MAG/AOS/ALL/M1/S1/S2 - Ship in port

The ship was in port during these periods and the measurements may be affected by various 
sources (overhead cranes, anthropogenic sources, etc).

Note: Dates and times were found by looking at the NAV datastream.  The standard deviation 
of pitch, roll, and surge velocity were used to determine when the ship was slowing down 
to enter port or speeding up to leave port.  Thresholds used; pitch (0.01), roll (0.01), 
surge velocity (3.0)

• 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)

• Aerosol light absorption coefficient, nominal green wavelength at dry or
  reference RH(Ba_G_PSAP3W)
• Quality check results on field: AOS PSAP3W transmittance, green channel(qc_transmittance_G)
• Quality check results on field: AOS PSAP3W transmittance, blue channel(qc_transmittance_B)
• North Latitude(lat)
• Quality check results on field: Impactor setting in terms of aerodynamic
  diameter cut off(qc_impactor_setting)
• Flow setpoint(dilution_flow_setpoint)
• AOS Ba_R_CLAP3W transmittance, red channel(transmittance_R)
• AOS PSAP3W transmittance, green channel(transmittance_G)
• AOS Ba_B_CLAP3W transmittance, blue channel(transmittance_B)
• Quality check results on field: AOS PSAP3W transmittance, red channel(qc_transmittance_R)
• Quality check results on field: Aerosol light absorption coefficient, nominal
  green wavelength at dry or reference RH(qc_Ba_G_PSAP3W)
• Time offset from base_time(time_offset)
• Impactor setting in terms of aerodynamic diameter cut off(impactor_setting)
• AOS Ba_B_CLAP3W_1 (NOAA) sample length, needed to calculate Beers Law(sample_length)
• -180.0 - +180.0(alt)
• Aerosol light absorption coefficient, nominal red wavelength at dry or reference
  RH(Ba_R_PSAP3W)
• Quality check results on field: AOS PSAP3W (NOAA) sample length, needed to
  calculate Beers Law(qc_sample_length)
• base time in epoch(base_time)
• lon(lon)
• Quality check results on field: Aerosol light absorption coefficient, nominal
  red wavelength at dry or reference RH(qc_Ba_R_PSAP3W)
• Dilution flow rate(dilution_flow)
• Quality check results on field: Aerosol light absorption coefficient, nominal
  blue wavelength at dry or reference RH(qc_Ba_B_PSAP3W)
• Mass flow(mass_flow)
• Diffusion flow valve position(dilution_flow_valve_position)
• Aerosol light absorption coefficient, nominal blue wavelength at dry or
  reference RH(Ba_B_PSAP3W)
• time_in_seconds_since_volume_start(time)
• Quality check results on field: AOS PSAP3W mass flow(qc_mass_flow)

• 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)
• cross accumulator channel(cross)
• clock id data is received from(DATA_clockhost)
• 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)

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

• 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)
• Spectral velocity bins(velocity_bins)
• Spectra(spectra)
• reflectivity(reflectivity)

• Time offset from base_time(time_offset)
• Signal-to-noise ratio, copolar(signal_to_noise_ratio_copol)
• Radar calibration constant, copolar(cal_constant_copol)
• Mean doppler velocity, cross-polar(mean_doppler_velocity_xpol)
• Reflectivity, copolar(reflectivity_copol)
• Spectral width, co-polarization(spectral_width_copol)
• Spectral width, cross-polarization(spectral_width_xpol)
• Signal to noise ratio, cross-polarization(signal_to_noise_ratio_xpol)
• Radar calibration constant, cross-polar(cal_constant_xpol)
• base time in epoch(base_time)
• Reflectivity, cross-polar(reflectivity_xpol)
• Results of quality checks on sample time(qc_time)
• Mean doppler velocity, copolar, dealiased(mean_doppler_velocity_copol)
• time_in_seconds_since_volume_start(time)
• Receiver noise(rx_noise)
• Distance to the center of the corresponding range bin(range)

• 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)

• Temperature, reference nephelometer inlet(T_Neph_Inlet_Dry)
• Aerosol total light scattering coefficient, nominal green wavelength at dry or
  reference RH(Bs_G_Dry_Neph3W_1)
• Sample temperature inside reference nephelometer(T_Neph_Dry)
• Aerosol back-hemispheric light scattering coefficient, nominal red wavelength at
  dry or reference RH(Bbs_R_Dry_Neph3W_1)
• Time offset from base_time(time_offset)
• -180.0 - +180.0(alt)
• Aerosol back-hemispheric light scattering coefficient, nominal blue wavelength
  at dry or reference RH(Bbs_B_Dry_Neph3W_1)
• Aerosol total light scattering coefficient, nominal blue wavelength at dry or
  reference RH(Bs_B_Dry_Neph3W_1)
• Pressure inside reference nephelometer(P_Neph_Dry)
• Impactor setting in terms of aerodynamic diameter cut off(impactor_setting)
• Relative humidity, reference nephelometer(RH_Neph_Dry)
• base time in epoch(base_time)
• lon(lon)
• North Latitude(lat)
• Aerosol total light scattering coefficient, nominal red wavelength at dry or
  reference RH(Bs_R_Dry_Neph3W_1)
• time_in_seconds_since_volume_start(time)
• Aerosol back-hemispheric light scattering coefficient, nominal green wavelength
  at dry or reference RH(Bbs_G_Dry_Neph3W_1)

• 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)
• Relative humidity from passive shield of the instrument mounted on the starboard
  side of the met boom(rh_wx2)
• 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 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)

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

• 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)

• 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)

• 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)

• 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)

• Zenith radiance at 673 nm(zenith_radiance_673nm)
• Zenith transmittance at 1064 nm(zenith_transmittance_1064nm)
• time_in_seconds_since_volume_start(time)
• Zenith radiance at 1125 nm(zenith_radiance_1125nm)
• Zenith transmittance at 1175 nm(zenith_transmittance_1175nm)
• Zenith transmittance at 1020 nm(zenith_transmittance_1020nm)
• Zenith transmittance at 1550 nm(zenith_transmittance_1550nm)
• Temperature of multi-IO box from MEMS sensor(mio_temperature_mems)
• Zenith radiance at 976 nm(zenith_radiance_976nm)
• Zenith radiance at 340 nm(zenith_radiance_340nm)
• Temperature of avantes optical bench for InGaAs NIR spectrometer(bench_temperature_nir)
• Integration time of individual scans from Si CCD spectrometer(integration_time_vis)
• Zenith radiance at 910 nm(zenith_radiance_910nm)
• Standard deviation of collector tilt measured perpendicular to band axis.(collector_y_tilt_std)
• Zenith radiance at 415 nm(zenith_radiance_415nm)
• Zenith transmittance at 650 nm(zenith_transmittance_650nm)
• Zenith radiance at 1637 nm(zenith_radiance_1637nm)
• Collector internal dew point(collector_dewpoint)
• Collector internal temperature from TRH sensor(collector_temperature)
• Zenith radiance at 500 nm(zenith_radiance_500nm)
• Zenith radiance at 1370 nm(zenith_radiance_1370nm)
• Zenith radiance at 975 nm(zenith_radiance_975nm)
• Zenith radiance at 940 nm(zenith_radiance_940nm)
• Zenith transmittance at 615 nm(zenith_transmittance_615nm)
• Extraterrestrial solar irradiance outside the Earth's atmosphere(solar_spectrum)
• Temperature of MIO box from TRH sensor(mio_temperature_trh)
• Zenith transmittance at 387 nm(zenith_transmittance_387nm)
• Zenith transmittance at 935 nm(zenith_transmittance_935nm)
• Zenith radiance at 762 nm(zenith_radiance_762nm)
• Zenith transmittance at 1050 nm(zenith_transmittance_1050nm)
• Zenith transmittance at 940 nm(zenith_transmittance_940nm)
• Zenith transmittance at 975 nm(zenith_transmittance_975nm)
• Zenith transmittance at 415 nm(zenith_transmittance_415nm)
• lon(lon)
• base time in epoch(base_time)
• Spectrometer internal clock ticks for InGaAs NIR spectrometer(clock_ticks_nir)
• Zenith transmittance at 1370 nm(zenith_transmittance_1370nm)
• Collector internal relative humidity from TRH sensor(collector_rh)
• Zenith radiance at 1500 nm(zenith_radiance_1500nm)
• Zenith radiance at 408 nm(zenith_radiance_408nm)
• Zenith transmittance at 762 nm(zenith_transmittance_762nm)
• Number of spectrometer scans averaged for InGaAs linear array spectra(number_of_scans_nir)
• Standard deviation of collector tilt measured along band axis.(collector_x_tilt_std)
• Zenith radiance at 1050 nm(zenith_radiance_1050nm)
• Solar zenith angle relative to vertical zenith.(solar_zenith)
• Zenith transmittance at 500 nm(zenith_transmittance_500nm)
• Zenith transmittance at 673 nm(zenith_transmittance_673nm)
• Zenith radiance at 1020 nm(zenith_radiance_1020nm)
• Spectrometer chiller internal dew point(chiller_dewpoint)
• Spectrometer internal clock ticks for Si VIS spectrometer(clock_ticks_vis)
• Zenith radiance at 1175 nm(zenith_radiance_1175nm)
• North Latitude(lat)
• Zenith radiance at 1064 nm(zenith_radiance_1064nm)
• Solar azimuth angle relative to north(solar_azimuth)
• Zenith transmittance at 1125 nm(zenith_transmittance_1125nm)
• Zenith radiance at 532 nm(zenith_radiance_532nm)
• Number of spectrometer scans averaged for Si VIS spectrometer(number_of_scans_vis)
• Zenith transmittance at 340 nm(zenith_transmittance_340nm)
• Integration time per scan for InGaAs NIR spectrometer(integration_time_nir)
• Zenith transmittance at 910 nm(zenith_transmittance_910nm)
• Collector tilt perpendicular to band axis(collector_y_tilt)
• Zenith radiance at 870 nm(zenith_radiance_870nm)
• Zenith radiance at 368 nm(zenith_radiance_368nm)
• Zenith radiance at 355 nm(zenith_radiance_355nm)
• Earth sun distance(earth_sun_distance)
• Zenith radiance at 1225 nm(zenith_radiance_1225nm)
• Zenith radiance at 440 nm(zenith_radiance_440nm)
• Zenith transmittance at 976 nm(zenith_transmittance_976nm)
• Zenith transmittance at 532 nm(zenith_transmittance_532nm)
• Temperature of avantes AD board for Si VIS spectrometer(ad_temperature_vis)
• Zenith transmittance at 1637 nm(zenith_transmittance_1637nm)
• Zenith transmittance at 1440 nm(zenith_transmittance_1440nm)
• Zenith transmittance at 870 nm(zenith_transmittance_870nm)
• Zenith radiance at 1030 nm(zenith_radiance_1030nm)
• Zenith transmittance at 408 nm(zenith_transmittance_408nm)
• Zenith transmittance at 1500 nm(zenith_transmittance_1500nm)
• Zenith radiance at 1550 nm(zenith_radiance_1550nm)
• Chiller temperature during 1 minute interval.(chiller_temperature)
• Zenith radiance at 935 nm(zenith_radiance_935nm)
• Zenith radiance at 650 nm(zenith_radiance_650nm)
• MIO relative humidity from TRH sensor(mio_rh)
• Top of atmosphere spectrum wavelengths(wavelength)
• Collector tilt along band axis(collector_x_tilt)
• Zenith transmittance at 1030 nm(zenith_transmittance_1030nm)
• Time offset from base_time(time_offset)
• Zenith radiance at 615 nm(zenith_radiance_615nm)
• Zenith radiance at 387 nm(zenith_radiance_387nm)
• Zenith transmittance at 355 nm(zenith_transmittance_355nm)
• Zenith transmittance at 368 nm(zenith_transmittance_368nm)
• -180.0 - +180.0(alt)
• Zenith radiance at 1440 nm(zenith_radiance_1440nm)
• Zenith transmittance at 440 nm(zenith_transmittance_440nm)
• Temperature of avantes AD board for InGaAs NIR spectrometer(ad_temperature_nir)
• Temperature of multi-IO box from MEMS sensor in Fahrenheit(mio_temperature_mems_fahr)
• Temperature of Si CCD optical bench(bench_temperature_vis)
• Zenith transmittance at 1225 nm(zenith_transmittance_1225nm)
• Spectrometer chiller internal RH(chiller_rh)

• 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)

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

• 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)