netcdf sgptbspopsE9.b1.20211014.175500 {
dimensions:
	time = UNLIMITED ; // (6601 currently)
	num_pops = 1 ;
variables:
	int base_time ;
		base_time:string = "2021-10-14 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 2021-10-14 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 2021-10-14 00:00:00 0:00" ;
		time:calendar = "gregorian" ;
		time:standard_name = "time" ;
	float imet_temperature(time, num_pops) ;
		imet_temperature:long_name = "Temperature from iMet sensor" ;
		imet_temperature:units = "degC" ;
		imet_temperature:missing_value = -9999.f ;
		imet_temperature:valid_min = -95.f ;
		imet_temperature:valid_max = 50.f ;
		imet_temperature:standard_name = "air_temperature" ;
		imet_temperature:ancillary_variables = "qc_imet_temperature" ;
	int qc_imet_temperature(time, num_pops) ;
		qc_imet_temperature:long_name = "Quality check results on field: Temperature from iMet sensor" ;
		qc_imet_temperature:units = "1" ;
		qc_imet_temperature:description = "This field contains bit packed integer values, where each bit represents a QC test on the data. Non-zero bits indicate the QC condition given in the description for those bits; a value of 0 (no bits set) indicates the data has not failed any QC tests." ;
		qc_imet_temperature:flag_method = "bit" ;
		qc_imet_temperature:bit_1_description = "Value is equal to missing_value." ;
		qc_imet_temperature:bit_1_assessment = "Bad" ;
		qc_imet_temperature:bit_2_description = "Value is less than valid_min." ;
		qc_imet_temperature:bit_2_assessment = "Bad" ;
		qc_imet_temperature:bit_3_description = "Value is greater than valid_max." ;
		qc_imet_temperature:bit_3_assessment = "Bad" ;
	float imet_pressure(time, num_pops) ;
		imet_pressure:long_name = "Pressure from iMet sensor" ;
		imet_pressure:units = "hPa" ;
		imet_pressure:missing_value = -9999.f ;
		imet_pressure:valid_min = 10.f ;
		imet_pressure:valid_max = 1200.f ;
		imet_pressure:standard_name = "air_pressure" ;
		imet_pressure:ancillary_variables = "qc_imet_pressure" ;
	int qc_imet_pressure(time, num_pops) ;
		qc_imet_pressure:long_name = "Quality check results on field: Pressure from iMet sensor" ;
		qc_imet_pressure:units = "1" ;
		qc_imet_pressure:description = "This field contains bit packed integer values, where each bit represents a QC test on the data. Non-zero bits indicate the QC condition given in the description for those bits; a value of 0 (no bits set) indicates the data has not failed any QC tests." ;
		qc_imet_pressure:flag_method = "bit" ;
		qc_imet_pressure:bit_1_description = "Value is equal to missing_value." ;
		qc_imet_pressure:bit_1_assessment = "Bad" ;
		qc_imet_pressure:bit_2_description = "Value is less than valid_min." ;
		qc_imet_pressure:bit_2_assessment = "Bad" ;
		qc_imet_pressure:bit_3_description = "Value is greater than valid_max." ;
		qc_imet_pressure:bit_3_assessment = "Bad" ;
	float wind_direction(time, num_pops) ;
		wind_direction:long_name = "Wind direction from iMet sensor" ;
		wind_direction:units = "degree" ;
		wind_direction:missing_value = -9999.f ;
		wind_direction:valid_min = 0.f ;
		wind_direction:valid_max = 360.f ;
		wind_direction:standard_name = "wind_from_direction" ;
		wind_direction:ancillary_variables = "qc_wind_direction" ;
	int qc_wind_direction(time, num_pops) ;
		qc_wind_direction:long_name = "Quality check results on field: Wind direction from iMet sensor" ;
		qc_wind_direction:units = "1" ;
		qc_wind_direction:description = "This field contains bit packed integer values, where each bit represents a QC test on the data. Non-zero bits indicate the QC condition given in the description for those bits; a value of 0 (no bits set) indicates the data has not failed any QC tests." ;
		qc_wind_direction:flag_method = "bit" ;
		qc_wind_direction:bit_1_description = "Value is equal to missing_value." ;
		qc_wind_direction:bit_1_assessment = "Bad" ;
		qc_wind_direction:bit_2_description = "Value is less than valid_min." ;
		qc_wind_direction:bit_2_assessment = "Bad" ;
		qc_wind_direction:bit_3_description = "Value is greater than valid_max." ;
		qc_wind_direction:bit_3_assessment = "Bad" ;
	float wind_speed(time, num_pops) ;
		wind_speed:long_name = "Wind speed from iMet sensor" ;
		wind_speed:units = "m/s" ;
		wind_speed:missing_value = -9999.f ;
		wind_speed:valid_min = 0.f ;
		wind_speed:valid_max = 15.f ;
		wind_speed:standard_name = "wind_speed" ;
		wind_speed:ancillary_variables = "qc_wind_speed" ;
	int qc_wind_speed(time, num_pops) ;
		qc_wind_speed:long_name = "Quality check results on field: Wind speed from iMet sensor" ;
		qc_wind_speed:units = "1" ;
		qc_wind_speed:description = "This field contains bit packed integer values, where each bit represents a QC test on the data. Non-zero bits indicate the QC condition given in the description for those bits; a value of 0 (no bits set) indicates the data has not failed any QC tests." ;
		qc_wind_speed:flag_method = "bit" ;
		qc_wind_speed:bit_1_description = "Value is equal to missing_value." ;
		qc_wind_speed:bit_1_assessment = "Bad" ;
		qc_wind_speed:bit_2_description = "Value is less than valid_min." ;
		qc_wind_speed:bit_2_assessment = "Bad" ;
		qc_wind_speed:bit_3_description = "Value is greater than valid_max." ;
		qc_wind_speed:bit_3_assessment = "Bad" ;
	float relative_humidity(time, num_pops) ;
		relative_humidity:long_name = "Relative humidity from iMet sensor" ;
		relative_humidity:units = "%" ;
		relative_humidity:missing_value = -9999.f ;
		relative_humidity:valid_min = 0.f ;
		relative_humidity:valid_max = 100.f ;
		relative_humidity:standard_name = "relative_humidity" ;
		relative_humidity:ancillary_variables = "qc_relative_humidity" ;
	int qc_relative_humidity(time, num_pops) ;
		qc_relative_humidity:long_name = "Quality check results on field: Relative humidity from iMet sensor" ;
		qc_relative_humidity:units = "1" ;
		qc_relative_humidity:description = "This field contains bit packed integer values, where each bit represents a QC test on the data. Non-zero bits indicate the QC condition given in the description for those bits; a value of 0 (no bits set) indicates the data has not failed any QC tests." ;
		qc_relative_humidity:flag_method = "bit" ;
		qc_relative_humidity:bit_1_description = "Value is equal to missing_value." ;
		qc_relative_humidity:bit_1_assessment = "Bad" ;
		qc_relative_humidity:bit_2_description = "Value is less than valid_min." ;
		qc_relative_humidity:bit_2_assessment = "Bad" ;
		qc_relative_humidity:bit_3_description = "Value is greater than valid_max." ;
		qc_relative_humidity:bit_3_assessment = "Bad" ;
	float gps_pressure(time, num_pops) ;
		gps_pressure:long_name = "GPS pressure from iMet sensor" ;
		gps_pressure:units = "hPa" ;
		gps_pressure:missing_value = -9999.f ;
		gps_pressure:valid_min = 10.f ;
		gps_pressure:valid_max = 1200.f ;
		gps_pressure:standard_name = "air_pressure" ;
		gps_pressure:ancillary_variables = "qc_gps_pressure" ;
	int qc_gps_pressure(time, num_pops) ;
		qc_gps_pressure:long_name = "Quality check results on field: GPS pressure from iMet sensor" ;
		qc_gps_pressure:units = "1" ;
		qc_gps_pressure:description = "This field contains bit packed integer values, where each bit represents a QC test on the data. Non-zero bits indicate the QC condition given in the description for those bits; a value of 0 (no bits set) indicates the data has not failed any QC tests." ;
		qc_gps_pressure:flag_method = "bit" ;
		qc_gps_pressure:bit_1_description = "Value is equal to missing_value." ;
		qc_gps_pressure:bit_1_assessment = "Bad" ;
		qc_gps_pressure:bit_2_description = "Value is less than valid_min." ;
		qc_gps_pressure:bit_2_assessment = "Bad" ;
		qc_gps_pressure:bit_3_description = "Value is greater than valid_max." ;
		qc_gps_pressure:bit_3_assessment = "Bad" ;
	float temperature(time, num_pops) ;
		temperature:long_name = "Temperature from POPS sensor" ;
		temperature:units = "degC" ;
		temperature:missing_value = -9999.f ;
		temperature:standard_name = "air_temperature" ;
	float pressure(time, num_pops) ;
		pressure:long_name = "Pressure from POPS sensor" ;
		pressure:units = "hPa" ;
		pressure:missing_value = -9999.f ;
	float total_concentration(time, num_pops) ;
		total_concentration:long_name = "Total number concentration from POPS including anything less than 135 nm" ;
		total_concentration:units = "1/cm^3" ;
		total_concentration:missing_value = -9999.f ;
		total_concentration:valid_min = 0.f ;
		total_concentration:valid_max = 4000.f ;
		total_concentration:standard_name = "number_concentration_of_ambient_aerosol_in_air" ;
		total_concentration:ancillary_variables = "qc_total_concentration" ;
	int qc_total_concentration(time, num_pops) ;
		qc_total_concentration:long_name = "Quality check results on field: Total number concentration from POPS including anything less than 135 nm" ;
		qc_total_concentration:units = "1" ;
		qc_total_concentration:description = "This field contains bit packed integer values, where each bit represents a QC test on the data. Non-zero bits indicate the QC condition given in the description for those bits; a value of 0 (no bits set) indicates the data has not failed any QC tests." ;
		qc_total_concentration:flag_method = "bit" ;
		qc_total_concentration:bit_1_description = "Value is equal to missing_value." ;
		qc_total_concentration:bit_1_assessment = "Bad" ;
		qc_total_concentration:bit_2_description = "Value is less than valid_min." ;
		qc_total_concentration:bit_2_assessment = "Bad" ;
		qc_total_concentration:bit_3_description = "Value is greater than valid_max." ;
		qc_total_concentration:bit_3_assessment = "Bad" ;
	float dn_135_150(time, num_pops) ;
		dn_135_150:long_name = "Aerosol number concentration between 135 nm to 150 nm" ;
		dn_135_150:units = "1/cm^3" ;
		dn_135_150:missing_value = -9999.f ;
	float dn_150_170(time, num_pops) ;
		dn_150_170:long_name = "Aerosol number concentration between 150 nm to 170 nm" ;
		dn_150_170:units = "1/cm^3" ;
		dn_150_170:missing_value = -9999.f ;
	float dn_170_195(time, num_pops) ;
		dn_170_195:long_name = "Aerosol number concentration between 170 nm to 195 nm" ;
		dn_170_195:units = "1/cm^3" ;
		dn_170_195:missing_value = -9999.f ;
	float dn_195_220(time, num_pops) ;
		dn_195_220:long_name = "Aerosol number concentration between 195 nm to 220 nm" ;
		dn_195_220:units = "1/cm^3" ;
		dn_195_220:missing_value = -9999.f ;
	float dn_220_260(time, num_pops) ;
		dn_220_260:long_name = "Aerosol number concentration between 220 nm to 260 nm" ;
		dn_220_260:units = "1/cm^3" ;
		dn_220_260:missing_value = -9999.f ;
	float dn_260_335(time, num_pops) ;
		dn_260_335:long_name = "Aerosol number concentration between 260 nm to 335 nm" ;
		dn_260_335:units = "1/cm^3" ;
		dn_260_335:missing_value = -9999.f ;
	float dn_335_510(time, num_pops) ;
		dn_335_510:long_name = "Aerosol number concentration between 335 nm to 510 nm" ;
		dn_335_510:units = "1/cm^3" ;
		dn_335_510:missing_value = -9999.f ;
	float dn_510_705(time, num_pops) ;
		dn_510_705:long_name = "Aerosol number concentration between 510 nm to 705 nm" ;
		dn_510_705:units = "1/cm^3" ;
		dn_510_705:missing_value = -9999.f ;
	float dn_705_1380(time, num_pops) ;
		dn_705_1380:long_name = "Aerosol number concentration between 705 nm to 1380 nm" ;
		dn_705_1380:units = "1/cm^3" ;
		dn_705_1380:missing_value = -9999.f ;
	float dn_1380_1760(time, num_pops) ;
		dn_1380_1760:long_name = "Aerosol number concentration between 1380 nm to 1760 nm" ;
		dn_1380_1760:units = "1/cm^3" ;
		dn_1380_1760:missing_value = -9999.f ;
	float dn_1760_2550(time, num_pops) ;
		dn_1760_2550:long_name = "Aerosol number concentration between 1760 nm to 2550 nm" ;
		dn_1760_2550:units = "1/cm^3" ;
		dn_1760_2550:missing_value = -9999.f ;
	float dn_2550_3615(time, num_pops) ;
		dn_2550_3615:long_name = "Aerosol number concentration between 2550 nm to 3615 nm" ;
		dn_2550_3615:units = "1/cm^3" ;
		dn_2550_3615:missing_value = -9999.f ;
	float lat(time, num_pops) ;
		lat:long_name = "North latitude from iMet sensor" ;
		lat:units = "degree_N" ;
		lat:valid_min = -90.f ;
		lat:valid_max = 90.f ;
		lat:standard_name = "latitude" ;
	float lon(time, num_pops) ;
		lon:long_name = "East longitude from iMet sensor" ;
		lon:units = "degree_E" ;
		lon:valid_min = -180.f ;
		lon:valid_max = 180.f ;
		lon:standard_name = "longitude" ;
	float alt(time, num_pops) ;
		alt:long_name = "Altitude above mean sea level from iMet sensor" ;
		alt:units = "m" ;
		alt:standard_name = "altitude" ;

// global attributes:
		:command_line = "tbspops_ingest -s sgp -f E9" ;
		:Conventions = "ARM-1.2" ;
		:process_version = "ingest-tbspops-1.0-0.el7" ;
		:dod_version = "tbspops-b1-1.0" ;
		:input_source = "/data/collection/sgp/sgptbspopsE9.01/sgp.tbs.pops139.20211014.175500.txt" ;
		:site_id = "sgp" ;
		:platform_id = "tbspops" ;
		:facility_id = "E9" ;
		:data_level = "b1" ;
		:location_description = "Southern Great Plains (SGP), Ashton, Kansas" ;
		:datastream = "sgptbspopsE9.b1" ;
		:doi = "10.5439/1504073" ;
		:history = "created by user dsmgr on machine flint at 2021-10-15 14:42:01, using ingest-tbspops-1.0-0.el7" ;
}