MAG/ALL/M1 - Ship in Dry Dock

Ship was at dry dock without MAGIC instruments or in transit to or from dry dock.  No 
instrument data available.

• No-shadow record, standard deviation of the mean signal from the filter5 channel
  when no shadow is detected(signal_narrowband_filter5_std)
• Shadow record, mean narrowband hemispheric irradiance at start of sweep, filter
  3, nominal wavelength is 608 nm(start_sweep_hemisp_narrowband_filter3)
• Shadow record, mean narrowband hemispheric irradiance at start of sweep, filter
  4, nominal wavelength is 660 nm(start_sweep_hemisp_narrowband_filter4)
• Narrowband hemispheric irradiance, at start of shadowband sweep, filter 5,
  nominal wavelength is 860 nm(start_sweep_hemisp_narrowband_filter5)
• Shadow record, mean narrowband hemispheric irradiance at start of sweep, filter
  6, nominal wavelength is 935 nm(start_sweep_hemisp_narrowband_filter6)
• Shadow record, standard deviation of accepted shadow ratios(shadow_ratio_std)
• Shadow record, mean narrowband hemispheric irradiance at start of sweep, filter
  1, nominal wavelength is 415 nm(start_sweep_hemisp_narrowband_filter1)
• Narrowband hemispheric irradiance, at start of shadowband sweep, filter 2,
  nominal wavelength is 500 nm(start_sweep_hemisp_narrowband_filter2)
• No-shadow record, standard deviation of the mean signal from the filter3 channel
  when no shadow is detected(signal_narrowband_filter3_std)
• North Latitude(lat)
• base time in epoch(base_time)
• No-shadow record, standard deviation of the mean signal from the filter1 channel
  when no shadow is detected(signal_narrowband_filter1_std)
• No-shadow record, mean signal from the broadband channel when no shadow is
  detected(signal_broadband)
• Shutdown threshold, go to short 'record' mode when mean_global is less than or
  equal to shutdown_threshold(shutdown_threshold)
• No-shadow record, standard deviation of the mean signal from the filter6 channel
  when no shadow is detected(signal_narrowband_filter6_std)
• Narrowband hemispheric irradiance, at end of shadowband sweep, filter 1, nominal
  wavelength is 415 nm(end_sweep_hemisp_narrowband_filter1)
• Narrowband hemispheric irradiance, at end of shadowband sweep, filter 5, nominal
  wavelength is 860 nm(end_sweep_hemisp_narrowband_filter5)
• Shadow record, mean narrowband hemispheric irradiance at end of sweep, filter 4,
  nominal wavelength is 660 nm(end_sweep_hemisp_narrowband_filter4)
• Narrowband hemispheric irradiance, at end of shadowband sweep, filter 3,
  nominal wavelength is 608 nm(end_sweep_hemisp_narrowband_filter3)
• Shadow record, mean narrowband hemispheric irradiance at end of sweep, filter 2,
  nominal wavelength is 500 nm(end_sweep_hemisp_narrowband_filter2)
• Narrowband hemispheric irradiance, at end of shadowband sweep, filter 6, nominal
  wavelength is 935 nm(end_sweep_hemisp_narrowband_filter6)
• lon(lon)
• No-shadow record, standard deviation of the mean signal from the filter4 channel
  when no shadow is detected(signal_narrowband_filter4_std)
• No-shadow record. mean signal from the filter2 channel when no shadow is
  detected(signal_narrowband_filter2)
• No-shadow record, mean signal from the filter1 channel when no shadow is
  detected(signal_narrowband_filter1)
• No-shadow record, mean signal from the filter4 channel when no shadow is
  detected(signal_narrowband_filter4)
• No-shadow record, mean signal from the filter3 channel when no shadow is
  detected(signal_narrowband_filter3)
• No-shadow record, mean signal from the filter6 channel when no shadow is
  detected(signal_narrowband_filter6)
• No-shadow record, mean signal from the filter5 channel when no shadow is
  detected(signal_narrowband_filter5)
• No-shadow record, standard deviation of the mean signal from the filter2 channel
  when no shadow is detected(signal_narrowband_filter2_std)
• -180.0 - +180.0(alt)
• No-shadow record, standard deviation of the mean signal from the broadband
  channel when no shadow is detected(signal_broadband_std)
• Hemispheric broadband irradiance, at end of shadowband sweep, broadband channel(end_sweep_hemisp_broadband)
• Shadow record, shadow ratio threshold. Do not process an individual sweep is
  less than or equal to shadow_ratio_threshold(shadow_ratio_threshold)
• Mean global, selected channel(mean_global)
• Shadow record, mean sweep measurements, broadband channel(sweeps_hemisp_broadband)
• Bin numbers for sweep measurements(bin)
• time_in_seconds_since_volume_start(time)
• Detector temperature(head_temp)
• Time offset from base_time(time_offset)
• Hemispheric broadband irradiance, at start of shadowband sweep, broadband
  channel(start_sweep_hemisp_broadband)
• Shadow record, mean shadow ratio for all accepted sweeps in average period(shadow_ratio)
• Shadowband sweep measurements, filter 6, nominal wavelength is 935 nm(sweeps_hemisp_narrowband_filter6)
• Shadowband sweep measurements, filter 5, nominal wavelength is 860 nm(sweeps_hemisp_narrowband_filter5)
• Shadow record, mean sweep measurements, filter 4, nominal wavelength is 660 nm(sweeps_hemisp_narrowband_filter4)
• Shadowband sweep measurements, filter 3, nominal wavelength is 608 nm(sweeps_hemisp_narrowband_filter3)
• Shadowband sweep measurements, filter 2, nominal wavelength is 500 nm(sweeps_hemisp_narrowband_filter2)
• Shadow record, mean sweep measurements, filter 1, nominal wavelength is 415 nm(sweeps_hemisp_narrowband_filter1)

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

• (Raw data stream - documentation not supported)

• Pixel count: number thin in sun circle(region_sun_count_thin)
• Pixel count: number total indeterminate(count_unknown)
• Pixel count: number total in horizon area(region_horizon_count)
• Relative 'strength' of direct sun(sun_strength)
• Solar azimuth angle relative to north(solar_azimuth)
• lon(lon)
• Percent opaque cloud(percent_opaque)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• Pixel count: number in camera and sun strip mask(count_mask)
• Pixel count: number opaque in zenith circle(region_zenith_count_opaque)
• Pixel count: number total opaque(count_opaque)
• time_in_seconds_since_volume_start(time)
• Percent thin cloud(percent_thin)
• Pixel count: number thin in horizon area(region_horizon_count_thin)
• Pixel count: number opaque in horizon area(region_horizon_count_opaque)
• Pixel count: number total in sun circle(region_sun_count)
• Sun altitude above horizon(solar_altitude)
• Pixel count: number opaque in sun circle(region_sun_count_opaque)
• Pixel count: number total thin(count_thin)
• Pixel count: number total in zenith circle(region_zenith_count)
• North Latitude(lat)
• Pixel count: number in box, outside mirror area(count_box)
• Time offset from base_time(time_offset)
• Pixel count: number thin in zenith circle(region_zenith_count_thin)
• Pixel count: number total between horizon and processed circle(count_sub_proczen)
• Pixel count: number total in processed circle(count_sky)
• Sunshine meter(sunny)
• Pixel count: number below horizon in image(count_sub_horz)

• Time offset from base_time(time_offset)
• lon(lon)
• time_in_seconds_since_volume_start(time)
• View Zenith Angle(view_zenith)
• North Latitude(lat)
• Solar ZenithAngle(zenith)
• Top of atmosphere spectrum wavelengths(wavelength)
• Time of observation(timeObs)
• base time in epoch(base_time)
• Principle Plane Sky Radiance(pp_rad)
• -180.0 - +180.0(alt)

• Background signal standard deviation, copol data(background_signal_std_co_pol)
• Detector Temperature(detector_temp)
• Attenuated backscatter, co-pol(signal_return_co_pol)
• Quality check results on field: Attenuated backscatter, cross pol(qc_signal_return_cross_pol)
• Distance from leading edge of first range bin to the center of each bin .(range_bins)
• Number of detector channels(num_channels)
• Number of bins stored in data block(num_bins)
• North Latitude(lat)
• Quality check results on field: Telescope temperature(qc_scope_temp)
• Telescope temperature(scope_temp)
• Polarization control voltage setting(polarization_control_voltage)
• Time in nanoseconds for each range bin of multichannel scalar card.(range_bin_time)
• Background signal, co-pol(background_signal_co_pol)
• Attenuated backscatter, cross pol(signal_return_cross_pol)
• Height(height)
• time_in_seconds_since_volume_start(time)
• Laser output energy per pulse(energy_monitor)
• Overlap correction(overlap_correction)
• Laser Temperature(laser_temp)
• Results of quality checks on sample time(qc_time)
• Repetition Rate, or Trigger Frequency of the laser(pulse_rep)
• Deadtime correction factor(deadtime_correction)
• Quality check results on field: Detector temperature(qc_detector_temp)
• Dead time correction flag(dead_time_corrected)
• Heights for overlap correction(overlap_correction_heights)
• Subtract from range_bins to yield range(range_offset)
• Quality check results on field: Laser temperature(qc_laser_temp)
• base time in epoch(base_time)
• MCS mode register, value is either 167 or 199.(mcs_mode)
• Width of range-bins calculated from range_bin_time(range_bin_width)
• -180.0 - +180.0(alt)
• Polarization control enabled flag(polarization_control)
• Quality check results on field: Distance between initial range_bin and the laser
  flash(qc_range_offset)
• Quality check results on field: Energy output per pulse of transmitted laser
  beam at 532 nm (Doubled Nd-YLF)(qc_energy_monitor)
• Preliminary cloud base height above ground level(preliminary_cbh)
• Quality check results on field: Attenuated backscatter, copol(qc_signal_return_co_pol)
• Background signal standard deviation, cross-pol(background_signal_std_cross_pol)
• Maximum altitude retrieved from multichannel scalar card.(max_altitude)
• Quality check results on field: Preliminary cloud base height above ground level(qc_preliminary_cbh)
• Bin number of first data. Tells where pretrigger timing ends and end of region
  for background data sampling laser_fire_bin(first_data_bin)
• lon(lon)
• Laboratory measured counts used to calculate the deadtime correction samples(deadtime_correction_counts)
• Time offset from base_time(time_offset)
• Background signal, cross pol data(background_signal_cross_pol)
• Distance to the center of the corresponding range bin(range)

• Lock alarms for 360 MHz oscillator.(lock_alarm_360)
• +5 V power supply voltage on radar control board(power_supply_5V)
• Antenna temperature(temp_antenna)
• Remote control enabled (0/1)(remote_control_enabled)
• Antenna feedhorn temperature(temp_antenna_feedhorn)
• Relative humidity measured by sensor on radar control board(rh_local)
• -5 V power supply voltage(input_minus5V)
• Reverse power termination temperature(temp_reverse_power)
• LNA temperature(temp_lna)
• KAZR processing mode(processing_mode)
• Outside air temperature(temp_outside_air)
• Radar calibration constant, channel 2, copolar(cal_constant_ch2_copol)
• On/Off state(is_powered_on)
• +8 V power supply voltage(input_8V)
• Receiver noise, channel 2(rx_noise_ch2)
• Receiver noise, channel 1(rx_noise_ch1)
• +5 V power supply voltage(input_5V)
• Instrument fault flags(fault_flags)
• KAZR timing mode(timing_mode)
• TWTA status state(twta_status_state)
• base time in epoch(base_time)
• PDU status j1 logic ... need description(pdu_status_j1_logic)
• +5.2 V power supply voltage on radar control board(power_supply_5p2V)
• time_in_seconds_since_volume_start(time)
• +28 V power supply voltage on radar control board(power_supply_28V)
• Lock alarms for 120 MHz oscillator.(lock_alarm_120)
• Taper factor added to fast fourier transform.(fft_taper_type)
• Temperature measured by sensor on radar control board(temp_local)
• Noise source, channel 1(noise_source_ch1)
• Noise source, channel 2(noise_source_ch2)
• Lock alarms for 1620 MHz oscillator.(lock_alarm_1620)
• 4-port circulator temperature(temp_circulator)
• DC power supply temperature(temp_power_supply)
• Radar calibration constant, channel 1, cross-polar(cal_constant_ch1_xpol)
• Time offset from base_time(time_offset)
• RF detector temperature(temp_rf_detector)
• +15 V power supply voltage(input_15V)
• Lock alarms for 16560 MHz oscillator.(lock_alarm_16560)
• Physical temperature of noise diode(temp_noise_diode)
• Radar calibration constant, channel 1, copolar(cal_constant_ch1_copol)
• Transmit power(tx_power)
• +12 V power supply voltage(input_12V)
• spare analog ... need a list of possible values(spare_analog_j12_1)
• Component plate temperature(temp_component_plate)
• Antenna relative humidity(rh_antenna)
• Receiver gain, channel 1(rx_gain_ch1)
• Radar calibration constant, channel 2, cross-polar(cal_constant_ch2_xpol)
• Receiver gain, channel 2(rx_gain_ch2)
• j2 logic ... need description(j2_logic)

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

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

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

• North Latitude(lat)
• Instrument flags, reference nephelometer(neph_dry_flags)
• Aerosol backwards-hemispheric light scattering coefficient, reference
  nephelometer red channel, 1 um particle diameter(Bbs_R_Dry_1um_Neph3W_1)
• Aerosol total light scattering coefficient, reference nephelometer red channel,
  1 um particle diameter(Bs_R_Dry_1um_Neph3W_1)
• Relative humidity, reference nephelometer(RH_Neph_Dry)
• lon(lon)
• Temperature at reference nephelometer inlet(T_NephInlet_Dry)
• 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, 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)
• -180.0 - +180.0(alt)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 10um(Bbs_B_Dry_10um_Neph3W_1)
• Sample temperature inside reference nephelometer(T_Neph_Dry)
• Aerosol backwards-hemispheric light scattering coefficient, red channel, 10um(Bbs_R_Dry_10um_Neph3W_1)
• Aerosol total light scattering coefficient, red channel, 10 um particle size(Bs_R_Dry_10um_Neph3W_1)
• 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)
• time_in_seconds_since_volume_start(time)
• Back-scattering coefficient, green wavelength, low RH, 10 um size cut(Bbs_G_Dry_10um_Neph3W_1)
• base time in epoch(base_time)
• Time offset from base_time(time_offset)
• Aerosol total light scattering coefficient, blue channel, 10 um size cut,
  reference three wavelength nephelometer(Bs_B_Dry_10um_Neph3W_1)

• Purge flow(purge_flow)
• Bin number(bin_num)
• Scatter signal(scattering_voltage)
• Upper particle size limit for each bin(upper_size_limit)
• Differential_voltage, see instrument manual(differential_voltage)
• -180.0 - +180.0(alt)
• Main flow rate(flow)
• Auxiliary measurement, not implemented(auxiliary)
• Particle size distribution(size_distribution)
• Current(current)
• Sheath flow(sheath_flow)
• Sample pressure(sample_pressure)
• Lower particle size limit for each bin(lower_size_limit)
• base time in epoch(base_time)
• time_in_seconds_since_volume_start(time)
• North Latitude(lat)
• Unit temperature(unit_temperature)
• Time offset from base_time(time_offset)
• Reference(reference)
• lon(lon)
• Temperature used for calculation(temperature)
• Sample volume(sampling_volume)

• EIKA collector over-temperature fault when value equals 1(modfault_active_collector_temperature)
• Ship sway velocity, starboard-to-port displacement, positive to port(sway_velocity)
• GPS-determined velocity vector heading angle(gps_heading)
• GPS longitude reference(gps_longitude_ref)
• Noise power of internal ambient temperature source (noise source OFF)(noise_power_cold)
• Time of modulator deck temperature fault(modfault_time_deck_temperature)
• Temperature of modulator power supply(temperature_modulator_power_supply)
• Negative 15 V power supply voltage(monitor_neg15v)
• Noise power spectral density in spectra when viewing antenna port(noise_power_density_sky)
• North Latitude(lat)
• Pitch, bow up positive(pitch)
• environmental housing relative humidity(humidity)
• Modulator deck temperature fault when value equals 1(modfault_active_deck_temp)
• Ship yaw, axis vertical, positive is clockwise rotation(yaw)
• Time of modulator body current fault(modfault_time_over_current)
• GPS latitude reference(gps_latitude_ref)
• lon(lon)
• Temperature of coolant return measured inside RF unit(temperature_coolant_return)
• Transmit power measured at the EIKA output(power_output)
• time_in_seconds_since_volume_start(time)
• 5 V power supply voltage(monitor_5v)
• Ship sway, starboard-to-port displacement, positive to port(sway)
• 4200 MHz phase-locked oscillator in lock when value equals 1(plo_4200_mhz_lock)
• base time in epoch(base_time)
• Heave directional acceleration, up positive(heave_acceleration)
• Total sky noise power prior to spectrum computation(noise_power_sky)
• Ship surge displacement along ship length, positive forward(surge)
• 70 MHz phase-locked oscillator in lock when value equals 1(plo_70_mhz_lock)
• Roll angle reported by tilt table, positive is port side up(roll)
• Modulator radiating indicator, equals 1 when high voltage on(modulator_radiating)
• GPS-determined velocity vector heading reference(gps_heading_ref)
• 8 V power supply voltage(monitor_8v)
• GPS timestamp(gps_timestamp)
• Temperature of low-noise-amplifier(temperature_lna)
• Temperature of RF unit case(temperature_outside_air)
• 15840 MHz phase-locked oscillator in lock when value equals 1(plo_15840_mhz_lock)
• Inside air temperature(temperature_inside_air)
• Time offset from base_time(time_offset)
• Time of modulator over-duty-cycle fault(modfault_time_over_duty)
• -180.0 - +180.0(alt)
• Temperature of coolant supply measured inside RF unit(temperature_coolant_supply)
• Ship surge velocity along ship length, positive forward(surge_velocity)
• Modulator standby indicator, equals 1 when warming up(modulator_standby)
• 28 V power supply voltage(monitor_28v)
• Modulator deck fault when value equals 1(modfault_active_deck_fault)
• Ship surge acceleration along ship length, positive forward(surge_acceleration)
• Time of modulator collector over-temperature fault(modfault_time_collector_temperature)
• Polarization mode.(polarization)
• Receiver gain estimated from noise source measurements using Y-factor method(gain)
• Modulator high voltage power supply fault when value equals 1(modfault_active_hvps)
• Heave: up positive(heave)
• GPS-determined velocity(gps_velocity)
• 15120 MHz phase-locked oscillator in lock when value equals 1(plo_15120_mhz_lock)
• Transmitter temperature(temperature_eika_tube)
• Heave directional velocity, up positive(heave_velocity)
• Modulator over-duty-cycle fault when value equals 1(modfault_active_over_duty)
• Temperature of noise source(temperature_noise_source)
• 60 MHz phase-locked oscillator in lock when value equals 1(plo_60_mhz_lock)
• Time of modulator deck fault(modfault_time_deck_fault)
• Noise power of internal hot noise source (noise source ON)(noise_power_hot)
• 5.2 V power supply voltage(monitor_5p2v)
• Temperature measured by sensor on radar control board(temperature_local)
• Time of modulator high voltage power supply fault(modfault_time_hvps)
• Modulator body current fault when value equals 1(modfault_active_over_current)
• Ship sway acceleration starboard-to-port, positive to port(sway_acceleration)
• 15 V power supply voltage(monitor_15v)
• Receiver noise figure estimated from noise source measurements using Y-factor
  method(noise_figure)
• Drive power measured at transmitter input(power_drive)

• time_in_seconds_since_volume_start(time)
• North Latitude(lat)
• lon(lon)
• Course over ground(course_over_ground)
• Time offset from base_time(time_offset)
• base time in epoch(base_time)
• -180.0 - +180.0(alt)
• Speed over ground(speed_over_ground)
• Magnetic variation(variance)

• -180.0 - +180.0(alt)
• time_in_seconds_since_volume_start(time)
• Minimum aerosol particle diameter instrument setting(scan_min_diameter_setting)
• base time in epoch(base_time)
• Bin numbers for sweep measurements(bin)
• Concentration of aerosol(aerosol_concentration)
• Atomizer calibration status(atomizer)
• Maximum aerosol particle diameter instrument setting(scan_max_diameter_setting)
• Humidified DMA scanning time instrument setting(scan_time_setting)
• Sample flow rate(sample_flow)
• North Latitude(lat)
• Time offset from base_time(time_offset)
• Humid aerosol particle relative humidity(humid_rh)
• Number of bins stored in data block(num_bins)
• Sampling mode scan type(scan_type)
• lon(lon)
• Dry aerosol diameter size instrument setting(dry_diameter_setting)
• Total scan concentration over all bins(total_concentration)
• Bin center value(bin_center)
• Dry aerosol particle relative humidity instrument setting(dry_rh_setting)
• Bin width(bin_width)

• Downwelling pyrgeometer case thermistor temperature, pyrgeometer(down_long_hemisp_case_temp)
• Temperature of RAD circuit board(circuit_board_temperature)
• Downwelling longwave hemispheric irradiance, pyrgeometer(down_long_hemisp)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• North Latitude(lat)
• lon(lon)
• Time offset from base_time(time_offset)
• Downwelling Pyrgeometer Dome Thermistor Temperature, Pyrgeometer(down_long_hemisp_dome_temp)
• base time in epoch(base_time)
• Battery voltage(battery_voltage)
• PIR thermopile output(pir_thermopile)
• -180.0 - +180.0(alt)
• time_in_seconds_since_volume_start(time)

• overhead laser alignment image snapshot(overhead_snapshot)
• TCS Record count(tcsoptics_records)
• Fan 1 Voltage(tcstelescope_fan1_main)
• Good shots according to the accumulator board(DEBUG_combined_hi_goodshots)
• 24 volt 2.5amp aux power supply(AuxPower_24vPowerSupply)
• [ no description ](tcstelescope_lasttime)
• Coolant temperature sensor reading(raw_analog_coolanttemperature)
• combined_hi Long-Range reference value(combined_hi_long_range_reference)
• [ no description ](tcsoptics_lasttime)
• Short Cell Filtered Energy(brillouinfiltered_energy_stats)
• Laser Power Supply Values(laserpowervalues)
• Seed laser temperature from seed laser controller.(DATA_seed_laser_temp)
• ReceivedSignalFilter Servo Position(ReceivedSignalFilter)
• Software Accumulator Device Status Bits(cross_accfeedback)
• Temperature 1(tcstelescope_temp1)
• Temperature 2(tcstelescope_temp2)
• Temperature 3(tcstelescope_temp3)
• Temperature 4(tcstelescope_temp4)
• Fan 2 Current(tcsoptics_fan2_current)
• Accumulation Interval(combined_hi_accumulationinterval)
• L3 Controlled Seedvoltage(seedvoltage)
• TCS Record count(tcstelescope_records)
• Lidar Mode Bits(LIDARCTL_mode)
• L3 Embedded control seedvoltage(l3seedvoltage)
• environmental housing relative humidity(humidity)
• Polarization sequence of shots mode enumeration(DATA_polarization_mode)
• Event Times in UT(DATA_event_times)
• [ no description ](tcstelescope_firsttime)
• Fan 1 Voltage(tcsoptics_fan1_main)
• Etalon Pressure Motor Position(etalonposition)
• Optical Bench Air Pressure reading(opticalbenchairpressure)
• Polarization Attenuator(attenuator)
• Time of first shot in UT(DATA_base_time)
• Short Cell Energy Ratio Target value(shortcell_target)
• Shot count(l3stats_shotcount)
• interferometer light intensity(interferometer)
• Accumulation Interval(cross_accumulationinterval)
• Accumulation Interval(molecular_accumulationinterval)
• clock id data is received from(DATA_clockhost)
• cross accumulator channel(cross)
• Short Cell Energy(shortcell)
• Outgoing Shutter Position(OutgoingShutter)
• Temperature 1(tcsoptics_temp1)
• Temperature 2(tcsoptics_temp2)
• combined_lo Long-Range reference value(combined_lo_long_range_reference)
• Temperature 3(tcsoptics_temp3)
• Temperature 4(tcsoptics_temp4)
• Temperature Readings in Lidar System(system_temperatures)
• bins read from accumulator board (not greater than requested)(DEBUG_combined_hi_readBins)
• combined_lo accumulator channel(combined_lo)
• 5v2 volt 11amp aux power supply(AuxPower_5v2PowerSupply)
• Derived pressure(pressure)
• Interferometer temperature sensor reading(raw_analog_interferometertemperature)
• Fan 1 Current(tcsoptics_fan1_current)
• Fan 2 Current(tcstelescope_fan2_current)
• combined_hi accumulator channel(combined_hi)
• molecular accumulator channel(molecular)
• bins read from accumulator board (not greater than requested)(DEBUG_combined_lo_readBins)
• LaserYAxisAlignment Servo Position(LaserYAxisAlignment)
• bins read from accumulator board (not greater than requested)(DEBUG_cross_readBins)
• Number of seeded shots in each channel(DATA_num_seed_shots)
• 5v1 volt 11amps aux power supply(AuxPower_5v1PowerSupply)
• clockchannel entry descriptions(clockchannel)
• Fan 2 Voltage(tcsoptics_fan2_main)
• Uncorrected Shot Normalized energies for Lock Point Ratio(energyRatioLockPoint)
• Fan 2 Voltage(tcstelescope_fan2_main)
• CalibrationPowerFilter Servo Position(CalibrationPowerFilter)
• 12 volt 5amp aux power supply(AuxPower_12vPowerSupply)
• TC Main(tcstelescope_tc_main)
• Short Cell NonFiltered Energy(nonfiltered_energy_stats)
• cross Long-Range reference value(cross_long_range_reference)
• Time of last shot in UT(DATA_end_time)
• Fan 1 Current(tcstelescope_fan1_current)
• Laser Build up Time(builduptime)
• Date and time of last accumulation interval in the sum in UT.(DATA_last_time)
• Good shots according to the accumulator board(DEBUG_molecular_goodshots)
• TC Main(tcsoptics_tc_main)
• Time of Shot in UT(DATA_time)
• Good shots according to the accumulator board(DEBUG_cross_goodshots)
• Software Accumulator Device Status Bits(combined_hi_accfeedback)
• RemoveLongI2Cell Servo Position(RemoveLongI2Cell)
• Software Accumulator Device Status Bits(combined_lo_accfeedback)
• Software Clock Device Status Bits(DATA_clockfeedback)
• Main Current(tcstelescope_main_current)
• bins read from accumulator board (not greater than requested)(DEBUG_molecular_readBins)
• Laser Build up Time Threshhold(builduptime_threshhold)
• molecular Long-Range reference value(molecular_long_range_reference)
• Software Accumulator Device Status Bits(molecular_accfeedback)
• Etalon temperature sensor reading(raw_analog_etalontemperature)
• Good Shot count(l3stats_goodshotcount)
• Main Current(tcsoptics_main_current)
• Detector Shutter Position(DetectorShutter)
• Date and time of first accumulation interval in the sum in UT(DATA_first_time)
• total_energy clock board energy monitor(total_energy)
• Good shots according to the accumulator board(DEBUG_combined_lo_goodshots)
• Accumulation Interval(combined_lo_accumulationinterval)
• interferometer image snapshot(interferometer_snapshot)
• [ no description ](DATA_shot_count)
• Aux Box 12 volt 1amp power supply(AuxPower_AuxBox12v)
• [ no description ](tcsoptics_firsttime)

• -180.0 - +180.0(alt)
• Downwelling pyrgeometer case thermistor temperature, pyrgeometer(down_long_hemisp_case_temp)
• Battery voltage(battery_voltage)
• Time offset from base_time(time_offset)
• Temperature of rad circuit board(tpcb)
• base time in epoch(base_time)
• Downwelling longwave hemispheric irradiance, pyrgeometer(down_long_hemisp)
• North Latitude(lat)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• time_in_seconds_since_volume_start(time)
• PIR thermopile output(pir_thermopile)
• Downwelling Pyrgeometer Dome Thermistor Temperature, Pyrgeometer(down_long_hemisp_dome_temp)
• lon(lon)

• Ozone concentration(ozone)
• time_in_seconds_since_volume_start(time)
• base time in epoch(base_time)
• Ozone bench temperature(ozone_bench_temp)
• lon(lon)
• Ozone pressure(ozone_pressure)
• Time offset from base_time(time_offset)
• North Latitude(lat)

• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Difference between the sky view\'s radiance variance and the hot black body
  view\'s variance(standard_dev_mean_rad)
• Mean of radiance spectra ensemble(mean_rad)
• North Latitude(lat)
• base time in epoch(base_time)
• wavenumbers for mean radiance spectra(wnum)
• lon(lon)
• time_in_seconds_since_volume_start(time)

• PNG data stream - documentation not supported(png)

• Aerosol backwards-hemispheric light scattering coefficient, Humidograph
  nephelometer blue channel, 1 um particle diameter(Bbs_B_Wet_1um_Neph3W_2)
• base time in epoch(base_time)
• Aerosol total light scattering coefficient, humidograph nephelometer blue
  channel, 1 um particle diameter(Bs_B_Wet_1um_Neph3W_2)
• lon(lon)
• Temperature inside of wet nephelometer inlet(T_NephVol_Wet)
• Aerosol total light scattering coefficient, Humidograph nephelometer green
  channel, 10 um particle diameter(Bs_G_Wet_10um_Neph3W_2)
• North Latitude(lat)
• Back-scattering coefficient, green wavelength, high RH, 1 um size cut(Bbs_G_Wet_1um_Neph3W_2)
• Aerosol total light scattering coefficient, Humidograph nephelometer red
  channel, 10 um particle diameter(Bs_R_Wet_10um_Neph3W_2)
• Aerosol backwards-hemispheric light scattering coefficient, humidograph
  nephelometer red channel, 10 um particle diameter(Bbs_R_Wet_10um_Neph3W_2)
• Relative humidity, Humidograph nephelometer inlet(RH_NephInlet_Wet)
• Relative humidity, inside Humidograph nephelometer(RH_NephVol_Wet)
• Temperature at wet nephelometer inlet(T_NephInlet_Wet)
• Aerosol backwards-hemispheric light scattering coefficient, Humidograph
  nephelometer green channel, 10 um particle diameter(Bbs_G_Wet_10um_Neph3W_2)
• Aerosol total light scattering coefficient, Humidograph nephelometer red
  channel, 1 um particle diameter(Bs_R_Wet_1um_Neph3W_2)
• Aerosol total light scattering coefficient, Humidograph nephelometer green
  channel, 1 um particle diameter(Bs_G_Wet_1um_Neph3W_2)
• -180.0 - +180.0(alt)
• time_in_seconds_since_volume_start(time)
• Aerosol total light scattering coefficient, blue channel, 10 um size cut, wet
  three wavelength nephelometer(Bs_B_Wet_10um_Neph3W_2)
• Pressure inside humidified nephelometer(P_Neph_Wet)
• Time offset from base_time(time_offset)
• Back-scattering coefficient, red wavelength, high RH, 1 um size cut(Bbs_R_Wet_1um_Neph3W_2)
• Aerosol backwards-hemispheric light scattering coefficient, blue channel, 10 um
  size cut, wet three wavelength nephelometer(Bbs_B_Wet_10um_Neph3W_2)

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

• null(JPEG data stream - documentation not yet available)

• GPS-determined velocity vector heading angle(gps_heading)
• Receiver noise figure estimated from noise source measurements using Y-factor
  method(noise_figure)
• Receiver gain estimated from noise source measurements using Y-factor method(gain)
• -180.0 - +180.0(alt)
• GPS timestamp(gps_timestamp)
• Mean doppler velocity(mean_doppler_velocity)
• Noise power spectral density in spectra when viewing antenna port(noise_sky)
• GPS-determined velocity(gps_velocity)
• base time in epoch(base_time)
• Ship surge displacement along ship length, positive forward(surge)
• Doppler spectrum width (second moment of the doppler spectrum)(spectral_width)
• Height(height)
• Ship yaw, axis vertical, positive is clockwise rotation(yaw)
• Polarization mode.(polarization)
• lon(lon)
• Time offset from base_time(time_offset)
• Pitch, bow up positive(pitch)
• time_in_seconds_since_volume_start(time)
• North Latitude(lat)
• Ship sway, starboard-to-port displacement, positive to port(sway)
• Heave: up positive(heave)
• reflectivity(reflectivity)
• Roll angle reported by tilt table, positive is port side up(roll)

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

• Ch 2 calibration offset, real component(ch2_offset_re)
• Variance of sky radiance ch 2(ch2_sky_variance)
• Longwave radiance average (675-680 cm^-1) surface air(ch1_surface_layer_radiance)
• Ch 2 calibration offset, imaginary component(ch2_offset_im)
• lon(lon)
• Ch 1 calibration offset, imaginary component(ch1_offset_im)
• Shortwave radiance average (2295_2300 cm^-1) surface air(ch2_surface_layer_radiance)
• Radiance standard deviation during sky view averaged over (2282_2287 cm^-1)(ch2_elevated_layer_radiance_std)
• Sky brightness temp ch2(ch2_sky_temp)
• The noise equivalent radiance observed in the longwave channel during a sky view
  at 1000 cm^-1(ch1_sky_nen_1000wn)
• North Latitude(lat)
• Characteristic value representing overall longwave channel responsivity(ch2_responsivity_2500wn)
• Shortwave hot blackbody noise-equivalent radiance(ch2_hbb_nen_2500wn)
• Ch 2 responsivity, real component(ch2_resp_re)
• time_in_seconds_since_volume_start(time)
• Radiance standard deviation during sky view averaged over (675_680 cm^-1)(ch1_surface_layer_radiance_std)
• Shortwave window radiance average (2510_2515 cm^-1)(ch2_window_radiance)
• Radiance standard deviation during sky view averaged over (700_705 cm^-1)(ch1_elevated_layer_radiance_std)
• Ch 2 responsivity, imaginary component(ch2_resp_im)
• Shortwave surface air brightness temperature from radiance average (2295_2300
  cm^-1)(ch2_surface_layer_bt)
• ASSIST longwave scene radiance spectral averages (ch1)(ch1_mean_radiance)
• Ch 1 calibration offset, real component(ch1_offset_re)
• Ch 1 responsivity, real component(ch1_resp_re)
• Variance of sky radiance ch 1(ch1_sky_variance)
• Longwave hot blackbody noise-equivalent radiance(ch1_hbb_nen_1000wn)
• Longwave window brightness temperature from radiance average (985_990 cm^-1)(ch1_window_bt)
• Brightness temperature computed over irt band with IRT responsivity.(ch1_irt_band_brightness_temp)
• Ch 1 responsivity, imaginary component(ch1_resp_im)
• HBB 2min NESR estimate #1 derived from variance during HBB view (ch2)(ch2_hbb_nen1)
• HBB 2min NESR estimate #2 derived from sequential HBB views (ch2)(ch2_hbb_nen2)
• ASSIST shortwave scene radiance spectral averages (ch2)(ch2_mean_radiance)
• Radiance standard deviation during sky view averaged over (2295_2300 cm^-1)(ch2_surface_layer_radiance_std)
• Longwave window radiance average (985_990 cm^-1)(ch1_window_radiance)
• base time in epoch(base_time)
• Shortwave window brightness temperature from radiance average (2510_2515 cm^-1)(ch2_window_bt)
• Wave number for channel 1 in reciprocal centimeters(wnum1)
• Wave number in reciprocal centimeters(wnum2)
• -180.0 - +180.0(alt)
• The noise equivalent radiance observed in the shortwave channel during a sky
  view at 2500 cm^-1(ch2_sky_nen_2500wn)
• Longwave surface air brightness temperature from radiance average (675_680
  cm^-1)(ch1_surface_layer_bt)
• Longwave radiance average (700_705 cm^-1) elevated air(ch1_elevated_layer_radiance)
• Characteristic value representing overall shortwave channel responsivity(ch1_responsivity_1000wn)
• Scene NESR ch 2(ch2_sky_nen)
• Radiance standard deviation during sky view averaged over (985_990 cm^-1)(ch1_window_radiance_std)
• Sky brightness temp ch1(ch1_sky_temp)
• Shortwave radiance average (2282_2287 cm^-1) elevated air(ch2_elevated_layer_radiance)
• Scene NESR ch 1(ch1_sky_nen)
• Radiance standard deviation during sky view averaged over (2510_2515 cm^-1)(ch2_window_radiance_std)
• Time offset from base_time(time_offset)
• Longwave elevated air brightness temperature from radiance average (700_705
  cm^-1)(ch1_elevated_layer_bt)
• HBB 2min NESR estimate #2 derived from sequential HBB views (ch1)(ch1_hbb_nen2)
• HBB 2 min NESR estimate #1 derived from variance during HBB view (ch1)(ch1_hbb_nen1)
• Shortwave elevated air brightness temperature from radiance average (2282_2287
  cm^-1)(ch2_elevated_layer_bt)

• -180.0 - +180.0(alt)
• time_in_seconds_since_volume_start(time)
• Time offset from base_time(time_offset)
• Magnetic variation(variance)
• Speed over ground(speed_over_ground)
• lon(lon)
• North Latitude(lat)
• base time in epoch(base_time)
• Course over ground(course_over_ground)

• Raob molecular scattering cross section per unit volume(raob_beta_m)
• base time in epoch(base_time)
• Radiosonde launch time(raob_time)
• Attenuated molecular return(atten_beta_r_backscatter)
• Transmitted energy(transmitted_energy)
• Molecular photon counts(molecular_counts)
• Profile mask(profile_mask)
• Sounding maximum altitude(top_alt_sounding)
• Calibration times(cal_time)
• Raob pressure profile(pressure_profile)
• Laser frequency quality(frequency_quality)
• Particulate backscatter cross section per unit volume(beta_a_backscatter)
• Radiosonde station ID(raob_station)
• Molecular calibration pulse(mol_cal_pulse)
• Raob temperature profile(temperature_profile)
• Trigger of calibration change(cal_trigger)
• Laser lock quality(lock_quality)
• Low gain combined dark count(combined_dark_count_lo)
• Laser seeding quality(seed_quality)
• High gain combined dark count(combined_dark_count_hi)
• -180.0 - +180.0(alt)
• Raob dewpoint temperature profile(dewpoint_profile)
• Combined gain factor(combined_gain)
• Overlap correction(geo_cor)
• Cross polarized photon counts(cross_counts)
• Molecular in molecular calibration(lidar_calibration_Cmm)
• Molecular in combined calibration(lidar_calibration_Cmc)
• time_in_seconds_since_volume_start(time)
• Number of seeded shots(num_seeded_shots)
• Cross polarization dark count(c_pol_dark_count)
• Optical depth of particulate(od)
• Time averaging width(time_average)
• Distance to the center of the corresponding range bin(range)
• Circular depolarization ratio for particulate(depol)
• Time offset from base_time(time_offset)
• Range resolution(range_resolution)
• Aerosol in molecular calibration(lidar_calibration_Cam)
• Calibration time vector(cal_time_vector)
• Particulate extinction cross section per unit volume(beta_a)
• lon(lon)
• Standard deviation of backscatter cross section (photon counting)(beta_a_backscatter_std)
• Radiosonde launch time vector(raob_time_vector)
• Piezovoltage(piezovoltage)
• Molecular dark count(mol_dark_count)
• Combined merge threshold(combined_merge_threshold)
• North Latitude(lat)
• High gain combined photon counts(combined_counts_hi)
• Low gain combined photon counts(combined_counts_lo)

• Period between two pulses(interpulse_period)
• Number of phase code bits in a pulse.(num_code_bits)
• Time offset from base_time(time_offset)
• lon(lon)
• Name of wind profiler operational mode.(mode_name)
• Pulse width(pulse_width)
• -180.0 - +180.0(alt)
• Transmit power level setting.(transmit_power_level_setting)
• Height(height)
• time_in_seconds_since_volume_start(time)
• The standard deviations for vertical_velocity.(vertical_velocity_std)
• Flag value indicating if the mode was missing from the raw data file.(missing_mode)
• base time in epoch(base_time)
• Mode number(mode_number)
• Number of reporting levels for this mode.(num_levels)
• MET data averaging interval.(averaging_interval)
• Vertical velocity.(vertical_velocity)
• Number of time domain integrations.(num_time_domain)
• Fast Fourier Transform length.(fourier_transform_length)
• Number of range gates sampled.(num_range_gates)
• Mode index(mode)
• North Latitude(lat)
• Number of frequency domain integrations.(num_frequency_domain)
• heights of the boundaries of each layer(level)

• time_in_seconds_since_volume_start(time)
• Temperature of RAD circuit board(circuit_board_temperature)
• Downwelling pyrgeometer case thermistor temperature, pyrgeometer(down_long_hemisp_case_temp)
• North Latitude(lat)
• base time in epoch(base_time)
• lon(lon)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• Time offset from base_time(time_offset)
• -180.0 - +180.0(alt)
• PIR thermopile output(pir_thermopile)
• Downwelling longwave hemispheric irradiance, pyrgeometer(down_long_hemisp)
• Downwelling Pyrgeometer Dome Thermistor Temperature, Pyrgeometer(down_long_hemisp_dome_temp)
• Battery voltage(battery_voltage)

• North Latitude(lat)
• time_in_seconds_since_volume_start(time)
• PIR thermopile output, standard deviation(pir_thermopile_std)
• PIR thermopile output(pir_thermopile)
• lon(lon)
• Downwelling pyrgeometer case thermistor temperature, pyrgeometer(down_long_hemisp_case_temp)
• Downwelling Shortwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_short_hemisp_std)
• base time in epoch(base_time)
• Downwelling Pyrgeometer Dome Thermistor Temperature, Pyrgeometer(down_long_hemisp_dome_temp)
• Down-welling unshaded pyranometer voltage(down_short_hemisp)
• -180.0 - +180.0(alt)
• Downwelling Longwave Hemispheric Irradiance, Ventilated Pyrgeometer, Standard
  Deviation(down_long_hemisp_std)
• Time offset from base_time(time_offset)
• Downwelling longwave hemispheric irradiance, pyrgeometer(down_long_hemisp)
• Battery voltage(battery_voltage)
• Temperature of RAD circuit board(circuit_board_temperature)

• Eastward component of aircraft velocity(velocity_east)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• Speed over ground(speed_over_ground)
• Course over ground(course_over_ground)
• time_in_seconds_since_volume_start(time)
• lon(lon)
• North Latitude(lat)
• Velocity north, relative to earth(velocity_north)
• Time offset from base_time(time_offset)

• time_in_seconds_since_volume_start(time)
• GPS-determined velocity vector heading angle(gps_heading)
• North Latitude(lat)
• Distance to the center of the corresponding range bin(range)
• Ship surge displacement along ship length, positive forward(surge)
• Roll angle reported by tilt table, positive is port side up(roll)
• Time offset from base_time(time_offset)
• Ship sway, starboard-to-port displacement, positive to port(sway)
• Spectral velocity bins(velocity_bins)
• Ship surge velocity along ship length, positive forward(surge_velocity)
• Ship surge acceleration along ship length, positive forward(surge_acceleration)
• Pitch, bow up positive(pitch)
• Heave directional acceleration, up positive(heave_acceleration)
• Spectra(spectra)
• GPS-determined velocity(gps_velocity)
• -180.0 - +180.0(alt)
• Ship sway velocity, starboard-to-port displacement, positive to port(sway_velocity)
• lon(lon)
• Heave: up positive(heave)
• Heave directional velocity, up positive(heave_velocity)
• Ship yaw, axis vertical, positive is clockwise rotation(yaw)
• Locator Mask for Spectra(locator_mask)
• base time in epoch(base_time)
• Ship sway acceleration starboard-to-port, positive to port(sway_acceleration)

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

• (Raw data stream - documentation not supported)

• Course over ground (True) from the GPS receiver(cog_gps)
• Relative humidity from the T/RH sensor in a forced ventilator (Young 43502)
  mounted on the met boom(rh_adc)
• Speed over ground from the NAV system(sog_nav)
• North latitude, float point, positive is north hemisphere, from the NAV system(lat_nav)
• time_in_seconds_since_volume_start(time)
• Wind direction measured by the wind monitor mounted at the peak of the ship mast(wdir_adc)
• Wind speed measured by the wind monitor mounted at the peak of the ship mast(wspd_adc)
• -180.0 - +180.0(alt)
• East longitude, float point, positive for E longitude, from the NAV system(lon_nav)
• Roll (port up) from the NAV system(roll_nav)
• Pitch (bow up) from the NAV system(pitch_nav)
• Roll (port up) from the TCM sensor mounted in the MET DAQ enclosure(roll_tcm)
• Tachometer from the aspirator, indicates aspirator fan is operating(tachometer_voltage_adc)
• Rain intensity from the instrument mounted on the port side of the met boom(rain_intensity_wx1)
• Rain intensity from the instrument mounted on the starboard side of the met boom(rain_intensity_wx2)
• Course over ground (True) from the NAV system(cog_nav)
• Rain intensity from the OSI ORG instrument mounted on the met boom(rain_intensity_org)
• Relative humidity from passive shield of the instrument mounted on the starboard
  side of the met boom(rh_wx2)
• Relative humidity from passive shield of the instrument mounted on the port side
  of the met boom(rh_wx1)
• Barometric pressure from the instrument mounted on the starboard side of the met
  boom(bar_pressure_wx2)
• Barometric pressure from the instrument mounted on the port side of the met boom(bar_pressure_wx1)
• Air temperature from the T/RH sensor in a forced ventilator (Young 43502)
  mounted on the met boom(air_temp_adc)
• North latitude from the GPS receiver(lat_gps)
• Speed over ground from the GPS receiver(sog_gps)
• lon(lon)
• Time offset from base_time(time_offset)
• Heading of the ship bow from the NAV system(hdg_nav)
• Air temperature from passive shield of the instrument mounted on the port side
  of the met boom(air_temp_wx1)
• Air temperature from passive shield of the instrument mounted on the starboard
  side of the met boom(air_temp_wx2)
• North Latitude(lat)
• Siphon rain gauge, measures total rain fall up to 50 mm then the siphon empties
  the tubing; mounted on the radar platform(siphon_rain_gauge_adc)
• Local magnetic variation from the GPS receiver(var_gps)
• Apparent wind direction from the instrument mounted on the port side of the met
  boom(wdir_wx1)
• Relative wind direction from the instrument mounted on the starboard side of the
  met boom(wdir_wx2)
• Wind speed from the instrument mounted on the port side of the met boom(wspd_wx1)
• base time in epoch(base_time)
• Wind speed from the instrument mounted on the starboard side of the met boom(wspd_wx2)
• Pitch (bow up) from the TCM sensor mounted in the MET DAQ enclosure(pitch_tcm)
• East longitude from the GPS receiver(lon_gps)

• Noise injection temp at 31.4 GHz derived from this tip(tnd31I)
• Ambient temperature(tkair)
• 31.4 GHz sky signal(tipsky31)
• 23.8 GHz sky signal(tipsky23)
• -180.0 - +180.0(alt)
• Noise injection temp at 23.8 GHz derived from this tip(tnd23I)
• 23.8 GHz Blackbody signal(bb23)
• 31.4 GHz blackbody(bb31)
• base time in epoch(base_time)
• time_in_seconds_since_volume_start(time)
• lon(lon)
• Correlation coefficients for tip curve at 31.4 GHz(r31)
• Noise injection temp at 23.8 GHz adjusted to tkbb(tnd23)
• 31.4 GHz sky brightness temperature derived from tip curve(tbsky31tip)
• Noise injection temp at 31.4 GHz adjusted to tkbb(tnd31)
• Temperature correction coefficient at 31.4 GHz(tc31)
• Temperature correction coefficient at 23.8 GHz(tc23)
• Total water vapor along zenith path using tip-derived brightness temperatures(vaptip)
• 23.8 GHz sky brightness temperature derived from tip curve(tbsky23tip)
• Water on Teflon window (1=WET, 0=DRY)(wet_window)
• Total liquid water along zenith path using tip-derived brightness temperatures(liqtip)
• Noise injection temp at nominal temperature at 31.4 GHz(tnd_nom31)
• Actual Azimuth(actaz)
• Noise injection temp at nominal temperature at 23.8 GHz(tnd_nom23)
• Actual elevation angle(actel)
• 23.8 GHz goodness-of-fit coefficient(r23)
• North Latitude(lat)
• Blackbody kinetic temperature(tkbb)
• (tknd)
• Mixer kinetic (physical) temperature(tkxc)
• Time offset from base_time(time_offset)
• 23.8 GHz blackbody+noise injection signal(bbn23)
• 31.4 GHz blac2body+noise injection signal(bbn31)

• Ship surge displacement along ship length, positive forward(surge)
• Free running cycle counter(cycle_count)
• Seanav monitor value as true/false conditions(seanav_monitor)
• Heave directional velocity, up positive(heave_velocity)
• Pitch angular rate, bow up positive(pitch_angular_rate)
• base time in epoch(base_time)
• Pitch, bow up positive(pitch)
• lon(lon)
• Ship yaw, axis vertical, positive is clockwise rotation(yaw)
• Ship sway acceleration starboard-to-port, positive to port(sway_acceleration)
• North Latitude(lat)
• Time offset from base_time(time_offset)
• Heave: up positive(heave)
• Heave directional acceleration, up positive(heave_acceleration)
• Ship sway velocity, starboard-to-port displacement, positive to port(sway_velocity)
• Roll angular rate, positive is port side up(roll_angular_rate)
• Seanav system mode(seanav_mode)
• time_in_seconds_since_volume_start(time)
• Ship sway, starboard-to-port displacement, positive to port(sway)
• Ship surge acceleration along ship length, positive forward(surge_acceleration)
• Ship surge velocity along ship length, positive forward(surge_velocity)
• Roll angle reported by tilt table, positive is port side up(roll)
• Yaw angular rate, clockwise bow rotation positive(yaw_angular_rate)
• -180.0 - +180.0(alt)

• (Raw data stream - documentation not supported)

• Pre-amp 15 v supply(preamp_15v)
• Time offset from the first sensor detected per cycle.(fts_enclosure_temp_time_lag)
• Time offset from the first sensor detected per cycle.(mirror_motor_24v_time_lag)
• Time offset from the first sensor detected per cycle.(power_supply_box_temp_time_lag)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Itx CPU heatsink temperature(itx_cpu_heatsink_temp)
• Motor 24 v supply(mirror_motor_24v)
• time_in_seconds_since_volume_start(time)
• ITX PC 12 v supply(itx_pc_12v)
• Time offset from the first sensor detected per cycle.(fts_15v_time_lag)
• base time in epoch(base_time)
• Time offset from the first sensor detected per cycle.(itx_cpu_heatsink_temp_time_lag)
• Time offset from the first sensor detected per cycle.(front_end_enclosure_temp_time_lag)
• Time offset from the first sensor detected per cycle.(annotator_5v_time_lag)
• Time offset from the first sensor detected per cycle.(elec_box_temp_time_lag)
• Time offset from the first sensor detected per cycle.(cooler_block_temp_time_lag)
• Front end enclosure temperature(front_end_enclosure_temp)
• Electronics box temperature(elec_box_temp)
• North Latitude(lat)
• lon(lon)
• External RH(external_rh)
• BBY and det. cooler 24 v supply(bb_cooler_24v)
• Annotator 5 v supply(annotator_5v)
• FTS enclosure temperature(fts_enclosure_temp)
• Power supply box temperature(power_supply_box_temp)
• Time offset from the first sensor detected per cycle.(preamp_15v_time_lag)
• Time offset from the first sensor detected per cycle.(external_rh_time_lag)
• Cooler block temperature(cooler_block_temp)
• Time offset from the first sensor detected per cycle.(bb_cooler_24v_time_lag)
• Time offset from the first sensor detected per cycle.(itx_pc_12v_time_lag)
• Time offset from the first sensor detected per cycle.(mirror_motor_temp_time_lag)
• Scene mirror motor temperature(mirror_motor_temp)
• FTS 15 volt supply(fts_15v)

• Number density of drops of the diameter corresponding to a particular drop size
  class per unit volume(number_density_drops)
• Time offset from base_time(time_offset)
• Number of particles detected(number_detected_particles)
• Liquid water distribution mean, assuming an ideal Marshall-Palmer type
  distribution(liquid_water_distribution_mean)
• Median volume diameter, assuming an ideal Marshall-Palmer type distribution(median_volume_diameter)
• Precipitation intensity(precip_rate)
• Temperature in sensor(sensor_temperature)
• Radar reflectivity(radar_reflectivity_sband)
• Laserband amplitude(laserband_amplitude)
• Radar reflectivity(radar_reflectivity)
• -180.0 - +180.0(alt)
• Raw drop size distribution(raw_spectrum)
• Heating current(heating_current)
• Class size width(class_size_width)
• Slope parameter, assuming an ideal Marshall-Palmer type distribution(slope_parameter)
• Sensor voltage(sensor_voltage)
• Particle size average(particle_size)
• Diameter of largest drop observed(diameter_max)
• Moment 1 from the observed distribution(moment1)
• Moment 3 from the observed distribution(moment3)
• Moment 2 from the observed distribution(moment2)
• Moment 5 from the observed distribution(moment5)
• Moment 4 from the observed distribution(moment4)
• Moment 6 from the observed distribution(moment6)
• Diameter of smallest drop observed(diameter_min)
• Retrieved Liquid Water Content(liquid_water_content)
• Meteorological optical range visibility(mor_visibility)
• Intercept parameter, assuming an ideal Marshall-Palmer type distribution(intercept_parameter)
• base time in epoch(base_time)
• Fall velocity calculated after Lhermite(fall_velocity_calculated)
• time_in_seconds_since_volume_start(time)
• North Latitude(lat)
• Fall velocity classes observed by Parsivel2(raw_fall_velocity)
• SYNOP WaWa Table 4680(weather_code)
• lon(lon)

• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• base time in epoch(base_time)
• wavenumbers for mean radiance spectra(wnum)
• time_in_seconds_since_volume_start(time)
• Difference between the sky view\'s radiance variance and the hot black body
  view\'s variance(standard_dev_mean_rad)
• North Latitude(lat)
• Mean of radiance spectra ensemble(mean_rad)
• lon(lon)

• Number of azimuth beam positions.(num_azimuth_beams)
• The spectral width of the atmospheric signal associated with radial_velocity.(radial_velocity_width)
• heights of the boundaries of each layer(level)
• Height(height)
• Meridional wind speed.(wind_v)
• 10m wind u-component(wind_u)
• Vertical wind speed.(wind_w)
• Time offset from base_time(time_offset)
• Number of reporting levels for this mode.(num_levels)
• North Latitude(lat)
• The number of measurements averaged in radial_velocity.(radial_velocity_navg)
• lon(lon)
• Name of wind profiler operational mode.(mode_name)
• Azimuth of Radar Ray(azimuth)
• Standard Deviation of 1s wind speed at the ground station in one minute,
  standard deviation(wind_speed_std)
• Fast Fourier Transform length.(fourier_transform_length)
• Number of time domain integrations.(num_time_domain)
• Number of phase code bits in a pulse.(num_code_bits)
• time_in_seconds_since_volume_start(time)
• Transmit power level setting.(transmit_power_level_setting)
• The power of the atmospheric signal associated with radial_velocity.(radial_velocity_power)
• Mode number(mode_number)
• Beam Number(beam)
• Direction from which the wind blows, with respect to Geographic or Magnetic
  north(wind_direction)
• Angle from vertical.(zenith_angle)
• Pulse width(pulse_width)
• Number of range gates sampled.(num_range_gates)
• base time in epoch(base_time)
• Quality control interval.(wind_quality_interval)
• -180.0 - +180.0(alt)
• The signal to noise ratio of the atmospheric signal associated with
  radial_velocity.(radial_velocity_snr)
• Wind speed 5m AGL at the ground station(wind_speed)
• Radial velocity(radial_velocity)
• Number of frequency domain integrations.(num_frequency_domain)
• Flag value indicating if the mode was missing from the raw data file.(missing_mode)
• The standard deviations for wind_w.(wind_w_std)
• MET data averaging interval.(averaging_interval)
• A decimal value between 0 and 1 indicating the quality of the winds at the given
  level.(wind_quality)
• Mode index(mode)
• Period between two pulses(interpulse_period)

• (Raw data stream - documentation not supported)

• Virtual potential temperature(virtual_theta_ss)
• Relative Humidity (hybrid-b grid)(rh)
• -180.0 - +180.0(alt)
• base time in epoch(base_time)
• Wind Speed(wspd)
• The maximum difference in potential temperature across inversion layers from
  Heffter (1980) method.(delta_theta_max)
• Height above mean sea level subsampled at 5 mb resolution(height_ss)
• Sonde-measured pressure closest to the bottom of the 5 mb subsampling interval(atm_pres_ss)
• Potential temperature subsampled at 5 mb resolution(theta_ss)
• Pressure grid for 5 mb subsampling(pressure_gridded)
• Potential temperature lapse rate subsampled at 5 mb resolution and then
  smoothed over 15 mb via 3 point moving average(lapserate_theta_smoothed)
• Height above mean sea level at bottom of inversion layer from Heffter (1980)
  method(bottom_inversion)
• time_in_seconds_since_volume_start(time)
• Height above mean sea level at top of inversion layer from Heffter (1980) method(top_inversion)
• Inversion layer number for Heffter (1980) method(layer)
• Level 2 height above mean sea level calculated by the Liu and Liang (2010)
  method(level_2_liu_liang)
• Maximum lapse rate in inversion layer from Heffter (1980) method(lapserate_max)
• Planetary boundary layer height above mean sea level calculated using the
  Heffter (1980) method(pbl_height_heffter)
• lon(lon)
• North Latitude(lat)
• Planetary boundary layer height above mean sea level calculated from bulk
  Richardson number using critical threshold of 0.25(pbl_height_bulk_richardson_pt25)
• Wind speed subsampled at 5 mb resolution(wspd_ss)
• Bulk Richardson number(richardson_number)
• Time offset from base_time(time_offset)
• Atmospheric pressure(atm_pres)
• Potential temperature lapse rate subsampled at 5 mb resolution(lapserate_theta_ss)
• Planetary boundary layer regime type determined by Liu and Liang (2010) method(pbl_regime_type_liu_liang)
• Dry bulb ambient air temperature(air_temp)
• Planetary boundary layer height above mean sea level calculated by Liu and Liang
  (2010) method(pbl_height_liu_liang)
• Planetary boundary layer height above mean sea level calculated from bulk
  Richardson number using critical threshold of 0.5(pbl_height_bulk_richardson_pt5)
• Level 1 height above mean sea level calculated by the Liu and Liang (2010)
  method(level_1_liu_liang)

• Compass heading(compass_heading)
• base time in epoch(base_time)
• Roll angle reported by tilt table, positive is port side up(roll)
• Temperature used for calculation(temperature)
• time_in_seconds_since_volume_start(time)
• Pitch, bow up positive(pitch)
• lon(lon)
• Magnetic field, x component(xmag)
• North Latitude(lat)
• Magnetic field, y component(ymag)
• Time offset from base_time(time_offset)
• -180.0 - +180.0(alt)
• Magnetic field, z component(zmag)

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

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

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

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

• Magnetometer field, y component, +/- 80 microTorr(ymag_mean_tcm)
• Mean tachometer voltage(tachometer_voltage_mean_adc)
• Wind speed vector mean, from the Vaisala WXT520 mounted on the starboard side of
  the met boom(wspd_vector_mean_wx2)
• Wind speed vector mean, from the Vaisala WXT520 mounted on the port side of the
  met boom(wspd_vector_mean_wx1)
• Wind speed scalar mean, from the Vaisala WXT520 mounted on the starboard side of
  the met boom(wspd_scalar_mean_wx2)
• Wind speed scalar mean, from the Vaisala WXT520 mounted on the port side of the
  met boom(wspd_scalar_mean_wx1)
• Mean pitch, treated as a scalar(pitch_mean_tcm)
• Mean level of the siphon gauge(siphon_rain_gauge_mean_adc)
• Relative humidity mean, from passive shield of the Vaisala WXT520 mounted on the
  port side of the met boom(rh_mean_wx1)
• Relative humidity mean, from passive shield of the Vaisala WXT520 mounted on the
  starboard side of the met boom(rh_mean_wx2)
• Speed over ground (sog), vector mean with cog, from the GPS receiver(sog_mean_gps)
• Relative humidity standard deviation, from passive shield of the Vaisala WXT520
  mounted on the port side of the met boom(rh_std_wx1)
• Relative humidity standard deviation, from passive shield of the Vaisala WXT520
  mounted on the starboard side of the met boom(rh_std_wx2)
• Standard deviation of pitch, treated as a scalar(pitch_std_tcm)
• -180.0 - +180.0(alt)
• Relative wind direction vector mean, from the Vaisala WXT520 mounted on the
  starboard side of the met boom(wdir_vector_mean_wx2)
• Apparent wind direction vector mean, from the Vaisala WXT520 mounted on the port
  side of the met boom(wdir_vector_mean_wx1)
• Longitude, float point, positive for E longitude from the NAV system(lon_mean_nav)
• Standard deviation of roll, treated as a scalar, from the NAV system(roll_std_nav)
• Vector mean of 1-Hz compass samples(compass_vector_mean_tcm)
• Local magnetic variation scalar mean from the GPS receiver(var_mean_gps)
• Maximum 5-sec intensity(rain_intensity_max_org)
• lon(lon)
• Relative humidity mean, from the T/RH sensor in a forced ventilator (Young
  43502) mounted on the met boom(rh_mean_adc)
• Rain intensity mean, from the Vaisala WXT520 mounted on the port side of the met
  boom(rain_intensity_mean_wx1)
• Rain intensity mean, from the Vaisala WXT520 mounted on the starboard side of
  the met boom(rain_intensity_mean_wx2)
• Time offset from base_time(time_offset)
• Air temperature mean, from passive shield of the Vaisala WXT520 mounted on the
  starboard side of the met boom(air_temp_mean_wx2)
• Air temperature mean, from passive shield of the Vaisala WXT520 mounted on the
  port side of the met boom(air_temp_mean_wx1)
• Latitude, float point, positive for N latitude from the NAV system(lat_mean_nav)
• Standard deviation of pitch, treated as a scalar, from the NAV system(pitch_std_nav)
• Wind speed standard deviation, from the wind monitor mounted at the peak of the
  ship mast(wspd_std_adc)
• Course over ground, cog, (True) vector mean with sog, from the NAV system(cog_mean_nav)
• Vector mean heading(hdg_mean_nav)
• Air temperature standard deviation, from the T/RH sensor in a forced ventilator
  (Young 43502) mounted on the met boom(air_temp_std_adc)
• Relative wind direction vector mean, from the wind monitor mounted at the peak
  of the ship mast(wdir_vector_mean_adc)
• Magnetometer field, x component, +/- 80 microTorr(xmag_mean_tcm)
• base time in epoch(base_time)
• Wind direction standard deviation calculated by Yamartino's method, from the
  wind monitor mounted at the peak of the ship mast(wdir_std_adc)
• time_in_seconds_since_volume_start(time)
• Speed over ground (sog), vector mean with cog, from the NAV system(sog_mean_nav)
• Rain intensity from the OSI ORG instrument mounted on the met boom(rain_intensity_org)
• Standard deviation of roll, treated as a scalar(roll_std_tcm)
• Magnetometer field, z component, +/- 80 microTorr(zmag_mean_tcm)
• North Latitude(lat)
• Longitude, float point, positive for E longitude.(lon_mean_gps)
• Air temperature mean, from the T/RH sensor in a forced ventilator (Young 43502)
  mounted on the met boom(air_temp_mean_adc)
• Air temperature standard deviation, from passive shield of the Vaisala WXT520
  mounted on the starboard side of the met boom(air_temp_std_wx2)
• Air temperature standard deviation, from passive shield of the Vaisala WXT520
  mounted on the port side of the met boom(air_temp_std_wx1)
• Mean roll, treated as a scalar, from the NAV system(roll_mean_nav)
• Maximum rain intensity, from the Vaisala WXT520 mounted on the starboard side of
  the met boom(rain_intensity_max_wx2)
• Maximum rain intensity, from the Vaisala WXT520 mounted on the port side of the
  met boom(rain_intensity_max_wx1)
• Barometric pressure mean, from the Vaisala WXT520 mounted on the port side of
  the met boom(bar_pressure_mean_wx1)
• Barometric pressure mean, from the Vaisala WXT520 mounted on the starboard side
  of the met boom(bar_pressure_mean_wx2)
• Mean roll, treated as a scalar(roll_mean_tcm)
• Latitude, float point, positive for N latitude(lat_mean_gps)
• Accumulated rain since 00 hour(rain_accumulated_org)
• Temperature at the TCM circuit board(temp_circuit_board_tcm)
• Relative humidity standard deviation(rh_std_adc)
• Barometric pressure standard deviation, from the Vaisala WXT520 mounted on the
  port side of the met boom(bar_pressure_std_wx1)
• Barometric pressure standard deviation, from the Vaisala WXT520 mounted on the
  starboard side of the met boom(bar_pressure_std_wx2)
• Course over ground, cog, (True) vector mean with sog, from the GPS receiver(cog_mean_gps)
• Wind speed vector mean, from measured speed and direction, from the wind monitor
  mounted at the peak of the ship mast(wspd_vector_mean_adc)
• Mean pitch, treated as a scalar, from the NAV system(pitch_mean_nav)
• Relative wind direction standard deviation, from the Vaisala WXT520 mounted on
  the starboard side of the met boom(wdir_std_wx2)
• Wind direction standard deviation, from the Vaisala WXT520 mounted on the port
  side of the met boom(wdir_std_wx1)
• Wind speed scalar mean, from the wind monitor mounted at the peak of the ship
  mast(wspd_scalar_mean_adc)
• Accumulated rain since 00 hr, from the Vaisala WXT520 mounted on the port side
  of the met boom(rain_accumulated_wx1)
• Accumulated rain since 00 hr, from the Vaisala WXT520 mounted on the starboard
  side of the met boom(rain_accumulated_wx2)

• Rain intensity(rain_intensity)
• Ambient air relative humidity(RH_Ambient)
• Rain duration(rain_duration)
• Pressure of ambient air(P_Ambient)
• base time in epoch(base_time)
• Wind Direction, relative to true North(WindDirection)
• lon(lon)
• North Latitude(lat)
• Heater temperature(heater_temp)
• Time offset from base_time(time_offset)
• Rain amount(rain_amount)
• Supply voltage(supply_volts)
• time_in_seconds_since_volume_start(time)
• Heater voltage(heater_volts)
• -180.0 - +180.0(alt)
• Reference voltage(ref_volts)
• Ambient air temperature(T_Ambient)
• Wind speed(WindSpeed)

• North Latitude(lat)
• Pitch, bow up positive(pitch)
• Accumulated time since midnight, used to adjust sample time(seconds_read)
• Time difference between ship and platform orientation measurements(secdiff)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• base time in epoch(base_time)
• time_in_seconds_since_volume_start(time)
• Roll angle reported by tilt table, positive is port side up(roll)
• lon(lon)

• Time of observation(timeObs)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Solar ZenithAngle(zenith)
• Azimuth of Radar Ray(azimuth)
• Almucantar Sky Radiance(alm_rad)
• lon(lon)
• North Latitude(lat)
• time_in_seconds_since_volume_start(time)
• Top of atmosphere spectrum wavelengths(wavelength)
• base time in epoch(base_time)

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

• Angstrom Coefficient 440-675(Angstrom440_675)
• Triplet Variability at 500 nm(TripletVar_500)
• Angstrom Coefficient 380-500(Angstrom380_500)
• -180.0 - +180.0(alt)
• Solar ZenithAngle(zenith)
• AOT at 1640 nm(aot_1640)
• Aerosol Optical Depth at 340 nm(aot_340)
• Angstrom Coefficient 340-440(Angstrom340_440)
• Angstrom Coefficient 500-870(Angstrom500_870)
• Angstrom Coefficient 440-675 Polar(Angstrom440_675_Polar)
• time_in_seconds_since_volume_start(time)
• Aerosol Optical Depth at 380 nm(aot_380)
• Triplet Variability at 670 nm(TripletVar_670)
• AOT at 870 nm(aot_870)
• Aerosol Optical Depth at 440 nm(aot_440)
• Time offset from base_time(time_offset)
• base time in epoch(base_time)
• Water Error(WaterError)
• AOT at 1020 nm(aot_1020)
• North Latitude(lat)
• Time of observation(timeObs)
• Triplet Variability at 340 nm(TripletVar_340)
• Triplet Variability at 1640 nm(TripletVar_1640)
• Triplet Variability at 380 nm(TripletVar_380)
• Precipitable water vapor(pwv)
• lon(lon)
• Aerosol Optical Depth at 500 nm(aot_500)
• Angstrom Coefficient 440-870(Angstrom440_870)
• Triplet Variability at 870 nm(TripletVar_870)
• Triplet Variability at 1020 nm(TripletVar_1020)
• Last processing date(last_processing_date)
• Triplet Variability at 440 nm(TripletVar_440)
• AOT at 670 nm(aot_670)

• Roll control value sent to stable platform, positive is port side up(roll_control)
• lon(lon)
• Ship yaw, axis vertical, positive is clockwise rotation(yaw)
• Average pitch offset of table from 0, determined over selected period and used
  as feedback to platform control, positive is bow up(pitch_offset)
• North Latitude(lat)
• Average roll offset of table from 0, determined over selected period and used as
  feedback to platform control, positive is port side up(roll_offset)
• Time offset from base_time(time_offset)
• time_in_seconds_since_volume_start(time)
• base time in epoch(base_time)
• Roll angle reported by tilt table, positive is port side up(roll)
• Accumulated time since midnight, used to adjust sample time(seconds_read)
• Pitch control value sent to stable platform, positive is bow up(pitch_control)
• -180.0 - +180.0(alt)
• Pitch, bow up positive(pitch)

• Total hemispheric solar irradiance(hemispheric)
• North Latitude(lat)
• lon(lon)
• base time in epoch(base_time)
• Total diffuse solar irradiance standard deviation(diffuse_stddev)
• Time offset from base_time(time_offset)
• -180.0 - +180.0(alt)
• time_in_seconds_since_volume_start(time)
• Total hemispheric solar irradiance standard deviation(hemispheric_stddev)
• Total diffuse solar irradiance(diffuse)

• Dry bulb ambient air temperature(air_temp)
• Maximum lapse rate in inversion layer from Heffter (1980) method(lapserate_max)
• Planetary boundary layer height above mean sea level calculated by Liu and Liang
  (2010) method(pbl_height_liu_liang)
• Height above mean sea level subsampled at 5 mb resolution(height_ss)
• Virtual potential temperature(virtual_theta_ss)
• Potential temperature lapse rate subsampled at 5 mb resolution and then
  smoothed over 15 mb via 3 point moving average(lapserate_theta_smoothed)
• base time in epoch(base_time)
• Potential temperature subsampled at 5 mb resolution(theta_ss)
• Inversion layer number for Heffter (1980) method(layer)
• time_in_seconds_since_volume_start(time)
• -180.0 - +180.0(alt)
• Planetary boundary layer height above mean sea level calculated using the
  Heffter (1980) method(pbl_height_heffter)
• Atmospheric pressure(atm_pres)
• Level 2 height above mean sea level calculated by the Liu and Liang (2010)
  method(level_2_liu_liang)
• Time offset from base_time(time_offset)
• Bulk Richardson number(richardson_number)
• Sonde-measured pressure closest to the bottom of the 5 mb subsampling interval(atm_pres_ss)
• Wind Speed(wspd)
• Relative Humidity (hybrid-b grid)(rh)
• lon(lon)
• Wind speed subsampled at 5 mb resolution(wspd_ss)
• Planetary boundary layer height above mean sea level calculated from bulk
  Richardson number using critical threshold of 0.5(pbl_height_bulk_richardson_pt5)
• Pressure grid for 5 mb subsampling(pressure_gridded)
• North Latitude(lat)
• Planetary boundary layer regime type determined by Liu and Liang (2010) method(pbl_regime_type_liu_liang)
• The maximum difference in potential temperature across inversion layers from
  Heffter (1980) method.(delta_theta_max)
• Planetary boundary layer height above mean sea level calculated from bulk
  Richardson number using critical threshold of 0.25(pbl_height_bulk_richardson_pt25)
• Potential temperature lapse rate subsampled at 5 mb resolution(lapserate_theta_ss)
• Level 1 height above mean sea level calculated by the Liu and Liang (2010)
  method(level_1_liu_liang)
• Height above mean sea level at bottom of inversion layer from Heffter (1980)
  method(bottom_inversion)
• Height above mean sea level at top of inversion layer from Heffter (1980) method(top_inversion)

• North Latitude(lat)
• base time in epoch(base_time)
• Magnetic field, y component(ymag)
• Pitch, bow up positive(pitch)
• time_in_seconds_since_volume_start(time)
• Magnetic field, x component(xmag)
• -180.0 - +180.0(alt)
• Roll angle reported by tilt table, positive is port side up(roll)
• Time offset from base_time(time_offset)
• Compass heading(compass_heading)
• Temperature of RAD circuit board(circuit_board_temperature)
• lon(lon)
• Magnetic field, z component(zmag)

• Altitude of highest signal(alt_highest_signal)
• Percentage of nominal factory setting (0 to 999%)(laser_pulse_energy)
• Millivolts at internal ADC input (0 to 2500)(background_light)
• Percentage of nominal factory setting (0 to 999%)(receiver_sensitivity)
• North Latitude(lat)
• Time offset from base_time(time_offset)
• Distance to the center of the corresponding range bin(range)
• Lowest cloud base height detected(first_cbh)
• Flag indicating aeri retrieval status(status_flag)
• lon(lon)
• base time in epoch(base_time)
• Vertical visibility(vertical_visibility)
• Warning, alarm, and internal status information(status_string)
• time_in_seconds_since_volume_start(time)
• -180.0 - +180.0(alt)
• Third cloud base height(third_cbh)
• Laser temperature(laser_temperature)
• 6 character string describing instrument measurement parameters(measurement_parameters)
• Aerosol volume backscattering coefficient at 355 nm(backscatter)
• Sum of detected and normalized backscatter(sum_backscatter)
• Window contamination(window_contamination)
• Degrees from vertical (-15 to +90)(tilt_angle)
• Second lowest cloud base height(second_cbh)
• Detection status.(detection_status)

• Internal voltage(internal_voltage)
• lon(lon)
• Time offset from base_time(time_offset)
• Surface infra-red temperature(sfc_ir_temp)
• North Latitude(lat)
• time_in_seconds_since_volume_start(time)
• Data Logger Temperature(logger_temp)
• Sky Infra-Red Temperature(sky_ir_temp)
• base time in epoch(base_time)
• -180.0 - +180.0(alt)

• time_in_seconds_since_volume_start(time)
• Ambient Temperature(ambient_temp)
• OPC laser current(laser_current)
• Nozzle pressure(nozzle_pressure)
• lon(lon)
• Orifice pressure(orifice_pressure)
• Time offset from base_time(time_offset)
• North Latitude(lat)
• base time in epoch(base_time)
• Saturation temperature(saturation_temp)
• Cabinet temperature(cabinet_temp)
• Condensation temperature(condensation_temp)
• Aerosol concentration averaged over times to match N_CCN(concentration)
• Optics temperature(optics_temp)
• -180.0 - +180.0(alt)

• (Raw data stream - documentation not supported)

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

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

• time_in_seconds_since_volume_start(time)
• Optics temperature(optics_temp)
• OPC laser current(laser_current)
• Time offset from base_time(time_offset)
• Nozzle pressure(nozzle_pressure)
• lon(lon)
• Saturation temperature(saturation_temp)
• Ambient Temperature(ambient_temp)
• North Latitude(lat)
• Aerosol concentration averaged over times to match N_CCN(concentration)
• base time in epoch(base_time)
• Cabinet temperature(cabinet_temp)
• Condensation temperature(condensation_temp)
• Orifice pressure(orifice_pressure)
• -180.0 - +180.0(alt)

• Cooler temperature alarm state(cooler_temp_alarm)
• Number of scans since last power cycle(scan_number)
• Hot blackbody temperature at top of cone(hbb_thermistor_1)
• Hot blackbody temperature at apex of cavity(hbb_thermistor_3)
• Hot blackbody temperature at bottom of cone(hbb_thermistor_2)
• Longitude from GPS(gps_longitude)
• Cooler temperature(cooler_diode_temperature)
• North Latitude(lat)
• Ambient air temperature near cooler(temp_near_cooler)
• time_in_seconds_since_volume_start(time)
• Ambient blackbody temperature setting(abb_set_point)
• Hatch open when 1(hatch_open_indicator)
• Index location of ch3 interferogram minima(ch3_igm_min_index)
• Compressor current draw(compressor_current_draw)
• Index location of ch2 interferogram minima(ch2_igm_min_index)
• Mean hot blackbody temp from three thermistors(hbb_mean_temp)
• Number of satellites in GPS fix(gps_number_satellites)
• lon(lon)
• Altitude above mean sea level from GPS(gps_altitude)
• Precip sensor state(precip_sensor_state)
• Time from GPS in UTC stored as HHMMSS(gps_time_hhmmss_utc)
• Ch3.2 interferogram peak to peak amplitude(ch3_igm_peak_to_peak)
• Cooler temperature diode reading(cooler_diode_reading)
• DC supply voltage for cooler(cooler_24v_dc_power_supply)
• Sunlight intensity with arbitrary scale(sun_sensor_signal)
• Index location of channel 1 interferogram minima(ch1_igm_min_index)
• Index location of channel 2 interferogram maxima(ch2_igm_max_index)
• Ch1 interferogram peak to peak amplitude(ch1_igm_peak_to_peak)
• Hatch operating mode(hatch_control_mode)
• Hot blackbody temperature setting(hbb_set_point)
• Monitor voltage for cooler controller(cooler_monitor_v)
• -180.0 - +180.0(alt)
• Time offset from base_time(time_offset)
• Direction of scan(scan_direction)
• Index location of ch3 interferogram maxima(ch3_igm_max_index)
• Ambient blackbody temperature at apex of cavity(abb_thermistor_3)
• Ambient blackbody temperature at bottom of cone(abb_thermistor_2)
• Ambient blackbody temperature at top of cone(abb_thermistor_1)
• Index location of channel 1 interferogram maxima(ch1_igm_max_index)
• base time in epoch(base_time)
• Mirror angle for selected scene(scene_angle)
• Intended scene for mirror position(scene_id)
• Hatch closed when 1(hatch_closed_indicator)
• Latitude from GPS(gps_latitude)
• Ch2 interferogram peak to peak amplitude(ch2_igm_peak_to_peak)
• AC voltage supplied to compressor(compressor_ac_v_applied)
• Number of times cooler has been powered up since installation.(cooler_pwr_cycles)
• Mean ambient blackbody temperature from three thermistors(abb_mean_temp)

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

• North Latitude(lat)
• Aerosol Optical Depth at 340 nm(aot_340)
• Angstrom Coefficient 440-675 Polar(Angstrom440_675_Polar)
• Aerosol Optical Depth at 380 nm(aot_380)
• AOT at 1640 nm(aot_1640)
• AOT at 870 nm(aot_870)
• Angstrom Coefficient 340-440(Angstrom340_440)
• Aerosol Optical Depth at 440 nm(aot_440)
• Water Error(WaterError)
• Triplet Variability at 670 nm(TripletVar_670)
• Angstrom Coefficient 440-870(Angstrom440_870)
• Time offset from base_time(time_offset)
• time_in_seconds_since_volume_start(time)
• base time in epoch(base_time)
• Triplet Variability at 1020 nm(TripletVar_1020)
• Aerosol Optical Depth at 500 nm(aot_500)
• -180.0 - +180.0(alt)
• Triplet Variability at 870 nm(TripletVar_870)
• Triplet Variability at 340 nm(TripletVar_340)
• AOT at 1020 nm(aot_1020)
• Triplet Variability at 380 nm(TripletVar_380)
• Angstrom Coefficient 380-500(Angstrom380_500)
• Triplet Variability at 1640 nm(TripletVar_1640)
• Last processing date(last_processing_date)
• Angstrom Coefficient 500-870(Angstrom500_870)
• Solar ZenithAngle(zenith)
• AOT at 670 nm(aot_670)
• Triplet Variability at 500 nm(TripletVar_500)
• Angstrom Coefficient 440-675(Angstrom440_675)
• Triplet Variability at 440 nm(TripletVar_440)
• Time of observation(timeObs)
• Precipitable water vapor(pwv)
• lon(lon)

• Shadow record, mean sweep measurements, filter 1, nominal wavelength is 415 nm(sweeps_hemisp_narrowband_filter1)
• Shadowband sweep measurements, filter 6, nominal wavelength is 935 nm(sweeps_hemisp_narrowband_filter6)
• Shadowband sweep measurements, filter 3, nominal wavelength is 608 nm(sweeps_hemisp_narrowband_filter3)
• Shadowband sweep measurements, filter 2, nominal wavelength is 500 nm(sweeps_hemisp_narrowband_filter2)
• Shadowband sweep measurements, filter 5, nominal wavelength is 860 nm(sweeps_hemisp_narrowband_filter5)
• Shadow record, mean sweep measurements, filter 4, nominal wavelength is 660 nm(sweeps_hemisp_narrowband_filter4)
• Shadowband threshold(shadowband_threshold)
• North Latitude(lat)
• Narrowband hemispheric irradiance, at end of shadowband sweep, filter 6, nominal
  wavelength is 935 nm(end_sweep_hemisp_narrowband_filter6)
• Narrowband hemispheric irradiance, at end of shadowband sweep, filter 5, nominal
  wavelength is 860 nm(end_sweep_hemisp_narrowband_filter5)
• Shadow record, mean narrowband hemispheric irradiance at end of sweep, filter 2,
  nominal wavelength is 500 nm(end_sweep_hemisp_narrowband_filter2)
• Narrowband hemispheric irradiance, at end of shadowband sweep, filter 1, nominal
  wavelength is 415 nm(end_sweep_hemisp_narrowband_filter1)
• Shadow record, mean narrowband hemispheric irradiance at end of sweep, filter 4,
  nominal wavelength is 660 nm(end_sweep_hemisp_narrowband_filter4)
• Narrowband hemispheric irradiance, at end of shadowband sweep, filter 3,
  nominal wavelength is 608 nm(end_sweep_hemisp_narrowband_filter3)
• Bin numbers for sweep measurements(bin)
• Time offset from base_time(time_offset)
• Detector temperature(head_temp)
• Shadowband ratio, dip/noise(shadowband_ratio)
• -180.0 - +180.0(alt)
• Hemispheric broadband irradiance, at end of shadowband sweep, broadband channel(end_sweep_hemisp_broadband)
• lon(lon)
• Shadow record, mean sweep measurements, broadband channel(sweeps_hemisp_broadband)
• 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 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 1, offset corrected(hemisp_narrowband_filter1)
• base time in epoch(base_time)
• Hemispheric broadband irradiance, at start of shadowband sweep, broadband
  channel(start_sweep_hemisp_broadband)
• Shadow record, mean narrowband hemispheric irradiance at start of sweep, filter
  1, nominal wavelength is 415 nm(start_sweep_hemisp_narrowband_filter1)
• Narrowband hemispheric irradiance, at start of shadowband sweep, filter 5,
  nominal wavelength is 860 nm(start_sweep_hemisp_narrowband_filter5)
• Shadow record, mean narrowband hemispheric irradiance at start of sweep, filter
  4, nominal wavelength is 660 nm(start_sweep_hemisp_narrowband_filter4)
• Shadow record, mean narrowband hemispheric irradiance at start of sweep, filter
  3, nominal wavelength is 608 nm(start_sweep_hemisp_narrowband_filter3)
• Narrowband hemispheric irradiance, at start of shadowband sweep, filter 2,
  nominal wavelength is 500 nm(start_sweep_hemisp_narrowband_filter2)
• Shadow record, mean narrowband hemispheric irradiance at start of sweep, filter
  6, nominal wavelength is 935 nm(start_sweep_hemisp_narrowband_filter6)
• Hemispheric broadband irradiance(hemisp_broadband)
• time_in_seconds_since_volume_start(time)

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

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