netcdf asimfr10mM1.b1.20171101.000000 { dimensions: time = UNLIMITED ; // (2880 currently) bench_angle = 181 ; wavelength = 750 ; variables: int base_time ; base_time:string = "2017-11-01 00:00:00 0:00" ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; base_time:ancillary_variables = "time_offset" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2017-11-01 00:00:00 0:00" ; time_offset:ancillary_variables = "base_time" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2017-11-01 00:00:00 0:00" ; float up_hemisp_broadband(time) ; up_hemisp_broadband:long_name = "10 meter upwelling broadband hemispheric irradiance" ; up_hemisp_broadband:units = "W/m^2" ; up_hemisp_broadband:valid_min = 0.f ; up_hemisp_broadband:valid_max = 900.f ; up_hemisp_broadband:resolution = 0.1f ; up_hemisp_broadband:missing_value = -9999.f ; up_hemisp_broadband:explanation_of_broadband_channel = "Unfiltered silicon, nominally from 320 to 1200nm" ; up_hemisp_broadband:notes_on_units = "Raw mV have been linearly scaled to a NIP at solar noon, and are roughly equivalent to W/m^2" ; int qc_up_hemisp_broadband(time) ; qc_up_hemisp_broadband:long_name = "Quality check results on field: 10 meter upwelling broadband hemispheric irradiance" ; qc_up_hemisp_broadband:units = "unitless" ; qc_up_hemisp_broadband:description = "See global attributes for individual bit descriptions." ; float up_hemisp_narrowband_filter1(time) ; up_hemisp_narrowband_filter1:long_name = "10 meter upwelling narrowband hemispheric irradiance, filter 1" ; up_hemisp_narrowband_filter1:units = "W/(m^2 nm)" ; up_hemisp_narrowband_filter1:valid_min = -0.01f ; up_hemisp_narrowband_filter1:valid_max = 2.f ; up_hemisp_narrowband_filter1:resolution = 0.01f ; up_hemisp_narrowband_filter1:missing_value = -9999.f ; up_hemisp_narrowband_filter1:explanation_of_narrowband_channel = "The nominal wavelength is 415nm, half power width 10nm" ; up_hemisp_narrowband_filter1:corrections = "Offset subtracted" ; up_hemisp_narrowband_filter1:actual_wavelength = "413.0 nm" ; up_hemisp_narrowband_filter1:FWHM = "10.9 nm" ; int qc_up_hemisp_narrowband_filter1(time) ; qc_up_hemisp_narrowband_filter1:long_name = "Quality check results on field: 10 meter upwelling narrowband hemispheric irradiance, filter 1" ; qc_up_hemisp_narrowband_filter1:units = "unitless" ; qc_up_hemisp_narrowband_filter1:description = "See global attributes for individual bit descriptions." ; float up_hemisp_narrowband_filter2(time) ; up_hemisp_narrowband_filter2:long_name = "10 meter upwelling narrowband hemispheric irradiance, filter 2" ; up_hemisp_narrowband_filter2:units = "W/(m^2 nm)" ; up_hemisp_narrowband_filter2:valid_min = -0.01f ; up_hemisp_narrowband_filter2:valid_max = 2.f ; up_hemisp_narrowband_filter2:resolution = 0.01f ; up_hemisp_narrowband_filter2:missing_value = -9999.f ; up_hemisp_narrowband_filter2:explanation_of_narrowband_channel = "The nominal wavelength is 500nm, half power width 10nm" ; up_hemisp_narrowband_filter2:corrections = "Offset subtracted" ; up_hemisp_narrowband_filter2:actual_wavelength = "501.1 nm" ; up_hemisp_narrowband_filter2:FWHM = "10.8 nm" ; int qc_up_hemisp_narrowband_filter2(time) ; qc_up_hemisp_narrowband_filter2:long_name = "Quality check results on field: 10 meter upwelling narrowband hemispheric irradiance, filter 2" ; qc_up_hemisp_narrowband_filter2:units = "unitless" ; qc_up_hemisp_narrowband_filter2:description = "See global attributes for individual bit descriptions." ; float up_hemisp_narrowband_filter3(time) ; up_hemisp_narrowband_filter3:long_name = "10 meter upwelling narrowband hemispheric irradiance, filter 3" ; up_hemisp_narrowband_filter3:units = "W/(m^2 nm)" ; up_hemisp_narrowband_filter3:valid_min = -0.01f ; up_hemisp_narrowband_filter3:valid_max = 2.f ; up_hemisp_narrowband_filter3:resolution = 0.01f ; up_hemisp_narrowband_filter3:missing_value = -9999.f ; up_hemisp_narrowband_filter3:explanation_of_narrowband_channel = "The nominal wavelength is 615nm, half power width 10nm" ; up_hemisp_narrowband_filter3:corrections = "Offset subtracted" ; up_hemisp_narrowband_filter3:actual_wavelength = "615.2 nm" ; up_hemisp_narrowband_filter3:FWHM = "10.9 nm" ; int qc_up_hemisp_narrowband_filter3(time) ; qc_up_hemisp_narrowband_filter3:long_name = "Quality check results on field: 10 meter upwelling narrowband hemispheric irradiance, filter 3" ; qc_up_hemisp_narrowband_filter3:units = "unitless" ; qc_up_hemisp_narrowband_filter3:description = "See global attributes for individual bit descriptions." ; float up_hemisp_narrowband_filter4(time) ; up_hemisp_narrowband_filter4:long_name = "10 meter upwelling narrowband hemispheric irradiance, filter 4" ; up_hemisp_narrowband_filter4:units = "W/(m^2 nm)" ; up_hemisp_narrowband_filter4:valid_min = -0.01f ; up_hemisp_narrowband_filter4:valid_max = 2.f ; up_hemisp_narrowband_filter4:resolution = 0.01f ; up_hemisp_narrowband_filter4:missing_value = -9999.f ; up_hemisp_narrowband_filter4:explanation_of_narrowband_channel = "The nominal wavelength is 673nm, half power width 10nm" ; up_hemisp_narrowband_filter4:corrections = "Offset subtracted" ; up_hemisp_narrowband_filter4:actual_wavelength = "671.9 nm" ; up_hemisp_narrowband_filter4:FWHM = "10.5 nm" ; int qc_up_hemisp_narrowband_filter4(time) ; qc_up_hemisp_narrowband_filter4:long_name = "Quality check results on field: 10 meter upwelling narrowband hemispheric irradiance, filter 4" ; qc_up_hemisp_narrowband_filter4:units = "unitless" ; qc_up_hemisp_narrowband_filter4:description = "See global attributes for individual bit descriptions." ; float up_hemisp_narrowband_filter5(time) ; up_hemisp_narrowband_filter5:long_name = "10 meter upwelling narrowband hemispheric irradiance, filter 5" ; up_hemisp_narrowband_filter5:units = "W/(m^2 nm)" ; up_hemisp_narrowband_filter5:valid_min = -0.01f ; up_hemisp_narrowband_filter5:valid_max = 2.f ; up_hemisp_narrowband_filter5:resolution = 0.01f ; up_hemisp_narrowband_filter5:missing_value = -9999.f ; up_hemisp_narrowband_filter5:explanation_of_narrowband_channel = "The nominal wavelength is 870nm, half power width 10nm" ; up_hemisp_narrowband_filter5:corrections = "Offset subtracted" ; up_hemisp_narrowband_filter5:actual_wavelength = "869.2 nm" ; up_hemisp_narrowband_filter5:FWHM = "10.0 nm" ; int qc_up_hemisp_narrowband_filter5(time) ; qc_up_hemisp_narrowband_filter5:long_name = "Quality check results on field: 10 meter upwelling narrowband hemispheric irradiance, filter 5" ; qc_up_hemisp_narrowband_filter5:units = "unitless" ; qc_up_hemisp_narrowband_filter5:description = "See global attributes for individual bit descriptions." ; float up_hemisp_narrowband_filter6(time) ; up_hemisp_narrowband_filter6:long_name = "10 meter upwelling narrowband hemispheric irradiance, filter 6" ; up_hemisp_narrowband_filter6:units = "W/(m^2 nm)" ; up_hemisp_narrowband_filter6:valid_min = -0.01f ; up_hemisp_narrowband_filter6:valid_max = 2.f ; up_hemisp_narrowband_filter6:resolution = 0.01f ; up_hemisp_narrowband_filter6:missing_value = -9999.f ; up_hemisp_narrowband_filter6:explanation_of_narrowband_channel = "The nominal wavelength is 940nm, half power width 10nm" ; up_hemisp_narrowband_filter6:corrections = "Offset subtracted" ; up_hemisp_narrowband_filter6:actual_wavelength = "938.0 nm" ; up_hemisp_narrowband_filter6:FWHM = " 5.4 nm" ; int qc_up_hemisp_narrowband_filter6(time) ; qc_up_hemisp_narrowband_filter6:long_name = "Quality check results on field: 10 meter upwelling narrowband hemispheric irradiance, filter 6" ; qc_up_hemisp_narrowband_filter6:units = "unitless" ; qc_up_hemisp_narrowband_filter6:description = "See global attributes for individual bit descriptions." ; float head_temp(time) ; head_temp:long_name = "Detector temperature" ; head_temp:units = "degC" ; head_temp:valid_min = 35.f ; head_temp:valid_max = 45.f ; head_temp:valid_delta = 0.2f ; head_temp:missing_value = -9999.f ; int qc_head_temp(time) ; qc_head_temp:long_name = "Quality check results on field: Detector temperature" ; qc_head_temp:units = "unitless" ; qc_head_temp:description = "See global attributes for individual bit descriptions." ; float head_temp2(time) ; head_temp2:long_name = "Second detector temperature" ; head_temp2:units = "degC" ; head_temp2:valid_min = 35.f ; head_temp2:valid_max = 45.f ; head_temp2:valid_delta = 0.2f ; head_temp2:missing_value = -9999.f ; int qc_head_temp2(time) ; qc_head_temp2:long_name = "Quality check results on field: Second detector temperature" ; qc_head_temp2:units = "unitless" ; qc_head_temp2:description = "See global attributes for individual bit descriptions." ; float logger_temperature(time) ; logger_temperature:long_name = "Internal logger temperature" ; logger_temperature:units = "degC" ; logger_temperature:valid_min = -55.f ; logger_temperature:valid_max = 85.f ; logger_temperature:valid_delta = 0.2f ; logger_temperature:missing_value = -9999.f ; int qc_logger_temperature(time) ; qc_logger_temperature:long_name = "Quality check results on field: Internal logger temperature" ; qc_logger_temperature:units = "unitless" ; qc_logger_temperature:description = "See global attributes for individual bit descriptions." ; float logger_volt(time) ; logger_volt:long_name = "Data logger supply voltage" ; logger_volt:units = "V" ; logger_volt:valid_min = 11.f ; logger_volt:valid_max = 14.f ; logger_volt:valid_delta = 0.5f ; logger_volt:resolution = 0.001f ; logger_volt:missing_value = -9999.f ; int qc_logger_volt(time) ; qc_logger_volt:long_name = "Quality check results on field: Data logger supply voltage" ; qc_logger_volt:units = "unitless" ; qc_logger_volt:description = "See global attributes for individual bit descriptions." ; float solar_zenith_angle(time) ; solar_zenith_angle:long_name = "Apparent solar zenith angle" ; solar_zenith_angle:units = "degree" ; solar_zenith_angle:missing_value = -9999.f ; solar_zenith_angle:corrections = "Solar zenith angle corrected for refraction by atmosphere" ; int qc_solar_zenith_angle(time) ; qc_solar_zenith_angle:long_name = "Quality check results on field: Apparent solar zenith angle" ; qc_solar_zenith_angle:units = "unitless" ; qc_solar_zenith_angle:description = "See global attributes for individual bit descriptions." ; float cosine_solar_zenith_angle(time) ; cosine_solar_zenith_angle:long_name = "Cosine apparent solar zenith angle" ; cosine_solar_zenith_angle:units = "unitless" ; cosine_solar_zenith_angle:valid_min = -1.f ; cosine_solar_zenith_angle:valid_max = 1.f ; cosine_solar_zenith_angle:corrections = "Solar zenith angle corrected for refraction of atmosphere." ; int qc_cosine_solar_zenith_angle(time) ; qc_cosine_solar_zenith_angle:long_name = "Quality check results on field: Cosine apparent solar zenith angle" ; qc_cosine_solar_zenith_angle:units = "unitless" ; qc_cosine_solar_zenith_angle:description = "See global attributes for individual bit descriptions." ; float elevation_angle(time) ; elevation_angle:long_name = "Elevation angle" ; elevation_angle:units = "degree" ; elevation_angle:valid_min = -1.f ; elevation_angle:valid_max = 1.f ; elevation_angle:missing_value = -9999.f ; float airmass(time) ; airmass:long_name = "Airmass" ; airmass:units = "unitless" ; airmass:missing_value = -9999.f ; airmass:corrections = "Approximately 1/cosine_solar_zenith_angle with corrections for refraction and spherical atmosphere" ; float azimuth_angle(time) ; azimuth_angle:long_name = "Azimuth angle" ; azimuth_angle:units = "degree" ; azimuth_angle:missing_value = -9999.f ; float nominal_calibration_factor_broadband ; nominal_calibration_factor_broadband:long_name = "Nominal calibration factor, applied to broadband data" ; nominal_calibration_factor_broadband:units = "mV/W/m^2" ; nominal_calibration_factor_broadband:missing_value = -9999.f ; float nominal_calibration_factor_filter1 ; nominal_calibration_factor_filter1:long_name = "Nominal calibration factor, applied to filter1 data" ; nominal_calibration_factor_filter1:units = "mV/W/(m^2 nm)" ; nominal_calibration_factor_filter1:missing_value = -9999.f ; float nominal_calibration_factor_filter2 ; nominal_calibration_factor_filter2:long_name = "Nominal calibration factor, applied to filter2 data" ; nominal_calibration_factor_filter2:units = "mV/W/(m^2 nm)" ; nominal_calibration_factor_filter2:missing_value = -9999.f ; float nominal_calibration_factor_filter3 ; nominal_calibration_factor_filter3:long_name = "Nominal calibration factor, applied to filter3 data" ; nominal_calibration_factor_filter3:units = "mV/W/(m^2 nm)" ; nominal_calibration_factor_filter3:missing_value = -9999.f ; float nominal_calibration_factor_filter4 ; nominal_calibration_factor_filter4:long_name = "Nominal calibration factor, applied to filter4 data" ; nominal_calibration_factor_filter4:units = "mV/W/(m^2 nm)" ; nominal_calibration_factor_filter4:missing_value = -9999.f ; float nominal_calibration_factor_filter5 ; nominal_calibration_factor_filter5:long_name = "Nominal calibration factor, applied to filter5 data" ; nominal_calibration_factor_filter5:units = "mV/W/(m^2 nm)" ; nominal_calibration_factor_filter5:missing_value = -9999.f ; float nominal_calibration_factor_filter6 ; nominal_calibration_factor_filter6:long_name = "Nominal calibration factor, applied to filter6 data" ; nominal_calibration_factor_filter6:units = "mV/W/(m^2 nm)" ; nominal_calibration_factor_filter6:missing_value = -9999.f ; float bench_angle(bench_angle) ; bench_angle:long_name = "Angle of incidence during cosine bench measurements" ; bench_angle:units = "degree" ; bench_angle:comment = "Information only, not used for irradiance calculations." ; bench_angle:head_orientation = "When deployed, head is oriented so that the sensor/diffuser is toward the equator, and the connector is toward the earth pole." ; bench_angle:South_to_North = "0 is S, 90 is zenith, 180 is N" ; bench_angle:West_to_East = "0 is W, 90 is zenith, 180 is E" ; float cosine_correction_sn_broadband(bench_angle) ; cosine_correction_sn_broadband:long_name = "Cosine correction, south to north, broadband channel" ; cosine_correction_sn_broadband:units = "unitless" ; cosine_correction_sn_broadband:missing_value = -9999.f ; cosine_correction_sn_broadband:comment = "Read from cosine_correction_source" ; cosine_correction_sn_broadband:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; float cosine_correction_sn_filter1(bench_angle) ; cosine_correction_sn_filter1:long_name = "Cosine correction, south to north, filter1" ; cosine_correction_sn_filter1:units = "unitless" ; cosine_correction_sn_filter1:missing_value = -9999.f ; cosine_correction_sn_filter1:comment = "Read from cosine_correction_source" ; cosine_correction_sn_filter1:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; cosine_correction_sn_filter1:actual_wavelength = "413.0 nm" ; cosine_correction_sn_filter1:FWHM = "10.9 nm" ; float cosine_correction_sn_filter2(bench_angle) ; cosine_correction_sn_filter2:long_name = "Cosine correction, south to north, filter2" ; cosine_correction_sn_filter2:units = "unitless" ; cosine_correction_sn_filter2:missing_value = -9999.f ; cosine_correction_sn_filter2:comment = "Read from cosine_correction_source" ; cosine_correction_sn_filter2:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; cosine_correction_sn_filter2:actual_wavelength = "501.1 nm" ; cosine_correction_sn_filter2:FWHM = "10.8 nm" ; float cosine_correction_sn_filter3(bench_angle) ; cosine_correction_sn_filter3:long_name = "Cosine correction, south to north, filter3" ; cosine_correction_sn_filter3:units = "unitless" ; cosine_correction_sn_filter3:missing_value = -9999.f ; cosine_correction_sn_filter3:comment = "Read from cosine_correction_source" ; cosine_correction_sn_filter3:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; cosine_correction_sn_filter3:actual_wavelength = "615.2 nm" ; cosine_correction_sn_filter3:FWHM = "10.9 nm" ; float cosine_correction_sn_filter4(bench_angle) ; cosine_correction_sn_filter4:long_name = "Cosine correction, south to north, filter4" ; cosine_correction_sn_filter4:units = "unitless" ; cosine_correction_sn_filter4:missing_value = -9999.f ; cosine_correction_sn_filter4:comment = "Read from cosine_correction_source" ; cosine_correction_sn_filter4:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; cosine_correction_sn_filter4:actual_wavelength = "671.9 nm" ; cosine_correction_sn_filter4:FWHM = "10.5 nm" ; float cosine_correction_sn_filter5(bench_angle) ; cosine_correction_sn_filter5:long_name = "Cosine correction, south to north, filter5" ; cosine_correction_sn_filter5:units = "unitless" ; cosine_correction_sn_filter5:missing_value = -9999.f ; cosine_correction_sn_filter5:comment = "Read from cosine_correction_source" ; cosine_correction_sn_filter5:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; cosine_correction_sn_filter5:actual_wavelength = "869.2 nm" ; cosine_correction_sn_filter5:FWHM = "10.0 nm" ; float cosine_correction_sn_filter6(bench_angle) ; cosine_correction_sn_filter6:long_name = "Cosine correction, south to north, filter6" ; cosine_correction_sn_filter6:units = "unitless" ; cosine_correction_sn_filter6:missing_value = -9999.f ; cosine_correction_sn_filter6:comment = "Read from cosine_correction_source" ; cosine_correction_sn_filter6:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; cosine_correction_sn_filter6:actual_wavelength = "938.0 nm" ; cosine_correction_sn_filter6:FWHM = " 5.4 nm" ; float cosine_correction_we_broadband(bench_angle) ; cosine_correction_we_broadband:long_name = "Cosine correction, west to east, broadband channel" ; cosine_correction_we_broadband:units = "unitless" ; cosine_correction_we_broadband:missing_value = -9999.f ; cosine_correction_we_broadband:comment = "Read from cosine_correction_source" ; cosine_correction_we_broadband:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; float cosine_correction_we_filter1(bench_angle) ; cosine_correction_we_filter1:long_name = "Cosine correction, west to east, filter1" ; cosine_correction_we_filter1:units = "unitless" ; cosine_correction_we_filter1:missing_value = -9999.f ; cosine_correction_we_filter1:comment = "Read from cosine_correction_source" ; cosine_correction_we_filter1:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; cosine_correction_we_filter1:actual_wavelength = "413.0 nm" ; cosine_correction_we_filter1:FWHM = "10.9 nm" ; float cosine_correction_we_filter2(bench_angle) ; cosine_correction_we_filter2:long_name = "Cosine correction, west to east, filter2" ; cosine_correction_we_filter2:units = "unitless" ; cosine_correction_we_filter2:missing_value = -9999.f ; cosine_correction_we_filter2:comment = "Read from cosine_correction_source" ; cosine_correction_we_filter2:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; cosine_correction_we_filter2:actual_wavelength = "501.1 nm" ; cosine_correction_we_filter2:FWHM = "10.8 nm" ; float cosine_correction_we_filter3(bench_angle) ; cosine_correction_we_filter3:long_name = "Cosine correction, west to east, filter3" ; cosine_correction_we_filter3:units = "unitless" ; cosine_correction_we_filter3:missing_value = -9999.f ; cosine_correction_we_filter3:comment = "Read from cosine_correction_source" ; cosine_correction_we_filter3:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; cosine_correction_we_filter3:actual_wavelength = "615.2 nm" ; cosine_correction_we_filter3:FWHM = "10.9 nm" ; float cosine_correction_we_filter4(bench_angle) ; cosine_correction_we_filter4:long_name = "Cosine correction, west to east, filter4" ; cosine_correction_we_filter4:units = "unitless" ; cosine_correction_we_filter4:missing_value = -9999.f ; cosine_correction_we_filter4:comment = "Read from cosine_correction_source" ; cosine_correction_we_filter4:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; cosine_correction_we_filter4:actual_wavelength = "671.9 nm" ; cosine_correction_we_filter4:FWHM = "10.5 nm" ; float cosine_correction_we_filter5(bench_angle) ; cosine_correction_we_filter5:long_name = "Cosine correction, west to east, filter5" ; cosine_correction_we_filter5:units = "unitless" ; cosine_correction_we_filter5:missing_value = -9999.f ; cosine_correction_we_filter5:comment = "Read from cosine_correction_source" ; cosine_correction_we_filter5:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; cosine_correction_we_filter5:actual_wavelength = "869.2 nm" ; cosine_correction_we_filter5:FWHM = "10.0 nm" ; float cosine_correction_we_filter6(bench_angle) ; cosine_correction_we_filter6:long_name = "Cosine correction, west to east, filter6" ; cosine_correction_we_filter6:units = "unitless" ; cosine_correction_we_filter6:missing_value = -9999.f ; cosine_correction_we_filter6:comment = "Read from cosine_correction_source" ; cosine_correction_we_filter6:information_only = "Cosine corrections are not directly applied to the irradiance calculations." ; cosine_correction_we_filter6:actual_wavelength = "938.0 nm" ; cosine_correction_we_filter6:FWHM = " 5.4 nm" ; float wavelength_filter1(wavelength) ; wavelength_filter1:long_name = "Normalized filter function data, filter 1, wavelength value obtained during bench calibrations" ; wavelength_filter1:units = "nm" ; wavelength_filter1:missing_value = -9999.f ; wavelength_filter1:actual_wavelength = "413.0 nm" ; wavelength_filter1:FWHM = "10.9 nm" ; float normalized_transmittance_filter1(wavelength) ; normalized_transmittance_filter1:long_name = "Normalized filter function data, filter 1, measured transmittance value obtained during bench calibrations" ; normalized_transmittance_filter1:units = "unitless" ; normalized_transmittance_filter1:missing_value = -9999.f ; normalized_transmittance_filter1:actual_wavelength = "413.0 nm" ; normalized_transmittance_filter1:FWHM = "10.9 nm" ; float wavelength_filter2(wavelength) ; wavelength_filter2:long_name = "Normalized filter function data, filter 2, wavelength value obtained during bench calibrations" ; wavelength_filter2:units = "nm" ; wavelength_filter2:missing_value = -9999.f ; wavelength_filter2:actual_wavelength = "501.1 nm" ; wavelength_filter2:FWHM = "10.8 nm" ; float normalized_transmittance_filter2(wavelength) ; normalized_transmittance_filter2:long_name = "Normalized filter function data, filter 2, measured transmittance value obtained during bench calibrations" ; normalized_transmittance_filter2:units = "unitless" ; normalized_transmittance_filter2:missing_value = -9999.f ; normalized_transmittance_filter2:actual_wavelength = "501.1 nm" ; normalized_transmittance_filter2:FWHM = "10.8 nm" ; float wavelength_filter3(wavelength) ; wavelength_filter3:long_name = "Normalized filter function data, filter 3, wavelength value obtained during bench calibrations" ; wavelength_filter3:units = "nm" ; wavelength_filter3:missing_value = -9999.f ; wavelength_filter3:actual_wavelength = "615.2 nm" ; wavelength_filter3:FWHM = "10.9 nm" ; float normalized_transmittance_filter3(wavelength) ; normalized_transmittance_filter3:long_name = "Normalized filter function data, filter 3, measured transmittance value obtained during bench calibrations" ; normalized_transmittance_filter3:units = "unitless" ; normalized_transmittance_filter3:missing_value = -9999.f ; normalized_transmittance_filter3:actual_wavelength = "615.2 nm" ; normalized_transmittance_filter3:FWHM = "10.9 nm" ; float wavelength_filter4(wavelength) ; wavelength_filter4:long_name = "Normalized filter function data, filter 4, wavelength value obtained during bench calibrations" ; wavelength_filter4:units = "nm" ; wavelength_filter4:missing_value = -9999.f ; wavelength_filter4:actual_wavelength = "671.9 nm" ; wavelength_filter4:FWHM = "10.5 nm" ; float normalized_transmittance_filter4(wavelength) ; normalized_transmittance_filter4:long_name = "Normalized filter function data, filter 4, measured transmittance value obtained during bench calibrations" ; normalized_transmittance_filter4:units = "unitless" ; normalized_transmittance_filter4:missing_value = -9999.f ; normalized_transmittance_filter4:actual_wavelength = "671.9 nm" ; normalized_transmittance_filter4:FWHM = "10.5 nm" ; float wavelength_filter5(wavelength) ; wavelength_filter5:long_name = "Normalized filter function data, filter 5, wavelength value obtained during bench calibrations" ; wavelength_filter5:units = "nm" ; wavelength_filter5:missing_value = -9999.f ; wavelength_filter5:actual_wavelength = "869.2 nm" ; wavelength_filter5:FWHM = "10.0 nm" ; float normalized_transmittance_filter5(wavelength) ; normalized_transmittance_filter5:long_name = "Normalized filter function data, filter 5, measured transmittance value obtained during bench calibrations" ; normalized_transmittance_filter5:units = "unitless" ; normalized_transmittance_filter5:missing_value = -9999.f ; normalized_transmittance_filter5:actual_wavelength = "869.2 nm" ; normalized_transmittance_filter5:FWHM = "10.0 nm" ; float wavelength_filter6(wavelength) ; wavelength_filter6:long_name = "Normalized filter function data, filter 6, wavelength value obtained during bench calibrations" ; wavelength_filter6:units = "nm" ; wavelength_filter6:missing_value = -9999.f ; wavelength_filter6:actual_wavelength = "938.0 nm" ; wavelength_filter6:FWHM = " 5.4 nm" ; float normalized_transmittance_filter6(wavelength) ; normalized_transmittance_filter6:long_name = "Normalized filter function data, filter 6, measured transmittance value obtained during bench calibrations" ; normalized_transmittance_filter6:units = "unitless" ; normalized_transmittance_filter6:missing_value = -9999.f ; normalized_transmittance_filter6:actual_wavelength = "938.0 nm" ; normalized_transmittance_filter6:FWHM = " 5.4 nm" ; float offset_broadband(time) ; offset_broadband:long_name = "Offset subtracted from hemispheric broadband data" ; offset_broadband:units = "count" ; offset_broadband:missing_value = -9999.f ; offset_broadband:comment = "Offset value is a rounded average" ; offset_broadband:offset_source = "alltime data used for offset determination" ; float offset_filter1(time) ; offset_filter1:long_name = "Offset subtracted from hemispheric filter1 data" ; offset_filter1:units = "count" ; offset_filter1:missing_value = -9999.f ; offset_filter1:comment = "Offset value is a rounded average" ; offset_filter1:offset_source = "alltime data used for offset determination" ; float offset_filter2(time) ; offset_filter2:long_name = "Offset subtracted from hemispheric filter2 data" ; offset_filter2:units = "count" ; offset_filter2:missing_value = -9999.f ; offset_filter2:comment = "Offset value is a rounded average" ; offset_filter2:offset_source = "alltime data used for offset determination" ; float offset_filter3(time) ; offset_filter3:long_name = "Offset subtracted from hemispheric filter3 data" ; offset_filter3:units = "count" ; offset_filter3:missing_value = -9999.f ; offset_filter3:comment = "Offset value is a rounded average" ; offset_filter3:offset_source = "alltime data used for offset determination" ; float offset_filter4(time) ; offset_filter4:long_name = "Offset subtracted from hemispheric filter4 data" ; offset_filter4:units = "count" ; offset_filter4:missing_value = -9999.f ; offset_filter4:comment = "Offset value is a rounded average" ; offset_filter4:offset_source = "alltime data used for offset determination" ; float offset_filter5(time) ; offset_filter5:long_name = "Offset subtracted from hemispheric filter5 data" ; offset_filter5:units = "count" ; offset_filter5:missing_value = -9999.f ; offset_filter5:comment = "Offset value is a rounded average" ; offset_filter5:offset_source = "alltime data used for offset determination" ; float offset_filter6(time) ; offset_filter6:long_name = "Offset subtracted from hemispheric filter6 data" ; offset_filter6:units = "count" ; offset_filter6:missing_value = -9999.f ; offset_filter6:comment = "Offset value is a rounded average" ; offset_filter6:offset_source = "alltime data used for offset determination" ; float lat ; lat:long_name = "North latitude" ; lat:units = "degree_N" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; lat:standard_name = "latitude" ; float lon ; lon:long_name = "East longitude" ; lon:units = "degree_E" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; lon:standard_name = "longitude" ; float alt ; alt:long_name = "Altitude above mean sea level" ; alt:units = "m" ; alt:standard_name = "altitude" ; // global attributes: :command_line = "mfrcdl_ingest -n mfr10m -s asi -f M1" ; :process_version = "ingest-mfrcdl-11.11-0.el6" ; :dod_version = "mfr10m-b1-2.3" ; :input_source = "/data/collection/asi/asimfr10mM1.00/20171101_000000.dat" ; :site_id = "asi" ; :facility_id = "M1" ; :platform_id = "mfr10m" ; :data_level = "b1" ; :location_description = "Layered Atlantic Smoke Interactions with Clouds (LASIC), Ascension Island" ; :sampling_interval = "20 seconds" ; :averaging_interval = "None" ; :resolution_description = "The resolution field attributes refer to the number of significant digits relative to the decimal point that should be used in calculations. Using fewer digits might result in greater uncertainty. Using a larger number of digits should have no effect and thus is unnecessary. However, analyses based on differences in values with a larger number of significant digits than indicated could lead to erroneous results or misleading scientific conclusions.\n", "\n", "resolution for lat = 0.001\n", "resolution for lon = 0.001\n", "resolution for alt = 1" ; :sensor_height = "10 m AGL" ; :mfr_internal_latitude = "-7.967400" ; :mfr_internal_longitude = "-14.349400" ; :logger_software_version = "1.400000" ; :serial_number = "Refer to logger_id and head_id" ; :head_id = "359915936" ; :logger_id = "73930" ; :cosine_correction_source = "CosineCorr.asimfr10mM1.20161205.dat" ; :diffuse_correction_source = "DiffuseCorr.asimfr10mM1.20161205.dat" ; :filter_trace_source = "FilterInfo.asimfr10mM1.20161205.dat" ; :nominal_calibration_source = "NominalCal.asimfr10mM1.20161205.dat" ; :offset_correction_source = "OffsetInfo.asimfr10mM1.20161205.dat" ; :data_logger = "Campbell Scientific CR1000-XT" ; :qc_bit_comment = "The QC field values are a bit packed representation of true/false values for the tests that may have been performed. A QC value of zero means that none of the tests performed on the value failed." ; :qc_bit_1_description = "Value is equal to missing_value." ; :qc_bit_1_assessment = "Bad" ; :qc_bit_2_description = "Value is less than the valid_min." ; :qc_bit_2_assessment = "Bad" ; :qc_bit_3_description = "Value is greater than the valid_max." ; :qc_bit_3_assessment = "Bad" ; :qc_bit_4_description = "Difference between current and previous values exceeds valid_delta." ; :qc_bit_4_assessment = "Indeterminate" ; :datastream = "asimfr10mM1.b1" ; :history = "created by user dsmgr on machine ruby at 2017-11-01 01:31:01, using ingest-mfrcdl-11.11-0.el6" ; }