netcdf nsamwrtipC1.b1.19980426.000004 { dimensions: time = UNLIMITED ; // (9444 currently) qc_info_length = 31 ; variables: int base_time ; base_time:string = "26-Apr-98,0:00:04 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 1998-04-26 00:00:04 0:00" ; float tipn(time) ; tipn:long_name = "Tip configuration number" ; tipn:units = "" ; tipn:field_index = "1" ; tipn:minimum = "1.000000" ; tipn:maximum = "2.000000" ; tipn:delta = "1.000000" ; float actaz(time) ; actaz:long_name = "Actual Azimuth" ; actaz:units = "deg" ; actaz:field_index = "2" ; actaz:minimum = "0.000000" ; actaz:maximum = "359.000000" ; float actel(time) ; actel:long_name = "Actual elevation angle" ; actel:units = "deg" ; actel:field_index = "3" ; actel:minimum = "0.000000" ; actel:maximum = "359.000000" ; float bb23(time) ; bb23:long_name = "23.8 GHz Blackbody signal" ; bb23:units = "counts" ; bb23:field_index = "4" ; bb23:minimum = "0.000000" ; float bbn23(time) ; bbn23:long_name = "23.8 GHz blackbody+noise injection signal" ; bbn23:units = "counts" ; bbn23:field_index = "5" ; bbn23:minimum = "0.000000" ; float bb31(time) ; bb31:long_name = "31.4 GHz blackbody" ; bb31:units = "counts" ; bb31:field_index = "6" ; bb31:minimum = "0.000000" ; float bbn31(time) ; bbn31:long_name = "31.4 GHz blackbody+noise injection signal" ; bbn31:units = "counts" ; bbn31:field_index = "7" ; bbn31:minimum = "0.000000" ; float tkbb1(time) ; tkbb1:long_name = "Blackbody temperature 1" ; tkbb1:units = "K" ; tkbb1:field_index = "8" ; tkbb1:minimum = "223.000000" ; tkbb1:maximum = "320.000000" ; tkbb1:delta = "1.000000" ; float tkbb2(time) ; tkbb2:long_name = "Blackbody temperature 2" ; tkbb2:units = "K" ; tkbb2:field_index = "9" ; tkbb2:minimum = "223.000000" ; tkbb2:maximum = "320.000000" ; tkbb2:delta = "1.000000" ; float tkxc(time) ; tkxc:long_name = "Mixer kinetic (physical) temperature" ; tkxc:units = "K" ; tkxc:field_index = "10" ; tkxc:minimum = "316.000000" ; tkxc:maximum = "326.000000" ; tkxc:delta = "0.500000" ; float tipsky23(time) ; tipsky23:long_name = "23.8 GHz sky signal" ; tipsky23:units = "counts" ; tipsky23:field_index = "11" ; tipsky23:minimum = "0.000000" ; float tipskynd23(time) ; tipskynd23:long_name = "23.8 GHz sky signal+noise injection signal" ; tipskynd23:units = "counts" ; tipskynd23:field_index = "12" ; tipskynd23:minimum = "0.000000" ; float tipbb23(time) ; tipbb23:long_name = "23.8 GHz blackbody signal" ; tipbb23:units = "counts" ; tipbb23:field_index = "13" ; tipbb23:minimum = "0.000000" ; float tipsky31(time) ; tipsky31:long_name = "31.4 GHz sky signal" ; tipsky31:units = "counts" ; tipsky31:field_index = "14" ; tipsky31:minimum = "0.000000" ; float tipskynd31(time) ; tipskynd31:long_name = "31.4 GHz sky signal+noise injection signal" ; tipskynd31:units = "counts" ; tipskynd31:field_index = "15" ; tipskynd31:minimum = "0.000000" ; float tipbb31(time) ; tipbb31:long_name = "31.4 GHz blackbody signal" ; tipbb31:units = "counts" ; tipbb31:field_index = "16" ; tipbb31:minimum = "0.000000" ; float airm(time) ; airm:long_name = "Airmass value" ; airm:units = "" ; airm:field_index = "17" ; airm:minimum = "1.000000" ; float tbzenith23(time) ; tbzenith23:long_name = "23.8 GHz zenith brightness temperature" ; tbzenith23:units = "K" ; tbzenith23:field_index = "18" ; float gain23(time) ; gain23:long_name = "23.8 GHz calibration curve slope" ; gain23:units = "" ; gain23:field_index = "19" ; float r23(time) ; r23:long_name = "23.8 GHz goodness-of-fit coefficient" ; r23:units = "" ; r23:field_index = "20" ; float ndiode23(time) ; ndiode23:long_name = "23.8 GHz noise diode calib (injection temp) at Tkxc" ; ndiode23:units = "K" ; ndiode23:field_index = "21" ; ndiode23:delta = "0.500000" ; float expave23(time) ; expave23:long_name = "23.8 GHz noise diode calib adjusted to tknd_nom and low_pass filtered" ; expave23:units = "K" ; expave23:field_index = "22" ; expave23:delta = "0.500000" ; float tbzenith31(time) ; tbzenith31:long_name = "31.4 GHz zenith brightness temperature" ; tbzenith31:units = "K" ; tbzenith31:field_index = "23" ; float gain31(time) ; gain31:long_name = "31.4 GHz calibration curve slope" ; gain31:units = "" ; gain31:field_index = "24" ; float r31(time) ; r31:long_name = "31.4 GHz goodness-of-fit coefficient" ; r31:units = "" ; r31:field_index = "25" ; float ndiode31(time) ; ndiode31:long_name = "31.4 GHz noise diode calib (injection temp) at Tkxc" ; ndiode31:units = "K" ; ndiode31:field_index = "26" ; ndiode31:delta = "0.500000" ; float expave31(time) ; expave31:long_name = "31.4 GHz noise diode calib adjusted to tknd_nom and low_pass filtered" ; expave31:units = "K" ; expave31:field_index = "27" ; expave31:delta = "0.500000" ; float ir_temp(time) ; ir_temp:long_name = "IR Brightness Temperature" ; ir_temp:units = "K" ; ir_temp:field_index = "28" ; ir_temp:minimum = "213.000000" ; ir_temp:maximum = "300.000000" ; ir_temp:resolution = "0.1 K (estimated)" ; ir_temp:time_response = "" ; ir_temp:beamwidth = "" ; ir_temp:serial_number = "" ; ir_temp:calib_slope = "" ; ir_temp:calib_offset = "" ; ir_temp:note = "Protective lid closes when wet_window=1" ; ir_temp:spectral_range = "[9.7,11.6] micrometers" ; float wet_window(time) ; wet_window:long_name = "Water on Teflon window (1=WET, 0=DRY)" ; wet_window:units = "unitless" ; wet_window:field_index = "29" ; wet_window:note = "Window heater ON when wet_window=1" ; double tknd(time) ; tknd:long_name = "" ; tknd:units = "K" ; tknd:field_index = "30" ; double tair(time) ; tair:long_name = "" ; tair:units = "K" ; tair:field_index = "31" ; char qc_info(time, qc_info_length) ; qc_info:long_name = "Mentor QC information string" ; qc_info:units = "unitless" ; qc_info:field_index = "32" ; float lat ; lat:long_name = "north latitude" ; lat:units = "degrees" ; lat:valid_range = -90.f, 90.f ; float lon ; lon:long_name = "east longitude" ; lon:units = "degrees" ; lon:valid_range = -180.f, 180.f ; float alt ; alt:long_name = "altitude" ; alt:units = "meters above Mean Sea Level" ; // global attributes: :mqc_software = "$Id: main_a1b1.c,v 1.4 1998/06/10 20:56:36 d34863 Exp $" ; :proc-level = "b1" ; :ingest-software = " mwr_ingest.c,v 1.1 1999/03/02 23:45:20 d3a058 Exp d3a058 $" ; :input-source = "mwr1:/data/nsa/nsamwrtipC1.00/raw/81152357.020" ; :facility-id = "C1 : PAARCS2:NSA-Barrow_Central_Facility" ; :sds-mode = "production" ; :sample-int = "90 seconds" ; :averaging-int = "None." ; :serial-number = "MWR20\n", "" ; :missing-data = "-9999" ; :comment = "Altitude is in meters above Mean Sea Level\n", "Using LOS1 mode\n", "Software version 2.1 (liljegren) 15 April 1997" ; :field_indices = "Each field contains an attribute named \"field_index\".\n", "This index is unique to each field and contains a value\n", "from 1 to N (where N is the number of fields in platform)." ; :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" ; :zebra_platform = "nsamwrtipC1.b1" ; :history = "created by the Zebra DataStore library, 17-Mar-99,1:26:11, $RCSfile: DFA_NetCDF.c,v $ $Revision: 3.52 $\n", "" ; }