in epoch(base_time)
• Instantaneous downwelling pyrgeometer thermopile voltage, shaded pyrgeometer(inst_down_long_hemisp_shaded_tp)
• Instantaneous Downwelling Hemispheric Shortwave, Pyranometer Thermopile Voltage(inst_global)
• Instantaneous uncorrected downwelling shortwave diffuse, shaded pyranometer
  thermopile voltage(inst_diffuse)
• time_in_seconds_since_volume_start(time)
• Instantaneous direct normal shortwave irradiance, pyrheliometer thermopile
  voltage(inst_direct_normal)
• Instantaneous downwelling pyrgeometer dome thermistor resistance, shaded
  pyrgeometer(inst_down_long_shaded_dome_resist)
• Instantaneous Upwelling Pyrgeometer Thermopile Pyrgeometer(inst_up_long_hemisp_tp)
• Instantaneous Downwelling Pyrgeometer Case Thermistor Resistance, Shaded
  Pyrgeometer(inst_down_long_shaded_case_resist)
• lon(lon)
• North Latitude(lat)
• Instantaneous Upwelling Pyrgeometer Dome Thermistor Resistance Pyrgeometer(inst_up_long_dome_resist)
• Time offset from base_time(time_offset)

• Time offset from base_time(time_offset)
• North Latitude(lat)
• Bottom T/RH sensor temperature(temp_trh_bottom)
• lon(lon)
• Top vapor pressure(vapor_pressure_top)
• Wind direction vector mean(wdir_vec_mean)
• Wind speed vector mean(wspd_vec_mean)
• time_in_seconds_since_volume_start(time)
• Bottom air temperature(temp_air_bottom)
• Bottom relative humidity (fractional)(rh_bottom_fraction)
• Reference temperature in enclosure(temp_reference)
• Bottom vapor pressure(vapor_pressure_bottom)
• Atmospheric pressure(atmos_pressure)
• Top relative humidity (fractional)(rh_top_fraction)
• Wind speed arithmetic mean(wspd_arith_mean)
• Top air temperature(temp_air_top)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• Net radiation(net_radiation)
• Top T/RH sensor temperature(temp_trh_top)
• AEM position indicator(home_signal)
• Wind direction vector mean standard deviation(wdir_vec_std)

• Beam Elevation Angle(elevation)
• Beam azimuth relative to Lidar home point(relative_azimuth)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Intensity (signal to noise ratio + 1)(intensity)
• Radial velocity(radial_velocity)
• base time in epoch(base_time)
• lon(lon)
• Distance to the center of the corresponding range bin(range)
• time_in_seconds_since_volume_start(time)
• North Latitude(lat)
• Attenuated backscatter(attenuated_backscatter)