netcdf sgpaosso2S01.b1.20160607.000000 {
dimensions:
	time = UNLIMITED ; // (46796 currently)
variables:
	int base_time ;
		base_time:string = "2016-06-07 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 2016-06-07 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 2016-06-07 00:00:00 0:00" ;
		time:calendar = "gregorian" ;
		time:standard_name = "time" ;
	double seconds_after_calibration(time) ;
		seconds_after_calibration:long_name = "Seconds after last calibration" ;
		seconds_after_calibration:units = "seconds" ;
		seconds_after_calibration:comment = "A calibration event is triggered by the valve_position_MFC_1 changing to a value of 0." ;
	float so2(time) ;
		so2:long_name = "Sulfur dioxide (SO2) mixing ratio calculated with nominal sensitivity correction" ;
		so2:units = "ppbv" ;
		so2:ancillary_variables = "qc_so2" ;
		so2:valid_min = -0.5f ;
		so2:valid_max = 1000.f ;
		so2:missing_value = -9999.f ;
	int qc_so2(time) ;
		qc_so2:long_name = "Quality check results on field: Sulfur dioxide (SO2) mixing ratio calculated with nominal sensitivity correction" ;
		qc_so2:units = "unitless" ;
		qc_so2: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_so2:internal_temp_min_warning = 0.f ;
		qc_so2:internal_temp_max_warning = 45.f ;
		qc_so2:reaction_chamber_temp_min_warning = 44.f ;
		qc_so2:reaction_chamber_temp_max_warning = 46.f ;
		qc_so2:pressure_min_warning = 680.f ;
		qc_so2:pressure_max_warning = 720.f ;
		qc_so2:flow_min_warning = 0.4f ;
		qc_so2:flow_max_warning = 0.5f ;
		qc_so2:pmt_volt_min_warning = -1100.f ;
		qc_so2:pmt_volt_max_warning = -600.f ;
		qc_so2:lamp_intensity_min_warning = 20.f ;
		qc_so2:lamp_intensity_max_warning = 100.f ;
		qc_so2:range_max_warning = 2000.f ;
		qc_so2:lamp_volt_max_warning = 1200.f ;
		qc_so2:seconds_after_calibration_alarm = 60.f ;
		qc_so2:flag_method = "bit" ;
		qc_so2:bit_1_description = "Value is equal to missing_value." ;
		qc_so2:bit_1_assessment = "Bad" ;
		qc_so2:bit_2_description = "Value is less than the valid_min." ;
		qc_so2:bit_2_assessment = "Bad" ;
		qc_so2:bit_3_description = "Value is greater than the valid_max." ;
		qc_so2:bit_3_assessment = "Bad" ;
		qc_so2:bit_4_description = "internal_temp < internal_temp_min_warning" ;
		qc_so2:bit_4_assessment = "Indeterminate" ;
		qc_so2:bit_5_description = "internal_temp > internal_temp_max_warning" ;
		qc_so2:bit_5_assessment = "Indeterminate" ;
		qc_so2:bit_6_description = "reaction_chamber_temp < reaction_chamber_temp_min_warning" ;
		qc_so2:bit_6_assessment = "Indeterminate" ;
		qc_so2:bit_7_description = "reaction_chamber_temp > reaction_chamber_temp_max_warning" ;
		qc_so2:bit_7_assessment = "Indeterminate" ;
		qc_so2:bit_8_description = "pressure < pressure_min_warning" ;
		qc_so2:bit_8_assessment = "Indeterminate" ;
		qc_so2:bit_9_description = "pressure > pressure_max_warning" ;
		qc_so2:bit_9_assessment = "Indeterminate" ;
		qc_so2:bit_10_description = "flow< flow_min_warning" ;
		qc_so2:bit_10_assessment = "Indeterminate" ;
		qc_so2:bit_11_description = "flow >flow_max_warning" ;
		qc_so2:bit_11_assessment = "Indeterminate" ;
		qc_so2:bit_12_description = "pmt_volt < pmt_volt_min_warning" ;
		qc_so2:bit_12_assessment = "Indeterminate" ;
		qc_so2:bit_13_description = "pmt_volt > pmt_volt_max_warning" ;
		qc_so2:bit_13_assessment = "Indeterminate" ;
		qc_so2:bit_14_description = "lamp_intensity < lamp_intensity_min_warning" ;
		qc_so2:bit_14_assessment = "Indeterminate" ;
		qc_so2:bit_15_description = "lamp_intensity > lamp_intensity_max_warning" ;
		qc_so2:bit_15_assessment = "Indeterminate" ;
		qc_so2:bit_16_description = "test_led = 1" ;
		qc_so2:bit_16_assessment = "Bad" ;
		qc_so2:bit_17_description = "flash_lamp_state = 0" ;
		qc_so2:bit_17_assessment = "Bad" ;
		qc_so2:bit_18_description = "purge_mode_state = 1" ;
		qc_so2:bit_18_assessment = "Bad" ;
		qc_so2:bit_19_description = "gas_mode_state = 0 OR gas_mode_state = 2" ;
		qc_so2:bit_19_assessment = "Bad" ;
		qc_so2:bit_20_description = "range > range_max_warning" ;
		qc_so2:bit_20_assessment = "Indeterminate" ;
		qc_so2:bit_21_description = "lamp_volt > lamp_volt_max_warning" ;
		qc_so2:bit_21_assessment = "Indeterminate" ;
		qc_so2:bit_22_description = "automated calibration period" ;
		qc_so2:bit_22_assessment = "Bad" ;
		qc_so2:bit_23_description = "valve_position_MFC_1 = 0 or valve_position_MFC_2 = 0, indicates calibration in process" ;
		qc_so2:bit_23_assessment = "Bad" ;
		qc_so2:bit_24_description = "seconds_after_calibration < seconds_after_calibration_alarm" ;
		qc_so2:bit_24_assessment = "Bad" ;
		qc_so2:bit_25_description = "valve_position_MFC_1 or valve_position_MFC_2 has a value of -1" ;
		qc_so2:bit_25_assessment = "Bad" ;
	float internal_temp(time) ;
		internal_temp:long_name = "Internal instrument temperature" ;
		internal_temp:units = "degC" ;
		internal_temp:valid_min = 8.f ;
		internal_temp:valid_max = 47.f ;
		internal_temp:missing_value = -9999.f ;
	float reaction_chamber_temp(time) ;
		reaction_chamber_temp:long_name = "Reaction chamber temperature" ;
		reaction_chamber_temp:units = "degC" ;
		reaction_chamber_temp:valid_min = 35.f ;
		reaction_chamber_temp:valid_max = 55.f ;
		reaction_chamber_temp:missing_value = -9999.f ;
	float pressure(time) ;
		pressure:long_name = "Sample pressure" ;
		pressure:units = "mm Hg" ;
		pressure:valid_min = 400.f ;
		pressure:valid_max = 1000.f ;
		pressure:missing_value = -9999.f ;
	float flow(time) ;
		flow:long_name = "Sample flow" ;
		flow:units = "L/min" ;
		flow:valid_min = 0.f ;
		flow:valid_max = 2.5f ;
		flow:missing_value = -9999.f ;
	float pmt_volt(time) ;
		pmt_volt:long_name = "PMT voltage" ;
		pmt_volt:units = "V" ;
		pmt_volt:valid_min = 700.f ;
		pmt_volt:valid_max = 1100.f ;
		pmt_volt:missing_value = -9999.f ;
	float lamp_volt(time) ;
		lamp_volt:long_name = "Lamp voltage" ;
		lamp_volt:units = "V" ;
		lamp_volt:valid_min = 500.f ;
		lamp_volt:valid_max = 1200.f ;
		lamp_volt:missing_value = -9999.f ;
	float lamp_intensity(time) ;
		lamp_intensity:long_name = "Measure of the current lamp intensity as a percentage of the nominal maximum. This is used as a diagnostic of the lamp aging." ;
		lamp_intensity:units = "%" ;
		lamp_intensity:valid_min = 20.f ;
		lamp_intensity:valid_max = 100.f ;
		lamp_intensity:missing_value = -9999.f ;
	float averaging_time(time) ;
		averaging_time:long_name = "Instrument averaging time" ;
		averaging_time:units = "s" ;
		averaging_time:missing_value = -9999.f ;
	float so2_background_correction(time) ;
		so2_background_correction:long_name = "Instrument SO2 background correction" ;
		so2_background_correction:units = "ppbv" ;
		so2_background_correction:missing_value = -9999.f ;
	float so2_coefficient(time) ;
		so2_coefficient:long_name = "Instrument SO2 coefficient" ;
		so2_coefficient:units = "unitless" ;
		so2_coefficient:missing_value = -9999.f ;
	float automatic_gain_control(time) ;
		automatic_gain_control:long_name = "Instrument automatic gain control" ;
		automatic_gain_control:units = "%" ;
		automatic_gain_control:missing_value = -9999.f ;
	float range(time) ;
		range:long_name = "Instrument range setting" ;
		range:units = "ppbv" ;
		range:valid_min = 0.f ;
		range:valid_max = 50.f ;
		range:missing_value = -9999.f ;
	float lamp_setpoint(time) ;
		lamp_setpoint:long_name = "Instrument lamp setpoint" ;
		lamp_setpoint:units = "count" ;
		lamp_setpoint:missing_value = -9999.f ;
	int pmt_status(time) ;
		pmt_status:long_name = "Instrument PMT status" ;
		pmt_status:units = "unitless" ;
		pmt_status:missing_value = -9999 ;
		pmt_status:flag_values = 0, 1 ;
		pmt_status:flag_meanings = "off on" ;
	int test_led(time) ;
		test_led:long_name = "Instrument test LED state" ;
		test_led:units = "unitless" ;
		test_led:missing_value = -9999 ;
		test_led:flag_values = 0, 1 ;
		test_led:flag_meanings = "off on" ;
	int flash_lamp_state(time) ;
		flash_lamp_state:long_name = "Instrument flash lamp state" ;
		flash_lamp_state:units = "unitless" ;
		flash_lamp_state:missing_value = -9999 ;
		flash_lamp_state:flag_values = 0, 1 ;
		flash_lamp_state:flag_meanings = "off on" ;
	int temperature_compensation_state(time) ;
		temperature_compensation_state:long_name = "Instrument temperature compensation state" ;
		temperature_compensation_state:units = "unitless" ;
		temperature_compensation_state:missing_value = -9999 ;
		temperature_compensation_state:flag_values = 0, 1 ;
		temperature_compensation_state:flag_meanings = "off on" ;
	int pressure_compensation_state(time) ;
		pressure_compensation_state:long_name = "Instrument pressure compensation state" ;
		pressure_compensation_state:units = "unitless" ;
		pressure_compensation_state:missing_value = -9999 ;
		pressure_compensation_state:flag_values = 0, 1 ;
		pressure_compensation_state:flag_meanings = "off on" ;
	int purge_mode_state(time) ;
		purge_mode_state:long_name = "Instrument purge mode state" ;
		purge_mode_state:units = "unitless" ;
		purge_mode_state:missing_value = -9999 ;
		purge_mode_state:flag_values = 0, 1 ;
		purge_mode_state:flag_meanings = "off on" ;
	int gas_mode_state(time) ;
		gas_mode_state:long_name = "Instrument sample state" ;
		gas_mode_state:units = "unitless" ;
		gas_mode_state:missing_value = -9999 ;
		gas_mode_state:flag_values = 0, 1, 2 ;
		gas_mode_state:flag_meanings = "zero sample span" ;
	int so2_flags(time) ;
		so2_flags:long_name = "SO2 flag string as an integer value" ;
		so2_flags:units = "unitless" ;
		so2_flags:missing_value = -9999 ;
	float set_point_for_MFC_1(time) ;
		set_point_for_MFC_1:long_name = "Set point for mass flow controller 1" ;
		set_point_for_MFC_1:units = "cm^3/min" ;
		set_point_for_MFC_1:flow_type = "mass flow" ;
		set_point_for_MFC_1:reference = "volume of mass flow corresponding to 0 degC, 1013.25 hPa" ;
		set_point_for_MFC_1:missing_value = -9999.f ;
		set_point_for_MFC_1:comment = "This MFC is used along with MFC_2 to control airflow to the first series of Nafion columns to precondition the sample stream." ;
	float mass_flow_through_MFC_1(time) ;
		mass_flow_through_MFC_1:long_name = "Actual mass flow through mass flow controller 1" ;
		mass_flow_through_MFC_1:units = "cm^3/min" ;
		mass_flow_through_MFC_1:flow_type = "mass flow" ;
		mass_flow_through_MFC_1:reference = "volume of mass flow corresponding to 0 degC, 1013.25 hPa" ;
		mass_flow_through_MFC_1:missing_value = -9999.f ;
	int valve_position_MFC_1(time) ;
		valve_position_MFC_1:long_name = "Valve position for mass flow controller 1" ;
		valve_position_MFC_1:units = "unitless" ;
		valve_position_MFC_1:missing_value = -9999 ;
		valve_position_MFC_1:flag_values = 0, 1, -1 ;
		valve_position_MFC_1:flag_meanings = "open closed error" ;
	float set_point_for_MFC_2(time) ;
		set_point_for_MFC_2:long_name = "Set point for mass flow controller 2" ;
		set_point_for_MFC_2:units = "cm^3/min" ;
		set_point_for_MFC_2:flow_type = "mass flow" ;
		set_point_for_MFC_2:reference = "volume of mass flow corresponding to 0 degC, 1013.25 hPa" ;
		set_point_for_MFC_2:missing_value = -9999.f ;
	float mass_flow_through_MFC_2(time) ;
		mass_flow_through_MFC_2:long_name = "Actual mass flow through mass flow controller 2" ;
		mass_flow_through_MFC_2:units = "cm^3/min" ;
		mass_flow_through_MFC_2:flow_type = "mass flow" ;
		mass_flow_through_MFC_2:reference = "volume of mass flow corresponding to 0 degC, 1013.25 hPa" ;
		mass_flow_through_MFC_2:missing_value = -9999.f ;
	int valve_position_MFC_2(time) ;
		valve_position_MFC_2:long_name = "Valve position mass flow controller 2" ;
		valve_position_MFC_2:units = "unitless" ;
		valve_position_MFC_2:missing_value = -9999 ;
		valve_position_MFC_2:flag_values = 0, 1, -1 ;
		valve_position_MFC_2:flag_meanings = "open closed error" ;
	float lat ;
		lat:long_name = "North latitude" ;
		lat:units = "degree_N" ;
		lat:valid_min = -90.f ;
		lat:valid_max = 90.f ;
	float lon ;
		lon:long_name = "East longitude" ;
		lon:units = "degree_E" ;
		lon:valid_min = -180.f ;
		lon:valid_max = 180.f ;
	float alt ;
		alt:long_name = "Altitude above mean sea level" ;
		alt:units = "m" ;

// global attributes:
		:command_line = "aosso2corr -s sgp -f S01 -D" ;
		:Conventions = "ARM-1.1" ;
		:process_version = "ingest-aosso2corr-1.0-0.el6" ;
		:dod_version = "aosso2-b1-2.2" ;
		:site_id = "sgp" ;
		:platform_id = "aosso2" ;
		:facility_id = "S01" ;
		:data_level = "b1" ;
		:location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ;
		:input_datastreams = "sgpaosso2S01.a1 : 14.17 : 20160607.000000" ;
		:sampling_interval = "1 second" ;
		:datastream = "sgpaosso2S01.b1" ;
		:doi = "10.5439/1250820" ;
		:history = "created by user dsmgr on machine ruby at 2016-10-26 20:36:16, using ingest-aosso2corr-1.0-0.el6" ;
}