netcdf sgpaosauxC1.a0.20070515.000000 { dimensions: time = UNLIMITED ; // (840 currently) variables: int base_time ; base_time:string = "15-May-2007,0:00:00 GMT" ; base_time:long_name = "Base time in Epoch" ; base_time:units = "seconds since 1970-1-1 0:00:00 0:00" ; double time_offset(time) ; time_offset:long_name = "Time offset from base_time" ; time_offset:units = "seconds since 2007-05-15 00:00:00 0:00" ; double time(time) ; time:long_name = "Time offset from midnight" ; time:units = "seconds since 2007-05-15 00:00:00 0:00" ; float MainAirFlow(time) ; MainAirFlow:long_name = "Main stack air flow" ; MainAirFlow:units = "l/min" ; MainAirFlow:valid_min = 300.f ; MainAirFlow:valid_max = 1100.f ; MainAirFlow:resolution = 0.1f ; MainAirFlow:missing_value = -9999.f ; MainAirFlow:C_format = "%6.1f" ; int qc_MainAirFlow(time) ; qc_MainAirFlow:long_name = "QC bits: Main stack air flow" ; qc_MainAirFlow:units = "unitless" ; float ZeroAirFlow(time) ; ZeroAirFlow:long_name = "Flowrate of zero air line 2" ; ZeroAirFlow:units = "l/min" ; ZeroAirFlow:valid_min = 100.f ; ZeroAirFlow:valid_max = 200.f ; ZeroAirFlow:resolution = 0.1f ; ZeroAirFlow:missing_value = -9999.f ; ZeroAirFlow:C_format = "%6.1f" ; int qc_ZeroAirFlow(time) ; qc_ZeroAirFlow:long_name = "QC bits: Flowrate of zero air line 2" ; qc_ZeroAirFlow:units = "unitless" ; float RoomTemp(time) ; RoomTemp:long_name = "Room temperature" ; RoomTemp:units = "degrees C" ; RoomTemp:valid_min = 5.f ; RoomTemp:valid_max = 35.f ; RoomTemp:resolution = 0.1f ; RoomTemp:missing_value = -9999.f ; RoomTemp:C_format = "%4.1f" ; int qc_RoomTemp(time) ; qc_RoomTemp:long_name = "QC bits: Room temperature" ; qc_RoomTemp:units = "unitless" ; float WatAmbT(time) ; WatAmbT:long_name = "Temperature in back of Whatlow" ; WatAmbT:units = "degrees C" ; WatAmbT:valid_min = 5.f ; WatAmbT:valid_max = 40.f ; WatAmbT:resolution = 0.1f ; WatAmbT:missing_value = -9999.f ; WatAmbT:C_format = "%4.1f" ; int qc_WatAmbT(time) ; qc_WatAmbT:long_name = "QC bits: Temperature in back of Whatlow" ; qc_WatAmbT:units = "unitless" ; float CabinetTemp(time) ; CabinetTemp:long_name = "TSI neph. rack temperature" ; CabinetTemp:units = "degrees C" ; CabinetTemp:valid_min = 5.f ; CabinetTemp:valid_max = 40.f ; CabinetTemp:resolution = 0.1f ; CabinetTemp:missing_value = -9999.f ; CabinetTemp:C_format = "%4.1f" ; int qc_CabinetTemp(time) ; qc_CabinetTemp:long_name = "QC bits: TSI neph. rack temperature" ; qc_CabinetTemp:units = "unitless" ; float Cab_4_5_Temp(time) ; Cab_4_5_Temp:long_name = "Temperature between racks 0 and 1" ; Cab_4_5_Temp:units = "degrees C" ; Cab_4_5_Temp:valid_min = 5.f ; Cab_4_5_Temp:valid_max = 40.f ; Cab_4_5_Temp:resolution = 0.1f ; Cab_4_5_Temp:missing_value = -9999.f ; Cab_4_5_Temp:C_format = "%4.1f" ; int qc_Cab_4_5_Temp(time) ; qc_Cab_4_5_Temp:long_name = "QC bits: Temperature between racks 0 and 1" ; qc_Cab_4_5_Temp:units = "unitless" ; float Line3Vac(time) ; Line3Vac:long_name = "Pressure transducer V for line 3 (extra line)" ; Line3Vac:units = "V" ; Line3Vac:valid_min = 1.f ; Line3Vac:valid_max = 8.f ; Line3Vac:resolution = 0.1f ; Line3Vac:missing_value = -9999.f ; Line3Vac:C_format = "%3.1f" ; int qc_Line3Vac(time) ; qc_Line3Vac:long_name = "QC bits: Pressure transducer V for line 3 (extra line)" ; qc_Line3Vac:units = "unitless" ; float Line4Vac(time) ; Line4Vac:long_name = "Pressure transducer V for line 4 (extra line)" ; Line4Vac:units = "V" ; Line4Vac:valid_min = 1.f ; Line4Vac:valid_max = 8.f ; Line4Vac:resolution = 0.1f ; Line4Vac:missing_value = -9999.f ; Line4Vac:C_format = "%3.1f" ; int qc_Line4Vac(time) ; qc_Line4Vac:long_name = "QC bits: Pressure transducer V for line 4 (extra line)" ; qc_Line4Vac:units = "unitless" ; float Line5Vac(time) ; Line5Vac:long_name = "Pressure transducer V for line 5 (extra line)" ; Line5Vac:units = "V" ; Line5Vac:valid_min = 1.f ; Line5Vac:valid_max = 8.f ; Line5Vac:resolution = 0.1f ; Line5Vac:missing_value = -9999.f ; Line5Vac:C_format = "%3.1f" ; int qc_Line5Vac(time) ; qc_Line5Vac:long_name = "QC bits: Pressure transducer V for line 5 (extra line)" ; qc_Line5Vac:units = "unitless" ; float Line6Vac(time) ; Line6Vac:long_name = "Pressure transducer V for line 6 (neph. 1 line)" ; Line6Vac:units = "V" ; Line6Vac:valid_min = 1.f ; Line6Vac:valid_max = 8.f ; Line6Vac:resolution = 0.1f ; Line6Vac:missing_value = -9999.f ; Line6Vac:C_format = "%3.1f" ; int qc_Line6Vac(time) ; qc_Line6Vac:long_name = "QC bits: Pressure transducer V for line 6 (neph. 1 line)" ; qc_Line6Vac:units = "unitless" ; float Line6DeltaP(time) ; Line6DeltaP:long_name = "Pressure difference across radiance neph." ; Line6DeltaP:units = "psi" ; Line6DeltaP:missing_value = -9999.f ; Line6DeltaP:C_format = "%5.1f" ; int qc_Line6DeltaP(time) ; qc_Line6DeltaP:long_name = "QC bits: Pressure difference across radiance neph." ; qc_Line6DeltaP:units = "unitless" ; float Line8Temp(time) ; Line8Temp:long_name = "Temperature of line 8 air (neph. 2 line)" ; Line8Temp:units = "degrees C" ; Line8Temp:valid_min = -10.f ; Line8Temp:valid_max = 40.f ; Line8Temp:resolution = 0.1f ; Line8Temp:missing_value = -9999.f ; Line8Temp:C_format = "%4.1f" ; int qc_Line8Temp(time) ; qc_Line8Temp:long_name = "QC bits: Temperature of line 8 air (neph. 2 line)" ; qc_Line8Temp:units = "unitless" ; float Line8DeltaP(time) ; Line8DeltaP:long_name = "Pressure difference across TSI neph." ; Line8DeltaP:units = "psi" ; Line8DeltaP:missing_value = -9999.f ; Line8DeltaP:C_format = "%5.1f" ; int qc_Line8DeltaP(time) ; qc_Line8DeltaP:long_name = "QC bits: Pressure difference across TSI neph." ; qc_Line8DeltaP:units = "unitless" ; float Line8Flow(time) ; Line8Flow:long_name = "Mass flow output from line 8 (neph. 2 line)" ; Line8Flow:units = "l/min" ; Line8Flow:valid_min = 20.f ; Line8Flow:valid_max = 40.f ; Line8Flow:resolution = 0.01f ; Line8Flow:missing_value = -9999.f ; Line8Flow:C_format = "%10.3e" ; int qc_Line8Flow(time) ; qc_Line8Flow:long_name = "QC bits: Mass flow output from line 8 (neph. 2 line)" ; qc_Line8Flow:units = "unitless" ; float Line11Temp(time) ; Line11Temp:long_name = "Main Sample manifold temperature" ; Line11Temp:units = "degrees C" ; Line11Temp:valid_min = -20.f ; Line11Temp:valid_max = 60.f ; Line11Temp:resolution = 0.1f ; Line11Temp:missing_value = -9999.f ; Line11Temp:C_format = "%4.1f" ; int qc_Line11Temp(time) ; qc_Line11Temp:long_name = "QC bits: Main Sample manifold temperature" ; qc_Line11Temp:units = "unitless" ; float Line11Heater(time) ; Line11Heater:long_name = "Temperature in main sample manifold heater" ; Line11Heater:units = "degrees C" ; Line11Heater:valid_min = -20.f ; Line11Heater:valid_max = 60.f ; Line11Heater:resolution = 0.1f ; Line11Heater:missing_value = -9999.f ; Line11Heater:C_format = "%4.1f" ; int qc_Line11Heater(time) ; qc_Line11Heater:long_name = "QC bits: Temperature in main sample manifold heater" ; qc_Line11Heater:units = "unitless" ; float Line11RH(time) ; Line11RH:long_name = "Relative humidity in main sample manifold heater" ; Line11RH:units = "%" ; Line11RH:valid_min = 0.f ; Line11RH:valid_max = 100.f ; Line11RH:resolution = 0.1f ; Line11RH:missing_value = -9999.f ; Line11RH:C_format = "%5.1f" ; int qc_Line11RH(time) ; qc_Line11RH:long_name = "QC bits: Relative humidity in main sample manifold heater" ; qc_Line11RH:units = "unitless" ; float Calib530nm(time) ; Calib530nm:long_name = "Reference object brightness" ; Calib530nm:units = "1/m" ; Calib530nm:valid_min = 0.0001f ; Calib530nm:valid_max = 0.0004f ; Calib530nm:missing_value = -9999.f ; Calib530nm:C_format = "%10.3e" ; int qc_Calib530nm(time) ; qc_Calib530nm:long_name = "QC bits: Reference object brightness" ; qc_Calib530nm:units = "unitless" ; float Zero530nm(time) ; Zero530nm:long_name = "Radiance neph zero scattering coefficient" ; Zero530nm:units = "1/m" ; Zero530nm:valid_min = -1.f ; Zero530nm:valid_max = 5000.f ; Zero530nm:missing_value = -9999.f ; Zero530nm:C_format = "%10.3e" ; int qc_Zero530nm(time) ; qc_Zero530nm:long_name = "QC bits: Radiance neph zero scattering coefficient" ; qc_Zero530nm:units = "unitless" ; float BapFiltr(time) ; BapFiltr:long_name = "Transmittance through CLAP filter" ; BapFiltr:units = "ratio" ; BapFiltr:valid_min = 0.5f ; BapFiltr:valid_max = 1.05f ; BapFiltr:resolution = 0.01f ; BapFiltr:missing_value = -9999.f ; BapFiltr:C_format = "%4.2f" ; int qc_BapFiltr(time) ; qc_BapFiltr:long_name = "QC bits: Transmittance through CLAP filter" ; qc_BapFiltr:units = "unitless" ; float BapFlow(time) ; BapFlow:long_name = "CLAP flow" ; BapFlow:units = "l/min" ; BapFlow:valid_min = 0.1f ; BapFlow:valid_max = 3.f ; BapFlow:resolution = 0.01f ; BapFlow:missing_value = -9999.f ; BapFlow:C_format = "%4.2f" ; int qc_BapFlow(time) ; qc_BapFlow:long_name = "QC bits: CLAP flow" ; qc_BapFlow:units = "unitless" ; float BapSignal(time) ; BapSignal:long_name = "CLAP Signal" ; BapSignal:units = "counts" ; BapSignal:valid_min = 100000.f ; BapSignal:valid_max = 500000.f ; BapSignal:resolution = 1.f ; BapSignal:missing_value = -9999.f ; BapSignal:C_format = "%7.0f" ; int qc_BapSignal(time) ; qc_BapSignal:long_name = "QC bits: CLAP Signal" ; qc_BapSignal:units = "unitless" ; float BapRef(time) ; BapRef:long_name = "CLAP reference signal" ; BapRef:units = "counts" ; BapRef:valid_min = 250000.f ; BapRef:valid_max = 500000.f ; BapRef:resolution = 1.f ; BapRef:missing_value = -9999.f ; BapRef:C_format = "%7.0f" ; int qc_BapRef(time) ; qc_BapRef:long_name = "QC bits: CLAP reference signal" ; qc_BapRef:units = "unitless" ; float TSISensGrn_LRH(time) ; TSISensGrn_LRH:long_name = "TSI Low RH Neph. 550nm reference intensity" ; TSISensGrn_LRH:units = "Hz" ; TSISensGrn_LRH:valid_min = 100000.f ; TSISensGrn_LRH:valid_max = 400000.f ; TSISensGrn_LRH:resolution = 0.01f ; TSISensGrn_LRH:missing_value = -9999.f ; TSISensGrn_LRH:C_format = "%10.3e" ; int qc_TSISensGrn_LRH(time) ; qc_TSISensGrn_LRH:long_name = "QC bits: TSI Low RH Neph. 550nm reference intensity" ; qc_TSISensGrn_LRH:units = "unitless" ; float TSINephLV_LRH(time) ; TSINephLV_LRH:long_name = "TSI Low RH Neph. lamp voltage" ; TSINephLV_LRH:units = "V" ; TSINephLV_LRH:valid_min = 10.f ; TSINephLV_LRH:valid_max = 20.f ; TSINephLV_LRH:resolution = 0.01f ; TSINephLV_LRH:missing_value = -9999.f ; TSINephLV_LRH:C_format = "%10.3e" ; int qc_TSINephLV_LRH(time) ; qc_TSINephLV_LRH:long_name = "QC bits: TSI Low RH Neph. lamp voltage" ; qc_TSINephLV_LRH:units = "unitless" ; float TSINephLC_LRH(time) ; TSINephLC_LRH:long_name = "TSI Low RH Neph. lamp current" ; TSINephLC_LRH:units = "A" ; TSINephLC_LRH:valid_min = 3.f ; TSINephLC_LRH:valid_max = 7.f ; TSINephLC_LRH:resolution = 0.1f ; TSINephLC_LRH:missing_value = -9999.f ; TSINephLC_LRH:C_format = "%3.1f" ; int qc_TSINephLC_LRH(time) ; qc_TSINephLC_LRH:long_name = "QC bits: TSI Low RH Neph. lamp current" ; qc_TSINephLC_LRH:units = "unitless" ; float BluTScatSpn_LRH(time) ; BluTScatSpn_LRH:long_name = "TSI Low RH Neph. 450 nm total scattering coefficient for cal. gas" ; BluTScatSpn_LRH:units = "1/m" ; BluTScatSpn_LRH:valid_min = 2.5e-05f ; BluTScatSpn_LRH:valid_max = 5.5e-05f ; BluTScatSpn_LRH:missing_value = -9999.f ; BluTScatSpn_LRH:C_format = "%10.3e" ; int qc_BluTScatSpn_LRH(time) ; qc_BluTScatSpn_LRH:long_name = "QC bits: TSI Low RH Neph. 450 nm total scattering coefficient for cal. gas" ; qc_BluTScatSpn_LRH:units = "unitless" ; float GrnTScatSpn_LRH(time) ; GrnTScatSpn_LRH:long_name = "TSI Low RH Neph. 550 nm total scattering coefficient for cal. gas" ; GrnTScatSpn_LRH:units = "1/m" ; GrnTScatSpn_LRH:valid_min = 1.e-05f ; GrnTScatSpn_LRH:valid_max = 3.e-05f ; GrnTScatSpn_LRH:missing_value = -9999.f ; GrnTScatSpn_LRH:C_format = "%10.3e" ; int qc_GrnTScatSpn_LRH(time) ; qc_GrnTScatSpn_LRH:long_name = "QC bits: TSI Low RH Neph. 550 nm total scattering coefficient for cal. gas" ; qc_GrnTScatSpn_LRH:units = "unitless" ; float RedTScatSpn_LRH(time) ; RedTScatSpn_LRH:long_name = "TSI Low RH Neph. 700 nm total scattering coefficient for cal. gas" ; RedTScatSpn_LRH:units = "1/m" ; RedTScatSpn_LRH:valid_min = 3.e-06f ; RedTScatSpn_LRH:valid_max = 1.5e-05f ; RedTScatSpn_LRH:missing_value = -9999.f ; RedTScatSpn_LRH:C_format = "%10.3e" ; int qc_RedTScatSpn_LRH(time) ; qc_RedTScatSpn_LRH:long_name = "QC bits: TSI Low RH Neph. 700 nm total scattering coefficient for cal. gas" ; qc_RedTScatSpn_LRH:units = "unitless" ; float BluBScatSpn_LRH(time) ; BluBScatSpn_LRH:long_name = "TSI Low RH Neph. 450 nm back scattering coefficient for cal. gas" ; BluBScatSpn_LRH:units = "1/m" ; BluBScatSpn_LRH:valid_min = 1.2e-05f ; BluBScatSpn_LRH:valid_max = 2.7e-05f ; BluBScatSpn_LRH:missing_value = -9999.f ; BluBScatSpn_LRH:C_format = "%10.3e" ; int qc_BluBScatSpn_LRH(time) ; qc_BluBScatSpn_LRH:long_name = "QC bits: TSI Low RH Neph. 450 nm back scattering coefficient for cal. gas" ; qc_BluBScatSpn_LRH:units = "unitless" ; float GrnBScatSpn_LRH(time) ; GrnBScatSpn_LRH:long_name = "TSI Low RH Neph. 550 nm back scattering coefficient for cal. gas" ; GrnBScatSpn_LRH:units = "1/m" ; GrnBScatSpn_LRH:valid_min = 5.e-06f ; GrnBScatSpn_LRH:valid_max = 1.5e-05f ; GrnBScatSpn_LRH:missing_value = -9999.f ; GrnBScatSpn_LRH:C_format = "%10.3e" ; int qc_GrnBScatSpn_LRH(time) ; qc_GrnBScatSpn_LRH:long_name = "QC bits: TSI Low RH Neph. 550 nm back scattering coefficient for cal. gas" ; qc_GrnBScatSpn_LRH:units = "unitless" ; float RedBScatSpn_LRH(time) ; RedBScatSpn_LRH:long_name = "TSI Low RH Neph. 700 nm back scattering coefficient for cal. gas" ; RedBScatSpn_LRH:units = "1/m" ; RedBScatSpn_LRH:valid_min = 1.e-06f ; RedBScatSpn_LRH:valid_max = 7.e-06f ; RedBScatSpn_LRH:missing_value = -9999.f ; RedBScatSpn_LRH:C_format = "%10.3e" ; int qc_RedBScatSpn_LRH(time) ; qc_RedBScatSpn_LRH:long_name = "QC bits: TSI Low RH Neph. 700 nm back scattering coefficient for cal. gas" ; qc_RedBScatSpn_LRH:units = "unitless" ; float BluTScatZero_LRH(time) ; BluTScatZero_LRH:long_name = "TSI Low RH Neph. 450 nm total scattering coefficient for zero gas" ; BluTScatZero_LRH:units = "1/m" ; BluTScatZero_LRH:valid_min = -1.e-06f ; BluTScatZero_LRH:valid_max = 1.e-06f ; BluTScatZero_LRH:missing_value = -9999.f ; BluTScatZero_LRH:C_format = "%10.3e" ; int qc_BluTScatZero_LRH(time) ; qc_BluTScatZero_LRH:long_name = "QC bits: TSI Low RH Neph. 450 nm total scattering coefficient for zero gas" ; qc_BluTScatZero_LRH:units = "unitless" ; float GrnTScatZero_LRH(time) ; GrnTScatZero_LRH:long_name = "TSI Low RH Neph. 550 nm total scattering coefficient for zero gas" ; GrnTScatZero_LRH:units = "1/m" ; GrnTScatZero_LRH:valid_min = -1.e-06f ; GrnTScatZero_LRH:valid_max = 1.e-06f ; GrnTScatZero_LRH:missing_value = -9999.f ; GrnTScatZero_LRH:C_format = "%10.3e" ; int qc_GrnTScatZero_LRH(time) ; qc_GrnTScatZero_LRH:long_name = "QC bits: TSI Low RH Neph. 550 nm total scattering coefficient for zero gas" ; qc_GrnTScatZero_LRH:units = "unitless" ; float RedTScatZero_LRH(time) ; RedTScatZero_LRH:long_name = "TSI Low RH Neph. 700 nm total scattering coefficient for zero gas" ; RedTScatZero_LRH:units = "1/m" ; RedTScatZero_LRH:valid_min = -1.e-06f ; RedTScatZero_LRH:valid_max = 1.e-06f ; RedTScatZero_LRH:missing_value = -9999.f ; RedTScatZero_LRH:C_format = "%10.3e" ; int qc_RedTScatZero_LRH(time) ; qc_RedTScatZero_LRH:long_name = "QC bits: TSI Low RH Neph. 700 nm total scattering coefficient for zero gas" ; qc_RedTScatZero_LRH:units = "unitless" ; float BluBScatZero_LRH(time) ; BluBScatZero_LRH:long_name = "TSI Low RH Neph. 450 nm back scattering coefficient for zero gas" ; BluBScatZero_LRH:units = "1/m" ; BluBScatZero_LRH:valid_min = -1.e-06f ; BluBScatZero_LRH:valid_max = 1.e-06f ; BluBScatZero_LRH:missing_value = -9999.f ; BluBScatZero_LRH:C_format = "%10.3e" ; int qc_BluBScatZero_LRH(time) ; qc_BluBScatZero_LRH:long_name = "QC bits: TSI Low RH Neph. 450 nm back scattering coefficient for zero gas" ; qc_BluBScatZero_LRH:units = "unitless" ; float GrnBScatZero_LRH(time) ; GrnBScatZero_LRH:long_name = "TSI Low RH Neph. 550 nm back scattering coefficient for zero gas" ; GrnBScatZero_LRH:units = "1/m" ; GrnBScatZero_LRH:valid_min = -1.e-06f ; GrnBScatZero_LRH:valid_max = 1.e-06f ; GrnBScatZero_LRH:missing_value = -9999.f ; GrnBScatZero_LRH:C_format = "%10.3e" ; int qc_GrnBScatZero_LRH(time) ; qc_GrnBScatZero_LRH:long_name = "QC bits: TSI Low RH Neph. 550 nm back scattering coefficient for zero gas" ; qc_GrnBScatZero_LRH:units = "unitless" ; float RedBScatZero_LRH(time) ; RedBScatZero_LRH:long_name = "TSI Low RH Neph. 700 nm back scattering coefficient for zero gas" ; RedBScatZero_LRH:units = "1/m" ; RedBScatZero_LRH:valid_min = -1.e-06f ; RedBScatZero_LRH:valid_max = 1.e-06f ; RedBScatZero_LRH:missing_value = -9999.f ; RedBScatZero_LRH:C_format = "%10.3e" ; int qc_RedBScatZero_LRH(time) ; qc_RedBScatZero_LRH:long_name = "QC bits: TSI Low RH Neph. 700 nm back scattering coefficient for zero gas" ; qc_RedBScatZero_LRH:units = "unitless" ; float BluRScatZero_LRH(time) ; BluRScatZero_LRH:long_name = "TSI Low RH Neph. 450 nm rayleigh scattering coefficient for zero gas" ; BluRScatZero_LRH:units = "1/m" ; BluRScatZero_LRH:valid_min = 1.e-06f ; BluRScatZero_LRH:valid_max = 3.e-05f ; BluRScatZero_LRH:missing_value = -9999.f ; BluRScatZero_LRH:C_format = "%10.3e" ; int qc_BluRScatZero_LRH(time) ; qc_BluRScatZero_LRH:long_name = "QC bits: TSI Low RH Neph. 450 nm rayleigh scattering coefficient for zero gas" ; qc_BluRScatZero_LRH:units = "unitless" ; float GrnRScatZero_LRH(time) ; GrnRScatZero_LRH:long_name = "TSI Low RH Neph. 550 nm rayleigh scattering coefficient for zero gas" ; GrnRScatZero_LRH:units = "1/m" ; GrnRScatZero_LRH:valid_min = 1.e-06f ; GrnRScatZero_LRH:valid_max = 3.e-05f ; GrnRScatZero_LRH:missing_value = -9999.f ; GrnRScatZero_LRH:C_format = "%10.3e" ; int qc_GrnRScatZero_LRH(time) ; qc_GrnRScatZero_LRH:long_name = "QC bits: TSI Low RH Neph. 550 nm rayleigh scattering coefficient for zero gas" ; qc_GrnRScatZero_LRH:units = "unitless" ; float RedRScatZero_LRH(time) ; RedRScatZero_LRH:long_name = "TSI Low RH Neph. 700 nm rayleigh scattering coefficient for zero gas" ; RedRScatZero_LRH:units = "1/m" ; RedRScatZero_LRH:valid_min = 1.e-06f ; RedRScatZero_LRH:valid_max = 3.e-05f ; RedRScatZero_LRH:missing_value = -9999.f ; RedRScatZero_LRH:C_format = "%10.3e" ; int qc_RedRScatZero_LRH(time) ; qc_RedRScatZero_LRH:long_name = "QC bits: TSI Low RH Neph. 700 nm rayleigh scattering coefficient for zero gas" ; qc_RedRScatZero_LRH:units = "unitless" ; float TSISensGrn_HRH(time) ; TSISensGrn_HRH:long_name = "TSI High RH Neph. 550nm reference intensity" ; TSISensGrn_HRH:units = "Hz" ; TSISensGrn_HRH:valid_min = 100000.f ; TSISensGrn_HRH:valid_max = 400000.f ; TSISensGrn_HRH:resolution = 0.01f ; TSISensGrn_HRH:missing_value = -9999.f ; TSISensGrn_HRH:C_format = "%10.3e" ; int qc_TSISensGrn_HRH(time) ; qc_TSISensGrn_HRH:long_name = "QC bits: TSI High RH Neph. 550nm reference intensity" ; qc_TSISensGrn_HRH:units = "unitless" ; float TSINephLV_HRH(time) ; TSINephLV_HRH:long_name = "TSI High RH Neph. lamp voltage" ; TSINephLV_HRH:units = "V" ; TSINephLV_HRH:valid_min = 10.f ; TSINephLV_HRH:valid_max = 20.f ; TSINephLV_HRH:resolution = 0.01f ; TSINephLV_HRH:missing_value = -9999.f ; TSINephLV_HRH:C_format = "%10.3e" ; int qc_TSINephLV_HRH(time) ; qc_TSINephLV_HRH:long_name = "QC bits: TSI High RH Neph. lamp voltage" ; qc_TSINephLV_HRH:units = "unitless" ; float TSINephLC_HRH(time) ; TSINephLC_HRH:long_name = "TSI High RH Neph. lamp current" ; TSINephLC_HRH:units = "A" ; TSINephLC_HRH:valid_min = 3.f ; TSINephLC_HRH:valid_max = 7.f ; TSINephLC_HRH:resolution = 0.1f ; TSINephLC_HRH:missing_value = -9999.f ; TSINephLC_HRH:C_format = "%3.1f" ; int qc_TSINephLC_HRH(time) ; qc_TSINephLC_HRH:long_name = "QC bits: TSI High RH Neph. lamp current" ; qc_TSINephLC_HRH:units = "unitless" ; float BluTScatSpn_HRH(time) ; BluTScatSpn_HRH:long_name = "TSI High RH Neph. 450 nm total scattering coefficient for cal. gas" ; BluTScatSpn_HRH:units = "1/m" ; BluTScatSpn_HRH:valid_min = 2.5e-05f ; BluTScatSpn_HRH:valid_max = 5.5e-05f ; BluTScatSpn_HRH:missing_value = -9999.f ; BluTScatSpn_HRH:C_format = "%10.3e" ; int qc_BluTScatSpn_HRH(time) ; qc_BluTScatSpn_HRH:long_name = "QC bits: TSI High RH Neph. 450 nm total scattering coefficient for cal. gas" ; qc_BluTScatSpn_HRH:units = "unitless" ; float GrnTScatSpn_HRH(time) ; GrnTScatSpn_HRH:long_name = "TSI High RH Neph. 550 nm total scattering coefficient for cal. gas" ; GrnTScatSpn_HRH:units = "1/m" ; GrnTScatSpn_HRH:valid_min = 1.e-05f ; GrnTScatSpn_HRH:valid_max = 3.e-05f ; GrnTScatSpn_HRH:missing_value = -9999.f ; GrnTScatSpn_HRH:C_format = "%10.3e" ; int qc_GrnTScatSpn_HRH(time) ; qc_GrnTScatSpn_HRH:long_name = "QC bits: TSI High RH Neph. 550 nm total scattering coefficient for cal. gas" ; qc_GrnTScatSpn_HRH:units = "unitless" ; float RedTScatSpn_HRH(time) ; RedTScatSpn_HRH:long_name = "TSI High RH Neph. 700 nm total scattering coefficient for cal. gas" ; RedTScatSpn_HRH:units = "1/m" ; RedTScatSpn_HRH:valid_min = 3.e-06f ; RedTScatSpn_HRH:valid_max = 1.5e-05f ; RedTScatSpn_HRH:missing_value = -9999.f ; RedTScatSpn_HRH:C_format = "%10.3e" ; int qc_RedTScatSpn_HRH(time) ; qc_RedTScatSpn_HRH:long_name = "QC bits: TSI High RH Neph. 700 nm total scattering coefficient for cal. gas" ; qc_RedTScatSpn_HRH:units = "unitless" ; float BluBScatSpn_HRH(time) ; BluBScatSpn_HRH:long_name = "TSI High RH Neph. 450 nm back scattering coefficient for cal. gas" ; BluBScatSpn_HRH:units = "1/m" ; BluBScatSpn_HRH:valid_min = 1.2e-05f ; BluBScatSpn_HRH:valid_max = 2.7e-05f ; BluBScatSpn_HRH:missing_value = -9999.f ; BluBScatSpn_HRH:C_format = "%10.3e" ; int qc_BluBScatSpn_HRH(time) ; qc_BluBScatSpn_HRH:long_name = "QC bits: TSI High RH Neph. 450 nm back scattering coefficient for cal. gas" ; qc_BluBScatSpn_HRH:units = "unitless" ; float GrnBScatSpn_HRH(time) ; GrnBScatSpn_HRH:long_name = "TSI High RH Neph. 550 nm back scattering coefficient for cal. gas" ; GrnBScatSpn_HRH:units = "1/m" ; GrnBScatSpn_HRH:valid_min = 5.e-06f ; GrnBScatSpn_HRH:valid_max = 1.5e-05f ; GrnBScatSpn_HRH:missing_value = -9999.f ; GrnBScatSpn_HRH:C_format = "%10.3e" ; int qc_GrnBScatSpn_HRH(time) ; qc_GrnBScatSpn_HRH:long_name = "QC bits: TSI High RH Neph. 550 nm back scattering coefficient for cal. gas" ; qc_GrnBScatSpn_HRH:units = "unitless" ; float RedBScatSpn_HRH(time) ; RedBScatSpn_HRH:long_name = "TSI High RH Neph. 700 nm back scattering coefficient for cal. gas" ; RedBScatSpn_HRH:units = "1/m" ; RedBScatSpn_HRH:valid_min = 1.e-06f ; RedBScatSpn_HRH:valid_max = 7.e-06f ; RedBScatSpn_HRH:missing_value = -9999.f ; RedBScatSpn_HRH:C_format = "%10.3e" ; int qc_RedBScatSpn_HRH(time) ; qc_RedBScatSpn_HRH:long_name = "QC bits: TSI High RH Neph. 700 nm back scattering coefficient for cal. gas" ; qc_RedBScatSpn_HRH:units = "unitless" ; float BluTScatZero_HRH(time) ; BluTScatZero_HRH:long_name = "TSI High RH Neph. 450 nm total scattering coefficient for zero gas" ; BluTScatZero_HRH:units = "1/m" ; BluTScatZero_HRH:valid_min = -1.e-06f ; BluTScatZero_HRH:valid_max = 1.e-06f ; BluTScatZero_HRH:missing_value = -9999.f ; BluTScatZero_HRH:C_format = "%10.3e" ; int qc_BluTScatZero_HRH(time) ; qc_BluTScatZero_HRH:long_name = "QC bits: TSI High RH Neph. 450 nm total scattering coefficient for zero gas" ; qc_BluTScatZero_HRH:units = "unitless" ; float GrnTScatZero_HRH(time) ; GrnTScatZero_HRH:long_name = "TSI High RH Neph. 550 nm total scattering coefficient for zero gas" ; GrnTScatZero_HRH:units = "1/m" ; GrnTScatZero_HRH:valid_min = -1.e-06f ; GrnTScatZero_HRH:valid_max = 1.e-06f ; GrnTScatZero_HRH:missing_value = -9999.f ; GrnTScatZero_HRH:C_format = "%10.3e" ; int qc_GrnTScatZero_HRH(time) ; qc_GrnTScatZero_HRH:long_name = "QC bits: TSI High RH Neph. 550 nm total scattering coefficient for zero gas" ; qc_GrnTScatZero_HRH:units = "unitless" ; float RedTScatZero_HRH(time) ; RedTScatZero_HRH:long_name = "TSI High RH Neph. 700 nm total scattering coefficient for zero gas" ; RedTScatZero_HRH:units = "1/m" ; RedTScatZero_HRH:valid_min = -1.e-06f ; RedTScatZero_HRH:valid_max = 1.e-06f ; RedTScatZero_HRH:missing_value = -9999.f ; RedTScatZero_HRH:C_format = "%10.3e" ; int qc_RedTScatZero_HRH(time) ; qc_RedTScatZero_HRH:long_name = "QC bits: TSI High RH Neph. 700 nm total scattering coefficient for zero gas" ; qc_RedTScatZero_HRH:units = "unitless" ; float BluBScatZero_HRH(time) ; BluBScatZero_HRH:long_name = "TSI High RH Neph. 450 nm back scattering coefficient for zero gas" ; BluBScatZero_HRH:units = "1/m" ; BluBScatZero_HRH:valid_min = -1.e-06f ; BluBScatZero_HRH:valid_max = 1.e-06f ; BluBScatZero_HRH:missing_value = -9999.f ; BluBScatZero_HRH:C_format = "%10.3e" ; int qc_BluBScatZero_HRH(time) ; qc_BluBScatZero_HRH:long_name = "QC bits: TSI High RH Neph. 450 nm back scattering coefficient for zero gas" ; qc_BluBScatZero_HRH:units = "unitless" ; float GrnBScatZero_HRH(time) ; GrnBScatZero_HRH:long_name = "TSI High RH Neph. 550 nm back scattering coefficient for zero gas" ; GrnBScatZero_HRH:units = "1/m" ; GrnBScatZero_HRH:valid_min = -1.e-06f ; GrnBScatZero_HRH:valid_max = 1.e-06f ; GrnBScatZero_HRH:missing_value = -9999.f ; GrnBScatZero_HRH:C_format = "%10.3e" ; int qc_GrnBScatZero_HRH(time) ; qc_GrnBScatZero_HRH:long_name = "QC bits: TSI High RH Neph. 550 nm back scattering coefficient for zero gas" ; qc_GrnBScatZero_HRH:units = "unitless" ; float RedBScatZero_HRH(time) ; RedBScatZero_HRH:long_name = "TSI High RH Neph. 700 nm back scattering coefficient for zero gas" ; RedBScatZero_HRH:units = "1/m" ; RedBScatZero_HRH:valid_min = -1.e-06f ; RedBScatZero_HRH:valid_max = 1.e-06f ; RedBScatZero_HRH:missing_value = -9999.f ; RedBScatZero_HRH:C_format = "%10.3e" ; int qc_RedBScatZero_HRH(time) ; qc_RedBScatZero_HRH:long_name = "QC bits: TSI High RH Neph. 700 nm back scattering coefficient for zero gas" ; qc_RedBScatZero_HRH:units = "unitless" ; float BluRScatZero_HRH(time) ; BluRScatZero_HRH:long_name = "TSI High RH Neph. 450 nm rayleigh scattering coefficient for zero gas" ; BluRScatZero_HRH:units = "1/m" ; BluRScatZero_HRH:valid_min = 1.e-06f ; BluRScatZero_HRH:valid_max = 3.e-05f ; BluRScatZero_HRH:missing_value = -9999.f ; BluRScatZero_HRH:C_format = "%10.3e" ; int qc_BluRScatZero_HRH(time) ; qc_BluRScatZero_HRH:long_name = "QC bits: TSI High RH Neph. 450 nm rayleigh scattering coefficient for zero gas" ; qc_BluRScatZero_HRH:units = "unitless" ; float GrnRScatZero_HRH(time) ; GrnRScatZero_HRH:long_name = "TSI High RH Neph. 550 nm rayleigh scattering coefficient for zero gas" ; GrnRScatZero_HRH:units = "1/m" ; GrnRScatZero_HRH:valid_min = 1.e-06f ; GrnRScatZero_HRH:valid_max = 3.e-05f ; GrnRScatZero_HRH:missing_value = -9999.f ; GrnRScatZero_HRH:C_format = "%10.3e" ; int qc_GrnRScatZero_HRH(time) ; qc_GrnRScatZero_HRH:long_name = "QC bits: TSI High RH Neph. 550 nm rayleigh scattering coefficient for zero gas" ; qc_GrnRScatZero_HRH:units = "unitless" ; float RedRScatZero_HRH(time) ; RedRScatZero_HRH:long_name = "TSI High RH Neph. 700 nm rayleigh scattering coefficient for zero gas" ; RedRScatZero_HRH:units = "1/m" ; RedRScatZero_HRH:valid_min = 1.e-06f ; RedRScatZero_HRH:valid_max = 3.e-05f ; RedRScatZero_HRH:missing_value = -9999.f ; RedRScatZero_HRH:C_format = "%10.3e" ; int qc_RedRScatZero_HRH(time) ; qc_RedRScatZero_HRH:long_name = "QC bits: TSI High RH Neph. 700 nm rayleigh scattering coefficient for zero gas" ; qc_RedRScatZero_HRH:units = "unitless" ; float CPCCondT(time) ; CPCCondT:long_name = "TSI CPC condensor temperature" ; CPCCondT:units = "degrees C" ; CPCCondT:valid_min = 10.f ; CPCCondT:valid_max = 40.f ; CPCCondT:resolution = 0.1f ; CPCCondT:missing_value = -9999.f ; CPCCondT:C_format = "%4.1f" ; int qc_CPCCondT(time) ; qc_CPCCondT:long_name = "QC bits: TSI CPC condensor temperature" ; qc_CPCCondT:units = "unitless" ; float CPCSaturT(time) ; CPCSaturT:long_name = "TSI CPC saturator temperature" ; CPCSaturT:units = "degrees C" ; CPCSaturT:valid_min = 10.f ; CPCSaturT:valid_max = 40.f ; CPCSaturT:resolution = 0.1f ; CPCSaturT:missing_value = -9999.f ; CPCSaturT:C_format = "%4.1f" ; int qc_CPCSaturT(time) ; qc_CPCSaturT:long_name = "QC bits: TSI CPC saturator temperature" ; qc_CPCSaturT:units = "unitless" ; float CPCDeltT(time) ; CPCDeltT:long_name = "TSI CPC condensor and saturator temperature difference" ; CPCDeltT:units = "degrees C" ; CPCDeltT:valid_min = 16.f ; CPCDeltT:valid_max = 18.f ; CPCDeltT:resolution = 0.1f ; CPCDeltT:missing_value = -9999.f ; CPCDeltT:C_format = "%4.1f" ; int qc_CPCDeltT(time) ; qc_CPCDeltT:long_name = "QC bits: TSI CPC condensor and saturator temperature difference" ; qc_CPCDeltT:units = "unitless" ; float OPCLaserVolt(time) ; OPCLaserVolt:long_name = "Analog signal from PMS PCASP" ; OPCLaserVolt:units = "V" ; OPCLaserVolt:valid_min = 5.f ; OPCLaserVolt:valid_max = 10.f ; OPCLaserVolt:resolution = 0.1f ; OPCLaserVolt:missing_value = -9999.f ; OPCLaserVolt:C_format = "%4.1f" ; int qc_OPCLaserVolt(time) ; qc_OPCLaserVolt:long_name = "QC bits: Analog signal from PMS PCASP" ; qc_OPCLaserVolt:units = "unitless" ; float OPCFlow(time) ; OPCFlow:long_name = "OPC sample flow" ; OPCFlow:units = "liters/minute" ; OPCFlow:valid_min = 0.06f ; OPCFlow:valid_max = 0.18f ; OPCFlow:resolution = 0.1f ; OPCFlow:missing_value = -9999.f ; OPCFlow:C_format = "%4.1f" ; int qc_OPCFlow(time) ; qc_OPCFlow:long_name = "QC bits: OPC sample flow" ; qc_OPCFlow:units = "unitless" ; float OPCSheath(time) ; OPCSheath:long_name = "OPC sheath" ; OPCSheath:units = "liters/minute" ; OPCSheath:valid_min = 0.6f ; OPCSheath:valid_max = 1.2f ; OPCSheath:resolution = 0.1f ; OPCSheath:missing_value = -9999.f ; OPCSheath:C_format = "%5.1f" ; int qc_OPCSheath(time) ; qc_OPCSheath:long_name = "QC bits: OPC sheath" ; qc_OPCSheath:units = "unitless" ; float O3_LinTemp(time) ; O3_LinTemp:long_name = "Ozone line sample temperature (omega temp. sensor)" ; O3_LinTemp:units = "degrees C" ; O3_LinTemp:resolution = 0.1f ; O3_LinTemp:missing_value = -9999.f ; O3_LinTemp:C_format = "%4.1f" ; int qc_O3_LinTemp(time) ; qc_O3_LinTemp:long_name = "QC bits: Ozone line sample temperature (omega temp. sensor)" ; qc_O3_LinTemp:units = "unitless" ; float O3_SetPt(time) ; O3_SetPt:long_name = "Ozone line temperature set point" ; O3_SetPt:units = "degrees C" ; O3_SetPt:missing_value = -9999.f ; int qc_O3_SetPt(time) ; qc_O3_SetPt:long_name = "QC bits: Ozone line temperature set point" ; qc_O3_SetPt:units = "unitless" ; float O3_LinHeater(time) ; O3_LinHeater:long_name = "Ozone line temp. from thermocouple attached to heater" ; O3_LinHeater:units = "degrees C" ; O3_LinHeater:valid_min = -20.f ; O3_LinHeater:valid_max = 60.f ; O3_LinHeater:resolution = 0.1f ; O3_LinHeater:missing_value = -9999.f ; O3_LinHeater:C_format = "%4.1f" ; int qc_O3_LinHeater(time) ; qc_O3_LinHeater:long_name = "QC bits: Ozone line temp. from thermocouple attached to heater" ; qc_O3_LinHeater:units = "unitless" ; float O3_Mode(time) ; O3_Mode:long_name = "Ozone mode" ; O3_Mode:units = "unitless" ; O3_Mode:missing_value = -9999.f ; int qc_O3_Mode(time) ; qc_O3_Mode:long_name = "QC bits: Ozone mode" ; qc_O3_Mode:units = "unitless" ; float O3_Span(time) ; O3_Span:long_name = "Ozone span value" ; O3_Span:units = "counts" ; O3_Span:missing_value = -9999.f ; O3_Span:C_format = "%10.3e" ; int qc_O3_Span(time) ; qc_O3_Span:long_name = "QC bits: Ozone span value" ; qc_O3_Span:units = "unitless" ; float O3_Offset(time) ; O3_Offset:long_name = "Ozone offset value" ; O3_Offset:units = "ppm" ; O3_Offset:missing_value = -9999.f ; O3_Offset:C_format = "%10.3e" ; int qc_O3_Offset(time) ; qc_O3_Offset:long_name = "QC bits: Ozone offset value" ; qc_O3_Offset:units = "unitless" ; float O3_Temp(time) ; O3_Temp:long_name = "Ozone sample temperature" ; O3_Temp:units = "degrees C" ; O3_Temp:resolution = 0.1f ; O3_Temp:missing_value = -9999.f ; O3_Temp:C_format = "%4.1f" ; int qc_O3_Temp(time) ; qc_O3_Temp:long_name = "QC bits: Ozone sample temperature" ; qc_O3_Temp:units = "unitless" ; float O3_Press(time) ; O3_Press:long_name = "Ozone sample pressure" ; O3_Press:units = "atm" ; O3_Press:resolution = 0.1f ; O3_Press:missing_value = -9999.f ; O3_Press:C_format = "%5.1f" ; int qc_O3_Press(time) ; qc_O3_Press:long_name = "QC bits: Ozone sample pressure" ; qc_O3_Press:units = "unitless" ; float O3_Cont(time) ; O3_Cont:long_name = "unknown" ; O3_Cont:units = "Hz" ; O3_Cont:missing_value = -9999.f ; O3_Cont:C_format = "%10.3e" ; int qc_O3_Cont(time) ; qc_O3_Cont:long_name = "QC bits: unknown" ; qc_O3_Cont:units = "unitless" ; float O3_Samp(time) ; O3_Samp:long_name = "Ozone sample frequency" ; O3_Samp:units = "Hz" ; O3_Samp:missing_value = -9999.f ; O3_Samp:C_format = "%10.3e" ; int qc_O3_Samp(time) ; qc_O3_Samp:long_name = "QC bits: Ozone sample frequency" ; qc_O3_Samp:units = "unitless" ; float O3_Zro(time) ; O3_Zro:long_name = "Ozone zero concentration" ; O3_Zro:units = "ppm" ; O3_Zro:missing_value = -9999.f ; O3_Zro:C_format = "%10.3e" ; int qc_O3_Zro(time) ; qc_O3_Zro:long_name = "QC bits: Ozone zero concentration" ; qc_O3_Zro:units = "unitless" ; float O3_Spn(time) ; O3_Spn:long_name = "Ozone span concentration" ; O3_Spn:units = "ppm" ; O3_Spn:missing_value = -9999.f ; O3_Spn:C_format = "%10.3e" ; int qc_O3_Spn(time) ; qc_O3_Spn:long_name = "QC bits: Ozone span concentration" ; qc_O3_Spn:units = "unitless" ; float PSAP3w_FlowRaw(time) ; PSAP3w_FlowRaw:long_name = "PSAP3w Sample Flow" ; PSAP3w_FlowRaw:units = "l/min" ; PSAP3w_FlowRaw:valid_min = 0.1f ; PSAP3w_FlowRaw:valid_max = 3.f ; PSAP3w_FlowRaw:resolution = 0.01f ; PSAP3w_FlowRaw:missing_value = -9999.f ; PSAP3w_FlowRaw:C_format = "%4.2f" ; int qc_PSAP3w_FlowRaw(time) ; qc_PSAP3w_FlowRaw:long_name = "QC bits: PSAP3w Sample Flow" ; qc_PSAP3w_FlowRaw:units = "unitless" ; float PSAP3w_FlowCorrected(time) ; PSAP3w_FlowCorrected:long_name = "PSAP3w corrected flow based upon mentor calibrations" ; PSAP3w_FlowCorrected:units = "l/min" ; PSAP3w_FlowCorrected:valid_min = 0.1f ; PSAP3w_FlowCorrected:valid_max = 3.f ; PSAP3w_FlowCorrected:resolution = 0.01f ; PSAP3w_FlowCorrected:missing_value = -9999.f ; PSAP3w_FlowCorrected:C_format = "%4.2f" ; int qc_PSAP3w_FlowCorrected(time) ; qc_PSAP3w_FlowCorrected:long_name = "QC bits: PSAP3w corrected flow based upon mentor calibrations" ; qc_PSAP3w_FlowCorrected:units = "unitless" ; float PSAP3w_AvePeriod(time) ; PSAP3w_AvePeriod:long_name = "PSAP instrument averaging period" ; PSAP3w_AvePeriod:units = "min" ; PSAP3w_AvePeriod:resolution = 0.1f ; PSAP3w_AvePeriod:missing_value = -9999.f ; PSAP3w_AvePeriod:C_format = "%2.1f" ; int qc_PSAP3w_AvePeriod(time) ; qc_PSAP3w_AvePeriod:long_name = "QC bits: PSAP instrument averaging period" ; qc_PSAP3w_AvePeriod:units = "unitless" ; float PSAP3w_TrBlu(time) ; PSAP3w_TrBlu:long_name = "Transmittance Blue" ; PSAP3w_TrBlu:units = "ratio" ; PSAP3w_TrBlu:valid_min = 0.3f ; PSAP3w_TrBlu:valid_max = 1.f ; PSAP3w_TrBlu:resolution = 0.01f ; PSAP3w_TrBlu:missing_value = -9999.f ; PSAP3w_TrBlu:filter_wavelength = "467 nm" ; PSAP3w_TrBlu:C_format = "%4.2f" ; int qc_PSAP3w_TrBlu(time) ; qc_PSAP3w_TrBlu:long_name = "QC bits: Transmittance Blue" ; qc_PSAP3w_TrBlu:units = "unitless" ; float PSAP3w_TrGrn(time) ; PSAP3w_TrGrn:long_name = "Transmittance Green" ; PSAP3w_TrGrn:units = "ratio" ; PSAP3w_TrGrn:valid_min = 0.3f ; PSAP3w_TrGrn:valid_max = 1.f ; PSAP3w_TrGrn:resolution = 0.01f ; PSAP3w_TrGrn:missing_value = -9999.f ; PSAP3w_TrGrn:filter_wavelength = "530 nm" ; PSAP3w_TrGrn:C_format = "%4.2f" ; int qc_PSAP3w_TrGrn(time) ; qc_PSAP3w_TrGrn:long_name = "QC bits: Transmittance Green" ; qc_PSAP3w_TrGrn:units = "unitless" ; float PSAP3w_TrRed(time) ; PSAP3w_TrRed:long_name = "Transmittance Red" ; PSAP3w_TrRed:units = "ratio" ; PSAP3w_TrRed:valid_min = 0.3f ; PSAP3w_TrRed:valid_max = 1.f ; PSAP3w_TrRed:resolution = 0.01f ; PSAP3w_TrRed:missing_value = -9999.f ; PSAP3w_TrRed:filter_wavelength = "660 nm" ; PSAP3w_TrRed:C_format = "%4.2f" ; int qc_PSAP3w_TrRed(time) ; qc_PSAP3w_TrRed:long_name = "QC bits: Transmittance Red" ; qc_PSAP3w_TrRed:units = "unitless" ; float lat ; lat:long_name = "north latitude" ; lat:units = "degrees" ; lat:valid_min = -90.f ; lat:valid_max = 90.f ; float lon ; lon:long_name = "east longitude" ; lon:units = "degrees" ; lon:valid_min = -180.f ; lon:valid_max = 180.f ; float alt ; alt:long_name = "altitude" ; alt:units = "meters above Mean Sea Level" ; // global attributes: :ingest_version = "process-ingest-aos_ingest-8.0-0" ; :libingest_version = "ds-dsutil-ingest_lib-1.7-0" ; :libdslibc_version = "ds-dslib-c_lib-1.2-0" ; :libdsdb_version = "database-dsdb-c_lib-1.2-0" ; :ingest_software = " aos_ingest.c,v 8.1 2006/08/14 21:48:12 ermold process-ingest-aos_ingest-8.0-0 $" ; :proc_level = "a0" ; :input_source = "/data/collection/sgp/sgpaosC1.00/AOS1-C1.10705150000.raw" ; :site_id = "sgp" ; :facility_id = "C1: Lamont, Oklahoma" ; :sample_int = "Not Specified" ; :averaging_int = "None" ; :serial_number = "Not Specified" ; :comment = "" ; :resolution_description = "The resolution field attributes refer to the number of significant\n", "digits relative to the decimal point that should be used in\n", "calculations. Using fewer digits might result in greater uncertainty;\n", "using a larger number of digits should have no effect and thus is\n", "unnecessary. However, analyses based on differences in values with\n", "a larger number of significant digits than indicated could lead to\n", "erroneous results or misleading scientific conclusions.\n", "\n", "resolution for lat= 0.001\n", "resolution for lon = 0.001\n", "resolution for alt = 1" ; :qc_method = "AOS Mentor QC" ; :qc_description = "Each qc_ contains bit packed values for each corresponding\n", "measurement where the bits are interpreted as follows:\n", "\n", "0-System (Contamination)\n", "\n", " 0x1 Local contamination (Not set by ingest)\n", " 0x2 Wind speed < min (Not set by ingest)\n", " 0x4 Wind direction out of sector (Not set by ingest)\n", " 0x8 CN spike (Not set by ingest)\n", "\n", "1-System (Sample Air)\n", "\n", " 0x10 System Zero Mode\n", " 0x20 Stack offline (tilted)\n", " 0x40 Zero/Stack flow > max\n", " 0x80 Zero/Stack flow < min\n", "\n", "2-Instrument (Values)\n", "\n", " 0x100 Value > max\n", " 0x200 Value < min\n", " 0x400 Std. Dev. > max (Not set by ingest)\n", " 0x800 Std. Dev. < min (Not set by ingest)\n", "\n", "3-Instrument (Mode)\n", "\n", " 0x1000 1 um impactor\n", " 0x2000 Instrument Zero mode\n", " 0x4000 Calibration mode\n", " 0x8000 Offline/inop/no data\n", "\n", "4-Instrument (general)\n", "\n", " 0x10000 Power Off, Flow Out of Range\n", " 0x20000 Dependant Min/Max Field Out of Range\n", " 0x40000 Incorrect Valve Position\n", " 0x80000 Instrument Bypass\n", "\n", "5-Instrument (specific 1)\n", "\n", " 0x100000 TSI lamp power out / CPC Low Vacuum\n", " 0x200000 TSI valve fault / CPC Low Liquid\n", " 0x400000 TSI chopper fault\n", " 0x800000 TSI shutter fault\n", "\n", "6-Instrument (calibration)\n", "\n", " 0x1000000 TSI cal air\n", " 0x2000000 TSI span gas (CO2)\n", " 0x4000000 Not Used\n", " 0x8000000 Not Used\n", "\n", "7-Mentor\n", "\n", " 0x10000000 Data not flagged, but invalid\n", " 0x20000000 Data not flagged, judged suspicious\n", " 0x40000000 Data flagged, judged valid\n", " 0x80000000 Not Used\n", "" ; :zeb_platform = "sgpaosauxC1.a0" ; :history = "created by user dsmgr on machine ruby at 15-May-2007,2:11:45, using $State: ds-zebra-zeblib-4.16-0 $" ; }