netcdf sgpaospsap3wS01.b1.20160606.000000 {
dimensions:
	time = UNLIMITED ; // (53194 currently)
variables:
	int base_time ;
		base_time:string = "2016-06-06 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 2016-06-06 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 2016-06-06 00:00:00 0:00" ;
	float tr_blue(time) ;
		tr_blue:long_name = "PSAP3W front panel transmittance relative to new filter, blue channel" ;
		tr_blue:units = "unitless" ;
		tr_blue:missing_value = -9999.f ;
		tr_blue:comment = "The PSAP front-panel transmittances are normalized to 1 when the filter is changed but are of insufficient digital precision for computing absorbances and backscatter coefficients.  Use the full-precision computed transmittances instead." ;
		tr_blue:measured_wavelength = "470 nm" ;
	float tr_green(time) ;
		tr_green:long_name = "PSAP3W front panel transmittance relative to new filter, green channel" ;
		tr_green:units = "unitless" ;
		tr_green:missing_value = -9999.f ;
		tr_green:comment = "The PSAP front-panel transmittances are normalized to 1 when the filter is changed but are of insufficient digital precision for computing absorbances and backscatter coefficients.  Use the full-precision computed transmittances instead." ;
		tr_green:measured_wavelength = "522 nm" ;
	float tr_red(time) ;
		tr_red:long_name = "PSAP3W front panel transmittance relative to new filter, red channel" ;
		tr_red:units = "unitless" ;
		tr_red:missing_value = -9999.f ;
		tr_red:comment = "The PSAP front-panel transmittances are normalized to 1 when the filter is changed but are of insufficient digital precision for computing absorbances and backscatter coefficients.  Use the full-precision computed transmittances instead." ;
		tr_red:measured_wavelength = "660 nm" ;
	float transmittance_blue_raw(time) ;
		transmittance_blue_raw:long_name = "Transmittance, blue channel, not normalized" ;
		transmittance_blue_raw:units = "unitless" ;
		transmittance_blue_raw:missing_value = -9999.f ;
		transmittance_blue_raw:equation = "(blue_signal_sum - dark_signal_sum)/(blue_reference_sum - dark_reference_sum)" ;
		transmittance_blue_raw:comment = "Not yet set equal to unity for a new filter but is of sufficient precision for computing absorbances." ;
		transmittance_blue_raw:measured_wavelength = "470 nm" ;
	float transmittance_green_raw(time) ;
		transmittance_green_raw:long_name = "Transmittance, green channel, not normalized" ;
		transmittance_green_raw:units = "unitless" ;
		transmittance_green_raw:missing_value = -9999.f ;
		transmittance_green_raw:equation = "(green_signal_sum - dark_signal_sum)/(green_reference_sum - dark_reference_sum)" ;
		transmittance_green_raw:comment = "Not yet set equal to unity for a new filter but is of sufficient precision for computing absorbances." ;
		transmittance_green_raw:measured_wavelength = "470 nm" ;
	float transmittance_red_raw(time) ;
		transmittance_red_raw:long_name = "Transmittance, red channel, not normalized" ;
		transmittance_red_raw:units = "unitless" ;
		transmittance_red_raw:missing_value = -9999.f ;
		transmittance_red_raw:equation = "(red_signal_sum - dark_signal_sum)/(red_reference_sum - dark_reference_sum)" ;
		transmittance_red_raw:comment = "Not yet set equal to unity for a new filter but is of sufficient precision for computing absorbances." ;
		transmittance_red_raw:measured_wavelength = "470 nm" ;
	int filter_unstable(time) ;
		filter_unstable:long_name = "Filter state" ;
		filter_unstable:units = "unitless" ;
		filter_unstable:flag_values = 0, 1 ;
		filter_unstable:flag_meanings = "filter_stable filter_unstable" ;
		filter_unstable:flag_0_description = "Filter stable" ;
		filter_unstable:flag_1_description = "Filter unstable, probable filter change" ;
	float transmittance_blue(time) ;
		transmittance_blue:long_name = "Transmittance, blue channel" ;
		transmittance_blue:units = "unitless" ;
		transmittance_blue:valid_min = 0.65f ;
		transmittance_blue:valid_max = 1.f ;
		transmittance_blue:missing_value = -9999.f ;
		transmittance_blue:equation = "(blue_signal_sum - dark_signal_sum)/(blue_reference_sum - dark_reference_sum)" ;
		transmittance_blue:measured_wavelength = "470 nm" ;
		transmittance_blue:comment = "Computed from raw counts at full precision, normalized to unity for a new filter" ;
		transmittance_blue:ancillary_variables = "qc_transmittance_blue" ;
	int qc_transmittance_blue(time) ;
		qc_transmittance_blue:long_name = "Quality check results on field: Transmittance, blue channel" ;
		qc_transmittance_blue:units = "unitless" ;
		qc_transmittance_blue: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_transmittance_blue:tr_blue_min_alarm = 0.7f ;
		qc_transmittance_blue:tr_mismatch_alarm = 0.01f ;
		qc_transmittance_blue:transmittance_min_warning = 0.7f ;
		qc_transmittance_blue:transmittance_max_warning = 1.f ;
		qc_transmittance_blue:flag_method = "bit" ;
		qc_transmittance_blue:bit_1_description = "Value is equal to missing_value" ;
		qc_transmittance_blue:bit_1_assessment = "Bad" ;
		qc_transmittance_blue:bit_2_description = "Value is less than the valid_min" ;
		qc_transmittance_blue:bit_2_assessment = "Bad" ;
		qc_transmittance_blue:bit_3_description = "Value is greater than the valid_max" ;
		qc_transmittance_blue:bit_3_assessment = "Bad" ;
		qc_transmittance_blue:bit_4_description = "tr_blue < tr_blue_min_alarm" ;
		qc_transmittance_blue:bit_4_assessment = "Indeterminate" ;
		qc_transmittance_blue:bit_5_description = "abs(tr_blue - transmittance_blue) > tr_mismatch_alarm" ;
		qc_transmittance_blue:bit_5_assessment = "Indeterminate" ;
		qc_transmittance_blue:bit_6_description = "transmittance_blue value < transmittance_min_warning or transmittance_blue value > transmittance_max_warning" ;
		qc_transmittance_blue:bit_6_assessment = "Indeterminate" ;
	float transmittance_green(time) ;
		transmittance_green:long_name = "Transmittance, green channel" ;
		transmittance_green:units = "unitless" ;
		transmittance_green:valid_min = 0.65f ;
		transmittance_green:valid_max = 1.f ;
		transmittance_green:missing_value = -9999.f ;
		transmittance_green:equation = "(green_signal_sum - dark_signal_sum)/(green_reference_sum - dark_reference_sum)" ;
		transmittance_green:measured_wavelength = "522 nm" ;
		transmittance_green:comment = "Computed from raw counts at full precision, normalized to unity for a new filter" ;
		transmittance_green:ancillary_variables = "qc_transmittance_green" ;
	int qc_transmittance_green(time) ;
		qc_transmittance_green:long_name = "Quality check results on field: Transmittance, green channel" ;
		qc_transmittance_green:units = "unitless" ;
		qc_transmittance_green: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_transmittance_green:tr_blue_min_alarm = 0.7f ;
		qc_transmittance_green:tr_mismatch_alarm = 0.01f ;
		qc_transmittance_green:transmittance_min_warning = 0.7f ;
		qc_transmittance_green:transmittance_max_warning = 1.f ;
		qc_transmittance_green:flag_method = "bit" ;
		qc_transmittance_green:bit_1_description = "Value is equal to missing_value" ;
		qc_transmittance_green:bit_1_assessment = "Bad" ;
		qc_transmittance_green:bit_2_description = "Value is less than the valid_min" ;
		qc_transmittance_green:bit_2_assessment = "Bad" ;
		qc_transmittance_green:bit_3_description = "Value is greater than the valid_max" ;
		qc_transmittance_green:bit_3_assessment = "Bad" ;
		qc_transmittance_green:bit_4_description = "tr_blue < tr_blue_min_alarm" ;
		qc_transmittance_green:bit_4_assessment = "Indeterminate" ;
		qc_transmittance_green:bit_5_description = "abs(tr_green - transmittance_green) > tr_mismatch_alarm" ;
		qc_transmittance_green:bit_5_assessment = "Indeterminate" ;
		qc_transmittance_green:bit_6_description = "transmittance_green value < transmittance_min_warning or transmittance_green value > transmittance_max_warning" ;
		qc_transmittance_green:bit_6_assessment = "Indeterminate" ;
	float transmittance_red(time) ;
		transmittance_red:long_name = "Transmittance, red channel" ;
		transmittance_red:units = "unitless" ;
		transmittance_red:valid_min = 0.65f ;
		transmittance_red:valid_max = 1.f ;
		transmittance_red:missing_value = -9999.f ;
		transmittance_red:equation = "(red_signal_sum - dark_signal_sum)/(red_reference_sum - dark_reference_sum)" ;
		transmittance_red:measured_wavelength = "660 nm" ;
		transmittance_red:comment = "Computed from raw counts at full precision, normalized to unity for a new filter" ;
		transmittance_red:ancillary_variables = "qc_transmittance_red" ;
	int qc_transmittance_red(time) ;
		qc_transmittance_red:long_name = "Quality check results on field: Transmittance, red channel" ;
		qc_transmittance_red:units = "unitless" ;
		qc_transmittance_red: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_transmittance_red:tr_blue_min_alarm = 0.7f ;
		qc_transmittance_red:tr_mismatch_alarm = 0.01f ;
		qc_transmittance_red:transmittance_min_warning = 0.7f ;
		qc_transmittance_red:transmittance_max_warning = 1.f ;
		qc_transmittance_red:flag_method = "bit" ;
		qc_transmittance_red:bit_1_description = "Value is equal to missing_value" ;
		qc_transmittance_red:bit_1_assessment = "Bad" ;
		qc_transmittance_red:bit_2_description = "Value is less than the valid_min" ;
		qc_transmittance_red:bit_2_assessment = "Bad" ;
		qc_transmittance_red:bit_3_description = "Value is greater than the valid_max" ;
		qc_transmittance_red:bit_3_assessment = "Bad" ;
		qc_transmittance_red:bit_4_description = "tr_blue < tr_blue_min_alarm" ;
		qc_transmittance_red:bit_4_assessment = "Indeterminate" ;
		qc_transmittance_red:bit_5_description = "abs(tr_red - transmittance_red) > tr_mismatch_alarm" ;
		qc_transmittance_red:bit_5_assessment = "Indeterminate" ;
		qc_transmittance_red:bit_6_description = "transmittance_red value < transmittance_min_warning or transmittance_red value > transmittance_max_warning" ;
		qc_transmittance_red:bit_6_assessment = "Indeterminate" ;
	float absorbance_blue(time) ;
		absorbance_blue:long_name = "Light absorbance, blue channel" ;
		absorbance_blue:units = "unitless" ;
		absorbance_blue:missing_value = -9999.f ;
		absorbance_blue:measured_wavelength = "470 nm" ;
		absorbance_blue:equation = "ln(transmittance_blue[t]/transmittance_blue[t-1])" ;
	float absorbance_green(time) ;
		absorbance_green:long_name = "Light absorbance, green channel" ;
		absorbance_green:units = "unitless" ;
		absorbance_green:missing_value = -9999.f ;
		absorbance_green:measured_wavelength = "522 nm" ;
		absorbance_green:equation = "ln(transmittance_green[t]/transmittance_green[t-1])" ;
	float absorbance_red(time) ;
		absorbance_red:long_name = "Light absorbance, red channel" ;
		absorbance_red:units = "unitless" ;
		absorbance_red:missing_value = -9999.f ;
		absorbance_red:measured_wavelength = "660 nm" ;
		absorbance_red:equation = "ln(transmittance_red[t]/transmittance_red[t-1])" ;
	float sample_flow_rate(time) ;
		sample_flow_rate:long_name = "AOS PSAP3W mass flow" ;
		sample_flow_rate:units = "liter/min" ;
		sample_flow_rate:flow_type = "mass flow" ;
		sample_flow_rate:reference_conditions = "volume of mass flow corresponding to 0 deg C, 1013.25 Pa" ;
		sample_flow_rate:valid_min = 0.75f ;
		sample_flow_rate:valid_max = 1.25f ;
		sample_flow_rate:missing_value = -9999.f ;
		sample_flow_rate:K0 = 1016.5f ;
		sample_flow_rate:K1 = 754.3f ;
		sample_flow_rate:K2 = 30.5f ;
		sample_flow_rate:equation = "(-K1 + (K1^2 - 4*(K0-flow)*K2)^0.5)/(2*K2)" ;
		sample_flow_rate:ancillary_variables = "qc_sample_flow_rate" ;
	int qc_sample_flow_rate(time) ;
		qc_sample_flow_rate:long_name = "Quality check results on field: AOS PSAP3W mass flow" ;
		qc_sample_flow_rate:units = "unitless" ;
		qc_sample_flow_rate: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_sample_flow_rate:flag_method = "bit" ;
		qc_sample_flow_rate:bit_1_description = "Value is equal to missing_value" ;
		qc_sample_flow_rate:bit_1_assessment = "Bad" ;
		qc_sample_flow_rate:bit_2_description = "Value is less than the valid_min" ;
		qc_sample_flow_rate:bit_2_assessment = "Bad" ;
		qc_sample_flow_rate:bit_3_description = "Value is greater than the valid_max" ;
		qc_sample_flow_rate:bit_3_assessment = "Bad" ;
	int dilution_flow_valve_position(time) ;
		dilution_flow_valve_position:long_name = "Diffusion flow valve position" ;
		dilution_flow_valve_position:units = "unitless" ;
		dilution_flow_valve_position:flag_values = 0, 1 ;
		dilution_flow_valve_position:flag_meanings = "open closed" ;
	float dilution_flow_setpoint(time) ;
		dilution_flow_setpoint:long_name = "Dilution flow setpoint" ;
		dilution_flow_setpoint:units = "cm^3/min" ;
		dilution_flow_setpoint:flow_type = "mass flow" ;
		dilution_flow_setpoint:reference_conditions = "volume of mass flow corresponding to 0 deg C, 1013.25 Pa" ;
	float dilution_flow(time) ;
		dilution_flow:long_name = "Calibrated dilution flow" ;
		dilution_flow:units = "cm^3/min" ;
		dilution_flow:flow_type = "mass flow" ;
		dilution_flow:reference_conditions = "volume of mass flow corresponding to 0 deg C, 1013.25 Pa" ;
		dilution_flow:y_intercept = -9999.f ;
		dilution_flow:slope = -9999.f ;
		dilution_flow:equation = "y_intercept + slope * dilution_flow" ;
		dilution_flow:nominal_value = -9999.f ;
	float dilution_correction_factor(time) ;
		dilution_correction_factor:long_name = "Dilution correction factor" ;
		dilution_correction_factor:units = "unitless" ;
		dilution_correction_factor:missing_value = -9999.f ;
		dilution_correction_factor:computation_details = "computed as (sample_flow_rate)/(sample_flow_rate- dilution_flow) when dilution valve is open,  dilution set point is > 100 sccm, and dilution flow > 100.  Else taken to be unity." ;
	float spot_size_area ;
		spot_size_area:long_name = "Spot size area" ;
		spot_size_area:units = "mm^2" ;
	double seconds_after_transition(time) ;
		seconds_after_transition:long_name = "Seconds since last impactor transition" ;
		seconds_after_transition:units = "seconds" ;
	int impactor_state(time) ;
		impactor_state:long_name = "Impactor state in terms of aerodynamic diameter cut off" ;
		impactor_state:units = "unitless" ;
		impactor_state:valid_min = 0 ;
		impactor_state:valid_max = 11 ;
		impactor_state:missing_value = -9999 ;
		impactor_state:flag_values = 0, 1, 10 ;
		impactor_state:flag_meanings = "transition_between_particle_size 1um 10um" ;
		impactor_state:source = "sgpimpactorS01.b1:impactor_state" ;
		impactor_state:switching_mode = "on" ;
		impactor_state:default_state = "10" ;
		impactor_state:ancillary_variables = "qc_impactor_state" ;
	int qc_impactor_state(time) ;
		qc_impactor_state:long_name = "Quality check results on field: Impactor state in terms of aerodynamic diameter cut off" ;
		qc_impactor_state:units = "unitless" ;
		qc_impactor_state: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_impactor_state:seconds_after_1um_warning = 144.f ;
		qc_impactor_state:seconds_after_1um_alarm = 126.f ;
		qc_impactor_state:seconds_after_10um_warning = 126.f ;
		qc_impactor_state:seconds_after_10um_alarm = 108.f ;
		qc_impactor_state:flag_method = "bit" ;
		qc_impactor_state:bit_1_description = "Impactor data is missing from impactor_state:source" ;
		qc_impactor_state:bit_1_assessment = "Bad" ;
		qc_impactor_state:bit_2_description = "qc_impactor_state from impactor datastream is bad" ;
		qc_impactor_state:bit_2_assessment = "Bad" ;
		qc_impactor_state:bit_3_description = "qc_impactor_state from impactor datastream is indeterminate" ;
		qc_impactor_state:bit_3_assessment = "Indeterminate" ;
		qc_impactor_state:bit_4_description = "(seconds_after_transition < seconds_after_1um_warning) and (impactor_state==1)" ;
		qc_impactor_state:bit_4_assessment = "Indeterminate" ;
		qc_impactor_state:bit_5_description = "(seconds_after_transition < seconds_after_1um_alarm) and (impactor_state==1)" ;
		qc_impactor_state:bit_5_assessment = "Bad" ;
		qc_impactor_state:bit_6_description = "(seconds_after_transition < seconds_after_10um_warning) and (impactor_state==10)" ;
		qc_impactor_state:bit_6_assessment = "Indeterminate" ;
		qc_impactor_state:bit_7_description = "(seconds_after_transition < seconds_after_10um_alarm) and (impactor_state==10)" ;
		qc_impactor_state:bit_7_assessment = "Bad" ;
		qc_impactor_state:operational_qc_bits = 1, 2, 3, 4, 5, 6, 7 ;
		qc_impactor_state:operational_qc_explanation = "These tests will frequently be flagged during normal operation and should be ignored by DQO metrics" ;
	float transmittance_blue_normalization_factor(time) ;
		transmittance_blue_normalization_factor:long_name = "Normalization factor for blue transmittance, resets with each filter change" ;
		transmittance_blue_normalization_factor:units = "unitless" ;
		transmittance_blue_normalization_factor:missing_value = -9999.f ;
	float transmittance_green_normalization_factor(time) ;
		transmittance_green_normalization_factor:long_name = "Normalization factor for green transmittance, resets with each filter change" ;
		transmittance_green_normalization_factor:units = "unitless" ;
		transmittance_green_normalization_factor:missing_value = -9999.f ;
	float transmittance_red_normalization_factor(time) ;
		transmittance_red_normalization_factor:long_name = "Normalization factor for red transmittance, resets with each filter change" ;
		transmittance_red_normalization_factor:units = "unitless" ;
		transmittance_red_normalization_factor:missing_value = -9999.f ;
	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 = "aospsap3wcorr -s sgp -f S01" ;
		:Conventions = "ARM-1.1" ;
		:process_version = "ingest-aospsap3wcorr-2.0-0.el6" ;
		:dod_version = "aospsap3w-b1-2.3" ;
		:site_id = "sgp" ;
		:platform_id = "aospsap3w" ;
		:facility_id = "S01" ;
		:data_level = "b1" ;
		:location_description = "Southern Great Plains (SGP), Lamont, Oklahoma" ;
		:datastream = "sgpaospsap3wS01.b1" ;
		:configuration_file = "sgpaospsap3wS01.20160301.000000.config" ;
		:input_datastreams = "sgpaosimpactorS01.b1 : 2.0 : 20160606.000000\n",
			"sgpaospsap3wS01.a1 : 14.17 : 20160606.000000\n",
			"sgpaospsaprS01.a0 : 14.17 : 20160606.000000" ;
		:sampling_interval = "1 second" ;
		:averaging_interval = "not averaged" ;
		:PSAP_Instrument = "Particle Soot Absorption Photometer" ;
		:Instrument_Manufacturer = "Radiance Research" ;
		:AOS_DAC_type = "D" ;
		:doi = "10.5439/1025157" ;
		:history = "created by user dsmgr on machine ruby at 2016-06-06 04:35:01, using ingest-aospsap3wcorr-2.0-0.el6" ;
}