netcdf coraafcasF1.a1.20181210.113927 {
dimensions:
	time = UNLIMITED ; // (8287 currently)
	bound = 2 ;
	particle_diameter = 30 ;
variables:
	int base_time ;
		base_time:string = "2018-12-10 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 2018-12-10 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 2018-12-10 00:00:00 0:00" ;
		time:bounds = "time_bounds" ;
		time:calendar = "gregorian" ;
		time:standard_name = "time" ;
	double time_bounds(time, bound) ;
		time_bounds:long_name = "Time cell bounds" ;
		time_bounds:bound_offsets = 0., 60. ;
	float particle_diameter(particle_diameter) ;
		particle_diameter:long_name = "Coordinate variable for particle_diameter" ;
		particle_diameter:units = "um" ;
		particle_diameter:bounds = "particle_diameter_bounds" ;
	float particle_diameter_bounds(particle_diameter, bound) ;
		particle_diameter_bounds:long_name = "Particle_diameter cell bounds" ;
	float p_pitot(time) ;
		p_pitot:long_name = "Pitot pressure" ;
		p_pitot:units = "hPa" ;
		p_pitot:equation = "mBar = 70.786 * 5(p_pitot/4095)" ;
	float p_static(time) ;
		p_static:long_name = "Static pressure" ;
		p_static:units = "hPa" ;
		p_static:equation = "mBar = 206.88 * 5(p_static/4095)" ;
	float laser_current(time) ;
		laser_current:long_name = "Laser current" ;
		laser_current:units = "mA" ;
	float laser_pd(time) ;
		laser_pd:long_name = "Laser photodiode" ;
		laser_pd:units = "V" ;
	float forward_block_temperature(time) ;
		forward_block_temperature:long_name = "Forward block temperature" ;
		forward_block_temperature:units = "degC" ;
	float back_block_temperature(time) ;
		back_block_temperature:long_name = "Back block temperature" ;
		back_block_temperature:units = "degC" ;
	float sizer_tec_temperature(time) ;
		sizer_tec_temperature:long_name = "Sizer thermoelectric cooler temperature" ;
		sizer_tec_temperature:units = "degC" ;
	float qualifier_tec_temperature(time) ;
		qualifier_tec_temperature:long_name = "Qualifier thermoelectric cooler temperature" ;
		qualifier_tec_temperature:units = "degC" ;
	float s_dpol_tec_temperature(time) ;
		s_dpol_tec_temperature:long_name = "S dual polarization thermoelectric cooler temperature" ;
		s_dpol_tec_temperature:units = "degC" ;
	float p_back_tec_temperature(time) ;
		p_back_tec_temperature:long_name = "P back detector thermoelectric cooler temperature" ;
		p_back_tec_temperature:units = "degC" ;
	float sizer_apd_voltage(time) ;
		sizer_apd_voltage:long_name = "Sizer avalanche photodiode voltage" ;
		sizer_apd_voltage:units = "V" ;
	float qualifer_apd_voltage(time) ;
		qualifer_apd_voltage:long_name = "Qualifier avalanche photodiode voltage" ;
		qualifer_apd_voltage:units = "V" ;
	float s_apd_voltage(time) ;
		s_apd_voltage:long_name = "S avalanche photodiode voltage" ;
		s_apd_voltage:units = "V" ;
	float p_apd_voltage(time) ;
		p_apd_voltage:long_name = "P avalanche photodiode voltage" ;
		p_apd_voltage:units = "V" ;
	float valid_counts(time) ;
		valid_counts:long_name = "Valid counts" ;
		valid_counts:units = "count" ;
	float total_conc(time) ;
		total_conc:long_name = "Total concentration" ;
		total_conc:units = "count/cm^3" ;
	float num_pbp_packets(time) ;
		num_pbp_packets:long_name = "Number of particle by particle packets" ;
		num_pbp_packets:units = "count" ;
	float sizer_hi_baseline(time) ;
		sizer_hi_baseline:long_name = "High baseline of light scattered from particles" ;
		sizer_hi_baseline:units = "count" ;
		sizer_hi_baseline:comment = "This value is reported in A/D converter counts" ;
	float sizer_hi_bandwidth(time) ;
		sizer_hi_bandwidth:long_name = "High bandwidth of light scattered from particles" ;
		sizer_hi_bandwidth:units = "count" ;
		sizer_hi_bandwidth:comment = "This value is reported in A/D converter counts" ;
	float sizer_low_baseline(time) ;
		sizer_low_baseline:long_name = "Low baseline of light scattered from particles" ;
		sizer_low_baseline:units = "count" ;
		sizer_low_baseline:comment = "This value is reported in A/D converter counts" ;
	float sizer_low_bandwidth(time) ;
		sizer_low_bandwidth:long_name = "Low bandwidth of light scattered from particles" ;
		sizer_low_bandwidth:units = "count" ;
		sizer_low_bandwidth:comment = "This value is reported in A/D converter counts" ;
	float qual_hi_baseline(time) ;
		qual_hi_baseline:long_name = "High baseline of qualified particles within the depth-of-field of the instrument" ;
		qual_hi_baseline:units = "count" ;
		qual_hi_baseline:comment = "This value is reported in A/D converter counts" ;
	float qual_hi_bandwidth(time) ;
		qual_hi_bandwidth:long_name = "High bandwidth of qualified particles within the depth-of-field of the instrument" ;
		qual_hi_bandwidth:units = "count" ;
		qual_hi_bandwidth:comment = "This value is reported in A/D converter counts" ;
	float qual_low_baseline(time) ;
		qual_low_baseline:long_name = "Low baseline of qualified particles within the depth-of-field of the instrument" ;
		qual_low_baseline:units = "count" ;
		qual_low_baseline:comment = "This value is reported in A/D converter counts" ;
	float qual_low_bandwidth(time) ;
		qual_low_bandwidth:long_name = "Low bandwidth of qualified particles within the depth-of-field of the instrument" ;
		qual_low_bandwidth:units = "count" ;
		qual_low_bandwidth:comment = "This value is reported in A/D converter counts" ;
	float s_hi_baseline(time) ;
		s_hi_baseline:long_name = "High baseline of intensity of light back scattered parallel to laser beam" ;
		s_hi_baseline:units = "count" ;
		s_hi_baseline:comment = "This value is reported in A/D converter counts" ;
	float s_hi_bandwidth(time) ;
		s_hi_bandwidth:long_name = "High bandwidth of intensity of light back scattered parallel to laser beam" ;
		s_hi_bandwidth:units = "count" ;
		s_hi_bandwidth:comment = "This value is reported in A/D converter counts" ;
	float s_low_baseline(time) ;
		s_low_baseline:long_name = "Low baseline of intensity of light back scattered parallel to laser beam" ;
		s_low_baseline:units = "count" ;
		s_low_baseline:comment = "This value is reported in A/D converter counts" ;
	float s_low_bandwidth(time) ;
		s_low_bandwidth:long_name = "Low bandwidth of intensity of light back scattered parallel to laser beam" ;
		s_low_bandwidth:units = "count" ;
		s_low_bandwidth:comment = "This value is reported in A/D converter counts" ;
	float p_hi_baseline(time) ;
		p_hi_baseline:long_name = "High baseline of intensity of light back scattered perpendicular to laser beam" ;
		p_hi_baseline:units = "count" ;
		p_hi_baseline:comment = "This value is reported in A/D converter counts" ;
	float p_hi_bandwidth(time) ;
		p_hi_bandwidth:long_name = "High bandwidth of intensity of light back scattered perpendicular to laser beam" ;
		p_hi_bandwidth:units = "count" ;
		p_hi_bandwidth:comment = "This value is reported in A/D converter counts" ;
	float p_low_baseline(time) ;
		p_low_baseline:long_name = "Low bandwidth of intensity of light back scattered perpendicular to laser beam" ;
		p_low_baseline:units = "count" ;
		p_low_baseline:comment = "This value is reported in A/D converter counts" ;
	float p_low_bandwidth(time) ;
		p_low_bandwidth:long_name = "Low baseline of intensity of light back scattered perpendicular to laser beam" ;
		p_low_bandwidth:units = "count" ;
		p_low_bandwidth:comment = "This value is reported in A/D converter counts" ;
	float sizer_oversize(time) ;
		sizer_oversize:long_name = "Number of oversized particles from the sizer" ;
		sizer_oversize:units = "count" ;
		sizer_oversize:comment = "This value is reported in A/D converter counts" ;
	float qual_oversize(time) ;
		qual_oversize:long_name = "Number of oversized particles from the qualifier" ;
		qual_oversize:units = "count" ;
		qual_oversize:comment = "This value is reported in A/D converter counts" ;
	float s_oversize(time) ;
		s_oversize:long_name = "Number of oversized particles based on intensity of light back scattered parallel to laser beam" ;
		s_oversize:units = "count" ;
		s_oversize:comment = "This value is reported in A/D converter counts" ;
	float p_oversize(time) ;
		p_oversize:long_name = "Number of oversized particles based on intensity of light back scattered perpendicular to laser beam" ;
		p_oversize:units = "count" ;
		p_oversize:comment = "This value is reported in A/D converter counts" ;
	float total_particle(time) ;
		total_particle:long_name = "Total particles" ;
		total_particle:units = "count" ;
	float total_transit_time1(time) ;
		total_transit_time1:long_name = "Total transit time1" ;
		total_transit_time1:units = "ms" ;
	float total_transit_time2(time) ;
		total_transit_time2:long_name = "Total transit time2" ;
		total_transit_time2:units = "ms" ;
	float counts(time, particle_diameter) ;
		counts:long_name = "Particle counts" ;
		counts:units = "count" ;
	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 = "aafcas_ingest -s cor -f F1 -DR" ;
		:Conventions = "ARM-1.2" ;
		:process_version = "ingest-aafcas-1.2-0.el7" ;
		:dod_version = "aafcas-a1-2.0" ;
		:input_source = "/data/collection/cor/coraafcasF1.00/20181210g01.D.casdpol.txt" ;
		:site_id = "cor" ;
		:platform_id = "aafcas" ;
		:facility_id = "F1" ;
		:data_level = "a1" ;
		:location_description = "Cloud, Aerosol, and Complex Terrain Interactions (CACTI), Gulfstream 159 (\"G1\") Aircraft" ;
		:datastream = "coraafcasF1.a1" ;
		:doi = "10.5439/1421868" ;
		:history = "created by user dsmgr on machine flint at 2020-03-27 17:18:33, using ingest-aafcas-1.2-0.el7" ;
}